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07201675 Permit File
Of rC& CIT OF DUBLIN RECN Ei Building Standards - 6800 Shier-Rings Road - Dublin, V " Phone: (614) 410-4670'- Inspection Line: (614) 4101-4680 DEC O 6 2007 DEC 0 6 2007 WTFD: (614) 889-2347 °,CCture CITY OF F DIVISION FIRE PROTECTION PERMIT APPLICATION - ' Application Date W ° Bldg. App. # h - ` Fire Protection App. # PROJECT INFORMATION Project Address - ~c- Project Name 9SM Z Lt~G~ 1-'ri?~ r, Owner/Tenant Contact Name - - -Telephone ~4 -~J,) APPLICANT INFORMATION Fire Protection Contractor Address CA-1S ,oNcu-)rCN-- Telephone Gfc,2--Z X--_,CD State Certificate Number FP53,a`~tt \ -Dublin Registration Number cii -11S 3 Installer Name-'-'S„<,~; State Certificate Number SCOPE OF WORK (Mark One) New Replace Repair Alteration FIRE DETECTION AND ALARM SYSTEM (Number of Each) Detectors Strobes Horns Fire Alarm Boxes Other SUPPRESSION SYSTEM (Number of Each) Standpipes On Site Water Piping Sprinkler Heads Limited Area Other a,-sA im Sys. FEES FIRE DETECTION OR SUPPRESSION PERMIT PROCESSING FEE LOW VOLTAGE PERMIT (DETECTION ONLY) $30.00 Minimum fee plus $20.00 each 1,000 sq ft or fraction thereof over 1,000 sq ft OUTSIDE PLAN REVIEW SERVICES (EXAMINER'S FEE AS CHARGED) 3,30'' 0G3 STATE SURCHARGE (3%) 11 ' TOTAL FEE DUE Q . ao This permit is granted on the express condition that said work shall in all respects, conform to the ordinances of the City of Dublin and all laws of the State of Ohio regulating construction, installation, repair and alteration, and may be revoked at any time upon violation of any provisions of said laws. This permit conveys no right to open any street, alley or sidewalk or any part thereof, nor to make any connection to a water main. Signature of Licensed Contractor DATE FOR OFFICIAL USE ONLY Review Comments: /h~ i~ rf'ss -Sys f- '/7 rr w s h " fe -0fa c> c~c~i he Fire Department: c; All;?1sh91 Date: / /3' l Plans Examiner: Date: Issued by CBO: Date: 1 CITY OF DUBLIN Building Standards • 5800 tihier-Rings Road • Dublin, Ohio 43016 Phone: (614) 410-4670 • Inspection Line: (614) 410-4680 Application Number . . . . . 07-00201675 Date 12/18/07 Property Address . . . . . . 6165 EMERALD PKY Parcel Number: 273-004511 Alternate Address: BMI FCU Tenant nbr, name . . . . . . BMI CREDIT UNION SUPPRESS Application type description FIRE PROTECTION Application desc suppression - 2 - sapphire eng systems Property owner . . . . . . . EMERALD ARC, LLC Contractor . . . . . . . . . SIMPLEX GRINNELL Permit . . . . . . FIRE SUPPRESSION PERMIT Additional desc . . Permit Fee . . . . 60.00 Plan Check Fee .00 Issue Date . . . . Valuation . . . . 0 Qty Unit Charge Per Extension BASE FEE 60.00 Special Notes and Comments CONTACT WASHINGTON TOWNSHIP FIRE PREVENTION FOR INSPECTIONS AT 766-0857 Other Fees . . . . . . . . . OUTSIDE PLAN REVIEW 330.00 SURCHARGE FEE - BLDG 9.90 SURCHARGE FEE - FIRE 1.80 Fee summary Charged Paid Credited Due Permit Fee Total 60.00 .00 .00 60.00 Plan Check Total .00 .00 .00 .00 Other Fee Total 341.70 .00 .00 341.70 Grand Total 401.70 .00 .00 401.70 This permit is granted on the express condition that said work shall in all respects, conform to the ordinances of the City of Dublin and all laws of the State of Ohio regulating construction, installation, repair and alteration and may be revoked at any time upon violation of any provisions of law. CITY OF DUBLIN Building Standards - 5800 ShierrRings Road - Dublin, Ohio 43016 Phone: (614) 410-4670 - Inspection Line: (614) 410-4680 Application #07-201675 December 14, 2007 NONCONFORMANCE PLAN APPROVAL SAPPHIRE CLEAN AGENT FIRE SUPPRESSION SYSTEM ONLY THIS IS NOT A BUILDING PERMIT. IT IS A RECORD OF OUR REVIEW OF DOCUMENTS SUBMITTED WITH YOUR APPLICATION FOR A BUILDING PERMIT. Re: BMI Federal Credit Union Applicant: Simplex Grinnell, (614) 602-2000 6165 Emerald Parkway Fire Protection Permit No: 07-201675 The Fire Protection System documents dated November 19, 2007, as submitted with the Fire Protection Permit Application for the captioned project, have been reviewed for compliance with the provisions of the 2007 Ohio Building Code (OBC). The review was based upon the following criteria: Use Group: Existing Computer Rooms Occupancy: Existing, No Change Area: Existing, No Change Const. Type: II B, Noncombustible / Unprotected Construction Notes: Install a new Sapphire Fire Suppression System to protect an existing Computer Room and subfloor, as well as the PC Workroom. Existing building automatic fire suppression (NFPA 13) system to remain in operation, where installed. The Fire Suppression Drawings have NOT been Certified or Signed by the individual with the initials (SEPP) who is identified as the "Designer" of the system. The Contractor is Simplex Grinnell, State Certification #53-25-1041, and the Installer has been identified as Justin Pickett, State Certification #54- 80-1050, all to comply with the requirements of OBC Section 105.3 and have been reviewed, therefore, in accord with OBC section 105.3.1.4. This NONCONFORMANCE PLAN APPROVAL is issued by the City of Dublin, Division of Building Standards, in accordance with Section 106.3.1.1 OBC. The building official may approve construction documents which do not conform with the requirements of the rules of the board when such nonconformance is not considered to result in serious hazard and the owner's representative subsequently submits revised constriction documents showing evidence of compliance with the applicable rules. In the event such documents are not received within thirty days, the building official shall issue an adjudication order revoking the plan approval. (Emphasis Added) The final date for submission of revised documents with the following item(s) in full compliance with the OBC is January 2, 2008 as a condition of the issuance of this Plan Approval. Part I of this notice serves as a Correction Letter, allowing you to resubmit revised plans and/or additional information as noted. City of Dublin FIRE PROTECTION PLAN REVIEW 07-201.675 BMI Federal Credit Union December 14, 2007 Application #07-201675 Page 2 PART L CORRECTION LETTER The following item(s) shall be brought into full conformance with the 2007 OBC prior to the issuance of final plan approval. 1. OBC 105.3.1.4 Automatic fire protection system construction documents. Construction documents for fire protection systems shall: When submitted under the signature of an individual certified under Section 3781.105 of the Revised Code, be processed in the same manner as construction documents submitted under the signature of a registered design professional. Any statistical data, reports, explanations, plan description, or information that would not also be required for a similar submission by a registered design professional need not be submitted by a certified designer. Please verify. Who is the individual responsible for the "Design " of this fire protection system? The drawings did not indicate by Signature or by Certification Number, who this individual is. Please submit information on the individual Certified under Section 3781.105 of the Revised Code who is responsible for the "Design" of this Fire Suppression System. The Systems Designer shall hold a Certification pursuant to the Ohio Board of Building Standards (Section 3781.105) or be a registered design professional possessing the proper technical training andior experience in the engineering of such fire protection systems. Information received with this application was not clear on this. The bottom corner of the Title Block indicates that the Designer is; ` SEPP. " Please provide the proper credentials for this individual so that we may continue our review of this application. For the information of the Applicant the following item(s) are required for code compliance, but are not necessarily covered in detail in the construction documents This list is a reminder to the design professional and contractors of issues which are to be satisfactorily dealt with in the field: 2. A set of construction documents which have been approved under section 105 of the OBC shall be kept at the site of the work and shall be available for reference by the building official at all rimes during working hours while such work is in progress; Section 109 OBC. 3. The certificate of approval of fire protection plans shall be posted in a conspicuous location outside of the building or in the front part of the premises on which is, or will be, located the approved building or equipment. The owner and the contractor shall, so far as possible, preserve and keep said certificate until the completion of the work to which the approved construction documents relate; Section 105.7.2 OBC. 4. OBC 901.5 Acceptance tests: All fire protection systems shall be tested in accordance with the requirements of this code and the fire prevention code. When required, the tests shall be conducted in the presence of the code official. All tests required by this code and the standards listed in this code shall be conducted at the expense of the owner or the owner's representative. It shall be unlawful to occupy portions of a structure until the required fire protection systems within that portion of the structure have been tested and approved. 