The URL can be used to link to this page

1921934OZSB-16Z (b�9) xv:1 t80S-6Lf (11L9) -131 OZZCV HO 'snewnioo 021 N0SH3aN3H alO 886tL w O z �_3�� } y�L�G�� IVV11VJ1�11Zi�J •/\I I�/\� I L �O�t� OIHO'Niienci z S3I90I0NH031 ON12J33NION3 NI Q N011VOIJWJ30 210J 31niliSNI IVNOIiVN n N �nd N�:]Vd39CIPA ��' ' = E `- 213NOIS3a (13SN30II TEEM T c=j `disk 'r dIIIHd (IN393ml:S3iins IH E)NI JdS J NOO�19 N JVd 39CII tig Ln m U-) � O w ll1 I w LL- L) a,^_ w 00 • ;, W (/1 m v / vl LL • w -J O � I Ia,J.IJ I Z ° - w O O w z dN- m Z O • w 0 w :D OV (n Z z • w W Lli F-w W :2 W o Cy I U U W m � z L 0o p�j Y W L`' � I z z ^( � O O • w 0 :2 •wLL. LLJ LLJ O OLj W 0 • w U) � W 0 0 ` x m o Q z O 0 N 0 m 00 O Lam. 0 ZO F Q F U Z m U W 0 F- ;E O U O F- :r z 0= 0 W W U W ZO 00 w w� m F- U J J E-- � F- LJL. WWLL. Q (n Q Q Q �W- F- 0 I \ O p z (n (n W (n = D X LLJ 0 JV) J- Y O Y0 Oo Ym 0 F- Q F- 0 m 0 :2 Oz g :2N :2\ W W 0 O W a. LL Ln (n m (n 3: = w Q Q 0Y 4/1 40 Q,� a o /s � s14a y -� boasa� � a�Q °°A A �,�a d�,1 /QJo Is, �6Q `'��'n / 'dU J �O �� SS 0 yS a �0 Q�a • ba a�6a Ja/a '�4�� /a Jb Aa //Q • �J °% Ui a ��, p '/Jo 0 b //Qoa St�0 a�Q,o / //Q a/a� Asa 0 4,01?4C)00a� sa,, °Ssb asQa Q� -,o �S ,ram 40 a4 ° ySQ Op�� -I---� y da o��Q os,�� aq� �4�; 40 v J ,�Q �S 45 a4,�S s o� ../�y o �Q'1a >� O� Cris�� °� /Q46 �oJ aa� /Q4 o �,s Q/Q ; /Q 40 O4; Ja /o�a4 /Q a�J�Q�� o /Q -41 �6,s s/Q�6 a6� a�� • �s�Q 0�4 J a !s �o QyJ •� 4� O/� � Q�J �o /Qo QJ,p /Q416 ' S a/ 00 �f /Q !s �' 9�°./ �6�s cos% � �o T40&/ aa�S °'�QJ /Q ad 9/9,i 41 Oa;Q� a 1940D� coo �Q azo �Jb J ab a�Q 00 O V) N jU m m0 I tY Z 0 LLIQ j o� ~� v tm cLof J m LLIof LL. O F_ 0 0 .-- L�L m> ° J of �Q 0U Lj- ww �� W > U>-- wo • w _ U 0� Fm-- LL.0 UZ F-- Z = LL > Oz F- ° OU ^ W C� �` o= m .. zo ��w �- o f == O m w 0 zU II ^w C� to c0 j Z F- U 0 m clf I 0 wz z� i U wa >Lw� ' Z z o v�> w NO m wo o LL Y :2 00 U :2 N z W 00 W 0 (1) J W F- .w U~ LJ (n wz W z ~ ^ Wa- � � :2 fm S O m WO N �zU �L -_O W LiJ = W J U 0 0 d'UX LLJ 0 U V) W LL O O z tX) O . w O Z W Q I I I I m o U � mW `1'= w z X z w w w oo mom OJ Q 0 tY zO OE -J -j m 0- 0 J O0 00 00 00 ~ �=QO C) L- ~ 00 0 m Ll. z Y a W 0 0 m w ^� �� I U W W � �_ O O Q � O V/ V/ cn V I w � X ZLij - F- J Z : m 2 m m (n F- U = LLJ !Y w o. N W U Q Q O O O Q II J w > o Jz zw 0 0 ce U Q CL^^^� a-W >>--0 Q Z z N= o � U �Lr1J z � _J J J J �� O m Lli � 0 - a- F_ (o F_ z zm J O O O O X m . i \ U) V) W(n Z W OU < Q Q 0 �� v �W� Q • w (n (n J J m W -� Q Z W W W W _1 ° 0 Z _ � � � O � Z Z Z Z O LLI W 0 w m Q Q m ~> m LY W F- m J J J J Z o J U (- J J (n V) (n z L1.1 V)� J J J U -1 LL LL LL LL m ^ Q U V z L`.I W\ W m W F_ Q Q Q Q 0 0 0 0- Q cn � m w z (n LW 0 -1 ULLJL.Li LL.Li`' F- F_ (n LL- o o O 00 P- 0 L �_ O w z zz Z Z �w m m 0 0 W 0 (n (n Q Q = F- J (n Z W Li Z L% W W W W U LL >> w Z m c ooJX Xloov)F-xa m� � Q m U U r- Z LL. Q Q U LL IZI W -J N L F- _U F- ¢ Q (n CL W U0Z QZ WO Q°UZ 0Q J J ^ L L. U JU 0�zN U F- m� Q F- UJOo U W (n W U 0 F- F- < IL Q Q Q z0E-z ZO J(n Qw0 W L=- V)o 0 m z QO �U (~l) W mm LL- m=z0 W=0 �-z CLO 0 J W � V) QW F- OJ UO 0O^a^_2 �m m U w Q J � J J O Z Q QLLI W QZ OJ mOo ZQ Q J LiUQ^ Q JU JO W J^O m O o FJ crn FF-- Q�� Z o N N t o F.'4- 1 Lt7 co r--co 1 O) 1 O 1 � N n � Ln w r--co 1 0) 1 O 1 � N n%- r- r- T- � Ir- � N N N N moommomm mommommommommoom MENOMONEE mommommommommon m 0 NONE mommoom m m 0 mommommommom ME MEN MEN moommommommoom MENNEN mommommommommomma Boom mommommommommommomon MENEM moommommommommoom nommoommommommomm a moommomm 0 No moommomm iv0000000■o■oo■■■■■■■■■■■e i0000000000000000000000000 mommommommom nommoommommommomm 0 nommoommommommomm 0 moommomm 0 No moommoom moommomm 0 No ommommom in mommommommom in Iffloommommommom n i 0 N +j Q) .. I Wla 4— C- I 4— O 0 4-1 - 0 0 a� 0 4-1 _0 a� 0 L- 0 a� -v O 0 E 0 W 0 0 �J 4— m .c c i a E a N a E v a a E a IP L l- NItoI�I0I(oI�Ico10IoIT-INI"I�I'oI`°I�I 111)1OINININI LJ 0 0 w m W > 1W > m J 0 -j U �-0 J O Z� p O Z 00OQJQW Q W (n W F- W LLJ ZO t.L J J ^ Q Z Z = W 0 (n �? F- F- C5 Q F- Q Z m o m J of Q W U_ w to J Q W m c� -v W Y O = W � w � � � � � � Z F_ 0ZF_ z > U 0F_ J Q W wF- Ln U J J N _ F=•-2Q = z <�O WOW W QL? (� O (n% zCD : Q-J0 wmwW o > =Z W� F- z U D 0 U O W E--0 o Fl- z w0 W (n �U Ls1 > J %" z OF-Z tYwLEI O (n m z F-z(n- ZOZ Q 0 V)LL�- Z)>.z V) p �-0-0 V) (n o i- O z � Q m- F- o V) m o z L- , • F_ o . Q - Lr o L. LJ Q 0 w - D:f_ V) {/�yL/ Q V) F- = W (Y Z LY W W m �/ = Q Q Q O Q L.L •` O U /1/ _ � Z Q 1.1 U (/ F_ OQF- a_ O a_ a_ L�.wcn �I=- cn m L�..Z^ W_ F-''-' Q~ 1 0U Lw= � o� °cnL.� O zLL_ LLJ- v,w��W O 0�0�0 0o m 0 O Omx � J 00 O > LL z m WQF- �� °z Qa-W om QZQm>m (n U- m W r) U L.�. �•- W Q VOzUwF-W Q QOo-J to W wF- F-F_t-w Wtn L`'i o cn F- ~ W F- o� Q- <0 w o-io DLd mZ Z � w�WW WW WmU> = XZO Li F- Z z U Q F'Q I U V) m J zmF- WWW 0 QU � OF-=F...'s W(n 0w L� z F- F- W O W m w 0 F- X Q O W W O m L�. F- F- Q J-wW-WZ~: JF=-0E- 0 F- WO WZ0 OQ a- of W W0 O J N U UU 2~W wt�< QWm Q <>- 0w OWm V)0 Z F_XQ(�CYQ Q Z0-1 oW°W (n z mz W :m V)LL. Z mw U (!�\� (W t` �0 F--ZU mWw �LYU ,� Jt�L`Oz0 �w� ZY O(nQ:=Wm UO OWa-W W W o o(nc�O F- U I m OJ Y W O W ( W Lim wmlY z OEW Q W� Q _,F- W-v J F-Y� JWmm J m U w Q�QO U� W z -� U= 0 Q °° VO J c� tr U :2 U) �W m0� �0 �zWW �. Q O Y w0 W WO Q =Z 3: a:0 Q0 O U ZU U 0 m � Z m-j F'- 11._ z -� pF_ (!) CL F-•J W>=(nQW W J00M0E-0Z = �0p� L'- OO F- ml- Z -� QQ - (n W z O0 0Z�- Q-�v) Q ..Q Q m�ZW � W wm mMWF-0WJ _ 0(:n(_n0�°JQ V OZm� zF- (nz p F-Q H Cl)mW WU Z 0\� F=-Q V) 0 U o0J ~ Ln wQO� tY -F J Ld ZWQ F- (nz wQ m • (n -U Q F- m F- o tr F-� V)�/�Q Wz_ U_ /�/--� F- Q X Ww WOQUj� VJ Jm 0 w7 J � QQ O2W z X Z Z - Q 0> = Q QOV/ WV/p __ Qua- V/ zQ -fOW ZF- F-00>U V/ 0WZ ZWQO F-Z Q Z o0 z =F-LLO�W 0z W J p WQ w F_ ZF- 0E- �� J U a_ 0 Uo JZ Q� ¢W z0WW m U=OW->~F- z 0O0 = W~ _� = m Q W LLI JO (n Q� Li-J 0Q W >OQ^ Wm1-J0 Wm mC F-�0mV)=0 UF-�=-F=- Q(nU o oUHW F_- JU F� m�U -1� W z F-Z o Q ^o F=-ZOQ 0-j0 a- z� W -r U) WSW U OmOQ F-W o QF_U z=zw z Qw JQ -w �ow� O� U 0 O ZF- J �� LY QLijZ to OZ Z -�zt-Z wz O (n O F- W F-Qm O F- -J 0LLJ Qw F- LLJF-W LYO Q o- U Oz }• Q N LLJ �- �-L10 o O�3 �� 00 W mcDz= > . F= F- W W U m F- F- Q F- W J F- U Q (n F- U F- W J W 00 0 Z = _ �- F_ J � Q lL Z 0 L�J ° m U �- = J Q C� 0 U'=w0QQtYO zo U 0w (nz U)F-W >zoY z m M L�U J F=c5 o- P Jz U w F-Z� Q WwQ Q 0 -_ =zm �- om F-Cw L.LJZ �z-w Z- F-J m m- IY OI- I-W-J=Q -Z I-_ 0 Zo = U) w - Z 0-�..JUF- O- 2U W •WW(n UQI- zOQ WLocoO o to � m Zcn = o = to .Jo O F-�- O - Uz Q wJ o w.�� zW �- W I oo � am.. OzQ�~t) 00 -0W~ ~ WU ULQ-� WO ,� Um - J L� W LLZ U L-L j U U O ZLLU F- IY -�~tL 0 WSW= Wa-D O~� cr-Z) I o W 0 z z tY z m U F- (n � (n a- Q m Z Ir Z m F O Q cn Q -� z (n O m F- F- U = Q O J Q m 0 0 - F- Q Li F- >- Z O D J >- W = IL, Q o W m(n�Q F- W m� z z to OJ U F- � J w Q _ o o UF-- z JWWz a F_ o oOQ� a-mF-0 F_0 JU F- W Q fY F- F- U W_ J Q ti Q F- W F- W J F- W W QZUUVU0L.L1O tYC� �W JQ w JLw-• nn�� W ~¢ _ m0 Z �W m � z mQ>- QtYU w W J 0 W m Wm U�UwV) �0 tY J� tY OmW Utn O to Z0 W m I Q F- �JO 0_ ��' Q F_ Uz 0F_wQ=2 Z�W Q QW 0 Lr F-J J O� _ .�F- �=Q Q W > Z w tY Z w- F- Q >- tz Q W = F- F- (n O = Q F- WW �= zJ Ld w 0Q W0 U 0 OZ W QZ = F- OOU -� � (n mUV) }.tY_F-J oZW _Jw >O WL.- F- O��,WF_0E->W WQ Iz V)Q w =En WW F_ = F_ 0 O F- QO Jmm 0 m �0 F-OQW� Wom w QO Z Y (n JmQ Q m� o- Uo w 0-0 J V)z Q 0�Z QF-mrz �wtn w ww Om Q WF-0 zOz Qcnw -j wJOWC� D QU m�w0 (n� W(n_ 0 YO UW� ZU ZY 0 >-� Q W O = 0- wZ O QQ>-- O o Qz Wozz 0 Q W = Uz0 >z �Z ZwJ OW OW }..Z (n00� z W O Op QU 0 (n0 Z F- o w m-Q o m Z ZWL`- m�J Z00- 0 -tY-� F-ZWU W m m �m m JtYYZ U m lY0 Z m- F-O LL --I O Q WQ fY�� >-JUz (n F- (n JJW � wQ �>-- QZO wJ° a. z W O �z c� Q> zoo oXJ o ~0 V)m =W> OWm �~ ~m(n0_m0 ZF=- ZQmZW J> a- OWWF_ F-J mJL�- - (n mZ o >= F- WQ O JO W >W F- :D Q U m JF- WF--JWz Qm W �OWOF-Q OU Q� =OQ=Qm 20 F-== V)Q -•L Lz mF= o mY Q m Z IY J Q QF-(n F- m =J F-z0 mmo(nQ F- - m U W >- � Q O v) a < z -J w LLJ F- o F_ F- _ UFO z W W � Lu Q - F- LL m F- W EE cn (n -� F- _ W Q m - LY (n �- m m m W > 0 Z F- Q Z m m m W F-0 ZF- Q w (/►W J�� O�//1(� 0 V D z 0 Z w W �� Z QZ�=En m L�.. V/ V)v Z QmQ w W U Qo m Q 0W(_nF-Z F-- 'JW 0_ �� Q(/� 0 J Q m Jmz UOO OJ Sz Lw W m OQ`-' QW 0 Dwm H - J Z �_tY F- >0Z~o p0 OUO 0 Ln wIw-13: zo Qof z j-i= UO :2 QO o Qa. Oo Qw O F-O QOJ (nm�p �� mQ LLJ 0 Lam_ m QL=- Woo>- mJQm�o w OQQ(n J � 0 WmW cn L`- L,-L- '-`' =F-- � mZQ UF- U OZmZ F-Z � }"- (n Q 0 J _ W O Z_ F- I- F= > Lj J 1- W F-- m- J QLLJ F-� mw (nF-ZWN W= U QO W F- WWF-lY F--•J O O =W 0 F- J W m mU QW V0� (n Q }- wl••uZ F_�(n = WWQO }-Qm �W _IM mW Uo 0 F-0ZO-°0of WV) F-=�'' F- -'w (-"�U oz_¢i Qo �� F- 0 <_F- �. -J >•-F- �U� om o=�w� ��cn ozW mWm<:z m w w Q a-�ww (n w = Ow CL z >L_'cnU zQ 0 W o O Q(n Oww U tr -m 0_ W� m Q z g z _z U WO F-J L� mW0 J Z� z mmZ F-=QF- ZF- Q 0 Wm 0 =z I O wF- 0mm w�tY W m ZW W� Z(n F-= >WL�-z Z�Y _�- (nF- Q z -� m J= : -� F- � O tz m O �_ U o > Q J> Fw- m(n-�zQF- JO WmUW_ Z WW W0Z QU(�W WZ F-w m C1 a- LL- O oZ _WQF- m-o W QZ F-M F-�F- OZF-Q W Z w JQ OWWmW=�Q=0 -�� =Q�= OW �U xc�o wQ(n =O O(n E\O w oLL t� N z0 ==z0 who m z Lzof< XO O(n0>-- �QO� OWQ �Om2QW>- Q= F-0MWX �0< QLL �UU(n o> �� wmU =�Qz �U zD a. z F-Q Ir 00 0 -,DO F-F-DZ >�Q Q _ a mm wU oQz(n� o6 C l F-QL-=gym Ln O � 00 6 O � T- Irt N �Z N 00 OZ58-LSz (#&g) xvd V80S-6&V (VW 131 OZZCV HO 'snewnloo OU NOSM3aN3H OlO 886L& _ 77L7vY7T IYVIlV V1�11Gd��J 7\i 1�7/\7 1 S3190-IONH031 JNIU33NIJN3 NI a �L= NOUVOIJUU30 UO=l 31niliSNI IVNOIiVN U3NOIS30 a3SN3011 S'8"8'O b'ISIS 'f dlllHd } - r , % / y� Ll0£b 01HO'Nnenci I I - 3f1N3AH >bHd 30CM:19 SLtiV :100 (IN003S:S3iins IH ONI JdS J NOO�9 N JVd 39CII J9 i Li V co yyLyGPF IVUil`G'Ji:J11d=IJ •I\1 ICI\=l I LWEV OIHO'Nnana z S3I90I0NH03l JNI2133NION3 NI 0Z49-L6Z (V 9) XVJ V9os-6« (bL9) 131 - N011V01=1112:13J �30=1 31niliSNI -IVNOIiVN 3nN3AV )i�:]Vd 3SCMJ8 gLirtr CL C' ozzsb Ho `snswnioo ON N0Sa30N3H alO 8966b 2ONJIS3a a3SN3011 S•8'8.O �- - -- `disk •r d1liHd h b < 100 :A (I :IlHi:S3iins mi IH somp-opc £ ,• ;� IF ONI JdS :J NOO�19 N :]Vd 3!DC]l J9 LJ �Z � E-�� 5LyG��F NUII.VJI=ll-L =IJ •/\I ICI\d I S31JOIONH0310NRJ33NIJN3 NI L WEt, 01HO'Nriona < OZ48-E6Z (tiE9) X t/d Vsos-sEti (VEe) ,al OZZCV Ho `snawn,00 � _ � r � �, _ a NOUVOI3112J30 �103 31niliSNI -IVNOIIVN 3nN3AV N�:]Vd 30(MJ9 gLtptp � IL Q2i NOS213aN3H 010 886 E E i �> g 213NOIS3a a3SN3011 S'EFTOJOO dISiS 'f d111Hd :S311ns �lm Hi ino: �lmllH I low_ E)NI AdS =1 NOOmlEl N :]Vd 3E)CII JEI LLJ CIA 0 WE 0Z48-L6Z (Vt9) XVA v80£-6Lv (VL9) 131 OZZ£ti HO snew iioo CH NOSU3aN3H 010 886LL �f 55 9U# NOUVOLI 12M An -13n31 L WEV 01HO'Nrienci S3IJOIONHO31 ONIU33NION3 NI z t NOliVOI=IlIU30 UO:J 31niliSNI IVNOIiVN 3nN3AV >R:JVd 39CM:JB gLtt U3NJIS3a a3SN30I1 S'8'8'O ol I H dISIS 'r dl-ilHd JOO�1=1 Hi:JI:J:S3iins ONI JdS :J NOO�IEI N :]Vd 39CII 19 LL LO Q LL Z 55L5Z�# NOil`d�1�112j�� i ��n�� L WEV OIHO'Nnana -� S319010NH031 ONW33NION9 NI z 0z99-t6z (via) xd� -`- Q N011`dOUM:130 �10J 31niliSNI IVNOIIVN 3nN3AV >QJVd 3001�113 SLtt ozzcv Ho snewn-ioo _ f ON N0Sa3aN3H a,0 886tL l = ?13NJISM 03SN301 1 S'EFTO - `dISIS T dlllHd100�1=1 HiXIS:S3iins m1mlIH - ,- _ 1 ' %I y * i 1 - - !mil il,IONI JdS J NOO�19 N JVd 39(11 19 yLL- CN 10Z 00 Ozss-Lsz (vts) xeJ 55L5ZL# NOI VOLIM:13O =/11-13A31 S3I901ONHO31 0NI?133NION3 NI L WEV OIHO'Ni-ionci I < I I szs8-isz�ctits) ,31 Ozzcv Ho snewn-ioo as NOS213aN3H al0 886LL �5,vess** - �c / m N011b'ODUl 130?�OJ 31n111SNI I`dNOI-LVN 2�3NJIS3a a3SN30I-1 S'EFITO �nN�nd il�idd �JaI?�8 �L��I7 N I I j ( o I SV\JEIJ-SAS ti i LU co �:.00 VISIS -r dI-lIHd !S311ns mlmllH E)NI :ldS ! I -- � =1 NOO 9 N JVd ElOC11 :113 W U� m N R O . F«^ W c p c O a�i rn Eav� E N J w p v zr ¢ c = O _ E ❑.. V-' ❑ - «vy O..ycff and m E 4 mo k 0 m E to ►- cn o O eta d y 0 E C7 .- L C C w w wU�� m L 0 O} i31 CD (3 LU O z ❑>0 cc�p�� Elp�Ensc9m `o IQ E E a) () a) a) (a N (D (D �--• m t w � QS c o c (DU n Quj �o a'aci cw ° E cr Of C N L 3 v O > E of cn LL .3 s o ❑ ❑ ❑ �(DTc.pp. a w D U O �v1 UY c � uNi U - C •- N C C N U w(6 Q U j -E O N U � E O C (D m�0 OQ o he c 0 - Q w in ID No E 70 C U �' O O C O •' 0 O r� Q a a) U U 0 a) to o 'a 0 x aa) U t0 a) f6 N (n W a> > a) o�U)Coo� m m 'C ZO � � oCID a� •- Q i w i co 3 E oco a> El El13 U-aa$U'vm m Y_ E ° � � a N N 3 a 3 w D v c y �+ 0 ❑ ❑ ] N > U ` N O K o O > c UJ y > aC a > a o > L 43J O N U � a to Ct '6 C W N O U d C d O _ o ❑ O N ai m L o c m N O a❑ v Q. > ¢ O N a _ m o v O1 h W N O a 0 o v d V u N Q O Qa N O 'p i ° w o '° o m y m L > o v Z v m > N u Y pap w 00 c > - ° > °' a) OC N El -E) El a1 � oC 0 a v 3 o E m v E v 3 w a� v •> 4J t6 v g �- E N C (6 > ai ✓ Y � O 7 0Z99-L6Z (vL9) X`A v9or-6Lv (vL9) 131 ozzsv Ho `snewn-loo I SS*** 5�re-.0 - s *„� I 55L5Z�# N011VOIJU130 AI 13n31 S3I00NH031 ONN33NION3 NI 0 NOUVOIJ112130 �10� 31n111SNI IVNOIlbN3nN3AVN�Ndi L WEtp 01HO `Nl�Bno I ' I Q of NI I I as NOsm3aN3H al0 896LL CD 2J3NOIS3a a3SN301� S'EY&O `dISIS 'f dI-lIHd I U3Elil �' 0 N z I - -- =- ,N !DNI JdS J NOO�19 N 3E)CII , W 00 UL I � :]Vd :19 i I I W I I J4 �a Cn J' a o � ;o /s 4'p 00 p p s JCY /40o 0 -� � p ss moo`/ ys a SOS 0a ba a�6a %D 11 O //4 �aaSs4,.1 a �;/ ° -,°o/4y pa'/a°/a ps40 //400s4° o% w �4y/aa 4;S �lo90 /°�y S/,q 0; 4 4/00 �aq% /104, his 4/4 ; /4� �lOS/ ol/ /40a ./s • �40 ems s � 0 a /4 a �4S 04 40/p� /10 ' s a/ 00 a //'d / /4 • s T a q�C-/ /q/p ;Z) s ��° 4' o�� 14140 /94% �4tj 410 4 0 �b �4 ,tJb 4/°J ��Jb a�4 00 V) \ � [if cn Lo a_ i � z U 0 O ry O U) Q of � I �m 0 LL �� 0Of 0 a_ W W 0 J o C) Q 0 U) °� W 0 > 0 - Q U L L W I LL W W w > U }- Q LL U a_ . ^ _ = O L� J .� W O LL CD Z U3 m LL O U_ OJ W 0 CD O z < O 00 to m �-- �- 0= m z Z m 0 w W Z Z U) I W U O m - o > r O m 0 0 OU _- - J W 0 ZU ii W o W z _ >- O U cn = cfl I z F- Z U o a_ 1'0 z O m F- 1 0 0 �Z z� U I to Q Q wQ >w� m D u) Z � V) I J LL ( N Li. U m 0 W LW Q z \ 0 U W = > p W O LPL Z O Z W ��~' W (n = W r- O V- 00 U o N z o 00 W U) -j W F- W W F- r} I-- I v _ a- j Li- cn 0 m o Y Y �- °° LZLJ F- � U 0 W C) W L'- - N W_ 0 W 0 � N t� Y Q Q U m W C� Z LC) � LU F- F- U) = Li-J O = W = 0 W F- U � Z J ^ � m m ( = 0 C� Y W � J F- (n U 0 LL 0 x N I'7 d- U W O- �- F- Z Lj O U F-- � O v o m0 .� o cn w 0 p� 00 C) � O w Q I I 1 I wm owU F- Li W W � w W F- a- L;j 0 m Z af J 00 0 Q � W 0 Q J 0 0 OJ la- 0 Of z 0 0 Z O W m 0- 0 J F- F- F- F- (n � F=- m U) � W w 0 LL O 0 D m a_ W c_n 0 m c_n w J x U Q O W 0 F- 0 � O � W F-- 0 LL F- LL = Z U � U U) U) U) U) J J m J 0 Q Z O O FW- J z m 7 Of a- m 0 W = W W W W � N w^ W N x m D � -� Q m 0 o O O Q U m m m of W it 1 U .-� ^ .-. .-. 0 ( F= F_ Oz _ � >- � _ � > � � J Z z � O J � U Q Q OJ-- � p Q U � � O F- ( Q F- U - I Q D 0 Q w z � 0- -i J �- Q O J m F- -' Z F- w w O Z �= 0-- U F- F- D a_ W o o o O Q a_ ft�Of W0 Z 0 0 z m m OU U) V) V) ~ w 0 Q Z Q O W a_ Ld � Q z0 U U= 0= 0 0 W W }' w w W Q z U m Q V) O Zv O_j W w� U m m m cn m m m0 = U 0 z z z z Uw m 0 W O F- L`- LLI w L� Q� F- Q Q Q FW- m ry Q Q m ~� m m Of 1- m J J J F- Z O U F- FQ- Q Q Q J U O W (n U) J J U U) F- 0 � 0 Q J J Q J t� LL LL Li Q W Q Q I\ O 0 z CO U) W cn (n z LLI cn m U F- C- CD ^ U =W W W N W W Z Z W W \ m m W �- Q Q Q Q O O O O D Q V) V) lL Y Y O Y m F- 0 - _ n, Or- Z (n W O J U : F- F- - 0 00 O Q F- 0 0 � � � 0 0 m a_ � m W w w w �-- w O O O 0 U 0 J J (n F- -jz �N �\ W W 0 0 w a_ a_ 0 0 O 0O F- 0 J � � EE 0 m z z z z �r O O W 0 a_ Li- V) cn m U) = m Q Q � U) U) Q Q = F- J U) Z Lw L� LLL z LLL w w w W c� w > > m z n N rn Y x X (V M d 0 U �oomoo(�0000aaa �m�,� > ® v r z � m Q Q CD LL- IZI N t'7 d- CD I� 00 C� O N nLn (D� co mO N r N N N N mommmomm mommommommommoom MENOMONEE ME MEN MEN moommommommoom mommoolm moommommommommomm MEMO moommommommommommoom MENEM moommommommommoom nommoommommommomm '0000000.o.o� moommom IN moommommomme moommommommommomm0000000moommommommommomm 00000000 moommoom moommomm 0 No moommoom m mommommommom V ) n E D O D a_ Q U Q U) L O N +-0 O E U) D 0 E E U ■o E U) Oam O N O E w E 0 D 0 L- O N O V) 0 E 0 3 0 D 0 Q E Q U) Q 0- E Q iL D 0 U N U _N D N 0 D E O 0 IrINIroId-ILnIcoI,�Ico10-) oI�INI'oI�ILI(DI�I�I°'IoINININI LLI r) > I coo>LLJ> 0 � p J J a O z 0O Q W F-D w O Z 0 W N J Q W J m m C� 1- -� m 0 Q Q� z m W U) W Ld W F-- � LW Z m W J J Q Z Z = LW 0 U) ~ F=-- � C5 Q F- Q CD � 0 F- Y0= 0 W J 0 �Q Q U 0 J O F- =z W U- Ozm U) J - Q m� _N zUW F- oZF- zQ�> U OF_ J Q > WF- U) C) U) F= J N - F_O = Z ��O WoW W QW U O U)��Q m 0 �JLv 0 =u' Wm F- z U� 0 U 0 W F-U� 0 �- z 0 `-`_' 0_ =m I U) m JU W > J >- z O=z mWw V) a_ z F U)- zQzm Q 0 �W— 5>=z cn� 0 �0 U) 0 >- o Z J z Q m- f- m- U) 11= Q Q O V)m pp O Q Q o �-- LLF- � m O 0 Q -mQ OWQ O Una_ m � zJQ mU p_��F- �Z �WWm �= Q a_ F- QLiLW� ^ W W -�F- I O U�= O LLZ Zm W- Cr)LL(n LL J U) = W O Q F- a_ U a_ a_ — a- LL- Z O > F- — Q o F- U — F- 0 F- (n O C� J Q W 0 Qz F- =F- o >0 J a_ 0 0 0m-x �J 00 U'� Z D LwQ- F-� z Q°-W Qoo QzQ5>L�, W W Z m F- O F- o- J a_ 0 > Of cn W U) w r� m W r� U� U Q WO Q UOZUmF-W Q QOOJ U) w W F- F-- LU Z D U) ��-- I U W O� Q� QCl[ OJU � DLLI Wiz 0 �W J�W� ww U> O LL Z U Q —Q U) � J zm JWw Q O F- m = O C� F- w a_ _ � Z _ F- m a_ W O F- X Q O w W Q_ m LL � F- F- Q a_ C� O X Q Q U Z OWQ -! zWW-F- FW--O U) }-_�� W F- W0 WzO OQ a_ Of XU O J UU =F-W W�F- Q _ < OQ Om a_ V) z F-QU�Q 0� LLU Q Wz � JF-OF-- 0 � �- LL U W WO 00 W N U z Q WU Q Q} LLZ� LLI Q = m J J ZO-J OWOw V) z o JZ m O F- U WLv �m J JU) 0 Z U) W� Q� W U a_� m Z F_ W I � � YF- � �\J � W �0 _O Z 0 W�m QY a_ Q j W- 0 OW�W Lij Q oU)UO W U �m QOJ0 U W W O w W I m Li �UZ �m� 0 OLLLw Q U) -W SOW OfU -zJW � U UO -)U J F-Y JWm J 0 U Lw _ �QO Q� 0 Z U U= J 0 Q F- 0 mJU � U J �0�-V) m0 F-o �WW=(nQW o ZN mW QOoa_Y -0 W W07 LL Q Z �F-= m0 z � ZU U F-� a_ z m� zU- J Z Q W F-ZLLI � Z "J m�Lj WJ CN a_ U F-0Z V)OO F- QQ - LL 0 0 Q-U) Q Q F-a- J W m W 0 U U - UV) _ �� 0-�OLWQ QzOOf n >- F- �Z < W V) �W ~ WW z O\o ZQ ��0 U DU- ~ (n 0= �WF_ -� WWJ Z�Q F- (n w F- U) U) Z J m z 0 F- U x U Q F- U F_ a_ F- _ Q W J- = Q- F- F- x _ W O Q U U J QQ -j0 � -(n� J j=LL-Q m� Q O1V) x z Q 0 QOt~n w(n o_z�- V ZQ JOw z� 0> V a_ DW Qm C� F-z -� Z 0 Qz =F-'Y- Zz W ZF- 0> = Q ZF Ui- �>-� U tea_ 0 UO Jz Q� QW F-�zOUW LLI �O mZ m C) LLI >F-O z _0QQ OF_ — 0= �� Q WQ Li Jo � Q(n �— QQ 5; �— LLj w Q U Q m 0 > F- � = W S� � F- Z J W O J ^ W �F- J O W� a_ � F_ W p m V)= 0 F- J Q UF-_= U) p UW F- JU F- J� z -� F-Z 0 Q ^Q F- Q OJU �- J LLI = UQ WmLLJ U ��OQ F- LLI Q U 0 F- W U Ld J_ O U) Z F- F- Z � J Z Q oU Jtn 0 QF-�F-z=ZW D z QC -,Q �W OOLLI o� (D Q �0 0 zF- J �� Qw�z O z �z 0 cn o W z Z QZ JW W F-QQ 0 F- J W Qry F- LLJF- afO U OZ Q N W mLLO 0 Q�� LLLJ0 00 =LL} m(C) > •F-F-wW UU) 0mJl.i F-F- QI-WJ F_U O (n F- UF- W -� � 000 U z = _ W F- J :QL,_.Z0 Wm ryc) UJQ-0 CD U) m U F= n_ U Q F- m }- w I - O F-0 QO U)2af6QQ�O z0 U 0 U) (nZ tnF_W >z0Y z m J U F- JZ W F-Z WQ Q O = =Z I — _ — Z D—�-JU� O =U � •mWcn UQF- ZOQ 0—W'�cn0 F- CO -� O 0 F- F- - Z F- (n W Z O W U F- W Z Z U W Q Z J z F- J m m Q =U m 0 U)wJ=Q � D Z� = 0 = cn JD 0 F- >-- O — z U LLI J 0 LLJ ZW U —� W JF-- i t�(AW= Qa_ — 0E-V) OQ> QO z m m �- a. Q z z Q F- = W CD O W F- F- U (> }- W O U< D _1 LL W LL Z- ~ W U U 0 O Z w Q < ry J LL 0 C� a_ F- F- W � U V) Q m W J O F- a_ OW Q� V) C) Z� Z�m U W t V) �V) Q Z m 00 ZF- �- -QO V)Q QLLI- Z(n �Z0 JU i-W =Q=OJL- U W L'-O �� Q z00 J�L�jry<Z �C� F- W m� Z Z DU) OJ U0 U) U F- z J Lv WZ F-m QJ w 0O Q� Q �F-0 �O� � JU F- z- z O _ JQ F- w �O F-Q m OZ J = z a_Q� QmU W J OW w _ }'O w Qz UUUF- O mL'-JJ w _!F- cnU� WQw F- F" U W- J = �O wz QUyW m F-w ( w JF- w J- L,J� U- m� �0 m J(n OmW� F- J UU) O (n Z0 W m I Q F- O� -10 O_ _ _�F~- Q�=Q F- QUZ LVOF->Q=� w0 a_� m Z�w Q>U QW 0 Q W = F- F-�-ZJ QZ = cn O J =Q �- w O �- V- J Q F-z WLWWm �Z W =F- Q>- mZJ F-0 W �Q wQ U 0 W (n F- F- O0U �� V) C) V) �0 F-J OZW J� >� WLL 0 mLil J F- O�Ww� QF->W WQ � �Q W =(n W W F_�= QF- U0 W �Q o Q QU JF-� �� to �F-0 wQmO z ZOU Q_Z W OJOwU W Q= 0� v) F=0Qw� WOm F_ Qo z Y V) JmQ Q w� zc� zY F- 0 -� cnz U = mz Qz � QQU) W �WW Zz QWOz �UZ QW JUz >z I ~ U) _UF_ UU QU m�L,wOLLJ U)� WV)- 0 YOW 0LLJ O- QU 0 >- or Q Ld Z F- O 0 m 0 0 Q z O Q W = Oz0- �J F-W �Z ZLLJm-�(n0Ew-ZOWU > m00ry � �� z m JoYZ UO J0 Of U mC� z U)Z - m� �'�C) C)-JQ 0 mOZ zWw�Q ��J �F- �m�ZOm� _ Z w O m Q Z x -i 0 O c� a_ LL cn — U) 0 a_= V)� O F-Q W J- U)a_ OWWLLJ V) F-Q DE QZO_ Q_z a_ - >_ - WQ O U J0 W >W W _1F- =WWz Q W JDWO�Q F- mF= w ZF- Q�Z=�Q=J� 0 F---F- W U)Q �J �(n�F- C-DV) a_Y W 0 Ld < F- z U�OJ ~QO Q UF_a_ W WF---� C� Jm F-z0 a_ Q � U Q� 3� OU F- -Q O�SQW U== F_ }- QO a_Q ZW Q U - Q OF- - m U)m�m�m Z W >0 Z� Qz-WCn F-Q Zmm - ��W Q Q- cn F- m = Q m 0 V) W �'0 Z Qt� F- (nU)J (nw J�� O��U =Z 0 OQ� 0z Z Qa_Q W W Ld oUZ Q0 U)= m Q OW�F_� F- U) JU QU) ~QW LY (nU) Qtn -J Q J F-0 O W � m QW 0 � �� >- � J z Q F- >OZF--W WzW �Q =-zQln� Q J ZQ J- 0_ W WQ z JF- _JJQ U UO UQ Z 0 ZW W �J C� m(nm�O N� a- Q- J W QZ O-J _J� U _1�J�0-0 Qm ZJJ= O �W QO0 W�OJ Qa_ 00 Cl) LL_. Q W� W F-O ry Q r-U� U Qz�zO W�z �Um QF->-WQO� Q O U) Q m W O Q Q 0 J Z F- W F- �-- > � J F- F- W Z Q F- _ - Ld LL J( F- F- m W -i 0J F- I QD O�J LLI O W F-� O W 0 F- J W m �U QW U0U) (n LW �� W QO Q W a_ W _ ��Q DfWW m viQ 0 U Z m Q F- Q (n l-' Z W= U Q Q W W w F- J Q O }" = W Q F- 0_ W Q = z F- O W = a_ W J W w Q zQ JQ (n ooF-'-ZO—°°� t�cn .,=cn F- JW V) C) 0zQ= QO U� F- U m UF- �^ J >-~W L UJ D 0=�WF-- J—(n o_w W—< D - U Q^ JU Z0 >~�UC) LLJ ZQJO L� wL,J_0 OUj QU) UWw -UF_ -a_ Q QO - O m� LLIOL�mm WQ� W Qzw z� ZU) F- >WV-Z Z�Y ��- CnF- Z�- FQ-O -z QWZ�a-JZJ= J� Wry mUW Z~ WW WOZ QU�W LLI F-W F O Wa_ C1 n-Z LL 0 OZ �WQF- m~0 a- 0 �QZ F� F-�F-' 0QOa O�Q zO�=QW� W a_ 00 V) JQ Oww�wJQ=� J� =Qm= OW �U x�0 w<m =0 0U) \O w ALL L- Z0 ==Zo W�0 � ��Q x0 O(n0>-- F- w = a_ ON zm Q F- m��cnQ Qw �VUU) 0> J Wa_U =�Qz �U z� a_ z F-Q m o0 0 N F-F-�z >Q Q z a_ma_ WU OQzcn� a_a_zF- c�F-m �F-QF- =gym W F- Q� .� -0 = 0 m cn O N CD N N r6 � (D � O r- OZ58-L6Z (V 9) xVA 55L5Z �# NOLLVOIJIDM AI - 3A3-1 S3I90-0NH03l ONW33NION3 NI � L WCt OIHO Nnona z io ti80£-6Lti (qL9) ,31 OZZsv HO `snawn,oO Oa NOSa30N3H 010 886LL mess *, ��s NOIl`dOIJIDJ30 �IOJ 31niliSNI IVNOI1bNDnNDAV)QJVdN 218NOIS30 d3SN30I-1 S'8'8'0 SLtt N -LSATJ3SI . . . . . . . .$y j CO I VISIS T dI-IIHd :1 SE]iinS mimli N I d i N J Vd 3!D Cl 1 :18 �of Q (y: � i I \ I I . m m N J m N IJ m J I m ( IJ m ( IJ m J M 4 r—J alYl m L tL.U. N z m � r i J FMI ok--J I� I �' 3 I� I� I� cn Z dV ( ~ n m ! 3 co v' O �J•� I � Li.U. J� � col • �, I a Y �.U. c'! 13 Z a z F- V) L d V -4 U cn — . Q E cn 0 E N �- SdLJl E g W � � N ZD 3- O w Q wLli Q� O ry � a.� Oli O� �- d- I--- Q Q 0 0 J J 0 ... N J\ O N J Q a. Q LL w w (.� CCU U Cfl U) p N ~ F- J ((7) LL- Oz�wQco U�Ja.Qk w n Li- LLB � 1 \ Co Qz� 0 w rK Fl- � Ln N W N N cn � U m J in O U -J —I in m IF 3.Y U. N LLU ) J m II .U. N Z N r• J V in s En In N L . m L7 N J . m N N J m in N U) in U) m N N m U J U) to m V) V) J m W J to In W m to J 3 in I F_ m N J m V) (A J V) (n m (n J ^ (A IL- a1Yl N < a�Yl � tL..U. IL.U. �ml J �.c A Z N Z J 4 4 Cif LLI � Of Ld > Lli 7 LLJ 4 04 040 m a_ a_ 0 m w Q w Q w Q w Q I T m m m m U Q > w w U Q > ON w 0 w p w 0 w 0 U Q > D( LLJ w w U Q > O O N I o Iz Q I Z D Z D Z D Z D N I Of Q Of Q Q N t i C i i (f) i U) i i I V) i to i U) I I 1 Z � � � � � Lu 4 � � Zk � � 4k 4 H oo O �.-. U Q Z U Q z U Q z U Q z Lw O IZ U Q Z U Q z U Q Z U Q Z w � O U m Q Z U Q z U Q z U Q z LLw F 00 0 0 "t N wF- 31. 0 0 � d- N �� L.F- p_j F- 0 0 N �� wF- 0 J F- F- F- I- 0 m N m U Q( U p� = N _I � w � � � m p UQ I cn U O� = N a LL LL. a LL LL m w Q U) U OL, r2 = N LL m LL r2 L.L m LL LL Q I cn U Z U LL- p\ N N N N Z Q p\ N N N N Z Q Z 0\ N N N N Z Q Z Z Q ofDr- w `� �t _ d- _ _ -t _ z � Q w 0� =`� c- � d- s- Z d- � � d- r- � � Q � W LL Ov- It =� r- �- � � ,I- r � I- r- � � Q _w LL Q 0 .� J Q O Q 0 J Q F- 0 w Z w Z W ry Z w Q� Z LL IL-------------------------------- J L------------------------------- J t L---------------------------------J t L— — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — , ( i I 1 i ------ ------------ i j bi ui bi x 00 0 0 b 0' 1 I w Y 1 L ij U) w Q w Q m w Q m Q m , I I i "`T I I m ryLLJ Q I m 1 I (if Q Q Q I i i N ( Z Q N I w w w w Z I U) I U)(n I I I I 1 I I I I I O Cr) Q (n O t) D O V) O V) D O VI) ' i i I I I I 00 ( I 1 I w Z#Z w zk �k z4k I i N ►'7 d' to Cfl t� k k k k k k k k I j F- 0 �� U Q Z U Q Z C) Q Z c) Q Z ry w 0 a- c� Q Z U Q Z U Q Z U Q Z I Q z Q z Q z Q z Q z Q z Q z Q z , (n 0 (n �r �� wF- r. r-. .-. U) 0 d- wF— F- I ' i F lo��. F--I .-� .� f I I 0 m Q N p 0� J J J _1 0 m m N V) p 0� � a. a a. 1 a � � � � � LL- z I U U= LL p� N L N � CV � N Q I Z Q U= LL- N p\ L L- N LL N LL N LL N i N N N N N N N N 1 z D:fd" 0q Z 0,- � 't L L z4kT- � ..� t k 4k �k 4k I J Q F- 0 , J Q I= 0 i w Z LLI � Z , t LL- � t L----------- J L-------------------------------- J L-----------------------J w w O 0 IZ a- Q Q m m w w p p w w Z Z � Q O O � 0- to i (n i (.n i I I Q Q Q Q z Z z z n n LL- N N N N -131 �'' ggLgZ�# NOIIVOIJU�130:Al -13A3-1 ,N1 ONI�:133NVDN3 NI NO1tl��lJ3� iJO� 311111SNi ItlNOI1tlN LWCt OIHO'Nnsna ��S3 �nN�nd iidC3�Q�i�BCLbb 0 I II an .o .3. �,�a,.�� II a3NJS003S�� I t c VSSfd18Hd I �1002 �� LS:11. ��IH� I db NOU�9 N d 3�a1 'CD Q� vSWEl1SlS LL :J LL- I 0(vL9) Xtd ti80£-6Lv (bL9) 131 ( � -,\ess� 55L5Z�# NOUVOIJUl M :Al 13n31 S3IOO-IONHOE]1 ONI?133NION3 NI NOUVOUM:130?O31n111SNI IVNOIIVN L WCt OIHO'Nnona 3nN3AV)i�:JVd DOCMAO gLtptp �j Q 0 CN I CN ozz£v Ho `snawn-lo� as NOSa3oN3H 010 986LL Y- W 233NOIS3a a3SN30I-1 S'8 8'O esis I T di-liHd:100�1:J olmlIH ! °Q- � I °� o N Z' I i i j _SV\JEI-Ls,),s -_ (IN003S S311ns <I 00 E)NI JdS :J NOO�19 N JVd E3901 :19 I LL- a4 � I� S31 f �L ozzcv Ho snawn-loo ON 3M sw�ls�.s�.. I >SSLSZI#NOI1V�Iji1213��113�3� �NOI1tl�Ij11213�210j �� 31f1111SNI ltlNOI1tlN', 1-1 a3N`.JIS3003Stl S�S fd9lleHd 3nNDAV iI�IVdOI�QIZ.I818Yea Joo�lj a�IIHl SE]iinS ��IH � �� _I ' Q00 � ',� JN12�dS � �I�Ol9 �12�t/d � aI � ozss-�sz �bL9) xn3 VBOC-6tV (VL9) l31 - * 55L5Z�# NOIlVO1�112:130 :Al -13A 1 S319010NH031 ONI2�33NION3 NI L WCt OIHO'Nrionci z Q o' L NI i Ozzsv Ho snewnloo ON NOSa3aN3H al0 886LL �pess - �� * NOIIVOIAU1 130 �10A 31nilISNI IVNOIIVN3nN3AVN�Nd—' _ ?�3NOIS3a d3SN301-1 S 138 O , o V ,. Ti I ' VISIS T dlllHd:sDiins"i"ii JOO E)NI JdS NOO�19 N ElOCII <>00 z i ` I N :A :]Vd :19 �i 0z99-�6a (VL9) xe:J vsos-s Lb �s) l31 * 99L9Z I# N0IIV0I--JM:130 :Al 13A31 S3I9010NH031 SW:133NION3 NI NOI1t�OHM:13O ?JOJ 31n111SNI 1dNOIiVN ( L WCt 01HO'Nnonci � (1 N�n`d il�Idd 39CMJ9 �Lj7t7 I z QCN �' u �(v ozzsv Ho snewnloo ON NOSa3aN3H alO 886L4 ��ness �J ?J3NOIS3a a3SN3011 S'8'8'0 i j co LU t/ISIS (' d111HdJOO�IJ HiJI:A:S3iins mlmllH Q 55L5Z1.# N011VOlJll�130 :ni 13n31 L LOEV OIHO'Ni-ionci z oz98-L6z (VL9) xvd _ S3190 10NHJ31 JNI2�33NION3 NI < g8os-sLv, cti�s) 31 s* NOI VOUIDJ30 �IO� 31n-LUSNI -IVNOIJ-VN � ozzsti Hosnswnioo 3nN3AV )QJVd 3901�:18 gLttr oa NOSa3oN3H aio 886 L L i �13NOIS3a 03SN301 S'8'8'O co I 100ml=l HiXIS:S3iins �imli SV\IEIJ-S"Ioks bISIS '(' dI�IHd Ln CD 00 l .J J Z) U J Q U 06 U) W vi D U X.N Im . I 0 a . -, GO QN N O S caga3�¢� fDc aZ6 I?CL U m 0002 mzc Qt2UE � ,U Z N CJO EUN m� O,�JymN Qm J (aJ C m OaQ ON L-_cC Na O- E = ,C.°yZCZ �RCOOOU Na 0 3 m m m w m 0 I L N C L 0 0 m C O N® a> a° 7 V 0 E m y o, U aEmmai am UCN C c m o m N m m o^ U N y� 0 a 0 f2 Y L a ow0S= .-LLwoxIU am c° o o.0 C w m r, o> o f ❑ O m O C m U n c Z L C 'g N m O= m `O a O CCD m C .m ` N N N .m. , C cai)QEa>LLmami m.9°m9'm aq-. c0 0 ❑ U Y m N C-0 (° O T m= a m U C (a(J N a' C m� .n O m O a C U C p 0 O W y W C O m U O m m❑i�NLU 0 . Qy °mQ ro N2o aW a « �Nc aN-m-Ep^ E . m-L N N Z°p"&Y Coo 0cc, mEN FO <Q ZaiowY 0M0-5"e in NEa XN Om mosoo L0 W cDw.Z . m (L (OU NC OL >m.Qa- Nmam O-� 7alL am 0W a ow m¢o mmm UQ-ax, cWU U-b zo Ct`b y o m 5 Emm O C -mLL -31:3 a m C9 qo' `Y O.x�'m Era 0-Z U) 02E LfrQ Aa Z Z m(mp oz Z3 C m On -=O: y S c N g N m L m O mm 00 Om La i0 am Of� om m a (0i0 m �y ac> 0CI°i � o-¢ O 'y N c E-z N p C O m (i - U Y2 m a m aG>o m 003p m o ti (? � � Y> IL%m c m 02C') Uy 0 Z E 6z om (ncE LL`c pDL EaE a`E E m m D 90 F>C -mp 0� a E m mcmn zm U)0p m=2a'O _- 3 3 ' a 'm0 W Z 0 m IL m.- 7 1.. E ',mp m O1 O N t R m c° a' O C _a 22 4 so } O� 3 m m � a N v m °) 0 Z w J 0 D, m m O O G m _c !� I O, Z� W O a C LL E /I = .� Z¢ m W 0a LL O J '30` ;;� ¢ ILL Y Z' m JE 2 !L - E m o LL IL0a mL Wo O m _ m �zE 3cmcn O U - mm(c 0Og c i-:c m¢ c w m 3 m Timz a.iNa F3mzomn300 at7v� zE d W° >C W U` 0= 0> a 0j0 (ZL2 3 m m J Z Z 3 S E E' ¢ 3 m Z O O z w z m .Eocomm>.m 00Z0 9cm oZDs oc L`m m L mo °0o m'o-'vmmmo ,En maomaE a m m - I 12- a Y O m m m A= ,, O. D y .O N D op as mw mOaE mD TCm w 2(N7m C w000y N m 0 Q ❑ a n ._ m '- a o w Nw 9v moNy� m' vfw a ,a aA 0R.7 - LL O N m r 0 0 m` m Y m 0 m J L -° W t0N C C V� f L Dm O, U 6 zZ, (L-0Hvm CCU xL° 00 �LEmc 4 a mt N _`o m'9 ma a.m Lmtic w U W ro E p m -CC mUm5= CUa w0 a~a mO��mO ° W(n0 D.: « wO 0i -Ib «mQV�m S,ccE Eoz o,00 C� mc® a~ o mm 0Nr n03?zZmW Nat 0m=a'NC all)2 Y�Etppx L'm Lmmamm°mm m �O~ 00 ° 9� . Nm QJ N. w0 yn`-N.L-.w mF�va WCC J;>a O,Oa (Q m�� m` O N J O T w E m' N m J N¢ p O® = 0 m Co c�£3�c>.man C,I5� E-EOcoo w a -I °m i, o= me o>.omc(Q L) mwYS oo�onE 03 Fa e¢ 0 E� omm OtN OLL 2OZ coo G'm x22 °O ac CO odo Um m O W O w_ m if m (Q,i C Z C 911 W 0 I " i V Cn o a ��C•• 6 Y TQ ° (% m C m C-2Ny-m C-- V N m rmo.-m0c mrtc jj-U+U0 emE`°C_m0 Ny �oE-i �- a V U F C v..-. «' .y N .r '� •� O 0 N m m m 0 0 D D Q m Q m _ S E m.__ v i,m we am Om_C 01 cc£m OT - mcE � W W 20 mti O "£ mmoto300mi'ao Kmcc mm`o®�ao Qao mm U =3 JEr. o:.«mtmcmA wwoo Z�3m._0.. %a NU Yrn J 2 Z m 0 t C 5 n E o> E a m c>> O c E w Y a E"- M D (_cR'wmc Nm0a° 00-a-E C O°O,_mO mm 0a a O 01150 Lm m m W C m - w m O m O- C w a- I m m a, bima DmEwm mom- �'o°ami, o m u J U V o> W m m m m o° o m m oc>tc o00-C .0 C®Ezo a a E.-0 moo-m E-a0 aE aO.2_ m °C', O� NTm mm Ommm Qm a-0 0 m m 3� (mi > c -a c c «E C ma Ofo E c 0 0 am m � U a-- cE c_ no,c v_@m_L_.. aF_o.gm N .L-C_ m--`mE m Z C C C om ww mt00- 0 O N r r N r O L O m a` C N y U m C C , .. O C 0 .N L m-_ W m O= m C y U of m 3°E>oo �_0 mc.E0do EE my uO1>.0oO (Li amoa> I c`m'mv C3 ac Em �, OA00 'm ct Ecm.E--- Zdt>c Emi Q` - Emm G'EcN.WA a j v° 3 c m o W- C m° www a m C E m = w o M m° _a 3 AI 3m immamim°•' cm>°a�my£3m W C U r m l0 o a� 0 a 0 «-. .-f d mom C Ol m3 0 0 m c0E0Qm'm « na°, O Ea cE my m� O cm 0(y 0L> >OAm8O C.NEa0 WC No.�ia m D m O `m m O. 2 Q N m 3 U m N a O m N 0 d C= m 4 0 m wm 3 w a_o n N 3 m0 (7 m Emn � '3 O m z Z 3 m m m m 0 2 0 aO 0m m.Wc « ma w J - IW. m k oEo = _N a m > N . C o O « m Q U m a p a,, m 0 m N y m T. m 0 0 z n Q mN L aC a D Jm oCOw 00 00 L,F yQ N00� Q 0) Q ❑ N W O? 0 J Z O y O m �, .- L 3 m n0 m m LL z. > hQ o W `O Qa `N mNL mt°ip LL j� m 15 m=EV ¢Z J 4Q 4Z a Oo, 3z�= (g 0� >.mN�m>J x- 0 N❑ m m m ym N mm Q U' a 2 N N m^�p O - IQ Z¢` (4 2 mU m m (IA U Z W o, m Z ) V m m a `-° c 0 Q >Q J.c(n Q 00 QQ(n o Qamo t LLU m ma W mXa EO xm `J mLN Cx COC C 0,Zm a03>+x Z'.E;z m�Wca aO $2-C U moo°c ¢coU tnaZ mN O5-m2zcZ m m ma Uo Oa W�aocgR m a>.`O u, Lm.. omm a m m a W� W N C r d n- W N RY N E U m 0 Z W E O .O ww m 3 mmV�. ¢ L .-C�Eo a o a a W o E'�m¢r M aS a °N. m o (.) H c c aN mowza 0 .'scc2Qgz O¢m`IN>.xoo m o o m m my y, a20>00o`a mY Vz0E¢mo.-m Cm m 412 Ca O'O�CC m-WC Cpa m O �m C Oz 00C3 aC0 NW Wm WWN mmm �O m'0 c m miaCr cac-LcmEm W 0 m m N v.(-a 2 Oacmm-ti0a-a-WZ 'ComE -coo aWi c m ma Qo m m W �mN-m.^I 0>a- Wmo,a czowrs .mac r3 Q C O , W y w 00,,EC w'S nm00000Eo,Nt' mp. mTymmp._ C O N O U C = m O O aZCC m ;=QEw-0 _wN `o m L. 0 Y W O Z m Co0;m;Ca0��Uc 0mZE�-M'° �0EeRo,t3,Z O�.m��mmc r �x TOnna �p RmoNmc mm_o my EoY O(�°,(_an 0mo c tU O o,o (a p aaam m (0�9 o:��m. iic❑¢mE c2o z�❑woom:?_wLL 'O 00 >> a o o c L IL a30 m m(� II EO mI-�wG2 NN m(�yoo 0 �U Z QQ UU U wZ) ZGWYx-oo ME 5 mY 90 aO Eamm:90 . .---..-' a I E I O m o 0 a E p ro d UNmw 33.8 Ywm(mim�c 3 E a z U a`c$ ay c5Q _C 0Oa m0c r con a o.mm oC8 aHo« N 0 C m >. = Q .Q Z O n N n N C 0 0 0 m 0 O N O V O L_ C 3 O >. 2, m m m (� C mcCCo� Nm°Og o,m .5cmcana C O `, m N _ n m LL C Um `m> LL co tW`m mme ZL0 LL««=m Z.`'O OF Cv m3'0m �o �°y`m FjOm°om° w--uWi°aa N o m T,- Z'ao- c >:0 C =cmm"C ¢mmm-Fmtd� EE=(anooaLm. r a m O m p« E C c o c o @ E n 0 m c O.mD'-Sm YNQcao mE wmecnm O w V On Q m m L L Y m L Ym m' T a p 3 o m° O C N C >'_ C m 3 m L 6 m G C 0 .i C a a°, C o .: m gym= com«mammC-CO L`-'00 •� ETN cr.� .o ncf�>;m oIO -- W m�v pom E0cv 0?0Eo ,�jmn m0S2v W L 3 J m m a m m a y o m o E y m N O° m C e EC. c_-m c_Domc a`m oO omo3 i `mmEID oE.¢0Cm°UwaNI0 m��E6m O. O m m C .2 c. 0 a� m S O E z c LL m 'm' y E c m ILO mLL E O m O m O K C W t a elm wa > C m N 6m ._ Yz`00m._a- E m C xxx m ° -( E - 0 'aa Q0 E o m m a a W m0 F 0 3 m m c . cC `o O > ❑a m a p 0 U O N N m L V m D m L mD m E N' 0 0 (�, m 'm 3 C N N 9 A m '_ E QQ A . L �o p¢o C E c mo d n Ea Q C.-cop W 3 m C F O F 0 1° N N N m m m` d m Z (O m w C. W m 0 m O c c O C m 0 .L. O N c m 2 I� m O O ' a m m C N III (- 'O, m O E m L m '� LL a =m 0 �m W m m'>a 0 0 � Mvam E` ic° 0: ` w a O (J' U I 'o o a D o m m w m m m m >. E m E i g O mw c m c n a.- E 4� 3 N w 0 m m U Q Q m 8 m j W m m J a E 0 N 3 N 0 m W O O D N U C° U m m CO Q V a N 2. O. < m m I 0- m NN m m N L m C O O N O d O C C W O O s aC w _ m 0 2' m - - W m (m 0 f W n m 0 N O m' m 0- Q `. O - - L E 3 a N J- m .- D 3 N N N l-. J w c a � m" � o m - - E m - m N m M w - m D C' L N W >. m m � E � m o ._ m m « O W U L I m ❑ JJyy C U m C A - m W (0 = 01 U E,C m z� E O a A0 0 m O M n m i t m N o, a o 0 C, , (0 m a `oa 1�yu, 2 p, D ;o C w -p m> `W c m m o o Q 0 L6❑ D o 3, 00 E O (O Z- Oa 0g dm(U U ym, W m 3m 1i a0 m> tmj, V LAC m m 0 _000 W L O N � p N m m o m '� IL y y V` m a .w E R m .� o m t«mC t N n m U O 3 a >. N N C f0 (W., m (� O~ O L 13 L L 3 0° y C L i °' O W d 'O O) o y N V 4 R> W N a m ` m m• 0.o O- (L m m i0 ° 0 W m O m n 0 n tEj m O m LL O W N ur LL a>m d§ONO(?Q 2 3N W aDC WF N❑Q J VO NmNILL c4im Zw �Qp� O . IULQ . . W. C. . . . . G. . . . . . LC`i. . N E O m an « . D < m - O m � m m a� m TO o. OL g' m v U ° c w 0 a m m o m ap > 0 m a- aWi n ` 0 o LL 3 m n 0 a m 0 R m c� 0 8 m m a 10 N m m -C > c 0 * m._ m a O E C m a ma m no . c o o E p LL Z'c m O o E c.- maam `0 = mJ E o m N Q m w as C - .- Q m o m U .aE O 'y C 0 O Q O a Cm aE U W wN a m o o m LL o 'AD tmn o O m E •� m O o'm (2° w g a u- o^ c v a m o Eo E, m m U= y f N C N IW- C ccp U ° m -p m ° m C h 0 0 mgmm m a 00 E IW' N a>0 m .a oo°° t°cc« E° J T Dm c « 6 U U 0 0 N 2 0 m m m o a« SR N O O m 0 11ut1 ^ J m 0 m j cc E E ® p i� O y m m m m C m a_ L N N m Z w� W 0 o y 22 Q C � C y m m t> m N O, p p U Ow � j � Em (� W mm UC a W� 0 U y N �Dm.m-. (°} D O D O m^ WG i T m Y1 ¢ m C O` m ,D. m Um on H U 0 m O L �i 0, n w C C om D E w N° Om._ mm > Q Q Q 0 m NN Na a>. W m CL 300 �E JCV U . pOp Wp U as o,E 0 Q LLLL LLa . I Q . . . C0=Q= INL Q . . . - N . . . . . . omm m E _mC 0 D m w m m C m Drn== m 0 - �a c'- rA ' m aj `c U - ` m - n mi vF (02 m c 0 mO Ur o Eo DO "Z .-- C 0 3 m m C e n o m U « .p A m m (n m> =a mo . VoM_0N @mac T OQ. I am 0 W W2 J N C J m C O O m 0- m 0 t. m L IL 2 m W m 2 j r I„ O O n O m m R a 0 - A F C L N N a a= o= m V C@ o- . A O =O-p-O rm a� . 0 w C 3 c o Q W« N m C M N 0 0 I C m O E N- O O 7 W mmU-- - Y CN 0 o N > N m - y m .L0 O �L m O m �' C m � s � C O O V o O +� m c U .m.. aC C c - `` C d m W U n m c •• a O 0, 4- IL r m a O 'L-' __ W O mw ` C W Co' N N m Ol o O o O O �2 I N LLB r` E ((> C O I Z 0- D '6 J rJ 0 �[ m a m m o W 0 1 0 j 7 C m B m 2 - C N G m Li x C m O U .- oO o1�� o = I U�NoaOrm J O Jfyy 0 Z��n ,T-'' - w> D W - N a m m m m U m - 0. I. Z 0 2 2 O a E L U N V U N I'' a W C O m 3 Y W L W O W>> m E O 0 0 m T C U . ¢ a U a ai ao - m w> m p vm___ Y m -= O O m m U 'm0 m m m m - 0 O 10 O -E«o 2 W U m t(N, .-G cm AWN m .Z' m> m U m Z 5i ,= >. C 'm >. C C W 0 6 J Q C G ;K e p m E L w i, m O m N C ° _O .� m22 w; W> F W m 'O (n 0 T, 3 m m m 11 I I I I a m ._ L_ ._ 0 E o m❑2DQ2N m O Y m m 0<nw< D �aQ�LL�a❑N (Sn W Cc . d arr IY W and \/ I` *+ O a� R�e/I� a IA W = E N H (n _a and Z C M6 ft 14BU OM-0 3SAN O a Wa `-°c EMW0O0 a`o°N O m- m d = T m a wmom Oomm `ma , W o o 0I O. _(NnU m m C I wO c'm ro,_g ' ¢ m a-0 am c Oc Zm m 111 N Loom 'y p'-m W o a�> E°mm C�O� �0E CE Oc m;0>. 5wdo Q. am m a Om 0- 0m y a, E (fi.- °�: E o `m 'u ERE .12 o 5= a 0 m� O mC am am.=Um'@a. U,N >m� Q ° o > m C- ro_ EE (o'c vm mma E'm`o3 3(Oa m x c = m t 3_ N U mQ °a aj' =-. CCCo 0LL m LL ac' m E 8` C 'm a `6 -0 C m? �`m Z' pt 0�.. o 'm v'- .i O N m m O C C L C m m C G U a N O Q Nm mm N�,6 E O>CaO mCON LL® C> Z0 nOv moc0 m C d I z N O L n C L t 5 t 0 0 m 11 C 43FO CE FFC((im QUwU« 2�Zm R m-5V mmm on .Q°°Ea �O NWm C'-' m>m >. CO>❑13Wm oc Cmc..E N C C C (a O a C m U a °'m o I' aw N m-O m 0 'm E-Z O g E m m w U a 0 o 0 c ow0 a `00 v°0L0 C ❑ V n m y❑ 'C m T O N L a L m sp a N U N 0 m m m 0 U c m U D m U Z ...-mLL❑Om >.3 U0 am i. CCm . Coo OD W--nym C Y Z C O m U =' m m r n m 0 z m � C c Qa v °mmm a T� c c- - 24 o wLLx Q(0)¢(mi, Y0C 0O=>a O'G1 N mmUU)Uo w°dm ommm0 W c ° o m c❑ O a C c� a L m° Oda E3c0W.8`0 ED, (Wa c'o mo ce'w ym Eom°O 'Cmm o£c t''ro ®N C - a'g a o m c- t m Q yi aF (0 0 IL- w a 1 E fL c C 3 E c c a m m W C t m o t o o¢ d), c c 3 LL m E m= a E d .0 Fm ¢O..U❑Oa° 3aZ floc.=mc cmea m U 3mLwmconWa act a m n d =0'oo m w 3cmmnC O m C a t m m c C m m t 3 a°° 0 _° n F m E m Y E TLL > m(C >oFmc'ER mm_« '>�•mm o°muzo v�o Z`n_3 a5L a m y O m. d °Ne ma0 o,m ywv «c0 a maom nmo O 0°;a o0- TC �L Noyes oU=0Zm m N D W O C T L I m O U O f(CJJ L O C z O ° m m« C o0a m N y N O m T wD ma O N m .N. O ❑0�w cmm maN 0Ea0- 0a O m>O�mmLm oO U0 C IOmy 'Mgo,>.o C.•mm='m -mm-mm ON > V o-w M-.I bW I Ono OcDcco OVc" c. ct_ mmc cm mNLL Z'cnc it mm M o 0 mmy (n.wm3i•oo m e ' O N L Z O O C CNm O E IL 9 O C m> 0 C ._ LL O m Ii U iIOI zm0 cw m O' m - m a°mmc LUw L -Nm Z' Q m Z w a m m T .� > N c '-m'Ocm W C L LL O p O U m m R L U 0I n".00 N O N m L- O 0 I C N m _ I_a r' IO aoE3 ,' 0 . O C m LL D N Cct ma 'W wmEmom EE M 0 O .IQ. �• O a m n'-E ... C D i m C C O, aON"9mM O j mov° c!a-o-_00 �_° (I .016, i 9 n n 0 E m am n o 3 0( x . omm m m t NL YUCm WO mUCm°5mmC m.>mm OIN aL O.ZDNUrO z ulEmo-mw cmaE mmm LLit QD!2c o.anmm9 Cm.r N000 UD OCZomo momc,QN 8 6 m m c tNo OE a«Ac - 2 ri m D C J o = m C m n 2° Q U G U iq Q O 0 o X o co --► �' U r U O Q m ' CV C U LLZ 7V G m W E O o N N Q J G a -U C, N O �L �� LL J _ a G 0 ®� C a Q O ' g .o. z ��o■ ¢ M o O a i N I c N W W 1 (a 1� I O3 w z ma> meC a -U-� mtRt OmO m EWa-.cod m V N N =U N,„W~gym ^mR� Q Q a Q w w WF. LL LL 3 IL N I . N W IH LL C 1 Z a m m T O m P W a u m a j ❑ Q U N .- LL w D I m 0 I �� N M O a? m m N °oo 'v¢ a¢v 0 o O ❑ J .boo oa O U O E E N .F( e � o°oo , z as a � L N IA O °° ._1 3 C Q o 6 V mT' °- a N m a C O D O E y 0 n .0 m N o E ni o E ¢ Na y E ' m U in E m m '> > _• IL E m m c =� Eo -° ii = $ = c 'c m 0 0 0 E E m T o N ¢ m m= m- a m a m O �On(•'-` - mm 'ao=aCE a O ¢?0 o00 0 oQ E0 oZ,> yP0,cm >. mza c-O m0 I-C o03 �m'(=0 N mma-E aacE amo Z c =cEONN m aE w m m M �m m 0 N m"Rov Nv m m- m E o '� r 3 y o .- N Q m m O N c Eg U °>. m O m Q m m m 0 a I m E E S `m > m m m m Q_ a °D m m a °" m w c` C o Q (` m C> c C O" tLc m E Y m N m m m m C .- L U« m .a E 'C• m m C m C - m U N t°J j a 3Oo 0 oa mC 0 a QU E on' mN m O >¢ docAw>Ov CS W C- m> C C E m `O = W° m N N '«m > Q� r(a .`� m W a O o m E m m o v Q o� m 3 a N o am -- E Q N a m m_ m t E m m = z C Ev' m O m 0 J 7 ( 0 0 Q 0 q_q wa`=N¢am�oiL`aLLmzIxEQNwaN . . . . . . . . . . . . . . . . VmN3Na`wa Z . . . . . . E � m m C m `o0 a NX Nx$U C C 'p C .0 0 m w m NEzzzn oo N zZ zza❑ �� ao. m _0 m C v Ey EwLm, o, of coa2Q3 aT m �0 L . C m , r C C ..L_" N U NUN 0 0 m C 2. ' N > D 3 3 w m Em CL- 0' ZO I E0 Ump I Cc c m m C N r C O 0 O W o tV ? N Q p 0 N m E m C (N' c m � m n O m yv 0 1 OzU Ozz- LNm U) a o c a L 3 c mo as =mm v10 ` z c dj 3Ucm aEm o. 3 I00 - Sv c� ao_ m0 Oo5-C (.,via TZI m mm m (m, m 0 OO m cnN EY O t>O:a I a tom .°.00 OOLLN CI = n �' -Y E m = m o c-'Z m ym mA°> xm mmmvm = .T a(i. -20 -._E %m m mmmm o C = a� I� OZ m E N 3 m y�n OLLN LLC")QY 3Um N 0 C 3 0 C aY mm° C❑C`CC M2O25 m(A Y OZ Mmo2 Mac m mO aDC m C' C U3 O (m 0 LWi, ° m m m L O T O2. c; J .-:N m F m C (7 O c m v m _N F O N j mm d m O>.OQ C-° = O0 U N C CNm SN? O C E a° F N>w W Q N yE�Em�apmLL oD NC,N. L¢(YSE°m�E�x U) OU O0 mN =C.Oa ym ICON mO O aLLZ 'Ow ZLL W rOm A Fm tN E U P .� 0 ~ 0m >m x 20 trnm 03 c°m3 mof-tz cz`Qm iL C �0(Wc Q m c E E m w H °a mN amiF o a m o m o m ca � g, o tgv oaf Q:c3 i� 3 (nS L a m c c o In mm a'ic c'� E' a00m �Um mZ m 2m3 cnWTiaW 000'9 mOy > 9v1 _ a d Um QLOo§110 3 I I (nz Z I 1 (6z0 m>0DQ`� 1 I I m I` . . . . . . . . . . . . O W >.= m 0 C V C D O T - C m U .E c p c U y -c 3 p C a O v CO m3 y m N N m n N a z N N U m 'm N, m m a Ci U m 0 E cn d D .m y a c'c m m ' coo a =�' ¢ m� (oa (cc ❑ N m oZp > m c b _ o 3 m 'NOE > E�. ym •t z o a W ooa Eo- o . a m i'¢ 0 V y DCC m LL O o- N 3 o t .9. m c 'to (Wo N m- 3 n O�=NZa O m'>n,c a_E LL c` m 0 3 3 m N m° .°c a n o 0 m F o L) 3m"0 z .m 3 >i m v Y c 0 g T E0W-C-Em m m 0 � _c O m �° -° ` B 0M a _ '-Ot m � fi (Nj m C O-J E N O z N m O W m m �_ C N 0 N aC 0 o 0 O W C m «U m >. 3 O2 c 5 0 (O m N m 'O a0 m a, L E T m E y 0 O o= .. � m O T c"Ea Ecm o o.c E 3`aN C m o O j c 2 Q Om - Jr N U mN W O N ❑ W ((D N O W m aQ0 E m 'U (a �- T O 2ac smm C ET- 3 - G Om� C - D m O7 N > � U Z O, �, OC()t m O f0 me-mWO - p a am<Y y0 C V E Ql O v v. O. O, O m _9N m 0 W z4 0� O C Ui C w0 m O '�m5E .m, m W p 0 m °mLLWwm m Z N N m o O ¢ j L F 2 Y N 0 - >m a+v io`om W= ° accmm UETO6_l Oro mm mU Lm°� r 3 a0¢m>.0 On Z0 Um mm J «m I N C. aDi W c- U a C o ¢ m do, fD N Q > ((A W W U W❑ N A a m a- J f a- m Li `O c- m C a w E c N 0 D O c N p p w C U O N E b N A A ":' m J Q a h> ¢ a L N O N m0 J Q D Em U¢ T m Cl la1pp Nr aY N C` (i J^ZW Q m IL N ««U UCO mNoun m-C m'a NLLOEW QILrV OzQ0 Cm- iJJ wJ U WU� EO X p 7 � fN 0� W Wm¢O 2 I. OUm U �� »LLrL ILLUUUU mmEOmm a0l7U J60 F ¢Se 6Z W 03m U O V . . . . . . . . . g 0 m 0 m d m . . . Z w7>>L7«JNQV W F 2 C . . . . . . . . . . . . e® _ c C O w m C m - m f eae, O O li f°- m 2 H c� L ° o Nm O 'n t s F c 0 a 0 , -0 m�mC mp-E1 C m QJ q Cm � m U° m ; U 0p>C =LLT� w'� 0 O Z o m m_ Fs"ON-,< m - O®® m 0 C O Wa¢ E a m.cm W mLL p W m o.0 ILLE v°mE> Ezcc m- o� ; .LZU m ZCQ hs.2 . f O Q ° m C m .0 , m o E m in-m� C2> U Y C ° 0 a x omm mmnM ==E° Oonw Olv mW!�2ot 5 m=>i(i0 00 y 0 E m V 0 c c _c C m m C N.' U cCa,.-TR O V. m o o a Qa ¢ o- m W� eM0aEm= Nm d an (VO 0 t� Z C= ° JN I omEOnm Nm m s m C m ,A m O 0_ y L c� LL= C`c uwi x m O am m c cm as zn m m °a R 0 'cz m .2m 1°C-,amE O� X m m m W >C O. mm c mCm-m 'yO m x `o N o roo = m a'n °Qc oa0 aE a>. D m N Q IV Q . W °" N U N m-, L fj m m O 0 E m Na V O x m ¢:o o 'o O w¢ aN E m y o (rim 0 oc m m,< o+I --mmm pm to : u :a ; a c xN o O E `°m Q ua, 3 ¢ m� g Cm>Q�>E TO ri ' m (D m m O W O m O4Wjm N. a O N� 0m 3:Zmyc a0 O : 3 . O . CN') O(D, (O Q Q m� t --> N m Z . Y N O T m a m m a C j u) ta0 . O u0i>p Q Q Q'z C V m N N I Um (00 2 R 'r Rm- Wi OC W E C N N [la U V E N O m i C .W- ° m O Q C y a� Q '> > LL D m '" 3 p m U < o iJ :ONCaW . 70 mN 0N�>>]f0 m Dai O.0 W>mLNmEmm O.0 m O m O U O C 2 o N w O - r U U V O m mm= m C d W h > 11 N m-° E a N m (� �.. J . U m wmp4�,, m . m : a O N.. a.O 3 4m V U N d 30 O,Q m 0� ('J d' �d N° mdm0 a >N 41 Co c o E mo�i NW m i H¢ (Qi 30 0 (`cS oo> mmm I mn i0N> F mo w =z m�mnocW z aE a m 0 p m E p w O O o: N W � a p a v O I mU U O m m Q O oV r d a m E m t`0 m 0 m V i0 : Q V W" 'O IU w O O N 3 .p C- N- m p, 0 0 U n D I- (aaO (� 2 m i0 c, TO_U m C a0p w .p W 0 _" VfAOmmOC`-C�C'U1�,- GaRVNO OOODdC 000N VIW mN eEcFI'C T 12m`. °0 w�C .- W E a O N O O O Z Q y C_ m m .O (D ¢ N d a E2 j 'p n m o "C m W° O fD IIf V a fi m U (_Cy = O 1- m , (] _O, NI m@ 01 C U C taO C .mG N Q T N N N O . m U m m O Q Q 0 T Z ^m (% E N rm <D (. F m LL N y t d C% J Cm .Y _ m .V m Z m N m N �� U m l d d a m e ° g y m -° m C 0 01 ` m m m> a ra Q N O M m- > C a v N W m m,m0 o aUc Ud UU IY0 �E UU oU=Y� ro W.0_s? m m° � O e mn o 2 j 21, asa w w�6E L2myN O fOo m �y c c Q R N J m Q U Q z A? 2Q_I I01 1 IH�:?E N¢fl Izmc ELL IN30 aUU gml mm CI W N > Om J aZC ; I .CN w>.Vn mW 0L0 a ei (/� . . . 2 0. W . . . Z I�- 0 . . . . . U (n . . 1- c•� c m m F a Q F O m 0 M w a i z O C u m m 0 cs OQ 8mm m y0 n 0 . 3 a O?N w° a . c `� y L n m='Z 3 N E« 0c2 m m N m C U O m m N OO m ds m C0) m Qro .Pm>. m N U am . N U O tc wa m m m ir m Z Y Y N . O Y .0 :E J tc 3 0 C N c N = 3 E a O M O N D y D 0 N0 N C V U p t0 C 0 Q ovO > U Eton N TCm 7 m I ` 3 = 0 e m�0 O LL m U _zz-a p m -o cam.` m - m E N L E 2 nm U 0Q Qa m=C Y W NLO N (g� y C m O y O Q aaC°I� 00 QU.a mr3 F'Q L m a ^-Q o N Q f'aN0 Y ny'C Y `m N3<VL) 9 0CpmN0 am ai--d wmQo 1LCA mm (�imC` O° m C 800,g ao 3m C`00 oo v E ooca min oE' U�0 E- m �C Eamm em m` _0«0 0, a ¢ o.2mE `mE Y'. m a -0O-c.5 . £ d EOEof £_Z mm W I - Yx:C m (d0°0 3N S cm 0 0 a'ol+(C CUDo = 20�O �� p `0 0aj m ,mmm coo c _UO= :a-- E ❑ n N M m m« C m U O Q to a O .: G m LL w N a , 7 m U_ rn N cao2a �qN maHU 'ummc Em 4 x 3 m° 0 0 0 DC o g 2mngZ yoC 00 Va mm ov UC..: U° (° In cmi m 0 mmm sm, m m .c 5"i F E$ O t m E ° a- U U c c m )= 0 o m o f m m m m wm E E m< -0 Ua°-❑ 0--am zan w m on m 3 t m 0 t t c n E 0>> N o E m� o Y .6 y m 0 IL LL m ILL m N En C N w j C O O C T V m O. m r m C N m U ❑ o mLL G C O U U-G J m O D V S . O m W N p - a -gym_ F ` ro m N_ 0 'c - c F � �• - O - ` L- G o E m .- O m U O `� "� O O > O m� m E Uv F m LL '-' LL m N « �.. n m� m_ O m'� - m m m m QcoF cTc oU C amU c, b Lb_ }4 E Qm' a O m _ m � - 'U - .P m o c 'c = 0 C° E E° .c .c x c N m 0 m N- m Q c o c o-❑ W a m k o C'5 C 5 C c ° C C .n0= O. �a a W Om° one ad my Y,m(mi mo mm4 W w Q Q c c c Q c c c c m m I= w o' m m 2 E 0 a a z m C c`m ¢ c Nm 3 y 2 0_O U y U c U c U Q C Q Q W a v N oS w o O O;) �m Q m Q m �Q Li(i 0°c;fC[ O 0 0 9 -,EO❑ FVa>p WyanZ.am(oli'i m m m m O m F m m m m U U U , m a - m E `� 0 Y Q m F N ° p m a m m> YW rrNNq NNa00j =N7Q.Em=M =0a�J5 UO ��E- W.>m QO m m m m m m m m m m mmm r 0°m m m U c y N� Ww(7adc ,U Omm mZ <<G «<R <G <m�co aV a doc¢U am@a06----Cc zE£ r .i C w m E m a j U "j m a UN m U C D O O _ C omm; m 2 0 i m = v a 3 $ c m O m C N O ° U =' C o a E U O O o m - n 0 0 m w _m a w m a m C C 0 N 0 N ° d m . m Y o a = O U N m=6Z p C 03 m i 0 F 3 W n N v mo E N U m O a O a c m E Z m O 0 C O O m E LL I N M n z 0 1 N `o m d c m 0 n m a N z Q Lam Z m IoE '-a . aCC m m c ='YS m0Snm¢ Uwm o QmAf; Qmr3t aCoe>� C'co d c(n m N°j ay« F,cN mnE Q n = o 00C 00 On Qc3 C UQ aL UQ ao UQ nL n-a a "o h m o Pm mm Edo 0WB 0 o N m Ao V=0 c.mc0 U yoL3 -0, moBX oNoE c p m (O O m = C O m L :E C Q R O a v' %v N (ycc�TO »m Lm,a c cm c n cv C L'9 mac c 3Eamiv 3EwcYi 3Ey(s+ mno t(° E mm E NN 1'm>'3"'m LONG C J a=m n NmU mIUt NOw m-O r m"M On mm0n ON°d Nam. N� �m m c omN _E `o$ rn o a Q' E oU L-Ooc om0 - =mx ,nc ,nc c Dv o o I c a - C-o 2 g c m :rW v2' >mF p m=E ma -0V -0V `O°' 'yZ m 0- .0 ❑ a N«V a 3 O� mmm � m m QO m W T❑ C- N U 0. LL m mm w m 0. ` 0. mD OI 0(] m E C m E N (O a. N C r C L a2 0 a m U m m O n Q o- - C O : I , _0 2 C m m- m m m y m m D y m m !2 D 0 p 0 m 9I o> cc Euim0 -m0 am0 Q L0 m0, = -0 woo °0-0 wF �_ N cv NN mO NN am 0M-@ . . 0 •c "c mmE mmr m 5 3 U m a 2020 m �YCm¢m mm a 3C N 3C 3c Lcc' ¢_ O R�-L Um« mmO' •Q Q 0¢ DL( OCN N OC❑ ZW3m U N00m mNOm Nmpm U.�O U Q m E .8 G N_ Q 'm0 L m a 0 m D m n m w 0 (: m T- U em >. a''o QLLmO mo,m �oO a mo oy m n' Sm ma_0 .°c a(pEJN�m3o �'CSm d mN 30(° DON 30(p o°N 30c° U>mN to t K 2 O m � E y Z m m N U U'a, E Q� - at LmN �� y U N O V O _ O z am O n j O N C a D❑° W O N❑° N❑ m❑ U N U L� LL� D� m CG y C O y za-.Q W 0 ` J OW mx `.m 2QdN 00EYmA naN0Q-O Oa Nav, y NQ m Ug 'NQ m-2 LO ,Q m0LO 3d3O >>[ °O m 0 � = O>ma .� « ToO E ms 00 m O Up ,O.- m-u,oEVmQ 0Coa �OLmf. Boa on mC°a 0( Om E'm _b 0 rE 0 Nn V6a000aa NmLL '-¢0 Tm 0c mN,tmmE-0 U°0v 00 .d'm �;o. «.0 1a��o c�m m0 Cn m e cdD'�c m may .Q Q m E mo Om«(mn i�mmm�'am 'o 'o o°pm0 L2n0Cp0 o@omp UN A -a m n _mN y m (nW m>aNL c-oa- y 3oY 9U.) tzam Nmm i.qm m wU> mCWLL �--@0".0 OpUO FC)O (Q.)m ILWO (QiO mQ Oam 'aW m LL m A LL U W m H mm U=N rm m0 tmi, v m:p c- wL._ O-mV QE IL Q (ice � �c°ioc ma> �m�� n �`o t_`cm m ¢ mm t W;.:o tm mm )tm`tl¢ oo> . Uc ao¢ty m¢tv amata Oz c> mU f] Qc v(pd�fp Ummv°O Nmm mmaU m N a m m J J Nm rmO i4O-NVaQ ..a m0U ¢Nd 0¢¢'I N m❑GWN°¢❑3D❑❑�N (o (e U mw 39 om �'LnNN m 0"= 0LL-._ LLC D 02 m000c �'.c E,❑ N3mm G.-6 K �'O Xm!XN� WUv)me Wac Ca>3�(mi,UUR Cn22(=>o Vr� 3 Um,.0 - Um.PO C�Qvy«<QoU,n<40ini<. , 030 tl ; Z 0 a o Z m 0 `O Z co m m o f a Z Z Z m tbz Z Z m 0 m p W m'i 3 O m E c O 'mN N 0 �} ao C O � Om O .c m0 O O o (A m m Omi m L y N m O W d (O O U V m 0 O 0 m m� 0 0 0 tC m m U 'n (m o « (° (a 3 m R (n L a a $ 2 0o m m o f N 1 o °j W E a. (� °. n 0 m' m �0 . 0 E °n d Z z mo (OI - c O (^° m mQ0 m s* o E m D m m I v m m 0 o❑ 3 O y. O n E 0 m o 0 N Z O -°p y m> N v' 0 0 a o m C m c EN L -o m vLL m w am, Fm m a- 0 N (Ao O E O o m a A E N E I m c c > m 0 t �, n . N m a v '6 C (`r(i N °� 0- o tmn O o o C2 Z O o E c o° � m N c m > Q o m 0'N a M n L o o m 0 m 8 m 7 tmn n Z Z - U m C O O (° 'c o 0° m O E Z m tfi v m D N p O C o U w L T N V' (O m N Q❑ 0 e 0 O O am, m 0 'C U C'y m C % m m Q J N t O w O O L a cc a Q' Z m 'p L m C m N '° - U m (n a E O m L m U) m m= mN m m m a O °' m E m d O a m m f= 2 m M v a '0 m m m t a co °- E 0 m m m, tfi C E. a M p U a Op mmm c mm to a v °.? 0 m C- z oam fO WC0 C;mm 2Oo0 5 mot am 5c a m -L -6 m.- - O ° U D - m T O O m - D m m O L N - D U m m - - N - � E m - m - o E o m c m 2- � LL m� n o '- o - c E c � O m _ m o N L m - 3i c m E m - Q m � m n m 3 n C« m C N � �- tp E - w � m n o L m v E n c c 0 LL m a m p n � m Q c o a > m c a � (Ec 0 a u N a ~ c o 0 o c m c � o a m v' m; ,% E is m 0 -- m ii ° = nEm ° m m an d m r mi W N a m Q y w y° m m U u M E v mi H mi itl ° t ° c a g` v m L O N r O a m a N L N L A L 0�1 L m N m 0 m 0 W m. O N a 0 0 n m` m m 1L/� C m .O o m C U O. m N` NN tp m O 6 a -p U) L m 0, N W m tp N LL¢ tp m O OW s 2 m O, mLL ` N N N _m L O C N IL N m I O N (OD N r z IW O LL« O J LL LL O m 11 Z lL 0 IL ll > to Q E �- O>� Q Oa @�`m 3 m C C L N m LL m C "� L '• m m m E j Z m Z O m.. OWJ ..mLL ..O ..m ..m .. Capm0 3mom o-m�Jmmo Jmmm .. S3 m: mLL iOm0_m o 'm .. '• QU Rm .. Q Qm Qm Cam OpIm .m.� LLO a LLIL Q LLa LLJ LL NLLOLL Q�N Q0 Q ¢N Q y N y Q NN ", J m to W c>£ IL < N J .. .. .. ..mc .. W .. .Q^.. 0 x0) .. y m U a h F N r .-. .- ¢ H =� n� N .. LL J Q N m d y .. m .3 J V m¢ Ix a Q m a Q¢ Q r ' y iA . G N 0 nor r�r - `o N O W W `-' W Q ' r O O O W N W N r r p m N N g m Q C C Me}} V J J .r N w m m w 3 A O •l � r2 . X iG m Wtf N 0 V ID W m tm LL m m m 3 r r ' m 0 r r p, T O m U 0 Oil m' fi t° O. jp a Z F awf F C a, m d m J OtOp 2 D M z 2 N N N O t0O N on m N N W N O N s a N n ^ F� a N Om, U U O ¢ 0 0 m 0 0 0 IL Z 01 a LL❑ 1U. LL; LL O LL- INL O LL b LL O ILL V LL m LL m A O O m m m m m m D 6 m m C m O m LL LL LLa LL W LL :c « W LL LL b LL LL N Z y N N X O a m X C1_ O U a F O E C r m 0 R LL N m N `W a S o N > C m w m V 0 C C C C Q C C Q m= 'I 0 d V - 0° a m m C U h U 'O 6 m m C - m " m Y S d O Cn .N p .N 0 0 'N 0 0 LL O C - Y Cm C mF`- N CO N 01QL ❑ ¢ >C 'W a C.=< C•-O C- m p m L 3 N C Q O a D U, (N'0 .m O ti W0 0 m O O m m W a N m 0 0 m U m m U O O o . m °p'i m n O on �(° °m'0m c om v U U a(p C °- m oio N_o m- N-N om (o m f n mm ac n.. U(2 n>mw a m3 Oa �o Ej �'0(O E wOmam T:= CaW Cacai) Ca¢ 00 O� I c 0 rn °ao ¢Z m¢m� ax, 09 U(N' :3 v mx °v'Z c �OUmL 30 mmQ mLL °cmx OL Z c °' E° 2Wma mm o=mn U.8 Jo a . mN £� aE° r moIE' 0a .C. I.a.Ba awm -OO Om £ < m m;3 aJmT Nm a(', �=m m O =OL -C NO 3O m_ro pL Na wm NOm WOO m0'O 0Y m 3 m c om �mEo mcn 0-3c E_ ,U mm N o '�0W B m-'-am mU QFiE ¢0 Qom (n v E m 1 E n (}i 1 (i n a to c n m 0 E w ZO a[i'o n C c o o. am o m 7 E :? m E m E m y y^ e o i m m U It o Q o m Q o 0 a W ¢ C a m t o m U m c o 'j U m o t w m v c m n o m O o Q. i m c rrQ m w cam D wE ma y Jcn N m._Q E ccp�O W a mo ¢No ¢m0 mmm `mm 0 v 'o .� LL c o° N m '" W m o (yc .m o 0 E O E y ° £« L E O o® N 2 U m -O m m o m m Y_ Y U w_ a o am �CJn'$b oo cJ o>, 0t"- mI mm mm(An I 2C.) mom �m W� QW LLm aLL mm LLFwa mm x o N .0 .cc .-0 wr m-Told -`O mm o0' E oCNC oo y'moc O�� E moEO-E OU m3a XC Xwc xC, =c'N E m omm U0<0- NQB CFOo 0Q Mm mm E� E wm 0=:c m >N000 2Z «a �mm�mm 0-Av ¢z ttOO W E E 'Cm W _Wcm C�QI.pm a00M m Cn mm ox CQ_ - mmm«m lyw m� N'nm¢aO.0 Q'dC °"HZ 0O o c° WmoJ aN m°woErnO Uy �.` v- <o ''MV j0crn myn�16 -- LZ <0 .1 Wmo 1QL0m �OO ma ❑" m E m a= o �- o (o n N m o d m a m LL U o m a C ai v c� UNm(mam �� m-E0U) We f=O E= 0W_ �a om �Sm t--co E0E�°o � c -0 omwo CQLL o`mml �QgNy rn z m tp0 �xQaOm mM XY Ena m0 mW m0 mO(OD >� OJ main, mZ NNO)EN('�] ►.k Mm mLL �m, mmm `��a m CO IL V YL m._ E� Y_ m a co E" `c_ Y z�?Fi t>c mU °"o'? Etp oo a Um r-mw >O w QL°OZ W� mm m..z ,@EaN c=mo; LLL- o E_=o J03om3 NQ Ocna� N°' mO- `moo mm0 ❑o mW tp EEm cm QcO-om0 J y at (� cca cc w^ - o� aOnQ Q� tii2 am0 �aSatm Q«<S cNQ QQ ¢ mao F a(mS oocmi Eo EN� tWccEO ny m.tmamcm �Q ` No o 50 a rno(oo B i§U oo a0 O� I�( Z ij Q 'p A n o n a 0 0. m o m m m ¢. N Z o m c tP f m Z, Q :. 3 N N c c o g 0 e o m o N o o y g❑ N-❑ °• N C ._ - W (. C Y C° w c q e aP U O m C❑ N a p N O a' ° p, U C N C m O C Z` .� FW- N m m N L O m L O N L N O N U m N N W am 16m ��c°mJ �a�co aO ��o >>m GTUi 6d)a vc QN UC- Om O IZ Qp Qp°m Qp°m aaD l$a� Nm 6mm OUcm Lm Wx UcW Q._WU UmZ Oom U�Q Om UUm i'c'�, OL Noono« O33 ZNma Nmnm Nmnm Nam NN> >(O ONN UQm60a Qm QmJ w3 QQ Qa U LL� N JaLL J NNO)Fa�-7U �c-02 VZ LL301LF0(LF O(n LL F OU LLmmLLLL^, L_ ® m E0 - ' j C T T T -C >. a >. 2 _T V,6 m- ,w y C me O -O - O m C- m C C_zJ m m'Zwm _m 0 UIE O n a a a n W d d m> NC0mLm O.ILV O� N m 3 E m p ' iE 2 N N ¢= p a T E E E 3 E 3 E E ❑ (� o O- U _0 E n U v m y a a° Q C '� > O- E o m w m I n y a um, > m Q c a m°- m m X= 3 E m o ` I N Z• a 0 ;C d R o m, p; a n¢ c N 0 0 m m a E m E m ❑ `� `o ° 'a 3 m c y C o y .c m C o t m� 0 7 0 Y m m 8 Z N m 0 m C C m m m rW0 m mp m L- m O C m U O C n m E W N w O N m nQ U a M wco n'c , D2 �' 3N mm .nz :aZ -Z m :n^ m - - £ 3 Om mm N_0v'moU Qcmo >oy t'm o-a' o,Z m'ooc mm>Cn ON == Ettoo EIn Eh m Eio m EN 3(ri c Eu, co o-0 m'm¢ pCI m0a Q O C m EI ,R Qo ¢C; mo . Qo - 6o m mQ v m > > yZ 0 EU om m_y°o, mom) 2c=5 'iy0 _.- O.p vti v2 a2 aZ ¢'D vZ ¢I(Oo vZ Z o nN D On�Z moA aoEmo>°mac cc Gm mmp oT n ?:m 'co 30(`i mm > °0 QO m0 Otop ¢O LDZ ¢O o0 0 0cc Em 0 .-, n:!nm mmm Of: LL1'O 50 a£ 0dE�DJ cS om((DO >Ex um Qm m as OZ m cZ 0 mm E °m'¢ >« >nv •:co p>.Rm mEm aN m `�° -Omm3 ¢w a®mo ca �Eo oQ v- m(n N mEn Q❑ «°co QO -'(n c� D m¢ W a QFm3no uW mH mRm "((OO ya cCU am c 3 m3 oD mm oyZ me of Om Om mm Sm mmm Om S u m 0¢ NCN °om ar�a _W'0m Emv NZ Q - ` m- Q m m m E a c E a 0 i` am, o f rri m 0 a_ m a m N i� m e y 0 w°) N 0 wN Nmm m 0 m a� aO m `� U m m QQ tNV a(U W iri m m Q m 3a EM m m OY n W m y -O m ¢ pE0 LLE 60 €m jm U ❑y'n Jm O N im L 0 t U¢ 3 tY°00 0-1NL 0 0 Cn2 Q>p NN f d CIO W C) .mc (o mao, ai (mi��❑mH aE>aE tna UQY�}, N; 0m Nm N°oD>m om FV-WN mU m o y Otc 0>?m �3�Qn N.L-.CO Uc m U.0 Tn W m m w O i m A- A C� O=m N p 00 mL. (%,- YH NiN Gj AL^�C 3G 3=N'mp =Nm C Nn Eo EOa. � 0 I OO=U)M a? in - .:0 Wa y' >J22-0" o mm o mc._z o' o I° 333T3n 3;, o"m-Qcn Em-amE-; t'ncm«a oc ma Op) OC Cn m o mm: � 3om ao, p W i:N>` A>. W o M oo 0a oU a Qn0 o1 o«o n C u3iw m« W E 2 o c m am mZ c N N-_>m wa N�p LL: o Q 3 m .. n .. a .. n m c N n W C W a cQ m(p m o _ 3.. o 3 _a `m 'E W O;@ o is E i we VyQ 0 � mN- UM -xm V)V(p >y m III O-III= VO "T:�� "T J mm am y aa,Z O N_T Lo E 666 m EE 0 N> CN j .! 8 a \ m ❑ LJm W 5A mL 0` N❑ mm2 ❑°N Nm p` 1tO�w Wa W N Wa W m rC OC N� >ja O0m OYO 000m 0 w� p O d WwL m), U ❑ m° a ❑ a❑ L N O ° m O O O O W O N O- A O N 7 A O ^ E' 3 D (mm0 Q d N Nmm O m n m m U 0 I( N w m d j� _ C IL aCC 0 m.-� ri m 0"'« Im3 N3 A 3 W m W 3 ON O LN:._ Nm_� N mY OC tuI W mm?m ¢❑ Cco n(O Y J Qmo ¢Ocn a�a a o. a°x>T�m xoxax7xm xx. n2c Uv r� Eo.�om ,0om'Qo3 QN c Vaym gZ OOm >a�'imE'm >£ mOa aZ >m may m2@ >.21 - Q- � <o Q� <o ¢= wt ftmo �¢� Ga= �¢'`5Emo <m�m LLoma O¢ RZ0 ❑EJND 03 0'. NO 02 0ma0W m 0om 03 03 03 0Lm3 O'a03 F3 U-Z ¢�._ mn >wmm>r O:cmu z-E m Ga 00 O W r N i n z 0 LL Q J D CU J Q U 06 U) W VJ D U O N m ro z x L m E U v N `O a LY m m - m m U D N m E? m- N O N R X I U ca c 3 m E U c W R 0 a N cv R m� 3 Q LL to Q E w . Q 0 a V = N j >m O ry W y- m W- o a m m I- O O t�0 I ,. Q m E- N m V y m 'c.. V N �j N c0,) m U a� N ___ - IcN no--o aQ 3mW3 2JFc m m m a c" N O� N m^ a L-2 j m �O W O m !� UU a'SmO Y -m--z IE�c. LL 6 �0 mcxc) Epar�Q V! USm2 ZN 3 T,cLE g mm'3: Q�0-p mm O N Z m U OU0m)'-NC •C L LLE y TT N m O1 L-Ry ], O m c O Q l0 mN°oa. aOm Q Wmmm-0 U•Nw= 3mmmQt`m W c-O(n5mL..c sU" -p to -5 •y q 0 a0 'y N `O N C C E U 'a 00 EO M z N Q] c (p '3 am 2a�z. Y0yN3.- c nym° N In - O V s mm m `o L Q mU O y -=U um- o ccp3c mom> - ;°rJ� O)Omn,<,0 zo ydQ oEmm J0TLL o� G aaoo 00 a o ="mm y+ a>ca mo aG F5Napw QYsQ�W N a¢m� aN m IL 00 H V Q"coai ~mQ mm?(0 O a<0m �(n o a Oc ..>._a-ao ac�:5, Z mmE UzLL�m R_ 0`0?: wNc cE^ d m_0 a J J O No O C °• x^tV (n U� J c y� m-oa� 7 7 LL UO LL Q M:En 0 mm ¢ m¢ E m m¢ Q H `m m-« . . . . . m W °O m m c y L - Ea X L L- - m- O V c O c mm-La m'- O E a mrn o 3 v m % Em[oyR?33NOrn N-O3 ❑mo N p'c �>Qy mma LLUJCO Y O Y m l0 mmE oom O o 3 L J UQO E O« Ua NmmUOm- OmOuNI, 0 m'OL J - Q.O Om m - -�- `0 p l0 O~ 0 o a'ioc, c°p¢Q -H m0x rn�- cOEE EEC m3°i 'mo Oo ❑mmmr-m"<c- mmm °'_ a Ommp nm00 N°o E ll XO mQ mZ ULO =m3 ],rM �m . m :E a.O O_T U 1 m O O Qy oY m mL my CO lO E Cp m^ �, m m �.- R C? m U y 0 U U U« -- m U X 0C, y R m m O O t nR C A 0 a C c .p O X N O m Co- W a O m- d« m C ® d 0CE-o �n Wlm _.- mm m3rn pa X- p)mm^ 0 ym O® ® (nE❑E�oJo Ea rn aE(D pm p�L ❑omo O0cE 20 V Om O - Q y L J ym mEm o m ca t.O v ❑O IL 3 cb E 0. o mnrn i (n ^L .g�U E � o- _ J mm cy m mm4m® _C Q NIm0 - aOa 0E O o-m J=E-m Jn/) N 0O Qda= r 7 a C Cm m N J = m LmU ° V �Iy ` yDz In zm-U Z,,� m Q O- m m- X LL Om -Zom ONv O�oo mEyE myzE®^m rO a�mmcrn .o -am` m ❑Jt'c oAn ~cJ-oN mEivo a c m Zzx z=ca- O❑cE_°ao x m in LuoN m N 0_2L- Lo"a'>,(nEn❑aym cma13 Ona Oc 1=(ncQQ0❑ cD -m Do x-_ CE m m c m U¢ m�c a-D m m a c aQQ£ OZND mL • a£La pomz In R j ON to C Um m ON 3 m a-- Q Ra J Ta Y O U N-Q d O p x m o E M= m In E a o) (O m 0 E I, r O maim 6 a'-m� Xm:�� Q c m 9mW °'"`�Em'c aE .Q me pm'cc 0 Cd(La �,(pc0EN~Q ca C cQI- 'CmR0-1, O>LL y1W- may -'-•OY m a- Z Q $° s J n¢ V. ? R O U C m m m :imZ,mZ c-Ymm-.- Uv_"-U c c L O Q� M Jr. Q C J N F y U c m m Q O J« W �UQmcEiy mE o.E mao ° R m-a I-O C `a`-R , D« -r.. a n E m U J N C m d O -0 m °i 0 O U L m m m m1-o m-EEI`3m'e aamma m N 3` a y U m^ O , M � o R y S z m 04= O Q Com `ODrL.O a y- Q V' yM ` m I E a mom .- m � 0 3 C O au C a a C 3 r c (n CID N m V x0 LL 9 a of NO c m ,6 ac I Z m 3 0 E 0 c W E LL U y ?+ U(? c Q -O C_ R O. F_ m U O,_ U U N -, N M n U m U 5 U O ammmm� Qra mDm`gNato nE omm a� pyivtORm MUI, c=.. In 3�mg >ooc=r2Q oao-mcx >0�`0X mc�d°Ni O m J C m L N v U O O Y C O n m m m m m 0 m L O c x m m ? C -... c R ® ® E❑-Y xm ZLQ aF- 0 cm,� x c.- mmm a a L'Vm I R= I m OL. (3n .0 (n 111 O m Yd' ` m d"0 ,,, O J Oa_ sL y �C 3 O ram_ a- m U N a Q.p� ENYL (pE0 m, aJN E•--' U I m OL m Q R._m 3(n Er aOc Lm ° E R cE L_� mc-od Q0ma SW OJy o ym -c� I 0 :500W0 qO'3 mrn y JaYE�- R, ymr J-R'- d. a- Q'O R mQ m 5 00 m LL !T mLZ N E V m� LL m m? m C m °'a i 0 N 1- a c a m C C T m N l0 m O) Y m C y O X . Q m 0 l0 O O E X Q D O R- y "O m O LLL ) In a x O I� U N 0 0 J c L my Ua�E_0U mN o,°�S cVC Rm UQ Em='N m0 CIS—M - VOOmt L d, C- >, III U O m 2 U E O X m c° c U C I, a c- N c0 c O)a V m m C C- . N R EI OUQ U "'a � C CYL� m O^ m C�'�m c o`-• mLL E m mm mQIN m ?Lu p: py U)yanni.33r c'C m~rmmcEi LLmmLoi a02mm •- (n y � W 3 cd O) m O Q J J= N an d lO R 0 0 a ® mU Ropv `Q o 0 1 EO. yoIn= m oaSx 0Eam°i LL O CD< �xm�Z:�Z o w= (non LE Oaf 2.56 op> L n an Q �cmY rne¢"Qm 5rna a Q m�.=O..-~.mc0"3Nv 21 Em H_-CIS O_ -n- (n O Q L Q n m C C m« m N 0 3 m O m m 'O In 10 a m N E y E m 0In mmU�- Jc c`*3«��(O aS?=,at'`Ox cSmdE a aNam. e ® y ¢�0Om`m¢m Q'OUm°N3m m 1EINEa00 QtE3a ai moo'-0 O® O ® ~ J m-6�2 m ml- QL m IL- O cm dxmY mo_�--*= c- 3 ~- E m— i •yoYH oL o a m (n m m O No �. mmm- E R^ 0 a mE~rnN aO-oQQ mo (nm - o E LH UNE e o �om�_..a E�NO1 N `o 'mo� °)¢ c ma RN E Eam N?mm= In vm 0 =- OO U U O Om) - O W U m m > O- m- W 8 m« E m m m (G N IN m i O c N QD°QEmcEim000 a�°aEcEiicC QaJ3�3°� a�n�rn°�) aaEOE L N- a N C 0 U c m m m a m 3 m C O d o U_ o 6 R c J c o J o O a m a 0 'm0 CRIQi- curio a),- rn ,= �.Z,Cl—Q3 0 0 r '- 0 a � a 0 m r m O m O J y. E E p) T m In m c U L C m N m 0 U MO- Emc F oc mE0 IT)Sa Uv our-- WNamw moo `omE�oo' W m m a N � L O O N U C O .- m O J x U N OR - 0>� 'O Jom uZE Emn 0`z'LIIn Ra m0a o0T O cE -c5oL o ❑ 0 a N m O 'N co ni) m m� C?, CZ E a aW0 a.- mm(mi aclJ a> IUi-'o mcin `�4.m .0"E .2 am J Ja Zo ,Como on 0�E0 VJL�U mm ��N -maa w NOO j'3 NN c ..L..