5. OBC 904.10 Clean-agent systems. Clean-agent fire-extinguishing systems shall be installed, maintained, periodically inspected and tested in accordance with NFPA 2001 and their listing. City of Dublin FIRE PROTECTION PLAN REVIEW 07-201675 BMI Federal Credit Union December 14, 2007 Application #07-201675 Page 3 6. Upon completion of the fire protective signaling system, all alarm-initiating devices and circuits, alarm-indicating appliances and circuits, supervisory-signal initiating devices and circuits, signaling line circuits, and primary and secondary power supplies shall be subjected to a 100 percent acceptance test in accordance with NFPA 72A and 72E listed in Chapter 35; Section 907.16 OBC. 7. OBC 907 Acceptance testing: When the installation of the detectors is complete, each detector and all interconnecting wiring for multiple-station detectors shall be subject to a 100-percent acceptance test in accordance with the household fire warning equipment provisions of NFPA 72 listed in Chapter 35. 8. No electrical work (conduits, cables or other electrical apparatus) may be covered or concealed without visual inspection and approval by the electrical field inspector as per OBC 109. 9. The existing electrical conductors, if removed, abandoned, or altered, shall be accomplished to the electrical field inspectors approval pursuant to the requirements of Section 109 OBC. Electrical work found not to meet the code's standards shall be corrected to the electrical field inspector's approval. 10. All electrical work will comply with the requirements of Article 27 OBC and the National Electric Code NFPA 70, OBC approved edition and is subject to the approval of the electrical inspector, in accordance with Section 109 of the OBC. TO REQUEST AN APPEAL HEARING, YOU MUST send a written request, listing the items to be appealed and the relief sought and on copy of this order to: Jeffrey S. Tyler, Chief Building Official City of Dublin, Ohio 5800 Shier Rings Road Dublin, Ohio 43017-1236 Reviewed and signed, Michael A. Boryca, Architect/Pl s Examiner J ey . Ty , Chief Building Official (614) 488-4009 ity of D bl' Ohio Signature - Archite, Engmeer, retractor Date or Owner } L • lie-~~~ Print Name and Title as Signed c: Washington Township Fire Department City of Dublin FIRE PROTECTION PLAN REVIEW 07-201675 architecture! memorandum invoice #07-201675 -1 OHIO INCORPORATED 454 East Main Street Suite 236 Columbus, Ohio 43215-5380 614.488.4009 fax.488.4005 December 14, 2007 City of Dublin Contract No. PS 01-21-13 Employer Identification No. 31-1413248 City of Dublin Division of Building Standards 5800 Shier-Rings Road Dublin, Ohio 43016 Attention: Mr. Jeffrey S. Tyler, Chief Building Official Plan Review Services for: BMI Federal Credit Union - Computer Room & PC Workroom Sapphire Clean Agent Fire Suppression System 6165 Emerald Parkway NONCONFORMANCE APPROVAL Permit No. 07-201675 Labor Cost: Total Number of Hours to be Charged @ $60.00/Hour: 5.5 • Review Time: 4.0 • Administration Time: 1.5 TOTAL BILLING THIS INVOICE $330.00 This memorandum invoice is being sent as reference for you to prepare the necessary fees for the applicant to pay. The time spent on this review will be submitted for payment at the end of the month with our usual invoicing. Should you have any questions or comments concerning this review, please don't hesitate to contact me. Thank you for the opportunity to be of service. Cordially, architecture Michael A. Boryca, Architect Plans Examiner 4P001794 CITY OF DUBLIN RECEiW Building Standards • 5800 Shier-Rings Road • Dublin, Ohio 43016 Phone: (614) 410-4670 • Inspection Line: (614) 410-4680 DEC 0 6 2007 WTFD: (614) 889-2347 BUILDING DUBLIN DIVISION Q FIRE PROTECTION PERMIT APPLICATION Application Date "~-GwT -Bldg. Fire Protection App. #I~ App. PROJECT INFORMATION Project Address 1c Project Name sec U V~tfa k, Owner/Tenant Contact Name z - -Telephone N'LA -~J~s APPLICANT INFORMATION Fire Protection Contractor 5~ rv• OAS Address (olIS 5` w,~cex O Telephone (.NA -taba- CD State Certificate Number cc~ca1iC1'~ Dublin Registration Number c;i -l Installer State Certificate Number .54-w, loso SCOPE OF WORK (Mark One) New Replace Repair Alteration FIRE DETECTION AND ALARM SYSTEM (Number of Each) Detectors Strobes Horns Fire Alarm Boxes Other SUPPRESSION SYSTEM (Number of Each) Standpipes On Site Water Piping Sprinkler Heads Limited Area Other"M a.-sA sec ~9. Sys. FEES FIRE DETECTION OR SUPPRESSION PERMIT PROCESSING FEE $50.00 LOW VOLTAGE PERMIT (DETECTION ONLY) $30.00 Minimum fee plus $20.00 each 1,000 sq ft or fraction thereof over 1,000 sq ft OUTSIDE PLAN REVIEW SERVICES (EXAMINER'S FEE AS CHARGED) STATE SURCHARGE (3%) TOTAL FEE DUE This permit is granted on the express condition that said work shall in all respects, conform to the ordinances of the City of Dublin and all laws of the State of Ohio regulating construction, installation, repair and alteration, and may be revoked at any time upon violation of any provisions of said laws. This permit conveys no right to open any street, alley or sidewalk or any part thereof, nor to make any connection to a water main. Signature of Licensed Contractor DATE f 2Z5d~? FOR OFFICIAL USE ONLY Review Comments: Fire Department: Date: Plans Examiner: Date: Issued by CBO: Date: . C effl ce CITY OF DUBLIN Building Standards - 5800 Shier-Rings Road - Dublin, Ohio 43016 Phone: (614) 410-4670 - Inspection Line: (614) 410-4680 Application #07-201675(1) April 16, 2008 PLAN APPROVAL SAPPHIRE CLEAN AGENT FIRE SUPPRESSION SYSTEM ONLY THIS IS NOT A BUILDING PERMIT. IT IS A RECORD OF OUR REVIEW OF DOCUMENTS SUBMITTED WITH YOUR APPLICATION FOR A BUILDING PERMIT. Re: BMI Federal Credit Union Applicant: Simplex Grinnell, (614) 602-2000 6165 Emerald Parkway Fire Protection Permit No: 07-201675(1) The Revised Fire Protection Designer Certification Information received via e-mail on 4/16/08, as submitted with the Fire Protection Permit Application for the captioned project, have been reviewed for compliance with the provisions of the 2007 Ohio Building Code (OBC). The review was based upon the following criteria: Use Group: Existing Computer Rooms Occupancy: Existing, No Change Area: Existing, No Change Const. Type: II B, Noncombustible / Unprotected Construction Notes: Install a new Sapphire Fire Suppression System to protect an existing Computer Room and subfloor, as well as the PC Workroom. Existing building automatic fire suppression (NFPA 13) system to remain in operation, where installed. The Fire Suppression Drawings have been signed and certified by Mark Bayless, Ohio Certification 454- 25-3428. The Contractor is Simplex Grinnell, State Certification #53-25-1041, and the Installer has been identified as Justin Pickett, State Certification 454-80-1050, all to comply with the requirements of OBC Section 105.3 and have been reviewed, therefore, in accord with OBC section 105.3.1.4. This FIRE PROTECTION PLAN APPROVAL for the automatic fire suppression system only, is issued by the City of Dublin, Division of Building Standards, in accordance with Section 106.3.1.1 OBC. For the information of the Applicant the following item(s) are required for code compliance, but are not necessarily covered in detail in the construction documents This list is a reminder to the design professional and contractors of issues which are to be satisfactorily dealt with in the field: 1. A set of construction documents which have been approved under section 105 of the OBC shall be kept at the site of the work and shall be available for reference by the building official at all times during working hours while such work is in progress; Section 109 OBC. 2. The certificate of approval of fire protection plans shall be posted in a conspicuous location outside of the building or in the front part of the premises on which is, or will be, located the approved building or equipment. The owner and the contractor shall, so far as possible, preserve and keep said City of Dublin FIRE PROTECTION PLAN REVIEW 07-201675(1) BMI Federal Credit Union April 16, 2008 Application #07-201675(1) Page 2 certificate until the completion of the work to which the approved construction documents relate; Section 105.7.2 OBC. 3. OBC 901.5 Acceptance tests: All fire protection systems shall be tested in accordance with the requirements of this code and the fire prevention code. When required, the tests shall be conducted in the presence of the code official. All tests required by this code and the standards listed in this code shall be conducted at the expense of the owner or the owner's representative. It shall be unlawful to occupy portions of a structure until the required fire protection systems within that portion of the structure have been tested and approved. 4. OBC 904.10 Clean-agent systems. Clean-agent fire-extinguishing systems shall be installed, maintained, periodically inspected and tested in accordance with NFPA 2001 and their listing. 5. Upon completion of the fire protective signaling system, all alarm-initiating devices and circuits, alarm-indicating appliances and circuits, supervisory-signal initiating devices and circuits, signaling line circuits, and primary and secondary power supplies shall be subjected to a 100 percent acceptance test in accordance with NFPA 72A and 72E listed in Chapter 35; Section 907.16 OBC. 6. OBC 907 Acceptance testing: When the installation of the detectors is complete, each detector and all interconnecting wiring for multiple-station detectors shall be subject to a 100-percent acceptance test in accordance with the household fire warning equipment provisions of NFPA 72 listed in Chapter 35. 7. No electrical work (conduits, cables or other electrical apparatus) may be covered or concealed without visual inspection and approval by the electrical field inspector as per OBC 109. 8. The existing electrical conductors, if removed, abandoned, or altered, shall be accomplished to the electrical field inspectors approval pursuant to the requirements of Section 109 OBC. Electrical work found not to meet the code's standards shall be corrected to the electrical field inspector's approval. 9. All electrical work will comply with the requirements of Article 27 OBC and the National Electric Code NFPA 70, OBC approved edition and is subject to the approval of the electrical inspector, in accordance with Section 109 of the OBC. TO REQUEST AN APPEAL HEARING, YOU MUST send a written request, listing the items to be appealed and the relief sought and on copy of this order to: Jeffrey S. Tyler, Chief Building Official City of Dublin, Ohio 5800 Shier Rings Road Dublin, Ohio 43017-1236 Reviewed and signed, r ~ reC chael A. Boryca Arcs Examiner J e T uilding Official Mi (614) 488-4009 City Y of D City of Dublin FIRE PROTECTION PLAN REVIEW 07-201675(1) BMI Federal Credit Union April 16, 2008 Application #07-201675(1) Page 3 Signature - Arc tect ngineer, Co tractor Date or Owner Print Name and Title as Signed c: Washington Township Fire Department City of Dublin FIRE PROTECTION PLAN REVIEW 07-201675(1) CITY OF DUBLIN Building Standards - 5800 Shier-Rings Road - Dublin, Ohio 43016 Phone: (614) 410-4670 - Inspection Line: (614) 410-4680 Application Number . . . . . 07-00201675 Date 4/18/08 Revision number . . . . . . . 1 Property Address . . . . . . 6165 EMERALD PKY Parcel Number: 273-004511 Alternate Address: BMI FCU Tenant nbr, name . . . . . . BMI CREDIT UNION SUPPRESS Application type description FIRE PROTECTION Application desc suppression - 2 - sapphire eng systems Property owner . . . . . . . EMERALD ARC, LLC Contractor . . . . . . . . . SIMPLEX GRINNELL Permit . . . . . . FIRE SUPPRESSION PERMIT Additional desc . . Permit Fee . . . . 60.00 Plan Check Fee .00 Issue Date . . . . 1/29/08 Valuation . . . . 0 Qty Unit Charge Per Extension BASE FEE 60.00 Special Notes and Comments CONTACT WASHINGTON TOWNSHIP FIRE PREVENTION FOR INSPECTIONS AT 766-0857 Other Fees . . . . . . . . . OUTSIDE PLAN REVIEW 450.00 SURCHARGE FEE - BLDG 13.50 SURCHARGE FEE - FIRE 1.80 Fee summary Charged Paid Credited Due Permit Fee Total 60.00 60.00 .00 .00 Plan Check Total .00 .00 .00 .00 Other Fee Total 465.30 341.70 .00 123.60 Grand Total 525.30 401.70 .00 123.60 This permit is granted on the express condition that said work shall in all respects, conform to the ordinances of the City of Dublin and all laws of the State of Ohio regulating construction, installation, repair and alteration and may be revoked at any time upon violation of any provisions of law. 03/19/2008 WED 13;33 FAX 6146022041 SimpleiGrinnell Sales 0001/002 t[~CO SlmpltxCrinnell L,P - branch #583 6175 Aamraak Ct Suile S Fire & Duh/in, OH 43016 Security Phone: (614)-602-2000 SimpiexGo inne/I Fax: (614)-602-2040 www. simplexgririttell. cone TeleFax Transmission nisfacslmde uansmissien maycantain cai idential med/oratramey/c1tent privileged informmian helangit; to tie ccnder, 'llris lrtforniation is intended oniyfor the rear of /he indivi&w1 ur enlily nanw-don this trannniawon shret. /Jym are tw the i wn*d recipient, or the a nployrc or agent responsibk to the intended recipient, you should morn to sender Immediately. YYou are hereby noti eirl thal arty diaeloavru, copying, die ribution or du taking of airy actinn in relfm m on the CoffWW of this telecopW Wkurwww is orkdy 24/7 Emergency Service Date IS-1Q - 01 • Fire Sprinkler Systems Cwnpmry • Fire Detection & Alarm Attention W\ - 9or.{C q- u06 • Fire F.xtingnisHors F- No' L\ 16% • Range I lood Systems From • Special I1asard Systems Subjca tJdv, Gav~~ew~ahCe•• ~~o~v. ~QProv~ \ • Integrated Security No. ofpaRes Applications (mcldft rbls ow) • Healthcare Systems • Sound & Communications • Time & Workforce Management • Emergency Lighting • System Design & Installation • Project Management c.( h J Vv,- ~0 1 `tom V d Q -j (S- • Inspe lion & Testing J • Preventive Maintenance Over 150 offices in prenipal ~'tiG S cities ttuoughout North America. For marketing brochures regarding SimplcxCirinuell t!J?v~ systems and scrvicc.% call 1-800-746-7539. RE C :IvED APR 16 2008 arc nofeciure! 04/11/2008 FRl 16;45 FAX 6146022041 SinplexGrinnell Sales X001/002 tgan SimplexGrinne# LP 6175 Shamrock Court Fire & Suite S Security Columbus, Ohio 43016 614602-2000 Simp/eWRIM00011 614-602-2011 Fax www.sknpfexgrirrre#.com TeleFax Transmission This faWmil6 transmission may contain confidential andror attomeyldleni privileged Information bekwoM to the sander: TN* indor wbw is intended a* for the use of the individual or er&ly named on this Vansmisson shoat. If you are not the irdmmtd mWent, or the employee or agent responsible Jo the Into Wd mWent you should ralum to sender imme&ately, You are hereby noWed that any dlsdosure, cgcy*V. dfstiib~ or the wong of any action in raltancs on the r Bents of this ft*cooiad it f rmsnon is strictiv orahiblted. 2407 Emergency Service Date April 11, 2008 • Fire Sprinkler Systems Company • Fire Detection & Alarm Attention Mike Boryca • Fire Extinguishers • Range Hood Systems Fax No. 488-4005 • Special Hazard Systems From Tom Wood • Integrated Security Subject Info for drawings Applications ¦ Healthcare Systems ND- ofPsges (mdudW this one) 'L . Sound & Communications Mike, • Time & Workforce Here is information from the guy that dues our drawings- This is in regards to the BMI job. Management The permit # is 07-201675 • Emergency Lighting • System Design & Installation Thanks, • Project Management Thomas G. Wood Jr. • Inspection & Testing Suppression Manager . Preventive Maintenance SimplexGrinnell LLP Direct:614-602-0465 Fax:614-602 2011 Over 150 offices in principal cities throughout North America. For marketing brochures regarding SimplexGrinnell systems and services, I 5Y z5 3tiZg - - - l i i REC} - APR 16 2008 - arcnaecturel- tH ci~Kx rco I i I{ 03/19/2008 ABED 13;33 FAX 6146022041 SimplexGrinnell Sales 0002/002 CITY OF DUBLIN Building Standards • 5800 Shier-Rings Road • Dublin, Ohio 43016 Phone: (614) 410-4670 • Inspection Line: (614) 410-4680 Application X107-201675 December 14, 2007 NONCONFORMANCE PLAN APPROVAL SAPPHIRE CLEAN AGENT FIRE SUPPRESSION SYSTEM ONLY TPU IS NOT A BUILDING PERMIT. IT IS A RECORD OF OUR REVIEW OF DOCUMENTS SUBMITTED WITH YOUR APPLICATION FOR A BUILDING PERMIT. Re: BMI Federal Credit Union Applicant: Simplex Grinnell, (614) 602-2000 6165 Emerald Parkway Fire Protection Permit No: 07-201675 The Fire Protection System documents dated November 19, 2007, as submitted with the Fire Protection Permit Application for the captioned project, have been reviewed for compliance with the provisions of the 2007 Ohio Building Code .