- r%. Z R 0 R R O U E N C J° H o R c .33CC 30O N€c a-J- N3~m O--' Z m n (n R c m O m J, C m,50,ml mO ZRa Ll 0mM= I. �v W ym� ODi -y`(2ya Em oma ndm -It � U¢0O(C14n OQ MT y¢d� OI'd aUCma�O ` Vw U�LL ON t'nmp ° 3a i NQmm-m0 d QLLcEZ= -a �: Zam =2 ccE p iN>y,M= a sOcmro o°m cmmcp oi.csit L u6,' —mm- C F- Z m U F• a J m a O a 0'. O (n Q« a a J Q y m m .- it W LL / W c O O e 1V a6 a CID 0 a .i = W a c 0 a a 4) d � L 'i N � N W g U)2 a oa -EEEEEaEE•EEEOEEEEEOEEEEE a I Go tlllll�11�1111 WT 1 -EOEEEEEEEEEEEEEEEEEEEEEE U a I 1. • OOC�C�OO��•OOOC�Ei I� N I. u W = U W,,!- o in1. cd am 0 0 0 )�•oo�000 z? Om mmu>'c i mE° m ¢ m C O > CW°m ` F am a m °Z Uom«. E m m R ._ c-mN mz C Ocm Wo", aoc - ao > O 60 U m N OOC- O"C a J , o0o m 0 Um m o O m EWTU Oa m ,_ Rtm n0 Z E Yac, - m E QLL-0o (n go « c > - U) m o T U y EEm >a¢o)`� m C mOcm,C mmm-Ey m Et_UUI (n �mc-aa c Wm 0 WC J z (0 in 0Z-o®-R 0 C O "L=N oRj no aZ a Ho0O -EEEEEEEEc�EEEEEEEEEEIaoEEE col 1 Q • E EEEEEEEEEEEEEEEEEE;SEEE U Q IV N W �o�000000�oo I U E Q CC o m N C °Qp � a � 'm0 a) C V ma c(i auc a:4�a Nl- mQ RY_U3 xm m N Q � 10 V a^❑ 3 c .'-. m '� Q Q N -m nN � p J y rri U Q y y�U >•y¢ ° � 3 maw da J W Q m c m o ur a° 3 c vM oQt_a a� U ac�`e °in �¢ a�Ho m aEi� O m�Qam dt °� ¢ �"cloa a� me cpmi rnZ OpV �m�c�-p) m� Wa�D�� R�,c= Wo Ea°o3QEwRm� a m m m E E -"z m r m J E O E U T- m J UL• H a m« tO N N C yea E>-a moH3R� CcT caomxc �aJo N mcy CND a W �" R a� m °_". C m �m �� Q�cmoEc4^m DO`o mmFHc�O`mim(mQQ M ItR yym COamVU(yUNoyC -m D2�QQSmtd2`womNwmmEUEoUp wm a:Fmi;Qmc aUJOR.=_ a:F; aa D� R Tm .' T mN "Oa ya m.. j� NT«CO OJONLOY�pmNR Tjao O y-aLa3os _�Cd ,m cE c,cQ Q C UD � ti W N C y Um �E �O1VORR3NTmma �iN,rEmC >C NNE`cood o0cm a �~o �Nmc 0wca a mp()Eam° 19Lm a. c CONm J nL00J>`J°m O VUmOZ•ltl -nDO mm� EU �'daU E3oLm0oc�Ll.v ;aatd tN�m m m +cmuo 30 m c R-JRN' .LL`° 3me O ONmmJC «R Vmmmm0m -OdN -0p0��OQm�;amInmmNCCD�RC dLE 30`>COc"cLYTLL °EcLyZD_omEA ORmE. am oLL o�rn c�U�m mmomN'Emm . Rro ¢ u)-�ma m3CoLm-ORU`UmC m mmmm g-e cm_br ymJmOOmmE6OQ=m JC mmLLaCOD- JRdJ mEEcUm°moyLNom mRcm_ c y_ mE0o 'ODaE-'(na�a="�c� Lx�ETN ��o mcv cJ�mmo`mammmgya pmam� macm 0z m>mCEc yRmaumor3mamER COamo '�mcm mmVmRcEo omm m'E` a - N aVUmCmjaU'm y 0CymJXrwQ(Cc y� ym Na3 p m �� m°l Q O U � OUm �.-PTOm2QNd �E�� D >, d m� m L r a `� m w d am a o m Y 'c m °- ui 3 `0 0 m '3 n v LnLt `m rt0+ QJCY yam cao�m pEiEy ELL�EcmiE 'o Td me m>HaE ■ mo°m roo,2 rTcma `>'U oN�tc3 mmE `Ea inm�a°? C HEEE tncy 3E°mm li cmiB ULEEEa ¢pmim 6dc c(n O O N c� r « O T O m a C y O Z J m O O U U C y m a m ,o a d y O T y 3 y C a` y O O J m O D m _ X _ Y Y O O N a C 0 .�:' ' aU ti a m ON a) -� U y iJ -OCUn mNNmN C O�maOpmm.Om �� Emmcmaama3 d T O m a `Jmm °pmXLL°E `ccvinma > CIS y -CCZOOO Q A a YOyL CWm RCE maa_ mo0 3° 3ooai Jcc aUJC «° NymCmO3 E Ea �N°°3dpmmo �aEomo«mc m p `R ° VUc_m>NpU.0 cl QNOLnEy N Z Q a E W m ~ T U O E a O L DJ N O y o t mm ao c a O m D a osX m Oac m E E o y m mm E o°o mom mc d a mo m�EYEo rn- °NL�a: aB `d�y a mo mm`N EE cmEociQQma 3"y oa-ER '9Oo aoO Jca m OZWmomEcmmam'EaaoJ» ao po `m ma>E cRmmmm m}LmRv nE DacW E :Eem omTanU m�«m E mLaN00 O QRU07m(O i m m.`EQ NOrJOc WTc a(SaNJ 0«RJ2aJ0 mamEUUOmQEH.Jo(nOQy IL 'Cis LL y R m mpim C y 0 -' # y a m�a-mLOR nm•LLNEoEo�3oyQN y ,�o« N aO 3 � m � � O �-m_.O OD•N Cammarno T❑ aV rnUt 1.W W 7 CN"' N Q N T _ ovmma�0 aN yomo° Ewa�Vc co FUmYm o� d c Q 3 m ,_ c y o c °-O m L C j U 00 R c o N > O� y a ° J m❑ O L a m od: E3o�- R v �'WmQmLLm�°aL..maavapo CmcofypQF=UaammILL 2 ON m� R d� C_ Z Q Q m c m Z cTooJO acJ (p E;°�O 3 a :E.2 a i m N O �' m R a7 E 3.0 o m 3 U m U m 0 9'S c (� w m��`m�cmEa Q�y mdmYpn C Qmcamc`-tl� «E-Oo iiQ;i�Ii O m pj R p CQp E O EaoVo I, L d v a W C 3 W c `d m m LLN 0 � V H J N E J m O J O O)D F Z r In am Q m ° 0m mme a m ri vi va m i" o O E °c EO a`UUUm W NNN UEmm mm mOLL L m m .« O LLILLl U LLL WUQ>jmO¢LLLL Tm c mmnnmao oa 2 2 2 wLL m N S 2 2 m> asyLom aU Eo c0aJay LLo°imoyL�2 mJmommm oa c m mmEmp_ W � .Z yamW ~m N NLL L�„OLLOOOO ` aD03`3Nom OOO^aa❑ awttlO�m 0Ra.CYUa= .'C m°aLa S co0 ca a o2rnm OOO;mLv a pomccc J Q c5°ozw°c° $>>> ° orn rncrn 'oc2 mma�vcERDmccc o 0 0 �■TTm (nUEm:. cmEcyEEE �Z ��c` a�° �Um Zo pi� on oo� m2 �a�Nacmmo�°mis0EEEE m0ono o` 3yo�Dirii L oo h °.Oap ow D myN �Up��y aamm O 0EO"S2�N O NO aOOO 00 aa92 O�aa>0E OOymmNo WU.0r'U O- XXOXaXOn OR`DmYDma�aUYD❑dmTQyOOpNOyI: N Y'Op Um_`m ONR-OE¢E¢E¢ TcaY4 OBwCyw ytmy0UY0❑ow0mpmpmpyJLTNO -m( p om=mNryTyampaZn2canRmymoy`R¢R¢m¢a0oUN,Easc0 cmm d d d- OaEamm(nm° Yoadpo0coom0c�dmwVwaw R >O ExyJUJm O¢omy�moWy�■yR)�r LL°m�U mUm cmwpyZap -LmL mmmIL:m�yURaU^ormma m2- 'c Qv m 2 o OE aEoNJ3L M0.7 JJY�mooJaya2C o,'•avOmvms��mQmsmJmJOmmJmmmm Ym l°.- cE� J `2y �� mpii yO OOw■'7mcLLUza'amic¢=�¢�m(mow¢w¢m¢oyam oNw¢w¢w¢yc==om z NOE go0'^J2UXR.LLwO�mNUyS❑• • •Way• • •IJ m d N O N c m Z m rn c ti m m C a ._ 0 0 N p E C N N C m 0 xE T 0 a v o= o M 10 0 11 y R � O� ME N Q Q a O R L O N 3 >X X X 'O = a^ ` V m J m J L C N N n � a m CIS U � U � f\00 C m p E m ao 3 m :.' o 0o E �Lv O U m 0 cEi cEi aU Jo �N E y wE � ti a s .. Q m�Y V> O NiNm m m d; E�CIS - A m y O U C 4i O 3 `! N C) �* > `V, O O) O) m 0 y m pj m m m a� O. m Q m � O N O a � °, c ❑ (Ovp (OOv fOvp 'm0 � y m J a N� a m m m- m � '« .� E m l: m C � y - (.l y L m� an d R y m N� m U c m 0 d C ip � 17 a O � � U 0 ❑ C p U U C � � C a �_� � � o� � a n m y $ rn � O1 E Qo L E U -o x m io io .� '` LL Ta � m y S � R U C U (D J Q 2 z C R m NO .- m N (0 O U 2 i0 N t0 C O y a n lL6 m �o >,m c /°� U Uw g N m D >' YEo 1p m � LL o m x S 2 r ac mnE o '_` � Q L � p 2 c w m` n d� o` 2 - C °- c ° m d J f U w A N 2 C O) m C 0 3 m n '°� L ¢ a E � m X 2 N m r^ E yip O O m m N a- G m C_ a m � � a � E O D m n U L O p> > > - ❑ m '` O.-p R U R O« C y y T O �• O 0 Q N> � C (p li E R ? � 0 m O In7 ❑ v E ~ 3 «� m a (o o) Q OA o c m �e c -' a 3 0 a cmom 0 ;�. LL g � ° N E E O O o m m 0 L N� a C C y Y O 61 C > U J m � N m� a v W � p � U C X U X U X .F a C N f` L m U'3 rn o a m C m da M; o a� � O .. a in amY m� c o� mm m 3� 3� 3� C d c 2 me m a wJ a 00 J � c C o Q �! U o a c� w o m c o ¢ 'S � o' c "! c r- �- R lemon � �c c Im om u a a oo mR O a � rn = m � p 5 ayT,o � � 9 � r ° d� m Nx Nx Nx C mm U ``Jo ' z d a m y CIS o T n ° Y *' � ri 3 c m o U m 2 Y ¢« gy m � U U V V ,cc '9 y a 2 a a= v S v E J �_ �> o E =° ❑ w R 2 l0 °' �� c 2 o L r o o Q o❑ E m E � m E U E p m Q o coy � 'o t� Imi Imi > o E' rn� W w .so T L �� • a �' o° 3 E E ~ c Z c> > 2 O m m psi m� m� m N v o phi N�� c � F N = LL LL O .y �p Z a I= (p U W U U J Z' 7 p0 J a m m O 0-6 ° N R m •+ LL N m m m m m m m = m mm W U U. e t R� x S Q o o a R p ® m mm o d m LL LL O m 0 .� o% �� E U a U® a> � a a � w � w n w � 9 LL D I°Di 1aDi �° N H o N I I Z d« y U Z E O 7+ LL LL X U •p Y Y E > > E R D S x J I I I 2 U. `i LL LL« m a • • •. N a`N W ma 2 2� a ZTi W �ma U �� C E f Q U. • a 2 ai 2 2❑ �m m z O N U W m y z e 'o N a _ L O A 0 m a N U z ❑ M m m Z d a 3 H i 41 3 IL �W � W� N Li li to a E 4 0. aMM I x W Q y L N ^ m m ` U v y . R L m o °. ° -' 3 m m 0 .2E' ° � y W a m .- Z' 3 O 0 (p vi m 2-5 �" A O T O` D a O m m � .. � E 0 �> J R" � U o H a N m n y 'r'Fµrr m e c c o c >' � o y E a 0 0 c � m c o 0 t>o =J�'r" a o m L a c y o o LL m a a m y� N m J r.m. Z Q IL m, 1 :�_ �Iry -d� mo'oc N y;ii aN m roA m Q { m m� tTp 'ci0 o> > a mIdE 0 'm.20�� Gn2 cOU o�C1 iPAm`U- I 11 pO!OOm«>-�,�U -�I [=<m am�a0)cO ' CO .Qrnrncmc m�UWUa pmE m LJ s+= L >ca m md OQ T 'L RO X RN NC.JTT�mU TLEU UcR O�mNa ,Uy0Ow m�mLl0N C OEmZ� C CrnC iaHNaniJ'¢am a� aoE3(¢U73�zamwn Ho ILLI I I I92I I I 1 Id¢ p7 N W m rn H 1 I I I I U U C m m cy.a T .OI LLm�aCOJ CIS am m mmm m mam Om) Oi c C U om JLmU oE__aR�O E 3 mmoOm�`�.mao `°O no° mm Va �nNmm�� p�cam d °rna°mLmNC�EmR`a mmm�aUQ�OC�J°°CLm cLLOm> `NaaOco ZCLL=m mO `� D mmC 015 CL EccWOCIILL SQ`a yaYGuLLaa C a L UNNMC°E SmamcLy as c D mEm a ET Uaamm R NN a yda«a tic>°mDmS =a O❑ Tm- U 1:m J m m a_ nc n- E R m D m m u5�amL°_, '- c Z OaNcO O? m5t m JCa NaCLOCa U0 C�W +m=I.-amN"iU,.D.0 y >°y_ - OU'm � E mpC UN UOmO C�Oa-«Ta QRmWmCE«mLo m m m +m �LLca JmCm5 0E3yQmdm nmm m«ONQJ>3am•}CUJO m�°UrL 0m crn-i3c In LLNLLU > -� C TOJ~Omm y�saZamnC�Q am 3 a J LLOma® J - UpZaOmU ILLtemmOom0mYma.rn dLL2E °°mQLDZ 0-mrn`ULN`m0-mat. yC ¢Lm.0E 4ZTm3asW� mw Rm�`-Tme SREo�Ry`.m��WoZJo cy¢- c0 pammm'Qm�RSapacommma?mm m d atcma-_� yiaC_U�"�_m yC aJ- JJm � NCYOccQmNJO) - ac�°Rmm Ua .m LL mm= DNm a.- mOjm� Oi~ pC(O yYIny cD2O! R crwNmOjCmC$O=tiW �D°>ydmm E- m mTR WWm m LD>Ovm .Um�OCUy�UOU OOONEY"I -dDm>- U N �R>�mJym�a•-«mE3y3 �.y CN- IN }mmymZo2C`OJmCN ym7O LLm _m mY a LL OL�a_°Wp'OCp�WNE m � .QUpNpmN"_OLLmyJLL3L�Nm" CCdN U Oym OO Lym? Cm COm_cr°�° c N �U C 2�°°OXCj= =°m U COU�mda D^ L �>a« 3w'En'O rymdLm E2mmm -aca �R oJou�w!�m2mcp`=ti'O-.16 S3=Nm�mLOm' mQUocmy ym R °�mQmQ m_iyy am pEm°xLmJodR amExmcOOp mE yaN mnUmL •Cm cLN JDN IQL�LLCCyLL LLOym LLO 'mRpRmOpO�OL LmLR C au'mC.ma -C �oR3.NEOJOOc«ON&�w�mUVm aEmmErn ~`SoOOm aUU cc>Rmw-9'- Qi3 NamaZ' °a�muniE 2� j Y G�O�pOlHFipE L2 ja2 E rnEo Omm.■z:y E Lmm �Ncms � It OEQO�i� � i .o3C `S m®LLUEZOI I I OLj N�2OaN U N TL2 LpLc myOUO'0N'2 0 LFQn'macoaFLZmL_oDlri HmZ yoaERO2mJw�RoB2,5i-iLR�UH>J f-U O it D 15 �ME , Rt m 3 � Q w am (N 0 "' j x O L o . . o m m a d N L d - N ti 0c $ v; c ® m d m G[ a N m W O p � O J� ai . !EC n 6 N U .3.2 2 O m a p c� c Z = C @ N m c � m � m m y N N � m e cm a 3 ® C C m 8 � m Z-o m = � o a c � U c0 TO O - N S"ioma m o m cLi A EoV ''m c o = N a E ° 11r©O OO pm a 0 > O � N m a : m , n m c C J N a �p W Y 7 m 3 O U m a o a c m c r3 r w Co Co•JW .,- Cow r, y W. ■� um o I - O� N� N D O N 66 m y 0 m« n m CO]J Ja O C_ � (� n m al @ + � � m �)D mac. W o a LL> U U J m n \ a m � N O O L Z 'V) E lTp U NW LL W/-1` _ IL O U J m cap jC m � p) vo � a L_ _ � - a � O CLL IL 5 ° N m N ln� N 3 I �'- G a m O o E- J m o G y a nZ L T C rp m (° t` IL N eJ CaOJ xD an oy ol�'oZc? � � » +� Qm oa a Rm� d �� Y W U.- n^ N 3 J O � � m a pX) � O y C N n m L11 L LL N N O � �LL �o CO ylmNp�� vMtt c'>m 2 'i�il w z d c? ■ m y m t° N (Nn 3 3 w U O` C OOO C N J0 C COOOO ozOO v N mLL �0NN�mmaa6� 0cMNZ� j3Om N _��0 mCm2 wo Rmmu� NcSa�� m m O aLLCL ¢ZJam acRUm ¢Jmoc 0)4m> cllr5p Cl) mmaUUpo0 ao;(n�ymammoa-aYJ `O Nyay LL��LLm OCW�UmUaNNZZ�C LLu�Uo rr�ooO �ysa7U2 oxlB9drm)ol9 JoOmmy LZ�O3QHN U N amym IUa-o-a�o' o1 cow n cmG7 0 co o R o � maUo Jo .-d mmm�mT�aooQ t� `E�Jy oElly mO' O.- ROm U O O a ELRt J z"mU C ZmOymlNim N�>cNZCp aJcoo 22'>`- .. QQ¢Qm• p a�,� . CO 'C•m¢c+,)i2`am~mmaEN mco 0nOO mNCmCEO COQyQ�m yp�� -m MccWU m>>m N� p vCaTR V ®�Z �- a NJ3a NO U aa�Oy � �m r d .-OL (A °r�E Nyamamy}m�Eoa R a.y d ?c;o to�EEmmwE >U Et3 'O m �xRaMEm¢EL ~acwOE-cazmnyma 23'L ma JWC 0LLOoNy yZav(2nE_m dommmmcm m �I 10 RyyMRJE�ay�vmogp `no�Ezo ti= mm-uy� vv 0' WmWOm C taO I�L no J L m Nm❑X�d U Oy3�c� OONNrQ pOLLUmJO"� c `"�cCO W R >R�ynnO�NmCNEOt�\ D ��a.ZNra0 °� m E.3 E N (?° mmmp)In E m a mdaoaIt 1 TNmmEm'O E�ImNLEmET ��o Evdmmdm = oQmZNmo S _ FEo�C7(7 C7 (7 U n no3rOc- mliou�o mmC 13 E oo� O- Up J� aoy LL3 3 3 3aaJabmoo-moZ o°mo� �mmJOmU>mmN,o qpo-- QOLCOy070NNvEO EOI-m0�(m>joUTmNOi o ° mmD�m Iac®mM°?L- mom c0cOEE..Umc aLL :mC 3 tYa`vLLmmN + mC Q«rvL- NN actm�jJmaUdemE0CZZLLUQ = - aQLur3333E�m EJ+OMC y oE`(nEUmo*,0ay 2 m•Lmm` o�c rnms> N - - m m m m y y � =pDO uroLoIII10 `dL o micmL- mo(? c,iJaEEva ccccEE°c �o�Om ->mdy ii`� 1 �4Eo�mj a�'��a° � �m��°°�9o��FommLLo z �mTLm2 ti�EEymw EmccZ�aNm mEO0 8 oonOpm Errmi toDm® E °°aQmO CJEmM*aA-III IIIQ .dm>EIlTot CD 0X�JNXd7vmaWLNOgRE .R'O Tm aLWxEW Jmm ZmNmR -ndJ J HwQSJmmmJIL in O2tnC ■E 202_F L I r m a 0 N Q LL n W a ME �,.- U di m o LO aC.?C N S _3 z° N c U O N `o `c_ m E LL N 0 m a z ❑ 0 N m rn a r. I m a N 0 m a 0 z ❑ d O ° N 0 0 a z ❑ N 0 N m m a LL N O m 0 IL 0 N 0 a m v? Z ❑ z? Om mmu>'c i mE° m ¢ m C O > CW°m ` F am a m °Z Uom«. E m m R ._ c-mN mz C Ocm Wo", aoc - ao > O 60 U m N OOC- O"C a J , o0o m 0 Um m o O m EWTU Oa m ,_ Rtm n0 Z E Yac, - m E QLL-0o (n go « c > - U) m o T U y EEm >a¢o)`� m C mOcm,C mmm-Ey m Et_UUI (n �mc-aa c Wm 0 WC J z (0 in 0Z-o®-R 0 C O "L=N oRj no aZ a Ho0O -EEEEEEEEc�EEEEEEEEEEIaoEEE col 1 Q • E EEEEEEEEEEEEEEEEEE;SEEE U Q IV N W �o�000000�oo I U E Q CC o m N C °Qp � a � 'm0 a) C V ma c(i auc a:4�a Nl- mQ RY_U3 xm m N Q � 10 V a^❑ 3 c .'-. m '� Q Q N -m nN � p J y rri U Q y y�U >•y¢ ° � 3 maw da J W Q m c m o ur a° 3 c vM oQt_a a� U ac�`e °in �¢ a�Ho m aEi� O m�Qam dt °� ¢ �"cloa a� me cpmi rnZ OpV �m�c�-p) m� Wa�D�� R�,c= Wo Ea°o3QEwRm� a m m m E E -"z m r m J E O E U T- m J UL• H a m« tO N N C yea E>-a moH3R� CcT caomxc �aJo N mcy CND a W �" R a� m °_". C m �m �� Q�cmoEc4^m DO`o mmFHc�O`mim(mQQ M ItR yym COamVU(yUNoyC -m D2�QQSmtd2`womNwmmEUEoUp wm a:Fmi;Qmc aUJOR.=_ a:F; aa D� R Tm .' T mN "Oa ya m.. j� NT«CO OJONLOY�pmNR Tjao O y-aLa3os _�Cd ,m cE c,cQ Q C UD � ti W N C y Um �E �O1VORR3NTmma �iN,rEmC >C NNE`cood o0cm a �~o �Nmc 0wca a mp()Eam° 19Lm a. c CONm J nL00J>`J°m O VUmOZ•ltl -nDO mm� EU �'daU E3oLm0oc�Ll.v ;aatd tN�m m m +cmuo 30 m c R-JRN' .LL`° 3me O ONmmJC «R Vmmmm0m -OdN -0p0��OQm�;amInmmNCCD�RC dLE 30`>COc"cLYTLL °EcLyZD_omEA ORmE. am oLL o�rn c�U�m mmomN'Emm . Rro ¢ u)-�ma m3CoLm-ORU`UmC m mmmm g-e cm_br ymJmOOmmE6OQ=m JC mmLLaCOD- JRdJ mEEcUm°moyLNom mRcm_ c y_ mE0o 'ODaE-'(na�a="�c� Lx�ETN ��o mcv cJ�mmo`mammmgya pmam� macm 0z m>mCEc yRmaumor3mamER COamo '�mcm mmVmRcEo omm m'E` a - N aVUmCmjaU'm y 0CymJXrwQ(Cc y� ym Na3 p m �� m°l Q O U � OUm �.-PTOm2QNd �E�� D >, d m� m L r a `� m w d am a o m Y 'c m °- ui 3 `0 0 m '3 n v LnLt `m rt0+ QJCY yam cao�m pEiEy ELL�EcmiE 'o Td me m>HaE ■ mo°m roo,2 rTcma `>'U oN�tc3 mmE `Ea inm�a°? C HEEE tncy 3E°mm li cmiB ULEEEa ¢pmim 6dc c(n O O N c� r « O T O m a C y O Z J m O O U U C y m a m ,o a d y O T y 3 y C a` y O O J m O D m _ X _ Y Y O O N a C 0 .�:' ' aU ti a m ON a) -� U y iJ -OCUn mNNmN C O�maOpmm.Om �� Emmcmaama3 d T O m a `Jmm °pmXLL°E `ccvinma > CIS y -CCZOOO Q A a YOyL CWm RCE maa_ mo0 3° 3ooai Jcc aUJC «° NymCmO3 E Ea �N°°3dpmmo �aEomo«mc m p `R ° VUc_m>NpU.0 cl QNOLnEy N Z Q a E W m ~ T U O E a O L DJ N O y o t mm ao c a O m D a osX m Oac m E E o y m mm E o°o mom mc d a mo m�EYEo rn- °NL�a: aB `d�y a mo mm`N EE cmEociQQma 3"y oa-ER '9Oo aoO Jca m OZWmomEcmmam'EaaoJ» ao po `m ma>E cRmmmm m}LmRv nE DacW E :Eem omTanU m�«m E mLaN00 O QRU07m(O i m m.`EQ NOrJOc WTc a(SaNJ 0«RJ2aJ0 mamEUUOmQEH.Jo(nOQy IL 'Cis LL y R m mpim C y 0 -' # y a m�a-mLOR nm•LLNEoEo�3oyQN y ,�o« N aO 3 � m � � O �-m_.O OD•N Cammarno T❑ aV rnUt 1.W W 7 CN"' N Q N T _ ovmma�0 aN yomo° Ewa�Vc co FUmYm o� d c Q 3 m ,_ c y o c °-O m L C j U 00 R c o N > O� y a ° J m❑ O L a m od: E3o�- R v �'WmQmLLm�°aL..maavapo CmcofypQF=UaammILL 2 ON m� R d� C_ Z Q Q m c m Z cTooJO acJ (p E;°�O 3 a :E.2 a i m N O �' m R a7 E 3.0 o m 3 U m U m 0 9'S c (� w m��`m�cmEa Q�y mdmYpn C Qmcamc`-tl� «E-Oo iiQ;i�Ii O m pj R p CQp E O EaoVo I, L d v a W C 3 W c `d m m LLN 0 � V H J N E J m O J O O)D F Z r In am Q m ° 0m mme a m ri vi va m i" o O E °c EO a`UUUm W NNN UEmm mm mOLL L m m .« O LLILLl U LLL WUQ>jmO¢LLLL Tm c mmnnmao oa 2 2 2 wLL m N S 2 2 m> asyLom aU Eo c0aJay LLo°imoyL�2 mJmommm oa c m mmEmp_ W � .Z yamW ~m N NLL L�„OLLOOOO ` aD03`3Nom OOO^aa❑ awttlO�m 0Ra.CYUa= .'C m°aLa S co0 ca a o2rnm OOO;mLv a pomccc J Q c5°ozw°c° $>>> ° orn rncrn 'oc2 mma�vcERDmccc o 0 0 �■TTm (nUEm:. cmEcyEEE �Z ��c` a�° �Um Zo pi� on oo� m2 �a�Nacmmo�°mis0EEEE m0ono o` 3yo�Dirii L oo h °.Oap ow D myN �Up��y aamm O 0EO"S2�N O NO aOOO 00 aa92 O�aa>0E OOymmNo WU.0r'U O- XXOXaXOn OR`DmYDma�aUYD❑dmTQyOOpNOyI: N Y'Op Um_`m ONR-OE¢E¢E¢ TcaY4 OBwCyw ytmy0UY0❑ow0mpmpmpyJLTNO -m( p om=mNryTyampaZn2canRmymoy`R¢R¢m¢a0oUN,Easc0 cmm d d d- OaEamm(nm° Yoadpo0coom0c�dmwVwaw R >O ExyJUJm O¢omy�moWy�■yR)�r LL°m�U mUm cmwpyZap -LmL mmmIL:m�yURaU^ormma m2- 'c Qv m 2 o OE aEoNJ3L M0.7 JJY�mooJaya2C o,'•avOmvms��mQmsmJmJOmmJmmmm Ym l°.- cE� J `2y �� mpii yO OOw■'7mcLLUza'amic¢=�¢�m(mow¢w¢m¢oyam oNw¢w¢w¢yc==om z NOE go0'^J2UXR.LLwO�mNUyS❑• • •Way• • •IJ m d N O N c m Z m rn c ti m m C a ._ 0 0 N p E C N N C m 0 xE T 0 a v o= o M 10 0 11 y R � O� ME N Q Q a O R L O N 3 >X X X 'O = a^ ` V m J m J L C N N n � a m CIS U � U � f\00 C m p E m ao 3 m :.' o 0o E �Lv O U m 0 cEi cEi aU Jo �N E y wE � ti a s .. Q m�Y V> O NiNm m m d; E�CIS - A m y O U C 4i O 3 `! N C) �* > `V, O O) O) m 0 y m pj m m m a� O. m Q m � O N O a � °, c ❑ (Ovp (OOv fOvp 'm0 � y m J a N� a m m m- m � '« .� E m l: m C � y - (.l y L m� an d R y m N� m U c m 0 d C ip � 17 a O � � U 0 ❑ C p U U C � � C a �_� � � o� � a n m y $ rn � O1 E Qo L E U -o x m io io .� '` LL Ta � m y S � R U C U (D J Q 2 z C R m NO .- m N (0 O U 2 i0 N t0 C O y a n lL6 m �o >,m c /°� U Uw g N m D >' YEo 1p m � LL o m x S 2 r ac mnE o '_` � Q L � p 2 c w m` n d� o` 2 - C °- c ° m d J f U w A N 2 C O) m C 0 3 m n '°� L ¢ a E � m X 2 N m r^ E yip O O m m N a- G m C_ a m � � a � E O D m n U L O p> > > - ❑ m '` O.-p R U R O« C y y T O �• O 0 Q N> � C (p li E R ? � 0 m O In7 ❑ v E ~ 3 «� m a (o o) Q OA o c m �e c -' a 3 0 a cmom 0 ;�. LL g � ° N E E O O o m m 0 L N� a C C y Y O 61 C > U J m � N m� a v W � p � U C X U X U X .F a C N f` L m U'3 rn o a m C m da M; o a� � O .. a in amY m� c o� mm m 3� 3� 3� C d c 2 me m a wJ a 00 J � c C o Q �! U o a c� w o m c o ¢ 'S � o' c "! c r- �- R lemon � �c c Im om u a a oo mR O a � rn = m � p 5 ayT,o � � 9 � r ° d� m Nx Nx Nx C mm U ``Jo ' z d a m y CIS o T n ° Y *' � ri 3 c m o U m 2 Y ¢« gy m � U U V V ,cc '9 y a 2 a a= v S v E J �_ �> o E =° ❑ w R 2 l0 °' �� c 2 o L r o o Q o❑ E m E � m E U E p m Q o coy � 'o t� Imi Imi > o E' rn� W w .so T L �� • a �' o° 3 E E ~ c Z c> > 2 O m m psi m� m� m N v o phi N�� c � F N = LL LL O .y �p Z a I= (p U W U U J Z' 7 p0 J a m m O 0-6 ° N R m •+ LL N m m m m m m m = m mm W U U. e t R� x S Q o o a R p ® m mm o d m LL LL O m 0 .� o% �� E U a U® a> � a a � w � w n w � 9 LL D I°Di 1aDi �° N H o N I I Z d« y U Z E O 7+ LL LL X U •p Y Y E > > E R D S x J I I I 2 U. `i LL LL« m a • • •. N a`N W ma 2 2� a ZTi W �ma U �� C E f Q U. • a 2 ai 2 2❑ �m m z O N U W m y z e 'o N a _ L O A 0 m a N U z ❑ M m m Z d a 3 H i 41 3 IL �W � W� N Li li to a E 4 0. aMM I x W Q y L N ^ m m ` U v y . R L m o °. ° -' 3 m m 0 .2E' ° � y W a m .- Z' 3 O 0 (p vi m 2-5 �" A O T O` D a O m m � .. � E 0 �> J R" � U o H a N m n y 'r'Fµrr m e c c o c >' � o y E a 0 0 c � m c o 0 t>o =J�'r" a o m L a c y o o LL m a a m y� N m J r.m. Z Q IL m, 1 :�_ �Iry -d� mo'oc N y;ii aN m roA m Q { m m� tTp 'ci0 o> > a mIdE 0 'm.20�� Gn2 cOU o�C1 iPAm`U- I 11 pO!OOm«>-�,�U -�I [=<m am�a0)cO ' CO .Qrnrncmc m�UWUa pmE m LJ s+= L >ca m md OQ T 'L RO X RN NC.JTT�mU TLEU UcR O�mNa ,Uy0Ow m�mLl0N C OEmZ� C CrnC iaHNaniJ'¢am a� aoE3(¢U73�zamwn Ho ILLI I I I92I I I 1 Id¢ p7 N W m rn H 1 I I I I U U C m m cy.a T .OI LLm�aCOJ CIS am m mmm m mam Om) Oi c C U om JLmU oE__aR�O E 3 mmoOm�`�.mao `°O no° mm Va �nNmm�� p�cam d °rna°mLmNC�EmR`a mmm�aUQ�OC�J°°CLm cLLOm> `NaaOco ZCLL=m mO `� D mmC 015 CL EccWOCIILL SQ`a yaYGuLLaa C a L UNNMC°E SmamcLy as c D mEm a ET Uaamm R NN a yda«a tic>°mDmS =a O❑ Tm- U 1:m J m m a_ nc n- E R m D m m u5�amL°_, '- c Z OaNcO O? m5t m JCa NaCLOCa U0 C�W +m=I.-amN"iU,.D.0 y >°y_ - OU'm � E mpC UN UOmO C�Oa-«Ta QRmWmCE«mLo m m m +m �LLca JmCm5 0E3yQmdm nmm m«ONQJ>3am•}CUJO m�°UrL 0m crn-i3c In LLNLLU > -� C TOJ~Omm y�saZamnC�Q am 3 a J LLOma® J - UpZaOmU ILLtemmOom0mYma.rn dLL2E °°mQLDZ 0-mrn`ULN`m0-mat. yC ¢Lm.0E 4ZTm3asW� mw Rm�`-Tme SREo�Ry`.m��WoZJo cy¢- c0 pammm'Qm�RSapacommma?mm m d atcma-_� yiaC_U�"�_m yC aJ- JJm � NCYOccQmNJO) - ac�°Rmm Ua .m LL mm= DNm a.- mOjm� Oi~ pC(O yYIny cD2O! R crwNmOjCmC$O=tiW �D°>ydmm E- m mTR WWm m LD>Ovm .Um�OCUy�UOU OOONEY"I -dDm>- U N �R>�mJym�a•-«mE3y3 �.y CN- IN }mmymZo2C`OJmCN ym7O LLm _m mY a LL OL�a_°Wp'OCp�WNE m � .QUpNpmN"_OLLmyJLL3L�Nm" CCdN U Oym OO Lym? Cm COm_cr°�° c N �U C 2�°°OXCj= =°m U COU�mda D^ L �>a« 3w'En'O rymdLm E2mmm -aca �R oJou�w!�m2mcp`=ti'O-.16 S3=Nm�mLOm' mQUocmy ym R °�mQmQ m_iyy am pEm°xLmJodR amExmcOOp mE yaN mnUmL •Cm cLN JDN IQL�LLCCyLL LLOym LLO 'mRpRmOpO�OL LmLR C au'mC.ma -C �oR3.NEOJOOc«ON&�w�mUVm aEmmErn ~`SoOOm aUU cc>Rmw-9'- Qi3 NamaZ' °a�muniE 2� j Y G�O�pOlHFipE L2 ja2 E rnEo Omm.■z:y E Lmm �Ncms � It OEQO�i� � i .o3C `S m®LLUEZOI I I OLj N�2OaN U N TL2 LpLc myOUO'0N'2 0 LFQn'macoaFLZmL_oDlri HmZ yoaERO2mJw�RoB2,5i-iLR�UH>J f-U O it D 15 �ME , Rt m 3 � Q w am (N 0 "' j x O L o . . o m m a d N L d - N ti 0c $ v; c ® m d m G[ a N m W O p � O J� ai . !EC n 6 N U .3.2 2 O m a p c� c Z = C @ N m c � m � m m y N N � m e cm a 3 ® C C m 8 � m Z-o m = � o a c � U c0 TO O - N S"ioma m o m cLi A EoV ''m c o = N a E ° 11r©O OO pm a 0 > O � N m a : m , n m c C J N a �p W Y 7 m 3 O U m a o a c m c r3 r w Co Co•JW .,- Cow r, y W. ■� um o I - O� N� N D O N 66 m y 0 m« n m CO]J Ja O C_ � (� n m al @ + � � m �)D mac. W o a LL> U U J m n \ a m � N O O L Z 'V) E lTp U NW LL W/-1` _ IL O U J m cap jC m � p) vo � a L_ _ � - a � O CLL IL 5 ° N m N ln� N 3 I �'- G a m O o E- J m o G y a nZ L T C rp m (° t` IL N eJ CaOJ xD an oy ol�'oZc? � � » +� Qm oa a Rm� d �� Y W U.- n^ N 3 J O � � m a pX) � O y C N n m L11 L LL N N O � �LL �o CO ylmNp�� vMtt c'>m 2 'i�il w z d c? ■ m y m t° N (Nn 3 3 w U O` C OOO C N J0 C COOOO ozOO v N mLL �0NN�mmaa6� 0cMNZ� j3Om N _��0 mCm2 wo Rmmu� NcSa�� m m O aLLCL ¢ZJam acRUm ¢Jmoc 0)4m> cllr5p Cl) mmaUUpo0 ao;(n�ymammoa-aYJ `O Nyay LL��LLm OCW�UmUaNNZZ�C LLu�Uo rr�ooO �ysa7U2 oxlB9drm)ol9 JoOmmy LZ�O3QHN U N amym IUa-o-a�o' o1 cow n cmG7 0 co o R o � maUo Jo .-d mmm�mT�aooQ t� `E�Jy oElly mO' O.- ROm U O O a ELRt J z"mU C ZmOymlNim N�>cNZCp aJcoo 22'>`- .. QQ¢Qm• p a�,� . CO 'C•m¢c+,)i2`am~mmaEN mco 0nOO mNCmCEO COQyQ�m yp�� -m MccWU m>>m N� p vCaTR V ®�Z �- a NJ3a NO U aa�Oy � �m r d .-OL (A °r�E Nyamamy}m�Eoa R a.y d ?c;o to�EEmmwE >U Et3 'O m �xRaMEm¢EL ~acwOE-cazmnyma 23'L ma JWC 0LLOoNy yZav(2nE_m dommmmcm m �I 10 RyyMRJE�ay�vmogp `no�Ezo ti= mm-uy� vv 0' WmWOm C taO I�L no J L m Nm❑X�d U Oy3�c� OONNrQ pOLLUmJO"� c `"�cCO W R >R�ynnO�NmCNEOt�\ D ��a.ZNra0 °� m E.3 E N (?° mmmp)In E m a mdaoaIt 1 TNmmEm'O E�ImNLEmET ��o Evdmmdm = oQmZNmo S _ FEo�C7(7 C7 (7 U n no3rOc- mliou�o mmC 13 E oo� O- Up J� aoy LL3 3 3 3aaJabmoo-moZ o°mo� �mmJOmU>mmN,o qpo-- QOLCOy070NNvEO EOI-m0�(m>joUTmNOi o ° mmD�m Iac®mM°?L- mom c0cOEE..Umc aLL :mC 3 tYa`vLLmmN + mC Q«rvL- NN actm�jJmaUdemE0CZZLLUQ = - aQLur3333E�m EJ+OMC y oE`(nEUmo*,0ay 2 m•Lmm` o�c rnms> N - - m m m m y y � =pDO uroLoIII10 `dL o micmL- mo(? c,iJaEEva ccccEE°c �o�Om ->mdy ii`� 1 �4Eo�mj a�'��a° � �m��°°�9o��FommLLo z �mTLm2 ti�EEymw EmccZ�aNm mEO0 8 oonOpm Errmi toDm® E °°aQmO CJEmM*aA-III IIIQ .dm>EIlTot CD 0X�JNXd7vmaWLNOgRE .R'O Tm aLWxEW Jmm ZmNmR -ndJ J HwQSJmmmJIL in O2tnC ■E 202_F L I r m a 0 N Q LL n W a ME �,.- U di m o LO aC.?C N S _3 z° N c U O N `o `c_ m E LL N 0 m a z ❑ 0 N m rn a r. I m a N 0 m a 0 z ❑ d O ° N 0 0 a z ❑ N 0 N m m a LL N O m 0 IL 0 N 0 a m v? Z ❑ c(n O O N c� r « O T O m a C y O Z J m O O U U C y m a m ,o a d y O T y 3 y C a` y O O J m O D m _ X _ Y Y O O N a C 0 .�:' ' aU ti a m ON a) -� U y iJ -OCUn mNNmN C O�maOpmm.Om �� Emmcmaama3 d T O m a `Jmm °pmXLL°E `ccvinma > CIS y -CCZOOO Q A a YOyL CWm RCE maa_ mo0 3° 3ooai Jcc aUJC «° NymCmO3 E Ea �N°°3dpmmo �aEomo«mc m p `R ° VUc_m>NpU.0 cl QNOLnEy N Z Q a E W m ~ T U O E a O L DJ N O y o t mm ao c a O m D a osX m Oac m E E o y m mm E o°o mom mc d a mo m�EYEo rn- °NL�a: aB `d�y a mo mm`N EE cmEociQQma 3"y oa-ER '9Oo aoO Jca m OZWmomEcmmam'EaaoJ» ao po `m ma>E cRmmmm m}LmRv nE DacW E :Eem omTanU m�«m E mLaN00 O QRU07m(O i m m.`EQ NOrJOc WTc a(SaNJ 0«RJ2aJ0 mamEUUOmQEH.Jo(nOQy IL 'Cis LL y R m mpim C y 0 -' # y a m�a-mLOR nm•LLNEoEo�3oyQN y ,�o« N aO 3 � m � � O �-m_.O OD•N Cammarno T❑ aV rnUt 1.W W 7 CN"' N Q N T _ ovmma�0 aN yomo° Ewa�Vc co FUmYm o� d c Q 3 m ,_ c y o c °-O m L C j U 00 R c o N > O� y a ° J m❑ O L a m od: E3o�- R v �'WmQmLLm�°aL..maavapo CmcofypQF=UaammILL 2 ON m� R d� C_ Z Q Q m c m Z cTooJO acJ (p E;°�O 3 a :E.2 a i m N O �' m R a7 E 3.0 o m 3 U m U m 0 9'S c (� w m��`m�cmEa Q�y mdmYpn C Qmcamc`-tl� «E-Oo iiQ;i�Ii O m pj R p CQp E O EaoVo I, L d v a W C 3 W c `d m m LLN 0 � V H J N E J m O J O O)D F Z r In am Q m ° 0m mme a m ri vi va m i" o O E °c EO a`UUUm W NNN UEmm mm mOLL L m m .« O LLILLl U LLL WUQ>jmO¢LLLL Tm c mmnnmao oa 2 2 2 wLL m N S 2 2 m> asyLom aU Eo c0aJay LLo°imoyL�2 mJmommm oa c m mmEmp_ W � .Z yamW ~m N NLL L�„OLLOOOO ` aD03`3Nom OOO^aa❑ awttlO�m 0Ra.CYUa= .'C m°aLa S co0 ca a o2rnm OOO;mLv a pomccc J Q c5°ozw°c° $>>> ° orn rncrn 'oc2 mma�vcERDmccc o 0 0 �■TTm (nUEm:. cmEcyEEE �Z ��c` a�° �Um Zo pi� on oo� m2 �a�Nacmmo�°mis0EEEE m0ono o` 3yo�Dirii L oo h °.Oap ow D myN �Up��y aamm O 0EO"S2�N O NO aOOO 00 aa92 O�aa>0E OOymmNo WU.0r'U O- XXOXaXOn OR`DmYDma�aUYD❑dmTQyOOpNOyI: N Y'Op Um_`m ONR-OE¢E¢E¢ TcaY4 OBwCyw ytmy0UY0❑ow0mpmpmpyJLTNO -m( p om=mNryTyampaZn2canRmymoy`R¢R¢m¢a0oUN,Easc0 cmm d d d- OaEamm(nm° Yoadpo0coom0c�dmwVwaw R >O ExyJUJm O¢omy�moWy�■yR)�r LL°m�U mUm cmwpyZap -LmL mmmIL:m�yURaU^ormma m2- 'c Qv m 2 o OE aEoNJ3L M0.7 JJY�mooJaya2C o,'•avOmvms��mQmsmJmJOmmJmmmm Ym l°.- cE� J `2y �� mpii yO OOw■'7mcLLUza'amic¢=�¢�m(mow¢w¢m¢oyam oNw¢w¢w¢yc==om z NOE go0'^J2UXR.LLwO�mNUyS❑• • •Way• • •IJ m d N O N c m Z m rn c ti m m C a ._ 0 0 N p E C N N C m 0 xE T 0 a v o= o M 10 0 11 y R � O� ME N Q Q a O R L O N 3 >X X X 'O = a^ ` V m J m J L C N N n � a m CIS U � U � f\00 C m p E m ao 3 m :.' o 0o E �Lv O U m 0 cEi cEi aU Jo �N E y wE � ti a s .. Q m�Y V> O NiNm m m d; E�CIS - A m y O U C 4i O 3 `! N C) �* > `V, O O) O) m 0 y m pj m m m a� O. m Q m � O N O a � °, c ❑ (Ovp (OOv fOvp 'm0 � y m J a N� a m m m- m � '« .� E m l: m C � y - (.l y L m� an d R y m N� m U c m 0 d C ip � 17 a O � � U 0 ❑ C p U U C � � C a �_� � � o� � a n m y $ rn � O1 E Qo L E U -o x m io io .� '` LL Ta � m y S � R U C U (D J Q 2 z C R m NO .- m N (0 O U 2 i0 N t0 C O y a n lL6 m �o >,m c /°� U Uw g N m D >' YEo 1p m � LL o m x S 2 r ac mnE o '_` � Q L � p 2 c w m` n d� o` 2 - C °- c ° m d J f U w A N 2 C O) m C 0 3 m n '°� L ¢ a E � m X 2 N m r^ E yip O O m m N a- G m C_ a m � � a � E O D m n U L O p> > > - ❑ m '` O.-p R U R O« C y y T O �• O 0 Q N> � C (p li E R ? � 0 m O In7 ❑ v E ~ 3 «� m a (o o) Q OA o c m �e c -' a 3 0 a cmom 0 ;�. LL g � ° N E E O O o m m 0 L N� a C C y Y O 61 C > U J m � N m� a v W � p � U C X U X U X .F a C N f` L m U'3 rn o a m C m da M; o a� � O .. a in amY m� c o� mm m 3� 3� 3� C d c 2 me m a wJ a 00 J � c C o Q �! U o a c� w o m c o ¢ 'S � o' c "! c r- �- R lemon � �c c Im om u a a oo mR O a � rn = m � p 5 ayT,o � � 9 � r ° d� m Nx Nx Nx C mm U ``Jo ' z d a m y CIS o T n ° Y *' � ri 3 c m o U m 2 Y ¢« gy m � U U V V ,cc '9 y a 2 a a= v S v E J �_ �> o E =° ❑ w R 2 l0 °' �� c 2 o L r o o Q o❑ E m E � m E U E p m Q o coy � 'o t� Imi Imi > o E' rn� W w .so T L �� • a �' o° 3 E E ~ c Z c> > 2 O m m psi m� m� m N v o phi N�� c � F N = LL LL O .y �p Z a I= (p U W U U J Z' 7 p0 J a m m O 0-6 ° N R m •+ LL N m m m m m m m = m mm W U U. e t R� x S Q o o a R p ® m mm o d m LL LL O m 0 .� o% �� E U a U® a> � a a � w � w n w � 9 LL D I°Di 1aDi �° N H o N I I Z d« y U Z E O 7+ LL LL X U •p Y Y E > > E R D S x J I I I 2 U. `i LL LL« m a • • •. N a`N W ma 2 2� a ZTi W �ma U �� C E f Q U. • a 2 ai 2 2❑ �m m z O N U W m y z e 'o N a _ L O A 0 m a N U z ❑ M m m Z d a 3 H i 41 3 IL �W � W� N Li li to a E 4 0. aMM I x W Q y L N ^ m m ` U v y . R L m o °. ° -' 3 m m 0 .2E' ° � y W a m .- Z' 3 O 0 (p vi m 2-5 �" A O T O` D a O m m � .. � E 0 �> J R" � U o H a N m n y 'r'Fµrr m e c c o c >' � o y E a 0 0 c � m c o 0 t>o =J�'r" a o m L a c y o o LL m a a m y� N m J r.m. Z Q IL m, 1 :�_ �Iry -d� mo'oc N y;ii aN m roA m Q { m m� tTp 'ci0 o> > a mIdE 0 'm.20�� Gn2 cOU o�C1 iPAm`U- I 11 pO!OOm«>-�,�U -�I [=<m am�a0)cO ' CO .Qrnrncmc m�UWUa pmE m LJ s+= L >ca m md OQ T 'L RO X RN NC.JTT�mU TLEU UcR O�mNa ,Uy0Ow m�mLl0N C OEmZ� C CrnC iaHNaniJ'¢am a� aoE3(¢U73�zamwn Ho ILLI I I I92I I I 1 Id¢ p7 N W m rn H 1 I I I I U U C m m cy.a T .OI LLm�aCOJ CIS am m mmm m mam Om) Oi c C U om JLmU oE__aR�O E 3 mmoOm�`�.mao `°O no° mm Va �nNmm�� p�cam d °rna°mLmNC�EmR`a mmm�aUQ�OC�J°°CLm cLLOm> `NaaOco ZCLL=m mO `� D mmC 015 CL EccWOCIILL SQ`a yaYGuLLaa C a L UNNMC°E SmamcLy as c D mEm a ET Uaamm R NN a yda«a tic>°mDmS =a O❑ Tm- U 1:m J m m a_ nc n- E R m D m m u5�amL°_, '- c Z OaNcO O? m5t m JCa NaCLOCa U0 C�W +m=I.-amN"iU,.D.0 y >°y_ - OU'm � E mpC UN UOmO C�Oa-«Ta QRmWmCE«mLo m m m +m �LLca JmCm5 0E3yQmdm nmm m«ONQJ>3am•}CUJO m�°UrL 0m crn-i3c In LLNLLU > -� C TOJ~Omm y�saZamnC�Q am 3 a J LLOma® J - UpZaOmU ILLtemmOom0mYma.rn dLL2E °°mQLDZ 0-mrn`ULN`m0-mat. yC ¢Lm.0E 4ZTm3asW� mw Rm�`-Tme SREo�Ry`.m��WoZJo cy¢- c0 pammm'Qm�RSapacommma?mm m d atcma-_� yiaC_U�"�_m yC aJ- JJm � NCYOccQmNJO) - ac�°Rmm Ua .m LL mm= DNm a.- mOjm� Oi~ pC(O yYIny cD2O! R crwNmOjCmC$O=tiW �D°>ydmm E- m mTR WWm m LD>Ovm .Um�OCUy�UOU OOONEY"I -dDm>- U N �R>�mJym�a•-«mE3y3 �.y CN- IN }mmymZo2C`OJmCN ym7O LLm _m mY a LL OL�a_°Wp'OCp�WNE m � .QUpNpmN"_OLLmyJLL3L�Nm" CCdN U Oym OO Lym? Cm COm_cr°�° c N �U C 2�°°OXCj= =°m U COU�mda D^ L �>a« 3w'En'O rymdLm E2mmm -aca �R oJou�w!�m2mcp`=ti'O-.16 S3=Nm�mLOm' mQUocmy ym R °�mQmQ m_iyy am pEm°xLmJodR amExmcOOp mE yaN mnUmL •Cm cLN JDN IQL�LLCCyLL LLOym LLO 'mRpRmOpO�OL LmLR C au'mC.ma -C �oR3.NEOJOOc«ON&�w�mUVm aEmmErn ~`SoOOm aUU cc>Rmw-9'- Qi3 NamaZ' °a�muniE 2� j Y G�O�pOlHFipE L2 ja2 E rnEo Omm.■z:y E Lmm �Ncms � It OEQO�i� � i .o3C `S m®LLUEZOI I I OLj N�2OaN U N TL2 LpLc myOUO'0N'2 0 LFQn'macoaFLZmL_oDlri HmZ yoaERO2mJw�RoB2,5i-iLR�UH>J f-U O it D 15 �ME , Rt m 3 � Q w am (N 0 "' j x O L o . . o m m a d N L d - N ti 0c $ v; c ® m d m G[ a N m W O p � O J� ai . !EC n 6 N U .3.2 2 O m a p c� c Z = C @ N m c � m � m m y N N � m e cm a 3 ® C C m 8 � m Z-o m = � o a c � U c0 TO O - N S"ioma m o m cLi A EoV ''m c o = N a E ° 11r©O OO pm a 0 > O � N m a : m , n m c C J N a �p W Y 7 m 3 O U m a o a c m c r3 r w Co Co•JW .,- Cow r, y W. ■� um o I - O� N� N D O N 66 m y 0 m« n m CO]J Ja O C_ � (� n m al @ + � � m �)D mac. W o a LL> U U J m n \ a m � N O O L Z 'V) E lTp U NW LL W/-1` _ IL O U J m cap jC m � p) vo � a L_ _ � - a � O CLL IL 5 ° N m N ln� N 3 I �'- G a m O o E- J m o G y a nZ L T C rp m (° t` IL N eJ CaOJ xD an oy ol�'oZc? � � » +� Qm oa a Rm� d �� Y W U.- n^ N 3 J O � � m a pX) � O y C N n m L11 L LL N N O � �LL �o CO ylmNp�� vMtt c'>m 2 'i�il w z d c? ■ m y m t° N (Nn 3 3 w U O` C OOO C N J0 C COOOO ozOO v N mLL �0NN�mmaa6� 0cMNZ� j3Om N _��0 mCm2 wo Rmmu� NcSa�� m m O aLLCL ¢ZJam acRUm ¢Jmoc 0)4m> cllr5p Cl) mmaUUpo0 ao;(n�ymammoa-aYJ `O Nyay LL��LLm OCW�UmUaNNZZ�C LLu�Uo rr�ooO �ysa7U2 oxlB9drm)ol9 JoOmmy LZ�O3QHN U N amym IUa-o-a�o' o1 cow n cmG7 0 co o R o � maUo Jo .-d mmm�mT�aooQ t� `E�Jy oElly mO' O.- ROm U O O a ELRt J z"mU C ZmOymlNim N�>cNZCp aJcoo 22'>`- .. QQ¢Qm• p a�,� . CO 'C•m¢c+,)i2`am~mmaEN mco 0nOO mNCmCEO COQyQ�m yp�� -m MccWU m>>m N� p vCaTR V ®�Z �- a NJ3a NO U aa�Oy � �m r d .-OL (A °r�E Nyamamy}m�Eoa R a.y d ?c;o to�EEmmwE >U Et3 'O m �xRaMEm¢EL ~acwOE-cazmnyma 23'L ma JWC 0LLOoNy yZav(2nE_m dommmmcm m �I 10 RyyMRJE�ay�vmogp `no�Ezo ti= mm-uy� vv 0' WmWOm C taO I�L no J L m Nm❑X�d U Oy3�c� OONNrQ pOLLUmJO"� c `"�cCO W R >R�ynnO�NmCNEOt�\ D ��a.ZNra0 °� m E.3 E N (?° mmmp)In E m a mdaoaIt 1 TNmmEm'O E�ImNLEmET ��o Evdmmdm = oQmZNmo S _ FEo�C7(7 C7 (7 U n no3rOc- mliou�o mmC 13 E oo� O- Up J� aoy LL3 3 3 3aaJabmoo-moZ o°mo� �mmJOmU>mmN,o qpo-- QOLCOy070NNvEO EOI-m0�(m>joUTmNOi o ° mmD�m Iac®mM°?L- mom c0cOEE..Umc aLL :mC 3 tYa`vLLmmN + mC Q«rvL- NN actm�jJmaUdemE0CZZLLUQ = - aQLur3333E�m EJ+OMC y oE`(nEUmo*,0ay 2 m•Lmm` o�c rnms> N - - m m m m y y � =pDO uroLoIII10 `dL o micmL- mo(? c,iJaEEva ccccEE°c �o�Om ->mdy ii`� 1 �4Eo�mj a�'��a° � �m��°°�9o��FommLLo z �mTLm2 ti�EEymw EmccZ�aNm mEO0 8 oonOpm Errmi toDm® E °°aQmO CJEmM*aA-III IIIQ .dm>EIlTot CD 0X�JNXd7vmaWLNOgRE .R'O Tm aLWxEW Jmm ZmNmR -ndJ J HwQSJmmmJIL in O2tnC ■E 202_F L I r m a 0 N Q LL n W a ME �,.- U di m o LO aC.?C N S _3 z° N c U O N `o `c_ m E LL N 0 m a z ❑ 0 N m rn a r. I m a N 0 m a 0 z ❑ d O ° N 0 0 a z ❑ N 0 N m m a LL N O m 0 IL 0 N 0 a m v? Z ❑ LL y R m mpim C y 0 -' # y a m�a-mLOR nm•LLNEoEo�3oyQN y ,�o« N aO 3 � m � � O �-m_.O OD•N Cammarno T❑ aV rnUt 1.W W 7 CN"' N Q N T _ ovmma�0 aN yomo° Ewa�Vc co FUmYm o� d c Q 3 m ,_ c y o c °-O m L C j U 00 R c o N > O� y a ° J m❑ O L a m od: E3o�- R v �'WmQmLLm�°aL..maavapo CmcofypQF=UaammILL 2 ON m� R d� C_ Z Q Q m c m Z cTooJO acJ (p E;°�O 3 a :E.2 a i m N O �' m R a7 E 3.0 o m 3 U m U m 0 9'S c (� w m��`m�cmEa Q�y mdmYpn C Qmcamc`-tl� «E-Oo iiQ;i�Ii O m pj R p CQp E O EaoVo I, L d v a W C 3 W c `d m m LLN 0 � V H J N E J m O J O O)D F Z r In am Q m ° 0m mme a m ri vi va m i" o O E °c EO a`UUUm W NNN UEmm mm mOLL L m m .« O LLILLl U LLL WUQ>jmO¢LLLL Tm c mmnnmao oa 2 2 2 wLL m N S 2 2 m> asyLom aU Eo c0aJay LLo°imoyL�2 mJmommm oa c m mmEmp_ W � .Z yamW ~m N NLL L�„OLLOOOO ` aD03`3Nom OOO^aa❑ awttlO�m 0Ra.CYUa= .'C m°aLa S co0 ca a o2rnm OOO;mLv a pomccc J Q c5°ozw°c° $>>> ° orn rncrn 'oc2 mma�vcERDmccc o 0 0 �■TTm (nUEm:. cmEcyEEE �Z ��c` a�° �Um Zo pi� on oo� m2 �a�Nacmmo�°mis0EEEE m0ono o` 3yo�Dirii L oo h °.Oap ow D myN �Up��y aamm O 0EO"S2�N O NO aOOO 00 aa92 O�aa>0E OOymmNo WU.0r'U O- XXOXaXOn OR`DmYDma�aUYD❑dmTQyOOpNOyI: N Y'Op Um_`m ONR-OE¢E¢E¢ TcaY4 OBwCyw ytmy0UY0❑ow0mpmpmpyJLTNO -m( p om=mNryTyampaZn2canRmymoy`R¢R¢m¢a0oUN,Easc0 cmm d d d- OaEamm(nm° Yoadpo0coom0c�dmwVwaw R >O ExyJUJm O¢omy�moWy�■yR)�r LL°m�U mUm cmwpyZap -LmL mmmIL:m�yURaU^ormma m2- 'c Qv m 2 o OE aEoNJ3L M0.7 JJY�mooJaya2C o,'•avOmvms��mQmsmJmJOmmJmmmm Ym l°.- cE� J `2y �� mpii yO OOw■'7mcLLUza'amic¢=�¢�m(mow¢w¢m¢oyam oNw¢w¢w¢yc==om z NOE go0'^J2UXR.LLwO�mNUyS❑• • •Way• • •IJ m d N O N c m Z m rn c ti m m C a ._ 0 0 N p E C N N C m 0 xE T 0 a v o= o M 10 0 11 y R � O� ME N Q Q a O R L O N 3 >X X X 'O = a^ ` V m J m J L C N N n � a m CIS U � U � f\00 C m p E m ao 3 m :.' o 0o E �Lv O U m 0 cEi cEi aU Jo �N E y wE � ti a s .. Q m�Y V> O NiNm m m d; E�CIS - A m y O U C 4i O 3 `! N C) �* > `V, O O) O) m 0 y m pj m m m a� O. m Q m � O N O a � °, c ❑ (Ovp (OOv fOvp 'm0 � y m J a N� a m m m- m � '« .� E m l: m C � y - (.l y L m� an d R y m N� m U c m 0 d C ip � 17 a O � � U 0 ❑ C p U U C � � C a �_� � � o� � a n m y $ rn � O1 E Qo L E U -o x m io io .� '` LL Ta � m y S � R U C U (D J Q 2 z C R m NO .- m N (0 O U 2 i0 N t0 C O y a n lL6 m �o >,m c /°� U Uw g N m D >' YEo 1p m � LL o m x S 2 r ac mnE o '_` � Q L � p 2 c w m` n d� o` 2 - C °- c ° m d J f U w A N 2 C O) m C 0 3 m n '°� L ¢ a E � m X 2 N m r^ E yip O O m m N a- G m C_ a m � � a � E O D m n U L O p> > > - ❑ m '` O.-p R U R O« C y y T O �• O 0 Q N> � C (p li E R ? � 0 m O In7 ❑ v E ~ 3 «� m a (o o) Q OA o c m �e c -' a 3 0 a cmom 0 ;�. LL g � ° N E E O O o m m 0 L N� a C C y Y O 61 C > U J m � N m� a v W � p � U C X U X U X .F a C N f` L m U'3 rn o a m C m da M; o a� � O .. a in amY m� c o� mm m 3� 3� 3� C d c 2 me m a wJ a 00 J � c C o Q �! U o a c� w o m c o ¢ 'S � o' c "! c r- �- R lemon � �c c Im om u a a oo mR O a � rn = m � p 5 ayT,o � � 9 � r ° d� m Nx Nx Nx C mm U ``Jo ' z d a m y CIS o T n ° Y *' � ri 3 c m o U m 2 Y ¢« gy m � U U V V ,cc '9 y a 2 a a= v S v E J �_ �> o E =° ❑ w R 2 l0 °' �� c 2 o L r o o Q o❑ E m E � m E U E p m Q o coy � 'o t� Imi Imi > o E' rn� W w .so T L �� • a �' o° 3 E E ~ c Z c> > 2 O m m psi m� m� m N v o phi N�� c � F N = LL LL O .y �p Z a I= (p U W U U J Z' 7 p0 J a m m O 0-6 ° N R m •+ LL N m m m m m m m = m mm W U U. e t R� x S Q o o a R p ® m mm o d m LL LL O m 0 .� o% �� E U a U® a> � a a � w � w n w � 9 LL D I°Di 1aDi �° N H o N I I Z d« y U Z E O 7+ LL LL X U •p Y Y E > > E R D S x J I I I 2 U. `i LL LL« m a • • •. N a`N W ma 2 2� a ZTi W �ma U �� C E f Q U. • a 2 ai 2 2❑ �m m z O N U W m y z e 'o N a _ L O A 0 m a N U z ❑ M m m Z d a 3 H i 41 3 IL �W � W� N Li li to a E 4 0. aMM I x W Q y L N ^ m m ` U v y . R L m o °. ° -' 3 m m 0 .2E' ° � y W a m .- Z' 3 O 0 (p vi m 2-5 �" A O T O` D a O m m � .. � E 0 �> J R" � U o H a N m n y 'r'Fµrr m e c c o c >' � o y E a 0 0 c � m c o 0 t>o =J�'r" a o m L a c y o o LL m a a m y� N m J r.m. Z Q IL m, 1 :�_ �Iry -d� mo'oc N y;ii aN m roA m Q { m m� tTp 'ci0 o> > a mIdE 0 'm.20�� Gn2 cOU o�C1 iPAm`U- I 11 pO!OOm«>-�,�U -�I [=<m am�a0)cO ' CO .Qrnrncmc m�UWUa pmE m LJ s+= L >ca m md OQ T 'L RO X RN NC.JTT�mU TLEU UcR O�mNa ,Uy0Ow m�mLl0N C OEmZ� C CrnC iaHNaniJ'¢am a� aoE3(¢U73�zamwn Ho ILLI I I I92I I I 1 Id¢ p7 N W m rn H 1 I I I I U U C m m cy.a T .OI LLm�aCOJ CIS am m mmm m mam Om) Oi c C U om JLmU oE__aR�O E 3 mmoOm�`�.mao `°O no° mm Va �nNmm�� p�cam d °rna°mLmNC�EmR`a mmm�aUQ�OC�J°°CLm cLLOm> `NaaOco ZCLL=m mO `� D mmC 015 CL EccWOCIILL SQ`a yaYGuLLaa C a L UNNMC°E SmamcLy as c D mEm a ET Uaamm R NN a yda«a tic>°mDmS =a O❑ Tm- U 1:m J m m a_ nc n- E R m D m m u5�amL°_, '- c Z OaNcO O? m5t m JCa NaCLOCa U0 C�W +m=I.-amN"iU,.D.0 y >°y_ - OU'm � E mpC UN UOmO C�Oa-«Ta QRmWmCE«mLo m m m +m �LLca JmCm5 0E3yQmdm nmm m«ONQJ>3am•}CUJO m�°UrL 0m crn-i3c In LLNLLU > -� C TOJ~Omm y�saZamnC�Q am 3 a J LLOma® J - UpZaOmU ILLtemmOom0mYma.rn dLL2E °°mQLDZ 0-mrn`ULN`m0-mat. yC ¢Lm.0E 4ZTm3asW� mw Rm�`-Tme SREo�Ry`.m��WoZJo cy¢- c0 pammm'Qm�RSapacommma?mm m d atcma-_� yiaC_U�"�_m yC aJ- JJm � NCYOccQmNJO) - ac�°Rmm Ua .m LL mm= DNm a.- mOjm� Oi~ pC(O yYIny cD2O! R crwNmOjCmC$O=tiW �D°>ydmm E- m mTR WWm m LD>Ovm .Um�OCUy�UOU OOONEY"I -dDm>- U N �R>�mJym�a•-«mE3y3 �.y CN- IN }mmymZo2C`OJmCN ym7O LLm _m mY a LL OL�a_°Wp'OCp�WNE m � .QUpNpmN"_OLLmyJLL3L�Nm" CCdN U Oym OO Lym? Cm COm_cr°�° c N �U C 2�°°OXCj= =°m U COU�mda D^ L �>a« 3w'En'O rymdLm E2mmm -aca �R oJou�w!�m2mcp`=ti'O-.16 S3=Nm�mLOm' mQUocmy ym R °�mQmQ m_iyy am pEm°xLmJodR amExmcOOp mE yaN mnUmL •Cm cLN JDN IQL�LLCCyLL LLOym LLO 'mRpRmOpO�OL LmLR C au'mC.ma -C �oR3.NEOJOOc«ON&�w�mUVm aEmmErn ~`SoOOm aUU cc>Rmw-9'- Qi3 NamaZ' °a�muniE 2� j Y G�O�pOlHFipE L2 ja2 E rnEo Omm.■z:y E Lmm �Ncms � It OEQO�i� � i .o3C `S m®LLUEZOI I I OLj N�2OaN U N TL2 LpLc myOUO'0N'2 0 LFQn'macoaFLZmL_oDlri HmZ yoaERO2mJw�RoB2,5i-iLR�UH>J f-U O it D 15 �ME , Rt m 3 � Q w am (N 0 "' j x O L o . . o m m a d N L d - N ti 0c $ v; c ® m d m G[ a N m W O p � O J� ai . !EC n 6 N U .3.2 2 O m a p c� c Z = C @ N m c � m � m m y N N � m e cm a 3 ® C C m 8 � m Z-o m = � o a c � U c0 TO O - N S"ioma m o m cLi A EoV ''m c o = N a E ° 11r©O OO pm a 0 > O � N m a : m , n m c C J N a �p W Y 7 m 3 O U m a o a c m c r3 r w Co Co•JW .,- Cow r, y W. ■� um o I - O� N� N D O N 66 m y 0 m« n m CO]J Ja O C_ � (� n m al @ + � � m �)D mac. W o a LL> U U J m n \ a m � N O O L Z 'V) E lTp U NW LL W/-1` _ IL O U J m cap jC m � p) vo � a L_ _ � - a � O CLL IL 5 ° N m N ln� N 3 I �'- G a m O o E- J m o G y a nZ L T C rp m (° t` IL N eJ CaOJ xD an oy ol�'oZc? � � » +� Qm oa a Rm� d �� Y W U.- n^ N 3 J O � � m a pX) � O y C N n m L11 L LL N N O � �LL �o CO ylmNp�� vMtt c'>m 2 'i�il w z d c? ■ m y m t° N (Nn 3 3 w U O` C OOO C N J0 C COOOO ozOO v N mLL �0NN�mmaa6� 0cMNZ� j3Om N _��0 mCm2 wo Rmmu� NcSa�� m m O aLLCL ¢ZJam acRUm ¢Jmoc 0)4m> cllr5p Cl) mmaUUpo0 ao;(n�ymammoa-aYJ `O Nyay LL��LLm OCW�UmUaNNZZ�C LLu�Uo rr�ooO �ysa7U2 oxlB9drm)ol9 JoOmmy LZ�O3QHN U N amym IUa-o-a�o' o1 cow n cmG7 0 co o R o � maUo Jo .-d mmm�mT�aooQ t� `E�Jy oElly mO' O.- ROm U O O a ELRt J z"mU C ZmOymlNim N�>cNZCp aJcoo 22'>`- .. QQ¢Qm• p a�,� . CO 'C•m¢c+,)i2`am~mmaEN mco 0nOO mNCmCEO COQyQ�m yp�� -m MccWU m>>m N� p vCaTR V ®�Z �- a NJ3a NO U aa�Oy � �m r d .-OL (A °r�E Nyamamy}m�Eoa R a.y d ?c;o to�EEmmwE >U Et3 'O m �xRaMEm¢EL ~acwOE-cazmnyma 23'L ma JWC 0LLOoNy yZav(2nE_m dommmmcm m �I 10 RyyMRJE�ay�vmogp `no�Ezo ti= mm-uy� vv 0' WmWOm C taO I�L no J L m Nm❑X�d U Oy3�c� OONNrQ pOLLUmJO"� c `"�cCO W R >R�ynnO�NmCNEOt�\ D ��a.ZNra0 °� m E.3 E N (?° mmmp)In E m a mdaoaIt 1 TNmmEm'O E�ImNLEmET ��o Evdmmdm = oQmZNmo S _ FEo�C7(7 C7 (7 U n no3rOc- mliou�o mmC 13 E oo� O- Up J� aoy LL3 3 3 3aaJabmoo-moZ o°mo� �mmJOmU>mmN,o qpo-- QOLCOy070NNvEO EOI-m0�(m>joUTmNOi o ° mmD�m Iac®mM°?L- mom c0cOEE..Umc aLL :mC 3 tYa`vLLmmN + mC Q«rvL- NN actm�jJmaUdemE0CZZLLUQ = - aQLur3333E�m EJ+OMC y oE`(nEUmo*,0ay 2 m•Lmm` o�c rnms> N - - m m m m y y � =pDO uroLoIII10 `dL o micmL- mo(? c,iJaEEva ccccEE°c �o�Om ->mdy ii`� 1 �4Eo�mj a�'��a° � �m��°°�9o��FommLLo z �mTLm2 ti�EEymw EmccZ�aNm mEO0 8 oonOpm Errmi toDm® E °°aQmO CJEmM*aA-III IIIQ .dm>EIlTot CD 0X�JNXd7vmaWLNOgRE .R'O Tm aLWxEW Jmm ZmNmR -ndJ J HwQSJmmmJIL in O2tnC ■E 202_F L I r m a 0 N Q LL n W a ME �,.- U di m o LO aC.?C N S _3 z° N c U O N `o `c_ m E LL N 0 m a z ❑ 0 N m rn a r. I m a N 0 m a 0 z ❑ d O ° N 0 0 a z ❑ N 0 N m m a LL N O m 0 IL 0 N 0 a m v? Z ❑ I - O� N� N D O N 66 m y 0 m« n m CO]J Ja O C_ � (� n m al @ + � � m �)D mac. W o a LL> U U J m n \ a m � N O O L Z 'V) E lTp U NW LL W/-1` _ IL O U J m cap jC m � p) vo � a L_ _ � - a � O CLL IL 5 ° N m N ln� N 3 I �'- G a m O o E- J m o G y a nZ L T C rp m (° t` IL N eJ CaOJ xD an oy ol�'oZc? � � » +� Qm oa a Rm� d �� Y W U.- n^ N 3 J O � � m a pX) � O y C N n m L11 L LL N N O � �LL �o CO ylmNp�� vMtt c'>m 2 'i�il w z d c? ■ m y m t° N (Nn 3 3 w U O` C OOO C N J0 C COOOO ozOO v N mLL �0NN�mmaa6� 0cMNZ� j3Om N _��0 mCm2 wo Rmmu� NcSa�� m m O aLLCL ¢ZJam acRUm ¢Jmoc 0)4m> cllr5p Cl) mmaUUpo0 ao;(n�ymammoa-aYJ `O Nyay LL��LLm OCW�UmUaNNZZ�C LLu�Uo rr�ooO �ysa7U2 oxlB9drm)ol9 JoOmmy LZ�O3QHN U N amym IUa-o-a�o' o1 cow n cmG7 0 co o R o � maUo Jo .-d mmm�mT�aooQ t� `E�Jy oElly mO' O.- ROm U O O a ELRt J z"mU C ZmOymlNim N�>cNZCp aJcoo 22'>`- .. QQ¢Qm• p a�,� . CO 'C•m¢c+,)i2`am~mmaEN mco 0nOO mNCmCEO COQyQ�m yp�� -m MccWU m>>m N� p vCaTR V ®�Z �- a NJ3a NO U aa�Oy � �m r d .-OL (A °r�E Nyamamy}m�Eoa R a.y d ?c;o to�EEmmwE >U Et3 'O m �xRaMEm¢EL ~acwOE-cazmnyma 23'L ma JWC 0LLOoNy yZav(2nE_m dommmmcm m �I 10 RyyMRJE�ay�vmogp `no�Ezo ti= mm-uy� vv 0' WmWOm C taO I�L no J L m Nm❑X�d U Oy3�c� OONNrQ pOLLUmJO"� c `"�cCO W R >R�ynnO�NmCNEOt�\ D ��a.ZNra0 °� m E.3 E N (?° mmmp)In E m a mdaoaIt 1 TNmmEm'O E�ImNLEmET ��o Evdmmdm = oQmZNmo S _ FEo�C7(7 C7 (7 U n no3rOc- mliou�o mmC 13 E oo� O- Up J� aoy LL3 3 3 3aaJabmoo-moZ o°mo� �mmJOmU>mmN,o qpo-- QOLCOy070NNvEO EOI-m0�(m>joUTmNOi o ° mmD�m Iac®mM°?L- mom c0cOEE..Umc aLL :mC 3 tYa`vLLmmN + mC Q«rvL- NN actm�jJmaUdemE0CZZLLUQ = - aQLur3333E�m EJ+OMC y oE`(nEUmo*,0ay 2 m•Lmm` o�c rnms> N - - m m m m y y � =pDO uroLoIII10 `dL o micmL- mo(? c,iJaEEva ccccEE°c �o�Om ->mdy ii`� 1 �4Eo�mj a�'��a° � �m��°°�9o��FommLLo z �mTLm2 ti�EEymw EmccZ�aNm mEO0 8 oonOpm Errmi toDm® E °°aQmO CJEmM*aA-III IIIQ .dm>EIlTot CD 0X�JNXd7vmaWLNOgRE .R'O Tm aLWxEW Jmm ZmNmR -ndJ J HwQSJmmmJIL in O2tnC ■E 202_F L I r m a 0 N Q LL n W a ME �,.- U di m o LO aC.?C N S _3 z° N c U O N `o `c_ m E LL N 0 m a z ❑ 0 N m rn a r. I m a N 0 m a 0 z ❑ d O ° N 0 0 a z ❑ N 0 N m m a LL N O m 0 IL 0 N 0 a m v? Z ❑ Z 0 Q J U J Q U 06 U) W F- U i �n • • m � • 8so m u d N . ~ C m O Q E V a�i�� NO'OON mo N s a a� me WI- N y m n F50��/ r FAO La p PL699 d ° E a.5 a� y y y N V y m mQ w^• OOe�¢m N = y W mmmmc� Q O y C (i m.'O.• ° G W m� a NC $sow E m vn N m N Im m CI 1 !D WW N m Hm N 1 • N C E m N O o m U a o m o 0 m U ¢J m�E Q O m c m Vns pm LL 3 m 800�`mm a O m ¢ �` m m N .N N m a l0 'O C d �om� N ¢¢y I Q) a a o Emm m¢ m m ai m En 0 a o m= Q2 m m N W 'mm0 o a C Z r> m V W Q N N 'Q O m :m L` 0 y (a W m O W m 0 m > Q > O _ m U a 0 `. di d C p p `ymymO m m PJ KN nU . U N a `O C O. {p C 0 Lo m m �' Q m m U C N 'O q a C om m E Um D 00m . mci 0. o�0OQLL, m ¢ anUm> mo U� C=JU LLZ > -LL ao of0d mo»2UZpLmL 3 ° cU 0a> a Ht c-a . . . . . . . n v m mY v m (D y 2' m U m J m m p o z «co c c a Y O mm m c m mma mo mo Uw -=0mo 0 t= co) os Upmm 0E cYimm oY mUNa 0Um W w Y 0 mcb0 0m m LL O m g m ai m UQ❑ mm .0 LL a o a C zm "0c °� m J 2 0m o2u`� ac EdN'. ° o am,m m o,P m Em amo av 70 � - N m � m j 1� R t p y 0 ci 0 '00 d? JON `• Ov t om 3 c ,0 o 0 � 3 3 c y cn'1 y Z a 0 O m X L N X z a ILL 0 X O N Z a 3 N >. 9 E m y Z a . 3 m y `m o m N i. a a E m E `m o o `m E E m 3 o y T3 E E m$ m m E W U O) m o m- E m x m U OI m o N- Z.m a cc m m O 0 mm 0, 2o a 2•w m-m m m 0- m m o E ac aL m a y- E 0-c nL m o `0 0 csi m w� 5 m Z`3 a�i ma W_ ommpmm iV m m� m a ❑ 2 R¢ N R NZ m a m m XO m ~ s m m v e O m m d x0 m U N v o 'a' N f�2 ino ma U 0 0 0 o 0 U) H9 m0mma .= xv v 0 O 16 m � O p H '� C Cc to 0 O J t V o3 Z �mm ? m� �o W ymj C p Q f C m y N � o j C j a 6 i m m E Ol m a m Q y C O m N al C m 0 m ® cn O W E O E Eo E a a'�0 �,� 00 pm jN ¢ F m N m A L 'N 0 o c �m = 2 o. a a ®may o9ic `ot O0 O 0 O S o a E m m p a 06.00 n L U c c a ��m W c '� W o aa0 Z m 0 W U s m m U m Y > a C EO8N s sz�a E a 0 2 N 3 L U C 3 m 0 E LL cm aw c T r„ CA � lea ff A N pl O� m_o\ f N.R. = yy mN � W o V N O N O Cq (� NIIIiT mw'w[Se9 N , O — ,yam m ci m g50o �_J - O G O. YEoO� :m' U N U N _ a E 1Lq U N • N E NHI o E ._ v YaOi I E� W m C .0 dmm oY m¢Z:D uµ.,wswt O o m p m Y m co m y m V O Q o= m 0 $ csi U w m m A E 0 c) 0 $ � J w � Y 0 cA a m g a: Y a 0 -6 tq a m m « a Ua w M- m LL O L .m--. U p C m LL O m m J Q c E 3 z m v c 1 t' m g Q �� z; y c y °-� m ®m ` y .E Imo a c 0 j N N m i m ai E N a c 0 j m m D ` m m m m c a -2 o - �' m «C m m c a o d ID M 3 v D 2 02 0 0 3 3 M 'c t 3 -Oomo m t - __ .... E {N{pp U T N O 30 ,00 ._ G E a0 -O m T N O i V 'O ._ L. ; y 0 y LL a N .m a O N >T M W N 0 LL a fin 9 m C O N >. 21 ZJ LL a c a m >;a E ? x o z J LL a UJ.9 3 m >;a E o d N T a a E y mE `m `m o o of >: a a E y a m m?i m 3 0 m E E m m m m E W 3 3- Z E E m m m o, m o m a y E m m y m x m 0 c c 0 c V E m m y m x ZE cm a Icv c m m m m x n Z-m m m e m y y m x 00 E n� at m y m m `o csi m� E o'er as W" Q1 m m o �° 0 y emi `m Z• m >. y" o 0 o m o m m m Y d Z` �. w o 0 0 0 m mm ma¢o❑p m $= 0�m m0- 0❑❑ m m m m x m F ¢ m m v a o ttl m m, m W v v a m U U a0 g NY N m O m m m m m' m' mN F Q mY N m it U V V m m FN2mumma O G 00 w w H�2 m$ama tiCCGGNy =omit 00 Z'ao `o y� oom cLi�m " E E d coo 0 m LLmma m o 0 w NOyc 0- mmm ❑ 0- U ooe�mny E 0 ` a E E mcc3m 08 coo Qom -o oa?e m Ec m.Pyc $ m m o $ $ y c0i,gym yv m..o - ¢cm o. DEom0 a�i o a Z � o E Y0 o a V 3 0.m «• % 0 Q E E m y o a a« a c c m m m 6 `� Y p g Q aE`o5cc c-- -2 c ��cL `oJ ..ma m m cc U w m m 0 O._ C > C.m y�� m m O- O N C ml U N C O U m Lr p m a L,• 8 a 0 O O C m ® tb 0 C "O ,� O. O O C m O v m U a= o E e c •� m E -o d «.'c m E m - m g R o..c3a LE 000 49 W4m E "4) mco"m m m c - °.-1 •- 0 m e U c U 0 E 3 U. 0 G V E y y N y m a y m m m o O o m a m C o m E'tl oM$ .od mmc m •W. O m Cap Z`m IL-E o o v m c o m e c o® m IEU co mm m`m W¢ mm y` m a N m2 m?3m .Yj O L o O E o 0 o v0 " c 2m cdy � o� rn��v m S m� �� O c0 0 mm.sm ct v° ` o " T a m a o 'a "4 0 o T ._~X0 wL mY ct C S0m'ce as +" n'uaN c� W 3 >. �, a E m _ 0 S 3 m >,a E wm0pmm �m acio®o'0 -0 aE I>a mm e E�`o rL w F' >; a a E w ami E m. 3 T xa E m lim ��a °oN DYNE �`m w m� ymDm EC-m 2 E m m y m x m m W a E E d w A rmn-._.m '00 y cJ m mma0 0 m�imo�oE O m m m m X o `E a N E 0 m y m x UM m> 0 am L o m E'O .. EO1 alm w mm.=v.L_, OL m m 0 0 s om e 0 m m m x Lo Zm mam me L--c_i m00 aaE C go-aTOm W' `gym Y 0w m mE w m m 0 s mint_ m um o;9aE� mo>,o �m aZ.mma�.J N `000 `ooU po aC m m 0� E Q m `o 0 mmvwo� cmm�om`mv1a 01cmim..mEH� VJ$`1❑wOg co 01Q O0❑mm w�a a �'- Lom ❑z0 m �mLmo._ U m m U 00. _t o❑❑ m io�E« mlcyo mm°•-. mLa ` a" C maa~m0.a ❑ ¢m 20 ¢E m ❑ mE Q g¢.;:m�mEvgvw o W ® a2mm30 mi. csi m'"cm gmaom �m 11 0.�cmiom3? Q am QaQm QvQ cm QaQ� QQm aQ aim F ¢ m m v v C maam0 Lmm L of am m ZL E ncoo a« GE QE Qaa� ¢^a ui v a a a a a C 0mom�$ Fsa HOam �o U«o¢t10 $oLs._mm _ c me me a?: F- W G a a a m m � Q cmi r3 m 3 v . . . . .. a ca ca ca z Z R m R o ¢ m 2 0 m m m m 2 m O Z¢ 2 OC S m m O¢ o m a 0 m g c E o a G a C 0 . E N E 1� 2 0 0 0 0 C m N a 0 7 J d CO r W Q v? 0 ai N � m C C c m m m m N m m �p C9 1 � mz C.- mm p m N E M .0L 0 O_ m 0 �� N Em m T nW O a m C is LL � W W m w m m Y p _ EOm E c m W M 0 `or dN cO oU m o c N E o O N Oo N ®O no U m Tc O«o l O O aco, L O d Tim c 'r m 0 a G a m c ZO Z C J N O U W C N d m O m Y Q>Q d E O p N C 0 c ¢ E N m N L U 0 C 0 m E lL O �W cmw w r� y =e -a a c m C mT o �. E m°E t .and .3 Imvn E a m a o E i III ztl m m J Ul tp' yy q m O O .m. U O m imp C C N 'C Em 3E C J 0- 0E m Q m m � a �EMy mm g,n O. .,< O W�a? LLT Eo 0 ca .O O'U a0 C J O p= 0 8�1 C Ia° N 0- G« o - a a Q y C O a U o U C Imd > m m 0 w m Q CO o J O N ` m m 0 C aE"J o N O mo mE mm m y U)o , o U N 0 C o m ocm ' mm Na C 9 O m IM U m E ma 0 a C O0mLm m0caJJwN2 ad°?c m a m 7 7 rt f..) U. i p m« C a m a �r Ea O LL o m �v tmn c� 'Cmm E C CO E C .. y j 0 a d E N T U ! L •N y m t000 : y a m 0$ m m mL.. T mL X to `m" � w 2 E In pow ca m E a a� a0 c N 0 o 0 o B `o m a) In o a J Y m U a O Y .O a U E m N •O IO L N _� m m ca LL m `6 C = m C C U m N O. C m o E m IUy a p m o C �a .0 2 N m m W m o.-Qpc m m m m c m U m m m Jo m LUc E oc a. 0 m®t m¢¢TmwLL'c n"- c p a c m mE� m J •8 ®iaE �3`° �tJ L W m .J. J �% •� c U- LL o 0 o c O_�aYmm.O w J O am m.C� 2 3�.+m NCm wmp N«N O�LL y m«gy m t F o mL oU a m m EZ 't a �oL n E.-. m e , ca mF-oa...o a Ja J Um 0 o m ca 0XM ON cr-E m m o .0� taU m o a m ¢ wr mn tm� Omm >zr9c'oocy r 3 E >_ y>LL co 0a: C? LLrJ3 aw� ac ®amo U 0 co m a.m a j m E c m ❑ C O N `ry O C m w m y U O y L` C - m C m Co m« U E m- m a O 2 ¢ LL m E m a 0 m M, LL m O T O O m> J` U LZ ES(`�om mw. o>; - J od`mm EIn- CO mm mb 33'm d'co o.. x= m .3 c.E Tc'E c¢Y `m m0 �w.5 o m 0 m'°pKm v�mc dtimc ¢m0 Em5m O m m 0 m 0$ t E m 0 �' w C 'p m U Q� m a m m Z m W > C C$ N U m a._ LL N 0 y m m U m p aD m U L 3 'm m m• u O" a y C m m D t U O « N x L LL 0 X m m o m E® "' ¢ J lC0 O EE J '.Y m m U E T C O V "O C 7 m J N U O O F- a« N a Q$ r '� E OmpOiQOE .� C OL..❑� C dN �.y �0.� O g m NON{pz mTOG? NODS mc0 ym¢m c0i m Z FL-- m m 0 ca Q lTtl m 3 J co m y 0 'm m 0 y m N m m Sc J U h J m 0 m m '�-j U O 'm 0-.- C L t p t m ca �❑v ac tll m 3¢ m¢ Ev vn� m oo LL c m� N Nam p oho m� ommm.ivam *' ov�o a1J mn, mQd9 'm 'v m m m 0 ❑ E a acm O m m o T z- C N -° m 7 r E m m 1° o. S a o m t a o o a c0i °' ••-�J rn� cmi �op E op « j m J 3 c =' 3 � E� a u. mmocmE WoEo=i.o o� 0E_E >'od coom�m OLLcLL LLm°oaI EE$ a�i LLEcm C N_ _ ® 0 U O m m a m m 0 ® m L U p tp N Z E p F¢ ^2 p d U L J fn .L. m m 6 L m L m O L C❑ m O$ m C L E m aa�r o 1L O F-0F .: r-$W0 Um my 6 LL Z 0 J Z) U J Q U 06 U) F- LLI VJ Z) U ¢ m0 M 20 W z " _ ❑ m M (o 0 2 o m C ,1f -0 m LL ,\ o -..0 CID \- LL ID C 'p W IL t a1 m m m a z L N -'.>--. o N 1. `-O OL«-L V m.0 Eca3 -0r m O U L (`a N m Km pm 0 -n c' 2 E m o c `o 0 40 m¢Eom2m am.G 0 c E a0-1 c= N m p 2 N a a 0 0= m Om E o o a m m o'c 0 m il 0mmcmcmavoU fa 0 min mL NL c ma w\ '� C 0 (�0 y y y E> m W ,i - v ccmm® OCal N U m N �.0 .L.. c m m` m0 U m N C (n 0 (n E w(AW rnE0- L = Nr.-L .-CU0 mCc I-- F-aZn«-oa YT UE0w+ i c E c 0 �a mE■AC Lc�mL Eaao0 W a LL° F- 0 m O C � a-oas Fd U) 0 C Oma x--0min Zrnmx m a> -a m C m m mmrn.« � -m1LL, o- m Eae' m o U to CC y m m p E 0 c E c o m N m 10 2 O L 5 0 C U Cl) O Z, m m c > 0 V) m Ec . a O U -p °iocc a U C'Jto m t E ❑ 0 0 y c co ,ItZ moo(m-J m c am L N 0 - ot`ama =E U m Y a-= m S.2Em 0 n 0 m 0 0 Q 0 ❑ O N E m C ._ C Sl > C U 'O N ` m E Q U N N N U U- y >. M a m ti❑ ,W, 0 0 = 4a J ¢ a¢ a m a� am R «LL V° m E m wNa� JX 0 0- U M 93 ❑ wo W EN -', pOo3 am v J d d E a dL a C •� `O Q c N C M a O L 0 3 N N> C -N V E 0 N Em O a, II.0 •R ;a> M E.0LL V m 9> Lm.m0aEi N> z m 0 L 0 W J O 0 p W d m p N R a '-D min m o`mam m M N x o N E e L a U t y m m m r o y Z m c 30 'cm.a'�a N`oc M L a>,omo p 0 m mn a aym m ck mvc cE 0tQm m t° 0 U- .-Q .cc ZZa .. U L m 0 r 2 3 N y m mL om_o '- mmm m U N, � m a me om co.1 -Din co3 0 :gym` °'N m C N m m LL C 0 t- cct win tEmkE I C am U = O y o m m o .- N O So U N U)` c W mo0 In- mmomm W p~imw M02 'Iom LL L C O rz N 0 c C m in e 0 m m z A 0. m O. ti. N c Z M F (5.2 2 m m LL . GO m CO m n O m O2 E C .L-• Y C m F y O c E ^O ai o ,- N c U C a a m 5 ` m E E o m = m m '- 3 m m m E E y T m M m m c 2 0 0 v E -a- c O n a w N N c r m M m 0 Z a Z. a m 0 m -- c o a Z. 0 0 0 E a c U o f m `m m U 0 m x N y Z v_ (^pa a U m m E > n . c a m m 0a O G j 0 "m0 a in U ° m N m c m M LL= J U m m �° F � rn m m> c . m> 0 ° m a 0 m m Z r a m W m� LL ¢� co m m in m 'a " . 0 m L m 6 a- - E O a m .L.. . 0 m 0 m m MI C n m « w E CO o m r d U> C O N N N m r L C m C a? E m -o l: m m c m'm O - m m m ' N y a Y m ` .3 c' m> d U m m - m in > 0 LL m E C C m0 E U « �- 0 'N 0 m m 'w - w `m `� E �. 3 E;.0 mJ¢ E 0 LC, 0 m v m m y 0 c wY a in m '0 m J N .> �` E m *0 '; ❑ T a 0 id N 3 E= m v 0 w a; 0 o ` m 0 c o m c E m� M c W 0 c0 c i � c m m O^ -3 m� J O C« U N- N L. Y C .O U U d a Z't CIS.� m m N m U O O R a LL. o Q � t= - Q U Cr li H> M 0 y- 1Z m� 'coo c m a U) c coW 0 0 . . . . . . . . . . . . . . . . . . . LL 0 0 0 LL LL « m m M O N tE-V Z o% O a O0 9) M - c LL m o IT 4 E U mm- N U E mrn am m m,� N O m am$ m Aw U W _a (O E a O� (L N N U a C L N ° M W m m �E= o; - m *. 0 � .0 a m 0 M 0 -' .2 0 E tUi M 0 V,B a m m 0 = . n 3 o O E Ol c a m m uo o c 0 `ii m m M "o. 2 F CID (0 a N I I a IL LL LL fN pl t° n o . . d . m P a c m C 0 0 i° m Ea cot O p T T c0 0 y O - c E M s= i 0 &F3� v m r W c m m m d O 0 y O = N _ j J c m a m m .. O a - c C LL .m m m 5 C m is m: m c9a3 n 0.2 m N o j m cm 0 N O ti m 0'� c o m0 m E ° d cw O O U m a c a L O a C. . O U m n w m a0 : m 'mi .m. `- a m c Z p a O U ` 'o ° .m 5 m a m •Y 0 Q Y > m 0 0 N Cf O j ¢ v Z c m E m 3 .20 H m c 3 2 E LL rss we co40 So w 4MT M y~ on min M W om� 'o ci� cw -w a+c 9+� _c'o co a+gym a'+LM o¢ m m 0 m m 0 0 m m N- m N .-. U -p U M m N«= m N^ " O M 0'" a00 me 0= E=m E=m min Mo E=ma E=mn ro M m E m a E n 3 a 3 E m E m O c o c (r E m m E m in - M 0Eo mEo 0m N mNE mNE am MR c mNE.. mNE_ o°� t. j U j 'O C m e atO O mtn O C C y mt0 O O am O o N c U m- 0 c o a O o o O- o _ o o N m c min 0 mm-0 o'm �m aom aom m 0 m C c U aom m a`om d m a (i U m m Q m ¢ m m a N a C C a C c a a m a N N O N C MO c c m O m Q> ❑ U �3o c3o m coin am rn�� rn�a m'o ami o' 0 0'c�m o>;Dm ¢ a 0m --mo J O J m m c E U m U « m._ m N._ N C m C = U« m._ c « 0.- c J o I L_ m ai m = EEc °mEc = C- mZ E� -`m c^_m me me L Z' `-c- c.`.mc CO O m M3 m m M m L 5 U m6w U 0 mM m Tm,a min U DU >+ > U-m- T:D m- W N m c L m O m a> m �> m j- 0 0 a O C' c N> . U m> .� m M = C m O j C C m� C It n - a o yoE 00 � n' ncM 3Eva`i 0EmO Scoi aM I °Eu0 oEQ0 y o rn d- m 0 v"0 v-0 = c0 'cU 0v UQ aim 0m ¢ > tummy m'momro y rn c cli d m 0 a« m 0 'O O J m in c m J LL c- N m e m` C O N O 0 U LL=- .= LL= .-.M W C C X « ° m .�. m my mrnm o -0 rnU❑ 3 Om li.--= ma ca o 0 3'�Mtr o- V ° c m0 L w a . m L O C L O N O C C C m- C O m N 3 m m _- m m E m N J t0 O m 30 a1 0 m Q C m a .3 ` N W �c C O �'�` C O m N 'OO _-pO J m> m Jm>m m�' �~ N m (Din>U J m> U Q m v W,c_0 m in mm O «0 c.o0.. 0=Co m in m5U mU «_c3m 53m =0 cN m in t=3a Z`=3a Z D' m 0 a s Y e « I -acoio c5 c°i° m m 3Q- >m- Lomm oomN «¢y Qui m E �0-a °>EEa pl a w od E E rZ.«o a o aEm m a3 mmm ma, tt, 2'Lc(nm amc -a t0c �m E t Z� o taac -. ;f W E _`"0 `"m aa5 aac 3-0 0=0 rn 2 =.a = min m N .. 0 3:= 10 0Sm1 U 3�0 >0o =0mm turd 3m ->3m S 36w0 5600 Y ai o coin m m 7 2 O O U � O o (n 2 C U c U >> N m> m m 2 j U U > N m , m 0 > .. m f F- S 3 > =mnL 0aL > amm amm mmy mmm p_a>M-a LLmmm IL mmy L am O O 3 m E N O E m 3 Q LL N O LL 0 J L L N -i n L N 3 j a O a a a J L r N J a L N . >i 7 m 0 0 __ Q Q 3 c m in c m- a Q U� a U t a d ._ n - ._ mom ¢ o m m in a: m ._ � R 0 ._ � N O.c a to , m m m m LL N '= F- LL N N N y N N N N N -p 3¢ O a 3¢ O a- O -O `� O O O -O 3 O -O Q O O O N O O vvevo coo No Oo-mO-m oc° c, co co c,Q vi c.¢vi N N N N O a U m O a z m 0 0 0 m'c O a -= O> o a 0> o a 0> O p 0 0 0> o a C O> o a c M M N N N N N N N Q Z 0 N E Z N N N N C m N c m N p O LL N O O LL N p o N p m N N N O O LL O N O O LL O Q m m a 0 0 M m m m ma¢7 ma<0 m in mW(n Mw(0 mm�Z mm�Z mN min m in mm�Z= M z« F F m7(o N O N y 01 LL LL O L O N m 0 m m m 0 L,, C N l0 0 � N r (r c 3 c - CIS C C m C '0Ea m E c G No c m li c E m E m E m a m m c N m d C L N U N LL m O Q O O U O m O N cmi 0 m ai N c m m e c N 0 m w c m U E n E N m E rn c N a m '� U - N m .- m J O N ja « J N m C c 0 C 4 in «mE m m U c m J -ate N= O LLL - L = O°p 0 O o (a = - - O « a m .N p= U w U c L a J a '� a a C C m C U O) � Z 0 ma y a m U O L c m �� 3 O E 3 2 3 m 3 m 0 m m t-- c m O m 0 U 0 J a i S. L L a m 0 L a a ❑ c c o rn o 0 2 c L.0 0 o m a a U c 0 a cmi F- , o' 3 - > ami o =� D in Y a m a °' O. co w C m a c L m M 3 0> .w� mac h m m in 0 w m w 3 �- C omm O c o m 0 3 a> m>> c an d H cZ a' cZ t y a w e m a o O U aT a c M * 0 o E® a _ °� -0 a a �❑ ❑ m m _ m n v o - to J a. c o a c= g m a_ F a N L 2 m e m m- a ro m 9 m m ai ❑ a'ta m N d m m m C m U CO (n m m m M - m � C U MI a W .O m N c m r m' m a N o C m LL E to LL E a=; m o 3 a m =° m 0` c o m a m C N m- C L. 0 V) N m a O1 N `m (n o m a m U c .0 'a a M m a « Y }'] N T m W m O> N M O ZI (JJ y m m "o m in= a N' LL a= IL .0 3= LL Ot - m t. m CO N a cd y m T D N T 0 M w a N - O C E -j LL O U) a N m in LL E- m 3p 0 LL � 0 m _0 N m O m O it m a Y- T m m a m n m m m m N N a LL 3 m CU- N m --. m- LL m LL m N L m- U« N O m« C V m "" ,Min N O m in m O M (n N a m 3 m in E ai Z ai E (n c m- m '. - v CO d z m c, o d m 0 m E m m � m m 0- m o- m W o m m m a t m 'a o m Z' 06 '0 E 'm o -o o C h o m Z m 0 a E o a (n n E > n m H y m Z' Y m 0 m a L 2` >i 0 m o r « a N o a "o d E o m t> E m> E >> a m a ¢ '� `° o m> a 3 0 m 3>_> J N c U 0 J >O N J E C C L m >>>^ .. 52 . >> c pl U 7 m O «> N m W J m y O J W 2 3> a, TU N *6 K� 3 > m a m a N a y aQ z a L ..> a != m N >� 3> a L a .. a T a F x F F x i- m« m O: m in¢ W o 3> w toy m 2] Ll- ] 2 a s c N m z, Q� �M0 3 N N N N 10 N w^ 10 t0'M m 10 w N WZ � LL b t0 N 0 3= mU -_ 3 m m m m d vm, E m vi (LLn 'O lii m in too m m m m �j rn m (j co m a a Q co o m❑ � uj lit o d ai o o- o � ai ai v v a v = o '� CO = LL U ` O Q d ¢ fan m pl pl N N r to IL IL CL w� pl N E N Z m E N. O 0 0 m t0'J M J M N m N �J w in toil N N N N a H'°nU ... d Z. .. LL 0 LL LL LL LL LL LL LL LL m IL❑ LL E LL 3 2 m M m m M= m m9 m= Mn ¢ ® « - <E6E- to z' my ri:`mm c ocma o .a cox 0M10r LL LL U 'U y ttl 'C - O N O E 0 q E t in y��> E N L0 c - c'Q Q `° W IN L)_ a m E o =0 U)c0"S o / e Uo of o m0Unm c°i m Kc gym.a Wv (1) t` .O_. c (D m M m N O J_ 0 0 0 p N LL ttl N N a O� O L Y m a s Ot0 4 i0 'a m-O LL « o U a G t0 k' „-9 U c M E cc'zp U m a" amz- W m N c C c U t0 c V Z m - E O` a~ m= M F N O L m N. O N O O m c O o O c m t °0G`c �m U m m0 �-"- 0 T 4 M Z I c 0 O m E O N O Y Q 13 ❑ N m m 'C 'a G y Eg m O O N i� C "O m a m > J U C m O m O S E a y c- R 'm0L_. E- N a 0O a IN IN `m t0w n m[ m a m Z cv, ` m � c'3o-m U ,:.w 0 min o- y53Mc m^+ m a 20 �°�,°� E a rc-n0 2 dl-I Q «.� mLL ceoazm In « Q a0 U m G >L m m ,- LL G T-O m N^ :F O O O m �' E 'p E a m O N^ O r C i M Z N U m m m F> x 3 N C a - m C c N k a0 '.,7 m co x (Dcay0 E tal me v .gym yin o� a, O ii (D in n n o tt E c o ``' ::.' y > m � a Z E m-y¢ ° (3 r t°i txe C a$ mE homm= c •O« M IM v¢ 02LLa a 0 �w E O m-- o` ,c0 m� m��.y m q- E W A,M- 0 Emma y in >> c �" d�' mcim mmOmm to-41 - 2 m a[ m30ScmE CQi IE UZ : -'al.0 m-'z 'cao3 rn, U m m in 9 2-0 a� 2 m a m O !0 N .m a to Z -� U m LLt{ ❑m m o ti H-mmpN W tc0 O pl ao nm� �'a�ye 5'= m L W 0CIj m Ems, J O p W C (n N O m m acmmp . �m m h O ZnMap)m W > fq:= J . LL- �cN 2m¢a« E' C m N L c c N O m U Q O U m `0 N m .Lm. m� E aH utD c^°J `oEo aOyN m `o" Y m E L O -00 L in« >o L m N U y `0 to m O c ' .O U° m C 0 MI a O m m d m m tin - m (7 -- c v oc'`-mlmRwo�t.c�mdNa Y y E min 3 E c EQ me NE Em_«3❑Emu; In a.2 - Nom c - . c0-my E TN3 m_«m°'a E 0 >. mE cN E .M 0 CD m :: coin ua�rn�ouNi t`a>my(nU E o a_ 2• m in oy x m ' w m 0 aNOm 0a=m- M-0"O `-' .N E J y m Z'm N ], m M in m°- z Q c m m n Cf C '.-� m m m a p C m L C a C U C m 'O -o c a a O 0 m m lL LL. ,r m-pop«coa-Em N® m �_ � O 0 m min m o c m o c c m 0 16 U a m a 0 m O m N O U m m m C C co m m in m N N O ui O Ym=,EOmmE>(m L0 3 a m c m.c? m e a- 0 N N = C m C a O V 'U V N a J C , w m m N U d N O a o « m N o N in a - Z 2 ❑0 V m C_ K N U m E L 'C m in O O Y N m 5 iz D 2 L 0/1 $� v E °? c o, y LL LL i w a E m Y .3 C .> C Z' N (� N LL U C C m N- m . N, .V 0 M o c 7 0 y a E p C N Cl) M >V o c m in ._ m C, m a E m m o 0, m m c m E -O m 3 E i6 0° m m 0 m W y010 OraE(mi"a`a0om�m � 0 (n m me c o min N c � - E c u U ' N a m N m 0 V1 C N a J .O - J o co w 'O 0`❑ E - m m 0- Y 0- 0 0 'O .0 tD 'p O 7 0 M r d 0 a o Z• C O 0 - C a m U N cl) LLI. m« p m .0 0 G LL m E N C J O w N m m O p N C O Li O L N O M W .a-. o ,A #�*0 cn LL L N U D (;C am O m L N a E❑ U U E> O 'N, C w L_ O N N N 0 III- j, O C O E r_ O ._ - a U (.i r, C Q tt ° a 3 c D o t m o c MI m in E o E -� I. 0 y E 0 0 m m a w D a m c d m W o w c� (o '.? m E o 0 Oldl {OLLcmmm�"oo��mtnZ>.p d om(0>c0-a(micow�0c_d«J ommmf0 0 a 6aE rncrnm Do c m` m m m❑ m m L. c « m (n c J m m o o c c a c c ;~ . a Q o O Do C:� 4) Omc°icoN cv m'ocwac m in E w m a n ML o C-N 0 Y� == w a - (i =¢ U �i 0 m (°i c a s y d 0 C Z m 'mom N E- (n. m e .. 