(OBC). The review was based upon the following criteria: Use Group: Existing Computer Rooms Occupancy: Existing, No Change Area: Existing, No Change COUSL TI pe: U B, Noncombustible / Unprotected Construction Notes: Install a new Sapphire Fire Suppression System to protect an existing Computer Room and subfloor, as well as the PC Workroom. Existing building automatic fire suppression (NFPA 13) system to remain in operation, where installed. The Fire Suppression Drawings have NOT been Certified or Signed by the individual with the initials (SEPP) who is identified as the "Designer" of the system. The Contractor is Simplex Grinnell., State Certification #53-25-1041, and the Installer has been identified as Justin Pickett, State Certification #54- 80-1050, all to comply with the requirements of OBC Section 105.3 and have been reviewed, therefore, in accord with OBC section 105.3.1.4. This NONCONFORMANCE PLAN APPROVAL is issued by the City of Dublin, Division of Building Standards, in accordance with Section 106.3.1.1 OBC. The building official may approve construction documents which do not conform with the requirements of the rules of the board when such nonconformance is not considered to result in serious hazard and the owner's mpeeseeteuve subsequently submits revised construction documents showing evidence of compliance with the applicable rules. In the eved such domments are not received wlthln thirty days, the brrlld/ng ofcud shill Issue an ad udlc& wa? order revoking the plan approval. (Emphasis Added) The final date for submission of revised documents with the following item(s) in full compliance with the OBC is January 2, 2008 as a condition of the issuance of this Plan Approval. Part I of this notice serves as a Correction Letter, allowing you to resubmit revised plans and/or additional infmi nation as noted- City of Dublin FIRE PROTECTION PLAN REVIEW 07-201675 architecture! memorandum invoice #07-201675 - 2 OHIO INCORPORATED 454 East Main Street Suite 236 Columbus, Ohio 43215-5380 614.488.4009 fax.488.4005 April 16, 2008 City of Dublin Contract No. PS 01-21-13 Employer Identification No. 31-1413248 City of Dublin Division of Building Standards 5800 Shier-Rings Road Dublin, Ohio 43016 Attention: Mr. Jeffrey S. Tyler, Chief Building Official Plan Review Services for: BMI Federal Credit Union - Computer Room & PC Workroom Sapphire Clean Agent Fire Suppression System 6165 Emerald Parkway PLAN APPROVAL Permit No. 07-201675(1) Labor Cost: Total Number of Hours to be Charged @ $60.00/Hour: 2.0 • Review Time: 0.5 • Coordination w/ Applicant(s): 0.5 • Administration Time: 1.0 FTOT:AL BILLING THIS INVOICE $120.00 This memorandum invoice is being sent as reference for you to prepare the necessary fees for the applicant to pay. The time spent on this review will be submitted for payment at the end of the month with our usual invoicing. Should you have any questions or comments concerning this review, please don't hesitate to contact me. Thank you for the opportunity to be of service. Cordially, architecture! 4 Michael A. Boryca, Architect Plans Examiner 4P001794 AN UL, INSTALLATION -Pulse PROGRAMMING AND OPERATING AGENT RELEASE. INSTRUCT I.I SYSTEM i v" D DEC 2007 RECEIVED :J=l DEC 0 6 2007 BUILDING DIVISION CITY OF DUBLIN l~ IffIl'a fft Doc. No. 430545 Part No. 579-357 Rev B Copyrights and Trademarks Copyright © Ansul, 2003. All rights reserved. Printed in the United States of America. Information in this document is subject to change without notice. No part of this document may be reproduced or transmitted in any form or by any means, electronic or mechanical, for any purpose, without the express written consent of Ansul. Tyco, Ansul, and AutoPulsc are trademarks of Ansul Incorporated or its affiliates. Cautions and Warnings READ AND SAVE THESE INSTRUCTIONS. Follow the instructions in this installation manual. These instructions must be followed to avoid damage to this product and associated equipment. Product operation and reliability depends upon proper installation. DO NOT INSTALL ANY PRODUCT THAT APPEARS DAMAGED. Upon unpacking, inspect the contents of the carton for shipping damage. If damage is apparent, immediately file a claim with the carrier. ELECTRICAL HAZARD - Disconnect electrical field power when making any internal s adjustments or repairs. Servicing should be performed by qualified service personnel. STATIC HAZARD - Static electricity can damage components. Therefore, handle as follows: • Ground yourself before opening or installing components. • Prior to installation, keep components wrapped in anti-static material at all times. RADIO FREQUENCY ENERGY - This equipment generates, uses, and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual, may cause interference to radio communications. It has been tested and found to comply with the limits for a Class A computing device pursuant to Subpart J of Part 15 of FCC Rules, which are designed to provide reasonable protection against such interference when operated in a commercial environment. Operation of this equipment in a residential area may cause interference in which case the user at his own expense will be required to take whatever measures may be required to correct the interference. SYSTEM REACCEPTANCE TEST AFTER SOFTWARE CHANGES - To ensure proper system operation, this product must be tested in accordance with NFPA72, Chapter 7 after any programming operation or change in site-specific software. Reacceptance testing is required after any change, addition or deletion of system components, or after any modification, repair or adjustment to system hardware or wiring. All components, circuits, system operations, or software functions known to be affected by a change must be 100% tested. In addition, to ensure that other operations are not inadvertently affected, at least 10% of initiating devices that are not directly affected by the change, up to a maximum of 50 devices, must also be tested and proper system operation verified. Table of Contents Chapter 1. Overview Introduction ...............................................................................................................1-1 In this Chapter ..........................................................................................................1-1 Overview - Agent Release and Preaction/Deluge Systems ........................................1-2 Fire Suppression Systems .......................................................................................1-2 Preaction/Deluge Sprinkler Systems ........................................................................1-2 Supported Applications ................................................................................................1-3 Pre-Programmed Applications .................................................................................1-3 Releasing Sequence for Single Detector Activation .................................................1-5 Releasing Sequence for Dual Detector Activation ...................................................1-6 Releasing Sequence for Manual Release ................................................................1-7 Specifications ...............................................................................................................1-8 Major Panel Components .........................................................................................1-8 Optional Modules ...................................................................................................1-10 Depleted Battery Operation ....................................................................................1-10 Environmental .........................................................................................................1-10 Listings and Approvals ...........................................................................................1-11 Codes and Standards .............................................................................................1-11 Chapter 2. Installing Cabinet and Electronics Assembly Introduction 2-1 Required Tools and Hardware .................................................................................2-1 In this Chapter ..........................................................................................................2-1 Removing/Installing the Electronics Assembly ............................................................2-2 Introduction ...............................................................................................................2-2 Removing Electronics Assembly ..............................................................................2-2 Installing Electronics Assembly ................................................................................2-2 Cutting Conduit Openings ............................................................................................2-3 Guidelines 2-3 Mounting Cabinet .........................................................................................................2-4 Introduction ...............................................................................................................2-4 Guidelines for Locating the Cabinet... 2-4 Surface Mounting .....................................................................................................2-4 Semi-Flush Mounting ...............................................................................................2-5 Removing and Installing Plastic PCB Cover and Slide-In Labels ................................2-6 Removing and Replacing Plastic PCB Cover ..........................................................2-6 Installing Labels ........................................................................................................2-6 Chapter 3. Connecting Field Wiring and AC Power Introduction ...............................................................................................................3-1 In this Chapter ..........................................................................................................3-1 Wiring Initiating Device Circuits ....................................................................................3-2 Guidelines 3-2 v Field Wiring Connections - Two Wire IDCs .............................................................3-3 Wiring Releasing Circuits .............................................................................................3-4 Guidelines 3-4 Field Wiring Connections .........................................................................................3-5 Main / Reserve Switch 3-5 Key Maintenance Switch ..........................................................................................3-6 Wiring Special Purpose Monitor Circuits 3-7 Overview 3-7 Wiring Class A/B SPM Circuits for Single Hazard Applications ...............................3-7 Wiring Shared, Class B SPM Circuits for Dual Hazard Applications .......................3-9 Wiring Relay Connections ..........................................................................................3-10 General Guidelines .................................................................................................3-10 Wiring Notification Appliance Circuits ........................................................................3-11 Guidelines ...............................................................................................................3-11 Field Wiring Connections 3-12 Wiring AC Power and Battery Wiring .........................................................................3-13 Field Wiring for AC Power and Battery Wiring 3-13 Enabling Canadian Depleted Battery Operation ....................................................3-14 Battery Maintenance ..............................................................................................3-15 Wiring 24V Aux Power ...............................................................................................3-16 General 3-16 Wiring Steady, 24 VDC Aux Power ........................................................................3-16 Testing Circuit Supervision 3-17 Procedure ...............................................................................................................3-17 Chapter 4. Programming Introduction ...............................................................................................................4-1 In this Chapter ..........................................................................................................4-1 Overview 4-2 Introduction ...............................................................................................................4-2 Text-Based Programming ........................................................................................4-2 Front Panel Programming ........................................................................................4-3 Programming the Application Mode .............................................................................4-5 Overview 4-5 Programming IDC and SPM Circuit Style ....................................................................4-6 Overview 4-6 Programming the Automatic Release Timer ................................................................4-7 Overview 4-7 Programming the RAC Time Limit Cutout ....................................................................4-8 Overview 4-8 Programming Manual Release Time Delay .................................................................4-9 Overview 4-9 Programming Abort Switch Operation ........................................................................4-10 Overview 4-10 Programming Stage 1 Alarm NAC2 Coding ...............................................................4-11 Overview 4-11 vi Programming NAC Operation ....................................................................................4-12 Overview 4-12 Programming Supervisory Latching Option 4-13 Overview .................................................................................................................4-13 Programming Supervisory Operation .........................................................................4-14 Overview 4-14 Saving and Making Changes .....................................................................................4-15 Set Program Switch to OFF to Save Changes .......................................................4-15 Making Changes to an Existing Program ...............................................................4-15 Chapter 5. Operating Introduction 5-1 In this Chapter ..........................................................................................................5-1 Overview 5-2 LEDs and Keys .........................................................................................................5-2 Delay Timers 5-4 Manual Release Switch ............................................................................................5-5 Abort Switch .............................................................................................................5-5 Alarm Clear/Reset ....................................................................................................5-6 Performing a Lamp Test ...........................................................................................5-6 Acknowledging Alarms, Troubles, and Supervisory Conditions ...................................5-7 Panel Indications for Alarm, Trouble, Supervisory Condition ...................................5-7 Acknowledging Alarms .............................................................................................5-7 Silencing Alarms ...........................................................................................................5-8 Procedure 5-8 Resetting the System ...................................................................................................5-9 Procedure 5-9 Viewing Historical Log/Setting Time and Date ...........................................................5-10 Procedure ...............................................................................................................5-10 Appendix A. FM System Requirements Introduction A-1 In this Chapter A-1 FM Requirements/Approvals A-2 General A-2 Automatic Extinguishing Release Requirements A-2 Preaction/Deluge Applications A-2 FM Approved Water Control Valves A-2 Appendix B. TEPG-US/Ansul UL Part Number Cross Reference vii Chapter 1 Overview Introduction The AutoPulse Z-10 (Part No. 430525) Fire Alarm Control Panel (hereafter called the AutoPulse Z-10) is a standalone Fire Alarm Control Panel for use with agent release and sprinkler preaction/deluge systems. This chapter provides an overview of the AutoPulse Z-10's capabilities and operation. In this Chapter Refer to the page number listed in this table for information on a specific topic. Topic See Page # Overview - Agent Release and Preaction/Deluge Systems 1-2 Supported Applications 1-3 Specifications 1-8 1-1 Overview - Agent Release and Preaction/Deluge Systems Fire Suppression Fire suppression systems control fire using agents such as dry chemical, CO,, and INGRGGN", Systems etc. Each of these systems must be specifically designed and approved for use on a particular fire hazard. When the ALItoPUlse Z-10 is programmed as an agent release system, it controls releasing devices (also known as solenoids, actuators, etc.) that are connected to a set of storage tanks containing the agent. When an alarm activation is detected, the AutoPulse Z-10 activates the releasing devices and discharges the extinguishing agent. Programming the AutoPulse Z- 10 for agent release involves selecting one of the pre-programmed agent release applications pre-installed on the AutoPulse Z-10. Single hazard (single area) and dual hazard (two separate areas) programs are available, all of which support manual release, abort switches, and programmable delay timers. See the next section of this chapter for a complete description of each application. Preaction/Deluge The most common type of preaction sprinkler system is the single inter-lockpi-eaction system, Sprinkler Systems which uses a two-phase process for actuating sprinkler heads. • Phase 1. Alarm activation of an initiating device attached to the AutoPulse Z-10 causes the AutoPulse Z-10 to activate the releasing device attached to the sprinkler system's Primary Control Valve. When this valve is open, water flows into the sprinkler pipes, readying the sprinkler system for the possible activation of one or more sprinkler heads. This is known as "preaction." • Phase 2. Sprinkler head(s) open in response to a fire condition, releasing water onto the fire area. Special situations sometimes require the use of a double interlock preaction system, in which an automatic initiating device (smoke or heat detector) and a sprinkler head must operate simultaneously to initiate water flow. This differs from the single interlock system, where these two actions (initiating device and sprinkler head activation) can occur at different times. A deluge svs7em uses open sprinklers. Activation of initiating devices releases a deluge valve, producing immediate water flow through all sprinklers. Deluge applications are typically found in special situations, where high-flow, water-based suppression is required. 