3 'N m 3 0 E m a ma E E m m a m in a a y N r m -- m E LL 3 m n m in o 3 0 0- 'a m m 5 9 m x W a y g J J m m in L E 0 0 0 m O c a a s m C- m in w 0 Z❑ 6 J- U Q LL O❑> m m Q �i a m m (n W n O a m 7= N I I 0 L a LL LL LL,to Vi a F- t`om �'almi � m m m u-- Gov ILL . . . . . . . . . . . . . . . . . . W pl . . in LL m 0 . . 0 a -m0 J= c = �� m m M C U a v 0 a I 00 m 0 m W a O M �`� t c W L 0 O a - 0 m (A - « mi MI M ` 7 Q m a c y - a y m ®`m ® 0 m a C ° p� a m m U rao m c Fqy-t 0 m in N N N w a V O O a 'O O m ❑ « in n 5 v 0 E c . c to m E m w z ' a E m, c E `m c m .O 3 m m c LL m¢ m m m w mE m g C m0E ¢ O,cd m m 3 T o o � M A M o a w z m- m co m a m J m a0 0~ 0 mE.m� C,j mxoo y m a m m =" c« F- , a> c- Y -0 N U o x G g a 6 m a N C a m Q mm a C 0mom '° �a0 mmEa. m L y LL �O U U a N y a 0- 0 v m 5 a m e rn c m 3 0' «0 « m W m o m :. U- o 0 "' c c o d ° a o 0- m m in j c Ny c f° N n - m m in E. m (n N N a LL J a= U p p a N me - in n (n f 9 o m m x 2 x< a J¢ a c v of C- m in -° in U. co a m m m N O m O Ul O N O J O V) O'O 0 0 0- N E> p p 0 U J J fn maa O'rn, m O N O N O N 0 N 0 y 0 0 0 o m N O N O IM m N a T D D L) = 0 � .. O 0 c- m m m m N m min N m N m N m N m N m m- 2 22 a L a- F-c mo ... m =m®'o m a a r 0 T z I M m a Y E �5 o U L �> O 0O a U QN -Z N O d o -=. > m mm a 0.0 V m Q C \LL O m ❑ > N C E m (A m N m V O o ap r. pl D m M^ Z M MJ o, -o 0 a O_ i ..� o W m O U c ~ - 0 J J - c .. E . Wa - Z y a U ei % oW'Ey = N -Z. �i Ern a y m c a E U- 7 C Lc E O J O 0> 0 Q o cQi> 7m a g c I c c ¢� o F a 4 E W 0, 0 U � -cm E R E a o a" J a 0 E m 0 `m OS0R WOiAEM Cla C, E c E E c H O m O E E v m m C t m `m Y Y Et" zwc 0 m m E 0 0 S S IN c c O E E V N O 0 m C O 2 a :O 2 a a a �U a o ar w 00 m _ O + + - U o n 0 m m M E m m U U S g j 2 m a m 0 m m E c c y C N M ' 0 C 0 y ,> Q ¢ n *r U (n 10 Z � J 0 a U F a tf,V M o❑ N m k -U O - C ' - � « L C .. co o o cp C Q O w O«O« OLLLLm❑ Z ❑ Odf'^ m!) 4) N o cm c o 0oco m� U UE L O `in m mO N N m m T - O ° c^" > T a- m m m a m m E m m 0 0 a o m m al Z' MI E L 3 E T -0 E c m > 6 p -z m °m a o- `m Q N > 0 p o 0 E o m 0) a Lin-. m 0 E o 7 O a 0 E `coo a w a o f y V •-La N N m N- a n N m 0" f a. '0 0 m a N N= m w 0 .N . c m m m N N- () m m 0 � m - m Ma O f0 *' m '-a (n y 3 ( m mao m m '- m In C v ofE _ m o0° NE m m � E 0N s m N N m E ! m ` w � N SN EmMaNmm 0 C 0 IL O OO^LO>: m a 0 M mF m O a ON _mm OoUm N y p j Nw m = = L 1L = m QmQ ,L - , m E - EN o y - N L o o � O o - ym NW) L o C Mm L �*, :O ' m aaLOo;= Na F- 0cQ d O C to �wE3 mO0�mm l'iC U N =>Y- .>>>SOl> O � > m m C jE> m .W m UC c m0 ma CC d7Jp JEJmJ.CO JYJ0a«J 3 p JJmJ NN! .OooB . . 'd mwoo .N - o O O m a= 0 0 >m in m 0« 0 C m O o mN.Lm p a 0m U U EC LL R z Cp`¢a 'Lac3ti oON M Zm �mm.�om..• aEUmdaoo� -dCLiE.Eo m m c-rn ,mmaa C m in OE OwTC C m Ty N mO Nm= m LC� O = ^✓N 0 . aoe cocm?oN,,zo�0Ua om Z$a Om 0a-c=mO a v I m5mJC Cm m CU UMI 0in N a _ Lam inLOLL V ^ 00 0 m p m E.`>my Dc"wNmam uio5M m«mE n-coo¢NU0 0-m= :=mcc0E- acN.aas m o LM E cmEciEma�moao0-O nm0C- p2mo�N c-0aEO Z N`o oU mddWm>OE-z oo-,wC-NoLUE>oNy OE(O nm LL 'o'EadmL�o°Q0EpaommEfm M z 00nomc � fm-�mmmu3m�?.C°cEa-,m�a0CC"O COnuca O NG Oa` :UC C pJ N CUdUL m o0w;` a QN N in mm ma> n O._ - -Nomm m m cm c .. N b O m m m a c a Nm OCO _ N O LL m0mU ^C m °p04G ��cm¢ H�E-Umy dU:«�oyLLo-Qo OwO'oOzo UL m- mP 0 Uc00 - E a m m U LO 00m aD iN w m"Dc omQ:o 0 02 LL M ❑ 0 O U - ' O 0 J N gMI N N a Lw ) m c d F'_ G 0=nmc tNom mK -0° .L) mmN0m mo iroLm>0cmvYp a mina,, °m Eooc3 .cIj- ,cEL.4mOa3mcc ct i>z0a H=iE': cmmH2h°° ao0 noumIM°rnr a0m0 ma m m E aj> M m 0 a o c a m 0 m `m m 5 m m 0 c -9 a 3 o .S2 a Fp c m c m O m U =' a E 0 g U o - m - a c v. a, a Fi m m m o m U N O a a 0 H 0 m U a - Y > m O O 0 . 0?MI 6¢ m c E 3 U �- 3 To- V; 0 W (O M a w s,- 4' M~ yre6 e ttt¢¢,ia m m E m m A N m m v am E N 0 M c 0 c 0 0 0 c m E t a E v ._. m m m 0 Z X a O O U _rnm Iq L N O 14 ci Q E O In C 0 Q mU a LO W % a0 N v J- m 3 T Vv.- OI Cf (ri m c 0 0' I. e m a `m = N m L O NN a dl.__ in U N U N 0 i O U m o m 3 « MO E m C m a m m w Ot`a m x UU 0 O c « O E �y� m0V C c m = In U c O ° c E o t m w o m m c E c w m c mN c 0° `m a m e'm'm 3 c v 00 m E a m m m o m o a« a m w in o .m c= m 0o OCl) a mv0 n m`m m �in a W(DInm in O = 2L mN U UL m Z) (nn 2 Q Z)¢ ul 3 OU lL L16 . . . . . . . . . c ° C m .1. .8 E m m H 0 mEL , O 0Uc . `mD O M m m .-C . m N i yt m m a,E m q 0 y D a 2,3 N 0 C N p� N m @ o cot 0 2 N_ E ._ T j m t C . N - a M i �,t LL m C c a 0 0 N ,M N Q1ac m Q 0 m E t ° U Z z ® O I 0 z 0 0 N n a M `0 OMm c 6Mm c c0 (n c0 p) mmm a+� mmm S+� m0 c.,... m0 c- m.m. a+E0 m.m, a+gip m;., pQ d moo cd a`oo m« m« E=a� E=m am E=ma E=ma coo �3 '03 moE moE a'm o`aa`i mNE mNE w to -C X mE.2 mE.R ad m in 'O O -0 O 0� O 0� O O. O C .- 0t0 O O 0- O O y 7 c m W- V mina m~ U Nlna 0^ j "' M OM a o-O m 0 m m m c a0' m n0"O d m a CIS U I m Z C NQ m m Z C aQ m N U O U N.a m C U rn m _ U Ot C m« C w« Mn J 7 m c 0 a0 m C U MO m m ^, ❑¢ v c c -o0 m.a .00 min aa`im a`i a`im m= m= 0 o a0 ma rnm ma ¢ a No 0 0mot c.L'c c EU mU 0M ❑ Zua n omrn a;mv maM�i� m'c c n;u c a O min m 0i cEt met m c ce Z) E� -`- -'gym LC me = Z--c- - a)- fry O m M.. m O m> W O` Cm c 0 Nca > O U c o-• m O O y a m N3E N> , N3E D U - am 0« m.- m> . m =c .,, c =c co N a0 2 c m m� C . ,m m- c m ,m O o m mW 0 '0-m T70 = ❑ Cm am- vm0E 000E oM n- 2 > cD Qm aUi0 y m c c0 a-°i a0c v 0 c � me cc0 Mc, Uc Nm yin U ¢ - a) mc13m W O1 m 0LL C cc aw m aw O f/J mU mU= LL- .= LL w .= O a C a O O 3^ M Q LL� U Vm C m O L_ O Co J 3 C C- m C j- m N- a O C a O J N> m N> N m� W~ mN«Umin Co N> m J N> m Umm Q m m W U cc m'COmOCOmin^`m min«UmmJUDm -� «U m in :E= 2.03a �.00J- a s ca a a -'o°a E m 0 :c9g 3Ea Z.jo >ma o3a =3n Z cZ - w a 3a`mc Q p E m0 E E 00 a v m E `-- 3E@m>a„m=zc a m m >2-a �� Eami t a c ` (D >i Z,m c O C m to (n m S `" to L O> 1° L O a c S a c o 3 ._ 0 3 m? 0= o 3 m 2 M S a s � m w m Q.a - m m in Y O m m LL m m w O U o o(n >> O oo(n x (n O .. c0 a O ,. c0 Q m 0 m N 3 m m m m > N m m O s5._ O 5._ >' > N m 10 m m m C7 'm- t > .. m �� w aL N aL C ?� > m m m m LL a m LL a m B. n a> n a -j n 0 a N Z ~ 3> Q d o 0 3 c m N N A a Q (O.l � M V� O J L n J N ,.L-• r m O m¢ O m¢ s¢ ii .. n Q N r r- 2 c o N c' 0'w a 00'1 (b of-LL W'c F-LL m N mmm U) w Ch-- Ch -p3 Na« Na-- N co Na3 ma3 0 0 O° O O O O N N N O° C N cc° C 2 R N O O N o Z tmn M a Q= N E Z tmm m a Q O N m N m N a N m W (n N C N m W (n N❑° lal m in- Z N LL m ai Or Z N m N m N m y m m m LL m 'M O Z 0 LL m w O Z O !Q Sv F- F a m zi 6 22 22 m U m 0 z 1 N 0 N m a a M I I. m O Z m n 2 v c m 0 m I O ry � & O N s ea m xx m 0c0 C- m min 5 vi m ,6 gE o c - n 3 r . O U m N O a m m O W O y U S0 = . c o a E cm O O U m c`c .aa 00 L a . a T m °' m m m MI0 w m _3 C a N c O z U c 7 H o - m m -2 0 c0 C m y U U 1 8 0 m O 0 Z ¢ � m E m 3 0 .2 ~ 3 m E 0 LL O • � ca Fa 11w e.- O' :cam y ws . !ea .In C 0 0 _ m N E _ N 0 N m E N a c N a C Y T U c c C C c m C m C m C N twin N L m N mp E a m E C E E E E E x �, E E 0.o- m y m o a am ULo = c m =$ £ = E 2 E m E m 0 w in N`p E U x U m co D x - ? o m N 0 U y % rn o o O 0 O O r m a :` 'w D o U d = LL U m m a n p rn (' . U 10 0 :. - e - LL J, 3 J 3 3 a 0 c m c c m w c 0 j 0 m m- U to U� m O 5 m O c p o m m o m a = a - N C 0 m O m o 'm c M J 3 - c a 5 m = m m a rn o 0 2 - m d y L.c O' 0° C o `m ❑_ C 0 c '3 rn > c 3 0' > m in v m Y 0 m a � U y m umi 0 `D 0. o °p �' of m> - E ®c L m M m - m c m " c' 'O m a 0 m w m a w J O U m d 9 m 0 ... a c co m rn 3_ m >= m O a m Ir D7 a C 2 N m m m y C m n o 'o O J ^O 0 N O av 7. c m 00 0 U_ Y m ¢ C - N -O = a m m m O 0 o N U 'Q a m Ol m e J L« m c t0 C m m C N m a N t`a J 'O O c W C o N m m m Y c« C d c ` U m- N m m m m O N W c N = m« 'O - Y N m m .0.. a W an U m �! lL = m - - a !n - a m C O a C m N N L m T in n +O. a N N O a 7 OI Y 'm0 m m n 0 W o" E o a ". y ° ~ a LL a (mi 3 0 m° a pl LL 3 w y N 0 ti O R m O V c - a a m T 0 ro O p m W m CC\l ..min. m o m O m UA .m, m .m-. ® o y C coin m uJ OD Q a 3 w oa aa) o co `a E o m a E to c m= m (o m «d N Sv CO' m r it m c c O G O m- J E m Z' C m m L] m Q O L w m a L> m a O m L L ?' «_ L> oi C E m O C 0 C k m o U « > U U« > U U m h 0 Z m O Y y U m a 3 > L 2' > > - O p �`o' 3 -Eo a c (m' ° � o N 0 r? 3 0 w 5 (a`a > Q? a 3 Q? `m a W 'rma r ul > a F m E > j F 2 3> x ; �c e MMUa C a cQ- c Q S c cc M A L m S CO= S c 2 C7O>i> t0 -am2 0 m m J- 23-a43>_ Q - G C- n a a J = Q ¢ e' m N 0 to N U O U W w N' O U N 0 W N U N J LL (O a a N w i= m J_= 5' i m m m m y m m E -e ] g LL (n V ui tii m L m U m L m U m L m ?� m °L m L ?+ N m L °' J W W o 9 o di o 0 o ai 'L❑ ai a a v a e a a a a m V- G= LL U V~~~ N F F N f f N �- F C f F N F f w F E• O O N O O U O O N O O m O N N N N N N N N 0f L p m 0 O O (n m N pl 'D N N m (n (n m N N N w N �D fn Z O M M m M M J M N m to N m N N N N m N m N m N m N m N m Q H -O D 0 . .. d Z Z LL LL LL LL LL LL LL LL LL LL N IL LL E: LL LL LL LL z m m n m m m M m m m D m in m m m 0 N m m m N a n 0 9 z as a Q n 0 T z 1 M 0 M M a r- ER W Z O J U J Q U 06 U) W LU F- CU O N X U m W 1 N, C O �0 0 40 H 3 iYw M 3 C x 2 J 0 N 3 R I In M� V W .0 Q - m c 0 0 0 .0 0 L.L-w a c C wa N V N 02.20-am 0 -" m m 00 y m >>mm� a a.N 0 . CZcmO m°c ammm 0 cg m y a y m ma y 0 O m 0 o L y C a- m « 0 0 M - y> N O L a O IM 3:6m 0:8 ° O, X«al-y0m 0 N L 0 0 0 _ « --� U T M 0 'mO m W O Y Z E m_ y c 0 0 - o = IO N � m m X 'm o' 0) o m a 00 C C N z ?a 0 0 0 0>> C O 0 I O U m :o H 0c cOiZ axi a 0 m j 0 L a ^y a F- m L L 0 m j BtlIuW&SIIndPON O O ~ r 00 N¢ m O.L.. 0 a m a 0 or_, O'03.0 �' L '; m E C m m ENaO «Om0 Om> 0 01« J C C y 0= z L 0 01 C N O U N O c a N 3« L° '- -C co w y Y C0 ° On 04, =L 00,a.cn 0 000J N mmm0ELI--0°moE-- . --coo � Qm rn^ = E C ,L .t: 0 o- o 0 3 rn >� 7 c0m c¢'�3 Lm -Occ - a Na IE0nNEo 00m'0o°0 mmm I C7 C 'E m t y m y m `o 0 a0 a w I E o- 0 M W N .- --X C .aa,Ly mO.-0 Z 2 m .r. O N M-o n 3 0 m m F- 0 U a I VI dm C. c(;J"M C' MN3c OmT C-'mm 'ca 0 0z E00 Mac, �a a0 °m E((p�� ~ U) �m72 EO«T0 ONT�00m 0av0 U« am--,�« E m0� 'a X0'C-9 WM C OU-C 0nn yLmm 'O :. � yxa'0 0 -- 0«m moor Q R O= O 0 iI C 3 C. ` a p C "0 O CO R m C3 Co0 , E -v' a~ p'p E 0 a i I Z a O .O �' N m 0= 0 W d CO m= L y .0 - C tdoc0i000 6 n«Qcmm& mm3� I-Zm.p£m� o a �> 3 ysc w 0 y-. c O`0 0 0 0a c 0 E m m 0 0 M W e co N M O j M m y0 a _0 0 o c m > m .0 0 .y � rn o a a 2 LL - 0c ta0i F-a c O -- Ec m a c0i o (mi a 0 N V U O O `1 o v U N 0 '0 J Co m a ca =m 3 Q. I C? c E 0 U 0 E a cL- v0 T3 Cp m0 L0 m _0 00 ,C OL ON mmd 0'� u o LL' c a of 0c a3io 0E `°0c Em ¢ a o w 'Y A .L. O - C - N O 0 vOi C¢ 6 N 00 0 U -O C m. 0 m« t-OO m N U 19 Q N c c N O c O C 0 rn o c 0 m 0 L o op a I c .L 2 a a O 0 o y 0 m O= N Q E O m .O C y O 3 O '0 0 _� a O c N D c J L E I«' N L- C C E It O 0 E t 0 ti L C a m y p N .-r0 a .� m .^ U� N N 'E h m O) m C co 3c 3c cao'E o-0o 0�0 m o(9M X 0 y m;c y3wmEa �nE(0n c'o ��o m m rncn - - n C m= J L d 0 'iv 0 .Cu d2'0cm0 m¢3" 0n m Em Z 2 om W cm I y a O C m� 001 a W 00 > 'O ¢❑ m E cc y 0. m « J 0 M a 0 T 2 i0 £ 0 C 0 0 0 0 0 0 E '0 L¢ m> >> y m lO J 0 N 00 0 0 �. O .3 0mcsLM,>on w�ETVmvC�" -y2 -ia O! p y '- N a -- O m 9) d �mmt�°�'2mU(J/)Ua:aU) E2QY �Oim�373aCo O L� {L . . . . . . . . . V m E O O O d_o N vi LL LL LL 0 N= NO c o c v C 0 =' 0 N m m 0 m 0 0 W a H a 0 L) 0 0 O ai LL LL a C w n L L L c N U r 3 H O - a "0 C m O 0 y O 0 R 0 m m .__ N t o j J 0 :0 OUL c. 0 C C O O Y U«V O O T m O s o � m «O Ta0 m o, :2 a s Q mE«Y o ma O .o :� ` - c - mC o. _ . oc O'�;Y L O U O O O a O O O p V O a n n 0 0 3 0 ° O r 0 `o U o U r °? `o O 0 .0. - 0 o 0) 0 o y y m E a) m- u9 o C C O 0 U U N U rn E 'C C- - .. E E °3 Da '0m, v Z'a v ma i+ ay a 1Dcm'> �' 0` U di m U - .0 0'O 0 ` L m m. _ c m j- y> N M 0 F- 0 F- '0' O U>> O O U m O mil J m y 0 y J O h M 0 0 iE >: 0 > 0 K J m 0 i. 0 0 a 0 CI m=° U CL m T O M> O O - O 0 0 0 -v 0 C v' 7 ] Q LL O N N M y M .0 M M '� M M .0 0 11 0 m 0 y r �❑ f 0) LL U I e 2 o f y U Y 0 Um W U Y 0 Um Y U Y 0 Um a L 0 F c UE ... Ll10 O)o O N 0� O N y> 0r. + U a U 0 PS - E=ma E=ca n M0 -o vv am -o mO E- mO E-° <. ¢ o Em ac an O O C O N 0--' 0 ,r «am ` O Co � m aq 0C J nTod $ocd _ UQ a a '0 = m C N 0 N C of O m a > 0 I a �' W a O O M 0 0 0 0 0 '= O m O' c m 0 m U 0 0 . N0 n 0 7 > a M `' 0- S c C C> .- 0 N j C U C>- c 0- c Q. Co 'O 0 o y O n- = 0 E N 0 E Q h m CIO 0 0- m� y" m T0 v N v on C- N W 0 C- C U) LL C.4 LL a s C a N O O 0 O N ci = 0 0 M d - N m m m N m N J 0 0 m 0 Q C E ❑ m m F- - F- y m Ca y I> 0 J > 0 O m m � W 0 J'C d 0 U) dC- C .0. Umm Umm Z ¢ 0 Z Z E 0> O 0 y O Q m 0' 'a m 0 m 0 ii L L_C �`L_Co m m aMC ?C N Na m 33m >3m 2 m 36Naai >aj uuim x & o =� C = 5.2a-a 0 U 3: 5 LL N 0 N LL I m m 3 0 a . O a q JLLN J17=N C > > > ¢ o) N c * C ¢ ¢ U) 3%0o0 0ce ¢6 O0 C 0 O-c ] = c O0 M )'O> 7l m NEm 0 UZ m z ON !��E n I 0 m E n Z Z Z Z ° E y E a O l 0 Z m Y z Z o E 0 O (O z0 I iz0z I z a `o E 2 0 N z 0 �-'z 0 0 Z m E 10 O'O C m ,i = c 'e 3: > r r i h a C e v o a (n a m O m m 0 C C') 0 p } z}} E FLLJ - o 0 3 O V y Y m m N C m I izo 19? o CL it Q m ' Q O N I �)iri 0 0 0 m, a'' O U LL 0 N J y '. M C 3 m N O 0 J GO Co a } z Z}l-'s9; 0 'a ¢ dO) m r me 8 mWO " o ayi roa >mYZ } } Us Oc 0 E N U lL N '-00 W m m �- m o o 2 (n O O m N m° C I U O m a) m O m m O Z a 0 cc M °` Ca o 0 o CO LU ti NN N 0 0 Ca m m N Co m 2Ex z >` N O .� T° R m m U 0 c M c m U I® a a' C 'am m U 0'5 ` O W'- y L T m 0 Cr0 '§ W= QM W yLL -2 N O O O A -o M -W C C U> O` m '000°¢,M= V-m O n m >. 0 �_ 0 0 .� C lT0 a,C N m m L m m c EO m- m.a -.Ln oo°,00..c3>3 n Y C W� 0_ o.- m L - O o A c 0 c 0 L L 0 T= 0 m.cO W Eaomm me 0 0? X (°� m 0 a,c m m 0>�c0YiA Cmc-EY0-0-w O E0im mm0 co+ *0 9-wC00 nEO v000`0o,_coE 0? o rn(g y U U c ro U IL 0 R NJ �ovnn-000C, U a & c V y «O c 0 (i U o C)O U > = LL o 0 O O O C C 0 > m N N M o ' N N 0 C O m 0 y ` LL O C oM o o ma m > U O » ° ' o o �� a " O C O O O C ac UUa :O a A 3 am W > > a = u Cu O E E E d c > > W 'a 6 E E I 0 tl aE.k.x m o a N z 2 2F 2 IOi N It W a) E t F C 2O O ^^ L (a 0 n a I 8 N O 0 0 N 0 z 0 - E. Ll 8 � � Y m. a Y s ID q. 10 m Q, t E ? - _ i T rn .2 - - S� a 5 w- . @ s E.. ® . a S .`. g o V . KLL £ �. . � S - .' O ifEEW q 2 c m CO I. .9� �� d_T 0 !� E 3 0 & s W b m 9 c CA m . &e F-33a M d © � U � N m r O p O E3 W U n 0 O a c LL c O m 'c H'- s a O N LO O Z Z N rn d a aj a `o o'i 6 `om 6 c0 c0 0 L 0 0!, , I G m C m c 0 0 _O , 0- 0 m 0 Co m N« m N- a ° n o n o m 0 m 0 a= m =' E 1: w E S w m E c' E m E mEo mEo 3 a3 mOE mOE N _ - 'c y U-? OFN7 vc 0c amO amo c 0 Uyi O O m 0 U 0- U C O '0 O 0 .- O« ° O - O 0 O 0 -O im p ICo-o 0 « j« aom a0'O E E a E rn c E m w -o aZ m nz m y v N U _Tc _>.c N m 0 c ., m c _ 0 ,¢ ¢ 0 a a c C Of c c m O Ir C 3 _ m 0 m U �+ 'o « N N L N a s y a 0 0 Cp 0 0 0 m a C- - U N j- j .3 CO c 3 o -O m m N m Ol Q v °' c, v . -C 0 '0 m W C m -0 J y 0 m 0 0 O) �' E J E J .0. 0._ .E 0. m 3 0 o U rn 3 0 F m 0 0 y U 0 E c 0 E c y 'o E D E 0 c c c� c m a o V 'o c a a m o o S c Q - 0 y n ai as 0-'Ou U N a� m� Tim �m E t o =' m y m`0 m W - a W � U o m 0� d o E 13: E O J a m -, 0 E u c 4) E a c !/ N p U C U a c- a m -O U j O a r «O 'O N N- ai >_ ❑ c m _ m IT m 0 O m 0 R I U -x X 0 J ? U W m m m y 0 O 0 U 'O O C -`o O C > 0 C c C U E c y c m J �. V jt y❑ O m J O 16 C C O W C N n N 0 iJ "O d m L O c L O Cn 1 OlU 0 U❑ LL w LL, r0- 'J U O d] h n -O J O N m «0 Y 'O A n 0 N 0 p 0 c _0) y o1 0 C) m« �' 3 O IT O o' a J- h r a m m m m c 0 U m al >, m N n O -00 l0 "0 a L O- C L O_ N O C C c- C c O m d 3 m N F h y 0 N a C _ m n 0 T N O «O -- C O m« C o CO m 0 d O 0 d O J y 8y N 0 J 0 m U C W .0.. m U= E N Y 0 M 0 n N a s« V d N 0 N m y O .. J :- «- Z :. « y m m y- U U y U U C 0 mm m m m m- m > a m y o «>, 0 O >0. y � 7°- C J C a N m j 'v a o U a L p N N � "0 N y C m X C N 0 Y m N Y O >_ n y 0 y> O > L > O L a a® 6 O�® m m == v 0 > v m � a? C > d j c J 2 k w f0 a m m' aS E m o > IIIU W m.6 pU ? 2 2i o = ? r?U0(mi >>@c`4 m 3(Li3 �(Li� =u0i u'a' �y00 o ( >m�LLUC>L�1 ��~�fm2>�>_3��_ ?>>=maL 0aLJ�>00040 3mM2l Mm2 Q �� a' .' Q m> 6 m- CD d= J = J- J Q a 3p to > Q 3 C E C0a > m E N ❑ LL o O U- 0 J w N J .L. N v J J J J 'O Q O� Q= 3 7 3 m J - 7 K IC O: CC m m m m m U H LL y 'CJ H LL U) fall m y m N w In N v 3 n fn 3 r 0 W F F` � � ' -j -j ' 0 0 00 0U 00 0 0� 00 (aV N N N N N ITV N OMmy O`mm eo 0 oo me 8a. 0 of. � ~ O O O O N N N M M M M CmO M J n Cop W N J W Cy0 N N N N N N N N N- Z y N 0 z 0 N N N C 0 N c 0 N 0 p LL N O p LL d Z z z z 2 m m m m m m con mZ ma m mD con m m m m m m m m m a¢7 m a¢� m m mwm mwm m m�z m 0-Z ¢ ¢ .� .l N E t ci Ca M Em> E E m E E m - 1° N C c c E O O , o O vi N2�` o `0 m .0 m O m% 9 FV w E m m '� (m° "m U 0 y Qm Y L_. .0 C J >. 0 T O m 2 - U U m 0 m x u .0> C .E = U LL O) N C a C " m (j � » N-* -C N J 0 0 N = .. va /N��` 0 U N N 0 N U 0 0 O 0 0 N N = 3 V .. T >-Q E E > E a' 0 U 0 U > m o > 16> j o o , a M Cp O Q, U' U' m ? E E 0❑ 0 0 0 0 O D❑ N V a 3 C7 > o S Up E = m m M W y❑E ❑E O o00>>>0>>> >>> Ma L o L> w0 >m=03K�-U o y M E W M E W `«° m p m M N�` m�\ 0 CMp') N� m M N O n N S 2 > L 2 e Q M¢ S m -. N C O n M o O 1 U m C M-o = Q = Q 0 W m V V v J V V V= = V V v x 0 m > > _ _ 12 t m O O N Q w tiU Y 0 W.. y . m N o >> >> E >>> 3 E 3 >> E 3 U 2 �° > > ? m N ei v m K a E m o a" W M W> .. E E `.' E E 'x E E E> E> E E 'x > >> li LL J> > E o N m iIi a m `o U rUo N "UA 0' d W .mr d W C. N ] > .� .� > .x 'm m> 'm 'm 'm X LL N N m' x X a U .. J J ' J j m :° m Y tV N .0. LL❑ Z R Io o f (y 0 t y a E E c- E E ti E E E iL E E E 4 E J E E a O i a CL ¢ O ¢O , m m i N.o m` c o v C o .- 3 p>> x 2 Q J J 2 -0 Q E Q E � U U c =K � m 0 0« I .. O 0 U p a 0 o m U m O in EE(hE Eo(�EEE� ESE EnU)EE y C o m'm'mm co o w � >. 0C E LT« M M a m C a m c a Q U o Ip m 0 0 0 O o in O N O m O" 0 0 0 0 V O c O c O O m O E @ ,`,, M�-0 E O T E N 0 C = a E N M N O N N N N M N m 0 N o r C N- N- N N N 0 m C= ui 0 N ¢ 6) p a m O p, .Cm.. O K ,Cm. O m m I I m I I I m I I I m I m I I I m I I J J O m E Co E m m E Co E o a m y c m m rn rn a W (L O W W O U) (l W U) N Q m m m (L O w m o a O ._ o 19 M W a) E Ims C: 02: (a En m m Ca M N -0 C O U) U C N a- LL O J C M O C O 0 _m O m T M NN LL (a C _m 0) M VI CD *-1 a v C M0 W a� >^W' 0- Z (a Odf".m000L 0 m 4' � c m O L N 0 aL o.c E `a .c-- C C 0 O EoaO USN = '38 mcZ 0�0 m U) m Z N U C O- c c - C 0 y- m- n 0 0 «L `_ Q 0 T Q am 0" Ez V1 0« OF «O m m] O« y 0 3 E m E a "y ] '� 0 '� U Or-O -O U U N a m YO C C U lUL d O N T N o N m j E E 0 0 U O m L Y O 0 y y m 0= "' `p 0 0 m �'c I E °ac ❑'-Y _«cv7oiNct m m yE«m N 2 a l0 J m m O U m rL C U m 8 0 L m v Rc r2 -o °2 NOaEF-U� 00m°p j,JO O- No'o nn 0 O (� N i= L O m- 0 m O) 0 C ( r ul « U m O N '0 0 `0 3 - 'C 0 = O 0 3: N LL ..W aao ,0 Ommd �o0d cow c0 '00_ > ma p0a?aCJO ommc wcoaomm- =Z� O Z 0 Q- 0 0« m m 0 'O O a m 0> :E 0 m« v ta -0 u)E£.E E-- Ea)aam 0c W - z0 ¢.Z`�m ¢`0 C m oya�«mo3 0�b® 0 aE°ccm°a0 Q - O 0 j o y 0 O 42 m N C m 0 C C a O y LL y LL mC i ` U y a C LL I a 0 a m O U« C a 0 m 0 y N O c- HU Fu3i C. 0'D a> '= 0Ec c°i£mc3 m�a am 6c0 -0 o�domUo aoaL4 o-p 0`0 . Gm wm 0;-. LLc px�o �0nM-wxEaQO� y Ca C C C U as N'V -C « 0mO T NN o« mam Oo E Eac m«aco o �' n° co n M 0 o m o m m a 3 y- aOn% m (0� c o E 6 Icon a N � O 8 `C0 'C c y y O O OEoaE c� -a .L,,, ° mcLU �� d'o -oc E m0ac Td vm= w ¢ m 0«m V m 3 V N . 0 U a 0 0 0 LL ¢ 0 Ca o L 3 a o ° m O U 0 m C m 0 0 0 a y 3 2 'a .` C 0 m gcg:S IM Q g c L 7Z,Oma E 0 '`o E=a0 CC O U 0 a, a m '2 N O m ll) ._ O C H y Cd U.- �. LL �'n3Ln ¢ O m ¢ 0 0=- LL U n m a- M m U u' L C C m` F-.m m- N rmil 0 O) W C m 3 .c as I o� iE «m �- 2T mroao tMoLLE>y acorn d d=OM «._ 0 0 0 aI -0 o�o 0,I 0c 0 0 010%8 a o� m U '=Occ 0 -NZ'o T_¢ m IZ my `0 0 � c .0 Im 00m0E an m�$UL$ U ma`�0 Ir ooamn 10 ®m.L.. OyjO 0 OY ■� A. 0c i Qo.!ywo as>umm mm,>=$y0 /i C F, ai = a 0� C '�0yac 0 0 >- �'°'Em0 U'o 0 0 .c c�oocE V O �/� LL U) d (�% o N a m 0 Q 0 m 0 0 C Ca 0 0 C 0 m m C> :.i :�% LL«00>0 LL2>Uno a:-OmVEOw L L 0 O 'o O � 'O mm U > a c - O .= m v Q N U 0 z m a m . >. 3 0a E c OO 0 0 c 0 m T Cu 0 0 0 > cl� T o m m e 0.. N >i O C U U> 0 0? E T Y T O E m" c m 0 .0 3 I « � O 'm 00 M aom U mm O^ 0'Q� «p m l a a �w00c^ O C� E 0 m^ 0 d o O m LL g I W a® c I O N ry W E a- I =,a. v�- ys 0�' - ��0M} dc Um c0 0 C m> a=0E`om 2 ro�LL 0 0 nw m L T E ¢n `ca m 2'a 0m n� _ coE C'3 cJ 0U o c¢ R �` 0 _EFL-ti❑Em U a 0 W y �o a m° 0 O ! 0 O V C C m *0 .. U C U L 0 0 OC 0 0 0 0 ClL rn 0'o -o 2 N 0 m R.> a m-0o c�a c-3 W 2 FL-CCd Cfo WU {L . . . . . . . . aU O ¢ a 3 C M 0 Ca 0 aW . Q0- .o > 0 a x MI J 3m Q ¢ O ¢ LL N E O a m .. M 0 0 m Cv w 0 3 a 0 v 3 C O o C am C m C � m � O a`a aW 0 o E 0 m E E A 3 °' 0 W mot N! z 2 a n W 3H E-c a¢c O .y. y m _ a aomc a = a>i 0 _ I LL p '`-o°c'm ,0m _0 0 i -0 3 '00 r C n 0 -° c a L 0 .y N N �= o m m m 0 ` U hC{ m U« a¢8 N > 0 ° `p '00 -Q N 'ac Oyy Z"UJ L 0 0 v 0 a U Q «oEom 2LL12 3�EL0 cog 0 o M o 3 t c v aa�o �3� N 0 am 0� CO C p C 0 N O L L N O :� lT0 N E O U 2 {�0 ; 'm E c a m Q 0 ��¢mm .. w .a 0L�a3 F-00 L mQ a 0 0 m N Q F- L LL 0 'o z a m . N U O `m c p C C N O , N E m `m 2 m - N d m N 0 w M `o M a T a s c o `m m E . 'n 0 0 0 W N N 0 u E m m O N C Z Z f - N F 3 m c = . m Q2 � 4 a U 0 X 1 O N > F o z O N O z 0 0 a o N � ` l c s O s ' 0-O O rO O - O o I `0 m J N 0 U1 O 0 y 0 O. 0 O_ N K m «O O N t0tl 0 3 C, 0 3 0 c an d m m ¢ rEi Q o o r o o y 0 a 0 n 00 N ti U y0 O` O E 0 Z O L >= L m ,C) 0' 0 U N n o a a� 3'0 m a0i E 3 E 3 c ❑ g N v o (yi °� °� m C C O 0 0 0 0 y 0 O m O O a O U O U R a >.. Y O O p ` O. N � EEno U cE °a 0 a 0 0ai 0 a s a n 0 M 0❑ m mad mN O 00J 0 >. `f U y a 0 m 0 c "C .0 y y O a W s a m � �' a0 m y m i N 0 ,y 0 m y O L c L L 'O w « J « m= m m m O E C V 0 0 m= o y o ` C -o .3 a a 3 or E 3 £, L r 'x a' 0 a O J - 0 `1 O' L -O L D° d 3 U 3 3 U d L c .3 .3 Q OE.-. *r J Lm -0'i ac a 'oa 0 o U U a 'm am o 03 m 1 CC0 m a 0 ¢ N M m �M > "O J n -o E y y O- O y N y Cmi N O_ C w a C. 0` 4i N 0 It c n c m U m U �0 in O 0 � m R 0 M 0 D 0 y 0 w z m 60 aLL - m O O m C 0 O❑ O- U 0 a m G y O) > 3 m O -O ] N L C .0 ui N m 0 c m '� 'x a -° S, o° o m o o .� p, c a m c 0 0 m E c w m 41 co t OU o c N 'C y - C � O a W L m m N i a y" = a C C O_ a S] C O m 0�1 0 *+ O 0 3 O❑« - E061Z a d m ¢ com m «0 am %'•u a«0i E m E E m r m a:? � o O mOaO mm= N 0 0 m m 0 U) -o C o rn °' rn 0 aai , E 'coo I m o a 0 0� w m m y m ami m E U E E 6 16 ¢_ ? a 0 0 � 0 a J a000 m'o P3 J S 0m d6"o �O ¢s'om wE EN m > m m '6 ^3 om Fa' IL ¢ ¢ ¢ C =°c _� coin G a- a te -a«' m � V ° c 0 S. 3 o N a t[ E¢ 0 m E ¢ t Q l-. .. ^ w m oo oo Q Q y i a s `O a O d Ca :JC -ayico J U� 'd .. ¢Sc ,Eno In Inc0i oy ocyi jo Q rnE ¢E QE o0 o o In In O Qs 16Qmo O 0 U 'l6 w J J LL W U U mi m C � U m M N 0 V O O N O O. Z m m d z y E c '- >> U O F. ¢` 0 m m 0 a d 0 ii 0 0 0 H f H F a ii N r in w £❑ :c a3 -0 0 0 d O y a`) = b.O z m m z 3 N m m N d a 0 U 0 m m 0 U) m N m = F O y Q F- F- Q Ua UO . d 2 C-o 00-o-o LL LL O Z-Z@ a a O C]-O- °C] Ow2am¢CC . . . a N o m CL W= a) L M (1) 0= Y (a 1. *0 0 a 0 O *0 O S d Rom` Y 4) cc Ze C cme am Z 0 / 0 E my C .O O *0 7 � Cc if t i LL C y 0 N 0 m y 0 O m 9 0 - L n 3 ro O .- v m 3 'U W O s m`O 'O - a c. NN ymC X m m O �N = V � L c LL LL N N c '0 0-C '> m N N m o 0 d 0 m 0 M > 0 o y = o N Q JL. a m a 0 m a .L_' m o m Q E m v v a cL, c u3i o M-a (� U J ? O E 3 m N f N c � � c- 0 0 m Q T o O �. ti au -.0 0 O a ° °0 om J .a c L n c0 0 o 0 0 O x 9 m" 0 o F. c ¢ ¢ M 0 m m a 2 0 m E d c I u E d W m o 0 C -It CY x 0-O �'O Q 0 - m-O m 0-a �. O 0 naafi n Wn -� a a6EO -moom O °10 ram❑ o a$ W O v Z' 0 O E 0 m" W R c E? ` E n m U aU E I E o .O � 0 I I :a> o � , Y F aym 7m o Cm f m O1C > b E GM O yN m VO) t01 O ION N _ O _ mCC N .U) O p C m 0 m C C U d a C `0 D§ m N m d ¢ F- F- .d c a �--0o my We = 0 m5z0 ¢E0 U Cl m a: Cr aNmNm'maN00am O'o�cmz�E U NI Fn3NN3o in-0Q'a Q Z=_m-00E a " N- m m 0 0= 0 E Q :5 c 0 c E 0 m 0 M 0 -O C O co d- .0C N C m O O L OE a I0-o `o0M 30 mm C' oa 3m o a m c Ln o m 0 U c m m d m 0 >+ a« y a.L oo Moo- aEM L"c0I c'Om (0i md�'E cots rn0, `o a�>m 0EEm y C m O CCOO a0)a« mmm 0C'g Oam V0y„0 CL O1L ¢-0�0 L00. aC�= 0C'-m 0v".=0a wa0� yo OIC'-oE0m .Oo UEE rn�>0 zaa- °a-0°c 000t- 0-«- r E O 0 0 Y'V U C 3 C L COn 0 «O n O N O o U >O LL a N y E O Q¢sa 3�-- « 0 i tAcEw 00 000- . °m=oa OmLLc am 0Ca 0-'oo ILL. Zzc- 0- 0m8»' 0-`V.- Eammm-o - - l°-o>'0LL 0 'Cd o« C 0 m N m 0 0 0 y 0 0 0 C m T IO U c E n ooEom0w0a0>="m cO m mmal000Z 2 c yCCM 00 0 m3 y-C O ` NOymm caD30 jaa0i� 0o10 a, Erw d oE0y0 avi maxi c o a - o o n C Z 0 a> a«« N N .O, 0 E y y 0 0 c Z« O) 0 O Lc.V VO Z3=2o nam= C m000 LN-"U? a F-v«m0 ❑m�'oE F-oaL° ¢m000E F--30. O «Cc N J O Cu c- 0 O m N m Y ° ° j'O T-U 0 �n 00 m c mo ` ° 'o m a o 0 Om 0 ` o mE o co0 o oC� o a Torn E ToCmN 3 U0a U m- 0 0 y Cm c c c 0 Z c a" mO =0 1 y -T 0c @c L_ C 0 N_ T O O 0 00 {j C U c- 3 J t > o m 2 N c O N n �' c0i L 0 C= 19 LL N 3 C m t°0 0 a-'oma P o >aa -TO 0 a Z c .c M C- c 3 0 0 ° Ca I c o ao'y C c 0 U m a O- 00E O __ 3 y a _C « (� U �` y E C U1 r p' O+ O U 0 m U v H m b. 0 0- 00 0 m-'03 m d 0 0E m o y o E v a 0 O N m 'O c U N N U 10 0? >` R 0 3 0 y i a L` O 0 0 E 0 m m O C c> E N 0 U¢lt¢° 0 N U d m d aQN>:- mLavU s¢mw N. N W .y- LL lL U n E m 10 C16 +I I g ENWz) c 0a 3 m m a . LL-o N «O U 0 0 E v c m O N m N m0 0 m y J m 0 co o. am 0 c 0 a L- a zz�N m ^'' m w^ a 0 Q & y M ly m X 0 E� o c m O W N x o r t NU �E m O U m. 00Eoo m c0 m o m �;? S3 Om . o U W Mm'm>o--m n con 0 o ,It W ' \t 3 m mm '_m Co ¢ IO a Lv' +��-o m C O y y E T c ro Om N x o '_ _ U A y ¢vm.. U N O «O y F- V WLL�.O. CLL � C E C Oc�p (ON r E m �I �, 1�\� ` •� ! I) N- m m y D y m m m U m W R 0. c m N m O Y 0 m 'O N U) a LL a o j` Nmv O_ C o 0 a lY O O '0 0 O�Mam -r = C CO v O m« O m aLL ._Z O �, N __, C nO;t G � E- (n N I a C C« C `. " m E -O U o 6 0 W' N C LL? O o m > O m O m IL 8 M U 'w U 0 0 0 O' � O. a- In m ¢ Lo r � M m a L W N W -O n N a% .O O O m N E rL' N N Z O. y° C m M N (n 0 R y m -O E E E m m m 0 c-« +I `0-' 0 0 C_ � O Q a N := C M� LL m m 'm Q E C m m m m U' O N «O = 9 C U 0 N D F- 0 o 'O 0 U ,= - N O Z O O 0 ti m- -O E v Q 3 o m LLtY °cN00 aIp C 0mw a O .n� M m - `ate, Qc E f0m0 am v� -C M.- R orom -o I��m oW .O m 0s f� -10 , 0 o-°vm N o ..n va"mom 00 Ems a0 N� m 0 m� E_ o 0 o co.Z`a EEL p1 C>o N o �o o« m ® En m� O1 m G] U (V V N V L .0 '_' C '(0 T" m r 0O '' O m 0 c_ Y_ V... 0 O O N O O m N 0 a0 O'er - m C >. M L {, �I m L C N Q Q !D m m m m a E° E +I - C "O a N y. N a o m NO , W, ,,� Coo It to C `) sw >> � C 0a id m a 0 m o 00oe �0C_a N_ om0 m w00 oa 0(:) 0 y m" ,gin fO v m... F "�' - W O 0 0 - O' N a J C CY d 0 C m m 0 0 m m E N c a (n y N O M U' LL OI O c O LL i:. - m / i m m ....,a O N O m N^ O 0 0 a0-o m J 0 «C C O CJ m� N:-: > Z o m 0 I' 0 y F_ y .. N h W N N U O E 0 a O 0 'O O C O O C C m -�� ). O m 13 ;' 2 m R V= F N N N N O N m C 6 0 .' c 0 E m m C00 O N .0-� O n n U m 0 N m m 0 E _ m 3 O c- 2romm y mm in EsmOLoE o v 00c ymm ..UN-"' a'cm ` m mm �. -� 'v - 0_ 3 co O1 � o Io 2oo-0¢ _o m0 C ,n0 J-QLLs 9.a¢ °'m �Onm __""'..�' ,.x;' V y3 r omo m mOC>7 m mU O:p EOm; � 00m 4) oa ui Jaw Ulm U)¢,<5 ma m�O- I-I, m 0 W 0 IOO M N N m N M>i a N° M' a0.¢ mZ 0 -- N C 0 0 0 0 m U m .� Jam. LL m V) - co o�N I- 2 E m m m m 2 m m¢ E m S m E 0 a -0 3 0 0 m E Q 5- (Di ... . . a Zm - al 0 a❑ C m N 7 TLL c 0 0 0 N'- O Mz. o 3 F-. =mzma2m arc _ _ m V C¢ n C CL"O ° C 0 :-ooc 0mI In.ac mmoo� cmQE`0 a0i_0 y-mmc 3:. �Z �,- 0D�Ev=oL c' w.o3am EEc'` 0c -o 030-5 C-M rcF-m -p�mmv 0a-E c'x 'o Ocu - 3�m a>>¢ U) 0 o'- `0 a m w oF_ m 3 m E v«L -ca -a .«c c 0- N._ O C 0 0 - 3 ~> 0 N m m C1 U 0. O c '- �« .E Ln U n E 0 U 0 m E 0 y N 0 U C m O a C y 0 0 I C m C=¢ m O° Cyn m 0 V ® y, C 'O m W Or 0 0 0 w L y C O n N O m m C c O> N n m c o 0 a 0 L 0 0 O U C m« E ._ pp c 0 d y 0 m O OI N 0 0 G O- N L E O LL "0 � m m e x E 0« O o L n L a E o �' n« 0 rn E o o N 3 a C v T 0 «04 .O > m¢ CO () O F- 0 0 a A C° p 0 C- :° O_ O y 0 �' p N F- 'p D 0 - L N n N 6 0 0 c~ ~_ 0-c N 0 n 0 O.0 N m m y p w a J O 0 10 0 U 0 m Z m y C C m 0 _ n M CLO m L O Y L C N O 0 j 3 O _y 3 c M 0° O U m >` L 3 0 V- L w C -0:a 0p E 0 T 0 0 0 0 0 r- m O yO"U LL m F- c¢ a O c D a m m '0 =- m 0 y C m >i L ?mu01m .0. mC0 NC IU 003C-o J`~JL 00E0a cc OM -3y 0Nma NVL E« CaN Noma O-NOC 30 aIy 9EM a i Tw- Lmc o��ysLO N �- 0o$'a m+°y Lm�w m0E-oiac o'o °OC oYQ� OCp 2 0m.=mE ym0 0 0 T` J m« It c > O O' V y« m y N m m y U y> C m" � '- >- C a mmCO c00vw > >po (i OO 0 `0m=0 00-wc2«30 0>0"0 0E0 U0 aLLO 6 Mm U E 'U 0 U O 0 y a0 N p¢ y L _0 O- y a m w -O 0 O a 0 m 0 0 m ¢ F- U O j m "' X m C 3 m m '0 T 3 0 R I = m o o m 0 N m 0 C a T m U, C 10i1 m o U 0-o m N n~ 0 3 0 N r 8 0 � LL m N E m y 0« O a a C 0 T 0 C O 0 X m p U 0� >: C m� � 0 y L 0 CO 0 a 0«'O a- a°' O C.r W 0 10= _O co m a y of aOmn y a 0Jam J LLL 0«=CO m E 41 c 0a O O-a - E m m"O m >i E� o m O 0 0 m ow E m' O rn O c �o V E O N S E -- .c T V 0 0 0 N O O .O ` 0 a' 0 0 m 0« '_' E I E m N v O a m U C Y w O-- 0 E m 0 0 0- '0 L m E a Ol E 0 _ c �60M `mL V o .'03pcm (0 W=t 000)a rnOL rnm om'�- UyNO LLoo3a oo°coo°EnmoaEiLL9 m-.c.¢'Q aOi cL 03« Lmm w c x o c «_ m a c U1 0 3 m -O a O 0 C U- N O O C -O O C N I°n a C r a 0 0° 0 ' m 0° E y m T c a r~ C m CO T° N Or c m L. E O U~ 0 y 0 L m C 0 Y y E; U a m N v N E rC m 0 0 C 0 O 0 O m m O M 0 a C O U m v 0 Z C J 0> m >= 0 p J= 0 L_ 10 0` O � m� a 0 L m m .D U O .0 O m C T❑� = 0 N E v L m 0 O a N v m a .0. O« a« E a ti y 0 L m- O ti j 0=- 0 n - m L-� y > N ... J LL> 0 r=� 0 >T U L O U m m m O n 0 0 a m n W J T C m 0 0 m m} a m a- - j 0 >: j 10 m N c O E� T U 0 y 0 a m V O m O- «0 « N «O 0 J U 0 0 m J '00 C a 0 ° ;n m 1oi1 0 0 T E O" C m J c U O E a J L a J ❑ m m 000 - m N co n N y .. n ,--16 T- m 0 0 L 0 '0 d 0 0 a O O O C C' o y N m N N a c m N u 0 0 0 L 'r O ti 0 3 L 0 0 C O O' 0 0- 0 C 0 >; O~ 0 10 d L j O T Z 0- 0 e C 0 0 0 y C C O 0 0 "O V N 0 =' m m w O E E> E O Co C .O N O' m OC m C a 0 L-' n >� O O O E-O an d m o0 « N a C 0 ei J C� (n m Y � m 0 0 m O1 V« m m 0 0 0> m.- "C a m "o U L '= 3 0 - C' m '- O Cn O O O O c m '- U 0 0_ n 0 a c o) 01 U C 22 m 0 0 '6 m a o >` = N Y Q -« U "O « U .p - 0 m L N 0 m O L -0 0 C .O m CO .0 ., U 0 3 CO m «O "O O' INO r N m ` U O 2 0^ 10 a U N m N O or m m C C C m m L- O y g m :6 , U O O ♦- m m C0 0 p -O .0. L E Y O y _m m a 0 °2 V1 O 0 N U O O ` .O -0 :_ � -O j 0 V >i a: m m 0 0 0>> m a O U 0 0 m rn E O O m >> m E O. 0 c a 0 E y y O 6 0 ,_ N N a R 0 y m C m C~ U U E 0 a C 4) 0 C t L C m j E p 0 m c�� c a w j y 0 1 � j M cop LL N Q I lal N E- U L 0� E o 0 o L c 0 0 o m c r L c L m� m m C � Y lV 0 'o T O C- 0 0 0 0r._ m m_ "' " O L O" M 'in a "O �' 0 O O N CC m y C` O J 7 0 O) 0 >i N y I N« E E r. « O C ....� m m F- .« m d Z s m m m z d N N N N i0 N 0 0 a Cp ".C-. a O r' 0 0 'O `p O m 1-6 V 'X C C N O O m L.. m m x 0 0 N m j_ .L... c r a y d- m T C Ec- 0 y=m> ya'uoa m�000m 1p00yo6 ovcm-O'0>�c OOLmE 0o�co EomU Im ccm d gnaw L`o+0 Lmo OE Oa0 0 yc C.2 ocTm�a 0 LM-cO L-M- 0 -Z¢mc moL F-0._«rnF ,R-aF-L., E'u, 0.-o:::c_ o0..v mm!-Nma3«0 F-m301- F-m «a m.�m¢LLaOm U.. 0 U Z' y C cd 0 am c '0 Cd U m m I Ci o 0 _a00 m L -C ,.°-� 3 y O O «° 0 0 0 O C y 0 a G m =- Im N U . v aco 7 m y m M w O 0 H U m 0 . . c y m E O m Q. U 'j N Q m U C L O p - C ro m m D comp 0 A N L ca a z: 6.0 m o a m m py O m I O O N U ' Oc O n E ° U o O U m " M v u m 0 U N o - N C a 0 C C 7 N 0 I ° U aA N y > m � O V I 00 T O Q O 0 C m C r30 T..w O sW Po- lo ~ �w CpE; fH m� O VH CA10: e Wa I. C m m E N N O m a n U Q . m d o C O c C m m m 0 m m O C . n O U m o n m C I 0 O 0 3 C O n E ° O O tmU m O C O. j v U m w m Om p 0 c 'o a o p m U Q. N ._ m Y > 0 E O 0 y O � O Q O c m C r30 t 3 T, m W N X �- - r m e of N 0 N N C E L O a.. 0 O z i 0 U C O 'c_ 0 O LL Irm. Mz O l,F N Cm am rn a' n W 0 I- X m r m a 0E U and O �E L O aC - O z a c U O O C m E LL O M� CA=a _= � isa 'o M W I O O 0 a V r 0 I 0 n M N N c I N O N rn W 0 0 I a 0 i m N 0 T D 0 N 0 a O C) N T z O 1 N `m N m M a T- T- I LL Z O D U 06 U) MI U ro; 0 > m U O L u N L 0 > IN+1 O X N E N E E N E N V > O V v V m E O m V B¢ O m E ly = T C X v N. to ,-vo C `v m 0 0 l7 'o l7 ¢ c E o 0 O o m N x W J C O 0 C 0 o c o= m E V N e = � ru oo v v � E v K a E co ¢ � v E w E 12 a v M v Ir `w rc E a v v H ¢ O a ¢ H ¢ k V v v 0 LL v 0 0 E" » » 73 m ¢ V O 0 0 T m m V x u V In .L.. m io m m x X X x �C)� 3EEEE V X v Uhl j V 0 vl •n In In K 2¢¢ m ¢ ¢ ¢ rnm o o E E E E E m N ❑ m C v > O u c v m 1 a E a J 0 O > O Os co co O O � C O o CD I m w c m IN as d `o E O £ v U w E' � m � d a 3 o z > o m N as « L 'O U c v Q1 � E � ECL •� N U N f/1 V FLO (n c M, a a i = m w E E s- O C 0 n y O N� M « o « .a coo 3 E - C)a M E E v CV)N th 0 Lq F « o 0 en m N w r C1 In y FL m 'O O N `I r y F- F- M C a` ❑ v si 9 0 s m c ' o C E 1 I� � q �vv4 N I � m O � N T v h C 0 = C ¢ a v A � C T 0 V ? �F $C N a+ 10 'Jp .➢ "'Yy-YIYiY1 > Q C v N N loi r 0 « T E v O C U o c v L.' � X v Ow w 'M `° g' v v a E u O o '^ vi m m o' 5 -O v v -0m -° -° O O N- OYJ " O N to m N ` Y L V1 m 2= 0 C O' v M O ry C N O mtr v E L 0 L L L C O L C O C m tC O N U O U O O IT O E _ U N° N IU OO V _ C> 0 U V r0 ` w u 0 R O C U m Ll N aJ L w N O V �' v -O -O V v u C p_ N NM m O L-fao_vv vT o cO O E E mQ O u (Z -5 Us E u E v o NG E T E o V N U C N O O , N O' N u O A -F,V> vE oo 0 m � N E E ¢ ,0 o c c a aE O °oao > O° V QzwvY_,a U NEvN o vGE E 3 v M C o C oC° o o c oE U o m o f E a v o F =O 1- o y u F- o I- �a c 0 61 O O O O O O O 'Q U y U U d m U U U U c a c c c a c c 1= Q Z U Z Z U U Z Z z z C O > > EE cq >M Um N N y> U>I [>l U>m.r OU V OV» O NmJ N N N Q_' 0 K K a� _� V c� a LL ca aLL ca ca ca Em D OIEB 0 C) U O Y N E.Oj M N M OM N 1- N yc 7 m UW ¢ ¢ Q ¢ ¢ Q ¢ ¢ Q co_ m E .o: m m as n N c m 0 ° Eu = Lo 0 -o o �% x n c 3 'o N 'm o m L° d a o In In Cc W E U¢ U mm m E 0 N N N c j n y m as as m 0 -0 j O 3 of J -1 m O O m m m o 2° m s C m Q¢ d c m c¢ o o o U)p c a d d m o j J X m m O N W = J as U 'f Q Q Q N O 3 c IL U C, Is O °- m Ion a L LE O O U¢ Nw m me O Z w` L Z IL IL Q 0 m U C a Z m ;. X X a X X C V J O an d p an d o m aas 3 � 3 z, o o as a d m Q ¢ N as O c uric EE E I1°n EE 'oU F Q onx m m t U Eq E m E m N y vi `-°> O E na. E 0 m cmi m c n 3« o cm0 m o o m :0L o E N x n m> U - ZI a C)° m U c v U i 0° `m mg m m °o c Xv T > ❑ a o o xd' ii O. Cc ¢� �a 1 1 y �m a ma '3 o �m mxo o mo Q m E O O O L m o a m N c L u1 m y N >` a 3a0ii no' LLQ E�x LL In N O o E��i C cE o 0 E O ` `o E U N {0 O CI C N d OI m LL W N W0 m C 'lJ lL O L lu Ey3 N c m:-:cn aE CU N m O �� 3 d N , N�� M a N O1 N m J C< aE ¢11° �a voi y o •-°1D ��^ 0 C �� ° N e o?¢ m.-X .. y I o ��^ m C> O a m y m +' rn ¢ a 0 w >> xm c< N^E rn e c in ._E cmimc m o E oc CL m E y as c a y N � d J m a y m� a� v Z p._ rf U U' C m �+ In m N C1 a`I c�1 a C _ i1 m m a E m N m N U N = p r m CL O E O W N O ° m 6 U U a LL Q .> O i E c ->' z c cN n w =J U) d E E m n° aci m in ami GI 0 0 0 >> Igi U W xrN c W�c E ENS ami u O `o m io 0 y 0 ENr Of maw . �a w a a = 'L W f ❑ N L U .- 1- 2❑ � N Q in Z 5 Q a Us r x o N Q m o 6 vi L m n m c � nN a m N N ° o V a� d xx o a - c LL =m as 5 m m O m c a 5 3 v' O U m m o i T c J as m N O yU U N U O C 0 E o U O O U_ m L C a n J a 3 m a N 3 a V m N C 0 � N :_ 3 c �'� N Z O a a o U W dry U C 0 C y y U U m s > m jO N o o z o 4 Ts E ram° 2 ~ � m 0 Il low sW O � ~ �w Co cI�I� z► m �w IIIIIIIIIIII my O?� CA z e WW r' hN Q y mo m n 4 = m m u m o m E m ¢ my d x O C a - C QL = m 05 02 0 0 0 m m £ � N a a S o u 0 c p 6- N 0 V J _ N O O U NU E N J'� C O � 9 E o 0 U m t 0 a c'aa a= J 3 0 m « E o : o c a m e Z p O O U C J N VO N Q C 0 m Y > m J O U N a c Q E m= s3 F j m > E 0 Cm O Cw r@�w r �w m� CA Wa m t:1) m U U c � m m O C N oa ° _O N C E v L O O. an d as m O E ° E m �' E U Qi y M -O0 O � � U y v C cmi o E c o c O o E o E E w o 2 C X- o o g` � m� , m o AM o a cN 0 G1 ° .. ¢ 0 mZ a 3 Q Q o Q Q r G y m oI O i N C,E O m ILZ LL IL LL LL U W Z r� x m = _>i. >.a�6E0 m¢c co c S m m L .� m = J U m m 5 O m m «a w d � c V N r W O N C O O y m «. m" 3 m m o �,..-o c o 0 0 1 o 0 Q+ p� E aa0 mEc° E c,COaV �ivc no `o rn o '2E ED °D m Um`��°� ccc aU m mC C 1. m m 7- N °Wm_tl E 6 2. m.- m m yy o w vi �m oax= �c y E�mmrn°odo wy g m -MI-> m E v`3 of d��m�mrn W m N L UO N LO E 01 C '. «IL _ m 0 L 0= O C` C Ji _O m i 0 C d 2 m c ❑ L v m_ C7- m ".O N v a 3c m `m .0 O n o ''o m� « 0 W 00 « o X 2 ��o Rm o ENO`m¢It occ°' C cc o 0 0 ^O E Z.m Ir ¢ as a o . L (0) mms"N "' m Q 3mmmro -o mo O• mm m F>, vj d o - - m - m m� ui Q o ei 6 LL c t R rnro�v Qm �mEasz0E vm° Q EL E N n h c E e « ¢ m coN O mmNm �La m �Qn�Ecd m.mUa '0 dE ❑ � k m> a E 0 m C y (p O L L 3 C N U C -0 O) 0 O O O^ m cmi .am Up O m w c a v E w o °m' o Q >.- mN c` m E N o0 o n m c.a R o c O v o cm E cq to w as a C y U O 0 O OI 0 m Y C m o m Q as L E-O0 m N'..mC A N O N j L -00 ,�O 0 0 O) C 'N ltl N LL� a ¢m > v c m It •c ui o "c oYom ayim o ¢_o To3c°i� EmE C19 OS NO Q Z y Q U U c c c cc o 3 c v� ^ O c '- ._. v v` y z a C " m a m e c o r cmi 0« o W m e N o 3 > U 0 m ci aE ~ m3mm a^E �v �vl`><v°« c.� Ip v Us w umi p O o d W W u U U e c " O c y o -`0 c a H -U N o> o¢ c°i o J m c= In > o om,1 rs N v y a a j m y m u a G C w fn ` a rn Q Q _- m y m m o •I LL XO L o N m o v m m m w m O m N m c� c� R o N v Q �> c^ o E° E E E f° E o `� -• " ._ m e co a U Q - -0 L c a c m " M m cmi m' « m $^ v 0 0 o w o 0 o ti y o Q- as o m o 0 o m o m= ` N Q O c ¢ c- m p m > ° p fJ m U a U y m m >,o4i>,cmi �' E E m E E £ E a•O aciCn "a.�«y-�olujc8 _ a0+-mcE'�ac LLDM;6 y Oo3 JJ�wwui4OtO oorn F-J- xmxxx J'%EE N cmc�'w F-Ey W�m60 c as M) mL CJ ma »LLV I IJI I moOZypom>mmmOmm�E�CL'o❑NOmN C� moo 0L..�rn O1 a� E o 2 O m U. Z¢ w H 2 C ci F- a LL m 2 ti LL o« :- o f H 3 3 �' Q S m o .'Q!iOOW■�'' YU.mmm>«.a°eOc 1 .1C¢. C3mmmamm �v=m% " tR01Vc LCm'LmOmvmmi �O' '«,mm N aN �CmmR .C�O md O4 oy � m •O cNNX3cn�XO°3Fd0 £o3.�ju�.=gy0 CC0cmi m N m E 0 N OS ENC^ N U m Yt mm 1 O O E CU N mTOE U wo H E o M N E N?C m OoU n 02 O as w�m 0�c o O m Eo,OC O .�C40m�d as bi E p m O E E ac Lm NZEYU� ®ECWOU E COUypLm O NO= 0` F- _ =O -1 U U O C N dcCa`Zl_Zayn' ' yN U C m .- y o lmE o m 0 C« N m m m c E w 0 3 C O- Le 0 m W o >«�m E'm>E c mm.mTE mo cEE E o -y>oU c E o cmx mmo0om 'S oc8 mo-0L_ o C) ° nE m O m E) E O' 0od m J N Qmo 0.y ay E ma0)iE U rno U 0 C mas `- p Nr N Tm m E N 0 0OU Oy ?N 0 as EO Y , =U z 'Ey d �c >cx mm^o'- i c- 2`UOm W m a❑E>E E yUmy�c�LL °o2Eo o �maamNm°a Q mo o dmommm o�moo« cU>m�ooE ao° Iz �?Q y co nvY aEno Qwt0toEm EU-m 3y° as �oy mEaoy ro= av mEn° *0 m LL aIM GLLJ °EW�j dap a acaa Dm ZE 0_�OOLo$ mm_c z3o�oo m 0mvc ° 0O O mmm ou am m « noo m ` cm 0aNcE o�En a. mO1Qmomca�>MLL a �I ❑°❑LLas Eaoa .cUQ ma nornHm.y❑ sEtE c-= ❑ cw >'tm0 12 E o,vmN W dE O 16 N EMo Lo E,m>EN nlnoym cmLco w Um o Nvm c O cLLLL MOmE3'Ea«otic -LrW'n om`-.S Z u❑EH ' LLI F r�mm rri as o v ..: m m m 1o' m m E' TU j°cm oo>"c >�m cdo yvacvMs 0 oa o m= 0om m m >>�E'-Em 0 WT,O� E-'m col 3 m m' m m O to N" a m w Ts m; c m 3 m« .3 v L m E> as n n y U U o NOb'78 c o v m 3 m m o N 0° O c � « 'c c U m m o ti u l d myO n Q•C m NOE > y O Ol � {\! I�imz comJ`m'umi�m omm3o«« m`m-" EE vi v c Eo o \ y'm U 'cmimcov`c��w m3�m0- mo�C) 0 0C) t U as n 01 - 03a L "O '- 0 c ryj U C Y N 'O -- r O 0 U« N c U >�-� c m.= N r O O c N I N': 0 0 M a.-, MW N.O Cm a O aa� « M. LL c L 0 O W p �m-C>yy001 °y�Oamr md�'U �. N In 0 Vl N c t c om E _ - Q C 3' m c a �L m2 c y m- o m- o c O � m e z. �>•mr.�«m�.y 0 >ac�£V.v ° .w> 1� ••a m> o ui o m E E a` _¢� °mt¢£3o�0-oE$ao0Q O amino❑ U m m0 m v t W o �I 0 ma a"'_ m _ 13101A .- ,.3 2`Lmx UIs: °1mZ•`°'0i� ~ a�a0 � p �'- ei ° cNo roi, v a -°o l� �, :`\° co NOW— m o� m J �0c 0 2 -ic m G> u0 c W` y o co m INS ` J W U Ol LL m �'j � 4 A ca IM T LL° 4 Q C m C IX C C m •>r U C' F- - ?c- Ecls com°Q ��-=Zv Oommm Orman tmi�m�E iO me �� m M0773/E o�cr«y.Ei�E '� om>'mocW ^rco ,� .a G G C c c ins wo o �N� �mmF-i.vmmQ Q. oEEo�yE Q gNno Q• p. oy m E cN t mPamlm.mml �'� U �O p O C O a "m0 O O y C 0 TO C CI o > > > ` m _v C LLEu=c3°'a o �'Z'°�Y Lii 0'!_ E CL a`Im x x x J E E min m Do mama m �X ISc m«`mc°'-n_ o-O 4` mo E E • FF--55 3�n clmn� � 7voE>!^Q0 LL was E z <M' 'sm w H 2 Do 3 O O y m 0 «' N m� E X X U m N N m c L t° m E U 'O > O = y o d u= o a- '3 as a a &I('nm5669 2 y m m C O C _ N y m m m� 0YE❑c2 a O £ o c o c E 41 y N I Z C J U U y U !D U .% m Ia W o O.�mMo0 m m Q, o`° .O c y y nS=- d' c m O EooNLo U ❑ w 0 .y ....0 !O z E E m IM m m ❑ o w L U m a v i a CL c gg a LIE55 deg ^ w omm Ema al as M ❑ aJ o o xro p °o 3 �S�§ T Y m ao'i m U m ° J, a0 . c M o m J o iO ��q G ndA m`L❑!�y In ¢ Ins u coN c Lr C omm m pm C: LL ?€f3 i v Z`cn = o" -,- g m- E m w \ c O a d c d 3 O T a a�Lm-. oc o'er Eo O I EOii rEo a E o °Um1 Oo0 _ c$ 3 g` 1 is €• "•i 9 o Z c o ma ` o >. ~ 0 m e m L N o v n C 0 3 m E_ c O of ,,Uov Q 3 o o m o Ada mm li v S�ye$ ! s= �a LL U m w Q m 01 m cmi .mm.. > Cisv` u m c n ui o �. ami n ¢ m a" , r c4 ea. al- > E n W= d d m a W W o W 3 ti A ui v E o a g E m W a O m a Q o a c° cLi o C > U m m as ip In m r ac v m ❑« N O O m C 'O «- iu m 7 m m C c o �iUomEmt -� o u oc m Q^0 p co cm.0 w .ma m Q �U m'cLW o¢ c_ mrnm d v cm� I =' m >> Lomo"Jm E m� E a m= in '9w oa me -o o c_«mc E x�I `mc x J E E ENN mm a xi= �. O la >> m O m 7 N ¢ aE LL W o maotF- Z 2 Q E r2 W F 2 0 N LL _momc aw odayic a`1 �` omm EQ==n- ° 3 a om mloaE Cd UTumi�c'�m �\ ® E `� o U Iri >>_ aO E U m a s w U F- m m o o a `c m n'm m J � `° m ! �n r J 0 m m m m 0 m Ea a (Cpp y- O- N r .O a m " :.. E-a x E E m y U U Q'Y CO 19 O Q j N t '= O° m° L m 0 vi U U O n 0 m .. O as CO .52 coO U m« m m L C m 0 Vi C 00 L- O❑ 0 a�mE� o�� m❑aoE yy m� E'cm'>=mnE m ;L yv �m«mdcm o0Z3=� co ram► j zui a>i°N >,mE co n m^�^m �� o�min Em'U o"m> .c m m m c` omr3nY��'s o. 6E as 4) Or a wO OM)yvm C mU«Q> O� EE as`Ny OUCL y.r N 0 LL O'OT '«C >as as as 0 _^ E c y m a o�- r m2OO -U-nL mO 0O� E'O OOO� UC��mCm �mZ m 0 m« aO«mpa0 yyy�Cm M a E' _ • LL >aas �yo °�2�« -0- 0- 6 "E_c nom� �a o m In oc «mi 0Om0 w>>�a�tl C� = Eam"E�ca=m m E, OLL� as5 W Ec= °cm« 7 o m as cc._ amj acN0V Liss, m .l°.as omo oo°L� oo� �c � mrmO1m acirn G oo cn o.o `or «L'�a�a 33omom 3 me Z'mE -o y� °>>X E�x vvm -O 0 U:E u¢ascycv mm m E -Sim rnm v5 Eoas p1 'o d.>o, m= >> 0 m N l0 m ^^ 3 M N N m N V > C W C m t U m i CO r O E E m c .o o L �- O o E" E Z m i.> Emo00 vr. r-'cEim mm h`U v'ovc c�00 a'om r'mo �> mvaLL as''oo i3mdErQ« Oo3ma�a Q a O 'c m o v m L m E m y rn d _0 �> m e my m um, a a' E rn o o O C O �. LL 3 as m° o «� U U m rn V N m �as as as ' o c 'a g -0 m 0'O°m c�mc °i Om v zL "MOO V cc o C Ea m 0 m m m m EO U m O1 « m N> C N !n L o o «. a m 'O E` W N C J m 0 0 0 3 S> « a m y V E ) N r r i E a m L O m J U 1/J _ m -° y as a `O an d U .O ? m m O c o y m" Q O :� m 0 m C m m Q N -aml `° �= v L X = a o- 4 o c m iO+ mcaouaE.��Nv�ia„QEm¢mo��oE>3tis'� r cEEmcUvOmE ion«VyF.y QEEi.cw3 = C v I,.', m m c '- Eo 0 2 m O C U m r m �' N cf)L 'O O U N N O y O V O W I W A m LL j y U Z y D ^« N a O d iN O 41 00l°100 �� ENo° NmU ��c mc"acia>iomo in as n.� 2 m Do Jo1m rc$-moa>iavo g mdaEam �iL 2 a LL_�oa LL,�¢ U.E -E LL->O LLom ci I�o`o rnvmco LL F-rnE>❑m�E �L ZwOomE v O CN LL L LOZ/E2 • YS L609-NO — b 0 b a6ed V;o E 96ed - L LOZ/E/Z • V:B L609-N❑ L I.OZ/M • V:91609-NO -1710 Z a6ed 1110 { a6ed —I I OZ/E2 • V:91609-NO woo'ia!}!{ou'mmm '8 L LL-M, (EOZ) :XV3 ' L91.L-V9V (EOZ) :9u04d 'iaggoN loelU'o 'u0gewjolu! wow sod SNilSA4 A1I1VS1 'a0!lou;no41!m abue4o of 109!gns we suogeoyloeds 11V syuawwmbai lie aled!o!lue io suogeoildde o.1!oeds Be ienoo louueo aM 00® 'ejamooe pue elep-ol-dn uopewjolul lonpoid ino deal 07 Ail eM 'sesodind uoilellelsu! jo} pasn aq of popuelui you si yuawnoop si4l 'pellq!gwd Allouls si luawnoop s!41 }o esn pazum4neun -PaMasw slg6u IIV 'out Ieuollewelul IIaMAeuoH Aq L LOZ0 'out Ieuollewelul II9MAauoH }0 iPewepejl a sl ..11nil0auAS PUB sxjewapwl pwels!6w we (WelViloadS pue OH31dI1ON 'janoo uo bu,Njew n3d/3yld ene4 slapow ,,V. P91sil-3ln 'ien'o uo buPliew-LH31V,, ene4 slapow l83IV- IIV ano0 uo 6u!>liew .003nd. aney slapow dS- IIV '(janoo uo 6u!>liew .3uld,, ou) 6uisnoy uield a aney slapow d- IIV :SOION (Pat! '0114M) xog Moeg lunoVq aoepnS IILm joedwoo 'lu•J88S `IM088S '(pay 'al!yM) xog lloeg;unoVq eoepnS IILM'Iu88S `IMBBS -(pay '91!gM) 6uly wul IISM lesjanlun 'z-ui Az-ul 531HOSS330V '(pay 'al!LIM) woH loedwoo'(V)IUDH `(V)IM•JH (Pad'al!4M) woH-(VhHH'(V)IMH SNaOH '(91!gM) ljolV 'sual jagwV 'IILM'agoj3S'lu3IV-IMS '(al!4M) iH3lV 'ega3S 7u31tl-ul0-IMS '(POH) OE)3nd'ogalS'dS-IuS '(pay '91!gAA) Weld '9ga3S-d-(V)IuS `d-(V)IMS '(Pats 'al!4M) ega3S loLdwoO'(V)IuOS'(V)-jmDS -(Pau 1e1!4M) Pay 'aga3S-(V)IHS'(V)IMS S380u1S 77VM '(Pau '81!4M) OE)3nd '9ga3S uJOH 'ej!M-Z dS-ItlZd 'dS-IMZd .(Pau '91MM) uleld 'aga;S uJOH 'anM-Z d-(V)IHZd 'd-(V)IMZd '(Pats '9114M) agalS woH;oudwoo'ailM-Z'(V)I11JZd'(V)IM°JZd '(PsWRILIM) agalS woH'aj!M-Z'(V)IdZd'(V)IMZd S380u1S NUGH 77VM -spajop 641ls11 jot s64115i7 A0ua6V aaS 6upagel gouejd pannbai apnioui 9001Aep paisg-mn :a;obi u01jewAo;ul Burl ;onpoad penoiddV &I swoH IIeM ZL99S - sogwiS IIeM ZLSSS - sagoj3S uJOH IILM l L017S - Pals!I-ollVln 'snlels 6ugsg Ise;el jo; koioel llnsuoo 'ssaoad u! aq ALw bugsil jo 's9ioua6a lenadde unniao Aq palsil aq Lou Aew suoi; Mildde io selnpow uiepeo'seseo awos ul -saolnap sauas-1 of Aid& molaq slpnadde pue s6ui;sp ayI slenoAddV pue sbuilsi-1 Aoua6V 60/0E/b0 • e:Le69-UP - Z }o Z 96ed woo-lal}IIOU'mmm B1 LL-17817 3 (EOZ) :XV'L9IL-17B17 (EOZ) :auo4d'jagpON Ioelu00'uo!lewi01u1 wow sod 'V'S' n ay; ul epew 'aogou lno4pM ebuego oy loa!gns an suogeoyioads NV Swum A111v88 1NAINWINNYW 11NININIIN3 'sluawwmbei Ile aledpgue jo suopeo!idde o!lpads Ile ian00 louueo OM 'aleirooe pue elep-oy-diuogewio}ul yonpwd ino deal of Ail eM w�AnA oO O \ I 'sasodind uo!lellelsu! io} pasn aq of papuelu! Lou sl luawnoop si41 V \\\777 'Pel!q!gwd Allouls si luawroop siyl;o asn pezuogineun 'pamasaj s1g6P IN oul 1eu09ew81ul IISMAauOH Aq 60OZ© out leuopewalul paMAauOH }o mijewapeil peiels!6w We ®H3IdIlON PUB ©iosuaS walsAs (601. L-NO Iaags Lisp sauaS Sd aas 'pai!nbei Oml) HV 0'/ '110A-ZL 'AjGUeg :OLZL-Sd '(££69-N(I laays Lisp sauas IV13 aas 'pannbej oml) HV 0'L 'lion-ZL 'Aialleg :OLZIlh'8 uamod joloalep allows anm-jno; buuol!uow jol Aelai Gull-}o-pua OOA 17Z/ZL :L I1103 'alnpow uogdo OVN (), 91AIS) V ssel0 :V-OVNZ -suo!lonAsui uogegeisu! Pue 'Q0S86'9 x M£8'9£ x H V9£ :u1o1 C SL'Z x MS'V L x HA I) ainsoloue 'sjewjo}sueU 'pjeoq 8nw!o paluud u!ew sapnoul 'Alddns jamod ia6jego alowei OVA 017Z 'V 0'8 :39SVZ-Sd03 'einsoloue pal ql!m 9SVZ-SdOd se aweS :u9SVZ-SdOd 'pa;s!I-Oln 'anogL se aweS 39SVZ-SdOd -suo!loniisu! uogellelsw PUG '((OS96.9 x M£8'9£ x H L'8£ :wo1 OSL'Z x MS'17L x HSL) ainsoloua 'sjawjo;suejl 'pjeoq ;mono paluud wew sapnloul "Alddns jamod jabiLgo elowei OVA OZL 'V 0'e :BSVZ-SdOd suo!lonjlsu! uouellelsu! Pue'(fO986.9 x M£8'9£ x HL'8£ :wo1 0„9L'Z x M,.S'VI x HA ainsoloue 'siewiolsupjl 'pjeoq lmw!o paluud wew sapnloul 'Alddns jamod j96jeyo aiowaj OVA 017Z 'V 0'9 :39SVZ-SdOd -ainsoloue pail 411m 9S17Z-SdOd se aweS :u9SVZ-SdOd 'palsll-O'ln 'anoge se aweS :09SVZ-SdOd suo!lonjisu! uoquileisu! Pup'(I0986'9 x M68'9£ x HL'8£ :1-U31 0„SL'Z x MS'VL x HSL) ainsoloua 'siewio;suejl 'pjeoq 1!noj!o paluud u!ew sapnloul Alddns jamod ja6jego ejowej OVA OZL 'V 0'9 :9SVZ-SdOd u011eulJo;ul 6ulAepio PanojddV Wd . 3-ZO-66E :V3W 93Z:8Z00-9I£L :PanoiddV WdSO (08SVZ-SdOd 'd 09st z-SdOd) S£9S :Paisil Oln 17L9S '969S :Paisll In 'snlels builsil Iselel jol Ajoloa} llnsuoo 'ssaooid ui aq Aew Bu!ls!l io 'sa!ouabu IenwddL uieliao Aq pa;sil aq Lou Aew suoilemidde jo salnpow uialiao 'saseo awos ul 'luawnoop silty ui pa!}loads selnpow aql of Aldde sienwdde pue s6u!lsil asagl SIVAoaddV pue sGuilsi-I AoueBV 'swalsAs welV and jo} sapddnS jamod LB17L In (apow tapuudxe OVN) swalsAs wmv and lo} silun !ojiuoo jo} pjepueis 179E In apoo wjLIV and ILuogeN ZL WAN :spiepuels 6u!mollol ay; y;!m Aldwoo 9S177-SdoA Pus 9SVZ-SdOd a4i sepoo pue spAepuelg 's6ulUas g3jms dI0 BIA algeloalas si (xalua0lo'Nool -aagM 'josu9S walsAs) adAl ouAs ayl 'apow , lomiaua6 ouAs„ ul 'slndlno OVN s,Sdod a4i uo saslnd uogeziuwyouAs egoUs ail; }o ioleu!6uo ay; s! edod a41 7sy;eH 'pasn Lou Big sieu -!wjal ;ndui ouAs s,Sdod eqj ,:jojujaua6 ouAs„ L se (sbui31as yol!ms dl0 eiA) pain6!luoo Big BSVZ-/9Stz-SdOd a4i ua4M 'Alddns jamod ja4lo jo dOVd weajlsdn us wal aleu0uo saslnd eqi -leuiwjol;ndu! ouAs s,SdOd a4i le wasaid saslnd uollez!uojgouAs ega;s 943 >Ioeil slndlno OVN s,SdOd a4i „'jamopol ouAs„ a se (s6wy -Las gol!MS dl(l e!A) pain6i}uoo si BSVZ-/9SVZ-SdOd a4i ua4M 'SdOd a4i of sayoelle sagwls leuoil!Ppe ayI 10 bu!wil 4seil walsAs Ileiano ayI suielu!ew s!yl'unj anm OVN 6u!ls!xe agl uo saslnd 6uiwµ uogezluayouAs agoijs Bull („moll'}„ '9,1) iloeil ueo 8S17Z-/9S17Z-SdOd a41'uni eilm OVN a }o Pus a411e Pellelsul uagM dovd a43 Aq paleajo sit, yoiym iamod OVN ayI uo saslnd 6ww4 }joys AjaA 6wjol!uow Aq sigl ys!ldw000e sagwlS aoua!ldwoa VOV jol walsAs a43 u! sagwls Ile 10 Bulwl; yseg ayI aziuojyouAs of Aiessaoau s! 1! 'suo!lellelsut awos ul a;oN AojeAeuaopaNlopoj ou/(g '(sje}aw O}8'8) jea} oog'et o} do io seauelsip le salnpow joliuow pue lojjuoo 6upeool to a/gedeo aie sdOVd a/gessajppV :310N. 'alnpow loiluoo algessaippe 941 of jamod SOP!Awd SdOd aql ww; lndlno jamod Aje!l!xne leool suoii!puoo algnoj; SdOd esuas of pasn si alnpow joi!uow algessaippe ue pue 'SdOd 941 aiBA -iloe of pasn si alnpow joiwoo algessappe ue 'aidwexa iod suoileo!IddL snouen ui ainloal!4oje walsAs buipuedxa al!gm dOVd ayI wwl Aeme ,seouelsip jalea6 le Sd0d ayI 6uilunow jol smolle Apeo!dAl siyl 's;mojio aoueiidde uo!lemplou dOVd a4i gBnagl I! buijuA!loe ;o peoisu! Sdoi ayI OIBAIJO12 of salnpow loiluoo algessai.ppe asn :E aldwexa 'sindui SdOd Oul to gloq jo auo of dOVd ay; woj} ind;no algenasai ayI builoau -uoo Aq palealo sip slndlno Blgagasey '914ellene Big suo!ldo iamod algellasaj-uou pue elgeuesaj glop '(8SVZ-SdOd) V 0'9 of do io (9SVZ-SdOd) V 0'V of do jamod walsAs IIoA -173 paieln6aj Ajeil!xne puedxe of SdOd eqi asn :Z aldwex3 -imoj!o aoueildde uogLoggou ayI g6nw4; dOVd ayI Aq pasuas We SdOd a4i uo suo!3!puoo algnal sin000 uogenpoe Aluelod-asjanw ua4M SdOzi eqi GIBAllnL g!m sl!nojio aoue!ldde 1JOW011Rou dOVd egj'aldwexa jod -(17-OVNZ 6ulsn) slndlno (Z 91AIS) V saseo inol jo slndlno (A 9IA1S) S saseo ino; of do asn '(86tZ-SdOd) V 0'8 jo (9S17Z-SdOd) V 0'9 IeuoilippL up jamod aoueildde uo!3eciiplou puLdx3 : L 9ldwex3 suoi;eoijddt/ 'HV 9l :Al!oedLo AjaULq wnwixaly V S' I.:a6jeyo luejmo wnwixeln} 69 69 178 46!H PBPOOzHN 1, E OL 06 06 98 46!H PBPO 4 E8 E8 LL mod lejodwal-uoN zHN VE 18 68 69 V8 461H leiodwal-uoN zHN VE 1L Ze Z8 9L mo7 leiodwal zHN L"E 9 98 88 Ee L161H leiodwal zHN L' S V8 V9 9L mo7 jejodwoi-uoN 17 06 06 SS 461H jejodw9i-uON E £9 E9 SL mol jejodwal Z 69 68 48 4611-1 jejodwei I HMd 00 00 8P walled punoS -sod SIM CE-9I, S110A S-L V9 (V80) lndlno 380H1S NUGH ONV NUGH :Viva lndlno ONnOS ONV S3NOL NHOH 1,6Z VEZ 66L LLL 991 ZOL LL ZVZ Z61, Z91, I 9EL fill ZL ZS 991 £6 mo71u00 WE 9Z£ 179Z OEZ 17OZ LLL 1£L VOl 19Z 9OZ SLL LSL 9£I 06 69 Z91 66 !H luOO HL'E 9LZ ZZZ 991 991, SVL 06 89 S£Z 99L 091, EEL ZLL 99 917 V91 1,6 mol dwal 71L'£ 179Z VEZ 96L LLL SSL SOL I8 ZVZ 061 1791 017E fill EL ES 99L E6 !H dwel>I L'£ E9Z SEZ L61 SLL LSL VOl 6L 6EZ O61 Z91 6£1 6LL LL LS 991, E6 mo7 WOO W3 91£ 179Z 0£Z LOZ 981 SEL LLL Z9Z LLZ ZBL 091 6EL 176 £L 991, 901, !H WOO W3 LLZ EZZ 981 991 9171 16 89 9£Z V91. LSL EEL 1,4 99 VV 179E E6 mo-ldwal W3 L8Z VEZ 961. LLL 991, LOI £9 SVZ 961 Z91 ZV1 LZl VL VS 891, 86 !H dwal W3 Pa 991 Po SEL Po M Po 96 Po SL Po of W SL Po SBL Po Stu Po ui, Po S6 Po SL Po of Po SL Po o£ PO SL HMd 9L :Indul HMd SLIOA £E-91 :;ndul 00 ROA 9'LL-8 :indul 00 (00 Sl1-SI) 39NVH V730NVO '380u1S NNOH 3ulM-Z '(SW21 VW) MVf1O 1N3Hu/10 XVW 7n VS E17 Z17 46!H PBPOO zHN L'£ 17S LV Ell 46!H PBPOO V9 6Z HZ mol lejodwal-uoN zHN I'£ 17S E17 Z17 461H lejodwal-uoN zH)4 L'£ V9 ZE 6Z mol lejodwal zHH I'E V9 LV 6E 461H lejodwal zHN 1'£ 17S ZE 6Z mol leiodwal-uoN 17S L17 £V 461H lejoduial-uoN 179 ZE 8Z mol lejodwal V9 1717 6£ 461H leiodwal 21Md 00 00 8p mailed punoS SIM CE-9I, 8110A S'LL-8 (SWu VW) MVNO 1N3uhm NlIOH XVW 7n Z 0 l a6ed — 60/OE/b0 • e:LZ69-UP 'OOA 91Z :a6elloA a6ieyo-leo!d 'Aluo sauageq p!oe-peal spoddnS :llnalo 6ui6ie4o (Ajeaue) jamod Ajepu039S -wnwixew V 0'8 :SSVZ-SdOd - -wnwixew V 0'9 :9S17Z-SdOd - :(apow iopuedxa OVN) slndlno Ile jol luej no weal -pops le;ol -wnwixew V 0'9 :BSVZ-SdOd - -wnwixew V 0'V :9S17Z-SdOd - :(apow euole-puLis) slndlno lie jo; luwino snonuiluoo !e;ol -j!na!o euo AUG jol wnwixew V o'£ -pajuln6w 'pejeIN OOA VZ+ :S11namo Ind;no wnw!xew Vw OOS jamod uogeoydde '!;loads :Indinp iemod AjeillxnV -00A 17E Ie V S :6uiley laeluoo algnal '(A 91, - 6) Vw 0' L :Indul lad '(A Z£ - 90 Vw 07 :Iueiin3 jaMill . OOA ZE 016 :a6elloA Indul joBBijl . 71na!o lndul la;uoa 'uo!1 -elnsu! A 009 43IM (Zwwo,Z) 0MV 17L# wnwiuiw :eziS oil 'wnwixLw V9' L 'zH 09 'OVA OVZ :38S17e-/39S17Z-SdOzI wnw!xew VZ'£'zH 09'OVA OZL :09S17e-/O9S17Z-SdOd :iamod (OV) Aiew!jd su01;ea1;1oadg 'ailm (Zwwl'£) E)MV ZL of do a;epoww000e sNoolq leuiwjol ad/4-dwelo 'pexid . -seueUlq ja6iel 6uu!nb9j suo!; -eo!ldde jol go;lms dl0 Lin polgesip aq Aew jabiego Ajaiyee . 'sal -jaiiLq HV 0'L 6wsnoq to algedeo lawgeO 'sau9uLq HV 81, of do bu!Bjey';o elgedeo je6jego Ajeueq lekaWi sepnloul 119M (auoH Aq ®�J 31 =1 I .LO N L9Z ZZZ V/N 991 60Z ZLL V/N 9£I 6LL 917E V/N 011 SSL lZ1. V/N 96 9£1, LOL V/N SL ES £9 £41 OE 09 £17 89 SL 21M3 00 00 plePueO SIIoA EE-9L SIM S'L V9 (SWM VW) m ithfa N3uuno 380u1S "kv in e}ea /lneaa ;ueAAnp -in '(0986'9 x M£9'9£ x H L'8£ :wO) O.SL'Z x MS"17L x HSL leuigeo 6u!>I301 'loedwoo ui pau!eluoo-;les . 'O0A Z£ - 610 96L11OA ia66ul;ndui sannbay . pemod pag palLlnbejun pue pajall!lun 6wpn!oui) lino -i13 u01Ie31}!Lou Aluelod-asjanaj piepuels-Ailsnpui ue senl -!In yoiym loi;uoo wiele ail} 1798In Aue AllenlilA gl!M S)iJOM -Aelap ino4-Z a;e!pewwi jol algeloalas podaj elgnal OV 'uogoalap line} 43jea alge;oaleS . -SOVN puL'AjaUeq'Alddns iamod pasinjadns Allnd . ALlej algnal pasolo-Allewiou O-wiod . -sluaw -ailnbei 6uilWil-jamod 7n sleaw Abolou4oel bug!wg-jemod . jamod p9iall!Up9juIn69j 6uuinbai slejayduad walsAs jeylo pue 'siolLiounuue 'siopejap allows anm-jno; 6uua mod iol 1ew!ldo - Ind;no jamod paiall!} pue p9ieln6ai Allnd "oml pue ow jo xiw a jo 'eIgegasaj-uou '(pajmbal dOVd wa} Bull IBM) 'algellassi :se pain -bi;uoo aq Aew sl!naio jamod lndlno 'apow ouole-puels ul (L-8103) ALIGj uo!siMadns-jemod ILuo!ld0 -gBnayl passed sleu6!s !slndui papoo ylun alq!;edwoO '(LBbI in) apow auole-puels ui lndlno snonulluoo (8S17Z-SdOd) dwe-9 jo (9S17Z-SdOd) dwe-t, (V98 -in) apow japuedxe OVN ul 'l!naio/wnwpmw sdwe £ y;!m 'Ind -1no peol IIn; (8S17Z-SdOd) dwe-9 jo (9S17Z-SdOd) dwe-9 . 'SOVN (alnpow 1,-OVNZ 41!m 'Z elf4S) V ssseo inol jo (A 91AIS) 9 sselo inod . '(apow auole-puels) „NO,, Alluau -Lwiad pedwnl jo (apow japuedxe OVN) OVN dOVd wa} peia66u1 - sl!naio ia;uooµndui palelosi-Allnl om; su!eluoo . .Z 96ed uo alou aaS -(Ilnelap) dojujau96-ouAs„ a se jo „lamollq-ouAs„ a se sa;wad0 . 'saoueiidde „ZiapuewujoO„ xaluag 10 '10018914M 'josueS walsAs 6uisn uollez!ua43uAs OVN Pals!7-in seAnjeaj 3891,0-9d0d Pup 39S63-Sd0j eqj 'O8S6Z-Sd03 Pus 09S6Z-Sd0d '8SP0-SdOd Pus 9SVZ -SdOd PjepuMs ag1 of sjalaj luawnoop siq} ui pasn 8S63-Sd0d pue 9SVZ-SdOd swjej aq} 'payloads asimjagjo ssa}un :310N 'Peisll-Oln ale O9SVZ-SdOd'8 O9SVZ-SdOd 'saua3leq HV 81. 01 do 6uibiay0 ;o alqucuo ja6jeyo Ajageq a sule;uoo osle 9SVZ-/9S173-SdOd a4i 'algegasaj om; pue elgeaesej -uou ow jo algeuesaj lie 'algeaesej-uou lie se pain6guoo eq Aew slndlno inol eyl 'AIeIeuj9jIV '(alnpow uoildo V-OVNZ 41!M 'Z OAS) V SSBIO io U elAIS) 8 sas!o inol iegl!e se peun6guoo si!noj!o aoumidde uoilLog!lou ino; of jamod OOA VZ PGiagl; pue paleln6ai sap!Aad 9SVZ-/9S4Z-SdOd 841 -sauosseoop walsAs ;Ion 17Z ljoddns of i9mod Aieg!xne jo (uo1juZluago -uAs OVN pue swouicu nbeu V0V ljoddns ol) uoisuedxa (OVN) ;!non' (Ileq) aoue!Idde uoileoggou apnlou! suogeoildde Aiew -ud -sailddns suole-puels se pasn aq Aew jo (dOVd) laued laluoo wiele Bill 31oA VZ jo eL AuL o; pa;oauuoo eq Aew BSVZ -/9SVZ-SdOd 9yl'j96jeyo AialILq gl!m sa!lddns jamod alowei Big (dwe-9) 38S17Z-8dOd pup (dwe-9) 39SVZ-SdOd 041 jJ0A-bL dLuV-8 V -9 l3/�)BSbZ -SdDd V 13/319SbZ-Sd34 OL'11 oqujo0 uloH L9'S S LZ.9 - 9VE oqul ;oedwo0 C' uloH;oedwo0 souLMe-la seves-1 'PO 06 PUB PO S L 10; Aluo leulwou A Z L Ie alejado II!m sionpoid OS Pue 'Od 'S 'd 'Z 'slndlno laued PUB Alddns jamod awos uo pasn s1 le4l aoinos jamod 6u!Ajen -aw!l'pejuln6ei-uou a s! a6elloA (yAgd) paggoaH aneM Ilnj ' L :sGION (0 wwZ9 x M ww99 x I wwEE L) 0 999Z' L x M SV'£ x l 19Z'9 :Suoisuawl0 woH loedwoo . *3wwZ£xMww6LL x 7 ww £171.) 0 „SZ' L x M .L'17 x -1 .9'9 :suolsuawl0 uJOH '(Oww617xMww99x-1ww££L)0X6'LxM.917'£x� „9Z'9:(sue! Buipnlow) suoisuawi0 IunoW-IILM Ioedwo0 . '(O ww Z£ x M ww S a X ,1 ww £17 L) O .,SZ' l x M ,1'17 x -1„9'S :(sual Buipnpul) suo!suaw!0 lunoW-IIeM '!DMV 8L o; ZL :a6ne0 aiiM Ieulwjal Indul . '(Ieu!wou A 17Z) A ££ 019'91 jo (Ieu!wou A ZL) A S'LL of 9'8 olnpoVq ouAs £101N :eBueu e6elloA Bullejado . '(ILOIwOu A VZ) A ££ 019 L io (leulwou A ZL) A S'LL 019 :Z96uey a6elloA Buileiad0 . '(PaggOw aneM IIn;) IUAAJ /0(1 17Z Paleln6w jo 00 ZL palelnbOH :66e110A IBMUJON . 'puooas lad ysel; L :aleu 4sLId sgojiS •6u1suepuO3-uou %£6 0101, :a6ueu AIIPiwnH . '(0.6V of O.0) j.OZI of j.Z£ :ain;ejadwal Builejado WePue1S SNOLLV014103dS 7V01d10373/7V0/SAHd 'Alddns jamod papoo a uo a;ejado 1ou lleqs elnpow ayI '!oiluoo Aegl sauoz eqj lie ez!uagouAs II!M ja41abo1 salnpow uoilLzivayouAs ajow io om1 6uiuiego Asia(] 'sauoz ald!;Inw aziuojgouAs hays alnpow aql 'l!nOjio (V ssLlo) Z elAlS auo jo silnOjio (e sselo) A 9114S oml lojiuoo osle IIe4s elnpow a4i 'xoq Moeq .a/IZ x „Ili, j, x „a/ii17 a of }unow lIm4s alnpow ayI -seu m to i!ed elbuis L jaAo slapow agoAs woy uo swoq ay; eaualls ge4s elnpow eq; 'sagwls ay; huge -jado el!gm 'oslV 'amyl ILiodwel le swoq pue zH I le sagwls IjelViloadS ozivayouAs IIe4s alnpow egl 'ao!Ajas anlloa;ad Bill jo; panadde eq IIe4s Pup 179V In o; Pals!I £l0W }apow pna!o.ouAS a aq 1Ie4s alnpow aye ainpon uoileziva4ouAS Alddns jamod papoo-uou jo papoo a uo ejujado Bays slapow agoj;s ujoy uo ujoy a4i '4ol!ms uo!1!sod eld!llnw a Aq ;as we suoi;do aseyl -ujeULd (snon -ul;uoo) Imodwal-uou a pue ujo4ed aajy; lejodwal a uaamlaq yoi!Ms of uo!ido us pue suoildo A4!1!q!pnL onµ aney IIe4s ujo4 aye -w9jsAs joloal;ej/suel paleioosse pue eqn; yseg uouax L ;o lsisuoo IIe4s ILI&I agals ayl'a6uej a6elloA bu!leiedo einue s,agals ayI jeAo zH L le buigseg 'saoupedde 6uileu6ls alq sin jol sluawennbaj loV sag!I!ges!0 43IM sueouawV agl ql!m Aldwoo pue aoue!Idde uo!leoggou 6ugLu6!s-Aiewud a se panm aq IIe4s agals woo agl 'aolnjas angoalad wi; jo; panadde eq IIe4s pus 1,917 In Pus LL6L In o1 peisl! !epoyi seuaS-7 e eq hays egals woy eqj •uollewgwo3 ogwlS woH V LOVZZA I. • V: I9809-NO - Z to Z 06ed WO�'lal}110''MMM '9 L 1L-17917 (EOZ) :Xtld ' L9 LL-17817 (EOZ) :euoyd 'iaggoN loeluoo 'uo0ewio}u! Blow soil SNIISAS A11111198 'aoilou lnoL !m 96ue4o of loe!gns we suo!leogmeds IIV 9NNB7e6NW 17NAASlle3 'sluawainbei ilia aled!ollue jo suoiMolldde oi;!oads Ile jaAw youueo aM /�w 'alainooe pue elep-ol-dn uol{ewiolul lonpwd ino dead of Ail aM oO V O V I sesodind uogelle}sul jo} pasn aq o1 papuam Lou st luawnoop s!gl V V 'pel!q!4ojd Allouls st luawnoop s!41;o asn pazljo4lneun 'peniesaj s146u Iltl .oul Ieuollewelul IlemAauoH Aq 17Loza "oul Ieuollewelul IIeMAauoH la >IiewapeUl Pwelsl6w a s! ®831311ON ('sod Z) LIOIJEUM uolsuGV3 :MHO 'einp(g IIpp 6ui;unow aseq IGAIMS :d0H0 -ezuojq )lisp 'palpoo japmod 'xoq >loeq }unow aoepnS :a88H0 'ssejq 'paleld 'xoq jloeq }unow aoepnS :888H0 'awa4o ' palpoo jopmod 'xoq > opq }unow aoepnS :Od88H0 azuaq Njap'paleoo japmod 'aseq IanlmS :08SHa ssujq 'paleld 'eseq 18AIMS :88SHa 'awa4o 'paleoo japmod 'aseq IaA!MS :3d8SH0 ezuojq iliep 'paleoo japmod 'ejuld 4oluo :Od3Ha ssejq 'paleld 'aleld 40Ie0 :8d3H0 'awa43 'paleoo jopmod 'aleld 431e0 :3d3HO 63/HOSS300V H3670H H000 0113NOVWOH10373 ezuojq liLp 'peleoo jepmod 'Pa uolsu9P(a S :aS3H0 sseiq 'paleld 'poi uolsuaP(a S :843H0 '9wa4o 'paleoo japmod 'pa uoiSUSIX8 ,S :Od93H0 'azuaq )lisp 'paleoo iapmod 'poi uoisuaVe alge;snlpe 1,17 :aVV3HO ssejq 'pa;eld 'poi uo!sualxe aigelsnlPL „V :8VV3H0 'awoiyo 'peleoo jopmod 'pa uoisuaIxe algMsn!pe „V :3dVV3H0 'away0'pa;eo3 japmod'pa uolsualxe „17:OdV3H0 ezuojq Niep 'palpoo japmod 'pa uolsuaP(a „£ :0£3H0 ssejq 'paleld 'poi uo!suaP(a ,£ :8£3H0 awojg3 'peleoo japmod 'pa uolsualxa „£ :3dE3H0 'azuaq iliep 'paleoo jopmod 'pol uo!sualxa „Z :az3H0 sswq 'paleld 'pa O'I9uOWB „Z :8Z3H0 'awa4o 'peleoo japmod 'pa uo!suelxe elgLlsn!Pe „Z :OdVZ3H0 '9wa4o 'paleoo jepmod 'poi uolsuap(a „Z :OdZ3H0 ozuojg ;lisp 'peleoo japmod 'poi uo!suaixe „9, L :OS' Ma ssejq 'paleld 'poi uo!suap(a .9, L :84' L3H0 'away' 'paleoo jepmod 'poi uoisuelxe alga;snfP8 .S' L :3dV9'L3H0 sway' 'pa ;Boo jopmod 'poi uoisuelxe „S' L :Od9' L3H0 azuojq Njep 'paleoo japmod 'poi uoisuelxa „L :0 L3H0 sseiq 'paleld 'poi uoisuaixa „L :8 L3H0 'awwyo 'paleoo japmod 'poi uo!sualxa ,d :OdL3H0 ozuojq Njep 'paleoo japmod 'pa uo!sualxa ,,S'0 :OS-3H0 -ssejq 'paleld 'pa uolsualxa „S'0 :89'3Ha 'awa4o 'paleoo iopmod 'Pa uolsu9Ixa ,.S'0 :3dS'3H0 SNOISN31x3 H3O70H H000 OLL.9NOVWOH10313 ezuojq Niep'peleoo Aepmod 'joop elgnop ';unow punwo :Z0d00M1ZHO ssejq 'paleld 'joop algnop '}unow puna0 :Z8•J0Z LVZHO 'awojyo 'paleoo japmod 'joop elgnop '}unow punw0 :ZOd•JOZLVZHO •azuaq ;lisp 'peleoo iopmod 'joop elbu!s ';unow puna0 : LOdDOZLVZHa ssejq 'paleld 'joop elBuis 'lunow punoj0 : L 8•JOZ LVZHO 'awa4o 'paleoo jopmod 'joop albuis 'lunow punw0 : MdOOM-9HO 'azuaq Miep 'paleoo japmod 'passaoey :aMOZ LVZHO ssujq 'paleld 'p9ssao9H :8M0Z LVZHO 'awwyo 'paleoo iapmod 'passaoay :OdMOZ LVZHa ezuojq Nipp 'peleoo japmod '}unow aoepnS :adSOZLVZHa sseiq 'paleld ';unow aoepnS :8S0Z LVZHO waisAs joloega /sual pele!oosse pue eqn; 4sell uouax a to lsisuoo hays Ig611 egw;s agl '96um 96elloA but siado wilus s,agwis ay; jano zH L le buiLlsel; 'seougildde 6upeu6is alglslA jo; sluewojmbei lOV sag!1!ges!0 qpm sueouawV ay; y;!m Aldwoo pup aouu -Ildde uogeoggou 6u!leu6is-Ajewud a se panm eq ge4s agars eqj-aouuas angoelad ail;lot panadde aq 1ILgs pue LL61, In of paisil !apon saijes-1 L oq IILys egojis ayI •ogalS '99 1. PUB 'S£ L '01, L '96 'SL '0£ 'SL buipnloui s6w as elepueo e1ge -lOales-plag ene4 hays segals woy pue s9ga3S 'Alddns jamod pajalleun paggoei anpm-Iln} jo 00 pele!nbei a ww} l!aquojgpd sesiBep OZL pue Z£ uaamlaq ejujado llegs slonpad sauaS-1 ioopul 'sllon ££ pue 9,9[ uaamlaq ejujado gays slndlno j!nojio aoue!ldde O pejuj-;Ion-17Z :s11oA S'LL pup 9'9 uaamlaq alejado (legs slndlno ;!noj!o aoueildde uoi;eog!lou pales -lion -ZL 'einpoW i!nwio.ouAS a43 43!m pasn ua4M 'Sllon VZ jo ZL IMH lMDS -IME)Zd P } i 3 8 =1 � d 1pulwou a uo a;ejado hays pup lndlno llnOjio aoueildde uolleo -!;!Lou papoo-uou a wa; pajamod eq llpys 'Ajossaooe a!npoVq wii!nono.ouAs et'; yllm peen uaym 'slonpad sauaS--i 'oslV 'ejuld 6w ;unow lesjeA!un ay; Is aleuiwal Ileys buuim ;!naio eoueildde uo!leoi;!lou 94-L'slapow Ilem;oedwoo bullunow j'01 pasn eq IIe4s eleld 6ugunow lesjeAiun ejejedes a pue slapow azls-Piepuels Ile jol slonpoid gem pue 6uil!ao 6ugunow jo; pasn eq l!Lys aleld 6u!;unow lesjeAiun V 'xoq iloeq „B/LI x „y x „Z 6ue6-916uis a ol;unow llegs slonpwd loeduioo saijeS-1 'xoq jloeq 6ue6-elgnop jo 'xoq >loeq uo6eloo „17 'xoq jloeq „%{ x .,17 x .17 'xoq iloeq „B/iL x j7 x „Z plepuels a of ]unow hays sagwls woo pue 'segw;s 'swot' plepuels sauaS-j :Iejeueo suor!;eoi;ioeft 6uia99ui6u3/jejn4*8114*AV Aluo 6uilunow lam jol palsil . 