1-2 Supported Applications Pre-Programmed The AutOPnlsc Z-10 ships from the victory with nine applications installed in memory. Applications programming the panic] involves selecting which of these applications to use, as well as selecting options such as NAC operation, manual and automatic delays, and other site-specific functions. Table 1-1 lists these nine applications, describes the operation of the Notification Appliance Circuits (NACs), Releasing Appliance Circuits (RACs), and auxiliary power relays (AUX relays), and identities the functions of the fOLII• Initiating Device Circuits (IDCs) and two Special Purpose Monitor (SPM) circuits. Refer to Chapter 4 of this manual for detailed programming instructions. Table 1-1. AutoPulse Z-10 Preprogrammed Applications IDCt IDC2 IDC3 IDC4_-r SPM1 SPM2 NAC1 NAC2 RAC1 RAC2 Timers Panel Aux Relays Releasing Applications Notes 1, 2, & 3 Note 4 4 8 5 Abort Rel. Aux1 Aux2 AI Stage 1 1` Alarm 1 IDC in Alarm qb n MS Steady Temporal Opt. Stage 2 -Alarm Confirmed 2 IDC n Alarm o Sleatl 120 BPM _ Stage 3 Release Alarm - F~r~~ ad Stead ON ON Opl. Stan Superv. or y _ TBL Alarm Pre-dlsch. Pressure Switch Alarm Fr.. r, SStleea•1v S y leady 1 (Select.) Tamper Switch (Supervisory) - Sup,, - - Optional 1 Alarm Sla9eer Swt h Su rv'so IDCI , ` - tea Ste~dY 1- Slarl Suessure' Stage 2 Release Ala- _ Stead Stead ON ON FxPinoo 7gL Alarm Pressure Pressure Switch Alarm Pre, (Select.) Hazard, Cross Zoned • P I Stead 12(18PM Tam v O C nal T ,.7n Hazard 1 Stagel 1- Ala IDC 1 or 2 Alarm _ MS FT Hazard 1 Sta e2 Alarm Confirm IDC 1 & 2 Alarm _ & AB l ^.r 1 Stan Hazard 1 Hazard 2 Hazard 1, Stage 3 Release arm I~ UCS or 4- Alarm t• ril r I Hazard 2 Sla 1 1 `Alarm I f t Manual Ma I ~ Temporal Hazard 2, Stage 3 Release f., ON Exp red feL Auln or Auto or Hazard 2, Sta nual 9e2 Alarm Confirm I ID. ?&4Alarm h%FT 1208PM _ r ^I Slarl Alarm Alarm Alarm Sleady r N Expired 4. Agent Release, Dual Hazard Hazard 1, Stage 1 Alarm IDC r 7 11nrm . MS 1 1 FPM _ ~nl Start Hazard 1 Hazard 2 Hazard 1, Sla e2 Release -.I,~~i~-~ UC. or 4 Alarm &AST ON Ex 'red TDfi Auto or Auto or Hazard 2, Slagel Alarm - 3 ~.1:mporal ~Ft Start Manual Manual Hazard 2, Sla e 2 Release Alarm &ABT 120 BPM GtJ Expired Alarm Alarm Pre ietion/Deluge Applications IDC11 IDC2 IDC3 IDC4 SPM1 SPM2 NACII NAC2 =7 AC2 Time Limit Cutout Panel Aux Rela s See Note 6 Aux1 Aux2 Au0 PreactionlDeluge, Single Hazard, . Stage 1 1` Alarm 1 IDC in Alann Steady Temporal _ O tonal Superv. or St e2 Alarm Confirm I Release 2 IDCIn Alarm _ Steady Steady uN FJ npl Deal TBL Alarm WaleAlow Walernow Alarm- Steady Stead (Select.) Supervisory Alen Opl onal Ta r - Releasing Alarm A 1 t ady ON re IDC Alr ON r1Itl~n~i1 Superv _ or ~y Watedlow Men TBL Alarm Walerflow Su erviso Alann Su I t x1a1 (Select.) 7. Preaction/Deluge, Dual Hazard, Cross-Zoned Hazard 1 Sta e 1 -Alarm IDC 1or 2 Alarm I rat trial Hazard 1 Sta e 2 Release IDC 1 & 2 Al m _ 1 rt; ON Hazard 2 Slagel Alarm ILC Ir:n _ T- -T ,,,I[ TBL Hazard Hazard2 Hazard 2 Stage 2 Release f R . L - ,I I ~ . 1. pN rI Alarm Alarm Welerflow Alarm Both Hazards F ;.F I, i J, Ir, I, Su erviso -2 Hazards no NAC --I Supv ( PreactionlDcluge, Dual Hazard Hazard 1 Releasing Alarm IDC o AI. rr _ Ir ly _ ON _ l i:Il Hazard 2 Releasing Alarm IU 7 1 II~r ;lead 'N LI ona>~ Hazard 1 Hazard 2 Walergow Alarm (both hazards) vVF _ „lea_dy_ Sleady - TBL Alarm Alarm Supervisory - 2 Hazards, no NAC Su Releasing Application IDC1 IDC2 IDC3 IDC4 SPM1 SPM2 NAC1 NAC2 RAC1 NAC3 Timers Panel Aux. Belays Note? Abort Rel. Auxt Aux2 Aux3 9 A~-t Single Hazard, • Stage 1 1` Ala- Stage C nAlann _ _ Stea Opl 2 Alarm Confirmed 2 IDC in Ala OFF 120 bpnl Steady Opt Start 11 Abort Switch Pressed AI rm Ahorl MS Steady OFF OFF O t Suspend Abort Switch Released AI nn Stead OFF OFF Start TBL Alarm PSup— o r.-Dischr Investigate Abort T'me Ex red AI rm OFF 1206 m Stead Ex fired Reload Stage 3 Release Nar^ OFF Stead ON Stead Opt F ad (Select.) _ Pressure Switch Ata Press a Steady Steady _ Tamper Swtch l Superv_ orY) _ Supv - Options! - Notes: 1. SPM1 and SPM2 are combination Manual Release / Abort zones for Agent Release Dual Hazard applications only. A short is a Manual Release and a current limit is an Abort condition. Continued on 17ew7 page 1-3 Supported Applications, Continued Pre-Programmed 2. A Manual Release will start the Manual Release Delay Timer and operate the NAC Applications, cadence pattern associated with the start of the Release Timer in the 1/0 matrix for (continued) the application selected. 3. A Manual Release will override an Abort. In an abort condition the NACs will operate in accordance with the active Stage 1, 2, and 3 operation in the 1/0 matrix for application selected and the specific Abort operation selected. 4. Alarm and Trouble NAC operation is selectable as either 20bpm or Temporal Code. When Temporal Code is selected for the Alarm NAC operation, the Supervisory NAC signal will be 20BPM. When 20BPM is selected for the Alarm NAC operation, the Supervisory NAC signal will be temporal code. 5. Where Temporal Code pattern is only allowed for evacuation signaling and the Audible NAC operation for 1 st Alarm is changed from the default of Temporal Code to 20bpm, NAC 2 should not be used for Supervisory signaling. 6. In Preaction/Deluge applications configured for Class A/B, a short on any IDC causes an immediate manual release. 7. For application mode 9 (NYC Abort - Does not comply with UL864) only, RAC2 is not used as a releasing circuit. Instead it becomes NAC3. Specific operation of the NYC Abort is as follows: Pressing the Abort switch does the following: a. Bell and bell strobe turn on (NAC1) b. Evacuation visuals turn off (NAC3) c. Evacuation audibles turn off (NAC2) d. Automatic Release Timer countdown stops at its current value. Releasing the Abort switch starts the 90-second Investigate Timer. When the Investigative Timer expires, the following occurs: a. Bell and bell strobe turn off (NAC1) b. Evacuation visuals turn on (NAC3) c. Evacuation audibles turn on at 120 BPM (NAC2) d. Reload the Automatic Release Timer with the programmed value Subsequently pressing/releasing the abort switch repeats the process (silencing the NACs, activating the bell, starting the 90 second investigation timer, etc.) until the Release Timer expires and the RAC(s) activate. Pressing/releasing the Abort switch while the Investigation Timer counts down has no effect (i.e., it will not reset the timer). Note: All other abort switch modes are discussed in "Programming Abort Switch Operation" in Chapter 4 of this manual. Continued on next page 1-4 Supported Applications, Continued Releasing Sequence The applications that trigger the releasing sequence based on the activation of a single detector for Single Detector include all applications that do not use cross zoning (see Table I-1 for a list of the available Activation applications). As shown in the Figure I - l, activation of a single initiating device immediately activates the Notification Appliance Circuits (NACs) and starts an optional Automatic Release Delay Timcr. This optional delay timer, which has a programmable range of zero to 60 seconds, delays the activation of the Releasing Appliance Circuits (RACs), thus delaying release of the agent. When the timer expires, the RACs activate, releasing the agent. Important Notes: • The abort switch can be used only prior to the expiration of the delay timer. NAC1 On Steady NAC2 120 BPM Activate Alarm Relay Sound Panel Piezo Automatic Release Delay Timer' 9f timer is set to o, release of the agent and activation of discharge signals occurs immediately (0 - 60 Secs) after alarm activation. Discharge Signals NAC1 On Steady NAC2 On Steady RAC Activation (Agent Discharge) r 3 E c E N E> r v o o 0 of _0 CD ~Q -0 3 m Qul Q~ U) U Figure 1-1. Releasing Sequence for Single Detector Alarm Activation a Continued on next page 1-5 Supported Applications, Continued Releasing Sequence Cross-zoned applications require that two automatic initiating