'elnpow ouAs 970pN yllm alggLdwoO . 'saolnap aouenpV;iaib'lloadS pue ®3j9IVjj39dS Aoebal 4l!M egjedwoo AlleOUIo013 . -uogepLlsu! ecimep ajolaq •Al!nu!1uo' buuim sNoego 6uuds Bwlio4s alpld but unoVy . -spun Nem loedwoo Ile pup plepuels Ile jol ale!d 6ugunow ILsianlun 'suoiloelas awnloA oml pue euol ujoy jo} yol!ms Aieloy . s11on 9 L 1e VSP +89 Ie P81ei woH . '99 L PUB 'S£ L '01 L '96 'SL '0£ 'SL :sl!un Item uo s6u!Ues elapueo algeloalas-plaid elapueD 0£ pus si, is uo!leiedo iloA-t Z jo -Z[ }o uoi;ooles oilewolnV . -uo!1onj;suoo rue;sisari ad wel . -xoq 4oeq ay; olul uoisnjlu! 1.ewlulw ql!m u6!sep u!-6nld - -sogo.4S woH pue swoH jo; saolnap ag;ad hews . 'soilaglsee ujapow polepdn seinjuej suogoales awn!oA oml ql!m ssuol woy jol gol!ms Ajela L pue 'uoileiado 1IoA-tZ jo -ZL ;o uolloalas ollewolne 's6uil -Las elapuea alge;oalas-plai; 6uisn sluaweiinbei uogLogdde;o abuej ep!M a ling a of saolnap Idepe Agsea osle uLo siellelsul -pape;sul sl somap 941 ejo;aq A;lnuguoo buuim Isel ueo sjallelsul os'6uuds 6uiljogs pipoquo up y1!M slapow loedwoo pup plepuels lie jo; B e d 6w unow esjenwn a sezl I n 3 I .l I .I.3 sapeS 1 'e6ewpp uo!loni;s -uoo woil saolnap ioalwd pue uoilelleisui Al!ldwis ja4lin; of 'sllnLl puna6 6u!wnsuoo-aw!1 pue Agsoo bugeu! -wile Allenp!A el!ym }oadloo; pue ise} suoge8e;sui 6uimew 'xoq >Oeq et'; olui uoisnilui lewiu!w gllm su6isep ui-6n1d ainlee; saolnap gV 'uoge8e;sui buiAl!Idwis el!ym AlpgLsjeA uogeoildde n641 asuejow ley} sainjuej ;o AlaueA a apnloui sagwls woy pup 'sagwls 'sujoy ;unow-llem ;o Bull lonpwd sauaS--1 ayI yuawennbai uog -eoildde Aue AllenplA laaw ueo sauaS-q 'saolnap p9luud-3uld Veld pup 'saolnap luijdlool hews pue plepuels 's6uisnoq OgsL!d psi pup a;!ym yl!M soieglsee wapow pue smejp Wait -ino jemol ql!m Ai;snpui ayI ui segals woy pue'segojls'swoq ;o But .1 asn-ol-Asee pue el!leslen Isow ay; siapo sauaS--j ayI �eaauao IIGMAauoH Aq suo ;eoilddd jjeM ao; segoajg �131 =1 I l0 N uaoH pue 'sagoa}g 'suaoH ® ;ndjnp-ajgejaajag aoopuj V:8L609-NO Z }o I 06ed — V I.OZ/ZZ/ L L • V: L9909-140 'awa4o paleoo japmod';unow aOLpnS :OdSOZLVZHO 1jeje ap -uoo-uou) %p8 0l %OZ :AI!P!wnH luawuoi!nui 6upeladp 'azuaq )pep peleoo japmod'ysnll-!waS :(3:10MZHO (0.01701 'ssejq 'paleld 'ysnll-!waS :BdOZLVZHO 0.01) d.1701 of d.OS :ainleiadwal IuawualAu3 Buileiado 'awwyo palpoo japmod'4snll-!waS :OddOZLVZHO suo ;eon;!oedS SH3070H H000 0113NOVWOH10373 uol;ewwo;ul oui-1 ;onpoJd '8966Ly :Paisll Oln '9862;S :Pals!I In 'snlels 6u!ls!I;seiLl jo; Ajo;oel llnsuoo'ssaowd w aq Aew 6uilsg jo'saioue6e lenwdde u!eliao Aq pals!l eq Lou Aew suoil -eoildde jo salnpow u!epeo 'saseo awos ul 'luawnoop sigl ui pei}loads selnpow eqj of Aldde SIUAoidde pup s6uilsil aseq sIenoiddd pue s6ugsi-I AoueOV '}apow SeueS OZLVZHO a uo (7 ig o) slLu!wjej 96elloA mol of a6e -11oA y6!L4 Aldde 'eAoge alge; ui sanleA eouewioped uiLngo 01 :SNOIIVOIIddV -1V103dS/3OHOd DNIMOH HDIH 'ssel Al;46ils ale sanleA papeys-uou'sanlen papegs ql!m puodsoijoo elgel anoge ui uals!I sG0JO; 6wPIOH :310N 8'617 MI.a6elloAmO1 uowwo0 OOL'0 — AOZI 96elloA 0'VE SL w � uowwo0 1,80'0 980'0 A 17Z 91mo7 V9 1, 017 +g uowwo0 6L0'0 OZO'0 A17Z a6eIIOA mo7 Vial, OV g uowwo0 6100 OZO 0 A VZ 96e11OA 4611-1 +g uowwo0 gE0'0 0170'0 A VZ sleuluual eBe;IOA �V �0 -sioleiounuue pue 'swalsAs wiele 'siosues 'sioloalep of uo!l3euuoo Asee jol paeouibue Ageio -ads Big sjGPlo4 loop 013au6ewa10ala to sauas OZLVZHO ayI 'spu'N Ile 10 s6u!PI!nq o!lgnd jayio pue 'seo!go 'sewoy 6uisinu 's!el!dsoq 'slooqos ul sewag jo Teat' 'allows ISUIe6L uogoa;ad Baia oilLwolnL jo; pepuawwooei ale s;!un ayI 'gam, se suogeoildde 6ulsoioaoop elowei jay;o ui pasn aq ueo iaploy loop e4l -sawel; jo 'ypa4 'allows ;o peeids ayI �Oayo of pasolo 6u!Ms of;! buggLue 'loop eqj sesualai japlo4 loop ay; 'paziffie -op ua4M '4oi!Ms a jo 'swalsAs wie!e 'sawel; jo ';Bay 'glows of 6uipuodsoi somap buisuas alowei a Aq pez16jeue I!iun uado sloop 6w6uims 6u!solo -;Las Ploy o; pau6!sap aie sieploy loop sauas 0Zl17ZH0 041 N0I1V017ddV OHVONVIS 'spa luawu6ileslw Pug uolsu9lx3 . '(pennba slailoaiq ou) 6u!lunow loaip pue 'aoapns 'ioog goo-alqnop jo-al6uiS . -suo!loauuoo Noolq ieu!wjal . -s;ndui 0a j' OV 96allon-IenO . 6u!leld sseiq jo ewwyo elgnop ajysnl 1161H . .18jew iseo-alp olgein0 . ws!lou6ew lenp!sai mol pue eouo; 6uiploy jouadnS . mLjp w9jino mol Aj9A . seAn;eej suogeoildde imcieds jol (6N 6'917) spunod 00} ue41 ialLaj6 sawo; 6uiploy aonpwd of saBulloA POIs11 i9y6iy Is ejejedo ueo slapow sauas 0ZL17ZH0 'wsgau -hew !Lnp!soj mol pue aojo; 6uiploy jouadns je4o spun ois% '(w0 9 L'OI.) sayou) 0'17 Jana luawu61IL81W pue (w0 8V'00 sayou! 0-ZL ueyl Jejeai6 saouels!p;e !lam pup joop ueaM;aq ;uawu6!le loejjoo jol (sylbuel snouen) spa juawu61le -siw pup uoisuaixe apnloui sapossaooV -swewisnlpL Ajepuo -aas ;noyl!m ;uawu6!le joeijoo 6uunsse aleldwej anlsaype us 6wsn uogepelsu! J99O siaploy loop sauas 0ZL17ZH0 94i 'pamba Gip slajlouiq oN '6uilunow Ilem loei!p pue '6uilunow aoapns '6ugunow joog 1!oo-elgnop jo-916u!s apnloui sajnleal jeyl0 walsAs pellelsu! ue 6u!uuni;o lsoo 11e1ano aq 1 siamol 4014m-O0A17Z le Vw OZO'0 Aluo-mol Alaweiple ogle ae smsip;ue,uno 94l'slu9w9nnb9j 6uiNools asnoyaem seonpej yoi4m'(AOZL pue AtZ) s;ndui 00 jo OV abelloA-lenp plepuels apnlou! slapow OZH,ZH0 IIV 6u!Ie1d ssejq io awa4o elgnop 9j;snl-46i4 ui paysiug lelew iseo-eip algeinp to palonjlsuoo ale SJBP104 loop 018ubewwloala 10 sauas OZL17ZH0 94i JeAeuen Ilann/(auoH /(q ®a �J saapIoH aooa 014au6ewoa40913 31 A 1 to N sever OZ &vzHa e LZ69-uP SN0uv- no-1do'8 S133HS inn tl:L9809-NO F I lilt I I L I I 1 11.111 Tom A .j ITII I 1 11 WIIIII < cn 0 �0; E �a E < U- 0 E 0 0 a 0 0 o 0 0 a 0 0 0 0 0 o .9 -6 0 C� 0 o 0 0 cc 0 0 n o m 0 o 0 �owoo� 0 0 0 o 0 0 0 o o m 0 0 cc cc 0 no u. 3.: -60 1 0 a 00 �oo� n 0 0 0 o 0 � o o o o 0 o 0 � � o 0 WS o n n o o olo o q 9� q; q o� q 9 q q qo�oo� 0 q o q o o n o o o q q � q q 0 o o q u a i; o n m o n o n o 0 o nin o o o o o nin n o o o nin 0 no o o -5 �w 0 -a " 19 0. S? Om t mu m x x x x x '0 nonnon nonnonnon o ononnov no nonnon ononno no non 2 ';5 M 7�; M 0 o -rT- F1 0 f2 00 0 o 0 o nonnononnnn o o n 0 o 0 o o noon o�o o m 0 o o 0 0� o o 0 0 0 V� 0 � o o o oinj o L MM N 0 � m on nP ��: �Z�: o - on o o no 0 a non no on no n 0 14 a- M w m m a N a w w 0 �m 00 0 o no Idi C; 0 o o o o o o o o o o o o o o o o o n X x x x x x EO on000� 00 o n o < 'S onnonnonnon non no x xx w xxxxxxx N no - - - - - - - - - - 0 -a- 0 2 E.T.0 . -6 X� c a onon 001010 o n n m m ol o o o 0 no no �oo��o o�ooc n o o Q o o o n a 0 m 0 o n o a n o o 0 2 �Ooo non. w m , Enou:OQnon o o o o o o o no o o o - o n o 0 no o o 0000 o q 9 0 0 0 0 o Q 0 0 m o 00 0 0 o 0 0 o o o o n 0 a 0 0 Q no o o 0 < oo� 6�onci 6 o 6 6 66 6 o o o o o o o o 0.6 00000� 6 0 0 Tin 6 o o o o o o 6 o o o 00 a o o I M L E x x x x X (D g 0 m o n m o -1 0 o o I 6 < -LIA CIO v :3 3 8 r_ En > 0 q; �> 2 T .2 u C� m 00 C. > 0 > x m .2 wo 0 0, 0, 0, x c c c c F- > > cc 8 0 0 < 5.2 9L 0 0 J Tl- -a -x < < < < < < 0 14 2 -,A - �5 � E LI: > 0 F < .. X, -u . . c c . 0 16 E E 0 .- .0 .0 .0 .0 .0 .0 1�6 c CL 0 E 0 a C 0 C) Z; �; �� 'm Z5 ('a 1�6 *6 a cn I I L 0 N zz ZO ZO CO) cr x S u u 0 'OE 'OC 40 .5 -6 E Oo W� F N MMOO 1- - - a 0 = 0 0 0 0 0 0 0 0 0 L�j u E 16- - - E - E - E - E - E - E - F: U) ff) -Z 0 z z z z z z z z1Z z z z z z z 0 0 a Fu < < w ii- d- L 2 0 0 0 0 0 C, 0 U�w 0 0 0 0 0 0 0 0 0 0 0 a 0 0 0 06 0 Z! :3 H'I'l, D m D�w 0 to Nir m Z C) � 0 < DOD < Do 0 < z �x C6 i6 i6o 0 < 0 < 0 < 0 0 0 0 0 < 0 < 0 < 0 < 0 < cc < < 6 6 f 0 ze -C I 0 I --i z 2 M, :?c Lf) no o a .j 0 Moo n cn I IF o o 0 ono 0 o n o non o 0 0 n o o W n 0 xlxlxixlxlxlxlxlx x x x x x x xi x x x x x x x x x x x x x x an XIXIXIXIXIXI --n-nononoo con 12 4 ------ no 0 0 non r no a no o on mn oo� n in non n 0 a 0 o o a a o o o 0 0 OPROMORO non 0 o � 0 nonoonoQ0000 noon 0 o o 0 0 01n olo o mon onnon no 0 WNO onwwo�o W� W� m o non onnon m m � m w C; C; o 06 o n 000n0000066 o ci o 6 I In 0 o a o o x x x x x x x x x x x x x x x x x x x x x xlxlxlxtxl x x x x x x x x x x x x x x x x x no a 0 n o 0 an 0 0 0 C, LO CI! 7 C? 6 n m C U) c) It CO < < E < < < C� C� 0 < C\l < I�t CO m w m co LO m ir� in 1 1 0 C) o 0 a o 0 0 n 0 o n 0 0 0 0 o o o 0 0 a 0 no LE) C) co Lr) C\l nonano non 0 a o o o 0 o 0 a n nomoaa M LO W o � o o � . . o , o o o 0 a 0 0 o o o o o � m m C) C� Ci 4 "0 T .,In o o o o no 0 o o a a o 0 0 0 0 W o n 0 0 o 0 �a 0 0 a LO cm c) L-) in cu C� q 6 (D CD 0- C\j (NJ z D o no-o-o con 0 o o 0 � 0 0 0 o n o a o 0 m 1- N o o m o o l' C) 14: CI! o q q;n a q q q 9 n 9 q q 11 o o 9 q q onoqqq 6 cc onocan oo� 0 o m a 0 0 n o n o o 6 00 E < 0 x x x x x C\l < < m x x x x x x x x x x x x x x x x x x x xlxlxlxl x x x xixlxlxlxlxlx x x xlxLxlxlxlxlx x x x x x x x x x x x E E E E E E E E E C6 'i m -o anannon - - - o 0 0 0 o o on > 1 0 1 1 1 C\j C) 1.0 00 I�t (D 0) 2 06 Cis LO 'D C6 OD in C8 0 LO 'e E a U) 0) cq U) Ir 1� -2 cli 4 CC C� M - , T- LILI 10 U) E U) c .2 0 0 0 c) C� X m 0 0 1 0 0 cm Lo , E 3, v .0 > W) 0) w 0) U) W , M M - 'S a a ;i -a w < 0 LU 7�5 CA __m 1� 0 0 Z 0) E - - < CD O.a cis = 9 9 0 4) V) (D b: L) > w CL a) 0 ca 00 rL -r- 0 0 z - a U) < CL > a) E C a) Cl) CD 00 m mu 0 a Lv M 0 0 U) z M a) - in LO cn ca z CL cf) CZ %so w kej E C� 6, N CZ cm ca .t C) 4 a " 0 m C5 Z� < if C� z C? a) r c C� z J� C%I cq -T y C� a) -Z 0 0 > 0) 0) 0 > LL > .2 C: C� -to > > 0 0 0 0 L) C.) L) FL w w w X W CD Zi Mn -Fa b 0 C-) 0 w IL 0- C) L) 0 0 0 0 uj Y z z z 14 -C < > > > ijE a) > E OC:L Go) CO:L c L) 0 9 LM -5 E E E a) 0) (1) ca CL :3 CL a Mn T a) 0 0 U) im z z IL T- F- d 2 < C) < 0 C) 06 U) LO Ln z z LU 0 6 2� 0 0 0 Elmom 0 Cc 8 0 Cc (n Lu et ul j: E E w < 40 LA. zu :g E. U) cn cc TOM 0., w J Lu >. cc t�, E R u zu ; 9 I I 14L 04 4L -E 0.4 LLI 2 1-4 > 0 H Do 00 ti I-tj > LLI Z 2 '1 U. Ul >. 1-0 m 0 *6 6 m 5 z S z OC wo Is cc 8 2 LL. L6 w UZ w m - LLI IIA 0 LLI V, - cc 2 w E3 2 0 z c 2 LU .4 Z. Ic 4 r, �i Ic 55 mm zw 0 2) z LIJ 0 0 LLI CC A F3 - 0 LU CC L L LI. 0 c 0 Ic 0 > V 0 CC 1- 0 7 T 0 > w w w 0. c 2 IL m, 0' .0 >0 'b Aw 5 L 0 0 :3 2 8 0 C) 2 > < 2 0 > ?0 0 31OVIlVAV 0311M A 3OR1,133113d IDVIIOA AND %3dO 31WIVAV A11MV3 40 39VA33113cl E 31OVIlVAY 03MO JO 39VIN33H]d 3oviiOAiin3Ul3 NUO 31GvIlvAV A-LIOVdVO AO 3SVIN3383d < 2 � E E 0 Cm :�; I L ----------------- -- - - - - --- - -2 6 0 sg C. '0 c 0 0 0 4 >0 16 2 E 'E* '0' z X. R 0 z . :::: T, M� I � - 2. Oa 0 F� �7F < p; .j wm 2� 16 0 E U. cc =0 E A m LLI cc ZA - L-- '. 06 0 '0 is w E -S9 (D < I w < w k L6 0 1.0�gg LLI <> con ED Om b cf) % CC < '0 -0 L6 0 -Em. C) .4 N A L6 a LL. z E t) V 2 x z 20 .2 41 0. 2 w ES 25 b > IZM .2 M, ii cc Lu U) -2 E 5 2 ILI M a - --- 0 51. aw w cn -2 c tt CC L a 0 IC > .0 .0 0. -6 2 W UA 2 > 6 0 4 IC fA a 0. X X x x x x on U) a Z2 0 WO E g 0 -ffi F1 WO 0 Z� Z. 0 j 0 LA a I-- a 2 EL CL 0 a 20 ;o z o to cf) -6 M3 it 0 LL. 0 al cf) > 0 52 at L6 -�k 0 0 al R j 0 39VIII)AIIIIIIIA11131 w 30V110A IVNIWHR �FE 1 1. S M-. 0-, 42- U) F= .0 A113VdVO SNINIVW311 319VIlVAV k[l3VdV3 A 30VIN33113d ca AIrJVdV3 EININIVIII311 319%91VAV WMV3 AO 39YIN33H]d z 2? Mw CO < w LO LO Ln C� to TM E E E TOM 0 0 c E E .j E < 6 < in E o cn 0 0 E 00 E co 0 4 6 xr� FAIL, 0) E OW4 E Ji i is a E v LL w fA Di r- CI) �c -C r_ CD Lo �L a U) w w U) o co < < < < rp. r- c _r_ CD a) (D I CD C\l C\I E E r- C C -0 W 'Fn a) C') -t N < < < < COD -a E to w < 01 CI to CIJ U') to cli LL a) C) N CM Cj C, 0 §� 9 a) -�t CID CD (D cis 01 LO C\j C) N C, 0 Q >1 -�d , in (D >1 1� LO r� m C\I m LL a) IN - - @) m N w CD cD '4 ' m 0 0 cD w E 0 0 00 C) -It L6 4 4 C6 to m r-: CL 0 o E E LO 6 C� M, .4 M, ca Id m "I' t- CO - LO a in 00 CL c\j cm < < LO - c) CD cm I�t Er LO r� CD C') EL A 0) 0 C> 0 C) a Fn 00 a) IL C', Cj C13 LL 0 a) N LO C\I I c a- LL C� in LO C) M < C) - - - > 0 (D (D CD < < < - 0 U� LO X m LO --t C 4� - C\l cq r- C) to CD cm < E CD LL < 0 c6 C� 7a za -�t co CNI 0 C\l z 00 r- -0 bi ai E E E E 4 C) c; 6 c) _0 U) 4) C\l 0 m C6 4 d) > < < E E E E N E E E E U. I m - m 2 > E E E E CY) OD C"Z ;a -0 0 0 C-) LO �t a) z -Z6 = r- 1 0 a 0) 1,- a CD r- all 0 0 :3 -0 m co CD 00 r- 0 LO, -4 0 0 L) U) C� vi cl, 0 vi 4 mg 0 a) Er cr al ca C� ui 0 M T A2 MO 2 0) C\j C%J 2 cli 4 LL "0 IA 0 a) m T 2 0 0 0 0 a > > > 0 0 -9 a C� 0 -6 C;) 0 LL C\J LO 0 0 iz >. v P 0 x .- . t*� rl� (P 0 CC CX LL CO 0 z CL CIL E cr 0 CIS a) (1) a) 9 0 0 a cl < < < 8 Ci L) U 0) 0) F E in = 1.-0 11-0 -80 ful 0) 5, Cl) z P� Lq a) co cl 2-.� CL 0 0 0 a a) rz co 2 w 0 h 0) c m c c LO c) S (D a) a) a) 0 o > 0 > CL a) N N :3 a) CL a) .9 0 CCI >, CL U) -ca -Ij (m �9 CL a) CL CL >1 E 'r- , 0 cu LO - in Cl) E a) cn tm E co :t:: tm (D r- (n c cf) =f cn cc cn E > -Z- cz cm ca -,t w cl w 0 CZ a) 0 5 W) (D a) .0 wc CL 0) U) (D 0 0 to N 0 > ca LL > .2 -0 -0 0) CD CD III IM cr (1) 0 > -C LL 0 4 co > 0 Fn a, 0. CD a -cz 7a 15 (1) x x - ca > CD 15 75 -ca cm C = 5 -6 . 2 W 0 > > > ca -c 1 E ca L. CIS > CD Q a) 0 a) .2 E Q) cc cc cc (a ITS ca x -C 0 0 -C J-7 = .2, Py -F) CL E > 'CF, cc (01) CIS N (D a) 0 0 (1) 0) (D M �E: -Ui m CL :3 CL =3 w M Zlu m IM IM CD 0 r_ LU M c >� c"L in 1 0 E E to 7, E C) C) A Mn A J-- - m z z 0 c = T- Q < < U L) o) 0 0 -0 i_- m a) a) a) 0 z z IL -.1 1 2: 3: �Q-) CC) C.) C) Z _0 J D U J Q U 06 U) w w r r v`! 1 D CU N M 0 m 0 H E E m O r m O "� o M O O o 0 0 r• 0 a 0 � 0 � 0 N 0 m 0 T 0 M 0 N 0 N 0 01 0 co M O r` m m O m N •- a O O O O O O O O O O O O O O O O O O �y 0 0 0 0 0 0 0 000 O O O O O O O O O O O O O O O O O O O O O O O O ;V, O O O O O O O O O O O M O r O V O m O O O O O O O O O M O V O m O M O 0 O 0 O 0 O 0 0 M 0 O 0 O 0 O 0 O 0 O 0 O 0 O • m M M O) 0 0 0 0 0 o v o rn M o 0 0 o r rn M m o 0 0 o r� M o 0 0 0 0 0 11,, o v r M o 0 0 0 1L1.�, L.L C) 0 0 0 0 0 0 0 0 O O O O O O O O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 CL = x x x x x x X x x x x x x x x%% % x x x x x x% %% x x x x x x 0 0 0 0 N r• M O O O O N 0 0 0 0 V 0 0 0 0 0 0 cc L O O O O O O O O O O 0 O 0 O 0 O 0 O O O O O O O 0 O O Ln 0 O 0 O 0 O O O O O O O O O O O O O O O O O O O O O O 0 0 0 0 O O O O L o O O 0 O 0 O 0 O O O O O O O O O O O O 6 0 0 O O O O L o 0 0 0 0 0 0 0 o E 0 0 0 0 0 0 0 0 E o 0 0 0 0 0 0 o E o 0 0 0 0 0 0 o E Q o 0 0 0 0 0 0 o Q o 0 0 0 o 0 0 o Q o 0 0 0 0 0 0 o Q Ln r o O 0 O 0 O 0 o 0 0 0 o 0 O 0 O M O O O O O O O O M O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O Cl) O 0 0 0 O O 0 0 0 x L■ 0 0 0 0 0 0 0 0 x N 0 0 0 0 0 0 0 0 x Lp OO o Oo Oo Oo Oo Oo OO x Lp VJ w w w w X X% X X X X X X M X X X X X% X X (p X X X% X%% X (p X X X% X X X X ry a M LM 0 0 0 0 0 N M 0 0 0 0 7 N 0 0 0 o 0 0 0 0 0 IT Z Z Z z Q Q l� — ULn N `p Or CD m O N y J v U o U C � m c £ E � V O J V J J> J J> J Q LL J J> > > a > > t0+1 JJ> Q J> > y LL d Z > N > N Z >J> > >J 3 > N > N Z v > N a > N a > N> O. M Z Lri > N Ll > N d a Q O c > c a E 2 m E u c a ¢ m w O o O O O m v a N L U m o o `m au a c m LL n a N T m 0 - R c ■ ■ ■ CL mo�� n 0 N _ Q 3 m m a = a O a o a N S J 0 N Q J n c a E 0 y m `m v c N 0) m c m c E L m U O o o `m 3 N mw aU a � L O U vi O E Ln p N @ t m a m �o CO Z:E N N a -0 3 o m 0 U C m 9 U u N D N O 0 O. d ca w U n 2 w U o U d n LL E 7 c a W w m m a 3 'O 0 Z+ N -- m d J j .04) n y L 0 N F U o ato U o y N m h O d y U E N m m Y 30 0 N L m (n F d m (n 0 0 N M m cn cg co L4 y ¢ O) N O O O N N O N O It N \ Cl) c0 V n a D o m N o N ❑ L a U CL m o N w m 7 j a @ 2 2 ° O O a a o_ a ° 0 O O Q Q Q Q Q ■ E m o m o rn Ln ¢ in in o rn v, °? LO N L17 O N o LL LL CD U ❑ ° rn Lai 7 a0 cC `m Z a ° D c a LL W y � v -° c c Z o¢ O c L a a y m N Co Y U X E _ p M¢ J 0 ay. 3 N m E U O O ❑ Z m W W •Q O 0_ 0. _ N N 6 0 ~ p❑ ° R Z` r E 3 U J m 0 O m m 0> o m m` m z � O c= J E R E L m ❑ O T ui O m C N v❑ ❑ O 9 u° J L � J +� E m LL ❑ LL U 3 E N o D LO❑ :.% N c C c .I N 4) N N a T s Y °o pO �.a m v o a° Q M '° L9 0 6 Y Z, o f o a o C a°i �` m 3 o a° m to M c U d OS o° Y aoi a y m° E E° E E v m r¢ < L U L D C L D A (D m (n Ln LL Q U LL¢ U Q Cj m a U c a U m to G c a V O O � T a n a yW V 0 C 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O o. 0 O 0 O 0 o 0 o 0 O 0 O 0 O 0 O 0 O 0 O 0 O o O m O J y v, o o o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 o M o o E n � o C? Q o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 of r o 0 • m a m x x x x X x T � a a a 0 0 � m - N � m O r QM.0 N m O 6 e N Oc wd 0 U w O O 'O L3:0 0 3 cl>> m= Q o • J -a a M N d N 5 T m E ° o fq In `m `m = a o. a. r m Q of'. m 9 a o N� m M `m d o d d c m o a E 0 o 0 a_ d co m 3 o awi 'c m m pm, 'p o a' 'c 3 3 m° m d d G v v o d d m'c m 0 m m � o 0 . U L C N d N N K'?LONN N 'h VJ (%J OLL _N LL N N m NXX d N m O O V O a-�Ll h❑ O O N d d d d U U U d d Q Q N N L Q Q° C p d U Q Q 0 Q 0❑ M LL LL Z Z d X Q a O 0 d■ I- U Z Q a a LL d T T❑ LL M O � (O LO N O N X N a � m E N J w 0 1- � c E � `m E -° C y O N � t ° N❑ Q � L y -O N N N O � � F C N N � O N 7 d "O La 0 J x x ` Lo c 0 ° m rn J O T J � E c¢ `Lo¢ mo �v � c c O coN � F G 0 0 0 0 0 0 H 0 o 0 0 0 o 0 M m 0 o 0 0 0 0 0 0 0 o C G C o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 N 0 O 0 N 0 O 0 O 0 O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 o 0 in 0 o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 O 0 O b o O o [O Ln O m O t0 0 O 0 N 0 l0 0 O 0 O 0 O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O O O O O 0 � 0 N 0 O 0 O 0 0 0 0 0 0 0 C C Ci G C C O O G C C O C G 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 O G O O C x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x 0 0 0 0 0 N O 0 0 0 0 0 0 0 0 0 0 (O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 O O 0 0 0 0 0 O o 0 0 0 O O O O O 'M N O N m U O O O O O 0 0 0 0 0 0 0 0 y p w a 0 N 0 O 0 N 0 0 0 0 0 0 0 M 0 N 0 N 0 M 0 •Y 0 0) 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 N 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 00 0 0 O O O O 0 O 0 O 0 P 0 N . J V •' O O O O O O O N O O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 M� O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 OL O Ol O O O ap O M O ' j m .0 O G C 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 O O O O O O O O O O o Cl 0 0 0 60 0 0 0 0 ~x m O x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x � c y '6 3 m 0 � y N y r• O O O O O N O O � N 0 0 0 0 0 0 0 0 0 0 tp 0 0 0 0 0 0 0 0 0 0 0 0 0 0 O O O O O O O C C m E m 0 m J w® V o O 0 0 0 0 O m o.• w � m o o 0 0 o 0 M 0 u m o 0 0 0 0 S O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O m q Y m a u _ C a > 0 0 O 0 N 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 N 0 N 0 0 0 0 0 0 0 0 0 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O O O O O V O O O O LO N O O O O) O N O O O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 O O O 0 N O O C U y 0 0 0 0 0 0 55 O O O O O O O o 0 0 0 0 o O O O O O O O O O O o 0 0 0 0 0 0 0 0 0 0 y N ® •O O o o Cl o 0 o Ci CI Ci O G1 0 0 0 C C O 0 0 0 0 0 o O Ci 0 0 0 C C O O o 0 0 C G O o o Cl o x X X X x X X X X X X X X% X X X x X X X x x X X X X X X x X X X X X X X X X X X x X UV T d G N w 'mO O 3 M O m m o m N u 3 N 0 F F 4 C ; m a m� ` m L1 Q Q Q m E m mm mm mm g 10 8 cm_ m m m E � J" 3 0c 01 o IMO o � d m m� ti V U mm U�® mm mm N rop � m a o d m `m .8 c a s .00 U J� 3 u d x 3 o Io m - 3 J 'Lp 'y a s Q C C c C > m m 0 m 0❑❑❑❑ m m m m m O m D m 0 m 0 m 0 m p2 p. m- K Q d O C o 0 0 o m =❑ o 50 U O a J K d O=O c c= d m m `m_ 'm_ m m m m m .M .M .W .M m 0 C C C C C C 'C 'C 'E ' Z Z Z Z C6N � � = � I O c ❑❑❑❑ O❑°°Nnm maaaQ aatmm❑Q❑❑❑❑❑Q❑aam❑❑❑yV X�d Y�Cj I a Q s u a E > m m = o u V' Q r i i < � m � i N 10 O W M N M O N � M a O N x N i U C N E O L J E H m c� � ° E ice' C m j F O L O m ❑ d � m (n o L E N � � a N N ¢ � O � O F- J � � m � � � � cpi d rn x x O J T � E ca `ma y o^ o �O A N m a rn � N O ' � N O O V N (!% N V c0 7 = N fl- N +? G> � N L N LL N 's to E Y W U O O CLLJ Z 2 Q O O o. n IL r � O O Q a � 3 � in in � 3 � CI 'p in � O � a ui � W Z o o ¢ O - m Y U � � � w y� 3 U as tnZ E° ° � > N W � W� `) L � N U _ y N m (n � J � (0 O O N v❑ ❑ m O �° O O m� E v❑ LL � U O J '� o n. m � c d d H M 0 o m m m C� C ° O y d ° w O d°¢ F O LL Q U a Q U d o �� (o H m U � O N O O O A O N O A J O O O O O O O O 0 0 0 0 o 0 0 0 E 0 0 0 0 0 0 0 o Q A X X X X X X X X F 0 0 0 0 0 0 0 0 O N O n O O O C 0 V1 � 0 0 0 0 o N 0 0 0 0 0 0 0 0 0 0 N 0 0 0 0 0 0 Q � C w O X % X X X X X% (ry Z m H O O O O O m 0 0 0 F H d N (7 w w w u m m m Lmi Lmi 0 n a a 'a>i 'a>i 10 a m a>> a>i a>i '° �❑ O❑❑ O m E E E U U Eo LUJ 'X 'X 'X X X L.i L L L Lc ¢ Q Q¢¢ r 0 0 0 v W LL LO Z 0 J U J Q U 06 U) F— LL1 ll1 r r V U O o O o 0 N O O o O 0 m m O O N O O O O O O O O 0 0 0 0 0 0 O O O O O O O O O O o 0 0 0 0 O O O O O O O O O O O O O O O O O O O O O O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 N N O O O O O O O O O O O O O O O O O O N N N m O O N N 0 W 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 o 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O O 0 O 0 O 0 o 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O W O O W N O O O O 0 0 0 0 0 0 O O O O O O O O O O O O O O O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 O O O O O O O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 x x x x x x x x x x x x x x x x Xi Xi Xi .1 X1 x x x x x x x x x 1 x x x x x x x xi x x x x O O O O O O O O ■ N � N M w u o o N o000 000000000000000 000000000000000 00 0ICA5 m ❑ 0 o N 0 O 0 N 0 0cOOO000 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 O O N O o •- 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0000 0 0 c 0 0 0 0 0 0 0 0 0 0 0 0 O O O C1 0 0 0 0 0 0 0 Ci O O O O a 0 0 y ' x x x x x x x x x x x x x x x x x x x x x X x x x x x x x x x X x x x x x x x x x x xx m m t O d O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 o O o 0 0 0 C C A E m u m J w w V o O o 0 o m w u z u a o o 0 N 0 J w m a m a m o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 r � u a 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 N N 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 V O O N N c > o N o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 o 0 m O o W N o O 0 O O) O O N O O O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 o 0 0 0 o 0 o 0 o 0 0 0 0 0 0 0 o 0 o 0 0 0 0 0 0 0 0 0 0 0 o 0 0 c u a o C? o o o o 0 0 o 0 0 o 0 o 0 o 0 0 0 0 Y a m y o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 J = y x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x UV T y c -y m m O m o m m a u ; m a O O y 7 � G m c m ? 0 a N � E o U m t m m m m - - m m m 'u• J m 3 - N N T E i> m m- R --- 'a O m m m m m m m m m m m m o _ w U a m m ' o ' m ' m ' u ' o ' m ' m ' o ' o> '> o. o o mi o o c 0 v v a ¢ ¢ ¢ ¢ o > > > > > > > > > b > S c> m m m m m m m m m m m m m o 5 o a a s o 0 0 o m ❑❑❑❑ 0 0 0❑ 0 0 ❑❑❑ m U p Q LL O m ^m m d V V V V C C C C C C C C C C C C C C U C J a Q E v .m O o E pO E pO i0 u K !E 4= F C= LL y N m A m N N IO N lC N u m❑ m 2• N ¢ Z Ci U U N U U N W y C C__ 'C C_ C '_ _ C C_ 2 Y r y y N y q o J J J Z Z Z Z- (q Y Y ❑ O O O y d J ❑ ❑ ❑ ❑ C o o ❑ ❑ ❑ ❑ O ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ C W C % 2i 3 N ❑ ❑ ❑ ❑ N N ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ INL X IUi LL LL m m LL a O O (0 O y a ONE Li ¢ ¢ ¢ ¢ 61 m m ¢ ¢ ¢ ¢ ¢ ¢ a ¢ ¢ ¢ ¢ ¢ ¢ v N a Q U J JO n a C m a E u c E y 0 o LL m n a m m c c O 0v a m C LL O W m J N C ■ ■ i m ❑ a o a • � 0 x m m a = ¢ 0. y a a m J Y c E `m 0 a (A a v d rn m � � Naa E cc c c m mao0 od 0 j O m y co ` y E 0 m ¢ N CD Q w U C d w m a) cq c q vmi C O y V O T m c U U N 07 o >, V o m LL d n E C d ry d d N O '2 w d O a V 0 N - O NL xH+ 3a 5 U�`m p E ma E a y m m m d LLD O Q6 m m m U U m (n L) : N m O) (q fq Q N O O aD O N r N O _ N O V N N M � CO d O d Dcc m N 0 N ❑ L U N O • E (V m y W L 0) 7 ■ Q _ _ >. U U) m m a z O o a E E Ecr E in m O O Q Q Q Q Q ■ C U m N N O CMO HM coUp y N VI (C ❑ O) O) d N W Q 9 6 D_ LL Z 0 a a LL U; Z r w T T 0 C O Q O C a, n a w 1 m ❑ J r N m ca Of CO y m 0 U U ma. Q JCL ❑ L >i d d E U O «+ ❑ N W W •3 O. O O L -0 O> N p H= 4) a) n Z CL 3 E N N O Z } r O J E E Y m J cn O J o T a y p Q o N c p rn O 9 u °) 0 J Y 1�6 0 C 0 m LL 7 r U J w r E v❑ LL r U V c c c c J Z d N o❑ _ CN 16 O O l4 O O (0 d r- YdIL = a 'a-ro Nmo amo R0 y� d N d w �` ° E °❑ a� �` a C O U N (0 N C y lC C A A C U c (n y m 3 02 0 0 m �E E `° E dE c�i m °= U 2 _�> a¢ a a v U Co o c D m d o m in a U m a c a U m m bt O O a, y O o o o o 0 0 0 o m 0 J O o 0 0 0 0 0 0 o m y 0 0 0 o c o G o o x x x x x x x x x F 0 0 0 0 0 0 0 0 0 R m W a O 0 0 0 0 0 O o 0 J o O o 0 0 0 0 0 o E 0 o c o 0 o D o c x x x x x x x x x Q 0 0 0 0 0 0 0 o 0 .m. F Y O O C a O O o o o o 0 o 0 0 Z 0 J 0 0 0 0 0 0 0 0 0 O 0 0 0 0 0 0 0 0 0 m Q x X X x x x X x x O o 0 0 0 O O O O m o a � a - U 'xJ C y 0 N G> > U U m p 0 m p` m m m m m m m a m m m mmm a m '> naa naa.q E ❑ � N N N b N � O b w m b w E O ❑ N L Qaaav`a U O t 0 �u¢¢¢ a a a a ¢¢ a n ¢ 0 m C I� N N O � x N O y d E 3 s J U m C d o, E F d (O C d ~ N (n O L E�(� L d ❑ � m N � Q � o o v p j O F J � � c d d N x x J O T J �Q �a N�a C) r o � (o r A (� a c o a N y v 0 e m a 55 0 0 0 0 0 0 0 0 N W O O O O O O O O 0 o m o m O 0 0 O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O 0 0 0 0 0 0 O O O O O O O O O O O O O O O N N 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 V O O N N N m O O N N 0 m 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 O O O O W O O W N O O O O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 o c o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x O O O O O O O O O O O O O O O O O O O O O ■ N � n 0 .' b � N O W p o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 00 0 0 0 0" a s 0 N 0 o 0 N 0 o 0 0 0 o 0 m 0 m 0 N 0 m 0 v 0 m 0 o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 o 0 N 0 o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 o- 0 0 0 0 0 0 0 0 ' J V •' 0 0 0 0 0 O O N O O � 0 0 0 0 0 0 0 0 0 O 0 0 0 0 0 0 0 0 0 0 0 0 0 O O O N O O j m C O O C C;O G O O O O G G O 0 0 0 0 0 0 0 0 O O O O O O O O O O O G O 0 0 66 0 0 0 0 g, � m G x x x x x x x x x x x x x x x x x x x x x x x x x x x X x x X X x x x x x x x x x x x m ; m O N 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 C C A E m u m d V o o 0 0 0 0 0 0 0 0 ow m $m m o 0 0 0 0 • c 'g 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 o 0 O N O N O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 o 0 0 0 0 0 0 0 0 O 0 O 0 y 0 O 0 O 0 N 0 N m .i C am '7 O N O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O f0 O W O O O) m m D7 O N O O O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 .0 O 0 N O O C O U a O O O O O O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 C?O O O O O O O O O O O O O O O O 0 0 0 0 o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 o c o 0 0 00 0 0 0 0 0 J = Ow x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x m o ° 3 m O m m o m m a u ; � p A V ❑ a w 0 m - t m bg� w � m - - e� c m m m m O O to �� - o a y m m C)` a s y u m y y y y y o p o m o O y O r o m v c 9« ` LL? o d J'm m Qd�hLL oQym. f�oEm WvyRIUL �GZeOV .6m6 U >IyONmL CC -SO CCCCCCCO ��X Jd��LL�' ¢NvLLx '¢�Simx' OOU �❑¢� a❑¢ a❑¢c =yONm N.❑mC NANNNNWNN NOmC U❑�lNl ¢myOo Lt O��=U �J3N mNa '�.O� .❑❑¢NmC� .NmCC .¢mC .❑❑m U U U MJ3 JN JNLL ZZZZ ====C=_== =Cmm m�mCm , L❑U L❑6U ❑m ❑m O❑m ❑❑m ❑❑m ❑❑m aO�; 3NJy yo ❑❑❑ a m j a 0 I « A � E u c m � E m m co m a a Q N _O CD co O N 03 t� r N N N M � M m N o N � ❑ L a Q ml O O 0 0 0 0 0 0 0 0 o i 0 O O O O O O O O O C O O O O O O O O O • J y 0 0 0 0 o C o 0 o m x x x x x x .1 x F 0 0 0 0 0 0 0 N N m1 W O 0 0 0 0 0 O O O 0 O 0 O O O 0 0 0 0 J 0 0 0 0 0 0 0 0 o E c o 0 0 0 0 0 0 0 `m x x x x x x x x x Q m 0 0 0 0 0 0 0 o 0 F 0 N G O o 0 0 0 o O O O C a O O 0 0 0 0 0 O 00 O 7' O 0 O 00000 o 0 0 0 0 0 0 0 0 0 J Via, E 0 0 0 0 0 0 0 0 o f A Q % X X X x x % x X 0 0 0 0 0 O O O O m 3 a m m a° x o m 7 ¢ C U m w m U N G m U J>> m O m ❑` m mm m mmp m ,o c� m m m mmm a n '> yan naa m u E m m mmm m ❑ a m� m� ro E� � E m d E m o m a -O L L_ Q V a a a-m a a as V❑ ❑ O mi¢¢¢¢Q r ¢ O c0 N CO t0 V a0 N � � � N O N x M l � ❑ y a) J ` E t m E a E a � •� � L 70 ~ O L o N � ❑ CO a m N m Q m O O p O F J � � c d d x x O C T J � E . cQ `mQ y�a� o Z. rn R c O o U y V) G m a m m a U) Z O J U J Q U 06 U) F- LU w rr v`/ 1 U 0 o O o 0 0 0 0 0 0 0 0 0 0 0 0 O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O 0 0 0 0 0 0 O O O O O O O O O O O O O O O N N 00 0 0 0 0 0 0 0 0 0 0 0 O O R So N N N O N 0 0 0 O O O O O O O O O O O O O O O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 O O N O N O O m o O 0 N 0 m 0 O 0 O 0 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 o O O O O O O O O O O O O o O 0 O o O 0 O 0 O 0 O 0 O 0 O 0 O O no O O O O N O O O O O O O O O C G O O O C G O O O O O O G O O O O O C O O O O O O O O O O C G O O O O O O G % X X X X X X x X X X%%%%% X X X X X X%% X x X% X X X X X X X X %% X X% x X 0 0 0 0 0 C O V O O O O O O O O O O O O O y O O O O O O O O O O O O O on O O O O O O N N a d o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 o o 0 0 0'.` p u a 0 N 0 o 0 N 0 o 0 0 0 o 0 m 0 m 0 N 0 m 0 v 0 rn 0 o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 o 0 N 0 o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 o 0 o 0 0 0 0 o o r O N O d O N 0 0 0 m N 1- M` O O O O O O O O O m m O O O O O O O O O O O 00 Ql 07 m m •' O O O O O O O N O O O O 66666 O O O O O O O O O O O O O O O O O O O O N O O 1 j d C o 0 0 0 G I. 10 0 0 0 0 0 66 0 0 0 0 0 0 0 0 O O O O O C o 0 666 0 0 0 o 00 o 0 0 0 w: d ° x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x C y Y m p V y y o o O O o V O V 0 0 0 0 0 0 0 0 0 0 0 0 O N 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 C C 1 W y o 0 0 0 m m m d O O O O 1 > w S 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 m 9 ® a �! O O O O O O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 N N 0 0 0 0 0 0 0 0 0 0 0 0 0 O O O O O O m N O N O C p> O N 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 O O O O t° O N O O Ol m y Y m O N O O O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 O O O O O C •p O O O O O O 0 0 0 0 0 Y o 0 o 0 0 0 0 0 0 o o 0 0 o o 0 o 0 0 0 0 0 o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 o 0 0 0 = 0 d x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x U0 T O C d m m w o d m m 0 d 3 o V! 0 f F m o I w U Q Q Q m u `m 3 g m m 0 c c c c p m O 1f1 ` N U U C m m m m ® 6 7 0 • U c m U U U U U S° a- m m m o o p >' > > > > > > > > > > > > a >m=oxa 0 o 0 0 o mO= oo o o o o a o o o o o oo 'i ❑¢ = a3o x a O i m m m a G m Im c c c c c c c c c c c c c c U O J O m m mmmm m¢ m N M - - - - - 2. ¢0N Z G mN Z Z Z A - 'E 'E - -� 'q ^Z M J J> J> COy- •LN ❑ ❑ ❑ ❑ ❑❑❑ ❑ ❑❑❑ ❑ ❑ ❑ ❑ ❑N i y 1 LL LL LL m m mQ¢¢¢m ¢Q¢Oxm vj a Q v_ 0 m A Y U a J a JO C m � a E m Z m m _ 0 ® LL m y V CO of N d O 0 c O a m C .- LL O N N v J N C V V N 1 m m ■ ■ ■ EL m ❑ 0 EL a y $x• 3 In ¢ a ¢ m d n = ¢ J n m0 J L c E w o `m N ry ¢ r c 0 y m E w a o v c a`) m a0i a j m E y y m ° m ` ai E U O ¢N O .L.. N w v 6 L J vn C 0 0 �O O n U m o U w 0 V o LL d E C n N y m m 0 �O Z m L N � a 27 m a y L 3 L U `m w V C Z. m CD y U 0 m m C) N L CO 3 i9 V% � N U O C)m C)c u U m m N vi yf%in a N W OP O N r N O O 7 N N Cl) m I V 0 V d a a fl m N o N ❑ L U m O E N m y W I- 7 � • U S 2 U n a n ❑_ a z O O a E E ECr E • m O O Q Q Q Q Q • d � d ui 0 N O O I� 1 CO _ ('M O r N O y N r N Q. W Q N a ❑ O m m U LL Z K a O a LL Yj W Z ay.. w �. >. c0 C m Q O c c a Q. - y Y U� y y C d' J W 47 N NC 3 U Ca Q J❑ L 3 N a) E U O +J ❑ m W W 3 0_ 00 00 i m > Cr 0 o a y IN N 'O 7 m O p]` cn ❑ m U m m m O .-- 2 CO Z (n O c o _ 'E m E d w n=Ln CO ❑° U t m O J a A O m ILL 7 6 ` C '� v❑ a U V c c J Z' y m 0 a 'm 0CD 0 m oo Z� m04 r V O" m N N U Q N m c0 0 E 0 0 -0 0m �`a a o �.. C N m L y l0 c t0 0 C CO y 5 m {3 �= o w m a m E u m° _¢ 0 Z n>' LL a U a a U V `m C D o C� a N o min Q¢ L) aQc aU� (n N e 0 0 T O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O o d A a p O 0 0 0 0 0 0 0 0 C J S S o S OO S o o 0' y 0 Conan o c o m x x x x x x x x x 0 0 0 0 0 0 0 0 0 r 0 0 0 0 0 0 0 0 0 a S o O o o o O O o O O o 0 0 00 O O O J 0 0 0 0 0 0 o 0 o E 0 0 0 0 0 0 0 0 0 `w x x xM x x x0 x O 00 !°- Ol O O O o 0 0 0 0 0 0 0 C S ° 0 o 0 0 0 o O O O = p S o 0 o 0 0 o o o J .10 E O O O o 0 0 0 0 0 0 G x x x x x x x x x 0 o 0 0 o 0 0 0 0 o a $ a = U = ¢ m C w U my C .a U m ❑ "> W D U U U_U m a O N N® 0 0❑ J p d m o m d m m m m a- mn N N N N N a 'A 0 ❑ o m a m m d v d ❑ t Q a a a a a U r O wi¢Q ¢ ¢¢ h Q 0 (O l0 y � O aD O � N � x N O N m O •y. O � U � C E r E � E � 7 c O m � 6 U L N a 0 0 O N o F J � a� � m u m x x J O � J � E � C a A Q �o CO �- m •O O U N 41 a m m a 0 0 0 0 o a o0 N m G o O 00 O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 N N 0 0 0 0 0 0 0 0 0 0 0 0 0 O O V O O N N N N O O N N 0 N 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 N O O N N O O O O O O O O O O O O O O O O O O O O O O O O O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 O O 0 0 0 0 0 O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O X X X X X% %%%%%% X X X X X X%%% X X%%%%%%%% X X X%% X X XXXXX O O O O a O U C O 0 0 le a 0 N 0 o 0 N 0 o 0 o 0 a 0 m 0 m 0 N 0 m 0 v 0 rn 0 o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 o 0 N 0 o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 o O o O o 0 0 m � J •' � O 0 N 0 0 0 0 0 0 0 O O N O O m � o 0 O 0 O 0 O 0 no 0 0 O 0 O 0 O 0 m O V O 0 O 0 O 0 O 0 O 0 O 0 no 0 0 O O O O O O O O O O 01 O O) O O Yl m 0 m 0 t 1 m j m C 0 0 0 0 0 0 O O O O O 66 O O O G O 0 0 0 O O O O O O O o 0 0 0 0 0 0 0 O O O O O O; d p x x x x x x x x x x x x% x x x x x x x x x x x x x x x x x x x x x x x % x x x x � C y � 3 d Ix O N C C W E m u o � • m u o '• m Z'j m o 0 0 > uq m Y R o O 0 O 0 O 0 o u• 1 d J •> w c o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 d w m a m C a O N 0 0 0 O O O O O O O O O O O O O o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 O O t0 O m O O W m m> W O N O O S 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 O O O 0 N O O C u y O O O O O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 O O 0 0 0 0 Y 0 0 0 0 0 O O O O O o 0 0 0 0 0 0 0 0 0 0 0 O O O O o UV T m % X X X% X X X X x X X x X% x% x X% X X X X x X X X X% X X X x X m C 00 O A 0 0 0 V O O m � 0 0 0 0 0 0 0 0 0 0 O O O O O O o 0 0 0 0 0 0 0 0 O O O O O O O i. r w u m ,0 u 3 o N 7 F F � ❑ a w o U A it Q Q Q m E �€€ m u p w m rw m o a�D o U o u�� n° m � o 0 o • 2.0 a c o a s ¢ ¢ ¢ a ¢ m d u�� > > > > > �� > > '> � > u > > > > i Y = 8 > x a x = 3 0 3 m m ¢ co_ co_ co_ c_o m m m m m m m m m m m m m f c0 om �� w ❑❑❑❑❑❑❑O❑❑❑❑❑oQ �a xa° f � � ❑ 3 c E E Its! c c c c E c m c V 0 c J¢ LL Q� • E E � m _E m m 'm m m m m m m m .W m®❑ °1 K n c ¢ t N M Z J7 m N 0 I-, N N O N O O O ioil .� �= ._. �� U U U N O m m n Z Z Zy= J ❑ O ❑ ❑ 'C o o ❑ O ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ _ � � 3 � d E U � y N N � IL Q a V 0 0 N y y (!l d d LL ¢¢¢¢ t+) m m¢¢¢¢¢¢¢¢¢¢¢¢¢ v LL X y LL LL LL m m I = a a ¢ � j m q >. J o n E m a C E u c m m m m I a v Q CO mLL � m m m V V v N VI N T m m y ° 2 N m ¢ S O ❑. = o J a o y ¢ L J c 2 � E ` O N m y m Q w m NOl c m y a v E � (D 'j m m o a0i 0 m O) c m y y m N L N O � E U v mLm-. `m O U N ¢ m a N O) CO O ' N h � N N O M CD to 4 N N CO CO MV m N p N ❑ L a Q N O • E � i W a ❑ @ a m 0 0 m 0 0 0 0 0 0 0 0 O no 00 v° O 0 0 0 0 G J 0 0 0 0 0 0 0 0 o N O O O O O G O O O w x x x x x x x x x F 0 0 0 1-1-1 0 0 0 0 0 N N a Io 0 0 0 0 0 0 0 0 o a 0 0 0 0 0 0 0 0 o J 0 0 0 0 0 0 0 0 o E o O O O O o G O O `w x x x x x x x x x Q m 0 0 0 0 o O o o 0 0 0 N_ O O O O O ON O O O O O 0 0 0 0 0 O O O 2 O 0 0 0 0 0 0 0 0 0 J � E O 0 0 0 0 0 0 0 0 A - 10 G X x x x x x x x x 0 0 0 0 0 0 0 0 0 `m 'o • a ¢ m Vd❑ � N fmJ .> C m =o m ❑ > > > > > m p m m m m m m❑ m y 0 m m m m m m a- n > w a a a � n % � m m m m m m E ❑-m`p viwm'Aq E. � m a v m m� d p L a v � m � O r O wiQ¢ ¢¢¢ ¢ 14 CD V O N I[) N 117 a0 � M N O N x M O y m � J U C E and L � E F d CO c d y -O . a L E c m 7 = o � m o � t d ❑ � .� N a o 0 O � o � J m � A � � a � o U a x x J O T J a E C a N a � � Q N o Z. v, o m co m v O U V) � a a a m a a a a m a Z 0 Q J D U J Q U 06 U) w w r U) 1 Z) U O O O O 0 0 0 0 O O O O O O O O O O O On 0 O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 a 0 0 0 0 0 0 0 0 0 0 0 0 0 0 N 0 m 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 O O O O 0 R 0 O 0 O 0 t0 0 t° O N 0 t0 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O 0 O O O O O O O O O O O O O O O O O O O O O O O O O C, O C,O O O co O O �O O O (O N C,n O O O O O O O O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 O C?0 0 0 0 0 O O O O O G O O O O O o G O O O O O C G O O O O O G G G G O O O O O O o o O O O O O O x% X x% x X x% X X X X x% XiI X X X x X X X% X% X X X% x% X X X x X x X X X X X O O a 0 0 N O N O O O O O O O O O O O O O N a O O O O min O O O 0-- O O O O O O a o 0 o v o 0 0 o 0 a 0 o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 o 0 a a 0 0 0 0 0 0 0 0 0 0 0 0 0 a> p a s �n o m o 0 o m m N m v rn o 0 0 0 0 0 0 0 o m o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 o D o n u� m m O N 0 O 0 O 0 o 0 O O (D O N N r O m O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 m V 0 0 0 0 0 0 0 0 0 0 0 SS A m m m m C O O o 0 o 0 O o 0 0 0 0 0 0 0 0 0 0 0 0 0 O O O O O O O O O o 0 0 0 0 0 0 0 O O O O ux m O O 0 x% x x x x x x x -x x x x x x x x x x x x x x x% X x x X X% x% X% x x x x x x x u 0 m y y y 0 0 0 0 0 N O N O O O O O O O O O O O O O N 0 0 0 0 0 0 0 0 0 0 0 0 0 00 0 0 0 0 0 C C A E m o m m o 0 0 0 o u r° o o v m m m O O o O O > m - P o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 o a 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 m a m s ?! a C am 'j n o o o �O n o 0. 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 �n 0 in 0 o 0 0 0 0 0 o 0 a 0 o 0 0 0 0 0 0 0 0 0 0 0 o 0 O 0 o 0 o 0 v lO O t° 0 0 m m m m O N O O O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 O O O N O O C fl a O O O O O O O O O O O O O O O O O O O O O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 O O O O O O O Y m m a o 0 0 0 0 0 0 o c o 0 0 0 o c o 0 0 0 0 0 0 0 0 on 0 0 0 0 0 0 0 0 0 0 0 0 o 0 0 0 0 b . x X x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x X X x x x x x UV T °y c -y 0 0 0 0 0 0 0 0 0 0 0 0 0 O O 0 0 0 0 0 m N U T L m o m m m 0 N 7 F f m 3 O m 0 o 9 U ` m m m 10 N O 2 u 5 c W m 3 m o >'> ou Q 0 30 ax0 A O .0 0 v m m o 0 0., d co > >> > > > >mao 0 .- > x 03 ;mm aa > ❑❑❑❑❑❑❑❑❑❑❑❑❑ mmm m> m m> 00 x a M oy F a m m s m m ❑ 3 a i a a a c E c c c c c c c .� c c c c c U 0 c J m ¢' x CI Em N N 0 m N E p Ep m C �c p w 0 !� 0 �,.-__ 0 c= LL J" m m m "' is �' m « a ... m ««« a m .- m .- a .� m❑ « Q m O Wa' N p' 6 r N 0 U U H U 0 O N m N O m N n Z Z Z Z m fn m� C .0 .O .o .o . � v r n N (. J J J 'C 0 0❑❑❑❑❑ --.... O O❑❑❑❑❑❑ y Y« C❑ O O N 2 3 3 ❑❑ O❑ C LL a LL LL LUI. Q O. U 0 0 M fA N N a d d Q Q Q Q m m m Q Q Q Q Q Q Q Q Q Q Q Q Q O X uj m m ° a m 2 o 0 m O C m m a y U N m ^ ¢ A m m _ m L W W U m y c c O O v a N O .- LL %1 H J m C Vdl m m ■ ■ ■ Co a m $x• m a 0¢ a0 N =mo Q m o J Y E O m C m U) W N C O C m O a N E c v c m m '7 0) m m N @ N E cLi C 0 ¢ N N 0 w . @ y `o a'3 omo 7 v C O U O T 0 @ N cc U N o s a D x 0 C a m a^ w E w a O "O -p V @ « .0 J yt m a p a C o d m m a N E.� N N m m m d 3 m @ N L d a C a G p Omfn F- mNu m U c.i r• N Co rn m !n Q O) N O) O Wto O N r- N O O d N Cl) Cl) V c0 V N O N OCo Co N 0 N ❑ a U 6 O • E N w W r L L 7 7 W V O O OL CL 7 Z O O= Q Q Q Q rn O O Q • O - @ @ r 2 U U M O O r 0 N O N N ❑ O O N N fA U) W Q a O 7 7 O U u' Z 2 °) LL U W Z p > U C N OQ O_ N Co Y U CO y y n n w of J W N N �' 0 m 3 U a s J o o a °' E° °❑ W W 3 O_ 30 00 01 N N o N Up F-_ a Z Z a E m ° a0 m❑ m O@ 'C Co d o Z } J '� 7 J E R E d: „L.. N m m (n cc 0) J T N O -i N -0 0 0 p l6 LL C Evo � U� a � �� J� dwo� R o a R o o@ d 'r y V or d CL 0)m Q@ R o N m i N N to C N O O 0 '0 N Q ° }. Q N Q N m N R C R C U CO U N v m F ps o� ��Y �� E E �€ �� = o _ aQv a`¢i� U 5@ �o E 7@ do oven r z Q U m a U C a U A m 7 N b O O A a0 O a0 O O a0 O m J O O O m 0 0 0 0 0 0 0 0 0 m x x x x x x x x x 0 0 0 0 0 0 0 0 0 0 W Q m O O O O O O O O O O m O 0 0 0 0 0 O O O J O 0 0 0 0 0 O O O O O O O O O O O O m x x x x x x x x x Q 0 0 0 0 0 0 0 0 0 0 0 0 O O O O O O O no 0 a O 2 0 O 0 0 0 0 0 0 0 0 0 0 0 O 0 O o O J m E O 0 0 0 0 0 O 06 o a x x x x x X x X X 0 0 0 0 0 0 no O Om a a 0 J ¢ m m N m 0 y❑ > O D U fmJ U> 7 a > 0 p m m m v a>i m a m a0❑❑❑❑ m � 'm U E m N N N %� N m m ❑ ` a N m b m m V d a m m m d N 0 ❑ r L Qaa` a`aa` O O a a a a a O l00 O (O N O) O � x � N � J U C E L O) � � L E � c m � � o~ t api0 � L � � (n � N Q O � p O ~ J 7 N N 7 Co � o U d y x x O C T J � E cQ `m Q yo�ro O @ O @ a w y y V G m a a a 0 GI rn d Q LL O O O O AIO � n O 000mmoi of N N N N 0 0 0 0 0 o O o a eaaaee< c ccoc000 N N N N N N N N o oo0omn� O OOONn NfO O O O O O O O O O O O O O O O O 0 00 n nrnnnnn 00000000 oimnmmmmri o 000��nm a vmN N N N N N N N N it#Rit#3K# U UUUUUUU Q QQQQQQQ Z ZZZZZZZ a aaaaaaa UUUUUUUU LL LL LL LL LL LL LL LL U Q « 0 U m u O o a � m a E E U C m `m m m 'mO "m0 cc x LL N O O W N J m C a �❑o m fix• a d ¢ O o a n = J o N a a J � v E o � Co a fA a)N 0, C N N E � a c a c a)U1 m o m m a°i o, m rn w � " c E 4D U CoN O � p L U Q � N C @ d C N N a O Cp 3 _ @ O T vmi � U @ N @ U N d U o LL C � N w N 7 =p J w r y N J L ui= - -p a Y�3a O E � d Q CD N O) � O � N N O N M � M V O V N O. N ❑. N N � N � ❑ L a Q m O • E N m W � 7 J � w � O O T U N m Z � � g E E E E O O Q Q Q Q Q d � @-' � N r n n n � 2 � c � N � W U w Z LL Y W p o Q 0 C Y a a H ' m y U U 61 m N �� rp @ Q J D d 3 N N E U O .., ❑ N W � W •3 � O O i y °j N w = m � ° o. N m ❑ � ❑ m � � f0 � �a @ d o � Co Z � OM c o � R .E OC � i� � N V � � O Q L O J L �° 0 � m LL 7 � `.' m J ++ w Li -� v❑ d � U U � h o c � o o J@ �0 o "O p N �m o � � �° �oE �s0 p �. 0 � N @ d � � N R G� R C° C fn y� m 3 �= o a �. aai -o � m E E £ m@ E m E t0i � �_ _ �' a Q U a Q U o C a m d o m cn �� Oa U� a U c a C) 'a m� 0 m O O T 0 0 0 0 0 0 0 0 o O 0 0 0 0 0 O 00 OM C, m J O 0 0 0 0 0 0 0 0 N 0 0 0 0 0 0 o n o x x x x x x x x x F 0 0 0 0 0 0 0 0 0 N m A V o O O o 0 0 0 0 o a O o 0 0 0 o O O o J O 0 0 0 0 0 0 0 0 O O O o 0 0 O O O % X x X X X X X X _W a m O O O O O O O O O ° r e 0 0 O o 0 0 0 0 G a O O o 0 o O O o O O Z � J 0 00000 0 0o E 0 0 0 0 0 0 0 0 0 lo- A a % X XXX x x x x 0 0 0 0 0 O no O O a p a = x o m Q m c m > U Cl C � O y j a >m >m v >m >m c ❑` o a°> y m m m m m m d '> ynaa E ❑ m N m N N N N o� m a m m m m ❑ t t a a`v c`av U ❑ O miQ¢Qa¢ a a a a a r ¢ O O O V M N � � h O N x N -O O N @ E 7 r J U '� C E a E Y? c @ 7 7 0 � U L � � V N N Q O O G O F- J � � Q v � o U d y X X O T J � � C Q E l�0 Q �' o @ v @ -O O U avi y �7 d� Q LL U) w w U (MON SV aaAOHJdV GaAoxadV 21 ouaaysio MISAs uoissaxaaris azlis --"— Wa LSAS wuv iv awl r-- 6/#*G"HOr sa UCNVJLs DNIQ'Imo C) NII' Enu 30 Amoo OZOZ 9 9 Ndf QRAI1321H Fire Alarm submittal for: o 0 0 0 Electrical Contractor: 1288 RESEARCH RD. GAHANNA, OH 43230 (614) 755-4500 TEL 614) 755-4510 FAX WEBwwwxomanoff ro cc U ier. a 1198B •D HEi\jDERSON RD, COLUMBUS, OH 43220 (614) 291-8629 TEL (614) 291-8520 FAX EMAIil ssys emscom WEB www.p ssystems.com i 0 _ � o Z N Ql O O N N N (n M t0 0 co O LU 0 = ; ; Z N N LU O m �0 t0 D�JX mJWQ i Ujco 0 H U. rQ E Sr O�ned (PI w �� VOSB GE Z O Q C) `V Fwr2 M �— I LO � WN O r- i1 zUJ� �OZ LD OL = O W W U ~ 1— W U, w�- cnl—ZE— Q d-11 O� U) W Z L1J W CnUJWU' J Q Z �U)Z(5—' m O z J � W' 2 m Q W Z 0-Oz-�W U) W J w z \wJ moo Q CM 0. NI, LL I LD w (D _ 0 O � mz LO m d' I FIRE- ALARM PLAN ISSUE REVISION DA iFA�C I i I 11 /8/2019 i i GENERAL NOTES- FIRE ALARM LEGEND System Outputs 1. THE FIRE ALARM SYSTEM MUST BE IN STRICT COMPLIANCE WITH APPLICABLE SECTIONS OF THE NATIONAL ELECTRICAL CODE (ARTICLE 760) AND ALL APPLICABLE NFPA STANDARDS INCLUDING NFPA-72 (2016) ALONG WITH THE OHIO BUILDING CODE (2017). 2. INSTALLATION MUST COMPLY WITH ALL APPLICABLE FEDERAL, STATE, OR LOCAL LAWS, REGULATIONS, CODES, AND SPECIFICATIONS. 3. ALL INSTALLATION MUST BE APPROVED BY THE LOCAL AUTHORITY HAVING JURISDICTION. 4. TO AVOID CONTAMINATION AND DUST ACCUMULATION IN THE SMOKE DETECTORS, IT IS RECOMMENDED THAT THE SMOKE DETECTORS NOT BE INSTALLED UNTIL AFTER CONSTRUCTION IS COMPLETED AND THE SUBJECT AREA HAS BEEN CLEANED. THE SUPPLIER IS NOT RESPONSIBLE FOR DUST ACCUMULATION IN SMOKE DETECTORS AND WILL NOT WARRANTEE DEVICES THAT HAVE NOT BEEN PROPERLY MAINTAINED. WHEN DETECTORS ARE INSTALLED, PROTECTIVE COVERS SHALL BE INSTALLED OVER EACH DETECTOR AND REMOVED BY AUTHORIZED SERVICE PERSONNEL. 5. ALL FIRE ALARM SYSTEM WIRING INCLUDING SHIELDS SHALL BE CLEAR FROM SHORTS, OPENS AND GROUNDS. 6. WHERE CONDUCTORS ARE RUN IN CONDUIT, USE ONLY APPROVED CABLE. ALL SHIELDED WIRE MUST BE CONTINUOUS THROUGHOUT CIRCUIT, ALL SHIELDS SHALL BE ISOLATED FROM GROUND. ALL SHIELDS SHALL TERMINATE AT THE FIRE ALARM CONTROL PANEL ONLY. 7. DO NOT LOCATE SMOKE DETECTORS WITHIN 3 FEET OF SUPPLY AIR VEN TS. 8. FIRE ALARM SYSTEM SHALL BE INSTALLED BY A CERTIFIED AND LICENSED FIRE ALARM SYSTEM CONTRACTOR. 9. EXERCISE ALL SPRINKLER SWITCHES WITH AN OHM —METER TO VERIFY PROPER NORMALLY OPEN CONTACT TERMINATION PRIOR TO CONNECTION TO FIRE ALARM SYSTEM. 10. HEAT DETECTORS LOCATED IN ELEVATOR HOISTWAYS, PITS AND MACHINE ROOMS ARE TO BE MOUNTED WITHIN TWO FEET OF THEIR ASSOCIATED SPRINKLER HEADS. DETECTORS SHALL NOT BE INSTALLED IN EITHER LOCATION WHERE SPRINKLER HEADS DO NOT EXIST. 11. WHEN ATTACHING CONDUIT TO CONTROL UNIT BACKBOXES (FIRE ALARM CONTROL PANELS, DIGITAL ALARM COMMUNICATOR TRANSMITTERS, NOTIFICATION APPLIANCE CIRCUIT POWER EXTENDER PANELS, ETC.), USE PROVIDED KNOCKOUTS ONLY. 12. PRIMARY SURGE PROTECTORS FOR SIGNALING LINE CIRCUIT RUNS _ IN/OUT OF BUILDINGS MUST BE INSTALLED AS CLOSE AS PRACTICABLE TO EACH AND EVERY POINT OF CIRCUIT ENTRANCE/EXIT OF BUILDING. A PROPER EARTH GROUND CONNECTION AT EACH LOCATION IS REQUIRED. (NATIONAL ELECTRICAL CODE, ARTICLE 800-30) 13. DUPLICATE ADDRESSES ARE INTENTIONAL DUE TO SELECTIVE POLLING OF INTELLIGENT AND NON —INTELLIGENT DEVICES. 14. OFF —SITE MONITORING SHALL COMPLY WITH NFPA-72 SECTION 26.5 (2016), REQUIRING THAT THE CENTRAL STATION BE CERTIFIED WITH UNDERWRITER'S LABORATORIES (UL827) AND/OR FM GLOBAL. THE CONTRACTOR PROVIDING MONITORING MUST POST DOCUMENTATION OF THIRD PARTY (CENTRAL STATION) CERTIFICATION WITHIN 36—INCHES OF THE FIRE ALARM CONTROL PANEL. MONITORING CONTRACTORS UNABLE TO PROVIDE PROOF OF CENTRAL STATION CERTIFICATION WILL NOT BE ELIGABLE FOR CONTRACT. 15. VERIFY CURRENT DRAW LOADS WITH ADDRESSABLE RELAY CONTACT LIMITATIONS. AUXILIARY ISOLATION RELAYS WILL BE REQUIRED WITH ADDRESSABLE RELAYS WHEN SWITCHING LOADS GREATER THAN 0.5 AMPERES (SEE ADDRESSABLE RELAY SPECIFICATIONS FOR MORE INFORMATION). 16. PRIMARY 120VAC POWER SHALL BE PROVIDED FROM A DEDICATED BRANCH CIRCUIT TO EACH OF THE FOLLOWING: FIRE ALARM CONTROL PANELS, TRANSPONDERS, NOTIFICATION APPLIANCE CIRCUIT POWER EXTENDER PANELS AND (STAND—ALONE) DIGITAL ALARM COMMUNICATOR TRANSMITTERS. 17. DO NOT DEVIATE IN ANY WAY FROM THE SYSTEM LAYOUT OR DESIGN AS SHOWN ON THESE DRAWINGS. AS SUCH, PDS SYSTEMS IS NOT RESPONSIBLE FOR IMPROPER FUNCTIONALITY OF THE FIRE ALARM SYSTEM IN THE EVENT THAT THE INSTALLATION IS NOT CONSITENT WITH THE DESIGN AND LAYOUT SHOWN ON THESE DRAWINGS. 18. PROVIDE EARTH GROUND AT EACH FIRE ALARM REMOTE ANNUNCIATOR PANEL, FIRE ALARM CONTROL PANEL, REMOTE POWER SUPPLY, NOTIFICATION APPLIANCE CIRCUIT POWER EXTENDER PANEL AND AUDIO TRANSPONDER. 19. DO NOT MOUNT FIRE ALARM CONTROL PANEL, TRANSPONDERS OR ANY TERMINAL CABINETS DIRECTLY TO CONCRETE BLOCK OR BRICK. USE BACKER —BOARD WHEN NECESSARY. 20. MINIMUM AUDIBILITY LEVEL THROUGHOUT THE BUILDING WAS DESIGNED TO MEET THE PUBLIC MODE AUDIBLE REQUIREMENTS OF NFPA 72 (2016). AUDIBILITY IS DESIGNED TO HAVE A SOUND LEVEL AT LEAST 15 d6 ABOVE THE AMBIENT SOUND LEVEL OR 5 dB ABOVE THE MAXIMUM SOUND LEVEL _ HAVING A DURATION OF AT LEAST 60 SECONDS, WHICHEVER IS GREATER, MEASURED 5FT ABOVE THE FLOOR IN THE AREA REQUIRED TO BE SERVED BY THE SYSTEM USING THE A -WEIGHTED SCALE (dBA). PULL STATION; NBG-12LX; MOUNT BETWEEN 42" & 48" FROM FINISHED FLOOR Qs SMOKE DETECTOR WITH BASE; FSP-951 W/ B300-6 O SMOKE DETECTOR WITH LOW FREQUENCY SOUNDER BASE; FSP-951 W/ LFSB B 20OS— LF— WH © SMOKE/CARBON MONOXIDE DETECTOR WITH SOUNDER BASE; FCO-951 W/ B20OS-WH Q HEAT DETECTOR WITH BASE; FST-951 --Qs RETURN AIR DUCT —MOUNTED SMOKE DETECTOR; DNR, FSP-951 R ® ADDRESSABLE RELAY MODULE FOR EQUIPMENT CONTROL; FRM-1 © ADDRESSABLE CONTROL MODULE ; FCM-1 RT REMOTE TEST SWITCH FOR DUCT DETECTOR; RTS-151 OW SPRINKLER SYSTEM WATERFLOW SWITCH; FMM-1 SPRINKLER SYSTEM VALVE TAMPER SUPERVISORY SWITCH; FMM-1 0 ADDRESSABLE MONITOR MODULE; FMM-1 0 ADDRESSABLE MINI —MONITOR MODULE; FMM-101 p j HORN/STROBE; P2WL; MOUNT BOTTOMS 80" FROM FINISHED FLOOR OR TOPS NO LESS THAN 6" FROM FINISHED CEILING — WHICHEVER IS LOWER. STROBE; SWL; MOUNT BOTTOMS 80" FROM FINISHED FLOOR OR TOPS NO LESS THAN 6" FROM FINISHED CEILING — WHICHEVER IS LOWER. ELECTROMAGNETIC DOOR HOLDER; DH24120FPC FACP FIRE ALARM CONTROL PANEL; NOTIFIER NFS2-640 LBB FIRE ALARM BATTERY BACKBOX; NOTIFIER NFS—LBB FAAP#x FIRE ALARM ANNUNCIATOR PANEL; FDU-80 NAC—X NOTIFICATION APPLIANCE POWER EXTENDER PANEL: NOTIFIER FCPS-24S8 TG7FS FIRE ALARM SOLE PATH CELLULAR COMMUNICATOR: TG7LVF01 vv,A4.7K END OF LINE (E.O.L.) RESISTOR — 4.7K V_M2.2K END OF LINE (E.O.L.) RESISTOR — 2.2K V,\/\3.9K END OF LINE (E.O.L.) RESISTOR — 3.9K \^6A47K END OF LINE (E.O.L.) RESISTOR — 47K CIRCUIT TAG (EXAMPLE "'I"). DESIGNATES BEGINNING OF CIRCUIT RUN FROM PANEL. WIRE PULLS TO BE LABELED ACCORDINGLY AT PANEL. VD VOLTAGE DROP: (VD=2xLxRxl/1000) WHERE VD=VOLTAGE DROP (DC VOLTS), L=ONE—WAY LENGTH OF CIRCUIT (FEET), R=CONDUCTOR RESISTANCE (W/1,000'), I=LOAD CURRENT (AMPERES) NAC NOTIFICATION APPLIANCE CIRCUIT C CO a •.°� � �0 co Cj'� co of a 0 o� 0 4-IS Cj °� o •�°' o, o � �0 � O� 0� O� Q>� O� 00 U� �� ,`� �0 ' 0 '0G`� �0 CIA,;/ � . 0 � •:o� .�o� �� 0 0° of �° °� mot ,c Co �o o� a o� a o� a � • � �� ,�� 0 a o a o a a i o o o o �0 �0 ,1.-0 -10 �0 �0 ,`0 ,��`CC •�, 0 0 '0 O 0 Qj x0 CO 0 0 0 0 0 0 0 � � System n u s A B C D E F G H I J K I L M I N-1 0 1 P I Q I R 0Pull stations NONE MENNEN on 0Smoke detectorsNONE MENEM on 0 - 00NONE MENNEN00■0 Smoke detector primary egress floor elevator lobbym NONE MEN No on �aa NONE N MEN on NONENo.o.o.o Smoke ..o.o0 on ESmoke detector, elevator pit (N/A) NONE E M: Duct -mounted smoke detector No MEN 0MENNEN NONE 5610M Waterflow NONE MENNEN EM Fire pump running NONE MENNEN EM Valve tamper No MEN 0 MENEENEEM Fire pump low suction 0 MEN 0 MENEENEEM MFire pump phase reversal MEN 0 MENEENEEM M'� Fire pump power failure 0 MEN 0 MENEENEEM M 0 No 0 No MENEM EM M: Fire alarm syste m low battery NONE 0 No MEMENEEM MOpen circuit fault 0 No MEMENEEM M MEN 0 No MEMENEEM Ground fault 0 No MEMENEEM Invalid response from addressable device MEN 0 No MEMENEEM o=©o©©o®oo©o©®ooao Uj 0 O Z N V O ONcoN U) 0 0 ��MaO W 0�00) Z 04 W r1 o Om<o` 2 0 _ X m-'Wa ao0►_ V Srn,, O��ed VOSB O I Q LL f-W1" M �N' W, WU0i zOzj LL=0 1 U) C) < Uj Q cn F-- z _zcn-� U)WZW11 C� U J W CU' --�Qz� CLWz zW1 om �-• W = az 0- Z—_j I W i W D Z W Q ti C4") ® Q d' LLI — W O(D 0O Z ® m — L J m � i FIRE ALARM PLAN ISSUE REVISION DATE FA�L 11 /8/20 9 AFIRE ALARM RISER 1 go AL_ /\L!\1%IVI VVI. 11\Vt_ 1 /U7LL 1 NOTIFIER NFS2-640 120VAC (#14/2; FPL,TW) FAAP POWER a (#16/2; FPL,TW) FAAP DATA Q � Q FAAP DATA RETURN (#16 /2; FP L, TW) TELCO LINE 1 TELCO LINE 2 i �4L2.FPL,TW "M F cop600R I j SLC LOOP #01 m m m C T W T W T T T T T T T T W C M N (#16 /2; FPL,TW) j 4L2,FPL,TW NAC-D CKT #02 SLC LOOP #02 M M s s s s s s s s s T W s S S S s S (#16/2; FPL, W) L SB L BL B L B L SB BL BL 8L I (#14/2; FPL,TW) NAC #1 ---SPARE (#14/2; FPL,TW) NAC #2 '---SPARE I (#14/2; FPL,TW) NAC #3 I -SPARE j I (#14/2; FPL,TW) NAC #4 , I I � (#14/2; FPL,TW) NAC #5 , ---�---�-�-- � ' 1 I ( #14/2; FPL,TW) NAC #6 � ' I ' -----�-�--�� i ► 1 I ' I ( #14/2; FPL,TW) NAC #7 I C ; ---�- --- �F-�-" I ' I ( #14/2; FPL,TW) NAC #8 � I ' ---hl--b�-li I ii�- " I I I , ' , r---------------------------------------------------------� ; I I I I FIRE ALARM NAC BOOSTER 120VAC NAC-A NOTIFIER FCPS-24S8 HOOD HOLDER POWER r _ ( #14/2; FPL,TW) I I I ( #14/2; FP L, TW) NAC #1 , --��--� -�1--®--�F-� ' ' I ' ' I I I 14 2; FP L, TW NAC 2 --�--�1--�Lt�1-LL , I I ' I (#14/2; FPL,TW) NAC #3---SOUNDER BASE POWER I ( 14 %2; FPL,TW) NAC #4 --SPARE � 1 , � I I FIRE ALARM NAC BOOSTER 120VAC ' NAC-B NOTIFIER FCPS-24S8 L_ HOOD HOLDER POWER - (#14/2; FPL,TW) I I I 1 (#14/2; FPL,TW) NAC #1 --SOUNDER BASE POWER , I (#14/2; FPL,TW) NAC #2 , --SOUNDER BASE POWER I I I (#14/2; FPL,TW) NAC # 3 --SOUNDER BASE POWER , I 1 14 2• FPL TW NAC #4 --SOUNDER BASE POWER ; 1 I I , 1 , I---------------------------------------------------------------------------------- I �- 14L2,FPL,TW r-- NNAAC_B CKT 0:2] c c s 14L2.FPL,TW r DD CKT #,, FIRE ALARM NAC BOOSTER 120VAC NAC-C NOTIFIER FCPS-24S8 HOOD HOLDER POWER (#14/2; FPL,TW) NAC #1 (#14/2; FPL,TW) NAC (#14/2; FPL,TW) NAC #3---SPARE (#14/2; FPL,TW) NAC #4 --SPARE FIRE ALARM NAC BOOSTER 120VAC NAC-D NOTIFIER FCPS- 24S8 HOOD HOLDER POWER ( #14/2; FP L, TW) (#14/2; FPL,TW) NAC #1 --SOUNDER BASE POWER (#14/2; FPL,TW) NAC #2 --SOUNDER BASE POWER (#14/2; FPL,TW) NAC #3---SOUNDER BASE POWER (#14/2; FPL,TW) NAC #4 - SOUNDER BASE POWER FIRE ALARM NAC BOOSTER 120VAC NAC-E NOTIFIER FCPS-24S8 HOOD HOLDER POWER ( #14/2; FP L, TW) (#14/2; FPL,TW) NAC #1 ----�F�--�1--�� (#14/2; FPL,TW) NAC #2 --SPARE (#14/2; FPL,TW) NAC #3 --SPARE (#14/2; FPL,TW) NAC #4 --SPARE FIRE ALARM NAC BOOSTER NAC—F NOTIFIER FCPS— 24S8 120VAC (#14/2; FPL,TW) NAC #1 --SOUNDER BASE POWER (#14/2; FPL,TW) NAC #2 --SOUNDER BASE POWER (#14/2; FPL,TW) NAC #3---SPARE (#14/2; FPL,TW) NAC #4 --SPARE 14L2,FPL,TW N#AC_B CKT #0 s VSB 3 L SB L N �14L2,FI L,TW C-D CKT #04 _#I4L2.F L TW NAC_D CKT S S C S S �BL UL S S S M MSB L B LB l B LSB BL B L BL SBL B L BL BL B L� —P 4L2.FPLT NAC-FF CKT 4(T21 r sS—��—` s �s � l---f W s S �S� �NAC-FF CKT #01J R S �Ss S s-s L SB L SB Lt_ �14L2,FPL,TW NAC_B CKT #0_3_1 I NA14 2,FPL,TW C-BB CKT #0� CT LF FS SBL B Lt- ta S s s S S S R H S M R R R R H S R S C S S L SBL B L B L SB L B(L� B,� ui --- ___ Z N eF O ON00N NMOtp ma0 Lu � T Oi a0 ZvcN -- W .. T T -_ —_ _J 2 — 0 X » 0 poll wa �0f-LL T g- ed Srn dip (' m cn VO S B 'con cE Z 0 Q U ln':, M W LQ W zU��l CDOZ0 U) LL o�WQ� W — (D — coI—Z� Qzcn f (nWZW JJ, �V JWU' �—�QZ> �m0zW. Q W W a.OZ?�i (D i l i � W W U) > Q v 13� O M Q d- 0.. W 0 — U),(D 00 Z L J m SOMEONE r*,%_ r) I i FIRE ALARM PLAT ISSUL RFM&ON uA E I i I i I FA�R 11 18/201 I =e ui I� p ZNaO 0 c", Y) LU ❑ T m Z O a N ' � LU x^ Suet 7 T T '� - `- _ � ❑ m co ro J .... O x » m-iwa coo U. ui T U Sr Q�red (pp CD VOSB y G E I Z O { Q C) LO `� L�LO � �W�I W U 0CN tin��OZ -Oz0 (/) LL � H w U C) : - wF=C�"_- c Z F- QZ(n-w W Z W W _U-WUI - < m 0 (D _J Z W J F- 2m<zWi a0z-�' I e I I i I I C I W W Q CD1 �I Q d W' W W O— C) O, ,J z LO cn I FIRE A!ARM PEA` 'I SSUr REVISION DATE I I i I i i i i i I I I j FA� 1 i I I 111812019 o CD Z N t 0 0 co N - - (n M 0 1f> eM co W O r O 0 r Z a N -" W ^ .- -J m m m OJX m J W Q w O ~ LL rn U � � V �3 o fed Smdii 4! Ai VOSB CE z O F- Q U LLI � 0 LO ui wc)0�- j z �O Z LD �LL=0 F— C) F— W Q U u�(Du-I cn E— _z �-- Cl Fnw_ZWW cnv-wv' �zz> i U) _1 o'm0CD_j �- z WI =m<zW! 0-Oz—� L i i 0 0 i i W ' Z I .. W Q ry o m Q O w 00 a J z LO ® �m I I , I i I i j !RF AL -ARM PLAN ISSUE REVISION DATE I i i i i I I I I I FA�2 I i I ( 1/8/2019 I 0 =_ OaooN (nMO�if IX M O w 0 r 01 LU Z � -4 W _ O-1X t m J W a uico O 1— LL rn U r I I &\ed Srnc7G VOSB con ._ GE v F- Q U_ UI F— W r`I �w3C-4Nl � wU0�l z� O zI L9Oz O' U) LL ' p F w Q C)��—�i W — (D (n F- z F- Qzc—cr-I cnWzOfWl (nUJW17 U' �mOzw 2mQW>' a.Oz?�� I i i 100 10 i I i �. W I. .. W � ®gym W z w > Q v� ()� < CL W V o0 L� o CY) O_ z FIRE Af ARI M PLAN ISSUE K':-VISON DATE I I i FA�3 i 11 /8/201.9 I 0 o ----_ Z N eF O 0, M O �A ��MaO w = O T a oTOi Z d' N W ., e 3: (n r r 0 m �O l0 -` O�JX m J Lu < co0 F- tL mU T � T wned SM,a,/ �� e-'s, VOSB I CE z O Q U LID w r` Ur w N wU0 ��Oz Oz ' U) LL -r O F- w o V) W co I— z F—I QZ(n—�I (nW_ZWW, v�v Jwv 7 J Q z �mOzW 2mQW>' i 0-0zz�' I I i i i i I I w Z) z ■ w Q v O. 0 CY) < CL lt W � wO_ D = 0O mz Lo m s 0 I I I r IRE ALARM PLAN ISSUE REVISION DAiE i i I I I I i I i I i FA�4 -1 1 1 /8 /2 019 0 Z N O O N OD N U) 0�MOD 0o Z N u iLLI -A MW=T T O » x m J W Q o 0 U. T 4 T z= Olt, fied SMC7// Q' m VOSB CC E Z O Q I U L�Lr> W WON. �I I Z O z LD LL p E— _ W Ft o LL Q WLwIW—WU (n F- Z Z W EO- cnUJWU —��zz> a.mpzW > =0°QzW 0- z_� (D I I (00 0 0 UL Z • W Q v � c�' e Q WLu O DO Z I I m — I i I i FIRE ALARM PLAN ISSUE REV1S'ON GATE I I I I I I FA�5 i i I I I, 11 /8/2010 I -3 Z N O O N - N M 00 W �0) Cl� rn o Z a N ui 2 N a a Ca M O » X m J W Q aOQr"LL U _ o> II =_ ed sma11 e *VOSBcn Z O f— Q CU i-wLol `� V71 Lo W0 W CV WU- I Z O Z _ U3U-20'' W LuWV; p LI J f= (D (/) -' Z F' QZtn—� (nWZWW! cnv�wvi 7�JQZ�j 0- -0- z w 2m<zW�, -� CL0z(D i i I i i I I W Z i W Q ry C) � � I Q L!J W O_ f (D = ' 0 z m LO -� m ® � Z d- 0 FIRE Ali -ARM PLAIN SSUE REVISION GATE I I I I i i I I I i FAa6 ^ 1 j III /8/2019 �� DN-7111:M • A-13 CUT SHEETS & CALCULATIONS NFS2440(E) - - rR1,1030TI F1 E R 0 Intelligent Addressable _- Fire Alarm System by Honeywell �► _��__ , __ 7�511 _____ ___ ------- _____ -L_,__ 7-3- � _ - . , General ._ The NFS2-640 intelligent Fire Alarm Control Panel is part of the - ONYX® Series of Fire Alarm Controls from NOTIFIER. = _ s - � - a _ - In stand-alone or network configurations, ONYX Series products C_ � - meet virtually every application requirement. - - =- - _ ;- _ = _ 1 s �_ The NFS2-640 s modular design makes system planning easier. _ - = -- _ _ _ { The panel can be configured with just a few devices for small build- � Ly- = _ = -: P 9 J = =`_ ing applications, or networked with many devices to protect a large _ -- campus or a high-rise office block. Simply add additional periph- - era/ equipment to suit the application. -_-t . ' _.- PP - i' _. A host of other options are available including single- or multi- M• i `: - _ __ P 9 9 r� { - _ _ - _" (• i• channel - a e voice; firefighter's r' telephone; n r to s to e o e LED LCD, o PC -based - C C d 9 l -� - P - _.� _ - graphic annunciators; networking; advanced detection products for = - i f -- �- challenging environments; wireless fire protection; and many addi- _ _ _ _ - -- tional options. = - _ P = = �, - }� - NOTE: Unless called out with a version -specific E at the end of - the part number, "NFS2-640" refers to models NFS2-640 and = � - NFS2-640E, similarly, "CPU2-640" refers to models CPU2-640 � `_` and r'P/ l9_Rdn� Features • Certified for seismic applications when used with the appropri- ate seismic mounting kit. • Approved for Marine applications when used with listed com- patible equipment. See DN-60688. • One, expandable to two, isolated intelligent Signaling Line Cir- cuit (SLC) Style 4, 6 or 7. • Wireless fire protection using SWIFT Smart Wireless Integrated Fire Technology. See DN-60820. • Up to 159 detectors and 159 modules per SLC; 318 devices per loop/636 per FACP or network node. - Detectors can be any mix of ion, photo, thermal, or multi -sen- sor; wireless detectors are available for use with the FWSG. - Modules include addressable pull stations, normally open contact devices, two -wire smoke detectors, notification, or relay; wireless modules are available for use with the FWSG. • Standard 80-character display, 640-character large display (NCA-2), or display -less (a node on a network). • Network options: - High-speed network for up to 200 nodes (NFS2-3030, NFS2- 640, NFS-320(C), NFS-320SYS, NCA-2, DVC-EM, ONYX - Works, NFS-3030, NFS-640, and NCA). - Standard network for up to 103 nodes (NFS2-3030, NFS2- 640, NFS-320(C), NFS-320SYS, NCA-2, DVC-EM, ONYX - Works, NCS, NFS-3030, NFS-640, NCA, AFP-200, AFP-300/ 400, AFP-1010, and AM2020). Up to 54 nodes when DVC- EM is used in network paging. • 6.0 A switch mode power supply with four Class A/B built-in Notification Appliance Circuits (NAC). Selectable System Sen- sor, Wheelock, or Gentex strobe synchronization. • Built-in Alarm, Trouble, Security, and Supervisory relays. • VeriFire® Tools online or offline programming utility. Upload/ Download, save, store, check, compare, and simulate panel databases. Upgrade panel firmware. • Autoprogramming and Walk Test reports. • Multiple central station communication options: - Standard UDACT - Internet - Internet/GSM • 80-character remote annunciators (up to 32). AUDIO OPTIONS NOTE: For mounting hardware, see "Enclosures, Chassis, and Dress Plates" on page 6 and peripheral data sheets. DVC-EM: Digital Voice Command, digital audio processor with message storage for up to 32 minutes of standard quality (4 min- utes at high quality) digital audio. Capable of playing up to eight simultaneous messages when used with Digital Audio Loop (DAL) devices. See DN-7045. DVC-RPU: Digital Voice Command Remote Paging Unit for use with DVC-EM. Includes the keypad/display. See DN-60726. DS-DB: Digital Series Distribution Board, provides bulk amplifica- tion capabilities to the DVC-EM while retaining digital audio dis- tribuition capabilities. an be configured with up to four DS-AMPs , supplying high-level risers spread throughout an installation. See DN-60565. DVC-KD: DVC-EM keypad for local annunciation and controls; sta- tus LEDs and 24 user -programmable buttons. See DN-7045. DS-AMP/E: 125W, 25 VRMS, or 10OW, 70VRMS. 70VRMS requires DS-XF70V step-up transformer. Digital Series Amplifier, part of the DS-DB system. See DN-60663. DS-RFM, DS-FM, DS-SFM: Fiber conversion modules for DVC- EM, DS-DB distribution board, and DAX and DAA2 Series amplifi- ers. See DN-60633. DVC-AO: DVC Analog Output board provides four analog output circuits for use with AA Series amplifiers. Four -channel operation supported. See DN-7045. DAA2-5025(E): 5OW, 25 Vrms Digital Audio Amplifier assembly with power supply; includes chassis. See DN-60556. DAA2-5070(E): 5OW, 70.7 Vrms Digital Audio Amplifier assembly with power supply; includes chassis. See DN-60556. DAA2-7525(E): 75W, 25 Vrms digital audio amplifier assembly with power supply; includes chassis. See DN-60556. DAX-3525(E): 35W, 25 Vrms Digital Audio Amplifier assembly with power supply, includes chassis. See DN-60561. DAX-3570(E): 35W, 70.7 Vrms Digital Audio Amplifier assembly with power supply, includes chassis. See DN-60561. DAX-5025(E): 5OW, 25 Vrms Digital Audio Amplifier assembly with power supply, includes chassis. See DN-60561. DAX-5070(E): 5OW, 70.7 Vrms Digital Audio Amplifier assembly with power supply, includes chassis. See DN-60561. TELH-1: Firefighter's Telephone Handset for use with the DVC-EM when mounted in the CA-2 chassis. See DN-7045. CMIC-1: Optional microphone and microphone well assembly used with the CA-1 chassis. RMAIRM-1 SA: Remote microphone assemblies, mount on ADP-4 (RM-1) dress panel or CAB-RM/-RMR (RM-1 SA) stand-alone cab- inets. See DN-6728. AA-30: Audio Amplifier, 30 watts, 25 Vrms. Includes amplifier and audio input supervision, backup input, and automatic switchover, power supply, cables. See DN-3224. AA-120/AA-100: Audio Amplifier provides up to 120 watts of 25 VRMS audio power for the NFS-640. The amplifier contains an inte- gral chassis for mounting to a CAB-134, -C4, or -D4 backbox (con- sumes one row). Switch -mode power. Includes audio input and amplified output supervision, backup input, and automatic switcho- ver to backup tone. Order the AA-100 for 70.7 VRMS systems and 100 watts of power. See DN-3224. DAA Series Digital Audio Amplifiers: Legacy DAA Series ampli- fiers are compatible with DVC-EM systems running SR4.0. For specific information on DAA-50 series amplifiers, refer to DN-7046. For information on DAA-7525 Series, refer to DN-60257. NFC-25/50: 25 watt, 25 VRMS, emergency Voice Evacuation Con- trol Panel (VECP) with integral commercial microphone, digital message generator, and single -/dual -channel Class A or Class B speaker circuits. See DN-60772. COMPATIBLE DEVICES, EIA-232 PORTS PRN-7: 80-column printer. See DN-60897. a = U 8 CD LL Z NFS2-640 • EIA-485 annunciators, including custom graphics. • Printer interface (80-column and 40-column printers). • History file with 800-event capacity in nonvolatile memory, plus separate 200-event alarm -only file. Alarm Verification selection per point, with automatic counter. • Presignal/Positive Alarm Sequence (PAS). • Silence inhibit and Auto Silence timer options. • March time/temporal/California two -stage coding/strobe syn- chronization. • Field -programmable on panel or on PC, with VeriFire Tools pro- gram check, compare, simulate. • Full QWERTY keypad. • Battery charger supports 18 - 200 AH batteries. • Non -alarm points for lower priority functions. • Remote ACK/Signal Silence/System Reset/Drill via monitor modules. • Automatic time control functions, with holiday exceptions. • Surface Mount Technology (SMT) electronics. • Extensive, built-in transient protection. • Powerful Boolean logic equations. • Support for SCS Series smoke control system in HVAC mode. NCA-2 AS PRIMARY DISPLAY • Backlit, 640-character display. • Supports SCS Series smoke control system in FSCS mode when SCS is connected to the NCA-2 used as primary display. • Supports DVC digital audio loop. • Printer and CRT EIA-232 ports. • EIA-485 annunciator and terminal mode ports. • Alarm, Trouble, Supervisory, and Security relays. DN-7111:M • 3/24/17 - Page 1 of 8 VS4095/5: Printer, 40-column, 24V. Mounted in external backbox. See DN-3260. DPI-232: Direct Panel Interface, specialized modem for extending serial data links to remotely located FACPs and/or peripherals. See DN-6870. COMPATIBLE DEVICES, EIA-485 PORTS ACM-24AT: ONYX Series ACS annunciator - up to 96 points of annunciation with Alarm or Active LED, Trouble LED, and switch per circuit. Active/Alarm LEDs can be programmed (by powered - up switch selection) by point to be red, green, or yellow; the Trou- ble LED is always yellow. See DN-6862. AEM-24AT: Same LED and switch capabilities as ACM-24AT, expands the ACM-24AT to 48, 72, or 96 points. See DN-6862. ACM-48A: ONYX Series ACS annunciator - up to 96 points of annunciation with Alarm or Active LED per circuit. Active/Alarm LEDs can be programmed (by powered -up switch selection) in groups of 24 to be red, green, or yellow. Expandable to 96 points with one AEM-48A. See DN-6862. AEM-48A: Same LED capabilities as ACM-48A, expands the ACM-48A to 96 points. See DN-6862. ACM-811: Remote Relay Module with eight Form-C contacts. Can be located up to 6,000 ft. (1828.8 m) from panel on four wires. See DN-3558. FDU-80: Terminal mode. 80-character, backlit LCD display. Mounts up to 6,000 ft. (1828.8 m) from panel. Up to 32 per FACP. See DN-6820. LCD2-80: Terminal and ACS mode. 80-character, backlit LCD dis- play. Mounts up to 6,000 ft. (1828.8 m) from panel. Up to 32 per FACP. See DN-60548. LDM: Lamp Driver Modules LDM-32, LDM-E32, and LDM-R32; remote custom graphic driver modules. See DN-0551. SCS: Smoke control stations SCS-8, SCE-8, with lamp drivers SCS-8L, SCE-8L; eight (expandable to 16) circuits (HVAC only). See DN-4818. TM-4: Transmitter Module. Includes three reverse -polarity circuits and one municipal box circuit. Mounts in panel module position (single -address -style) or in CHS2-M2 position. See DN-6860. UDACT-2: Universal Digital Alarm Communicator Transmitter, 636 channel. See DN-60686. UZC-256: Programmable Universal Zone Coder provides positive non -interfering successive zone coding. Microprocessor -con- trolled, field -programmable from IBM® -compatible PCs (requires optional programming kit). Up to 256 programmable codes. Mounts in BB-UZC or other compatible chassis (purchased sepa- rately). See DN-3404. COMPATIBLE INTELLIGENT DEVICES NOTE. "A" suffix indicates ULC-Listed model. FWSG Wireless SWIFT Gateway: Addressable gateway supports wireless SLC devices. Not appropriate for ULC applications. See DN-60820. FSA-5000: Intelligent FAASTO XS Fire Alarm Aspiration Sensing Technology. Intelligent aspirating smoke detector for applications up to 5,000 sq.ft. For Canadian applications, order FSA-5000A. FSA-8000: Intelligent FAAST10 XM Fire Alarm Aspiration Sensing Technology. Intelligent aspirating smoke detector for applications up to 8,000 sq.ft. For Canadian applications, order FSA-8000A. See DN-60792. FSA-20000: Intelligent FAAST0 XT Fire Alarm Aspiration Sensing Technology. Intelligent aspirating smoke detector for applications up to 28,800 sq.ft. For Canadian applications, order FSA-20000A. See DN-60849. FSA-20000P FAASTO XT PRO Intelligent Aspiration Detector For applications up to 28,800 sq. ft. (2601 sq. m.) through one to four addressable pipes. See DN-60792 FSB-200(A): Intelligent beam smoke detector. See DN-6985. FSB-20OS(A): Intelligent beam smoke detector with integral sensi- tivity test. See DN-6985. FLASHSCAA18 INTELLIGENT FEATURES • Polls up to 318 devices in less than two seconds. • Activates up to 159 outputs in less than five seconds. • Multicolor LEDs blink device address during Walk Test. • Fully digital, high -precision protocol (U.S. Patent 5,539,389). • Manual ivi m n- u to nine levels. sensitivity adjustment t tY 1 P Pre alarm ONYX intelligent sensing - up to nine levels. • Day/Night automatic sensitivity adjustment. • Sensitivity windows: - Ion - 0.5 to 2.50/o/foot obscuration. - Photo - 0.5 to 2.35%/foot obscuration. - Laser (VIEW' - 0.02 to 2.00/o/foot obscuration. - Acclimate PIusTM - 0.5 to 4.00/o/foot obscuration. - IntelliQuadTM -1.0 to 4.00/o/foot obscuration. - IntelliQuad TM PLUS -1.0 to 4.00/o/foot obscuration • Drift compensation (U.S. Patent 5,764,142). • Degraded mode - in the unlikely event that the CPU2-640 microprocessor fails, FlashScan detectors revert to degraded i n n n o iv t h P 2-64 NAC circuits and erato a d ca act ae t e C U 0 P alarm relay. Each of the four built-in panel circuits includes a Disable/Enable switch for this feature. • Multi -detector algorithm involves nearby detectors in alarm decision (U.S. Patent 5,627,515). • Automatic detector sensitivity testing (NFPA-72 compliant). • Maintenance alert (two levels). • Self -optimizing pre -alarm. FSL-751 (VERY INTELLIGENT EARLY WARNING) SMOKE DETECTION TECHNOLOGY • Advanced ONYX intelligent sensing algorithms differentiate between smoke and non -smoke signals (U.S. Patent 5,831,524). • Addressable operation pinpoints the fire location. Up to 32 remote displays 7 _ E_- . o000 FDU-80 --111111111111111111111- No : : ,ocooaocamc ecoer�coee ❑w�cccooc=c �8 cdcccacco o _ ❑ NCA-2 OR with no display • Early warning performance comparable to the best aspiration systems at a fraction of the lifetime cost. FAPT-851 ACCLIMATE PLUS LOW -PROFILE INTELLIGENT MULTI -SENSOR • Detector automatically adjusts sensitivity levels without opera- tor intervention or Sensitivity increases with heat. programming. tY Microprocessor -based technology; combination photoan d ther- mal mal technology. • Low -temperature warning signal at 40°F ± 5°F (4.44°C ± 2.77°C). FSC-851 1NTELLIQUAD ADVANCED MULTI -CRITERIA DETECTOR • Detects all four major elements of a fire (smoke, heat, CO, and flame). • Automatic drift compensation of smoke sensor and CO cell. • High nuisance -alarm immunity. INTELLIGENT FAAS7® DETECTORS FSA-5000, FSA-8000, FSA- 20000 AND FSA-20000P • Connects directly to the SLC loop of compatible ONYX series panels. • Provides five event thresholds that can be individually pro- grammed with descriptive labels for control -by -event program- ming; uses five detector addresses. • Uses patented particle separator and field -replaceable filter to remove contaminants. • Advanced algorithms reject common nuisance conditions • FSA-5000 covers 5,000 square feet through one pipe. • FSA-8000 covers 8,000 square feet through one pipe. • FSA-20000 covers 28,800 square feet through one to four pipes. SLC Intelligent Loop 1 o o DEVICES )10-0 °-=p�= ------ M .0w FWSG •;°:8. FSC-851 IntelliQuad FAPT 851 Acclimate PLUS NBG-12LX t �, XP6/10110 Modules FSL-751 FlashScan VIEW - FMM 1 - FCM 1 FSP-851 Photo IDC NAC FSI-851 Ion if FST-851 Thermal FRM-1 FSA-8000 Relay Contact ...etc. SLC Intelligent Loop 2 EIA-232 Sample NFS2-640 System "C" cabinet size shown Options Page 2 of 8 - DN-7111:M • 3/24/17 ACM-8R Relay Control 2048 annunciator/control points _ o __ _ =_ _ o . - _ = = i =0 = __ - _. i1� ENE I = -- _� ACM/AEM-24AT LED Annunciator Optional 636 point UDACT PRN Series Printer FSC-851(A): FlashScan IntelliQuad Advanced Multi -Criteria Detector. See DN-60412. FCO-851(A): FlashScan IntelliQuad PLUS Advanced Multi -Crite- ria Fire/CO Detector. See DN-60689. FSI-851(A): Low -profile FlashScan ionization detector. See DN- 6934. FSP-851(A): Low -profile FlashScan photoelectric detector. See DN-6935. FSP-851T(A): FSP-851 plus dual electronic thermistors that add 135"F (57°C) fixed -temperature thermal sensing. See DN-6935. FSP-851 R(A): FSP-851, remote test capable. For use with DNR(W). See DN-6935. FST 851(A): FlashScan thermal detector 135OF (570C). See DN- 6936. FST 851 R(A): FlashScan thermal detector 135°F (57°C) with rate - of -rise. See DN-6936. FST 851 H(A): FlashScan 190OF (88°C) high -temperature thermal detector. See DN-6936. FAPT 851(A): FlashScan Acclimate Plus low -profile multi -sensor detector. See DN-6937. FSL-751(A): FlashScan VIEW laser photo detector. See DN- 6886. DNR(A): InnovairFlex low -flow non -relay duct -detector housing (order FSP-851 R separately). Replaces FSD-751 PUFSD- 751 RPL. See DN-60429. DNRW(A): Same as above with NEMA-4 rating, watertight. See DN-60429. B224RB: Low -profile relay base. See DN-60054. B224B1: Isolator base for low -profile detectors. See DN-60054. B21OLP: Low -profile base. Standard U.S. style. Replaces B71 OLP. See DN-60054. B501(A): European -style, 4" (10.16 cm) base. See DN-60054. B20OS: Intelligent programmable sounder base, capable of pro- ducing a variety of tone patterns including ANSI Temporal 3. Com- patible with sychronization protocol. See DN-60054. B20OS-LF: Low -frequency version of B200S. See DN-60054. B200SCOA: Based on B200SA, with added CO detector markings in English/French. For Canadian applications only. B200SR: Sounder base, Temporal 3 or Continuous tone. See DN- 60054. B200SR-LF: Low -frequency version of B200SR. See DN-60054. FMM-1(A): FlashScan monitor module. See DN-6720. FDM-1(A): FlashScan dual monitor module. See DN-6720. FZM-1(A): FlashScan two -wire detector monitor module. See DN- 6720. FMM-101(A): FlashScan miniature monitor module. See DN- 6720. FTM-1(A): Firephone Telephone Module connects a remote fire- fighter telephone to a centralized telephone console. Reports sta- tus to panel. Wiring to jacks and handsets is supervised. See DN- 6989. FCM-1(A): FlashScan control module. See DN-6720. FCM-I-REL(A): FlashScan releasing control module. See DN- 60390. FRM-1(A): FlashScan relay module. See DN-6720. FDRM-1(A): FlashScan dual monitor/dual relay module. See DN- 60709. NBG-12LX: Manual pull station, addressable. See DN-6726. ISO-X: Isolator module. See DN-2243. ISO-6: Six Fault isolator module. For Canadian applications order ISO-6A. See DN-60844. XP6-C(A): FlashScan six -circuit supervised control module. See DN-6924. L°_1_ I ° a o I F T III i LA LDM-32 Custom Graphics Dual phone lines to Central Station 7111 blok-2014.wmf XP6-MA(A): FlashScan six -zone interface module; connects intel- ligent alarm system to two -wire conventional detection zone. See DN-6925. XP6-R(A): FlashScan six -relay (Form-C) control module. See DN- 6926. XP10-M(A): FlashScan ten -input monitor module. See DN-6923. SLC-IM: SLC integration module, for VESDAnet detectors. See DN-60755. ENCLOSURES, CHASSIS, AND DRESS PLATES CAB-4 Series Enclosure: NFS2-640 mounts in a standard CAB-4 Series enclosure (available in four sizes, "A" through "D"). Backbox and door ordered seperately; requires BP2-4 battery plate. A trim ring option is available for semi -flush mounting. See DN-6857. EQ Series Cabinets: EQ series cabinets will house amplifiers, power supplies, battery chargers and control modules. EQ cabi- nets are available in three sizes, "B" through "D". See DN-60229. . CAB -BM Marine System: Protects equipment in shipboard and waterfront applications. Also order BB-MB for systems using 100 AH batteries. For a full list of required and optional equipment, see DN-60688. CHS-4: Chassis for mounting up to four APS-613s. CHS-4L: Low -profile four -position Chassis. Mounts two AA-30 amplifiers or one AMG-E and one AA-30. DP-1 B: Blank dress panel. Provides dead -front panel for unused tiers; covers DAA2/DAX series or AA -series amplifier. NFS-LBB: Battery Box (required for batteries larger than 26 AH). NFS-LBBR: Same as above but red. CHS-BH1: Battery chassis; holds two 12.0 AH batteries. Mounts one the left side of DAA2 chassis. See DN-7046. CA-1: Chassis, occupies one tier of a CAB-4 Series enclosure. The left side accommodates one DVC-EM and a DVC-KD (optional); and the right side houses a CMIC-1 microphone and its well (optional). See DN-7045. CA-2: Chassis assembly, occupies two tiers of a CAB-4 Series enclosure. The left side accommodates one DVC-EM mounted on a half -chassis and one NCA-2 mounted on a half -chassis. The right side houses a microphone/handset well. The CA-2 assembly includes CMIC-1 microphone. ADDR Series doors with two-tier visibility are available for use with the CA-2 configuration: ADDR- B4, ADDR-C4, ADDR-D4 (below). CFFT 1: Chassis to mount firefighter's telephone and one ACS annunciator in a CAB-4 row. Includes TELH-1 firefighter's handset for the DVC-EM, chassis, phone well and mounting hardware. Order DP-CFFT dress panel separately. DP-CFFT: CFFT 1 dress panel. Requires BMP-1 if no ACS annun- ciator is installed. ADDR-B4*: Two -tier -sized door designed for use with the CA-2 chassis configuration. ADDR Series doors are similar to CAB-4 Series "DR" doors, but a clear window space exposes the top two tiers of the CAB-4 enclosure. Use an SBB-B4 backbox with the ADDR-134. See DN-7045, DN-6857. ADDR-C4*: Three -tier -sized door, designed for use with the CA-2 chassis configuration. ADDR Series doors are similar to CAB-4 Series "DR" doors, but a clear window space exposes the top two tiers of the CAB-4 enclosure. Use an SBB-C4 backbox with the ADDR-C4. See DN-7045, DN-6857. ADDR-D4*: Four -tier -sized door designed for use with the CA-2 chassis configuration. ADDR Series doors are similar to CAB-4 Series "DR" doors, but a clear window space exposes the top two tiers of the CAB-4 enclosure. Use an SBB-D4 backbox with the ADDR-D4. See DN-7045, DN-6857. *Use ADDR-B4/C4/D4 when CA-2 chassis is installed in top two rows with NCA-2 or BP-CA2. Use standard door when CA-2 is not installed in top two rows. For additional configuration information, see the DVC application guide on httpoHesd.notifier.com. DPA-1: Dress panel, used with the CA-1 chassis when configured with a DVC-EM, DVC-KD, and CMIC-1. See DN-7045. DPA-2B: Dress panel used with CA-2 chassis assembly. • FSA-20000P covers 28,800 square feet through one to four pipes. Supports addressable pipes to pinpoint location of alarm events FCO-851 INTELLIQUADTM PLUS ADVANCED MULTI -CRITERIA F/RE/CO DETECTOR • Detects all four major elements of a fire. • Separate signal for life -safe CO detection. P 9 life -safety • Optional addressable sounder base for Temp-3 (fire) or Temp-4 (CO) tone. • Automatic drift compensation of smoke sensor and CO cell. • High nuisance -alarm immunity. SWIFT WIRELESS • Self -healing mesh wireless protocol. • Each SWIFT Gateway supports up to 50 devices: 1 wireless gateway and up to 49 SWIFT devices. • Up to 4 wireless gateways can be installed with overlapping network coverage. RELEASING FEATURES • Ten independent hazards. • Sophisticated cross -zone (three options). • Delay timer and Discharge timers (adjustable). • Abort (four options). • Low-pressure CO2 listed. DIGITAL VOICE AND TELEPHONE FEATURES • Up to eight channels of digital audio. • 35, 50, 75, and 100/125 watt digital amplifiers (DAA2/DAX series and DS series; NCA-2 required as primary display). • Solid-state digital message generation. • Firefighter telephone option. • 30- to 120-watt high -efficiency amplifiers (AA Series). • Backup tone generator and amplifier option. • NFS2-640 can also integrate with the FirstCommand Emer- gency Communications System. See DN-60772. HIGH -EFFICIENCY OFFLINE SwITCHING 3.0 A POWER SUPPLY (6.0 A IN ALARM) • 120 VAC (NFS2-640); 240 VAC (NFS2-640E). • Displays battery current/voltage on panel (with display). FlashScan, Exclusive World -Leading Detector Protocol At the heart of the NFS2-640 is a set of detection devices and device protocol - FlashScan (U.S. Patent 5,539,389). FlashScan is an all -digital protocol that gives superior precision and high noise immunity. In addition to providing quick identification of an active input device, this protocol can also activate many output devices in a fraction of the time required by competitive protocols. This high speed also allows the NFS2-640 to have the largest device per loop capacity in the industry - 318 points - yet every input and output device is sampled in less than two seconds. The micropro- ces sor -based as detectors FlashScan et ctors have bicolor LEDs that can be coded to provide diagnostic information, such as device address during Walk Test. ONYX Intelligent Sensing Intelligent sensing is a set of software algorithms that provides the NFS2-640 with industry -leading smoke detection capability. These complex algorithms require many calculations on each reading of each detector, and are made possible by the high-speed micro- computer used by the NFS2-640. Drift Compensation and Smoothing: Drift compensation allows the detector to retain its original ability to detect actual smoke, and resist false alarms, even as dirt accumulates. It reduces mainte- nance requirements by allowing the system to automatically per- form the periodic sensitivity measurements required by NFPA 72. Smoothing filters are also provided by software to remove tran- VP-2B: Dress panel, required when CA-2 chassis is installed in the top two cabinet rows. DPA-1A4: Dress panel, used with the CA-1 chassis when the CMIC-1 is not used. Provides mounting options on right two bays for two ACS annunciators, or for blank plates. See DN-7045. BP-CA2: Blank plate for CA-2 chassis. SEISKIT CAB: Seismic mounting kit. Required for seismic -certi- fied applications with NFS2-640 and other equipment mounted in CAB-4 Series Enclosures. Includes battery bracket for two 26 AH batteries. SEISKIT LBB: Seismic kit for the NFS-LBB. Includes battery bracket for two 55 AH batteries. BACKBOXES NOTE. "C" suffix indicates ULC-Listed model. ABF-1 B(C) Annunciator Flush Box. ABF-1 DB(C) Annunciator Flush Box with Door. ABF-2B Annunciator Flush Box ABF-2DB/C Annunciator Flush Box with Door ABF-4B Annunciator Flush Box ABS-1 TB(C) Annunciator Surface Box ABS-1 B(C) Annunciator Surface Box ABS-213 Annunciator Surface Box ABS-2D(C) Annunciator Surface Box ABS-4D(C) Annunciator Surface Box BB-UZC: Backbox for housing the UZC-256 in applications where the UZC-256 will not fit in panel enclosure. Black; for red, order BB-UZC-R. OTHER OPTIONS 411: Slave digital alarm communicator. See DN-6619. 411 UDAC: Digital alarm communicator. See DN-6746. IPDACT 2/2UD, IPDACT Internet Monitoring Module: Connects to primary and secondary DACT telephone output ports for Inter- net communications over customer -provided Ethernet connection. Requires compatible Teldat VisorALARM Central Station Receiver. Can use DHCP or static IR See DN-60408. IPCHSKIT: IP Communicator Chassis Mounting Kit. For mounting an IPDACT2/2UD onto the panel chassis or CHS-4 series chas- sis. Use IPENC for external mounting applications. IPSPLT: Y adapter option allow connection of both panel dialer outputs to one IPDACT 2/2UD cable input. IPENC: External enclosure for IPDACT, includes IPBRKT mount- ing bracket; Red. For Black order IPENC-B. IPGSM-4G: Internet and Digital Cellular Fire Alarm Communica- tor. Provides selectable configurable paths: cellular only, IP only, or IP primary with cellular backup. Connects to the primary and sec- ondary ports of a DACT. For Canadian applications order IPGSM- 4GC. See DH-60769. NOTE. For other options including compatibility with retrofit equip- ment, refer to the panel's installation manual, the SLC manual, and the Device Compatibility Document sient noise signals, such as those caused by electrical interfer- ence. Maintenance Warnings: When the drift compensation performed for a detector reaches a certain level, the performance of the detector may be compromised, and special warnings are given. There are three warning levels: (1) Low Chamber value; (2) Main- tenance Alert, indicative of dust accumulation that is near but below the allowed limit, (3) Maintenance Urgent, indicative of dust accumulation above the allowed limit. Sensitivity Adjust: Nine sensitivity levels are provided for alarm detection. These levels can be set manually, or can change auto- matically between day and night. Nine levels of pre -alarm sensitiv- ity can also be selected, based on predetermined levels of alarm. Pre -alarm operation can be latching or self -restoring, and can be used to activate special control functions. Self -Optimizing Pre -Alarm: Each detector may be set for "Self - Optimizing" pre -alarm. In this special mode, the detector "learns" its normal environment, measuring the peak analog readings over a long period of time, and setting the pre -alarm level just above these normal peaks. Cooperating Multi -Detector Sensing: A patented feature ature of ONYX intelligent sensing is the ability of a smoke sensor to con- sider readings from nearby sensors in making alarm or pre -alarm decisions. Without statistical sacrifice in the ability to resist false alarms, it allows a sensor to increase its sensitivity to actual smoke by a factor of almost two to one. Field Programming Options Autoprogram is a timesaving feature. The FACP "learns" what devices are physically connected and automatically loads them in the program with default values for all parameters. Requiring less than one minute to run, this routine allows the user to have almost immediate fire protection in a new installation, even if only a por- tion of the detectors are installed. Keypad Program Edit (with KDM-R2) The NFS2-640, like all NOTIFIER intelligent panels, has the exclusive feature of program creation and editing capability from the front panel keypad, while continuing to provide fire protection. The architecture of the NFS2- 640 software is such that each point entry carries its own program, including control -by -event links to other points. This allows the pro- gram to be entered with independent per -point segments, while the NFS2-640 simultaneously monitors other (already installed) points for alarm conditions. VeriFire® Tools is an off line programming and test utility that can greatly reduce installation programming time, and increase confi- dence in the site -specific software. It is Windows® -based and pro- vides technologically advanced capabilities to aid the installer. The installer may create the entire program for the NFS2-640 in the comfort of the office, test it, store a backup file, then bring it to the site and download from a laptop into the panel. Placement of Equipment in Chassis and Cabinet The following guidelines outline the NFS2-640's flexible system design. Rows: The first row of equipment in the cabinet mounts in the chassis shipped with the FACP. Mount the second, third, or fourth rows of equipment in a CHS-4 series chassis or, for Digital Voice Command products, in CA-1 or CA-2. (For DVC-EM and DAA2/ DAX components see DVC Manual, for DS series components see DS-AMP Manual, for DVC-AO applications, see AA Series Installa- tion Manua. Other options are available; see your panel's installa- tion manual. Wiring: When designing the cabinet layout, consider separation of power -limited and non -power -limited wiring as discussed in the NFS2-640 Installation Manual. Positions: A chassis offers four basic side -by -side positions for components; the number of modules that can be mounted in each position depends on the chassis model and the size of the individ- ual module. There are a variety of standoffs and hardware items available for different combinations and configurations of compo- nents. DN-7111:M • 3/24/17 - Page 3 of 8 It is critical that all mounting holes of the NFS2-640 are secured with a screw or standoff to ensure continuity of Earth Ground. Layers: The control panel's chassis accepts four layers of equip- ment, including the control panel. The CPU2-640 fills three posi- tions (left to right) in the first -installed layer (the back of the chassis); its integral power supply occupies the center two posi- tions in the next two layers; the optional display occupies (the left) two positions at the front flush with the door. Some equipment, P such as the NCA-2, may be mounted in the dress panel directly in front of the control panel. The NCA-2 can be used as a primary display for the NFS2-640 (use NCA/640-2-KIT) by directly con- necting their network ports (required in Canadian stand-alone applications); see NCA-2 data sheet for mounting options (DN- 7047). Expansion: Installing an LEM-320 Loop Expander Module adds a second SLC loop to the control panel. The LEM-320 is mounted onto the CPU2-640, occupying the middle -right, second (back) slot on the chassis. Networking: If networking two or more control panels, each unit requires a Network Communication Module or High -Speed Net- work Communication Module. HS-N M can support two no des; see "Networking Options" on page 4). These modules can be installed in any option board position (see manual), and additional option boards can be mounted in front of the network communica- tion modules. KDM-R2 Controls and Indicators Program Keypad: QWERTY type (keyboard layout, see figure). 12 LED indicators: Power; Fire Alarm; Pre -Alarm; Security; Supervisory; System Trouble; Signals Silenced; Points Disabled; Control Active; Abort; Pre -Discharge; Discharge. Keypad Switch Controls: Acknowledge/Scroll Display; Signal Silence; Drill; System Reset; Lamp Test. LCD Display: 80 characters (2 x 40) with long -life LED backlight. options include the DP-DISP2, ADP-413, or in an annunciator box, such as the ABS-21). In CAB-4 top -row applications, a DP-DISP2 and two BMP-1 blank modules are required for mounting. Required for NFS2-640 applications employing the DVC-EM with DAL devices. Non -English versions r available. avail- able a e a ai able NCA-2 are avail able for ULC applications. For marine applications, order NCA-2- M• for non-English Marine i - sh a ine applications, cations order N A-2 M and the 9 PP C appropriate ro rate KP-KIT XX. See DN- 7047. CPU2-640: Central processing unit (CPU) with integral 3.0 A (6.0 A in alarm) power supply for an NFS2-640 system. Includes con- trol panel factory -mounted on a chassis; one Signaling Line Circuit expandable to two; documentation kit. Order one per system or as necessary (up to 103 network nodes) on a network system. (Non - English version Is available: - - - 9 s also a a /able: CPU2-640 FR, CPU2 640 PO, CPU2-640-SP.) CPU2-640E: Same as CPU2-640 but requires 240 VAC, 1.5 A, (3.0 A in alarm). (Non -English versions also available: CPU2- 640E-PO, CPU2-640E-SP.) NCA/640-2-KIT: Bracket installation kit required to mount NCA-2 to the CPU2-640/-640E's standard chassis. DP-DISP2: Dress panel for top row in cabinet with CPU2-640/ 640E installed. ADP2-640: Dress panel for middle rows with CPU2-640/640E. BMP-1: Blank module for unused module positions. BP2-4: Battery plate, required. LEM-320: Loop Expander Module. Expands each NFS2-640 to two Signaling Line Circuits. See DN-6881. NETWORKING OPTIONS NCM-W, NCM-F: Standard Network Communications Modules. Wire and multi -mode fiber versions available. See DN-6861. HS-NCM-W/MF/SFMIMF/WSF/MFSF: High-speed Network Com- munications Modules that can connect to two nodes. Wire, single - mode fiber, multi -mode fiber, and media conversion models are 'I bl S DN 60454 Product Line Information avai a V. ee - . • "Configuration Guidelines" on page 4 RPT W, RPT F, RPT WF: Standard -network repeater board with • "Networking Options" on page 4 wire connection (RPT W), multi -mode fiber connection (RPT F), or allowing a change in media type between wire and fiber (RPT WF). • "Auxiliary Power Supplies and Batteries" on page 4 Not used with high-speed networks. See DN-6971. • "Audio Options" on page 5 ONYXWorks: UL-listed graphics PC workstation, software, and • "Compatible Devices, EIA-232 Ports" on page 5 computer hardware. See DN-7048 for specific part numbers. • "Compatible Devices, EIA-485 Ports" on page 5 NFN-GW-EM-3: NFN Gateway, embedded. (Replaces NFN-GW- • "Compatible Intelligent Devices" on page 5 EM.) See DN-60499. • "Enclosures, Chassis, and Dress Plates" on page 6 NWS-3: NOTI•FIRE•NETTM Web Server. See DN-6928. • "Other Options" on page 7 CAP-GW: Common Alerting Protocol Gateway. See DN-60756. CONFIGURATION GUIDELINES VESDA-HLI-GW: VESDAnet high-level interface gateway. See Stand-alone and network systems require a main display. On sys- DN-60753. tems with one FACP (one CPU2-6401-640E), display options are LEDSIGN-GW: UL-listed sign gateway. Interfaces with classic and the KDM-R2 or the NCA-2. On network systems (two or more net- high-speed NOTI•FIRE•NET networks through the NFN Gateway. worked fire panel nodes), at least one NCA-2, NCS, or ONYX- See DN-60679. Works annunciation device is required. Other options listed as OAX2-24V: UL-listed LED sign, used with LEDSIGN-GW. See follows; DN-60679. KDM-R2: 80-character backlit LCD display with QWERTY Pro - AUXILIARY POWER SUPPLIES AND BATTERIES gramming and control keypad. Order two BMP-1 blank modules es and DP-DISP2 mounting plate separately. Requires top row of a ACPS-610: 6.0 A or 10.0 A addressable charging power supply. cabinet. Required for each stand-alone 80-character display sys- See DN-60244. tem. The KDM-R2 may mount in network nodes to display "local" APS2-6R: Auxiliary Power Supply. Provides up to 6.0 amperes of node information as long as at least one NCA-2 or NCS/ONYX- power for peripheral devices. Includes battery input and transfer Works network display is on the system to display network infor- relay, and overcurrent protection. Mounts on two of four positions mation. (Non -English versions also available: KDM-R2C for ULC on a CHS-4L or CHS-4 chassis. See DN-5952. application, KDM-R2-FR, KDM-R2-P0, KDM-R2-SP.) FCPS-24S6/S8: Remote 6 A and 8 A power supplies with battery NCA-2: Network Control Annunciator, 640 characters. On single charger. See DN-6927. CPU2-6401-640Esystems, the optional NCA-2 can be used as the BAT Series: Batteries. NFS2-640 uses two 12 volt, 18 to 200 AH Primary Display for the panel and connects directly to the CPU2- batteries. See DN-6933. 6401-640E. On network systems (two or more networked fire panel nodes), one network display (either NCA-2 or NCS/ONYXWorks) is required for every system. On network systems, the NCA-2 con- nects to (and requires) a standard Network Communication Mod- ule or High -Speed Network Communication Module. Mounts in a row of FACP node or in two annunciator positions. Mounting Page 4 of 8 - DN-7111:M • 3/24/17 System Specifications SYSTEM CAPACITY • Intelligent Signaling Line Circuits ..................1 expandable to 2 • Intelligent detectors...............................................159 per loop • Addressable monitor/control modules....................159 per loop • Programmable software zones ............................................... 99 • Special programming zones ................................................... 14 • LCD annunciators per CPU2-640/-640E and NCA-2 (observe power) ................................................... 32 • ACS annunciators per CPU2-640/-640E................................ 32 addresses x 64 points • ACS annunciators per NCA-2.......................................32 addresses x 64 or 96 points NOTE: The NCA-2 supports up to 96 annunciator address points per ACM-24AT/-48A. ELECTRICAL SPECIFICATIONS • Primary input power: - CPU2-640 board: 120 VAC, 50/60 Hz, 5.0 A. - CPU2-640E board: 220/240 VAC, 50/60 Hz, 2.5 A. • Current draw (standby/alarm): - CPU2-640(E) board: 0.250 A. Add 0.035 A for each NAC in use. - KDM-R2: 0.100 A. - LEM-320: 0.100 A. • Total output 24 V power: 6.0 A in alarm. NOTE: The power supply has a total of 6.0 A. of available power. This is shared by all internal circuits. See Installation Manual for a complete current draw calculation sheet. • Standard notification circuits (4): 1.5 A each. • Resettable regulated 24V power: 1.25 A. • Two non-resettable regulated 24V power outputs: - 1.25 A. - 0.50 A. • Non-resettable 5V power: 0.15 A. • Battery charger range: 18 AH - 200 AH. Use separate cabinet for batteries over 26 AH. • Float rate: 27.6 V. CABINET SPECIFICATIONS • Systems can be installed in CAB-4 Series cabinets (four sizes with various door options, see DN-6857). Requires BP2-4 Bat- tery Plate. SHIPPING WEIGHT • CPU2-640/-640: 14.3 lb (6.49 kg). • CPU2-640/-640E: 14.55 lb (6.60 kg). TEMPERATURE AND HUMIDITY RANGES This system meets NFPA requirements for operation at 0 - 49°C/ 32 -120OF and at a relative humidity 93% ± 2% RH (noncondens- ing) at 32°C ± 2°C (90°F ± 3°F). However, the useful life of the system's standby batteries and the electronic components may be adversely affected by extreme temperature ranges and humidity. Therefore, it is recommended that this system and its peripherals b' t II d' t Mn I mt t f certain approval agencies, or listing may be in process. Consult factory for latest listing status. • UUULC Listed: S635. • ULC Listed: S527-11 • FM Approved. • MEA:128-07-E. • Fire Dept. of New York: #6212. • CSFM:7165-0028:0243. • City of Chicago. • City and County of Denver. • CCCF listed. Marine Applications: Marine approved systems must be config- ured using components itemized in this document. (See Main Sys- tem Components, in "Product Line Information.) Specific connections and requirements for those components are described in the installation document, PN 54756. When these requirements are followed, systems are approved by the following agencies: • US Coast Guard 161.002/50/0, 161.002/55/0 (Standard 46 CFR and 161.002). • Lloyd's Register 11/600013 (ENV 3 category). • American Bureau of Shipping (ABS) Type Approval. NOTE: For information on marine applications, see DN-60688. STANDARDS The NFS2-640 complies with the following UL Standards and NFPA 72, International Building Code (IBC), and California Build- ing Code (CBC) Fire Alarm Systems requirements: • UL 864, 9th Edition (Fire). • UL 1076 (Burglary). • UL 2572 (Mass Notification Systems). (NFS2-640 version 20 or higher.) • ULC-S527-11 Standard for the Installation of Fire Alarm Sys- tems. • LOCAL (Automatic, Manual, Waterflow and Sprinkler Supervi- sory). • AUXILIARY (Automatic, Manual and Waterflow) (requires TM- 4). • REMOTE STATION (Automatic, Manual, Waterflow and Sprin- kler Supervisory) (requires TM-4). • PROPRIETARY (Automatic, Manual and Waterflow). Not applicable for FM. • EMERGENCY VOICE/ALARM. • OT, PSDN (Other Technologies, Packet -switched Data Net- work). • IBC 2012, IBC 2009, IBC 2006, IBC 2003, IBC 2000 (Seismic). • CBC 2007 (Seismic). e Ins a e in an environmen wi a norma roo empera ure o IntelliQuadTM, NOTI•FIRE•NETTM, ONYXWorksTM, and SWIFTTm are 15 - 27°C/60 - 80°F. trademarks; and Acclimate® PIusTM, FirstCommandO, FlashScanO, AGENCY LISTINGS AND APPROVALS Intellig�ent FAAST®, NOTIFIERO, ONYX°, VeriFire® Tools, and The listings and approvals below apply to the basic NFS2-640 VIEW' areregistered trad®marks of Honeywell International Inc. control panel. In some cases, certain modules may not be listed by Corporation. IBM Microsoft an ® Windows are registered trademarks of Microsoft Is a registered trademark of IBM Corporation. ©2017 by Honeywell International Inc. All rights reserved. Unauthorized use of this document is strictly prohibited. This document is not intended to be used for installation purposes. IS09001We try to keep our product information up-to-date and accurate. We cannot cover all specific applications or anticipate all requirements. ENGINEERING A MANUFACTURING All specifications are subject to change without notice. QUALITY SYSTEMS country of Origin: USA For more information, contact Notifier. Phone: (203) 484-7161, FAX: (203) 484-7118. www.notifier.com DN-7111:M • 3/24/17 - Page 5 of 8 Page 6 of 8 - DN-7111:M • 3/24/17 DN-7111:M • 3/24/17 - Page 7 of 8 Page 8 of 8 - DN-7111:M • 3/24/17 FA-7 CUT SHEETS & CALCULATIONS DN-6862:01 • D-95 ACS Series Annunciators Operation in frontal appearance to the ACM-48A. One expander module wide] and an annunciator label. 9.938" (25.24 cm) high x saseaao wm O ® NOTIFIER The ACS Series annunciator and control system provides the can supported by an ACM-48A, providing a maximum of 96 17.75" (45.09 cm) wide x 2.5" (6.35 cm) deep. ONYX® Series NOTIFIER to 32 Points (subject to the capability of the FACP). 1.27 is -I system with u remote serial) connected P Y cm) high; 4.375" (11.11 cm) wide. NOTE: The AEM-48A can- EM-4 can - ACM/AEM-24AT, ACM/AEM-48A by Honeywell annunciators, annunciators, each with a capacity of 96 points, for a total capacity of 3072 (subject to the capability of the FACP). not be used to expand the ACM-24AT. ABF-4B points The NFS2-3030 and NCA-2 are capable of using the full 96 ABS-1 B: (see figure) The Annunciator Surface Box-1 B (black) - �- Annunciator Control Systems points. provides for the remote mounting of one annunciator module in a surface -mount enclosure. Knockouts are provided for use 9 General Local or remote power supplies and serial communications with 1/2" (1.27 cm) conduit. The annunciator mounts directly to C The ONYX@ Series ACS Annunciators provide a modular line allow the ACS to be located virtually anywhere in the protected the ABS-1 B without a dress plate. 8.5" (21.59 cm) high x 4.5" o A l __��__.-. - _= -- - •A- -',• of products for annunciation and control of the NOTIFIER P remises. (11.43 cm) wide x 2" (5.08 cm) deep. NOTE: The ABS-IB will m I � ONYX® Series Intelligent Fire Alarm Control Panels, Network - - On NFS-320, NFS2-640, NFS2-3030, NCA-2 and the legacy not support the installation of the AKS-1B Annunciator Key , Control Annunciators, and NOTIFIERs legacy addressable ■ ■ 0 o panels, t alarm and/or trouble condition m nn n- a es,s system a/ a s a bea u P Y Y Switch. O O Network DP-DISP Dress Panel with NC 2 etwo Control panels. The ACS line provides arrays of LEDs to indicate point M M o ciated on a per -point basis, or in a grouped or zone configure- o Annunciator in left two positions, and two ACM-24AT status and, in some versions, switches to control the state of M M o o lion. soaasez.m ABF-1B O Annunciators at right output circuits. These ACS units use a serial interface and may inIn Control of system operational controls, such as Signal Silence, ® O ® BMP-1: Annunciator Blank Module is a flat black dress plate be located at distances of up to 6,000 feet (1,828.8 meters) C • o System Reset, and local annunciation controls (such as Local ® O that covers unused module positions in the annunciator back - from the panel. ■ �I in o o o e o Acknowledge and Lamp Test) may be accomplished through Acknowledge the module's rubber keypad. m o O ® d box or in the ADP-413. 6.375" (21.27 cm) high x 4.375" (11.11 O cm) wide. Studs for a variety of module mounting options are Features M• M• c o � ® u ° available. • Speaker control mode for use with XPIQ and the following o Product Line Information 0 o AKS-1B: The Annunciator Ke Switch-1B black rovides Y ( ) ppanels: NFS2-3030, NFS2-640, NFS-320(C) and NFS-201 0 ACM-24AT: (see figure) The Annunciator Control Mod- 50'39tl1JR access security for the control switches on the ACM/ 320SYS. Enables the ACS to control operation of groups of • oule-24AT contains 24 color -programmable (red/green/yellow) AEM-24AT. The key switch kit includes a key and hardware for multi -channels mapped to groups of multi -speakers. • o o Active and 24 yellow Trouble LEDs, 24 momentary touch -pad mounting to the ABF-1 B. Also included is an adhesive -backed • Compatible with existing annunciators. M • o o switches, a System Trouble LED, an On-Line/Power LED, and a local piezo sounder with asilence/acknowledge switch for ® ABF-1 DB, ABF-2DB, ABS-4D: The ABF-1 DB, ABF-2DB and annunciator label for use with the key switch/dress plate assembly. NOTE: The AKS-1B can only be employed with the • Color -programmable LEDs. ACM/AEM-24AT ACM/AEM-48A audible indication of alarm and trouble conditions. Includes O ® ABS-4D are semi -flush -mount backboxes for ACS Series ABS- 1TB. • On -board end -of -line resistors can be enabled/disabled by instructions. 8.375" (21.27 cm) high; 4.375" (11.11 cm) wide. ® o ® Annunciators. The ABF-1 DB mounts one annunciator module; setting a switch. 6862ar24.wmf 50439e3eif o ° the ABF-2DB mounts two modules; the ABS-4D mounts up to Agency Listings and Approvals • Alarm/Circuit On and Trouble LED per -point thxoption or 6962a48.wm1 - -� _ ABS-1B four modules. The ABS-4D Series can also accomodate the more dense Alarm -only option. NCA-2 network annunciator, using the NCA-2 Retro Kit (NCA- The listings and approvals below apply to the ACM/AEM-24AT • Touch -pad control switch option for remote control of sys- standby batteries and the electronic components may be ABSThe ABis an attractive surface -mount back- 2Retro); the NCA-2 is mounted in the center position with a and the ACM/AEM-48A. In some cases, certain modules or tem relays; or silence, reset, and evacuate. adversely affected by extreme temperature ranges and humid- for m one box for mounting one ACS Series Annunciator. Unlike the blank plate (BMP-1) mounted on each side. Black with an applications may not be listed by certain approval agencies, or ity. Therefore, it is recommended that this system and all - - ABS-1B, the ABS-1T6 has an increased depth that allows attracted smoked glass door and keylock. The ABS-4D is listing may be in process. Consult factory for latest listing sta- • LEDs may be programmed to display status of indicating peripherals be installed in an environment with a nominal room , M (� M �' � o mounting of the AKS-1B Annunciator Key Switch. Black, hinged on the bottom for stability. tus. circuits or control relays as well as stem status condi- Y Y temperature of 15°C to 27°C 60°F to 80°F . p ( ) M • M • o �, 0 0 9.938" (25.24 cm) high x 4.625" (11.75 cm) wide x 2.5" (6.35 DIMENSIONS, ABF-1 D8: Box only: 9.938" (25.24 cm) UL: S635 lions. M M M o o cm) deep. NOTE: An earlier gray model, ABS-1TB, will not high x 4.625" (11.75 cm) wide x 2.5" (6.35 cm) deep. Door., ULC: S635 System Trouble LED indicator. ' Y Installation M M M c c o r� accommodate the ACM/AEM-24AT or ACM/AEM-48A. The 11" (27.94 cm) high x 6" (15.24 cm) wide x 0.75" (1.9 cm) FDNY: COA #6067 (NFS2-640), COA #6065 (NFS2-3030) • On-Line/Power LED indicator. The ACS Series annunciator and control subsystems use • • c slightly deeper ABS-1TB will accommodate both the ACM/ deep. • Alarm and trouble resound with flash of new conditions. modular hardware assemblies which allow the custom configu- � ■ � ■ c o AEM-24AT or ACM/AEM-48A models and the ACM-16ATI DIMENSIONS, ABF-2DB: Box only: 9.938" (25.24 cm) CSFM: 7120-0028:0156, 7165-0028:0243, 7165- • Local sounder for both alarm and trouble conditions with ration of the annunciator panel to fit the individual job require- ; E �11 M � c �, o ACM-32A Series see DN-0524 . high x 9.188" cm) wide x 3.75" (9.525 ern) deep. 0028:0224 silence/acknowledge button (program options). ments. M in o o ABS-2B: The Annunciator Surface Box-2B (black) provides for Door: 11" (27.94 cm) high x 10.375" (26.35 cm) wide x .94 c FM approved • May be powered by 24 VDC from the panel or by remote Standard backboxes and mounting hardware schemes, includ- ME O o o the surface mounting of one ACM-24AT/AEM-24AT combing- 0.75" (1.9 cm) deep. power supplies. ing special remote cabinets, allow the annunciators to be con- L MW M o o tion or one ACM-48A/AEM-48A combination. Knockouts are DIMENSIONS, ABS-4D: Box only: 11,97" (30.40 cm) high • Microprocessor -controlled electronics, fully supervised. strutted and configured with others stem tom 9 y components. ■ o provided for use with 1/2" (1.27 cm) conduit. The annunciators ABS-2B x 19.87" (50.47cm) wide x 3.50" (8.89 cm) deep. Door: 1.25" mount directly to the without a dress plate. 8.5" (21.59 11.97" (30.40 cm) high x 19.87" (50.47 cm) wide x • Slip -in custom labels, lettered with standard typewriter or When used with the NFS2-3030, NFS2-640, NFS-320 or leg- 0 ■ Eo, o cm) high x 8.92" (22.66 cm) wide x 2" (5.08 cm) deep. NOTE: (3.18 cm) deep. LabelEase program. acy panels, the ACS modules can be used for manual selec- The ABS-2B will not support the installation of the AKS-1B ADP-4B: The Annunciator Dress Panel-4B (black) provides for • Plug-in terminal blocks for ease of installation and service. tion of speaker and telephone circuits. In this application, they ACM/AEM-24AT ACM/AEM-48A Annunciator Key Switch. the cabinet mounting of one to four modules. The ADP-48 are typically mounted in the main control near the microphone ABF-1 B: (see figure) The Annunciator Flush Box-16 (black) hinge -mounts to the CAB-4 Series cabinet. Modules mount Construction and telephone handset. ses = awmr eeeaeaswmr provides for the remote mounting of a single annunciator mod- directly to threaded studs on the dress panel. The ACS modules are provided in two basic controller mod- For remote annunciation applications, the modules are typi- call mounted in special ABF or ABS boxes. Control switch key Y P Y ule in a flush -mount enclosure. Knockouts are provided for use with 1/2" (1.27 cm) conduit. The ABF-1B includes a painted DP-DISP: (see figure) The Dress Panel -Display allows one to 9 ) P Y ules, each with its expander module. The ACM-24AT provides locks AKS-1 B are available. ( ) AEM-24AT: The Annunciator Expander Module-24AT expands cm) high x 6.25" 5 cm) black metal trim plate wa r e (and four modules to be mounted in the to row of the CAB-4 P Series backbox. Modules mount direct) to threaded studs on Y 24 annunciation and control points per module, each with a red, green, or yellow Alarm/Circuit On LED, a yellow Trouble Communication between the ACS Series annunciators and the the ACM-24AT by 24 system points. The AEM-24AT is identi- cal in size and in frontal appearance to the ACM-24AT. Up to a d ann wide], mounting hardware, and an adhesive -backed the DP-DISP. LED, and a touch-keyswitch. The ACM-48A provides 48 host Fire Alarm Control Panel is made through an EIA-485 three of these expander modules can be supported b an x 4.625"uncia- for label for the dress plate. 9.938" (25.24 cm) high x 4.625" (11.75 cm) wide x 2.5" 6.35 cm deep.D ( ) Dress Panel accomodates up to two NFSules annunciation points per module, each with a red, green, or yel- loop, P p, eliminating the need for costly wiring ACM-24AT, for a maximum of 96 system points. 8.375" (21.27 annunciator annunciator modules (no expanders). ( ONYX® and NOTIFIER@ are registered trademarks of Honeywell Interne - low low Alarm/Circuit On LED (for annunciating control relays, the schemes. Four wires are required, two for the EIA-485 com- cm) high; 4.375" (11.11 cm) wide. NOTE: The AEM-24ATcan- ABF-2B: The Annunciator Flush Box-2B (black) provides for tional Inc. LED indicates ON/OFF). munications (twisted pair), and two for 24 VDC regulated not be used to expand the ACM-48A. the flush mounting of two annunciator modules. Includes a 02011 by Honeywell International Inc. All rights reserved. Unauthorized use power. painted black metal trim plate [11" (27.94 cm) high x 10.625" of this document is strictly prohibited. On the ACM-24AT, each LED point is individually color -pro- ACM-48A: (see figure) The Annunciator Control Module-48A (26.99 ) ] cm wide and adhesive -backed annunciator label. grammable. On ACM-48A, each column of 24 LED points can Retrofit of ACS Series annunciators into existing systems is contains 48 color -programmable (red/green/yellow) Active 9.938" (25.24 cm) high x 9.188" (23.34 cm) wide x 3.75" be color -configured using a DIP switch. easily accomplished. Software may require upgrading, and LEDs, a System Trouble LED, an On-Line/Power LED, and a (9.525 cm) deep. Temperature and humidity ranges: This system meets some legacy panels may require an interface board. 9 y P y q local piezo sounder with asilence/Acknowledge switch for ABF-4B: figure) The Annunciator Flush Box-413 This document is not intended to be used for installation purposes. p poses. 1S0 9001 We try to keep our product information up-to-date and accurate. NFPA requirements for operation at 0°C to 49°C (32°F to All field -wiring terminations use removable, compression -type audible indication of alarm and trouble conditions. Includes (see (black) 1200F); and at a relative humidity (noncondensing) of 85% at terminal blocks for ease of installation, wiring, and circuit test- instructions. 8.375" (21.27 cm) high; 4.375" (11.11 cm) wide. provides for the remote mounting of one to four annunciator 933MEREIM We cannot cover all specific applications or anticipate all requirements. ° 30°C(86°F)per NFPA, and 93° ;L2/°at32°Cx2°C(89.6°Ft in g AEM-48A: The Annunciator Expander Module-48A expands modules. Knockouts are provided for use with 1/2" (1.27 cm) conduit. The flush -mounted ABF-48 includes a painted black UIMNEMIN R MANKI nMNB All specifications are subject to change without notice. QUALITY SYSTEMS Made in the U.S. A. 1.1 °F) per ULC. However, the useful life of the system's the ACM-48A by 48 system points. The AEM-48A is identical metal trim plate [11" (27.94 cm) high x 19.375" (49.21 cm) For more information, contact Notifier. Phone: (203) 484-7161, FAX: (203) 484-7118. www.notifier.com DN-6862:131 • a/l/2011 - Page 1 of 4 Page 2 of 4 - DN-6862:C1 • 8/1/2011 DN-6862:C1 • 8/1/2011 - Page 3 of 4 Page 4 of 4 - DN-6862:C1 • 8/1/2011 DN-6881:Al • A-35 DN-60645:131 H PFF8(E) and ® • The Trouble Form-C relay contacts selectable for immediate HPFF8CME: 240VAC/5OHz version of HPFFBCM. LCM-320 and LEM-320 ® or a 2 hour delay with AC failure. HPP31076: Class A (Style Z) NAG Adaptor. Increase Class A �J NOTIFIER LOOP Control and Expander Modules NOT 1 F 1 E R H PFF8CM(E) 0 NOTIFIER • 26 AH battery charger capability: circuits from 2 to 4. - HPFF8(E) supports two 12V 18AH batteries b Honeywell XP6-C: Six -circuit supervised addressable control module by Honeywell 8 Amp and 24-Volt Power Supplies y y - HPFF8CM(E) supports two 12V 12AH batteries per unit. activated through FACP programming on a select basis to con- . NAG Overload protection and indication. trol power supply activation or output. Intelligent Fire Alarm Control Panels Power Supplies • Provision for mounting single or 6 circuit addressable con- FCM-1: Supervised addressable control module activated General Description trol or relay modules inside the enclosure. (Use mounting through FACP programming to activate power supply. kit PN 90475.) The LCM-320 Loop Control Module and the LEM-320 Loop The Honeywell HPFF8(E) and HPFFBCM(E) are Notification _ 90474: Mounting kit; required to attach an addressable mod - Expander Module provide NOTIFIER's ONYX@ Series of Fire Appliance Circuit (NAG) Expander Power Supplies designed to = Standard Honeywell key and lock can be replaced with the ule onto the control circuit board (included with supply). Alarm Control Panels (FACPs) with Signaling Line Circuits .m extend the power capabilities of existing NACs and provides c NOTIFIER key and lock. BAT Series: Batteries HPFFBCM(E) utilizes two 12 volt, 7 to (SLCs). The ONYX@ Series NFS-640/NFS2-640 supports one power for auxiliary devices. The HPFF8 and HPFFBCM con- Specifications 26AH batteries. LEM-320; the NFS-3030/NFS2-3030 supports up to five LCM- m netts to any 12 or 24V Fire Alarm Control Panel (FACP) or Primary Input Power: 120VAC, 60Hz, 3.6A standard; CAB-4 Series Enclosures: For mounting HPFFBCM power 320s and five LEM-320s. The LEM-320 module is used to operates stand-alone. 240VAC, 5OHz, 2.1A on units with E suffix. expand the NFS-640/NFS2-640 to a second loop,and to ' supplies, consists of a backbox and locking door. Available They provide regulated and filtered 24VDC power to four inBlack or Red. Four sizes available. Ordered se expand each LCM-320 used on the NFS-3030/NFS2-3030 - � - Secondary Power: 24 volt operation: two 7-26 AH batteries. separately. See P NAC's and an auxiliary output. The NAG outputs are rated at DN-6857. each NFS-3030/NFS2-3030 LCM-320 supports an expansion 3.0 amps each and the auxiliary output is rated at 2.0 amps Battery Charging Capacity: 7 to 26 AH batteries.Up to 26 AH LEM-320. - _ (this output is continuously supplied, even in alarm, and there- batteries. SBB-A4: Backbox for mounting one HPFFBCM. Requires fore must be taken into account for power supply loading and HPFFB Cabinet: Holds up to two 18AH batteries. DR -AA door. battery size calculations). The combined output cannot exceed LL SBB-B4: Backbox for mounting up to two HPFF8CMs. Features 4 8.0 amps. HPFFB HPFFBCM: Holds up to two 12AH batteries. Requires DR-B4 door. • Up to 12,500 feet (3,810 m) on a Class B (Style 4) SLC loop Total Output Current: 8.0A max. Standby Current: 0.075 A. SBB-C4: Backbox for mounting u to three HPFF8CMs. The HPFF8 and HPFFBCM provide independent output circuit 9 P (twisted -unshielded). supervision so in the event of a NAG fault they can notify the HPFFBCM ;. , Auxiliary Power Output: 2.OA under all conditions. Requires OR-C4 door. • Built-in degraded mode increases survivability. ° attached FACP. In addition they have a trouble memory tea- SBB-D4: Backbox for mounting up to four HPFF8CMs. • Verysimple installation - plug-in le. NAC Output Ratings: 24VDC fully regulated, 3.OA max per P P g ty ture that displays past troubles (by NAC) for rapid diagnostics. Requires DR-D4 door. circuit (B.OA total). • Permits multiple loops in small enclosure. Synchronization is built in for five appliance brands. NOTE: Door options available. See DN-6875 for details. The HPFF8 d HPFFBCM htfully independent super- End -of -Line Resistor Range: 1.9K to 25k ohm, Yz watt. Prod - Loop Control LoopExpander e anhave two uY p P er- uct ships with 4 separate programming resistors. They are EO Series Enclosures: For mounting HPFFBCM power sup - Specifications Module Module vised initiating circuits that can be used for synchronized 3.9K (5 each - only need one for programming), 2.2K (1 each), plies, consists of a backbox and locking door. Black. Three Voltage: 24 VDC nominal, 27.6 VDC maximum. strobes and coded horns. Their NAG outputs may be config- 4.7K (1 each) and 1 OK (1 each) sizes available. Ordered separately. See DN-60229. ured as any of the following: • EOBB-B4: Backbox for mounting one HPFFI2CM. Maximum loop length: The maximum wiring distance of an Common Trouble/ Relay Fall Relay: 2.OA at 30VDC. 9 SLC using 12 AWG (3.1 fil twisted -pair wire is 12,500 feet Product Line Information • four Class B (Style Y) Requires EQDR-B4 door. (3810 m • two Class A (Style Z Input Control Circuits: compatible with 12 and 24 VDC con- ) per channel. For atwisted-unshielded pair, 12 AWG ) -Four Class A (requires the HPP31076 Class A adapter). EQBB-C4: Backbox for mounting one HPFFI2CM. LCM-320: Loop Control Module. Adds SLCs to NFS-3030/ trot panel NAGS. (3.1 mmz) to 18 AWG (0.78 mmz): P • two Class B and one Class A Four field -programmable p P Requires EQDR-C4 door. NFS2-3030; NFS-3030/NFS2-3030 supports up to five LCM- p ogrammable operational modes: Input Control Current (alarm): 5.68 mA � 12 VDC, 12.28 q - Distance with 12 AWG: 12,500 ft (3,810 m). 