devices on different zones enter an for Dual Detector alarm state before the releasing device(s) can activate. Figure 1-2 illustrates the automatic Activation releasing sequence tollowing activation of detectors on both zones. In the example, the first detector enters an alarm state, triggering the activation of the piezo, alarm relay, and the notification appliances (horns, bells, strobes, etc.) attached to NACI and NAC2. When the second detector enters an alarm state, the system starts an optional Automatic Release Delay Timer and changes the pattern of audible tones on NAC2 to a faster cadence (evacuation signal). When the timer expires, the cadence of the NACs changes to "On Steady" and the RACs activate. Important Notes: • If the delay timer is set to 0, release immediately follows second (cross-zoned) alarm activation. • The abort switch can be used only prior to the expiration of the delay timer. NAC1 On Steady NAC2 Temporal Activate Alarm Relay Sound Panel Piezo Automatic Release Delay Timer* If rimer is set to 0, release of the agent and activation of the discharge signals occurs (0 - 60 Secs) mmediately after activation of second alarm Evacuation Signal NAC1 On Steady NAC2 120 Bpm Discharge Signals NAC1 On Steady NAC2 On Steady RAC Activation (Agent Discharge) 0 «E> ~'j°' E E0 `m m 4 m> `n m m a u '~6 Eoo aN aY QQ~ E a m m E Q Figure 1-2. Releasing Sequence following Dual Detector Alarm Activation Continue(/ on nex7 page 1-6 Supported Applications, Continued Releasing Sequence The manual releasing sequence begins following the activation of a manual release station for Manual Release connected to the AUtOPUIsc Z-10 FACP. As shown in Figure 1-3, the NACs and the Manual Release Delay Timer turn on immediately after the switch is activated. Release of the agent ocau-s immediately after the tinier expires. Note: The abort switch has no effect on the manual release sequence. NAC1 On Steady NAC2 120 BPM Activate Alarm Relay Sound Panel Piezo Manual Release timer is set to 0, release of the agent and Delay Timer' activation of the discharge signals occurs immediately after activation of manual release 0-30 Seconds switch. Discharge Signals NAC1 On Steady NAC2 On Steady RAC Activation (Agent Discharge) c U E Z o E m s c w +V' m m 3 > Q Q ~U¢ Figure 1-3. Releasing Sequence Manual Station 1-7 Specifications Major Panel Figure 1-4 shows the AUtoPUlse Z-10's major components. As shown in the figure, terminals for Components Releasing Appliance Circuits (RACs), Notification Appliance Circuits (NACs), Initiating Dcvice Circuits (IDCs), and Special Purpose Monitors (SPMs) arc located along the top of the panel. Class A adapters (if used) install beneath these terminals. Refer to Chapter 3 for spccitic information on wiring the AntoPUIse Z-10. RELEASING NOTIFICATION INITIATING DEVICE CIRCUITS SPECIAL PURPOSE 24V POWER CIRCUITS CIRCUITS 30 SMOKE I HEAT SETS I CKT MONITOR POINTS 2A MAX 1218 AWG 12-18 AWG 12-18 AWG 12-18 AWG FORH- ~2AMAX/CKT 2A MAX ICKT 50 OHM WIRING LIMIT MONITOR TERMINALS' DRY CONTACTS "R "IS NEG RAC 1 RAC 2 LAC 1 NAC 2 IDC1 IONS IDCS IDC4 SPM I SEW 2 TERM FOR _ 24V RESET i R OPTIONAL FOR NAC; OPTIONAL ADAPTER SSA OPTIONAL ADAPTER SSA OPTIONAL A AFTER SSA ADAPTER - IDCs 182 IDCS 384 SEMI1 2 CN I RI ZONE I ALARM MANUAL RiI RELEASE Y ZONE I TBL ZONE 5T8L 'ONE 2ALARM MANUAI RELEASE ZONE 2 TBL ZONE 6 TBL j v ZONE 3ALARM NAC 1 TBL DANGER ZONE 3TBL NAC 2TEL R3 RE AYp 3uMPER HIGH VOLTAGE 70NEEALARM RAC1TBl R2 RELAY#2JUMPER 'ONE 4 TBL RAC 2 TP'- TBL. _JPERVISORY RELEA ILL RELAY SILENCED EARTH FAULT . SE LECTNOALLV OPEN ~SETROUBLE REL NORMALLY CLOSED SYSTEM TBL_ ABORTACTIVE RELAY ill GAC POWER RELAY DISF SELECT NORMALLY OPEN • OR NORMALLY CLOSED ACE ALARM 'SYSTEM: RELAY #3 77 SILENCE. RESET T SELECT NORMALLY OPEN ' OR NORMALLY CLOSED Figure 1-4. AutoPulse Z-10 Fire Alarm Control Panel Table 1-2. Major Panel Components Component Description 24 VDC @ 3 A. Includes temperature compensated battery charger adequate to recharge batteries required for 24-hour standby/10 minute alarm. Batteries Power Supply recharge within 24 hours. Input voltage: 120 VAC, 60 Hz, 2A maximum or 220/230/240 VAC 50/60 Hz, 1A maximum. Four Initiating Device Circuits (IDCs), each supporting up to 30 smoke detectors. See "Wiring Initiating Device Circuits" in Chapter 3 of this manual for a list of Initiating Device Circuit compatible devices. 500 wiring limit. Each IDC is supervised for ground faults (IDC) and open circuit faults. (Single hazard, agent release applicat ons use IDCs 3 and 4 for connecting a pressure switch and supervisory device.) The panel interprets a current-limited or short circuit on an initiating device as an alarm. Alarms latch until cleared and reset. Agent release systems use the Special Purpose Monitor (SPM1 and SPM2) Manual Release / Abort circuits to connect manual release switches and abort switches. Neither SPM Circuit (SPM1, SPM2) circuit supports the connection of smoke detectors. Switches must be normally open. An activated release switch overrides the abort switch. The system tracks the abort switch status to detect the release of the switch. Continued on next page 1-8 Specifications, Continued Major Panel Components, (continued) Table 1-3. Major Panel Components (continued) Component Description In a single hazard agent release system, IDC3 is reserved for use as a pressure switch monitor. When used as a pressure switch monitor, a current-limited or short Pressure Switch circuit is interpreted as pressure switch activated, which then causes notification appliances to sound. The circuit is supervised for open circuits, and the panel generates a trouble if one occurs. No releasing circuits are activated when the pressure switch activates. In a single hazard, agent release system, IDC4 is reserved for use as a tamper switch monitor. When used as a tamper switch monitor, a current-limited or short Tamper Switch circuit is interpreted as tamper switch activated, which causes a supervisory condition to be generated. The system can be programmed to activate a NAC or relay in response to tamper switch activation. Notification Appliance Two power-limited notification appliance circuits, each rated at 2A. NACs can play Circuits (NACs) either steady or pulsing tones, allowing the AutoPulse Z-10 to generate distinct pre-discharge signals for agent release systems. Both circuits are power limited. Releasing Appliance Two circuits, each rated at 2A. Releasing circuits operate simultaneously for single Circuits (RAC) hazard systems and independently for dual hazard systems. Both circuits are power-limited. Three on-board relays, each of which is selectable for either Normally Open or Normally Closed operation. Each relay is rated for 2A, 30 VDC. - Trouble Relay is normally energized. Off if a trouble occurs. Relays - For Single Hazard operation, Relay 2 is the alarm relay and Relay 3 is for the Time Delay Started. (Relay 3 may also be optionally programmed to be a supervisory relay.) - For Dual Hazard operation, Relay 2 is for Hazard Area 1 alarm and Relay 3 is for Hazard Area 2 alarm. Three terminals: + terminal is 24 V, - terminal is OV Steady, and R terminal (reset) Auxiliary Power is OV with pulse on reset for 4-wire smokes. Combined rating is 750 mA for any combination of steady/pulsed. • Red Alarm LEDs for each initiating device circuit and manual release circuit. Red LED to indicate agent release. • Yellow Trouble LEDs for each initiating device circuit, notification appliance circuit, releasing appliance circuit, and abort and manual release circuit. • Dedicated Alarm Silence, Supervisory, Abort Active, and Earth Fault Trouble LEDs. User Interface Green AC Power ON LED. • Swatches for Acknowledge, Silence, and Reset. Pressing all three simultaneously for five seconds disables notification appliance, releasing appliance, and relay circuits and causes a trouble to be displayed. All four notification appliance and releasing appliance trouble LEDs flash. • Piezo. On trouble conditions, the piezo sounder is on steady to indicate that a trouble has occurred. It turns off when the Acknowledge key is pressed. On alarm conditions, the sounder pulses until the Acknowledge key is pressed. Continued on ncxtpage 1-9 Specifications, Continued Optional Modules The following optional modules are available for use with the AutOPulse Z-10. • Part No. 430548 (120 VAC) and Part No. 430550 (240 VAC) External Battery Chargers. The AutoPulse Z-10 is compatible with Part No. 430548 and Part No. 430550 fifty Ali battery chargers. Refer to Part No. 431322 for information on these chargers. • Part No. 430531 Class A Adapters. NACs, IDCs, and SPMs are configured for Class A operation using a Part No. 430531 Class A Adapter module. Refer to Part No. 431307 for information on installing and wiring these adapters. • Part No. 430530 Battery Meter