320s and five LEM-320s. • four Class A with the optional HPP31076 Class A adapter - Pass -through. mA @ 24 VDC. EQBB-D4: Backbox for mounting one HPFFI2CM. - Distance with 14 AWG: 8,000 it (2,438 m). LEM-320: Loop Expander Module. Expands each LCM used These power supplies contain an internal Battery charger - Temporal generator. Requires EQDR-D4 door. - Distance with 16 AWG: 4,875 ft (1,486 m). on the NFS-3030/NFS2-3030; expands NFS-640/NFS2-640 to capable of charging up to 26.0 amp -hour (AH) batteries. - Sync generator. Temperature Rating: % to to % non coneC to sing. 17045KIT: Notifier key and lock set. - Distance with 18 AWG: 3,225 ft (983 m). two loops. The HPFF8 is mounted in a lockable wall cabinet that can - Pass -through Filtered. Relative Humidity: 10% to 93%von-condensing. Listings and Approvals - 50 ohms maximum per length of Style 6 & 7 loops. accommodate up to two 18AH batteries. The HPFFBCM is Cabinet Dimensions: Agency Listings and Approvals designed to mount in Notifier's large CAB-4 series or equiListings Temporal coding and sync protocols compatible with the fol- and approvals below apply to all. Isome cases, ter- - 50 ohms maximum per branch for Style 4 loop. ment series enclosure (order separately). Each HPFFBCM can lowing notification appliance brands: a HPFF8 Cabinet: 16.65" W x 19.0" H x 5.2" D (42.29 cm W fain modules may not be listed by certain approval agencies, Maximum current: for LCM-320: 130 mA; for LEM-320: 100 The listings and approvals below apply to the basic LCM-320 x 48.26 cm H 13.23 cm D). or listing may be in process. UL 864 9th Edition. mA; for single SLC loop: 400 mA maximum. and LEM-320. In some cases, certain modules may not be accommodate two 12AH batteries. - System Sensor. - Faraday, Large equipment enclosure: UL Listed: 524562 listed by certain approval agencies, or listing may be in pro- One of the most challenging aspects of a retrofit application is y - EQBB-B4: 24" W x 28.5" H x 5.16" D 60.96 cm W x • Seismic Certification of Non -Structural Electrical Com o- NOTE: Maximum short circuit -loop will shut down until shoe-cir- cess. Consult factory for latest listing status. locating the existing End -of -Line (EOL) resistor. In these appli- - Amseco. ( P cult condition is corrected. cations that have EOL values other than the 3.9k normal) • UL:S635 Y -Cooper-Wheelock. 72.39 cm H x 13.1 cm D). nents and Systems Maximum resistance: 50 ohms (supervised and power- used with the HPFF8, a single resistor matching the existing - EOBB-C4: 24" W x 37.13" H x 5.16" D (60.96 cm W x FM Approved limited). • ULC: S635/CS118 - ProtocGenteol . EOL can be used as a reference for all the outputs. This fea- 71.36 cm H x 13.1 cm D). CSFM: 7315-1637:0102 ture speeds installation and stem checkout because the Protocol pass -through for synchronizing large systems. Temperature and humidity ranges: This system meets FM Approved P Y - EOBB-D4: 24" W x 45.75" H x 5.16" D (60.96 cm W x NYFD: COA#6032 NFPA requirements for operation at 0 - 49°C/32 - 120°F and • CSFM: 7165-0028:224, 7170-0028:223 (LCM/LEM-320 actual EOL does not need to be located and changed in the Two fully independent supervised input/output control circuits. 116.21 cm H x 13.1 cm D). at a relative humidity 93% t 2% RH (noncondensing) at 32°C with NFS-3030/NFS2-3030). 7165-0028:214, 7170- circuit. The reference resistor must be within the range of 1.9k . Redundant activation operation for survivability. Product Line Information t to 25k. 2°C (90°F t 3°F). However, the useful life of the system's 0028:216 (LEM-320 with NFS-640). 7165-0028:243, 7170- Supports FACP's Selectable Silence ability. HPFF8: B.OA fire rated power supply. Unit includes red enclo- standby batteries and the electronic components may be 0028:244 (LEM-320 with NFS2-640). NOTE., 4 separate programming resistors for the HPFF8 are pro- • 2.0 amp auxiliary continuously supplied output. sure, battery cable and installation instructions. 120VAC/6OHz. adversely affected by extreme temperature ranges and humid- . FDNY: COA#6025 (LEM-320 with NFS2-640) vided in the hardware kit shipped with each HPFF8(E) and Eight status LEDs. ity. Therefore, it is recommended that this system and its HPFF8CM(E). They are 3.9K (5 of these are provided, need only 9 HPFF8E: 240VAC/5OHz version of HPFF8. eri herals be installed in an environment with a normal room ' FDNY: COA#6026 (LCM-320/LEM-320 with NFS2-3030) 1 forprogramming), 2.2K(1 each), 4.7K(1 each) and 10K (1 each) • Supervised AC input, battery voltage, auxiliary output, char- t P City of Denver FLASHSCAN® and NOTIFIER® are registered trademarks of Honeywell er, and earth round faults. HPFFBCM: B.OA fire rated power supply (chassis mounted). temperature of 15-27°C/60-80°F. tY International Inc. Features 9 9 Unit includes mounting hardware, battery cable and instruc- • Hong Kong ©2009 by Honeywell International Inc. All rights reserved. Unauthorized use • Trouble indication for supervision of the following: tions for installation in large equipment enclosure. 120VAC/ of this document is strictly prohibited. • Four (4) power limited supervised notification application -NAC circuits. 60Hz. 02011 b Circuits (NAC's) Capable of supplying +24VDC at 3.0 amp y Honeywell International Inc. All rights reserved. Unauthorized use maximum each. - Auxiliary output. of this document is strictly prohibited. • NAG output circuits may be configured as any of the follow- - AC input. This document is not intended to be used for installation purposes. This document is not intended to be used for installation purposes. ng: -Battery charger voltage. 0 9001 IS0 9001 We try to keep our product information up-to-date and accurate. We try to keep our product information up-to-date and accurate. ® We cannot cover all specific applications or anticipate all requirements. - Four Class B (Style Y). - Earth ground faults. We cannot cover all specific applications or anticipate all requirements. MRIMERINC R MMIFACTURMR All specifications are subject to change without notice. - Two Class B & One Class A. • Optional two-hour delay for AC loss. ENLIMERINC R MANOWTUMNG All specifications are subject to change without notice. QUALITY SYSTEMS Made in the U.S. A. - Two Class A(Style Z). • Separate Trouble and AC Fail Form-C relay contacts. QUALITY SYSTEMS Made in the U.S. A. For more information, contact Notifier. Phone: (203) 484-7161, FAX: (203) 484-7118. For more information, contact Notifier. Phone: (203) 484-7161, FAX: (203) 484-7118. www.notifier.com wwmnotifieccom DN-6881:A1 • 06/05/2009 - Page t of 2 Page 2 of 2 - DN-6881:Al • 06/05/2009 DN-60645:Bl • 06/17/2011 - Page 1 of 2 Page 2 of 2 - DN-60645:B1 • 06/17/2011 FA-8 DN-6857:B • G-190 CUT SHEETS & CALCULATIONS CAB-4 Series Cabinets �J NOT 1 F 1 E R° ONYX® Series Backboxes with Locking Doors by Honeywell General All cabinets for NOTIFIER fire alarm control panels are fabri- cated from 16- au a steel. The cabinet assembly consists of 9 9 Y two basic arts: a backbox and a looking door. Cabinets are P 9 - available in either black or red, with or without windows. The i_ ii window model provides a tasteful combination to accent the _ _ decor of the finest lobby setting. • The key -locked door is provided with a pin -type hinge, two -:- -; keys and the necessary hardware to mount the door to the backbox. Ll • The backbox has been engineered to provide ease -of -entry for the installer. Knockouts are positioned at numerous points to aid the installer in bringing a conduit into the enclo- sure with a minimum of hardship. • Right- or left-hand hinges, selectable in the field. Door opens 180". • Cabinets are arranged in four standard sizes, A (one tier) through D (four tiers), plus a mini cabinet (AA, one tier with- g out a battery compartment). See Ordering Information. • A trim ring option is available for semi -flush mounting. • Chassis bridge available for assembling multiple CHS-4 chassis external to the backbox. NFS2-3030 and DVC in "C" sized CAB-4 cabinet Ordering Information TR-A4: Accessory semi -flush -mount trim ring, one tier (opening A complete cabinet assembly consists of: a door, a backbox, an 24.062" [61.118 cm] W x 20.062" 150.958 cm] H), BLACK. optional battery plate, and an optional semi -flush trim ring. For NOTE: Black trim rings are used with red or black cabinets. each cabinet required, order one "DR" door and one "SBB" backbox. The BP-4 or BP2-4 battery plate is required for each BP-4: Battery panel for NFS-640 and NFS-3030. Used to cabinet assembly that mounts batteries and/or a power supply in cover battery and power supply when lower position is used in the lower position of the cabinet. The optional trim ring is an backbox. attractive "picture frame" -style black metal ring. SP24: Battery panel for NFS2-3030. Used to cover battery and power supply when lower position is used in backbox. MINI "AA " SIZE, ONE TIER: DR-AA4: Door assembly, window, one tier (no battery compart- TWO TIERS, "B" SIZE. ment), BLACK. DR-B4: Door assembly, window, two tiers, BLACK. DR-AA4R: Door assembly, window, one tier (no battery com- DR-B4R: Door assembly, window, two tiers, RED. partment), RED. DR-B4B: Door assembly, solid door, two tiers, BLACK. DR-AA4R: Door assembly, solid door, one tier (no battery com- DR-113413R: Door assembly, solid door, two tiers, RED. partment), BLACK. SBB-B4: Backbox assembly, two tiers, BLACK. DR-AA4BR: Door assembly, solid door, one tier (no battery SBB-B4R: Backbox assembly, two tiers, RED. compartment), RED. SBB-AA4: Backbox assembly, one tier (no battery compart- TR-B4: Accessory semi -flush -mount trim ring, two tiers (open- ment), BLACK. ing 24.062" [61.118 cm] W x 28.562" [72.548 cm] H), BLACK. SBB-AA4R: Backbox assembly, one tier (no battery compart- NOTE- Black trim rings are used with red or black cabinets. ment), RED. BP-4: Battery panel for NFS-640 and NFS-3030. Used to TR-AA4: Accessory semi -flush -mount trim ring, one tier (no cover battery and power supply when lower position is used in battery compartment). backbox. NOTE: Black trim rings are used with red or black cabinets. BP2-4: Battery panel for NFS2-3030. Used to cover battery and power supply when lower position is used in backbox. ONE TIER, "A" SIZE. THREE TIERS, "C" SIZE: DR-A4: Door assembly, window, one tier, BLACK. DR-C4: Door assembly, window, three tiers, BLACK. DR-A4R: Door assembly, window, one tier, RED. DR-C4R: Door assembly, window, three tiers, RED. DR-A4B: Door assembly, solid door, one tier, BLACK. DR-C4B: Door assembly, solid door, three tiers, BLACK. DR-A4BR: Door assembly, solid door, one tier, RED. DR-C4BR: Door assembly, solid door, three tiers, RED. SEll Backbox assembly, one tier, BLACK. SBB-C4: Backbox assembly, three tiers, BLACK. SBB-A4R: Backbox assembly, one tier, RED. SBB-C4R: Backbox assembly, three tiers, RED. TR-r4: Accessory semi -flush -mount trim ring, three tiers (open- ACCESSORIES: in " 61.118 37.187" 94.455 H BLACK. 9 24.062[ cm ] IN [ cm ] )' WC-2: Wire channel. Provides a pair of wire trays to neatly NOTE., Black trim rings are used with red or black cabinets. route wiring between CHS chassis. BP-4: Battery panel for NFS-640 and NFS-3030. Used to CB-1: Chassis bridge. Provides a bridge between CHS Series cover battery and power supply when lower position is used in chassis. backbox. DPA B: Blank dress panel, covers one CAB-4 tier, BLACK. BP2-4: Battery panel for NFS2-3030. Used to cover battery and ADP-4B: Annunciator dress panel. power supply when lower position is used in backbox. VP-2B: Ventilator panel. FOUR TIERS, "D" SIZE: DR-D4: Door assembly, window, four tiers, BLACK. Agency Listings and Approvals DR-D4R: Door assembly, window, four tiers, RED. These listings and approvals below apply to the CAB-4 Series DR-D4B: Door assembly, solid door, four tiers, BLACK. Cabinets. In some cases, certain modules or applications may DR-D4BR: Door assembly, solid door, four tiers, RED. not be listed by certain approval agencies, or listing may be in process. Consult factory for latest listing status. SBB-D4: Backbox assembly, four tiers, BLACK. . UL Listed: file S635 (except AA size). SBB-D4R: Backbox assembly, four tiers, RED. • ULC Listed: file CS118 (except AA size). TR-D4: Accessory semi -flush -mount trim ring, four tiers (open- • MEA approved: files 317-01-E, 345-02-E (except AA size). ing 24.062" [61.118 cm) W x 45.812" [116.363 cm] H), BLACK. . CSFM approved (except AA size): files 7165-0028:0243 Note: Black trim rings are used with red or black cabinets. (NFS2-640), 7165-0028:0224 (NFS2-3030). BP-4: Battery panel for NFS-640 and NFS-3030. Used to • FM approved (except AA size). cover battery and power supply when lower position is used in . U.S. Coast Guard approved: 161.002/42/1 (NFS-640). backbox. FDNY COA# 6038, COA# 6058. BP2-4: Batterypanel for NFS2-3030. Used to cover battery and power supply when lower position is used in backbox. Cabinet Dimensions and Features (+3.997) (6.197) CAe4keylnk.wmf 1.125 (2.858 an) j•-+j 0.250 ; (0.635 cm) Height of ON ---___ ___✓' 1 mounting bolt 0.500 after installation (1.27 cm) - Keyhole dimensions (1.27 cm) 20-118" (51.12) mba42903.wm i� 24' (60.96) 241/8' (61.28) ri 4ylol 16' (40.64) 5/16' dia. ,79) DN-6857:8 • 8/11 /2010 -Page 1 of 4 Page 2 of 4 - DN-6857:13 •8/11/2010 2-1/4" (5.7 Knockouts on top of cabinets. 5.156 2.44 7.12" KNOCKOUTS: Inner: 5.93' 0.875' (2.223) (15.062) Outer: 1.125° (2.858) 8---�.--- -- 4---- I Top Imakoul: Inner 1.375' (1,19) Outer 1.750" (4.45) I 5-5/32' 2-1116" (4.13) � I " 11-9(21.91) -- 5/16'dia. -• - --�-- (0.79) (281.66) 20' �r -- - (56.69) \ (am) I z) � i H- 2.9/16" I (6.51) Lower lmw#put Inner0A75'(2.88) Outer IAA (2.22) Too knodcaN: Inner 1.375- (8.49) Outer 1.750' (4.45) N 24' (60.96) (f0.16 5218' 2.063" � 24.125' 61.28) ! 13.254) (524) 4 it - _ _.. - �-j ---j-i---- �-- --- ---- 1a.oz5 " a 61 AA SIZE 1.625' (4.13) 11, 4.62- (11.74) 13.9' (35.624) CABINET 0.313-dia (079) (27 �) (35.31) -- d----�__-- --- �- ------ L 'I- - i (cm) - ceb-b4-zoo3.wmf �- 19.5' (49.53) �',r-r, ',.- 2.56' 65 2.25' (5.72) 1 24-1/8"(61.28) ze-sre^ (72.71) 37-1/4' (94 aabW-2ro9.wm1 I cetrc/-ZW3.wmf 24.1/8' (61.28) 1(,rg16 i 24" (60.96) 16' (40.64) 5/16' dia. 5/16' dia. (0.79) - 19-1/2"(49.53) - 24^ (60.96) 16' (40.64) 5116' dia. 5/16• dia. (0.79) (0.79) D.� ��-19-1/2' (49.53) - 2-114' (5.72) Lawa(2o ) 1 Inner 0.875' (222) 875' Outer 1.125' (2.88) Tap knodk Inner 1.375- (3.49) (Outer 1.750" (4.45) t-5/8" f . 5-5732' 2-1/16' 19-25132' so.za) - --# 28-1/2° 8-5/8^ (21.91) (72,39) .............. �\ 2-1/4' (5.72) \ (cm) i -- 2-9/16" (65.088) Two bwer kna uta Inner 0.875" (2.88) Outer 1.125- (2.22) Top kneduwt Inner 1.375' (3.,191 Outer 1.750' (4.45) 1 5/8' 5-5/32' 2-1/16' (4.13) - , (13.1) i (5.24) (71.36) (5.72) (cm) 8-518, (21.91) 8-6/8' (2121) 8-5/8' 37-118, (94.3)_---_j__ (ss1) In. bwer (2 86) ule Inner l.125 ((2,2 ) Outer 1.125' (2.22) DN-6857:8. 8/11/2010 - Page 3 of 4 dn-6820:A1 • D-123 FDU -8080 er Liquid Crystal Display �J NOTIFIER ° by Honeywell General The FDU-80 is a compact, cost-effective, 80 character, backlit LCD Fire Annunciator for use with the NOTIFIER FireWarden- l Panels (FACPs). TheDU-80 mimics he display of the control I I panel and displays complete system point status information. - - - Up to 32 FDU-80s may be connected onto the EIA-485 Terminal Mode port of each control panel. The FDU-80 requires no programming, which saves time during system commissioning. ""'• f �• y� pp Features • 80-character Liquid Crystal Display. - • Mimics all display information from the host panel. U and e)p9 • Control switches for System Acknowledge, Signal Silence, Drill and Reset with enable key. • System status LEDs for Power, Alarm, Trouble, Supervi- sory, and Alarm Silenced. Agency Listings And Approvals • No programming necessary - FDU-80 connects to the ter- These listings and approvals apply to the modules specified in minal mode port. this document. In some cases, certain modules or applications • Displays device type identifiers, individual point alarm, trou- may not be listed by certain approval agencies, or listing may ble or supervisory, zone and custom alpha labels. be in process. Consult factory for latest listing status. • Time and date display field. • UL Listed: S635 • Aesthetically pleasing design. • ULC Listed: CS100 • May be powered by 24 VDC from the host FACP or by . MEA Listed: 245-00-E remote power supplies (requires 24 VDC). . CSFM: 7120-0028:209 • Up to 32 FDU-80 annunciators per FACP. . FM Approved • Plug-in terminal blocks for ease of installation and service. • Can be remotely located up to 6,000 feet (1828.8 m) from Ordering Information host control panel. • Local plaza sounder with alarm and trouble resound. FDU-80: 80 character, backlit, LCD Fire Annunciator with con- trol switches for remote control of system functions, and key - Semi -flush -mounts to 2.188"/5.556 cm (minimum) deep, switch lock. three -gang electrical box (NOTIFIER PM 10103) or three- gangable electrical switchbox. 9 9 10103: Three -an electrical box, minimum 2.188" 5.556 cm) • Surface -mounts to NOTIFIER SBB-3 surface backbox. deep, for semi -flush -mount applications. SBB-3: Three -gang surface backbox for surface -mount appli- Operation cations. The FDU-80 annunciator provides the FACP with point annun- ciation with full display text on an 80-character LCD display. The FDU-80 also provides an array of LEDs to indicate sys- tem status, and also includes control switches for remote con- trol of critical system functions. The FDU-80 provides the FACP with up to 32 remote serially connected annunciators. All field -wiring terminations on the FDU-80 use removable, compression -type terminal blocks for ease of wiring and circuit testing. Communication between the FACP and the annunciators is accomplished over an EIA-485 serial interface, which greatly reduces wire and installation cost over traditional systems. Installation The FDU-80 can be semi -flush mounted to a 2.18875.556 cm (minimum) deep, three -gang electrical box or three-gangable electrical switchboxes. Alternately, an SBB-3 surface backbox is available for surface -mount applications. dn-6820:A7 • 02/24/09 - Page t of 2 244/8' (61.28) - $5-7/8" (116.52) Top knockout Inner 1.375- (1,19) Outef 1.750' (4.45) 24°(60.96) +i 5-5/32' 2-1/16' 1518" \ (13.1) j (5.24) 16' (40.64) (4.13) b 5/i6'dia. 5116'dla. f(0.79) (0.791. 10 �w----19-1/2'(49.53) 2-1/4' (5.72) 8a57bp4.wmf The BP-4 Battery Dress Panel covers the Main Power Supply and the batteries in the cabinet. Only one BP-4 or BP24 is required per cabinet unless an AA cabinet is used (no battery compartment). 37-1/32" (94.06) 45-3/4" (5.72) (cm) r 2-9116' (6.51) Inner Pour 0.87 knaaka) Outer 1.125° (222) "D" sized cabinet with solid door. Solid door option available on all sizes in black or red. ONYX® and NOTIFIER8 are registered trademarks of Honeywell Intema- tional Inc. (92010 by Honeywell International Inc. All rights reserved. Unauthorized use of this document is strictly prohibited. ISO 9001 This document is not intended to be used for installation purposes. We try to keep our product information up-to-date and accurate. We cannot cover all specific applications or anticipate all requirements. 111111191111111 S MMIMCTIUNt QUALITY SYSTEMS All specifications are subject to change without notice. Made in the U.S. A. For more information, contact Noti ier. Phone: (203) 484-7161, FAX: (203) 484-7118. www.notfier.com Page 4 of 4 - DN-6857:5 •8/11/2010 02009 by Honeywell International Inc. All rights reserved. Unauthorized use of this document is strictly prohibited. C 0 9001 This document is not intended to be used for installation purposes. We try to keep our product information up-to-date and accurate. V We cannot cover all specific applications or anticipate all requirements. E11111141011% S MANUfACTIRIN6 All specifications are subject to change without notice. QUALITY SYSTEMS Made in the U.S. A. For more information, contact Notifier. Phone: (203) 484-7161, FAX: (203) 484-7118. www rIotifier.com Page 2 of 2 - dn-6820:A1 • 02/24/09 FA-9 DN-60977:A CUT SHEETS & CALCULATIONS DN-60975:A FSP-951 Series Intelligent Plug -In Photoelectric Smoke Detectors General The NOTIFIER FSP-951 Series intelligent plug-in smoke detectors are designed for both performance and aesthetics. A new modern, sleek, contemporary design and enhanced optical sensing chamber is engineered to sense smoke produced by a wide range of combus- tion sources in accordance with more stringent code standards. The FSP-951 Series detector sensitivity can be programmed in the con- trol panel software. Sensitivity is continuously monitored and reported to the panel. Point ID capability allows each detector's address to be set with rotary, decimal address switches, providing exact detector location for selective maintenance when chamber contamination reaches an unacceptable level. Dual electronic thermistors add 135°F (57°C) fixed temperature thermal sensing on the FSP-951T. The FSP-951R is a remote test capable detector for use with DNR Series duct detector housings. FSP-951 series detec- tors are available for both FlashScan® and CLIP applications as designated. Features • New modern profile for improved aesthetics. • Designed to meet UL268 7th Edition. • Stable communication technique with noise immunity. • Low standby current. • Two -wire SLC connection. • Compatible with FlashScan® and CLIP protocol systems. • Rotary, decimal addressing (1-99 on CLIP systems, 1-159 on FlashScan systems). • Optional remote, single -gang LED accessory. • Dual LED design provides 360' viewing angle. • Visible bi-color LEDs blink green every time the detector is addressed, and illuminate steady red on alarm (FlashScan sys- tems only). • Remote test feature from the panel. • Walk test with address display (an address on 121 will blink the detector LED: 12-[pause]-1 (FlashScan systems only). • Built-in functional test switch activated by external magnet. • Built-in tamper -resistant feature. • Sealed against back pressure. • Expanded color options. • SEMS screws for wiring of the separate base. • Optional relay, isolator, and sounder bases. Specifications Sensitivity: • UL Applications: 0.5% to 4.0% per foot obscuration. • ULC Applications: 0.5% to 3.5% per foot obscuration. Size: 2.0" (5.3 cm) high; base determines diameter. — B300-6: 6.1" (15.6 cm) diameter. — B501: 4" (10.2 cm) diameter. For a complete list of detector bases see DN-60981. Shipping weight: 3.4oz (96.4g) Operating Temperature range: • FSP-951, 0°C to 50°C (32°F to 122"F). • FSP-951T, 0°C to 380C (320F to 1000F). Agency Listings and Approvals These listings and approvals apply to the detectors specified in this document.ln some cases, certain detectors or applications may not be listed by certain approval agencies, or listing may be in process. Consult factory for latest listing status. • UUULC Listing: S2101 • FM Approved • CSFM:7270-0028:0502 Product Line Information NOTE: A"suffix indicates ULC Listed model. NOTE: "-IV" suffix indicates FlashScan® and CLIP device. FST-951: White, low -profile intelligent 135OF fixed thermal sensor, FlashScan only. FST-951A: Same as FST-951 but with ULC listing. FST-951-IV: Ivory, low -profile intelligent 135OF fixed thermal sensor, FlashScan and CLIP. FST-951A-IV: Same as FST-951-IV but with ULC listing. FST-951R: White, low -profile intelligent rate -of -rise thermal sensor, FlashScan only. FST-951 RA: Same as FST-951 R but with ULC listing. FST-951R-IV: Ivory, low -profile intelligent rate -of -rise fixed thermal sensor, FlashScan and CLIP. FST-951 RA -IV: Same as FST-951 R-IV but with ULC listing. FST-951 H: White, low -profile intelligent 190°F fixed thermal sensor, FlashScan only. FST-951 HA: Same as FST-951 H but with ULC listing. FST-951H-IV: Ivory, low -profile intelligent 190°F thermal sensor, FlashScan and CLIP. FST-951HA-IV: Same as FST-951H-IV but with ULC listing. INTELLIGENT BASES NOTE: For details on intelligent bases, see DN-60981 B300-6: White, 6" base, standard flanged low -profile mounting base. 8300-6-IV: Ivory,6" base, standard flanged low -profile mounting base. B300A-6: Same as B300-6, ULC listed. B30OA-6-IV: Ivory, 6" standard flanged low -profile mounting base, ULC listed. B300-6-BP: Bulk pack of B300-6, package contains 10 B501-WHITE: White, 4" standard European flangeless mounting base. UUULC listed. B501-BL: Black, 4" standard European flangeless mounting base. UUULC listed. B501-IV: Ivory color, 4" standard European flangeless mounting base. UUULC listed. B501-WHITE-BP: Bulk pack of B501-WHITE contains 10. 8224RB-WH: White, relay base. 13224RB-IV: Ivory, relay base. B224RBA-WH: White, relay base, ULC listing. B224RBA-IV: Ivory, relay base, ULC listing. B22481-WH: White, isolator detector base. B224BI-IV: Ivory Isolator detector base. B224BIA-WH: White, Isolator detector base, ULC listing. B224BIA-IV: Ivory isolator detector base, ULC listing. �J NOT FI E R° by Honeywell FSP-951 in B300-6 Base • FSP-951R installed in a DNR/DNRW, -20°C to 700C (-4°F to 158-F). UUULC Listed Velocity Range: 0-4000 ft/min. (1219.2 m/min.), suitable for installation in ducts. Relative Humidity: 10%-93% noncondensing. Thermal Ratings: Fixed -temperature setpoint 135°F (57°C). DETECTOR SPACING AND APPLICATIONS NOTIFIER recommends spacing detectors in compliance with NFPA 72. In low airflow applications with smooth ceiling, space detectors 30 feet (9.1 m). For specific information regarding detector spacing, placement, and special applications refer to NFPA 72. System Smoke Detector Application Guide, document A05-1003, is available at systemsensor.com ELECTRICAL SPECIFICATIONS Voltage Range: 15-32 volts DC peak. Standby Current (max. avg.): 200pA G 24VDC (one communica- tion every five seconds with LED enabled). LED Current (max.): 4.5mA @ 24 VDC ("ON"). Installation FSP-951 series plug-in detectors use a separate base to simplify installation, service, and maintenance. Mount base (all base types) on an electrical backbox which is at least 1.5" (3.81 cm) deep. For a chart of compatible junction boxes, see DN-60981. NOTE: 1) Because of inherent supervision provided by the SLC loop, end -of -line resistors are not required. Wiring 'T-taps" or branches are permitted for Style 4 (Class "B') wiring. 2) When using relay or sounder bases, consult the ISO-X(A) installation sheet 156-1380 for device limita- tions between isolator modules and isolator bases. DN-60977:A • 4/17118 — Page 1 of 3 B20OS-WH: White, Intelligent addressable sounder base capable of producing sound output in high or low volume with ANSI Temporal 3, ANSI Temporal 4, continuous tone, marching tone, and custom tone. Uses FlashScan protocol. B20OS-IV: Ivory, Intelligent addressable sounder base capable of producing sound output in high or low volume with ANSI Temporal 3, ANSI Temporal 4, continuous tone, marching tone, and custom tone. Uses FlashScan protocol. B200SA-WH: Same as B200S-WH, ULC listing. B200SA-IV: Same as B200S-IV, ULC listing. B200SCOA-WH: White, Intelligent, programmable sounder base in English/French (required in Canada for ULC applications with SO Series detector applications. B200SCOA-IV: Ivory Intelligent, programmable sounder base in English/French (required in Canada for ULC applications with SO Series detector applications, ULC listing. B20OS-LF-WH: White, Low Frequency Intelligent, programmable sounder base. Produces a fundamental frequency of 520 Hz +/- 10% with a square wave or its equivalent; designed to meet the NFPA 72 sleeping space requirement. B20OS-LF-IV: Ivory, Low Frequency Intelligent, programmable sounder base. Produces a fundamental frequency of 520 Hz +/- 10% with a square wave or its equivalent; designed to meet the NFPA 72 sleeping space requirement. B200SR-WH: White, Intelligent sounder base capable of producing sound output with ANSI Temporal 3 or continuous tone. Intended for retrofit applications. B200SR-IV: Ivory, Intelligent sounder base capable of producing sound output with ANSI Temporal 3 or continuous tone. Intended for retrofit applications. B200SRA-WH: Same as B200SR-WH with, ULC listing. B200SRA-IV: Same as B200SR-IV in Ivory color, ULC listing. B200SR-LF-WH: White, Low Frequency Intelligent, programmable sounder base. Produces a fundamental frequency of 520 Hz +/- 10% with a square wave or its equivalent; designed to meet the NFPA 72 sleeping space requirement. Intended for retrofit applica- tions. B200SR-LF-IV: Ivory, Low Frequency Intelligent, programmable sounder base. Produces a fundamental frequency of 520 Hz +/- 10% with a square wave or its equivalent; designed to meet the NFPA 72 sleeping space requirement. Intended for retrofit applica- tions. MOUNTING KITS AND ACCESSORIES TR300: White, replacement flange for B210LP(A) base. TR300-IV: Ivory, replacement flange for B210LP(A) base. RA100Z(A): Remote LED annunciator. 3 — 32 VDC. Mounts to a U.S. single -gang electrical box. For use with B501 (A) and B3006(A)- 6. M02-04-00: Test magnet. M02-09-00: Test magnet with telescoping handle. Agency Listings and Approvals These listings and approvals apply to the detectors specified in this document. In some cases, certain detectors or applications may not be listed by certain approval agencies, or listing may be in process. Consult factory for latest listing status. • UUULC Listed: S911 • FM Approved • CSFM:7272-0028:0503 Product Line Information NOTE: • Detectors must be mounted to one of the Intelligent Bases listed below. • `A"suffix indicates ULC Listed model. • "IV" suffix indicates Flash Scan® and CLIP device. FSP-951: White, low -profile intelligent photoelectric sensor, FlashS- can only. FSP-951A: Same as FSP-951 but with ULC listing. FSP-951-IV: Ivory, low -profile intelligent photoelectric sensor. FSP-951A-IV: Same as FSP-951-IV but with ULC listing. FSP-951T: White, same as FSP-951 but includes a built-in 135OF (57°C) fixed -temperature thermal device. FlashScan only. FSP-951TA: Same as FSP-951T but with ULC listing. FSP-951T-IV: Ivory, same as FSP-951T but includes a built-in 135OF (57°C) fixed -temperature thermal device. FSP-951TA-IV: Same as FSP-951T-IV but with ULC listing. FSP-951R: White, low -profile intelligent photoelectric sensor, remote test capable. For use with DNR/DNRW. FlashScan only. FSP-951 RA: Same as FSP-951 R but with ULC listing. For use with DNRA. FSP-951 R-IV: Ivory, low -profile intelligent photoelectric sensor, remote test capable. For use with DNR/DNRW. FSP-951 RA -IV: Same as FSP-951 R-IV but with ULC listing. For use with DNRA. INTELLIGENT BASES NOTE For details on intelligent bases, see DN-60981 B300-6: White, 6" base, standard flanged low -profile mounting base. B300-64V: Ivory,6" base, standard flanged low -profile mounting base. B300A-6: Same as B300-6, ULC listed. B30OA-6-IV: Ivory, 6" standard flanged low -profile mounting base, ULC listed. B300-6-BP: Bulk pack of B300-6, package contains 10 B501-WHITE: White, 4" standard European flangeless mounting base. UUULC listed. 8501-BL: Black, 4" standard European flangeless mounting base. UUULC listed. B501-IV: Ivory color, 4" standard European flangeless mounting base. UUULC listed. 8501-WHITE-BP: Bulk pack of B501-WHITE contains 10. B224RB-WH: White, relay base. B224RB-IV: Ivory, relay base. B224RBA-WH: White, relay base, ULC listing. B224RBA-IV: Ivory, relay base, ULC listing. Page 2 of 3 — DN-60977:A • 4117/18 B224BI-WH: White, Isolator detector base. B224BI-IV: Ivory isolator detector base. B224BIA-WH: White, isolator detector base, ULC listing. B224BIA-IV: Ivory isolator detector base, ULC listing. B20OS-WH: White, Intelligent addressable sounder base capable of producing sound output in high or low volume with ANSI Temporal 3, ANSI Temporal 4, continuous tone, marching tone, and custom tone. Uses FlashScan protocol. B20OS-IV: Ivory, Intelligent addressable sounder base capable of producing sound output in high or low volume with ANSI Temporal 3, ANSI Temporal 4, continuous tone, marching tone, and custom tone. Uses FlashScan protocol. B200SA-WH: Same as B20OS-WH, ULC listing. B200SA-IV: Same as B20OS-IV, ULC listing. B200SCOA-WH: White, Intelligent, programmable sounder base in English/French (required in Canada for ULC applications with SO Series detector applications. B200SCOA-IV: Ivory Intelligent, programmable sounder base in English/French (required in Canada for ULC applications with SO Series detector applications, ULC listing. B20OS-LF-WH: White, Low Frequency Intelligent, programmable sounder base. Produces a fundamental frequency of 520 Hz +/- 10% with a square wave or its equivalent; designed to meet the NFPA 72 sleeping space requirement. B20OS-LF-IV: Ivory, Low Frequency Intelligent, programmable sounder base. Produces a fundamental frequency of 520 Hz +/- 10% with a square wave or its equivalent; designed to meet the NFPA 72 sleeping space requirement. B200SR-WH: White, Intelligent sounder base capable of producing sound output with ANSI Temporal 3 or continuous tone. Intended for retrofit applications. B200SR-IV: Ivory, Intelligent sounder base capable of producing sound output with ANSI Temporal 3 or continuous tone. Intended for retrofit applications. B200SRA-WH: Same as B200SR-WH with, ULC listing. B200SRA-IV: Same as B200SR-IV in Ivory color, ULC listing. B200SR-LF-WH: White, Low Frequency Intelligent, programmable sounder base. Produces a fundamental frequency of 520 Hz +/- 10% with a square wave or its equivalent; designed to meet the NFPA 72 sleeping space requirement. Intended for retrofit applica- tions. B200SR-LF-IV: Ivory, Low Frequency Intelligent, programmable sounder base. Produces a fundamental frequency of 520 Hz +/- 10% with a square wave or its equivalent; designed to meet the NFPA 72 sleeping space requirement. Intended for retrofit applica- tions. MOUNTING KITS AND ACCESSORIES TR300: White, replacement flange for B210LP(A) base. TR300-IV: Ivory, replacement flange for B21OLP(A) base. RA10OZ(A): Remote LED annunciator. 3 — 32 VDC. Mounts to a U.S. single -gang electrical box. For use with B501 (A) and B300(A)- 6. M02-04-00: Test magnet. M02-09-00: Test magnet with telescoping handle. Notifier®and FlaslrScan® are registered trademarks of Honeywell International Inc. Notifier® and Bayblend® is a registered trademark of Bayer Corp. 02018 by Honeywell International Inc. All rights reserved. Unauthorized use of this document is strictly prohibited. This document is not intended to be used for installation purposes. S 0 9001 We try to keep our product information up-to-date and accurate. We cannot cover all specific applications or anticipate all requirements. All specifications are subject to change without notice. ENGINEERING A MANUFACTURING For more information, contact Notifier. Phone: (800) 627-3473, FAX: (203) 484-7118. QUALITY SYSTEMS www.notifier.com 02018 by Honeywell International Inc. All rights reserved. Unauthorized use of this document is strictly prohibited. This document is not intended to be used for installation purposes. We try to keep our product information up-to-date and accurate. ISO 9001 We cannot cover all specific applications or anticipate all requirements. ® All specifications are subject to change without notice. QUALITY A L I S MANUFACTURING QUALITT Y SYSTEMS S For more information, contact Notifier. Phone: (800) 627-3473, FAX: (203) 484-7118. www.notifier.ccm Page 3 of 3 — DN-60977:A • 4/17/18 DN-60689:C FCO.851(A) IntelliQuadTM PLUS �J NOTIFIER Advanced Multi -Criteria Fire/CO Detector by Honeywell General World -class fire and carbon monoxide (CO) detection com- bined in a single addressable device provides a practical solu- tion for today's market. The IntelliQuad PLUS FCO-851(A) Advanced Multi -Criteria Fire/CO Detector is a plug-in, addressable device that pro- vides both fire and carbon monoxide (CO) detection. For fire, the detector combines four separate sensing elements in one unit (smoke, CO, light/flame, and heat) to sense multiple com- ponents of a fire. This approach enables enhanced sensitivity to real fire with heightened immunity to nuisance particulate. For CO, the detector's electrochemical sensing cell creates a separate signal for life safety CO detection. CO is a colorless, odorless, and deadly gas that is virtually impossible to detect with the human senses. It is released whenever carbon -based fuels (from fossil fuels to firewood) burn without enough oxygen to form CO2. Because the poten- tial exists for dangerous levels of CO to accumulate in almost any building, legislation mandating the use of CO detection in commercial spaces continues to increase across the U.S. and Canada. The FCO-851(A) is listed to the UL 268 standard for smoke detectors and the UL 2075 standard for system -con- nected life safety carbon monoxide monitoring. The FCO-851(A) should be used in conjunction with the B200S(COA) intelligent sounder base, which can generate either a Temp 3 pattern for fire or a Temp 4 pattern for CO alarm indication. The B200S(COA) recognizes the System Sensor synchroniza- tion protocol. This enables it to be used as a component of the general evacuation signal — along with other System Sensor horns, horn strobes, and chimes — when connected to a power supply or Fire Alarm Control Panel (FACP) output capa- ble of generating the System Sensor synchronization pulses. With each sounder base carrying a unique address, the FACP can then command an indvidual sounder — or a group of sounders — to activate. The command set from the panel can be tailored to the specific event, allowing selection of volume, tone, and group. NOTE., The FCO-851(A) is compatible with the NFS-320(C), NFS- 320SYS, NFS2-640, and NFS2-3030 operating with firmware ver- sion 17.0 (or higher) in FlashScan® mode, CLIP mode not sup- ported. Features • Unique ability to detect all four major elements of a fire. • Separate CO detection signal. • Highest nuisance alarm immunity. • Automatic drift compensation of smoke sensor and CO cell. • Uses only one address on the SLC. • RealTest® CO testing capability. • Separates audible signal for fire or CO alarm when used with the B200S base (8200SCOA in Canada). • CO cell end -of -life warning and fault. • FlashScan operation. FCO-851(A) in B200S(COA) Sounder Base Sensitivity Settings and Suggested Applications • Level 1: 1% / ft of smoke. Suggested for very clean envi- ronments such as laboratories. • Level 2: 2% / ft of smoke. Suggested for clean environ- ments such as offices. • Level 3: 3% / ft of smoke. Suggested for moderately clean environments such as hotel rooms, dorm rooms. • Level 4: 3% / ff of smoke with different algorithm process- ing and weighting of sensor elements. Suggested for hotel rooms near a shower, boiler rooms. • Level 5: 4% / ft of smoke. Suggested for equipment rooms, kitchens, paint shops. • Level 6: Thermal alarm at 135°F (57C). Once the CO cell has reached end -of -life, the CO sensor no longer provides life safety protection; however, when the fire detector enters Photo, Thermal, Infrared (PTIR) mode, the fol- lowing sensitivities apply: • Level 1: 1 % / ft of smoke. Suggested for very clean envi- ronments such as laboratories. • Level 2: 2% / ft of smoke. Suggested for clean environ- ments such as offices. • Level 3: 3% / ft of smoke. Suggested for moderately clean environments such as hotel rooms, dorm rooms. • Level 6: Thermal alarm at 135°F (570C). Specifications PHYSICAL SPECIFICATIONS Size: 3.46" (8.79 cm) high x 6.875" (17.46 cm) diameter installed in B200S(COA) base. Shipping weight: 4.6 oz. (130.41 g). Color: Ivory. DN-60689:C • 8/7/17 — Page 1 of 2 FST-951 Series Intelligent Thermal (Neat) Detectors General The NOTIFIER FST-951 Series intelligent thermal detectors are designed for both performance and aesthetics. A new modern, sleek, contemporary design and advanced thermal technologies make the FST-951 Series ideal for both system operation and build- ing design. The point ID address, set using rotary decimal switches, provide specific detector locations. The series includes a 135°F/ 57°C fixed -temperature, rate -of -rise and a 180°F/88°C fixed high - temperature detectors. These thermal detectors provide effective, intelligent property protection in a variety of applications. Detectors are available for both FlashScan® and CLIP applications as desig- nated. Features • Sleek and stylish contemporary design. • Advanced thermal technology for fast response. • Fixed temperature model (FST-951) factory preset to 135OF (57-C). • Rate -of -rise model (FST-951 R), 15°F (8.3°C) per minute. • High temperature model (FST-951H) factory preset to 190°F (88-C). • Addressable by device. • Compatible with FlashScan® and CLIP protocol systems. • Rotary, decimal addressing (1-99 on CLIP systems, 1-159 on FlashScan systems). • Two -wire SLC connection. • Visible LEDs "blink' every time the unit is addressed. • 360°-field viewing angle of the visual alarm indicators (two bi- color LEDs). LEDs blink green in Normal condition and turn on steady red in Alarm. • Integral communications and built-in device -type identification. • Remote test feature from the panel. • Built-in functional test switch activated by external magnet. • Walk test with address display (an address of 121 will blink the detector LED 12-(pause)-1). • Low standby current. • Built-in tamper -resistant feature. • Designed for direct -surface or electrical -box mounting. • Sealed against back pressure. • Plugs into separate base for ease of installation and mainte- nance. • SEMS screws for wiring of the separate base. • Optional remote, single -gang LED accessory. • Optional sounder, relay, and isolator bases. Specifications Size: 2.0" (5.3 cm) high; base determines diameter. — B300-6: 6.1" (15.6 cm) diameter. — B501: 4" (10.2 cm) diameter. For a complete list of detector bases, see DN-60981 Shipping weight: 3.4oz (96.4g) Operating temperature range: • FST-951, FST-951R Series: —20°C to 38°C (-4°F to 100°F); • FST-951 H Series: —20°C to 66°C (-4°F to 150°F). Operating humidity range: 15% — 90% relative humidity (noncondensingS). Operating temperature: 0°C to 38°C (32°F to 100°F). Air velocity: 0 — 4000 ft./min. (0 to 20 m/sec.). ELECTRICAL SPECIFICATIONS Operating Voltage range: 15 — 32 volts VDC. Standby current (max. avg.): 300 pA at 24 VDC (one com- munication every 5 seconds with LED blink enabled). Maximum Alarm Current (LED on): 7.2 mA at 24 VDC. CO ALARM ACTIVATION LEVELS Alarm activation levels as defined by UL Standard 2034: Concentration of CO Maximum Alarm Time Response 70 (+/- 5) PPM 240 min (not less than 60 min) 150 (+/_ 5) PPM 50 min (not less than 10 min) 400 (+/_ 10) PPM 15 min (not less than 4 min) Ordering Information NOTE: 'A suffix indicates ULC listed model. FCO-851: IntelliQuad PLUS Advanced Multi -Criteria Fire/CO Detector. FCO-851A: IntelliQuad PLUS Advanced Multi -Criteria Fire/CO Detector, ULC listed. BX-501 Intelligent Detectors/Sensors Base. �J NOT FI E R° by Honeywell FST-951 R in B300-6 Base Detector spacing: UL approved for 50 ft. (15.24 m) center to center. FM approved for 25 x 25 ft. (7.62 x 7.62 m) spacing. Relative humidity: 10% — 93% non -condensing. Thermal ratings: Fixed -temperature set point 57°C (1350F), rate -of - rise detection 8.3°C (15°F) per minute, high temperature heat 8B"C (190-F). ELECTRICAL SPECIFICATIONS Voltage range: 15 - 32 volts DC peak. Standby current (max. avg.): 200uA @ 24 VDC (one communica- tion every 5 seconds with LED enabled). LED current (max.): 4.5mA @ 24 VDC ("ON"), Applications Use thermal detectors for protection of property. For further informa- tion, refer to 156-6522, Applications Manual for System Smoke Detectors, which provides detailed information on detector spacing, placement, zoning, wiring, and special applications. Installation The FST-951 Series plug-in intelligent thermal detectors use a sepa- rate base to simplify installation, service, and maintenance. Installa- tion instructions are shipped with each detector. Mount base (all base types) on an electrical backbox which is at least 1.5" (3.81 cm) deep. For a chart of compatible junction boxes, see DN-60054. NOTE: 1) Because of the inherent supervision provided by the SLC loop, end -of -line resistors are not required. Wiring "T-taps" or branches are permitted for Style 4 (Class 'B) wiring. 2) When using relay or sounder bases, consult the ISO-X(A) installation sheet 156-1380 for device limita- tions between isolator modules and isolator bases. 014-60975:A • 4/23/18 —Page 1 of 3 B501 Intelligent base. B501 BH Sounder base. B501 BH-2 Sounder base, steady tone. B501 BHT-2 Sounder base, temporal tone. B20OS/A Intelligent programmable, addressable sounder base. B200SR/A Sounder base. B20OS-LF Addressable Low Frequency sounder base. B200SR-LF Low Frequency sounder base. B21OLP/A Intelligent detector base. B200SCOA: Intelligent programmable sounder base, ULC listed. Includes CO detector markings in English and French. M02-04-00: Detector Test Magnet. M02-09-00: Telescoping Test Magnet. Agency Listings and Approvals The listings and approvals below apply to the primary product. In some cases, certain modules may not be listed by certain approval agencies, or listing may be in process. Consult fac- tory for latest listing status. • UL: S1115 (FCO-851). • ULC: SS527-11 (FCO-851A). • CSFM:7275-0026:0264. IntelllOuadTM is a trademark and NOTIFIERO, ReafTest® and FlasirSurf® are registered trademarks of Honeywell International Inc. 02017 by Honeywell International Inc. All rights reserved. Unauthorized use of this document is strictly prohibited. 0 9001 This document is not intended to be used for installation purposes. We try to keep our product information up-to-date and accurate. V We cannot cover all specific applications or anticipate all requirements. ENGINEERING U MANUFACTURING QUALITY SYSTEMS All specifications are subject to change without notice. Country of Origin: USA Page 2 of 2 — DN-60689:C • 817/17 For more information, contact Notifier. Phone: (203) 484-7161, FAX: (203) 484-711 S. www.notifier.com DN-60975:A • 4/23/18 — Page 2 of 3 Page 3 of 3 — DN-60975:A • 4/23/l8 FA-10 CUT SHEETS & CALCULATIONS DN-6726:C • H-240 NOTIFIER° by Honeywell Intelligent Bases Standard, Relay, Isolator, Sounder, and Low -Frequency Sounder Bases General To meet local code and application requirements, NOTIFIER@ offers standard 4" and 6" bases as well as, specialty base designs includ- ing relay, isolator, sounder and low frequenc y sounder options for the new 900 Series of addressable detectors as well as previous generations. The standard 4" and 6" bases offer a plug-in detector base intended for use in intelligent systems, with screw terminals identified with a (+ and —). The 4" base offers a compact design while the 6" base provides compatibility with a wider range of junction boxes. The specialty bases support application driven requirements. These bases employ a separate mounting plate that installs on various junction box sizes to eliminate unsightly surface -mount boxes. The mounting plate enables pre -wiring of all connections to speed and simplify installation. Relay bases provide one form-C contact relay for control of auxiliary functions, such as door closure and elevator recall. The relay can operate in two different modes (short and long delay). The activation time for the short delay is 60-100 milliseconds, while the activation time for the long delay is 6-10 seconds. A shunt with pin headers, located on the base PC board, is used to set the delay timing. Isolator bases allow the Signaling Line Circuit (SLC) loop to operate under fault conditions created from a short circuit preventing an entire communication loop from being disabled. The base isolates the section of the loop containing the short circuit from the remain- der of the circuit and automatically restores when the fault is cor- rected. Sounder and low frequency sounder bases are designed for new and existing dwelling unit applications. They offer maximum flexibil- ity in installation, configuration, and operation to meet or exceed UL 268 and UL 464 requirements. The low frequency sounder bases are designed to meet the NFPA 72 sleeping space requirement to produce a fundamental frequency of 520 Hz +/- 10% with a square wave or its equivalent. Studies show that a lower frequency, cen- tered around 520 Hz, is the most ideal to wake sleeping occupants, even those with mild to severe hearing loss. The B200SR sounder and -LF sounder bases (B200SR-WH/ B200SR-IWB200SR-LF-WH/B200SR-LF-IV) are fully compatible with existing B501 BH Series sounder base installations. The device enables users to select one of two B501-supported tones (ANSI Temporal 3 or Continuous) through a jumper. The B200S sounder and -LF sounder bases (B200S-WH/B200S-IV/ B200S-LF-WH/B200S-LF-IV) adopt the same address as the detec- tor, but use a unique device type on the loop. The Fire Alarm Control Panel (FACP) can use that address to command an individual sounder — or a group of sounders — to activate. The command set from the FACP can be tailored to multiple event -driven tone outputs allowing selection of volume (75 or 85 dBA), tone (ANSI Temporal 3, ANSI Temporal 4, or March Time) and group. In addition, some FACPs will enable custom tone patterns. The B200S series sounder bases recognize the System Sensor synchronization protocol. This enables them to be used as a component of the general evacuation signal — along with other System Sensor AV appliances — when connected to a power supply or FACP output capable of generating the System Sensor synchronization pulses. mounting on matching backbox SB-10 or SB-I/O; or semi -flush mounting on a standard single -gang, double -gang, or 4" (10.16 cm) square electrical box, and shall be installed within the limits defined by the Americans with Disabilities Act (ADA) or per national/local requirements. Manual Stations shall be Underwriters Laboratories listed. Manual stations shall connect with two wires to one of the con- trol panel SLC loops. The manual station shall, on command from the control panel, send data to the panel representing the state of the manual switch. Manual stations shall provide address setting by use of rotary decimal switches. The loop poll LED shall be clearly visible through the front of the station. The LED shall flash while in the normal condition, and stay steadily illuminated when in alarm. Product Line Information NBG-12LX: Dual -action addressable pull station. Includes key locking feature. SB-10: Surface backbox; metal. SB-I/O: Surface backbox; plastic. BG12TR: Optional trim ring. 17021: Keys, set of two. NY -Plate: New York City trim plate .�� A i B300-6 Standard 6" Base (White) B501-WHITE Flangeless 4" Base (White) B20OS-W H Sounder Base (White) B501-BL Flangeless 4" Base (Black) Specifications NOTE: Specifications applies to all model variants A", "-BL", "-LF", "-IV", -WH, -WHITE. See Product Line Information for detailed model descrip- tion. Diameter • B501-WHITE: 4" (10.16 cm) diameter. • B300-6: 6.1" (15.49 cm) diameter. • B224BI, B224RB: 6.2" (15.748 cm) diameter. • B200S, B200SR, B200SCOA: 6.875" (17.46 cm) diameter. Wire gauge: • B224BI, B224RB: 14 to 24 AWG. • B300-6, B21OLP, B501, B200S, B200SR, B200SCOA: 12 to 24 AWG Temperature range: • 1322413I, B224RB, B200S, B200SR, B200SCOA: 32"F to 120"F (0"C to 49"C). • B300-6, B21 OLP, B501: -4°F to 150"F (-20"C to 66"C). Humidity range: 10% to 93% RH, non -condensing. System temperature and humidity ranges: This system meets NFPA requirements for operation at 0"C to 49"C (32"F to 120"F); and at a relative humidity (non -condensing) of 85% at 30"C (86"F) per NFPA, and 93% t 2% at 32"C ± 2"C (89.6"F ± 1.1"F) per ULC. However, the useful life of the system's standby batteries and the electronic components may be adversely affected by extreme tem- perature ranges and humidity. Therefore, it is recommended that this system and all peripherals be installed in an environment with a nominal room temperature of 15"C to 27"C (60"F to 80"F). DN-60054:K - 7/18/2018 — Page 1 of 3 Agency Listings and Approvals In some cases, certain modules or applications may not be listed by certain approval agencies, or listing may be in pro- cess. Consult factory for latest listing status. • UL Listed: S692 (listed for Canadian and non -Canadian applications) • MEA:67-02-E • CSFM:7150-0028:199 • BSMI: C1313066760047 • U.S. Coast Guard: 161.002/23/3 (AFP-200); 161.002/27/3 (AM-2020/AFP-1010; 161,002/42/1 (NFS-640) • Lloyd's Register: 02/6007 (NFS-640); 94/60004 (E2) (AFP-200); 03/60011 (El); 07/60007 (NFS2-3030) • FM Approved Patented: U.S. Patent No. D428,351; 6,380,846; 6,314,772; 6,632,108. Notifier® and FlashScan@ are a registered trademarks of Honeywell International Inc. ©2009 by Honeywell International Inc. All rights reserved. Unauthorized use of this document is strictly prohibited. ISO 9001 This document is not intended to be used for installation purposes. We try to keep our product information up-to-date and accurate. We cannot cover all specific applications or anticipate all requirements. ENEOEEIINI E MANEFACTERINC All specifications are subject to change without notice. QUALITY SYSTEMS Made in the U.S. A. For more information, contact Notifier. Phone: (203) 484-7161, FAX: (203) 484-7178. www.notifier.com Electrical Ratings FOR B300-6 SERIES BASES: Operating voltage: 15 to 32 VDC Standby current: 170 pA maximum FOR B501 SERIES BASES: Operating voltage: 15 to 32 VDC Standby current: 150 pA maximum FOR B200 SERIES BASES: External supply voltage: 16 to 33 VDC (FWR) Standby current: 500 pA maximum. Alarm current: • B20OS(A)(-IV)(-WH) - 35 mA maximum at high -volume setting - 15 mA maximum at low -volume setting B20OS-LF(-IV)(-WH) High -volume setting: - 70 mA maximum @ 33.0 VDC - 90 mA maximum @ 24.0 VDC - 140 mA maximum @16.0 VDC • B20OS-LF(-IV)(-WH) Low -volume setting: -15 mA maximum @ 33.0 VDC - 20 mA maximum @ 24.0 VDC - 25 mA maximum @ 16.0 VDC • B200SR(A)(-IV)(-WH) - 35 mA maximum B200SR-LF(-IV)(-WH) - 65 mA maximum @ 33.0 VDC - 90 mA maximum @ 24.0 VDC - 125 mA maximum @16.0 VDC B200SCOA(-IV)(-WH) - 40mA Max (DC) - 70mA Max (FWR) SLC operating voltage: 15 to 32 VDC SLC standby current: See applicable sensor specification. Sound output: • B20OS(A)(-LF)(-IV)(-WH), high -volume*: Greater than 85 dBA minimum. • B20OS(A)(-LF)(-IV)(-WH), low -volume*: Greater than 75 dBA minimum. • B200SR(A)(-LF)(-IV)(-WH)*: Greater than 85 dBA minimum. • B200SCOA(-IV)(-WH), high -volume**: Greater than 87 dBA mink mum. • B200SCOA(-IV)(-WH), low -volume**: Greater than 85 dBA rill mum *Measured in a UL reverberant room at 10 feet, 24 Volts (continuous tone) **Measured in a ULC anechoic mom at 10 feet, 24 Volts continuous tone) FOR B224BI, B224RB (A) (-ILA (-WH): Operating voltage: 15 to 32 VDC (powered by SLC) Standby ratings: <450 pA maximum @ 24 VDC Set time (B224RB(A)(-IV)(-WH) only): short delay 60-100 millisec- onds; long delay 6-10 seconds Reset time (B224RB(A)(-IV)(-WH) only): 20 milliseconds maximum Relay characteristics (B224RB(A)(-IV)(-WH) only): two -coil latch- ng relay; one Form-C contact; ratings (UUCSA): 0.9 A @ 125 VAC, 0.9A@ 11OVDC, and 3.OA@ 30VDC Page 2 of 3 — DN-60054:K • 7/1812018 InnovairFlex Intelligent Non -Relay Photoelectric Duct Smoke Detector General The Notifier InnovairFlex DNR intelligent non -relay photoelectric duct smoke detector and DNRW watertight non -relay photoelec- tric duct smoke detector feature a pivoting housing that fits both square and rectangular footprints capable of mounting to a round or rectangular duct. DNRW duct smoke detector, with its NEMA-4 rating, is listed as a watertight, UV resistant enclosure providing protection against falling dirt, rain, and windblown dust, splashing and hose directed water, allowing operators to use the detector in the most extreme environments. These units sense smoke in the most challenging conditions, operating in airflow speeds of 100 to 4,000 feet per minute, tem- peratures of -4 degrees F to 158 degrees F, and a humidity range of 0 to 95 percent (non -condensing.) An improved cover design isolates the sensor head, which allows for ease of maintenance. A cover tamper feature indi- cates a trouble signal for a removed or improperly installed sen- sor cover. The Notifier InnovairFlex housing provides a 3/4-inch conduit knockout and ample space to facilitate easy wiring and mounting of a relay module. The Notifier InnovairFlex duct smoke detector can be custom- ized to meet local codes and specifications without additional wiring. The new InnovairFlex product line is compatible with all previous Innovair models, including remote test accessories. Features • Photoelectric, integrated low -flow technology • Air velocity rating from 100 ft/min to 4,000 ftlmin (0.5 m/s to 20.32 rTs) • Versatile mounting options: square or rectangular configura- tion • Broad ranges for operating temperature (-4F to 158F) and humidity (0% to 95% non -condensing) • Patented sampling tube installs from front or back of the detector with no tools required • Cover tamper signal • Increased wiring space with a newly added 3/4" conduit knockout • Available space within housing to accommodate mounting of a relay module • Easily accessible code wheels on sensor head (sold sepa- rately) • Clear cover for convenient visual inspection • Remote testing capability • Requires com line power only • Accommodates the installation of an addressable relay mod- ule, sold separately, (FRM-1 or NC-100R) for applications requiring a Form-C relay Product Line Information INTELLIGENT BASES NOTE., A"suffix indicates ULC Listed model. NOTE., " IV" suffix indicates Ivory color model. NOTE., "-BL" suffix indicates Black color model. NOTE: "-WH" and "-WHITE" suffix indicates White color model. B21OLP: Flanged mounted base. B21OLPA: Same as B21OLP; ULC listed. B21OLPBP: Bulk pack of B21OLP, contains 10. B300-6: White, 6" base, standard Flanged low -profile mounting base. B300A-6: Same as B300-6, ULC listed. B300-6-SP: Bulk pack of B300-6, package contains 10;. B300-6-IV: Ivory,6" base, standard flanged low -profile mounting base. B30OA-6-IV: Ivory, 6" standard flanged low -profile mounting base, ULC listed. B501-WHITE: White, 4" standard European flangeless mounting base. UL/ULC listed. B501-WHITE-BP: Bulk pack of B501-WHITE contains 10. B501-BL: Black, 4" standard European flangeless mounting base. UL/ULC listed. B501-I11: Ivory color, 4" standard European flangeless mounting base. UL/ULC listed. B224RB-WH: White, relay base. B224RB-IV: Ivory, relay base. B224RBA-WH: White, relay base, ULC listed. B224RBA-IV: Ivory, relay base, ULC listed. B224BI-WH: White, isolator detector base. B224BI-IV: Ivory isolator detector base. B224BIA-WH: White, isolator detector base, ULC listed. B224BIA-IV: Ivory isolator detector base, ULC listed. B20OS-WH: White, Intelligent addressable sounder base capable of producing sound output in high or low volume with ANSI Temporal 3, ANSI Temporal 4, continuous tone, marching tone, and custom tone. Uses FlashScan@ protocol. B20OS-IV: Ivory, Intelligent addressable sounder base capable of producing sound output in high or low volume with ANSI Temporal 3, ANSI Temporal 4, continuous tone, marching tone, and custom tone. Uses FlashScan@ protocol. B200SA-WH: Same as B20OS-WH, ULC listed. B200SA-IV: Same as B20OS-IV, ULC listed. B200SCOA-WH: White, Intelligent, programmable sounder base in English/French (required in Canada for ULC applications with SO Series detector applications. B200SCOA-IV: Ivory Intelligent, programmable sounder base in English/French (required in Canada for ULC applications with SO Series detector applications, ULC listing. B20OS-LF-WH: White, Low Frequency Intelligent, programmable sounder base. Produces a fundamental frequency of 520 Hz +/- 10% with a square wave or its equivalent; designed to meet the NFPA 72 sleeping space requirement. B20OS-LF-IV: Ivory, Low Frequency Intelligent, programmable sounder base. Produces a fundamental frequency of 520 Hz +/- 10% with a square wave or its equivalent; designed to meet the NFPA 72 sleeping space requirement. dn-60429:b �J NOTIFIER° by Honeywell Specifications Size: (Rectangle) 14.38 in (37 cm) Length; 5 in (12.7 cm) Width, 2.5 in (6.6 cm) Depth Size: (Square) 7.75 in (19.7 cm) Length; 9 in (22.9 cm) Width; 2.5 in (6.35 cm) Depth Weight: 1.6 lb (0.73 kg) Operating Temperature Range: -4 degrees F to 158 degrees F (-20 degrees C to 70 degrees C) Storage Temperature Range: -22 degrees F to 158 degrees F (-30 degrees C to 70 degrees C) Operating Humidity Range: 0 % to 95% relative humidity (non - condensing) Air Duct Velocity: 100 to 4,000 ft/min (0.5 to 20.32 m/s) Accessories Notifier provides system flexibility with a variety of accessories, including two remote test stations and different means of visible and audible system annunciation. As with our duct smoke detec- tors, all duct smoke detectors accessories are UL listed. DNR(W)s with a date code of 0013 or higher do not require external 24VDC for remote test applications when used with a remote -test -capable detector. ACCESSORY CURRENT LOADS AT 24 VDC Device Standby Alarm RA100Z OmA 12 mA Max RTS151/ OmA 12mA Max RTS151KEY B200SR-WH: White, Intelligent sounder base capable of producing sound output with ANSI Temporal 3 or continuous tone. Intended for retrofit applications. B200SR-IV: Ivory, Intelligent sounder base capable of producing sound output with ANSI Temporal 3 or continuous tone. Intended for retrofit applications. B200SRA-WH: Same as B200SR-WH. ULC listed. B200SRA-IV: Same as B200SR-IV in Ivory color, ULC listed. B200SR-LF-WH: White, Low Frequency Intelligent, programmable sounder base. Produces a fundamental frequency of 520 Hz +/- 10% with a square wave or its equivalent; designed to meet the NFPA 72 sleeping space requirement. Intended for retrofit applica- tions. B200SR-LF-IV: Ivory, Low Frequency Intelligent, programmable sounder base. Produces a fundamental frequency of 520 Hz +/- 10% with a square wave or its equivalent; designed to meet the NFPA 72 sleeping space requirement. Intended for retrofit applica- tions. MOUNTING KITS AND ACCESSORIES TR300: White, replacement flange for B21OLP(A), B300(A)-6 bases. TR300-IV: Ivory, replacement flange for B21OLP(A), B300(A)-6-IV bases. RA10OZ(A): Remote LED annunciator. 3 — 32 VDC. Mounts to a U.S. single -gang electrical box. For use with B501(A) and B300(A)- 6. Junction Box Selection Guide M02-04.00: Test magnet. M02-09.00: Test magnet with telescoping handle. CK300: White, detector color kit. Pack of 10. CK300-IR: White, detector color kit for use with FPTI and FCO Series detectors. Pack of 10. CK300-IV: Ivory, detector color kit. Pack of 10. CK300-IR-IV: Ivory, detector color kit for use with FPTI and FCO Series detectors. Pack of 10. CK300-BL: Black, detector color kit. Pack of 10. CK300-IR-BL: Black, detector color kit for use with FPTI and FCO Series detectors. Pack of 10. Agency Listings and Approvals The listings and approvals below apply to intelligent bases as noted. In some cases, certain modules or applications may not be listed by certain approval agencies, or listing may be in process. Consult fac- tory for latest listing status. • UL/ULC Listed: S1115 • FM Approved • CSFM: 7300-1663:0109, 7300-1653:0126, 7300-1653:0213, 7300-1653:0236 Base Models Single Double 3.5" Oct. 4.0" Oct. 4.0" Sq. 4.0" Sq. with 3.0" 50 mm 60 mm 70 mm 75 mm Gang Gang mud ring 8200S, B200SR, Yes Yes Yes Yes Yes Yes No No No No B200SCOA 8501 No No Yes No No Yes Yes Yes Yes No 821OLP, B300-6 Yes No Yes Yes Yes Yes No No No No B224BI, 8224RB Yes Yes Yes Yes Yes Yes No No No No NOTE: Box depth contingent on base and wire size. Refer to National Electric Code or applicable local codes for appropriate recommendations. NOTE: Applies to all model variants A" "-BL" "-LF" "-IV" "-WH" and' -WHITE". See Product Line Information for detailed model description. NOTIFIER 12 Clintonville Road Northford, CT 06472 203.484.7161 www.notifiencom 9® MEMO a EmBLIMea Eaa11Tr SYSTEMS This document is not intended to be used for ineitalla ion Purposes. We by to keep our product infonraeon up4o-oale end accurate. We cannot ow+er all specific applications or anikipale all requirements. All specifications are subject to charge wteioul notice. FlashScant, NOTIFIERO and System Sensor® are regis- tered trademarks of Honeywell International Inc. Co2018 by Honeywell International Inc. All rights reserved. Unauthorized use of this document is strictly prohibited. Country of Origin: Mexico Agency Listings and Approvals Consult product manual for lists of compatible UL-Listed devices. In some cases, certain modules may not be listed by certain approval agencies, or listing may be in process. Con- sult factory for latest listing status. • UL Listed: S911 • ULC Listed: S911 • CFSM Listed: 3242-1653:209 Product Line Information NOTE: 'A or "CDN" suffix indicates ULC listed model. DNR(A): Intelligent non -relay photoelectric low flow smoke detector housing. Requires photoelectric smoke detector (sold separately). DNRW: Watertight intelligent non -relay photoelectric low flow duct smoke detector housing. Requires photoelectric smoke detector (sold separately). NEMA-4. FSP-851: Addressable low -profile photoelectric smoke detector. FSP-851 R: Remote test capable addressable low -profile photo- electric smoke detector. NP-100: Addressable low -profile photoelectric smoke detector for FireWarden series panels. NP-10OR: Remote test capable addressable low -profile photo- electric smoke detector for FireWarden series panels. DCOIL: Remote test coil. Required for older DNR(W) duct detector housing. DST1(A): Metal sampling tube duct width up to 1 ft (0.3m) DST1.5(A): Metal sampling tube duct widths up to 1 ft to 2 ft (0.3 to 0.6 m) DST3(A): Metal sampling tube duct widths up to 2 ft to 4 ft (0.6 to 1.2 m) DST5(A): Metal sampling tube duct widths up to 4 It to 8 ft (1.2 to 2.4 m) DST10(A): Metal sampling tube duct widths up to 8 it to 12 ft (2.4 to 3.7 m) DH4000E-1: Weatherproof enclosure ETX: Metal exhaust tube duct, width 1 It (0.3 m) M02-04-00: Test magnet P48-21-00: End cap for metal sampling tubes RA100Z(A): Remote annunciator alarm LED RTS151(A): Remote test station RTS151 KEY(A): Remote test station with key lock Important Note • DNRW duct detector housings with a date code of 0013 or higher do not require a DCOIL or auxiliary 24 VDC for remote test applications when used with a remote test capable detector. • DNRW duct detector housings with a date code of 0012 or earlier require a DCOIL and auxiliary 24 VDC power for remote test applications. (�J NOTIFIER� by Honeywell ONYX® and NOTIFIII are registered trademarks and NOTI•FINE•NETT" is a trademark of Honeywell International Inc. C2010 by Honeywell International Inc. All rights reserved. Unauthorized use of this document is strictly prohibited. S 0 9001 This document is not intended to be used for installation purposes. We try to keep our product information up-to-date and accurate. We cannot cover all specific applications or anticipate all requirements. ENCINEEIIMt A MMBFACTUIINE All specifications are subject to change without notice. QUALITY SYSTEMS Made in the U.S. A. For more information, contact Notifier. Phone: (203) 484-7161, FAX: (203) 484-7118. www. notifier.com NBG-12LX �J NOTIFIER ° Addressable Manual Pull Station by Honeywell r General The Notifier NBG-12LX is a state-of-the-art, dual -action (i.e., requires two motions to activate the station) pull station that includes an addressable interface for any Notifier intelligent control panel except FireWarden series panels. Because the NBG-12LX is addressable, the control panel can display the exact location of the activated manual station. This leads fire personnel quickly to the location of the alarm. W��N� Features • Maintenance personnel can open station for inspection and address setting without causing an alarm condition. • Built-in bicolor LED, which is visible through the handle of the station, flashes in normal operation and latches steady red when in alarm. • Handle latches in down position and the word "ACTIVATED" appears to clearly indicate the station has been operated. • Captive screw terminals wire -ready for easy connection to SLC loop (accepts up to 12 AWG/3.25 mma wire). • Can be surface mounted (with SB-10 or SB-1/0) or semi - flush mounted. Semi -flush mount to a standard single - gang, double -gang, or 4" (10.16 cm) square electrical box. • Smooth dual -action design. • Meets ADAAG controls and operating mechanisms guide- lines (Section 4.1.3(13]); meets ADA requirement for 5 lb. maximum activation force. • Highly visible. • Attractive shape and textured finish. • Key reset. • Includes Braille text on station handle. • Optional trim ring (BG12TR). • Meets UL 38, Standard for Manually Actuated Signaling Boxes. • Up to 99 NBG-12LX stations per loop on CLIP protocol loops. • Up to 159 NBG-12LX stations per loop on FlashScan@ pro- tocol loops. • Dual -color LED blinks green to indicate normal on Flash - Scan@ systems. Construction Shell, door, and handle are molded of durable polycarbonate material with a textured finish. Specifications • Shipping Weight: 9.6 oz. (272.15 g) • Normal operating voltage: 24 VDC. • Maximum SLC loop voltage: 28.0 VDC. • Maximum SLC loop current: 375 pA. • Temperature Range: 32°F to 120"F (O*C to 49°C) • Relative Humidity: 10% to 93% (noncondensing) • For use indoors in a dry location FCM-1(A) & FRM-1(A) Series Control and Relay Modules General FCM-1(A) Control Module: The FCM-1(A) Addressable Con- trol Module provides Notifier intelligent fire alarm control pan- els a circuit for Notification Appliances (horns, strobes, speakers, etc.) Addressability allows the FCM-1(A) to be acti- vated, either manually or through panel programming, on a select (zone or area of coverage) basis. FRM-1(A) Relay Module: The FRM-1(A) Addressable Relay Module provides the system with a dry -contact output for acti- vating a variety of auxiliary devices, such as fans, dampers, control equipment, etc. Addressability allows the dry contact to be activated, either manually or through panel programming, on a select basis. FlashScan@ (U.S. Patent 5,539,389) is a communication pro- tocol developed by NOTIFIER Engineering that greatly enhances the speed of communication between analog intelli- gent devices. Intelligent devices communicate in a grouped fashion. If one of the devices within the group has new infor- mation, the panel CPU stops the group poll and concentrates on single points. The net effect is response speed greater than five times that of other designs. Features • Built-in type identification automatically identifies these devices to the control panel. • Internal circuitry and relay powered directly by two -wire SLC loop. The FCM-1(A) module requires power (for horns, strobes, etc.), or audio (for speakers). • Integral LED "blinks" green each time a communication is received from the control panel and turns on in steady red when activated. • LED blink may be deselected globally (affects all devices). • High noise immunity (EMF/RFI). • The FCM-1(A) may be used to switch 24-volt NAC power, audio (up to 70.7 Vrms). • Wide viewing angle of LED. • SEMS screws with clamping plates for wiring ease. • Direct -dial entry of address 01— 159 for FlashScan loops, 01 — 99 for CLIP mode loops. • Speaker, and audible/visual applications may be wired for Class B or A (Style Y or Z). Applications The FCM-1(A) is used to switch 24 VDC audible/visual power, high-level audio (speakers), or control telephone devices. The FRM-1(A) may be programmed to operate dry contacts for applications such as door holders or Air Handling Unit shut- down, and to reset four -wire smoke detector power. NOTE: Refer to the SLC Manual (PN 51253) for details regarding releasing applications with the FCM-I(A). Refer to the FCM-I-REL datasheet (DN-60390) for new FlashScan@ releasing applications. Construction • The face plate is made of off-white heat -resistant plastic. • Controls include two rotary switches for direct -dial entry of address (01-159). 5 The NBG-12LX Addressable Manual Pull Station Installation The NBG-12LX will mount semi -flush into a single -gang, dou- ble -gang, or standard 4" (10.16 cm) square electrical outlet box, or will surface mount to the model SB-10 or SB-1/0 sur- face backbox. If the NBG-12LX is being semi -flush mounted, then the optional trim ring (BG12TR) may be used. The BG12TR is usually needed for semi -flush mounting with 4" (10.16 cm) or double -gang boxes (not with single -gang boxes). Operation Pushing in, then pulling down on the handle causes it to latch in the down/activated position. Once latched, the word "ACTI- VATED" (in bright yellow) appears at the top of the handle, while a portion of the handle protrudes from the bottom of the station. To reset the station, simply unlock the station with the key and pull the door open. This action resets the handle; clos- ing the door automatically resets the switch. Each manual station, on command from the control panel, sends data to the panel representing the state of the manual switch. Two rotary decimal switches allow address settings (1 — 159 on FlashScarM systems, 1 — 99 on CLIP systems). Architectural/Engineering Specifications Manual Fire Alarm Stations shall be non -coded, with a key - operated reset lock in order that they may be tested, and so designed that after actual Emergency Operation, they cannot be restored to normal except by use of a key. An operated sta- tion shall automatically condition itself so as to be visually detected as activated. Manual stations shall be constructed of red -colored polycarbonate material with clearly visible operat- ing instructions provided on the cover. The word FIRE shall appear on the front of the stations in white letters, 1.00 inches (2.54 cm) or larger. Stations shall be suitable for surface DN-6726:C • 09/02/2009 — Page 1 of 2 dn-6724:bl �J NOTIFIER by Honeywell FCM-1(A) • The FCM-1(A) is configured for a single Class B (Style Y) or Class A (Style Z) Notification Appliance Circuit. • The FRM-1(A) provides two Form-C dry contacts that switch together. Operation Each FCM-1(A) or FRM-1(A) uses one of 159 possible module addresses on a SLC loop (99 on CLIP loops). It responds to regular polls from the control panel and reports its type and status, including the open/normal/short status of its Notifica- tion Appliance Circuit (NAC). The LED blinks with each poll received. On command, it activates its internal relay. The FCM-1(A) supervises Class B (Style Y) or Class A (Style Z) notification or control circuits. Upon code command from the panel, the FCM-1(A) will dis- connect the supervision and connect the external power sup- ply in the proper polarity across the load device. The disconnection of the supervision provides a positive indication to the panel that the control relay actually turned ON. The external power supply is always relay isolated from the com- munication loop so that a trouble condition on the external power supply will never interfere with the rest of the system. Rotary switches set a unique address for each module. The address may be set before or after mounting. The built-in TYPE CODE (not settable) will identify the module to the con- trol panel, so as to differentiate between a module and a Sen- sor address. Specifications for FCM-1(A) Normal operating voltage: 15 to 32 VDC. Maximum current draw: 6.5 mA (LED on). Average operating current: 350 pA direct poll, 375 pA group poll with LED flashing, 485 pA Max. (LED flashing, NAC shorted.) Page 2 of 2 — DN-6726:C • 09/02/2009 dn-60429:b • 03/12/10 —Page 1 of 2 Page 2 of 2 — dn-60429:b • 03/12/10 dn-6724:bl • 08/04/09 — Page 1 of 2 FA-11 Maximum NAC Line Loss: 4 VDC. External supply voltage (between Terminals T10 and T11): Maximum (NAC): Regulated 24 VDC; Maximum (Speakers): 70.7 V RMS, 50W. Drain on external supply: 1.7 mA maximum using 24 VDC supply; 2.2 mA Maximum using 80 VRMS supply. Max NAC Current Ratings: For class B wiring system, the current rating is 3A; For class A wiring system, the current rat- ing is 2A. Temperature range: 32°F to 120OF (0°C to 41 Humidity range: 10% to 93% non -condensing. Dimensions: 4.5" (114.3 mm) high x 4" (101.6 mm) wide x 1.25" (31.75 mm) deep. Mounts to a 4" It01.6 mm) square x 2.125" (53.975 mm) deep box. Accessories: SMB500 Electrical Box; C8500 Barrier Specifications for FRM-1(A) Normal operating voltage: 15 to 32 VDC. Maximum current draw: 6.5 mA (LED on). Average operating current: 230 pA direct poll; 255 pA group poll. EOL resistance: not used. Temperature range: 320F to 120`F (0°C to 49°C). Humidity range: 10% to 93% non -condensing. Dimensions: 4.5" (114.3 mm) high x 4" (101.6 mm) wide x 1.25" (31.75 mm) deep. Mounts to a 4" (101.6 mm) square x 2,125" (53.975 mm) deep box. Accessories: SMB500 Electrical Box; CB500 Barrier Agency Listings and Approvals In some cases, certain modules may not be listed by certain approval agencies, or listing may be in process. Consult fac- tory for latest listing status. • UL: S635 • ULC: S7557 (A version only) • FM Approved • CSFM: 7300-0028:202 • MEA: 14-00-E Contact Ratings for FRM-11(A) Current Maximum Load Application Rating Voltage Description 3 A 30 VDC Resistive Non -Coded 2 A 30 VDC Resistive Coded .9 A 110 VDC Resistive Non -Coded .9 A 125 VDC Resistive Non -Coded A 30 VDC Inductive Coded .5 (L/R=5ms) 1 A 30 VDC Inductive Coded (L/R=2ms) .3 A 125 VDC Inductive (PF=0.35) Non -Coded Inductive 1.5 A 25 VDC (PF=0.35) Non -Coded Inductive .7 A 70.7 VDC (PF=0.35) Non -Coded Inductive 2 A 25 VDC (PF=0.35) Non -Coded NOTE. Maximum (Speakers): 70.7 V RMS, 50 W Product Line Information NOTE: 'A" suffix indicates ULC Listed model. FCM-1(A): Intelligent Addressable Control Module. FRM-1(A): Intelligent Addressable Relay Module. A2143-20: Capacitor, required for Class A (Style Z) operation of speakers. SMB500: Optional Surface -Mount Backbox. CB500: Control Module Barrier - required by UL for separat- ing power -limited and non -power limited wiring in the same junction box as FCM-1(A). NOTE. For installation instructions, see the following documents: • FCM-1(A) Installation document 156-1169. • FRM-1(A) Installation document 156-3502. • Notifier SEC Wiring Manual, document 51253. Notifier® and FlashScan® are registered trademarks of Honeywell International Inc. 9)2009 by Honeywell International Inc. All rights reserved. Unauthorized use of this document is strictly prohibited. I O 900 1 This document is not intended to be used for installation purposes. We try to keep our product information up-to-date and accurate. V We cannot cover all specific applications or anticipate all requirements. ENSIREMNS S MNdFMTUMNC QUALITY SYSTEMS All specifications are subject to change without notice. Made in the U.S. A. For more information, contact Notifier. Phone: (203) 484-7161, FAX: (203) 484-7118. www.notifier.com Page 2 of 2 - dn-6724:bl • 08/04/09 FMM-1(A), FMM-101(Ah FZMA (A) & FDM-1(A) Monitor Modules with FlashScan® General Four different monitor modules are available for Notifier's intel- ligent control panels for a variety of applications. Monitor mod- ules supervise a circuit of dry -contact input devices such as P Y P conventional heat detectors and pull stations, or monitor and power a circuit of two -wire smoke detectors (FZM-1(A)). FMM-1(A) is a standard -sized module (typically mounts to a 4" [10.16 cm] square box) that supervises either a Style D (Class A) or Style B (Class B) circuit of dry -contact input devices. FMM-101(A) is a miniature monitor module a mere 1.3" (3.302 cm) H x 2.75" (6.985 cm) W x 1 (1.270 cm) D that super- vises a Style B (Class B) circuit of dry -contact input devices. Its compact design allows the FMM-101(A) to often be mounted in a single -gang box behind the device it monitors. FZM-1(A) is a standard -sized module that monitors and super- vises compatible two -wire, 24 volt, smoke detectors on a Style D (Class A) or Style B (Class B) circuit. FDM-1(A) is a standard -sized dual monitor module that moni- tors and supervises two independent two -wire Style B (Class B) dry -contact initiating device circuits (IDCs) at two separate, consecutive addresses in intelligent, two -wire systems. FlashScan@ (U.S. Patent 5,539,389) is a communication pro- tocol developed by NOTIFIER that greatly increases the speed of communication between analog intelligent devices. Intelli- gent devices communicate in a grouped fashion. If one of the devices within the group has new information, the panel CPU stops the group poll and concentrates on single points. The net effect is response speed greater than five times that of other designs. FMM-11(A) Monitor Module • Built-in type identification automatically identifies this device as a monitor module to the control panel. • Powered directly by two -wire SLC loop. No additional power required. • High noise (EMF/RFI) immunity. • SEMS screws with clamping plates for ease of wiring. • Direct -dial entry of address: 01 - 159 on FlashScan loops; 01 - 99 on CLIP loops. • LED flashes green during normal operation (this is a pro- grammable option) and latches on steady red to indicate alarm. The Fill (A) Monitor Module is intended for use in intelli- gent, two -wire systems, where the individual address of each module is selected using the built-in rotary switches. It pro- vides either a two -wire or four -wire fault -tolerant Initiating Device Circuit (IDC) for normally -open -contact fire alarm and supervisory devices. The module has a panel -controlled LED indicator. The FMM-1(A) can be used to replace MMX-1(A) modules in existing systems. FMM-1(A) APPLICATIONS Use to monitor a zone of four -wire smoke detectors, manual fire alarm pull stations, waterflow devices, or other normally - open dry -contact alarm activation devices. May also be used to monitor normally -open supervisory devices with special supervisory indication at the control panel. Monitored circuit may be wired as an NFPA Style B (Class B) or Style D (Class dn-6720:B1 • H-220 �J NOTIFIER° by Honeywell rg FMM-1(A) (Type H) A) Initiating Device Circuit. A 47K ohm End -of -Line Resistor (provided) terminates the Style B circuit. No resistor is required for supervision of the Style D circuit. FMM-1(A) OPERATION Each FMM-1(A) uses one of the available module addresses on an SLC loop. It responds to regular polls from the control panel and reports its type and the status (open/normal/short) of its Initiating Device Circuit (IDC). A flashing LED indicates that the module is in communication with the control panel. The LED latches steady on alarm (subject to current limita- tions on the loop). FMM-l(A) SPECIFICATIONS Nominal operating voltage: 15 to 32 VDC. Maximum current draw: 5.0 mA (LED on). Average operating current: 350 pA (LED flashing), 1 com- munication every 5 seconds, 47k EOL. Maximum IDC wiring resistance: 40 ohms. EOL resistance: 47K ohms. Temperature range: 32°F to 120°F (I to 49°C). Humidity range: 10% to 93% noncondensing. Dimensions: 4.5" (11.43 cm) high x 4" (10.16 cm) wide x 1.25" (3.175 cm) deep. Mounts to a 4" (10.16 cm) square x 2.125" (5.398 cm) deep box. FMM-101(A) Mini Monitor Module • Built-in type identification automatically identifies this device as a monitor module to the panel. • Powered directly by two -wire SLC loop. No additional power required. • High noise (EMF/RFI) immunity. • Tinned, stripped leads for ease of wiring. Duct Probes CUT SHEETS & CALCULATIONS Products Sub Categories: Addressable Fire Alarm Systems > Detectors & Bases SYSTEM �� SENSORs Y DST-1.5/3/5/10 Sampling Tubes Order Code FG-01-006/7/8/9 Product Description: DST-1.5, ST-3, DST-5 and ST-10 sampling tubes are designed for use with the InnovairFlexTm duct detectors. Features: • DST-1.5 for 0.3m to0.6m ducts • DST-3 for 0.5m to 12m ducts • DST-5 for 1.2m to 2.4m ducts • DST-10 for 2.4m to 3.7m ducts Request more information: View Larger Image http://www.notifier.com.au/products/conventional_alarm_Systems/detectors/dst duct_lrob... 6/25/2014 • Direct -dial entry of address: 01 - 159 on FlashScan loops; 01 - 99 on CLIP loops. 0 14- 0 1 ADDRESS_ 0 1 13 _ 2 -.2 12 q. LOOP r,41 1098 7 65 �. 98 7 65, TENS ONES ti O W U W O J YI, j to JI The FMM-101(A) Mini Monitor Module can be installed in a single -gang junction directly behind the monitored unit. Its small size and light weight allow it to be installed without rigid mounting. The FMM-101(A) is intended for use in intelligent, two -wire systems where the individual address of each module is selected using rotary switches. It provides a two -wire initiat- ing device circuit for normally -open -contact fire alarm and security devices. The FMM-101(A) can be used to replace MMX-101(A) modules in existing systems. FMM-101(A) APPLICATIONS Use to monitor a single device or a zone of four -wire smoke detectors, manual fire alarm pull stations, waterflow devices, or other normally -open dry -contact devices. May also be used to monitor normally -open supervisory devices with special super- visory indication at the control panel. Monitored circuit/device is wired as an NFPA Style B (Class B) Initiating Device Circuit. A 47K ohm End -of -Line Resistor (provided) terminates the cir- cuit. FMM-101(A) OPERATION Each FMM-101(A) uses one of the available module addresses on an SLC loop. It responds to regular polls from the control panel and reports its type and the status (open/nor- mal/short) of its Initiating Device Circuit (IDC). FMM-101(A) SPECIFICATIONS Nominal operating voltage: 15 to 32 VDC. Average operating current: 350 pA, 1 communication every 5 seconds, 47k EOL; 600 pA Max. (Communicating, IDC Shorted). Maximum IDC wiring resistance: 40 ohms. Maximum IDC Voltage: 11 Volts. Maximum IDC Current: 400 pA. EOL resistance: 47K ohms. Temperature range: 320F to 120OF (0°C to 49°C). Humidity range: 10% to 93% noncondensing. Dimensions: 1.3" (3.302 cm) high x 2.75" (6.985 cm) wide x 0.65" (1.651 cm) deep. Wire length: 6" (15.24 cm) minimum. FZM-1(A) Interface Module • Supports compatible two -wire smoke detectors. • Supervises IDC wiring and connection of external power source. • High noise (EMF/RFI) immunity. • SEMS screws with clamping plates for ease of wiring. - Direct -dial entry of address: Ot - 159 on FlashScan loops, 01 - 99 on CLIP loops. • LED flashes during normal operation; this is a programma- ble option. • LED latches steady to indicate alarm on command from control panel. The FZM-1(A) Interface Module is intended for use in intelli- gent, addressable systems, where the individual address of each module is selected using built-in rotary switches. This module allows intelligent panels to interface and monitor two - wire conventional smoke detectors. It transmits the status (nor- mal, open, or alarm) of one full zone of conventional detectors back to the control panel. All two -wire detectors being Took tored must be UL compatible with the module. The FZM-1(A) can be used to replace MMX-2(A) modules in existing sys- tems. FZM-1(A) APPLICATIONS Use the FZM-1(A) to monitor a zone of two -wire smoke detec- tors. The monitored circuit may be wired as an NFPA Style B (Class B) or Style D (Class A) Initiating Device Circuit. A 3.9 K ohm End -of -Line Resistor (provided) terminates the end of the Style B or D (class B or A) circuit (maximum IDC loop resis- tance is 25 ohms). Install ELR across terminals 8 and 9 for Style D application. FZM-1(A) OPERATION Each FZM-1(A) uses one of the available module addresses on an SLC loop. It responds to regular polls from the control panel and reports its type and the status (open/normal/short) of its Initiating Device Circuit (IDC). A flashing LED indicates that the module is in communication with the control panel. The LED latches steady on alarm (subject to current limita- tions on the loop). FZM-1(A) SPECIFICATIONS Nominal operating voltage: 15 to 32 VDC. Maximum current draw: 5.1 mA (LED on). Maximum IDC wiring resistance: 25 ohms. Average operating current: 300 pA, 1 communication and 1 LED flash every 5 seconds, 3.9k eol. EOL resistance: 3.9K ohms. External supply voltage (between Terminals T3 and T4): DC voltage: 24 volts power limited. Ripple voltage: 0.1 Vrms maximum. Current: 90 mA per module maximum. Temperature range: 32°F to 120OF (0°C to 490C). Humidity range: 10% to 93% noncondensing. Dimensions: 4.5" (11.43 cm) high x 4" (10.16 cm) wide x 1.25" (3.175 cm) deep. Mounts to a 4" (10.16 cm) square x 2.125" (5.398 cm) deep box. FDM1(A) Dual Monitor Module The FDM-1(A) Dual Monitor Module is intended for use in intelli- gent, two -wire systems. It provides two independent two -wire initiating device circuits (IDCs) at two separate, consecutive addresses. It is capable of monitoring normally open contact fire alarm and supervisory devices; or either normally open or nor - Duct Smoke Detector Accessories Expand the versatility of the InnovairFlex'° line of duct smoke detectors with System Sensor notification and test accessories. Available Accessories Duct smoke detector accessories add functionality to the duct APA151 Piezo Annunciator smoke detection system by allowing quick, convenient inspections at eye level and effective audible and visible notification options. All MHR Mini -Horn, Red System Sensor duct smoke detectors and accessories are UL listed. MHW Mini -Horn, White The APA151 piezo annunciator, which replaces the APA451 with RA100Z/RA100ZA Remote Annunciator a new, improved look, provides an audible alarm signal, a red LED RTS151 Remote Test Station to indicate alarm status, and a green LED to indicate power status. RTS151KEY Remote Test Station with Key It is intended for use with System Sensor 4-wire conventional duct smoke detector applications without a system control panel, to RTS2 Multi -Signaling Accessory comply with NFPA90A. AOS Add -On Strobe The MHR and MHW SpectrAlere Advance mini -horns feature RTS2-AOS Multi -Signaling Accessory temporal or continuous tones at high and low volume settings. Their small footprint allows mounting to single -gang back boxes for applications where a small device is desired. The RA100Z and RA10OZA remote annunciators are designed for both conventional and intelligent applications. Their red LED provides visual indication of an alarm condition. The RTS151 and RTS151KEY remote test stations are automatic fire detector accessories designed to test duct smoke detectors from a convenient location. For 4-wire detectors, the RTS151 KEY test station features a multi -colored LED that alternates between steady green and red. For 2-wire detectors, the LED illuminates red for alarm. The RTS2 and RTS2-AOS multi -signaling accessories are designed to work with InnovairFlex 4-wire conventional duct smoke detectors. These accessories include a key switch that can be used to select one of two connected sensors to be tested, reset, or both by a push button switch. They also enable sensitivity measurements using Agency Listings the SENS-RDR sensitivity reader (sold separately). The AOS (Add -On Strobe) is an optional accessory included with the RTS2-AOS model. @ F M' LISTED AP•M•W malty closed security devices. The module has a single panel - controlled LED. NOTE: The FDM-1(A) provides two Style B (Class B) IDC circuits ONLY Style D (Class A) IDC circuits are NOT supported in any application. FDM-1(A) SPECIFICATIONS Normal operating voltage range: 15 to 32 VDC. Maximum current draw: 6.4 mA (LED on). Average operating current: 750 pA (LED flashing). Maximum IDC wiring resistance: 1,500 ohms. Maximum IDC Voltage: 11 Volts. Maximum IDC Current: 240 pA EOL resistance: 47K ohms. Maximum SLC Wiring resistance: 40 Ohms. Temperature range: 320 to 121 (00 to 490C). Humidity range: 10% to 93% (non -condensing). Dimensions: 4.5" (11.43 cm) high x 4" (10.16 cm) wide x 2.125" (5.398 cm) deep. FDM-1(A) AUTOMATIC ADDRESSING The FDM-1(A) automatically assigns itself to two addressable points, starting with the original address. For example, if the FDM-1(A) is set to address "26", then it will automatically assign itself to addresses "26" and "27". NOTE: "Ones" addresses on the FDM- i (A) are 0, 2, 4, 6, or 8 only. Terminals 6 and 7 use the first address, and terminals 8 and 9 use the second address. QCAUTION: Avoid duplicating addresses on the system Installation FMM-1(A), FZM-1(A), and FDM-1(A) modules mount directly to a standard 4" (10.16 cm) square, 2.125" (5.398 cm) deep, electrical box. They may also be mounted to the SMB500 sur- face -mount box. Mounting hardware and installation instruc- tions are provided with each module. All wiring must conform to applicable local codes, ordinances, and regulations. These modules are intended for power -limited wiring only. The FMM-101(A) module is intended to be wired and mounted without rigid connections inside a standard electrical box. All wiring must conform to applicable local codes, ordinances, and regulations. Agency Listings and Approvals In some cases, certain modules may not be listed by certain approval agencies, or listing may be in process. Consult fac- tory for latest listing status. • UL: S635 • ULC: S635 • FM Approved • CSFM: 7300-0028:202 (For Domestic only) • III 457-99-E • U.S. Coast Guard: - 161.002123/3 (AFP-200: FMM-11-101, FZM-1) -161.002/42/1 (NFS-640: FMM-11--101) • Lloyd's Register: -03/60011/E1 (FMM-11--101, FZM-1) - 94/60004/E2 (AFP-200: except FDM-1) - 02/60007 (NFS-640: FDM-1) Product Line Information NOTE: 'A"or suffix indicates ULC-listed model. FMM-1(A): Monitor module. FMM-101(A): Monitor module, miniature. FZM-1(A): Monitor module, two -wire detectors. FDM-1(A): Monitor module, dual, two independent Class B circuits. SMB500: Optional surface -mount backbox. NOTE: See installation instructions and refer to the SEC Wiring Manual, PN 51253. Specifications, Duct Smoke Detector Accessories Voltage Regulated 24VDC Power Requirements Alarm LED: 2.8 to 32 VDC, 12 mA max. Operating Voltage 16 to 33 VDC Total Current: 105 mA max. Maximum Alarm Curren 30 mA Test Switch 10 VA @ 32 VDC Temperature Range 0°C to 49-C (32-F to 120T) Reset Switch 10 VA @ 32 VDC Relative Humidity 10 to 93% non -condensing Alarm Response Time 40 seconds max. Wire Gauge 12 to 18 AWG Temperature Range -10°C to 60•C (147 to 140-F) Dimensions 4.6"Hx2.9-W x.45-D Relative Humidity 95%non-condensing Wire Gauge 14 to 18 AWG Voltage Regulated 12 DC or FWR (Full Wave Rectified) Dimensions 4.8- H x 2.90-W x 1.4" D or Regulated 24 VDC or FWR - Operating Voltage 8 to 33 VDC Power Requirements Power LED (Green): 14 to 35 VDC, 12 mA max. (9 to 33 VDC with Sync•Circuit' Module) Alarm LED (Red): 2.8 to 32 VDC, 12 mA max. Sounder Current Draw 22 mA RMS max. at 8 to 17.5 Volts DC Total Current: 105 mA max. 17 mA RMS max at 8 to 17.5 Volts FWR Alarm Response Time 40 seconds max. 29 mA RMS max. at 16 to 33 Volts DC Temperature Range -10'C to 60"C (14T to 140T) 25 mA RMS max. at 16 to 33 Volts FWR Relative Humidity 95%ncn-condensing Temperature Range TC to 49-C (32T to 120"F) Wire Gauge 14 to 18 AWG Humidity Range 10 to 93% non -condensing Dimensions 4.6"Hx2.75"Wx1.8"D Nominal Sounder Frequency 3 kHz Wire Gauge 12 to 18 AWG Voltage 20 to 29 VDC Dimensions 4.6-H x 2.9-W x 0.45"D Power Requirements Standby: 3.0 mA max. Trouble: 16.0 mA max. Voltage Range Conventional System: 3.1 to 32 VDC Alarm without strobe: 30 mA max. Intelligent System: 18 to 32 VDC Alarm with strobe: 55 mA max. Maximum Alarm Current 12 mA Sounder 85 dBA at ten feet Dimensions 4.6 -H x 23-W x 1.3- D Temperature Range -10°C to 60'C (14'F to 140T) Relative Humidity 95%non-condensing Wire Gauge 14 to 22 AWG Dimensions 4.8-Wx5.3-Hx1.6"D RTS151 ULS4011 RA10OZ UL S2522 SYSTEM SENSOR' c4 � RTS151 KEY UL S25 -ram. MHW UL S4011 For the very latest product specifications and listing information, please visit the System Sensor Web site at wwwsystemsensoccom. c APA151 ULS4011 MHR UL S4011 ADS a2010 system ee",a,. 3825 Ohio Avenue• St. Charles, IL 60174 m,auct�pan,�wre wn�=.rrm�rti r�wima.�ntR.Vut:ysram:Pm�,mmm, Phone: 800-SENSOR2• Fax 630-377-6495 m,remnroararmro,mxao",n,u.,a�,v me�acesrre,m„dm�: da,zsnar A05aa23-aai.via. az3a9 FlashScan® and NOTIFIER® are registered trademarks and FireWatch•"" is a trademark of Honeywell International Inc. 0200E by Honeywell International Inc. All rights reserved. Unauthorized use of this document is strictly prohibited. I S 0 9001 This document is not intended to be used for installation purposes. We try to keep our product information up-to-date and accurate. We cannot cover all specific applications or anticipate all requirements. ENSINEEKINC A MANUFACTNEINC QUALITY SYSTEMS All specifications are subject to change without notice. Made in the U.S. A. For more information, contact Notifier. Phone: (203) 484-7161, FAX: (203) 484-7118. www.notifier.com dn-6720:B1 • 11/19/09 - Page 1 of 4 Page 2 of 4 - dn-6720:B1 • 11/19/09 dn-6720:B1 • 11/19/09 - Page 3 of 4 Page 4 of 4-dn-6720:B1 • 11/19/09 FA-12 DN-60851:A CUT SHEETS & CALCULATIONS dn-6927:a DH24120 Series �J N OT I F I E R° Electromagnetic Door Holders by Honeywell General The DH24120 series of electromagnetic door holders are constructed of durable die-cast metal finished in high -lustre double chrome or brass plating. All DH24120 models include standard dual -voltage AC or DC inputs (24V and 120V), which reduces warehouse stocking requirements. The current draws are also extremely low -only 0.020 mA at 24VDC-which lowers the overall cost of running an installed system. Other features include single- or double -coil floor mounting, surface mounting, and direct wall mounting. No brackets are required. The DH24120 series door holders offer installation using an adhesive template assuring correct alignment without sec- l ondary adjustments. Accessories include extension and mis- alignment rods (various lengths) for correct alignment between door and wall at distances greater than 12.0 inches (30.48 cm) and misalignment over 4.0 inches (10.16 cm). Basic units offer superior holding force and low residual mag- netism. DH24120 series models can operate at higher listed voltages to produce holding forces greater than 100 pounds (45.3 kg) for special applications. Features • Very low current draw. • Superior holding force and low residual magnetism. • Durable die-cast metal. • High lustre double chrome or brass plating. • Dual -voltage AC or DC inputs. • Terminal block connections. • Single- or double -coil floor, surface, and direct mounting (no brackets required). • Extension and misalignment rods. STANDARD APPLICATION The DH24120 series door holders are designed to hold self - closing swinging doors open until energized by a remote sensing device responding to smoke, heat, or flames, alarm systems, or a switch. When de -energized, the door holder releases the door, enabling it to swing closed to check the spread of smoke, heat, or flames. The door holder can be used in other remote door -closing applications as well. The units are recommended for automatic area protection against smoke, heat, or flames in schools, hospitals, nursing homes, offices, and other public buildings of all kinds. The DH24120 series of electromagnetic door holders are spe- cially engineered for easy connection to detectors, sensors, alarm systems, and annunciators. Specifications Operating Environment Temperature: 50°F to 104"F (10-c to 40°C). Operating Environment Humidity: 20% to 80% (non -con- densing). Voltage g DC/ mA AC/ mA Terminals LB. KG 24 V 0.040 0.036 Common & High Voltage 30 13.6 24 V 0.020 0.019 Common & Low Voltage 40 18.1 24 V 0.020 0.019 Common & Low Voltage 40 18.1 24 V 0.085 0.081 Common & Low Voltage 75 34.0 120 V - 0.100 Common & Low Voltage 110 49.8 NOTE: Holding forces listen in above table correspond with shaded values; non -shaded values are slightly less. HIGH HOLDING FORCE/SPECIAL APPLICATIONS: To obtain performance values in table above, apply high volt- age to low voltage terminals (C & L) on a DH24120 series model. Agency Listings and Approvals These listings and approvals apply to the modules specified in this document. In some cases, certain modules or applica- tions may not be listed by certain approval agencies, or listing may be in process. Consult factory for latest listing status. • UL Listed: S2985. • ULC Listed: R19958. Product Line Information ELECTROMAGNETIC DOOR HOLDERS DH24120FPC: Semi -flush, powder coated chrome. DH24120FB: Semi -flush, plated, brass. DH24120FD: Semi -flush, powder coated dark bronze. DH24120SPC: Surface mount, powder coated, chrome. DN-60851:A • 11/22/2014 - Page 1 of 2 DN-60918:A Indoor Selectable -Output Horns, Strobes, and Horn a N OT I F I E R Strobes for Wall Applications by Honeywell General The L-Series offers the most versatile and easy -to -use line of horns, strobes, and horn strobes in the industry with lower cur- rent draws and modern aesthetics. With white and red plastic housings, standard and small footprint devices, and plain, FIRE -printed devices, L-Series can meet virtually any applica- tion requirement. The L-Series product line of wall -mount horns, strobes, and horn strobes include a variety of features that increase their application versatility while simplifying installation. All devices feature plug-in designs with minimal intrusion into the back box, making installations fast and foolproof while virtually elim- inatingcost) and time-consuming round faults. Y 99 To further simplify installation and protect devices from con- struction damage, L-Series utilizes a universal mounting plate for all standard and compact models with an onboard shorting spring, so installers can test wiring continuity before the device is installed. Installers can also easily adapt devices to a suit a wide range of application requirements using field -selectable candela set- tings, automatic selection of 12- or 24-volt operation, and a rotary switch for horn tones with two volume selections. Features • Updated modern aesthetics. • Small profile devices for Horns and Horn Strobes. • Plug-in design with minimal intrusion into the back box. • Tamper -resistant construction. • Automatic selection of 12- or 24-volt operation at 15 and 30 candela. • Field -selectable candela settings on wall units: 15, 30, 75. 95, 110, 135, and 185. • Horn rated at 88+ dBA at 16 volts. • Rotary switch for horn tone and two volume selections. • Universal mounting plate for all standard and all compact wall units. • Mounting plate shorting spring checks wiring continuity. before device installation. • Electrically Compatible with legacy SpectrAlert`s and SpectrAlert Advance devices. • Compatible with MDL3 sync module. • Listed for wall mounting only. Architectural/Engineering Specifications General: L-Series standard horns, strobes, and horn strobes mount t standard 2" x 4" x 1/ back box 4" x 4" x shall ou to 8 , 11h" back box, 4" octagon back box, or double -gang back box. L-Series compact products shall mount to a single -gang 2" x 4" x 17/8" back box. A universal mounting plate shall be used for mounting ceiling and wall products for all standard -size models and a separate universal mounting plate shall be used for mounting compact wall models. The notification appliance circuit wiring shall terminate at the universal mounting plate. Also, L-Series products, when used with the Sync•CircuitTM Module accessory, shall be powered from a non -coded notifi- cation appliance circuit output and shall operate on a nominal P2RL rh r44'r rr HVIL `. 12 or 24 volts. When used with the Sync -Circuit Module, 12- volt-rated notification appliance circuit outputs shall operate between 8.5 and 17.5 volts; 24-volt-rated c appliance circuit outputs shall operate between 16.5 and 33 volts. Indoor L-Series products shall operate between 32 and 120 degrees Fahrenheit from a regulated DC or full -wave rectified unaltered power supply. Strobes and horn strobes shall have field -select- able candela settings including 15, 30. 75, 95, 110, 135, and 185. Strobe. The strobe shall be a L-Series Model listed to UL 1971 and shall be approved for fire protective service. The strobe shall be wired as a primary -signaling notification appli- ance and comply with the Americans with Disabilities Act requirements for visible signaling appliances, flashing at 1 Hz over the strobe's entire operating voltage range. The strobe light shall consist of a xenon flash tube and associated lens/ reflector system. DH24120SB: Surface mount, plated, brass. DH24120SPD: Surface mount, powder coated, dark bronze. DH24120WPC: Recessed, powder coated, chrome. DH24120WB: Recessed, plated, brass. DH24120WD: Recessed, powder coated, dark bronze. DH24120GPC1: Ground mount, single door, powder coated, chrome. DH24120GB1: Ground mount, single door, plated, brass. DH24120GPD1: Ground mount, single door, powder coated, dark bronze. DH24120GPC2: Ground mount, double door, powder coated, chrome. DH24120GB2: Ground mount, double door, plated, brass. DH24120GPD2: Ground mount, double door, powder coated, dark bronze. ELECTROMAGNETIC DOOR HOLDER EXTENSIONS DHE.SPC: 0.5" extension rod, powder coated, chrome. DHE.SB: 0.5" extension rod, plated, brass. DHE.SD: 0.5" extension rod, powder coated, dark bronze. DHE1 PC: 1" extension rod, powder coated, chrome. DHE7 B: 1" extension rod, plated, brass. DHE7 D: 1" extension rod, powder coated, dark bronze. DHEI.5PC: 1.5" extension rod, powder coated, chrome. DHEI.SAPC: 1.5" adjustable extension rod, powder coated, chrome. DHE1.5B: 1.5" extension rod, plated, brass. DHE1.5D: 1.5" extension rod, powder coated, dark bronze. DHE2PC: 2" extension rod, powder coated, chrome. DHE2APC: 2" adjustable extension rod, powder coated, chrome. DHE2B: 2" extension rod, plated, brass. DHE2D: 2" extension rod, powder coated, dark bronze. DHE3PC: 3" extension rod, powder coated, chrome. DHE313: 3" extension rod, plated, brass. DHE3D: 3" extension rod, powder coated, dark bronze. DHE4PC: 4" extension rod, powder coated, chrome. DHE4APC: 4" adjustable extension rod, powder coated, chrome. DHE4AB: 4" adjustable extension rod, plated, brass. DHE4AD: 4" adjustable extension rod, powder coated, dark bronze. DHESPC: 5" extension rod, powder coated, chrome. DHEBB: 5" extension rod, plated, brass. DHEBD: 5" extension rod, powder coated, dark bronze. ELECTROMAGNETIC DOOR HOLDER ACCESSORIES DHCPC: Catch plate, powder coated, chrome. DHCPB: Catch plate, plated, brass. DHCPD: Catch plate, powder coated, dark bronze. DHSBPC: Swivel base, powder coated, chrome. DHSBB: Swivel base, plated, brass. DHSBD: Swivel base, powder coated, dark bronze. DHBBPC: Surface mount back box, powder coated, chrome. DHBBB: Surface mount back box, plated, brass. DHSBD: Surface mount back box, powder coated, dark bronze. DHDF: Swivel base mounting drill fixture. DHW: Extension Wrench (2 pcs.). NOTIFIERO is a registered trademark of Honeywell International Inc. 02014 by Honeywell International Inc. All rights reserved. Unauthorized use of this document is strictly prohibited. w This document is not intended to be used for installation purposes. ISOYoo� We try to keep our product information up-to-date and accurate. We cannot cover all specific applications or anticipate all requirements. MMN�XE E MAMEIKRMit All specifications are subject to change without notice. QMALITY SYSTEMS For more information, contact Notifier. Phone: (203) 484-7161, FAX: (203) 484-7118. www.notifier.com Page 2 of 2 - DN-60851:A • 1112212014 Horn Strobe Combination. The horn strobe shall be a L-Series Model listed to UL 1971 and UL 464 and shall be approved for fire protective service. The horn strobe shall be wired as a primary -signaling notification appliance and comply with the Americans with Disabilities Act requirements for visi- ble signaling appliances, flashing at 1 Hz over the strobe's entire operating voltage range. The strobe light shall consist of a xenon flash tube and associated lens/reflector system. The horn shall have two audibility options and an option to switch between a temporal three pattern and a non -temporal (contin- uous) pattern. These options are set by a multiple position switch. The horn on horn strobe models shall operate on a coded or non -coded power supply. Synchronization Module. The module shall be a Sync -Circuit model MDL3 listed to UL 464 and shall be approved for fire protective service. The module shall synchronize SpectrAlert strobes at 1 Hz and horns at temporal three. Also, while oper- ating The strobes, the module shall silence the horns on horn strobe models over a single pair of wires. The module shall mount to a 411/s° x 411/1 fi' x 21/a' back box. The module shall also control two Style Y (class B) circuits or one Style Z (class A) circuit. The module shall synchronize multiple zones. Daisy chaining two or more synchronization modules together will synchronize all the zones they control. The module shall not operate on a coded power supply. PHYSICAL/ELECTRICAL SPECIFICATIONS • Standard Operating Temperature: 320F to 120°F (0°C to 49"C). • Humidity Range: 10 to 93% non -condensing. • Strobe Flash Rate: 1 flash per second. • Nominal Voltage: Regulated 12 DC or regulated 24 DC/ FWR1 (full wave rectified). • Operating Voltage Range2: 8 to 17.5 V (12 V nominal) or 16 to 33 V (24 V nominal). • Operating Voltage Range: MDL3 Sync Module 8.5 to 17.5 V (12 V nominal) or 16.5 to 33 V (24 V nominal). • Input Terminal Wire Gauge: 12 to 18 AWG. • Wall -Mount Dimensions (including lens): 5.6" L x 4.7" W x 1.25" D (143 mm L x 119 mm W x 32 mm D). • Compact Wall -Mount Dimensions (including lens): 5.26" L x 3.46" W x 1.93" D (133 mm L x 88 mm W x 49 min D). • Horn Dimensions: 5.6" L x 4.7" W x 1.25" D (143 mm L x 119 mm W x 32 mm D). • Compact Horn Dimensions: 5.25" L x 3.45" W x 1.25" D (133mm L x 88mm W x 32mm D). Notes: 1. Full Wave Rectified (FWR) voltage is a non -regulated, time - varying power source that is used on some power supply and panel outputs. 2. P, S, PC, and SC products will operate at 12 V nominal only for 15 cd and 30 cd. L-Series Drawings Compact Horn 5 Compact Combo 3.46 s �°es r�aar�r�rerBr 5.27 I 5.67 r sruir3� Horn 119 fibl 1.91 1.25 FCPS-24S6(C/E) 81: FCPS- 2458(C/E) 6- & 8-Amp 24-Volt General The FCPS-24S6E (6-amp) and FCPS-24S8E (8-amp) are remote power supplies with battery charger. The FCPS-24S6/- 2458 may be connected to any 12 or 24 volt fire alarm control panel (FACP) or may be used as stand-alone supplies. Pri- mary applications include notification appliance (bell) circuit (NAC) expansion (to support ADA requirements and NAC syn- chronization) or auxiliary power to support 24 volt system accessories. The FCPS-24S6/-24S8 provides regulated and filtered 24 VDC power to four notification appliance circuits configured as either four Class B (Style Y) or Class A (Style Z, with ZNAC-4 option module). Alternately, the four outputs may be configured as all non-resettable, all resettable or two non- resettable and two resettable. The FCPS-24S6/-24S8 also contains a battery charger capable of charging up to 18 AH batteries. FCPS-24S6C & FCPS-24S8C are ULC-listed. NOTE: Unless otherwise specified, the terms FCPS-24S6 and FCPS-24S8 used in this document refers to the standard FCPS- 2456 and FCPS-24S8, FCPS-24S8C and FCPS-24S8C, the FCPS-24S8E and FCPS-24S8E Features • UL-Listed NAC synchronization using System Sensor, Wheelock, or Gentex "Commandef2" appliances. • Operates as a "sync -follower" or as a "sync -generator" (default). See note on page 2. • Contains two fully -isolated input/control circuits - triggered from FACP NAC (NAC expander mode) or jumped perma- nently "ON" (stand-alone mode). • Four Class B (Style Y) or four Class A (Style Z, with ZNAC-4 module) NACs. • 6-amp (FCPS-24S6) or 8-amp (FCPS-24S8) full load out- put, with 3 amps maximum/circuit, in NAC expander mode (UL 864). • 4-amp (FCPS-24S6) or 6-amp (FCPS-24S8) continuous output in stand-alone mode (UL 1481). • Compatible with coded inputs; signals passed through. • Optional power -supervision relay (EOLR-1). • In stand-alone mode, output power circuits may be config- ured as: resettable, (reset line from FACP required), non-resettable, or a mix of two and two. • Fully regulated and filtered power output - optimal for pow- ering four -wire smoke detectors, annunciators, and other system peripherals requiring regulatedtfiltered power. • Power -limiting technology meets UL power -limiting require- ments. • Form-C normally -closed trouble relay. • Fully supervised power supply, battery, and NACs. • Selectable earth fault detection. • AC trouble report selectable for immediate 2-hour delay. • Works with virtually any UL 864 fire alarm control which uti- lizes an industry -standard reverse -polarity notification cir- cuit (including unfiltered and unregulated bell power). • Requires input trigger voltage of 9 - 32 VDC. • Self-contained in compact, locking cabinet - 15"H x 14.5"W x 2.75"D (cm: 38.1 H x 36.83W x 6.985D). UL Current Draw Data UL MAX. STROBE CURRENT DRAW (MA RMS) Candela 8-17.5 Volts 16-33 Volts DC DC FWR 15 88 43 60 30 143 63 83 75 N/A 107 136 95 NIA 121 155 110 N/A 148 179 135 N/A 172 209 185 N/A 222 257 NOTI FI E R a° by Honeywell • Includes integral battery charger capable of charging up to 18 AH batteries. Cabinet capable of housing 7.0 AH batter- ies. • Battery charger may be disabled via DIP switch for applica- tions requiring larger batteries. • Fixed, clamp -type terminal blocks accommodate up to 12 AWG (3.1mm2) wire. Specifications Primary (AC) Power: • FCPS-24S6C/-24S8C: 120 VAC, 60 Hz, 3.2A maximum. • FCPS-24S6E/-24S8E: 240 VAC, 50 Hz, 1.6A maximum. • Wire Size: minimum #14 AWG (2.Omm2) with 600 V insula- tion. Control Input Circuit: • Trigger Input Voltage: 9 to 32 VDC. • Trigger Current: 2.0 mA It - 32 V); Per Input: 1.0 mA (9 - 16 V). Trouble Contact Rating: 5 A at 24 VDC. Auxiliary Power Output: Specific application power 500 mA maximum. Output Circuits: • +24 VDC filtered, regulated. • 3.0 A maximum for any one circuit. • Total continuous current for all outputs (stand-alone mode): - FCPS-24S6: 4.0 A maximum. - FCPS-24SB: 6.0 A maximum. • Total short-term current for all outputs (NAC expander mode): - FCPS-24S6: 6.0 A maximum. - FCPS-24SB: 8.0 A maximum. Secondary Power (Battery) Charging Circuit: • Supports lead -acid batteries only. • Float -charge voltage: 27,6 VDC. dn-6927:a • 04/30/09 - Page 1 of 2 UL MAX- HORN CURRENT DRAW (MA RMS) Sound Pattern dB 8-17.5 Volts 16.33 Volts DC DC FWR Temporal High 39 44 54 Temporal Low 28 32 54 Non -Temporal High 43 47 54 Non -Temporal Low 29 32 54 3.1 KHz Temporal High 39 41 54 3.1 KHz Temporal Low 29 32 54 3.1 KHz Non -Temporal High 42 43 54 3.1 KHz Non -Temporal Low 28 29 54 Coded High 43 47 54 3.1 KHz Coded High 42 43 54 UL MAX. CURRENT DRAW (MA RMS), 2-WIRE HORN STROBE, CANDELA RANGE (15-115 CD) DC Input: 8-17.5 Volts DC Input: 16-33 Volts FWR Input: 16 FWR 15 cd 30 cd 15 cd 30 ed 75 cd 95 cd 110 cd 135 cd 185 cd 15 cd 30 cd 75 cd 95 cd 110 cd 135 cd 185 cd EM Temp Hi 98 158 54 74 121 142 162 196 245 83 107 156 177 198 234 287 EM Temp Low 93 154 44 65 111 133 157 184 235 68 91 145 165 185 223 271 EM Cont Hi 106 166 73 94 139 160 182 211 262 111 135 185 207 230 264 316 EM Cont Low 93 156 51 71 119 139 162 190 239 79 104 157 175 197 235 283 3.1K Temp Hi 93 156 53 73 119 140 164 190 242 81 105 155 177 196 234 284 3.1K Temp Low 91 154 45 66 112 133 160 185 235 68 90 145 1 166 1 186 222 276 3.1K Cont Hi 99 162 69 90 135 157 1 175 208 1 261 104 131 1 177 1 204 1 230 264 326 3.1k Cont Low 93 1 156 1 52 1 72 119 138 1 162 192 1 242 77 102 1 156 1 177 1 199 234 291 HORN TONES AND SOUND OUTPUT DATA. HORN AND HORN STROBE OUTPUT (DBA) Pos. Sound Pattern dB 8.17.5 Volts 16-33 Volts DC DC FWR 1 Temporal High 84 89 89 2 Temporal Low 75 83 83 3 on -Temporal High 85 90 90 4 on -Temporal Low 76 84 84 5 3.1 KHz Temporal High 83 88 88 6 3.1 KHz Temporal Low 76 82 82 7j' 3.1 KHz Non -Temporal High 84 89 89 8t 3.1 KHz Non -Temporal Low 77 83 83 9t oded High 85 90 90 10 3.1 KHz Coded High 1 84 89 89 • Maximum current charge: 1.5 A. • Maximum battery capacity: 18 AH. Applications Example 1: Expand notification appliance power an additional 6.0 A (FCPS-24S6) or 8.0 A (FCPS-24SB). Use up to four Class B (Style Y) outputs or four Class A (Style Z) outputs (using ZNAC-4). For example, the FACP notification appliance circuits will activate the FCPS when reverse -polarity activation occurs. Trouble conditions on the FCPS are sensed by the FACP through the notification appliance circuit. Example 2: Use the FCPS to expand auxiliary regulated 24- volt system power up to 4.0 A (FCPS-24S6) or up to 6.0 A (FCPS-24S8). Both resettable and non-resettable power options are available. Resettable outputs are created by con- necting the resettable output from the FACP to one or both of the FCPS inputs. Example 3: Use addressable control modules to activate the FCPS instead of activating it through the FACP notification appliance circuits. This typically allows for mounting the FCPS at greater distances` away from the FACP while expanding system architecture in various applications. For example, an addressable control module is used to acti- vate the FCPS, and an addressable monitor module is used to sense FCPS trouble conditions. Local auxiliary power output from the FCPS provides power to the addressable control module. 'NOTE: Addressable FACPs are capable of locating control and monitor modules at distances of up to 12,500 feet (3,810 meters). Sync Follower/Generator Note In some installations, it is necessary to synchronize the flash timing of all strobes in the system for ADA compliance. Strobes accomplish this by monitoring very short timing pulses on the NAC power which are created by the FACP. When installed at the end of a NAC wire run, the FCPS-24S6/-24S8 can track (i.e. 'Yollov!') the strobe synchronization timing pulses on the existing NAC wire run. This maintains the overall system flash timing of the additional strobes attaches to the FCPS. When the FCPS-24S6/-24S8 is configured (via DIP switch set- tings) as a "sync follower," the FCPS's NAC outputs track the strobe synchronization pulses present at the FCPS's sync input terminal. The pulses originate from an upstream FACP or other power supply. When the FCPS-24S6/-24S8 are configured (via DIP switch settings) as a "sync generator," the FCPS's sync input termi- nals are not used. Rather, the FCPS is the originator of the strobe synchronization pulses on the FCPS's NAC outputs. In "sync generator" mode, the sync type (System Sensor, Whee- lock, or Gentex) is selectable via DIP switch settings. Standards and Codes The FCPS-24S6 and FCPS-24S8 comply with the following standards: • NFPA 72 National Fire Alarm Code. • UL 864 Standard for Control Units for Fire Alarm Systems (NAC expander mode). • UL 1481 Power Supplies for Fire Alarm Systems. Agency Listings and Approvals These listings and approvals apply to the modules specified in this document. In some cases, certain modules or applications may not be listed by certain approval agencies, or listing may be in process. Consult factory for latest listing status. • UL Listed: 5635, S674 • ULC Listed: S635 (FCPS-24S6C & FCPS-24S8C) • CSFM Approved: 7315-0028:225 • MEA: 299-02-E • FM Approved Ordering Information FCPS-24S6: 6.0 A, 120 VAC remote charger power supply. Includes main printed circuit board, transformers, enclosure (15"H x 14.5"W x 2.75"D [cm: 38.1 H x 36.83W x 6.985D]), and installation instructions. FCPS-24S6C: Same as above, ULC-listed. FCPS-24S6R: Same as FCPS-24S6 with red enclosure. FCPS-24S6E: 6.0 A, 240 VAC remote charger power supply. Includes main printed circuit board, transformers, enclosure (15"H x 14.5"W x 2.75"D [cm: 38.1 H x 36.83W x 6.985D]), and installation instructions. FCPS-24S8: 8.0 A, 120 VAC remote charger power supply. Includes main printed circuit board, transformers, enclosure (15"H x 14.5"W x 2.75"D [cm: 38.1 H x 36.83W x 6.985D]), and installation instructions. FCPS-24S8C Same as above, ULC-listed. FCPS-24SBR: Same as FCPS-24S8 with red enclosure. FCPS-24S8E: 8.0 A, 240 VAC remote charger power supply. Includes main printed circuit board, transformers, enclosure (15"H x 14.5"W x 2.75"D [cm: 38.1 H x 36.83W x 6.985D]), and installation instructions. ZNAC-4: Class A (Style Y) NAC option module. EOLR-1: 12/24 VDC end -of -line relay for monitoring four -wire smoke detector power. BAT-1270: Battery, 12-volt, 7.0 AH (two required, see BAT Series data sheet DN-6933). PS-1270: Battery, 12-volt, 7.0 AH (two required, see PS Series data sheet DN-1109) System Sensor® and NOTIFIERG are registered trademarks of Honeywell International Inc. 02009 by Honeywell International Inc. All rights reserved. Unauthorized use of this document is strictly prohibited. 'SO 9001 This document is not intended to be used for installation purposes. We try to keep our product information up-to-date and accurate. We cannot cover all specific applications or anticipate all requirements. fIGM PINt IMMLM MMNL QOAIITY SYSTEMS All specifications are subject to change without notice. Made in the U.S. A. For more information, contact Notifier. Phone: (203) 484-7161, FAX: (203) 484-7118. www riotifier.mm Page 2 of 2 - dn-6927:a • 04/30/09 Agency Listings and Approvals The listings and approvals below apply to L-series devices. In some cases, certain modules or applications may not be listed by certain approval agencies, or listing may be in process. Consult factory for latest listing status. • UL/ULC-Listed - 54011 Wall Horn Strobes - S5512 Wall Strobes - 55512 Wall Horns • FM Approved Product Line Information Note: ULC-listed devices include required French labeling. See Agency Listings for listing details. WALL HORN STROBES P2WL(A), P2RL(A). 2-Wire, Horn Strobe (White, Red). P2GWL(A), P2GRL(A). 2-Wire, Compact Horn Strobe (White, Red. P2WL(A)-P, P2RL(A)-P. 2-Wire, Horn Strobe, Plain (White, Red). P2WL-SP, P2RL-SP. 2-Wire, Horn Strobe, FUEGO (White, Red). WALL STROBES SWL(A), SRL(A). Strobe, Red (White, Red). SGWL(A), SGRL(A). Compact Strobe (White, Red). SWL(A)-P, SRL(A)-R Strobe, Plain (White, Red). SRL-SP. Strobe, FUEGO (Red). SWL-CLR-ALERT. Strobe, ALERT (White). SWL-ALERT. Strobe, Wall, Amber Lens, Alert (White). HORNS HWL(A), HRL(A). Horn (White, Red). HGWL(A), HGRL(A). Compact Horn (White, Red). ACCESSORIES TR-2W, TR-2. Universal Wall Trim Ring (White, Red). SBBWL, SBBRL. Wall Surface Mount Back Box (White, Red). SBBGWL, SBBGRL. Compact Wall Surface Mount Back Box (White, Red). Notes: • All -P models have a plain housing (no "FIRE" marking on cover). • All -SP models have "FUEGO" marking on cover. • All -ALERT models have "ALERT' marking on cover. • ULC-listed "A" models have FIRE/FEU marking on cover. NOTIFIERO and I S ectrA err® are registered trademarks and P 9 Syne•CireuitT"' is a trademark of Honeywell International Inc. 02017 by Honeywell International Inc. All rights reserved. Unauthorized use of this document is strictly prohibited. ISO 9001 This document is not intended to be used for installation purposes. We try to keep our product information up-to-date and accurate. We cannot cover all specific applications or anticipate all requirements. BMIMBIINi 8 MMMfEC11MYt All specifications are subject to change without notice. QUALITY SYSTEMS For more information, contact Notifier. Phone: (203) 484-7161, FAX: (203) 484-7118. www.notifier.com DN-6091 BA • 2/3/2017 - Page 1 of 4 Page 2 of 4 - DN-60918:A • 2/3/2017 DN-60918:A • 2/3/2017 - Page 3 of 4 Page 4 of 4 - DN-60918:A • 2/3/2017 FA-13 CUT SHEETS & CALCULATIONS Battery Specification Sheet SLA1165 Technical Specifications Nominal Voltage 12.0 V Nominal Capacity 55.0 Ah (20 Hr Rate) 138 Industry Size Group 22NF Chemistry Lead Acid - AGM Physical Specifications gas Length: 249 mm 9.8 in. Width: 138 mm 5.43 in. Height: 196 mm 7.72 in. Height w/ Terminal: 218 mm 8.58 in. Weight 17.7 kg 39.0 lbs. Terminal Type Universal Flag w" 196 218 Case Material Grey PP Resin Container 6 cover made from Flame Retardant PP (UL94-VO/L.0.I.>28%) pit Charging Specifications Dimension: GOLD (+/-0.1) Bloc Per Cell 17.1 I s l 8 al Charge Voltage Float 13.5-13.8 2.25-2.30 (constant) Cycle 14.4-14.7 2.40-2.45 155 CD L122 ; Charging Temperature Range 5IF to 122OF - _ (-15°C to 50°C) 'O 20.0 Capacity Specifications (. 10.5 . 20 Hr Rate 2.75A to 1.75 volts/cell @ 259C 55.0 Ah Dimension: Drum (+/- 0.1) 10 Hr Rate 5.14A to 1.75 volts/cell @ 252C 51.4 Ah 5 Hr Rate 9.52A to 1.70 volts/cell @ 259C 48.1 Ah 1 Hr Rate 37.8A to 1.60 volts/cell @ 252C 37.8 Ah Energy Density 1.45 WH/Cubic Inch (20hrrate) (90 WH/Liter) Specific Energy 16.5 WH/pound (20hrrate) (36 WH/kg) _ Discharge Current (5seconds maximum) 500A Discharge Current (maximum continuous) 150 A Discharge Temperature Range -4°F to 140°F s",;F (-20oC to 60°C) NwM Be T` Charge Retention 97% after 1 month. (at 20 °C768 °F) 91 %after 3 months- 85% after 6 months!'. Internal Resistance(charged) -7.8 mf2 Life Expectancy Float Use: 3 - 5 years 100% Depth of Discharge: 250 Cycles 50% Depth of Discharge: 550 Cycles 30% Depth of Discharge: 1200 Cvcles Due to changes In the manufacturlre processes, specifications are subject to change without ratite interstatebatteries.com Battery Specification Sheet SLA1165 DISCHARGE CHARACTERISTIC CURVES AT 25°C (77°F) Balleryga6 llery gall. , 0 ss aai zo 6.0 4.0 � ,.0 5.5 36l ,E ,0.0 50 3at o +s ao eo MISS, ILI as .0 6o z . s eta mME DISCHARGE TIME rommomil ■■111 SELF DISCHARGE CHARACTERISTICS 1"0) 100 u75 a 50 g i 25 0 3 6 9 15 STORAGE TIME (MONTHS) 'i 20'C I6a°F) 1t04'FI � dmL 1aMF) 12 19 CYCLE SERVICE LIFE IN RELATION TO DEPTH OF DISCHARGE TESTING CONDITIONS: DISCHARGE CURRENT: 0.17C AMP. (FN 1.]V/CELL) a CHARGING CURRENT: 0.09C AMP CHARGING VOLUME: 125%OF DISCHARGED CAPACITY c (AH%) AMBIENT TEMPERATURE: 20'C TO 29C UST TO 7PF) 120 y 100 U oLL BO 60 40 s d 20 O 209 400 600 so 10DO 12M 1400 NUMBER OF CYCLES TEMPERATURE EFFECTS IN RELATION TO BATTERY CAPACITY W ,20 (%) a a100 UO�P a p2`P e0 0 ea � 1GP w 2GP zo 3GP 0 -20 -10 0 Io 20 30 40 501'q -24 14 32 50 W 05 IN 122 CF) TEMPERATURE OPEN CIRCUIT VOLTAGE VS REMAINING CAPACITY N) AT 25°C (77F) 14.0 Ep 13.0Now - S u 12.0 W 1 ca 11.0 10.0 D z0 a 60 a0 100 REMAINING CAPACITY (%) FLOAT SERVICE LIFE S TESTING CONDITIONS: FLOATING VOLTAGE 2.2510 2.30V/CELL AMBIENT TEMPERATURE' 20-C TO 22°C (64-F TO 72'F) a UoIJ% 120 100 so w 6D i 40 wz0 o a 1 2 3 0 5 5.5 LIFE (YEARS) CAUTION: Do not charge in a sealed container. Avoid Short Circuit. Before using this battery in high current applications(>3C), consult with Interstate Batteries. Notes: Leak-proof/spill-proof. Most SLA(Sealed Lead Acid) batteries now use AGM(Absorbent Glass Mat) technology which has largely replaced the old "gel" technology. In an AGM battery, fiberglass mats absorb the acid and hold it against the lead plates inside the battery. Because the acid is absorbed by the sponge -like mats, it will not leak or spill (provided proper charging and usage instructions are followed). Additional safety features include the use of special sealing epoxies, tongue -and -groove case and cover construction as well as long sealing paths for post and connectors. Our AGM batteries are approved for all modes of transport(water, road, rail, air, etc.). 10/08 interstatebatteries.com ® Interstate Battery System of America, Inc. Battery Specification Sheet SLA1055 Technical Specifications Nominal Voltage 12.0 V Nominal Capacity 5.0 Ah (20 Hr Rate) Chemistry Lead Acid - AGM Physical Specifications Length: 90 mm 3.54 in. Width: 70 mm 2.76 in. Height: 101 mm 3.98 in. Height w/ Terminal: 107 mm 4.21 in. Weight 1.77 kg 3.90 lbs. Terminal Type .187" Faston Case Material Black ABS Charging Specifications Bloc Per Cell Charge Voltage Float 13.5-13.8 2.25-2.30 (constant) Cycle 14.4-14.7 2.40-2.45 Max. Charge Current 1.5 A Approx Final Charge Current (2.25 volts/cell Float) 0.012A (12mA) Approx Final Charge Current (2.45 volts/cell Cycle) 0.04A (40mA) Capacity Specifications Cut-off Voltage 20 Hr Rate (0.25A) 5.0 Ah 1.75 volts/cell @ 252C 10 Hr Rate (0.46A) 4.6 Ah 1.70 volts/cell @ 252C 5 Hr Rate (0.82A) 4.1 Ah 1.55 volts/cell @ 25oC 1 Hr Rate (3.2A) 3.2 Ah Discharge Current (5 seconds maximum) 75 A Discharge Current (maximum continuous) 25 A Self Discharge (to 80% capacity) 9 months @ 21 cC Due to N,anDes in the manutedurbfg processes, seadllca0aru are subject to change wlNout rake interstatebatteries.com e65 1.7= ❑ 125 14.95 6.5 �05 GB}11 1 Y 0 Interstate Battery System of America, Inc. 01/09 I0/08 Battery Specification Sheet SLA1055 DISCHARGE CHARACTERISTIC TEMPERATURE EFFECTS IN RELATION CURVES AT 25°C (77°F) TO BATTERY CAPACITY m rn nt ,av 6v 4v Far., Banary Benmy NP Temperam,e 25-Qp -FI m n61 120 lza s t00 U0"GP U SO Q V 60 ii� p2 GP j a as 1 pO pSC `o I.. o sea -oacno.zc 5 e.eLA .l A Q ap 1GX a +s as i 2GP eo a.o zn zcA U 6 20p CA p -20 -,0 0 m 20 30 40 50 ICI r min- + -24 ,4 32 SO 68 86 104 In ("F) DISCHARGE TIME TEMPERATURE SELF DISCHARGE CHARACTERISTICS 100 lOD 6 caa 75 75 a 50 g s 25 2 3 8 9 1s STORAGE TIME (MONTHS) i 1 AO°C 1104'F) 30°C 20'C I6B°F1 (aMF) 12 1a CYCLE SERVICE LIFE IN RELATION TO DEPTH OF DISCHARGE m TESTING CONDITIONS: DISCHARGE CURRENT: 0.17C AMP (F.V. 1.7V/CELL) c CHARGING CURRENT: DASC AMP CHARGING VOLUME 125%OF DISCHARGE. CAPAcUT c Uffl%) AMBIENT TEMPERATURE:20°C TO 25C 168T TO 7PF) � 120 i too 5 2 BD 60 t. 40 i 20 0 20D 400 600 ON 1000 1200 1400 NUMBER OF CYCLES OPEN CIRCUIT VOLTAGE VS REMAINING CAPACITY (w) AT 25°C (77T) 14.0 r 1 i 13.0 12.0 w 0 11.0 7, �77 10.0 a 20 ao 50 80 100 REMAINING CAPACITY (%) FLOAT SERVICE LIFE m TESTING CONDITIONS: FLOATING VOLTAGE 2.2E T2 2.3O AMBIENT TEMPERATURE 20'C To 22°C (64°F TO ]2°F) 22T ( < (120 � 1zo i ion ea 0 60 M1 Wap 40 W 20 1 11 2 6 D 1 2 3 4 5 as LIFE (YEARS) CAUTION: Do not charge in a sealed container. Avoid Short Circuit. Before using this battery in high current applications(>3C), consult with Interstate Batteries. Notes: Leak-proof/spill-proof. Most SLA(Sealed Lead Acid) batteries now use AGM(Absorbent Glass Mat) technology which has largely replaced the old "gel" technology. In an AGM battery, fiberglass mats absorb the acid and hold it against the lead plates inside the battery. Because the acid is absorbed by the sponge -like mats, it will not leak or spill (provided proper charging and usage instructions are followed). Additional safety features include the use of special sealing epoxies, tongue -and -groove case and cover construction as well as long sealing paths for post and connectors. Our AGM batteries are approved for all modes of transport(water, road, rail, air, etc.). interstatebatteries.com (B Interstate Battery System of America, Inc. 01/09 I Battery Specification Sheet Technical Specifications Nominal Voltage 12 V Nominal Capacity 8.0 Ah (20 Hr Rate) Chemistry Lead Acid - AGM Physical Specifications Length: 151 mm 5.94 in. Width: 65 mm 2.56 in. Height: 93.8 mm 3.69 in. Height w/ Terminal: 98.4 mm 3.88 in. Weight 2.51 kg 5.53lbs. Terminal Type 187" Faston Case Material Black ABS Charging Specifications Max. Charge Current 2.16 A Approx Final Charge 0.014 A Current (2.25 volts/cell Float) Approx Final Charge 0.07 A Current (2.45 volts/cell Cycle) 1.75 volts/cell @ 25AC 10 Hr Rate (.69A) 6.98 Ah 1.70 volts/cell @ 25°C 5 Hr Rate (1.27A) 6.37 Ah 1.55 volts/cell @ 25"C 1 Hr Rate (4.5A) 4.5 Ah Charge Voltage Floa113.5-13.8 2.25-2.30 (constant) Cycl(14.4-14.7 2.40-2.45 Discharge Current 80 A (5 seconds maximum) Discharge Current 50 A (maximum continuous) Self Discharge 9 months @ 21 cC (to 80% capacity) Internal Resistance 25 m.Q Due la changes in the manufacNmq pmcesms, apeuilca0an6 are subject Io change without had. BAZR2.MH18830 interstatebatteries.com NOTIFI6R 93A SLA1075 86A Ij7 is6 125 1496 65 1 05 1 0.9 _�.� Ltioeluul: axrl,i-off 0 Interstate flattery System of America, Inc. Primary Non -Alarm - Ell Primary Alarm - C2 MFICi 0.995 A 0.995 1.449 0.00 0.88 1.76 2.64 3.52 4.40 0.00 148 2s6 4.44 5.92 7.40 C2 1.449 A Power Used (Amps) Power Used (Amps) c 1.035 A C4 1.489 A 7Bakc1 1 x 0.25000 0.25000 1 x 0.25000 0,25000 1 x 0.25000 0.25000 1 x 0.00000 0.00000 1 x 0.00000 0.00000 1 x 0.04000 0.04000 e 0 x 0.03500 0 x 0.03500 0 x 0.03500 i ht On 1 x 0.10000 0.10000 1 x 0.10000 0.100001 x 0.10000 0.10000 t On 0 x 0.40000 0 x 0.40000 0 x OA0000 NCA2 - Backlight Off 0 x 0.20000 0 x 0.20000 0 x 0.20000 NCA2 - Backlight Off with loss of AC 0 x 0.40000 0 x 0.40000 0 z 0.20000 NCM-W, NCM-F 0 x 0.11000 0 x 0.11000 0 x 0A 1000 HS-NCM-WANF/SFIWMF/WSF/WFSF 0 x 0.40000 0 x 0.40000 0 x 0.40000 TM-4 0 x 0.11000 0 x 0.17500 0 x 0.11000 DPI 0 x 0.00000 O x 0.00000 0 x 0.00000 2. Signaling Line Circuits SLC1 Device Activation Current 1 x 0.20000 0.20000 1 x 0.20000 0.20000 1 x 0.20000 0.20000 LEM-320 (SLC2 1 x 0.10000 0.10000 1 x 0.10000 0.10000 1 x 0.10000 0.10000 SLC2 Device Activation Curren 1 x 0.20000 0.20000 1 x 0.20000 0.20000 1 x 0.20000 0.20000 3. Power Supplies/Chargers ACPS-610 Power Supplies 0 x 0.00000 0 x 0.00000 0 x 0.00000 APS-6R Power Supplies 0 x 0.00000 0 x 0.00000 0 x 0.00000 APS2-6R Power Supplies 0 x 0.00000 0 x 0.00000 0 x 0.00000 FCPS-24S6 Power Supplies 0 x 0.00000 0 x 0.00000 0 x 0.00000 FCPS-24S8 Power Supplies 0 x 0.00000 0 x 0.00000 0 x 0.00000 HPFF8 Power Supplies 0 x 0.00000 0 x 0.00000 0 x 0.00000 HPFF12 Power Supplies 0 x 0.00000 0 x 0.00000 0 x 0.00000 CHG-120 0 x 0.00000 0 x 0.00000 0 x 0.06000 MPM-2 0 x 0.00600 O x 0.00600 0 x 0.00600 4. Voice S stems and Audio E ui ment DAA2 Series 0 z 0.00000 0 x 0.00000 0 x 0.00000 DAX Series 0 x 0.00000 0 x 0.00000 0 x 0.00000 DAA Series 0 x 0.00000 0 x 0.00000 0 x 0,00000 DS-DB 0 x 0.00000 0 x 0.00000 0 x 0.00000 FireVoice Panels 0 x 0.00000 0 x 0.00000 0 x 0.00000 FireVoice Distributed Audio Panels 0 x 0.00000 0 x 0.00000 0 x 0.00000 NFC-50/100 0 x 0.00000 0 x 0.00000 0 x 0.00000 NFC Distributed Audio 0 x 0.00000 0 x 0.00000 0 x 0.00000 XPIO 0 x 0.00000 0 x 0.00000 0 x 0.00000 AA-30 0 x 0.00000 0 x 0.00000 0 x 0.04600 AA-100, AA-120 0 x 0.00000 0 x 0.00000 0 x 0.05000 DVC-EM 0 x 0.30000 0 0 0 x 0.30000 DVC-KD 0 x 0.06000 0 0 0 x 0.06000 OVGAO 0 x 0.17500 O ( 0 x 0.17500 RM-1 with DVC-EM) 0 x 0.07500 O ( 0 z 0.07500 DS-FM, DS-SFM, DS-RFM 0 x 0.06000 O K13 ( 0 x 0.06000 AMG-1, AMG-E, ATG-2 0 x 0.06000 O ( 0 x 0.06000 FFT-7. FFT-7S 0 x 0.06000 O ( 0 x 0.06000 RM-1 0 x 0.02000 O 00 0 x 0.02000 5. Annunciator Control System ACM-24AT 1 x 0.01600 0.01600 1 x 0.07000 0.07000 1 x 0.01600 0.01600 ACM-48A 0 x 0.01600 0 x 0.07000 0 x 0.01600 AEM-24AT 0 x 0.00200 0 x 0.05600 0 x 0.00200 AEM-48A 0 x 0.00200 O x 0.05600 0 x 0.00200 - LEDs ON (ACM/AEM-24/48) 0 x 0.00540 0 x 0.00000 0 x 0.00540 ACM-16AT/ACM-32A Series 0 x 0.04000 0 x 0.05600 0 x 0.04000 -LED's ON ACM-16/32) 0 x 0.01600 0 x 0.00000 0 x 0.01600 AEM-16AT/AEM-32A Series 0 x 0.00200 O x 0.01800 0 x 0.00200 - LED's ON (AEM-16/32) 0 x 0.01600 0 x 0.00000 0 x 0.01600 AFM-16AT/AFM-32A Series 0 x 0.04000 0 x 0.05600 0 z 0.04000 AFM-16A 0 x 0.02500 0 x 0.06500 0 x 0.02500 ACM-8R 0 x 0.03000 0 x"=W(' _ 0 x 0.03000 FDU-80 2 x 0.06430 0.12860 2 x 0.06430 0.12860 2 x 0.06430 0.12860 LCD-2x20 0 x 0.06400 0 x 0.06600 0 x 0.02900 LCD-80, LCD-80TM 0 x 0.10000 0 x 0.10000 0 x 0.05000 LCD2-80 0 x 0.10500 0 x -__ _, _. _..= 0 x 0.04500 LDM-32 0 x': - 0 x 0.05600 0 x 0.04000 0810 Battery Specification Sheet SLA1075 ��EEIIIFI��■11■1■■■{IIlfl�t�l ■■■I )III II■�111■�1111111■�11 `��1�Inriw��l�■Ist!I��III■�11 _ ■��;ii;t��l��ll��llli�ll\�Il ■■■111i1111#�Illl��' L■ 1 111--,�j■I ■■■1111�Il� I I[l��l[■111 - ■■■II 111■111111I1■111 r ■■■1111111■�111■11111111■�11 ■■■IIIIIII■�111■11111111■III 1!•Arx C1MS1..0 1A4+N F1�♦\p �•4 CWs 4rF W. .• sN a A Rim .> es( n ut m n at a D IA ! A • . 1° . P H ■ ��I■e ■■ ■■■ ■■ +lllllll��i� ■■■E!11111�■l�11111■■■i ■Sllw ■ C►41 ut�111■■ E � rll ll�ll■� ■ r ��■lili�lt■��11111��1 ��1!■6.II��IYNlAt��.11��1w■ ��■111111�1D1�f11111•■■1 I�II�a��11u�t1►1\��■ - r■�flllll 'Y �►�'1111��i1 ■■■111111■■S11111UMI N11 NMI 111111��11111111_`11 �tttttl!• ■■aaR�ttttil♦ ■■■aaattrtttt�ttt■I■ ■ �� t�1111��1• � ■�111��■ ■ Dr FtryC 7xx�C'ie c.1M 4'.A is Shr6,tAra III tat a>t .n n* LOW IUP u Y MEW ®W • r t S ■ 1S _■1 III CAUTION: Do not charge in a sealed Container, Avoid Short Circuit. Before using this battery in high current applications(>3C), consult with Interstate Batteries. Notes: Leak-proof/spill-proof. Most SLA(Sealed Lead Acid) batteries now use AGM(Absorbent Glass Mat) technology which has largely replaced the old "gel" technology. In an AGM battery, fiberglass mats absorb the acid and hold it against the lead plates inside the battery. Because the acid is absorbed by the sponge -like mats, it will not leak or spill (provided proper charging and usage instructions are followed). Additional safety features include the use of special sealing epoxies, tongue -and -groove case and cover construction as well as long sealing paths for post and connectors. Our AGM batteries are approved for all modes of transport(water, road, rail, air, etc.). interstatebatteries.eom ® Interstate Battery System of America , Inc. LDM-E32 0 x 0.00200 0 z 0.01800 0 x 0.00200 LDM-R32 0 x 0.00000 0 x 0.28800 0 x 0.00000 - LEDs ON LDM Series - 24VDC 0 x 0.00000 0 )i =� 0 x 0.00000 - LEDs ON LDM Series - 5VDC 0 z 0.00000 0 x ::; 0 x 0,00000 SCS-8 0 x Q-, _.. _- 0 x 0.06200 0 x 0.06200 SCE-8 0 x 0.03600 0 x 0.03600 0 x 0.03600 SCS-8L 0 x'' 0 x 0.03300 0 x 0.03300 SCE-8L 0 x 0M500 0 x 0.00500 0 x 0.00500 - LEDs ON SCS/SCE Series - 24VDC 0 x 0.00000 0 x 0.05000 0 x 0.00000 - LEDs ON SCS/SCE Series - 5VDC 0 x 0.00000 0 x 0.02000 0 x 0,00000 TM-4 0 x 0.11000 0 x 0, 17500 0 x 0.11000 UDACT Communicator 0 x 0,04000 0 x 0.10000 0 x 0.04000 UDACT-2 Communicator 0 x 0.05200 0 x 0.08700 0 x 0.05200 UZC-256 0 x 0.03500 0 x 0.08500 0 x 0.03500 RPT-W, RPT-WF, RPT-F 0 x 0.01700 0 x 0.01700 0 x 0.01700 RPT-485W 0 x 0.04700 0 x 0,04700 0 x 0.04700 RPT-485WF 0 x 0.04900 O x 0.04900 0 x 0.04900 FWSG 0 x 0.04000 0 x 0.04000 0 x 0.04000 6. InitiatingDevices Power Supervision Relay0 x 0.02000 0 x 0.02000 FSP-951 0 x 0.00030 0 x 0.00030 FSP-951R 0 x 0.00030 0 x 0.00030 FST-951 0 x 0.00030 0 x 0.00030 FMM-1 0 x 0.00035 - 0 x 0.00035 FMM-101 0 x 0.00035 0 x 0,00035 FRM-1 0 x 0,00026 0 x 0,00026 NBG-12LX 0 x 0.00038 0 x 0.00038 FCM-1 0 x 0.00049 0 x 0.00049 ADD InitiatingDevice 0 x 0.00000 0 x 0.00000 ADD InitiatingDevice 0 x 0.00000 0 x 0.00000 ADD InitiatingDevice 0 x 0.00000 0 x 0.00000 ADD InitiatingDevice 0 x 0.00000 0 x 0.00000 ADD InitiatingDevice 0 x 0.00000 0 x 0.00000 ADD Initiatin Device 0 x 0.00000 99 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 SLC Loop Device Activation Currant 2 X 0.20000 0.40000 7. Intelligent Module IDC Circuit Draw FZM-1 IDC Cicuits 0 x 0.00000 O z O.D9000 0 x 0.00000 XP6-MA IDC Circuits 0 x 0.00000 0 x 0.09000 0 x 0.00000 8. Intelligent Device AuxiliaryDraw FCM-I-REL Aux. Power) 0 x 0.00640 O x 0.01000 0 x 0.00640 FMM-4-20 (Aux. Power 0 x 0.010D0 0 x 0.51000 0 x D.01000 FSD-751 RPL Aux. Power 0 x 0.02600 0 x 0.08700 0 x 0,02600 9200SR Aux. Power 0 x 0.00050 0 x 0.03500 0 x 0.00050 B200S Aux. Power 0 0 x 0.00050 Other Device Drawing Aux. Power 0 x 0.-nl 0u 0 x 0.00000 0 x 0.00000 9. Notification Appliances ADD Notification Appliance 0 x 0,00000 0 x 0.00000 0 x 0,00000 ADD Notification Appliance 0 x 0.00000 0 x 0.00000 0 x 0,00000 ADD Notification Appliance 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Notification Appliance 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Notification Appliance 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Notification Appliance 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Notification Appliance 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Notification Appliance 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Notification Appliance 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Notification Appliance 0 x 0.00000 0 x 0.00000 0.00000 ADD Notification Appliance 0 x 0.00000 0 x 0.00000 0.00000 ADD Notification Appliance 0 x 0,00000 0 x 0,00000 0.00000 ADD Notification Appliance 0 x 0,00000 0 x 0.00000 1000; 0,00000 ADD Notification Appliance 0 x 0,00000 0 x 0.00000 0.00000 ADD Notification Appliance 0 x 0.00000 0 x 0.00000 0.00000 10. Miscellaneous Local EnergyMunicipal Box 0 x 0,00000 0 x 0.00000 0 x 0.00000 Other compatible device=. 0 x 0.00000 0 x 0.000o0 0 x 0.00000 11. Compatible Devices not listed ADD Miscellaneous Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Miscellaneous Device 0 x 0.00000 0 x O.DOD00 0 x 0.00000 Other compatible devices 0 x 0.00000 0 x 0.00000 0 x 0.00000 00/10 FA-14 Total Non- Total Standby 0.995 Total Alarm Load 1.449 1.035 Alarm Load: Load: CUT SHEETS & CALCULATIONS Secondary .. Only include those additional power supplies that are backed up by the contr panels batteries. .-UIM . . . Total Primary Alarm Load - C2 1_449 1.449 CPS-24 1 x 0.040 0.040 NCA2 - Backlight Off with loss of AC 0 x -0.200 APS-613 Power Supplies 0.000 APS2-6R Power Supplies 0.000 ACPS-610 Power Supplies 0.000 FCPS-24S6 Power Su plies 0.000 FCPS-24SB Power Supplies 0.000 HPFF8 Power Supplies 0.000 HPFF12 Power Supplies 0.000 DAA2 Series I 0.000 DAX Series 0.000 DAA Series 0.000 DS-DB 0.000 FireVoice Panels 0.000 FireVoice Distributed Audio Panels 0.000 NFC-50/100 0.000 NFC Distributed Audio 0.000 XPIO 1 0.000 AA-30 0 x 3.000 AA-120 1 0 1XI 7.300 Other Power Supply 1 0 1XI 0.000 Other Power Supply 1 0 1XI 0.000 Total Standby Alarm Load 1.489 6. Auxiliary Power Auxiliary Device 0 x 0.00000 0 x 0.00000 Auxiliary Device 0 x 0.00000 0 x 0.00000 Auxiliary Device 0 x 0.00000 0 x 0.00000 Auxiliary Device 0 x 0.00000 0 x 0.00000 Auxiliary Device 0 x 0.00000 0 x 0.00000 TB4 Totals (Max 2 Amps) 0.00000 0.00000 7. Compatible Devices not listed Other compatible devices 0 x 0.00000 0 x 0.00000 Other compatible devices 0 x 0.00000 0 x 0.00000 Other compatible devices 0 x 0.00000 0 x 0.00000 Total Non -Alarm Load 0.075 Total Alarm Load 2.639 r� NOTIFIER° _ • PowerSystem uirements by Honeywell Notifier NFS2-640 Fire Alarm Control Panel Protected Premises: Bridge Park Block F (FACP) Date: 11/11/2019 Address: 4475 BRIDGE PARK AVENUE City: DUBLIN State:OHIO Zip:43017 Prepared By: PDS SYSTEMS LLC Phone: 614-291-8629 Address: 1198 OLD HENDERSON ROAD Email: City: COLUMBUS State:OHIO Zip:43220 AC Branch Current Requirements 5.00 AMPS @ 120 VAC Current required by source to power the fire alarm system. Primary Standby Load 0.99 Amps Current load on the primary power supply during non -alarm conditions. Primary Alarm Load 1.45 Amps Current load on the primary power supply during alarm conditions. Secondary Load Requirements 29.95 Amp Hours Total Secondary Load from the calculation table below. Current Draw Time (hours) Total (A Secondary Standby Load Required Standby Time 1.035 A X 24 hours 24.83 Secondary Alarm Load Required Alarm Time 1.489 A X 0.084 hours 0.13 Total Secondary Load 24.96 Derating factor x 1.2 Secondary Load Requirements (Amp Hours 29.95 AH Battery Selection 55 Amp Hours Select batteries from the list below. 55 AH BAT-12550 Battery 12 volt 1ETwo ❑ Four (two 12VDC sets in parallel) Page 4 of 5 Honeywen Secondary Power Requirements Protected Premises: Bridge Park Block F Spring Hill Suites (FACPCKTS 54 Address: 4475 BRIDGE PARK AVENUE City: DUBLIN State:OHIO Prepared By: PDS SYSTEMS LLC Address: 1198 OLD HENDERSON ROAD City: COLUMBUS State: OHIO Email: Secondary Load Requirements F-2-4-37 Amp Hours Total Secondary Load from the calculation table below. Date: 11 /11 /2019 Zip: 43017 Phone: 614-291-8629 Zip: 43220 Current Draw Secondary Standby Load 0.075 A X Time (hours) Total (AH) Required Standby Time 24 hours 1.80 Secondary Alarm Load 2.639 A X Required Alarm Time hours 0.084 hours 0.22 Total Secondary Load 2,02 Derating factor x 1.2 Secondary Load Requirements 2.43 Battery Selection 0 Amp Hours Select batteries from the list below. 7.0 AH BAT-1270 Battery 12 volt CeTwo ❑Four (two 12VDC sets in parallel) AH Shows amp -hour distribution of your selections. Secondary Alarm Load 0% ■Spare Battery Capacity ■ Secondary Standby Load a SecondaryAlarm Load Comments 1. Battery size exceeds FACP capacity. BB-55 or other external battery box 2. Selected battery size meets secondary load requirements. 3. The selected batteries (55AH) are within the charger range of this power supply (18-200AH). S are Batte Ca aci 25.05 !BatterySelection AH - SecondaryLoad Requirements AH Seconda Standby Load 129.80 Secondary Standby Load AH * Derating Factor ISeronclary Alarm Load 1 0.15 1 Secondary Alarm Load AH * Derating Factor Page 5 of 5 Battery Distribution Chart Shows amp -hour distribution of your selections. Secondary Alarm Load 4% ■ Spare Battery Capacity ■ Secondary Standby Load ■Secondary Alarm Load Comments 1. Batteries will fit in the FACP cabinet. 2. Selected battery size meets secondary load requirements. 3. The selected batteries (7AH) are within the charger range of this power supply (7-26AH). Spare Battery Capacity 4.57!Battery Selection AH - Secondary Load Requirements AH ISecondary Standby Load 2.16 ISecondary Standby Load AH * De2j!9.0 Factor ISecondary Alarm Load 1 0.27 1 Secondary Alarm Load AH * Derating Factor Honeywell System Current Draw - HPFF8 Standby 0.075 A Alarm 12.639 A Sjcondary Non -Alarm Current se onclary Alarm Current r. ° • Draw I Alarm 1. System Modules HPFF8 Main Circuit Boarc 1 x 1 0.07500 0.07500 1 x 0.20600 0.20600 2. NAC #5 SWL15 1 x 0.00000 0.00000 1 x 0.04300 0.04300 P2WL15 3 x 0.00000 0.00000 3 x 0.07300 0.21900 P2WL75 3 x 0.00000 0.00000 3 x 0.13900 0.41700 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x o.00000 0 x 0.00000 0 x 0,00000 0 x 0.00000 0 x 0.00000 0 x omoo0 0 x 0.00000 NAC #1 Totals (Max 3 Amps) 0.00000 1 0.67900 3. NAC #6 SWL15 2 x 0.00000 0.00000 2 x 0.04300 0.08600 SWL75 1 x 0.00000 0.00000 1 x 0.10700 0.10700 P2WL30 1 x 0.00000 0.00000 1 x 0.09400 0.09400 P2WL75 3 x 0.00000 0.00000 3 x 0,13900 0A1700 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.0000000 0 x o.00000 0 X o.000 o X o.0000o NAC #2 Totals (Max 3 Amps) 0.00000 1 1 0.70400 4. NAC #7 P2WL15 4 x 0.00000 0.00000 4 x 0.07300 0.29200 P2WL30 2 x 0.00000 0.00000 2 x 0.09400 0.18800 P2WL75 1 x 0.00000 0.00000 1 x 0.13900 0.13900 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 o x 0.00000 o x 0.00000 o x 0.0000o NAC #3 Totals (Max 3 Amps) 0.00000 1 1 0.61900 5. NAC #8 P2WL15 4 x 0.00000 0.00000 4 x 0.07300 0.29200 P2WL76 1 x 0-00000 0.00000 1 x 0.13900 0.13900 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 X 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x o.00000 0 x o.00000 0 x 0.00000 0 x o.00000 NAC #4 Totals (Max 3 Amps)] 0.00000 1 0.43100 � NOTI Fit K N' System Current Draw - BTj Hon ell ° Select devices using the " oty' column. Use yellow cells to enter quantities and current values. C1 0.094 A To show only selected devices, select "Show Selected Devices'. C2 1.599 A To clear selected devices, select "Clear Selections". C3 0.068 A 1. System Modules FCPS-24S8 Main Circuit Board 1 x 0.09100 0.09100 1 x 0.14500 0.14500 1 x 0.06500 0.06500 A.Mary D.N.. power drawn from Teo-9 and TB4-10 0 X 0.00000 0 1 x 1 0.00000 0 x 0.00000 Power Supervision Relay 0 x 0.02500 0 x 0.02500 0 x 0.02500 CHG-120 0 x 0.00001) 0 x 0.00000 0 x 0.06000 Other compatible devices 0 x 0.00000 0 x 0.00000 0 x 0.00000 Other compatible devices 0 x 0.00000 0 x In nnnn0 11 x 0.00000 2. Notification Appliances SWL15 5 x 0.00000 0.00000 5 x 0.04300 0,21500 5 x 0.00000 0.00000 SWL30 0 x 0.00000 0 x 0.06300 0 x 0.00000 SWL185 0 x 0.00000 0 x 0.22200 0 x 0.00000 P2WL15 12 x 0.00000 0.00000 12 x 0.07300 0,87600 12 x 0.00000 0.00000 P2WL30 2 x 0.00000 0.00000 2 x 0.09400 0.18800 2 x 0.00000 0.00000 P2WL75 0 x 0.00000 0 x 0.13900 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 X 0.00000 0 X 0.00000 a x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Notification Appliance 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Notification Appliance 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Notification Appliance 0 x 0,00000 0 X 0.00000 0 x 0.00000 ADD Notification Appliance 0 x 0.00000 0 x 0.00000 0 x 0.00000 3. Initiating Device Circuits B20OS-WH 5 x 0.00050 0.00250 5 x 0.03500 0.17500 5 x 0.00050 0.00250 B20OS-LF-WH 0 x 0.00050 0 x 0.14000 0 x 0.00050 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 1 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0,00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 -T x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 4. Intelligent Module IDC Circuit Draw FZM-1 IDC Cicuits 0 x .00000 0 x 0.09000 0 x 0.00000 XP6-MA IDC Circuits 0 x 00.00000 0 x 0.09000 0 x 0.00000 5. Intelligent Device Auxiliary Draw FCM-I-REL (Aux. Power) 0 x 0.00640 0 x 0.01000 0 x 0.00640 FMM-4-20 Aux. Power 0 x 0.01000 0 x 0.51000 0 x 0.01000 FSD-751 RPL Aux. Power 0 x 0.02600 0 x 0.08700 0 x 0.02600 8200SR Aux. Power 0 1 x 1 0.00050 0 x 0,03500 0 x 0.00050 B200S Aux. Power 0 x 0.00050 0 xt:025t 0 x 0.00050 Page 3 of 4 Page 4 of 4 FA-15 CUT SHEETS & CALCULATIONS Other Device Drawing Aux. Power 0 1 x 0.00000 0 x 0.00000 0 1 x 0.00000 6. Addressable Devices Addressable Device 1 0 x 0.00000 0 x 0.00000 0 x 0.00000 Addressable Device 2 0 x 0.00000 0 x 0.00000 0 x 0.00000 Addressable Device 3 0 x 0.00000 0 x 0.00000 0 x 0.00000 Addressable Device 4 0 x 0.00000 0 x 0.00000 0 x 0.00000 Addressable Device t 0 x 0.00000 0 x 0.00000 0 x 0.00000 7. Compatible Devices not listed ADD Miscellaneous Device 0 x 0.0000 0 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.0002 0 x 0.00000 Other compatible devices 0 x 0.00000 0 z 0.00000 0 x 0.00000 Total Non 0.094 Total Alarm Load Alarm Load: 1.599 Total Standby 0.068 Load: Other Device Drawing Aux. Power 0 x 0.00000 0 x 0.00000 0 FTFO.00000 6. Addressable Devices Addressable Device 1 0 x 0.00000 0 x 0.00000 0 x 0.00000 Addressable Device 2 0 x 0.00000 0 x 0.00000 0 x 0.00000 Addressable Device 3 0 x 0.00000 0 x 0-00000 0 x 0.00000 Addressable Device 4 0 x 0.00000 0 x 0.00000 0 x 0.00000 Addressable Device t 0 x 0.00000 0 x 0.00000 0 x 0.00000 7. Compatible Devices not listed ADD Miscellaneous Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 z 0.02929 Other compatible devices 0 x 0.00000 0 x 0.00wo 0 x 0.00000 Total Non 0.120 Total Alarm Load Alarm Load: 5.895 Total Standby Load: 0.094 NOTIFIER' by Honeywell Power Requirements FCPS-24s8 Power Supply Protected Premises: Bridge Park Block F Spring Hill Suites (NAC-A) Date: 11/11/2019 Address: 4475 BRIDGE PARK AVENUE City: DUBLIN State:OHIO Zip:43017 Prepared By: PDS SYSTEMS LLC Phone: 614-291-8629 Address: 1198 OLD HENDERSON ROAD Email: City: COLUMBUS State:OHIO Zip:43220 AC Branch Current Requirements 3.20 AMPS @ 120 VAC Current required by source to power the fire alarm system. Primary Standby Load 0.09 Amps Current load on the primary power supply during non -alarm conditions. Primary Alarm Load 1.60 Amps Current load on the primary power supply during alarm conditions. Secondary Load Requirements 2.11 Amp Hours Total Secondary Load from the calculation table below. Current Draw Time (hours) Total (AH) Secondary Standby Load Required Standby Time x 0.068 A 24 hours 1.62 Secondary Alarm Load Required Alarm Time (hours) 1.599 A x 0.084 hours 0.13 Total Secondary Load 1.75 Derating factor x 1.2 Secondary Load Requirements 2.11 AH Battery Selection Amp Hours Select batteries from the list below. 7 AH BAT-1270 Batter 12 volt KE Two ❑Four (two 12VDC sets in parallel) Page 3 of 4 �� NOTIFIER'System Power- e uirements by Honeywell FCPS-24s8 Power Supply Protected Premises. Bridge Park Block F Spring Hill Suites (NAC-B) Date: 11/11/2019 Address: 4475 BRIDGE PARK AVENUE City: DUBLIN State:OHIO Zip:43017 Prepared By: PDS SYSTEMS LLC Phone: 614-291-8629 Address: 1198 OLD HENDERSON ROAD Email: City: COLUMBUS State:OHIO Zip:43220 AC Branch Current Requirements 3.20 AMPS @ 120 VAC Current required by source to power the fire alarm system. Primary Standby Load 0.12 Amps Current load on the primary power supply during non -alarm conditions. Primary Alarm Load 5.90 Amps Current load on the primary power supply during alarm conditions. Secondary Load Requirements 3.30 Amp Hours Total Secondary Load from the calculation table below. Current Draw Secondary Standby Load Required Standby Time 0.094 A x 24 hours 2.26 Secondary Alarm Load Required Alarm Time (hours) 5.895 A x 0.084 hours 0.50 Total Secondary Load 2.75 Derating factor x 1.2 Secondary Load Requirements- 3.30 AH Battery Selection 0 Amp Hours Select batteries from the list below. 7 AH BAT-1270 Battery 12 volt) L•-Two ❑Four (two 12VDC sets in parallel) Battery Distribution Chart Shows amp -hour distribution of your selections. Secondary Alarm Load 2% Secondary Standby Lo: 28% ■ Spare Battery Capacity ■ Secondary Standby Load ■Secondary Alarm Load Comments 1. Batteries will fit in the FACP cabinet. 2. Selected battery size meets secondary load requirements. 3. The selected batteries (7AH) are within the charger range of this power supply (7-18AH). !Spare Battery Capacity 4.89 Battery Selection AH - Secondary Load Requirements AH ISerondary Standby Load li 1.94 ISecondary Standby Load AH " Derating Factor Secondary Alarm Load 1 0.16 1 Secondary Alarm Load AH * Derating Factor Page 4 of 4 Shows amp -hour distribution of your selections. Secondary Alarm Load 8% ■ Spare Battery Capacity ■ Secondary Standby Load ■Secondary Alarm Load Comments 1. Batteries will fit in the FACP cabinet. 2. Selected battery size meets secondary load requirements. 3. The selected batteries (7AH) are within the charger range of this power supply (7-1 BAH). ISpare Battery Capacity 3.70 Battery Selection AH - Secondary Load Requirements AH ISeconclary, Standby Load 2.71 ilSecondaryStandby Load AH " Derating Factor ISecondary Alarm Load 1 0.59 ISeconclary Alarm Load AH)"Derating Factor (�3 NOTIFIEW SystemCurrentraw . , b Hon ell Select devices using the "Qty" column. Use yellow cells to enter quantities and current values. C1 0.120 A To show only selected devices, select "Show Selected Devices". C2 5.895 A To clear selected devices, select "Clear Selections". C3 0.094 A I Cl . Primary Non -Alarm C2- Primary Alarm r - • r . r 1• •. '. 1. System Modules FCPS-24S8 Main Circuit Board 1 x 1 0.09100 1 0.09100 1 1 1 x 1 0.14500 1 0.14500 1 1 x 1 0.06500 0.06500 Amiliery Devices power dmm from TB4-9 and TB4-10 0 X 0.00000 0 X 0.00000 0 x On Power Supervision Relay0 x 0.02500 0 x 0.02500 0 x 0.02500 CHG-120 0 x 1 0.00000 1 1 0 1 x 1 0.00000 1 0 1 x 1 0.06000 Other compatible devices 0 x 0.00000 I 1 0 1 x 0.00000 0 1x 0.00000 Other compatible devices 0 x 0.00000 - x - ----- 0 x 0.00000 2. Notification Appliances SWL15 2 x 0.00000 0.00000 2 x 0.04300 0.08600 2 x 0.00000 0.00000 SWL30 0 x 0.00000 0 X 0.06300 0 x 0.00000 SWL185 2 x 0.00000 0.00000 2 x 0.22200 0.44400 2 x 0.00000 0.00000 P2WL15 0 x 0.00000 0 x 0.07300 0 x 0.00000 P2WL30 0 x 0.00000 0 X 0.09400 0 x 0.00000 P2WL75 0 x 0.00000 0 x 0.13900 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 r 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Notification Appliance 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Notification Appliance 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Notification Appliance 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Notification Appliance 0 x 0.00000 0 x 0.00000 0 x 0.00000 3. Initiating Device Circuits B20OS-WH 0 x 0.00050 0 x 0.03500 0 x 0.00050 B20OS-LF-WH 58 x 0.00050 0.02900 58 x 0.09000 5.22000 58 x 0.00050 0.02900 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 4. Intelligent Module IDC Circuit Draw FZM-1 IDC Cicuits 0 x 0.00000 0 x 0.09000 0 x 0.00000 XP6-MA IDC Circuits 0 x 0.00000 0 x 0.09000 0 x 0.00000 5. Intelligent Device Auxiliary Draw FCM-I-REL Aux. Power 0 x 0.00640 0 x 0.01000 0 x 0.00640 FMM-4-20 Aux. Power 0 x 0.0100' 0 x 0.51000 0 x 0.01000 FSD-751RPL Aux. Power 0 x 0.02600 0 x 0.08720 0 x 0.02600 8200SR Aux. Power 0 x 0.00050 0 x 0.03500 0 x 0.00050 82005 Aux. Power 0 x 0.00050 0 x` 0 x 0.00050 r� NOTIFill ER'System CurrentDraw. , try Honeywell Select devices using the "Qty" column. Use yellow cells to enter quantities and current values. 0.091 A To show only selected devices, select "Show Selected Devices". 1.424 A To clear selected devices, select "Clear Selections". 7C370.065A 1. System Modules FCPS-24S8 Main circuit Board 1 x 0.09100 0.09100 1 x 0.14500 0.14500 1 x 0.06500 0.06500 Auxiliary Devices powerdrewn from TB4-9 and TB4-10 0 X 0.00000 0 x 0.00000 0 x 0.00000 Power Supervision Relay 0 x 0.02500 0 x 0.02500 0 x 0.02500 CHG-120 0 z 0.00000 0 z 0.00000 0 x 0.06000 Other compatible devices 0 x 0.00000 0 x 0.00000 0 x 0.00000 Other compatible device: 0 x 0.00000 0 x 0.00000 0 x 0.00000 2. Notification Appliances SWL15 5 x 0.00000 0.00000 5 x 0.04300 0.21500 5 x 0.00000 0.00000 SWL30 0 x 0.00000 0 x 0.06300 0 x 0.00000 SWL185 0 X 0.00000 0 x 0.22200 0 x 0.00000 P2WL15 12 x 0.00000 0.00000 12 x 0.07300 0.87600 12 x 0.00000 0.00000 P2WL30 2 x 0.00000 0.00000 2 x 0.09400 0.18800 2 x 0.00000 0.00000 P2WL75 0 x 0.00000 0 x 0.13900 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x OM000 ADD Notification Appliance 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Notification Appliance 0 x 0.00000 0 X 0.00000 0 x 0.00000 ADD Notification Appliance 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Notification Appliance 0 X 0.00000 0 x 0.00000 0 x 0.00000 3. Initiating Device Circuits B20OS-WH 0 z 0.00050 0 x 0.03500 0 x 0.00050 B20OS-LF-WH 0 x 0.00050 0 x 0.14000 0 x 0.00050 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 X 0.00000 0 x 0.00000 ADD Initiating Device 0 z 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 z 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 X 0.00000 0 x 0.00000 ADD InitiatingDevice 0 x 0.00000 0 X 0.00000 0 x 0:00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 z 0.00000 4. Intelligent Module IDC Circuit Draw FZM-1 IDC Cicuits 0 x 0.00000 0 x 0.09000 0 x 0.00000 XP6-MA IDC Circuits 0 x 0.00000 0 x 0.09000 0 X 0.00000 5. Intelligent Device Auxiliary Draw FCM-I-REL Aux. Power 0 x 0.00640 0 x 0.01000 0 x 0.00640 FMM-4-20 Aux. Power 0 x 0.01000 0 x 0.51000 0 x 0.01000 FSD-751RPL Aux. Power 0 x 0.02600 0 x 0.08700 0 x 0.02600 B20OSR Aux. Power 0 x 0.00050 0 x 0.03500 0 x 0.00050 B200S Aux. Power 0 x 0.00050 0 x 3'- 0 x 0.00050 Page 3 of 4 Page 4 of 4 FA-16 CUT SHEETS & CALCULATIONS Other Device Drawing Aux. Power 0 x 0.00000 0 x 1 0.00000 0 x 0. 00000 6. Addressable Devices Addressable Device 1 0 x 0.00000 0 x 0.00000 0 x 0.00000 Addressable Device 2 0 x 0.00000 0 x 0.00000 0 x 2002020250 Addressable Device 3 0 x 0.000100 0 x 0.00000 0 x 0.00000 Addressable Device 4 0 x 0.00000 0 x 0.00000 0 x 1 0.00000 Addressable Device F 0 x 0.00000 0 x 0.00000 0 x 1 0.00000 7. Compatible Devices not listed ADD Miscellaneous Device 0 z 0.00009 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00002 Other compatible devices 0 z 0.00000 0 x 0.00000 0 x 0.00000 Total Non Alarm Load: 0.0 11 Total Alarm Load 1.424 Total Standby0.065 Load: Other Device DrawingAux. Power 0 x 0.00000 0 z 0.00000 0 x 0.00000 6. Addressable Devices Addressable Device 1 0 x 0.00000 0 x 0.00000 0 x 0.00000 Addressable Device 2 0 x 0.00000 0 x 0:00000 0 x 0.00000 Addressable Device 3 0 x 0.00000 0 x 0.00000 0 x 0.00000 Addressable Device 4 0 x 0.00002 0 x 0.00002 0 x 0.00000 Addressable Device 1 0 x 0.00000 0 x 0.00000 0 I x 0.00000 7. Compatible Devices not listed ADD Miscellaneous Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 Other compatible devices 0 x 0.00000 0 x 0.00000 0 x 0.060002 Total Non Alarm Load: 0.120 Total Alarm Load 5.895 Total Standby Load: 0.094 MOTI FI ER° by Honeywell FCPS-24s8 Power Supply Protected Premises: Bridge Park Block F Spring Hill Suites (NAC-C) Address: 4475 BRIDGE PARK AVENUE City: DUBLIN State:OHIO Prepared By: PDS SYSTEMS LLC Address: 1198 OLD HENDERSON ROAD Email: Date: 11 /11 /2019 Zip: 43017 Phone: 614-291-8629 City: COLUMBUS State:OHIO Zip: AC Branch Current Requirements 3.20 AMPS @ 120 VAC Current required by source to power the fire alarm system. Primary Standby Load 0.09 Amps Current load on the primary power supply during non -alarm conditions. Primary Alarm Load 1.42 Amps Current load on the primary power supply during alarm conditions. Secondary Load Requirements 2.02 Amp Hours Total Secondary Load from the calculation table below - Current Draw Time (hours) Total (AH) Secondary Standby Load Required Standby Time 0.065 A X 24 hours 1.56 Secondary Alarm Load Required Alarm Time hours 1.424 A X 0.084 hours 0.12 Total Secondary Load 1.68 Derating factor x 12 Secondary Load Requirements 2.02 Battery Selection 0 Amp Hours Select batteries from the list below. 7 AH BAT-1270 Batter 12 volt ETwo ®Four (two 12VDC sets in parallel) Page 3 of 4 AH Battery Selection 0 Amp Hours Select batteries from the list below. 7 AH BAT-1270 Batter 12 volt ETwo ®Four (two 12VDC sets in parallel) Page 3 of 4 AH 90M Systern Po _ e FCPS-24s8 Power Supply Protected Premises: Bridge Park Block F Spring Hill Suites (NAC-D) Date: 11/11/2019 Address: 4475 BRIDGE PARK AVENUE City: DUBLIN State:OHIO Zip:43017 Prepared By: PDS SYSTEMS LLC Phone: 614-291-8629 Address: 1198 OLD HENDERSON ROAD Email: City: COLUMBUS State:OHIO Zip:43220 AC Branch Current Requirements 3.20 AMPS @ 120 VAC Current required by source to power the fire alarm system. Primary Standby Load F-0-127 Amps Current load on the primary power supply during non -alarm conditions. Primary Alarm Load 5.90 Amps Current load on the primary power supply during alarm conditions. Secondary Load Requirements 3.30 Amp Hours Total Secondary Load from the calculation table below. Current Draw 1_1 Time (hours) Total (AH) Secondary Standby Load Required Standby Time 0.094 A X 24 hours 2.26 Secondary Alarm Load Required Alarm Time (hours) 5.895 A X 0.084 hours 0.50 Total Secondary Load 2.75 Derating factor x 1.2 Secondary Load Requirements 3.30 AH Battery Selection Amp Hours Select batteries from the list below. 7 AH BAT-1270 Battery 12 volt ETwo UFour (two 12VDC sets in parallel) Battery Distribution Chart Shows amp -hour distribution of your selections. Secondary Alarm Load 2% Secondary Standby Loi 27% ■ Spare Battery Capacity ■ Secondary Standby Load ■SecondaryAlarm Load Comments 1. Batteries will fit in the FACP cabinet. 2. Selected battery size meets secondary load requirements. 3. The selected batteries (7AH) are within the charger range of this power supply (7-18AH). ISpare Battery Capacity 4.98 Battery Selection AH - Secondary Load Requirements AH Secondary Standby Load 1.87 ISecondary Standby Load AH ' Derating Factor ISeconclary Alarm Load 1 0.14 ISeconclary Alarm Load AH ` Derating Factor Page 4 of 4 Shows amp -hour distribution of your selections. Secondary Alarm Load 8% ■ Spare Battery Capacity ■ Secondary Standby Load ■Secondary Alarm Load Comments 1. Batteries will fit in the FACP cabinet. 2. Selected battery size meets secondary load requirements. 3. The selected batteries (7AH) are within the charger range of this power supply (7-1 BAH). Spare Battery Capacity 3.70!Battery Selection AH - Secondary Load Requirements AH ISecondary Standby Load 2.71 ISecondary Standby Load AH ' Derating Factor ISecondary Alarm Load 1 0.59 ISecondary Alarm Load (AH) ` Derating Factor r� MOTIFIER° System Current raw. , b Hon ell Select devices using the "Qty" column. Use yellow cells to enter quantities and current values. C1 0.120 A To show only selected devices, select "Show Selected Devices". C2 5.895 A To clear selected devices, select "Clear Selections". C3 0.094 A Device City Draw I Non -Alarm I QI Dr_aw___FAT[am::) I �Qty I I �Draw I N!on-Alarm 1. System Modules FCPS-24S8 Main Circuit Board 1 x 0.09100 0.09100 1 x 0.14500 0,14500 1 x 0.06500 0.06600 AuxiliaryIDWI;es powerdrswn from Ma 10 0 x 0.00000 0 x 0.00000 0 x 0.00000 Power supervision Relay 0 x 0.02500 0 x 0.02500 0 x 0.02500 CHG-120 0 x 0.00000 0 x 0.00000 0 x 0.06000 Other compatible devices 0 x 0.00000 0 x 0.00000 0 x 0.00606 Other compatible device; 0 x ------0 0 z 0.00000 0 x 0.00000 2. Notification Appliances SWL15 2 x 0.00000 0.00000 2 x 0.04300 0.08600 2 x 0.00000 0.00000 SWL30 0 x 0.00000 0 x 0.06300 0 x 0.00000 SWL185 2 x 0.00000 0.00000 2 x 0.22200 0.44400 2 x 0.00000 0.00000 P2WL15 0 x 0.00000 0 x 0.07300 0 x 0.00000 P2WL30 0 x 0.00000 0 x 0.09400 0 x 0.00000 P2WL75 0 x 0.00000 0 x 0.13900 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 o x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Notification Appliance 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Notification Appliance 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Notification Appliance 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Notification Appliance 0 x 0.00000 0 x 0.00000 0 x 0.00000 3. Initiating Device Circuits B20OS-WH 0 x 0.00050 0 x 0.03500 0 x 0.00050 B20OS-LF-WH 58 x 0.00050 0.02900 58 x 0.09000 5.22000 58 x 0.00050 0.02900 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0,00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.000,00 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 4. Intelligent Module IDC Circuit Draw FZM-1 IDC Cicuits 0 x 0.00000 0 x 0.09000 0 x 0.00000 XP6-MA IDC Circuits 0 x 0.00000 0 x 0.09000 0 x 0.00000 5. Intelligent Device Auxiliary Draw FCM-I-REL Aux. Power 0 x 0.00640 0 x 0.01000 0 x 0.00640 FMM-4-20 Aux. Power 0 x 0.01000 0 x 0.51000 0 x 0.01000 FSD-751 RPL Aux. Power 0 x 0.02600 0 x 0.08700 0 x 0.02600 0200SR Aux. Power, 0 x 0.00050 0 x 0.03500 0 x 0.00050 62005 (Aux. Power 0 x 0.00050 0 x 0 x 0.00050 rJ MOTIFIER° System Current Draw - . , by Honeywell Select devices using the "Qty" column. Use yellow cells to enter quantities and current values. C1 0.091 A To show only selected devices, select "Show Selected Devices". C2 0.849 A To clear selected devices, select "Clear Selections". C3 10.065 A 1. System Modules FCPS-24S8 Main Circuit Board 1 x 0.09100 0.09100 1 x 0.14500 0.14500 1 x 0.06500 0.06500 Auxiliary Devices power drawn from TBL9 and Ta4-10 0 x 0.00000 0 x 0.00000 0 % 0.00000 Power supervision Relay0 x 0.02500 0 x 0.02500 0 x 0.02500 CHG-120 0 x 0.00000 0 x 0.00000 0 x 0.06000 Other compatible devices 0 x 0.00000 0 x 0.00000 0 x 0.00000 Other compatible devices 0 x 0.00000 0 x 0.00000 0 x 0.00000 2. Notification Appliances SWL15 4 x 0.00000 0.00000 4 x 0.04300 0.17200 4 x 0.00000 0.00000 SWL30 0 x 0.00000 0 x 0.06300 0 x 0.00000 SWL185 0 x 0.00000 0 x 0.22200 0 x 0.00000 P2W1_15 6 x 0.00000 0M000 6 x 0.07300 0.43800 6 x 0.00000 0.00000 P2WL30 1 x 0.00000 0.00000 1 x 0.09400 0.09400 1 x 0.00000 0.00000 P2WL75 0 x 0.00000 0 x 0,13900 0 x 0,00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Notification Appliance 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Notification Appliance 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Notification Appliance 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Notification Appliance 0 x 0.00000 0 x 0.00000 0 x 0.00000 3. Initiating Device Circuits B20OS-WH 0 x 0.00050 0 x 0.03500 0 x 0.00050 B20OS-LF-WH 0 x 0.00050 0 x 0.14000 0 x 0.00050 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 1 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 1 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.0000" x 0.00000 0 x 0.00000 ADD InitiatingDevice 0 x 0.00000 x 0.00000 0 x 0.00000 ADD InitiatingDevice 0 x 0.00000 x 0.00000 0 x 0.00000 ADD InitiatingDevice 0 x 0.00000 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 01 x 0.00000 0 x 0.00000 4. Intelligent Module IDC Circuit Draw FZM-1 IDC Cicuits 0 x 0.00000 0 x 0.09000 0 x 0.00000 XP6-MA IDC Circuits 0 x 0.00000 0 x 0.09000 0 x 0.00000 5. Intelligent Device Auxiliary Draw FCM-I-REL Aux. Power) 0 x 0.00640 0 x 0.01000 0 x 0,00640 FMM-4-20 Aux. Power) 0 x 0.01000 0 x 0.51000 0 x 0.01000 FSD-751RPL Aux, Power 0 x 0.02600 0 x 0.08700 0 x 0.02600 B200SR Aux. Power 0 x 0.00050 0 x 0.03500 0 x 0.00050 B200S Aux. Power 0 x 0.00--- 0 x MkM1 0 x 0.00050 Page 3 of 4 Page 4 of 4 FA-17 CUT SHEETS & CALCULATIONS Other Device Drawing Aux. Power 0 1 x 0.00000 0 x 0.00000 0 1 x 0.00000 6. Addressable Devices Addressable Device 1 0 x 0.00000 0 x 0.00000 0 x 0.00000 Addressable Device 2 0 x 0.00000 0 x 0.00000 0 x 0.00000 Addressable Device 3 0 x 0.00000 0 x 0.00000 0 x 0.00000 Addressable Device 4 0 x 1 0.00000 0 x 0.00000 0 x 0.00000 Addressable Device t 0 x 0.00000 0 x 0,00000 0 x 0.00000 7. Compatible Devices not listed ADD Miscellaneous Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 Other compatible devices 0 x 0.00000 0 x 0.00000 0 x 0.00000 Total Non Alarm Load: 0.091 Total Alarm Load 0.849 Total Standby Load: 0.065 Other Device Drawing Aux. Power 0 x 0.00000 0 x 0.00000 0 x 0.00000 6. Addressable Devices Addressable Device 1 0 x 0.00000 0 x 0.00000 0 x 0.00000 Addressable Device 2 0 x 0.00000 0 x 0.00000 0 x 0.00000 Addressable Device 3 0 x 0.00000 0 x 0.00000 0 x 0.00000 Addressable Device 4 0 x 0.00000 0 x 0.00000 0 x 0.00000 Addressable Device: 0 x 0.00000 0 x 0.00000 0 x 0.00000 7. Compatible Devices not listed ADD Miscellaneous Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 Other compatible devices 0 x 0.00000 0 x 0.00000 0 x 0.00000 Total No Alarm Load: 0.106 Total Alarm Load 4.470 Total Standby 0.080 Load: QNOT F71RR' by Honeywell System Power Requirements FCPS-24s8 Power Supply Protected Premises. Bridge Park Block F Spring Hill Suites (NAC-E) Date. 11/11/2019 Address: 4475 BRIDGE PARK AVENUE City: DUBLIN State:OHIO Zip:43017 Prepared By: PDS SYSTEMS LLC Phone: 614-291-8629 Address: 1198 OLD HENDERSON ROAD Email: City: COLUMBUS State:OHIO Zip:43220 AC Branch Current Requirements 3.20 AMPS @ 120 VAC Current required by source to power the fire alarm system. Primary Standby Load 0.09 Amps Current load on the primary power supply during non -alarm conditions. Primary Alarm Load 0.85 Amps Current load on the primary power supply during alarm conditions. Secondary Load Requirements 1.96 Amp Hours Total Secondary Load from the calculation table below. Current Draw Time (hours) 'Total(AH) Secondary Standby Load Required Standby Time 0.065 A x 24 hours 1.56 Secondary Alarm Load Required Alarm Time hours 0.849 A X 0.084 hours 0.07 Total Secondary Load 1.63 Derating factor x 1.2 Secondary Load Requirements 1.96 AH Battery Selection �7 Amp Hours Select batteries from the list below. 7 AH BAT-1270 Battery 12 volt t7Two ❑Four (two 12VDC sets in parallel) Page 3 of 4 ,OR System Power Requirements FCPS-24s8 Power Supply Protected Premises: Bridge Park Block F Spring Hill Suites (NAC-F) Date: 11/11/2019 Address: 4475 BRIDGE PARK AVENUE City: DUBLIN State:OHIO Zip:43017 Prepared By: PDS SYSTEMS LLC Phone: 614-291-8629 Address: 1198 OLD HENDERSON ROAD Email: City: COLUMBUS State:OHIO Zip:43220 AC Branch Current Requirements 3.20 AMPS @ 120 VAC Current required by source to power the fire alarm system. Primary Standby Load 0.11 Amps Current load on the primary power supply during non -alarm conditions. Primary Alarm Load 4.47 Amps Current load on the primary power supply during alarm conditions. Secondary Load Requirements 2.74 Amp Hours Total Secondary Load from the calculation table below. Current Draw Time (hours) Total (AH) Secondary Standby Load Required StandbyTime 0.080 A x 24 hours 1.91 Secondary Alarm Load Required Alarm Time (hours) 4.470 A x 0.084 hours 0.38 Total Secondary Load 2.28 Derating factor x 1.2 Secondary Load Requirements 2.74 JAH Battery Selection Amp Hours Select batteries from the list below. 7 AH BAT-1270 Battery 12 volt) ETWO ❑Four (two 12VDC sets in parallel) Battery Distribution Chart Shows amp -hour distribution of your selections. Secondary Alarm Load 1% Secondary Standby Lo 27% ■ Spare Battery Capacity ■ Secondary Standby Load ■SecondaryAlarm Load Comments 1. Batteries will fit in the FACP cabinet. 2. Selected battery size meets secondary load requirements. 3. The selected batteries (7AH) are within the charger range of this power supply (7-18AH). !Spare Battery Capacity 5.04 Battery Selection AH - Secondary Load Requirements AH Secondary Standby Load 1.87 Seconda Standby Load AH * Derating Factor SecondaryAlarm Load 1 0.09 1 Secondary Alarm Load AH ' Derating Factor Shows amp -hour distribution of your selections. Secondary Alarm Load 6% Secondary Standby Load 33% Page 4 of 4 ■ Spare Battery Capacity ■ Secondary Standby Load ■SecondaryAlarm Load Comments 1. Batteries will fit in the FACP cabinet. 2. Selected battery size meets secondary load requirements. 3. The selected batteries (7AH) are within the charger range of this power supply (7-18AH). ISpare Battery Capacity 4.26 Battery Selection AH - Secondary Load Requirements AH ISecondary Standby Load 2.29 ISeconclary Standby Load AH ' Derating Factor ISeronclary Alarm Load 1 0.45 ISecondary Alarm Load AH * Derating Factor rJ NOT/FIER' System . , by Honeywell Select devices using the "Qty" column. Use yellow cells to enter quantities and current values. To show only selected devices, select "Show Selected Devices". To clear selected devices, select "Clear Selections". M Device City r city Draw Alarm.MOK17P 1. System Modules FCPS-24S8 Main Circuit Board 1 x 0.09100 0.09100 1 x 0.14500 0.14500 1 x 0.06500 0.06500 Auxiliary Devices power drawn from Tea-9 and Tao-10 C x 0-00000 0 x 0.00000 0 x 0.00000 Power Supervision Relay 0 x 0.02500 0 x 0.02500 0 x 0.02500 CHG-120 0 x 0.00000 0 x 0.00000 0 x 0.06000 Other compatible devices 0 x 0.005002 0 x 0,00000 0 x 0.00000 Other compatible device: 0 x 0.00000 0 x 0.00000 0 x 0.00000 2. Notificatlon Appliances SWL15 1 x 0.00000 0.00000 1 x 0.04300 0.04300 1 x 0.00000 0.00000 SWL30 0 x 0.00000 0 x 0.06300 0 x 0.00000 SWL185 1 x 0,00000 0.00000 1 x 0.22200 0.22200 1 x 0.00000 0.00000 P2WL15 0 x 0.00000 0 x 0.07300 0 x 0.00000 P2WL30 0 x 0.00000 0 x 0.09400 0 x 0.00000 P2WL75 0 x 0.00000 0 x 0.13900 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0.00000 0 x 0,00000 o x 0.00000 ADD Notification Appliance 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Notification Appliance 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Notification Appliance 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Notification Appliance 0 x 0.00000 0 x 0.00000 0 x 0.00000 3. Initiating Device Circuits B20OS-WH 0 x 0.00050 0 x 0.03500 0 x 0.00060 B20OS-LF-WH 29 x 0.00050 0.01450 29 x 0.14000 4.06000 29 x 0.00050 0.01450 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 T x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD InitiatingDevice 0 x 0.00000 0 x 0.00000 0 x 0.002000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0,00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 ADD Initiating Device 0 x 0.00000 0 x 0.00000 0 x 0.00000 4. Intelligent Module IDC Circuit Draw FZM-1 IDC Cicuits 0 x 0.00000 0 x 0.09000 0 x 0.00000 XP6-MA IDC Circuits 0 x 0.00000 0 x 1 0.09000 1 0 1 x 0.00000 5. Intelligent Device Auxilia Draw FCM-I-REL Aux. Power 0 x 0.00640 0 x 0.01000 0 x 0.00640 FMM-4-20 Aux. Power 0 x 0.01000 0 x 0.51000 0 x 0,01000 FSD-751 RPL Aux. Power 0 x 0.02600 0 x 0.08700 0 x 0.02600 B200SR Aux. Power 0 x 0.00050 0 x 0.03500 0 x 0.00050 B200S Aux. Power 0 x 0.00--- 0 x 0 x 0.000:0 FACP - Voltage Drop Circuit Number Multiplier Wire Gauge Multiplier Cummt Draw of Devices Multiplier Total start End Always 2 Length of Wire 18 Gauge = 7.77 114 Always 1000 Voltage Voltage Voltage 16 Gauge = 4.89 Drop Gauge = 3.07 FACP NAC #1 2 0 3.07 0 1000 0.00 20.40 20.40 FACP NAC #2 2 0 3.07 0 1000 0.00 20.40 20.40 FACP NAC #3 2 0 3.07 0 1000 0.00 20.40 20.40 FACP NAC #4 2 6 3.07 0 1000 0.00 20.40 20.40 FACP NAC #5 2 431 3.07 0.568 1000 1.50 21.40 19.90 FACP NAC #6 2 448 3.07 0.63 1000 1.73 22.40 20.67 FACP NAC #7 2 378 3.07 0.485 1000 1.13 23.40 22.27 FACP NAC #6 2 294 3.07 0.337 1000 0.61 24.40 23.79 Page 3 of 4 Page 4 of 4 FA-18 CUT SHEETS & CALCULATIONS NAC-A - Voltage Drop Circuit Number Multiplier Wire Gauge Multiplier Current Draw of Devices Multiplier Total Start End Always 2 Length of Wire 18 Gauge = 7.77 Always 1000 Voltage Voltage Voltage 16 Gauge = 4.89 Drop 14 Gauge 3.07 NAC-A#1 21 445 3271i 0.5271i10001i 1.441 20.40 18.96 NAC-A #2 21 4211 3.07 ]JAMI 1uuul I.Zfl 20.40 19.13 NAC-A #3 21 3981 3.071 0.1751 10oul 0.431 20.40 19.97 NAC-A #4 21 01 3.071 01 10001 0.00 20.40 2040. NAC-E - Voltage Drop Circuit Number Multiplier Wire Gauge Multiplier Current Dmw of Devices Multiplier Total Start End Always 2 Length of Wire 18 Gauge = 7,77 Always 1000 Voltage Voltage Voltage 16 Gauge = 4.89 114 Drop Gauge 3.07 NAC-E #1 1 2 4091 3.ufil 0.484 luuul 1.22 20.40 19.18 NAC-E #2 21 01 3.u[j 0 I luoul u.uul 20.40 20.40 NAC-E #3 21 01 1071 01 10001 0.001 20.40 20.40 NAC-E #4 1 21 of 3.071 01 luoul 0.001 20.40 20.40 NAC-B - Voltage Drop Circuit Number Multiplier I Wire Gauge Multiplier Current Draw of Devices Multiplier Total Start End Always 2 Length of Wire 18 Gauge = 7.77 Always 1000 Voltage Voltage Voltage 16 Gauge = 4.89 114 Drop Gauge = 3.07 NAC-B #1 2 li 421 ji 3.u1 I.Zbl 100ul 3.2bl 20.40 17.14 NAG-B 92 21 4681 3.Utl 1.zbl 1000 ;3.bzl 2U.401 16.78 NAC-13 #3 21 4761 3.071 1.261 10001 3.681 20.401 16.72 NAC-B #4 1 21 4021 3.071 1,261 10001 3.111 20.401 17.29 NAC-F - Voltage Drop Circuit Number Multiplier Wire Gauge Multiplier Current Draw of Devices Multiplier Total Start End Always 2 Length of Wire 18 Gauge = 7.77 Always 1000 Voltage Voltage Voltage 16 Gauge = 4.89 114 Drop Gauge = 3.07 NAC-F #1 2 348 3.07 1.26 1000 2.69 20.40 17.71 NAC-F #2 2 376 3.07 1.26 1000 2.91 20.40 17.49 NAC-F #3 1 21 01 3.071 01 1000 0.00 20.401 20.40 NAC-F #4 1 21 0 3.071 01 1000 0.00 20.401 20.40 NAC-C - Voltage Drop Circuit Number Multiplier Wire Gauge Multiplier Current Draw of Devices Multiplier Total Start End Always 2 Length of Wire 18 Gauge = 7.77 Always 1000 Voltage Voltage Voltage 16 Gauge = 4.89 114 Drop Gauge 3.07 NAC-C #1 2 ji 3bzl 3.0(1 U.484l iuuul I.Ubl 20.40 19.32 NAC-U #2 21 35/1 3.ull U.4641 iuuul 1.1bl 20.40 19.25 NAG-C #3 1 21 01 3.071 01 10001 0.001 20,40 20.40 NAC-C #4 1 21 01 3.071 al 10001 0.001 20.401 20.40 NAC-D - Voltage Drop Circuit Number Multiplier Wire Gauge Multiplier lCument Draw of Devices Multiplier Total Start End Always 2 Length of Wire 18 Gauge - 7.77 Always 1000 Voltage Voltage Voltage 16 Gauge = 4.89 Drop 14 Gauge = 3.07 NAC-D #1 1 21 421 3.07 1.261 1000 1 3.251 20.40 17.14 NA(;-D 92 21 4581 3.07 1.26 10001 3,621 20.40 16.78 NAC-D #3 21 4761 3.071 1.261 10001 3,681 20.40 16.72 [NAG-D #4 1 21 4021 3,U71 1.261 10001 3111 2040. 17.29 FA-19 ,r_ , ;,, . � , '