Module. Installed in-line with battery harness, this module allows constant monitoring of battery voltage and charging current. Refer to Part No. 431306 for additional information. • Part No. 430529 Relay Module. This module includes four relays, each driven by the AutoPulse Z-10. Each relay is rated at 7A d. 120VAC or 2A L 30 VDC, and each contains two form C contacts. A dual hazard system requires two modules. Refer to Part No. 431305 for information on installing and wiring this module. Optional relays are defined as follows: - Relay 1. Activates on any trouble for its hazard (includes general panel troubles). - Relay 2. Activates on any alarm for its hazard. - Relay 3. Activates on second zone of a cross-zoned system (hazard-specific). - Relay 4. Activates when a hazard-specific releasing appliance circuit activates. The relay module includes a set of disconnect switches. The switches are used to disable operation of relays 2, 3, and 4 per hazard. A "Relay Disconnected" trouble LED indicates the disconnected state of the relays. The disconnect switch does not prevent trouble relays from indicating the system is experiencing an abnormal (fault) condition. Depleted Battery The AutoPulse Z-10 system monitors the battery voltage and indicates a trouble status when the Operation battery is outside its normal range. There are two battery trouble levels: Low Battery and Depleted Battery. When Low Battery is detected, the system sounds the piezo and flashes the trouble LED. The event must be acknowledged to silence the piezo. If discharge continues further, and the batteries reach the depleted state, the sounder activates and the trouble LED flashes again. If the system is running from battery backup, (AC has failed), and the batteries are depleted one of two scenarios occurs: • The system will not initiate a first alarm on Aux Relays, NACs or RACs after reaching depleted battery. In this case, if an alarm precedes the depleted battery state, the system will continue to function. This is default. Alarms will be indicated at the User Interface. • The system will shut down 60 seconds after indicating the depleted state. This feature is necessary for Canada (5527). To activate this choice, a jumper must be clipped out. Refer to "Wiring AC Power and Battery Wiring" in Chapter 3 of this manual for information on enabling this option. • If the AutoPulse Z-10 is installed in accordance with either NFPA 12A or NFPA 2001, the system must employ an additional mechanically-operated manual release mechanism. Environmental Temperature. This equipment operates normally within the temperature range of 0° C (32° F) to 49° C (120° F), inclusive. Humidity. This equipment operates normally under non-condensing humidity conditions up to 93% relative humidity @ 32° C (90° F). Continued on nest page 1-10 Specifications, Continued Listings and This eduipmcnt mccts the requirements of the 1i011owin" aecncies. Approvals • UL (UL 864) • ULC (5527) • FM (Class No. 3010) Codes and The installer should be familiar with the relevant codes listed below, as well as any other Standards applicable local codes and standards, when installing a tine alarm system. NFPA 1 I Standard for Low-Expansion Foam and Combined Agent Systems NFPA I IA Standard for Medium- and High-Expansion Foam Systems NFPA 12 Standard for Carbon Dioxide Extinguishing Systems NFPA 12A Standard on Halon 1301 Fire Extinguishing Systems NFPA 13 Standard for Installation of Sprinkler Systems NFPA 14 Standard for the Installation of Standpipe and Hose Systems NFPA 15 Standard for Water Spray Fixed Systems for Fire Protection NFPA 16 Standard for the Installation of Deluge Foarn-Water Sprinkler and Foam-Water Spray Systems NFPA 16A Standard for the Installation of Closed-Head Foam-Water Sprinkler Systems NFPA 17 Standard for Dry Chemical Extinguishing Systems NFPA 17A Standard for Wet Chemical Extinguishing Systems NFPA 25 Standard for Inspection, Testing, and Maintenance of Water-Based Fire Protection Systems NFPA 70 National Electric Code NFPA 72 National Fire Alarm Code NFPA 101 Life Safety Code NFPA 750 Standard on Water Mist Fire Protection Systems NFPA 2001 Standard on Clean Agent Fire Protection Systems ULC S524 Standard for Installation of Fire Alarm Systems (Canadian Systems) 1-11 Chapter 2 Installing Cabinet and Electronics Assembly Introduction This chapter describes removing and reinstalling the electronics assembly and surface mounting or semi-flush mounting the cabinct to the wall. Required Tools and Installing the cabinet requires the following tools and hardware: Hardware • Phillips screwdriver • Small, flat-blade screwdrivcr • T 15 Torx screwdriver (screws are slotted Torx and will accept either a T 15 Torx screwdriver or a flat-bladed screwdriver) • Drill with appropriate bits • Conduit shaping tools • Conduit hole punching tool • Conduit hardware In this Chapter Refer to the page number listed in this table for information on a specific topic. Topic See Page # Removing/Installing the Electronics Assembly 2-2 Cutting Conduit Openings 2-3 Mounting Cabinet 2-4 Removing and Installing Plastic PCB Cover and Slide-In Labels 2-6 2-1 ~t Removing/Installing the Electronics Assembly Introduction Remove the electronics assembly from the cabinet prior to cutting conduit openings in the cabinet or mounting it to the wall. Removing Figure 2-1 shows the locations of the four mounting screws used to secure the electronics Electronics assembly to the AutoPUlSe Z-10 cabinet. To remove the assembly from the cabinet, loosen the Assembly four T15 Torx screws indicated in the figure. Slide the entire electronics assembly up until the screws located on the top of the assembly are in the cutouts of the teardrop holes. Tilt the top of the electronics assembly out from the box until the teardrop holes on the top of the assembly clear the screws, and then lift the assembly straight up to remove it. Installing When installing the electronics assembly, place the assembly in the box so that the screws located Electronics near the top of the box tit through the cutouts of the teardrop holes. Align the U shaped slots on Assembly the bottom of the assembly with the screws located on the bottom of the box. Slide the electronics assembly down and then ti(hten the four screws. T15 Slotted Torx Screw Ik 6llN@-i 114i IuIII I~ iiuil I I II II I I r l 1 1 I I I I ~ 19 ! I T15 Slotted Torx Screw T15 Slotted Torx Screw Figure 2-1. Location of Electronic Assembly Mounting Screws 2-2 Cutting Conduit Openings Guidelines The AutoPulsc Z-10 cabinet does not provide conduit knockouts. Cutting conduit openings must be done without the electronics assembly installed in the cabinet. Keep the following guidelines in mind when cutting conduit openings: • Remove the electronics assembly before cutting conduit openings. Refer to "Removing/Installing the Electronics Assembly," earlier in this chapter. • Remove all metal shards from the cabinet after cutting openings. • AC power (non-power limited) wiring must be run in separate conduit from all other wiring, as shown in the figure below. Non-power limited wiring must be separated from power limited wiring by a minimum of 1/4". • Other non-power limited wiring from Aux Relays (i.e., 120 VAC) must be run in a separate conduit. Non-power limited wiring must be separated from power limited wiring by a minimm7i of 1/4". • Up to 10 conduit openings can be cut in the top of the cabinet. Conduits for NACs, IDCs, SPMs, RACs Non-Power Limited ELECTRONICS - Area Only ASSEMBLY BATTERY AREA NO CONDUVf EN'T'RY OR VVIRING IN THIS AREA Figure 2-2. Conduit Locations, Front View 2-3 Mounting Cabinet Introduction Cabinets can either be surface-mounted directly to a wall or recessed into the wall (semi-flush mounting). Refer to the appropriate section below for specific details. Guidelines for Always retcr to engineering drawings/site installation plans before beginning installation. The Locating the Cabinet AUtOPUIse Z-10 is designed to operate in a typical commercial environment. Choose a site for each cabinet that is: • Located near a dedicated AC individual branch circuit with Earth ground (to maintain a consistent supply voltage). • Mount the cabinet to the wall so that the top of the enclosure is no more than six feet above the floor. • Well ventilated, clean, and dust free. • Away from sources of heat, including direct sunlight. • Away from sources of vibration or physical shock. • Away from sources of Radio Frequency Interference (RFI), such as a radio transceiver base station or hand held unit. • Isolated from sources of strong electromagnetic fields, such as air conditioners, large fans, and large electric motors. Surface Mounting Surface mounting the cabinet involves screwing it directly to a wall. 1. Install two screws (not supplied), spaced 11.25 inches from each other, in a rigid surface. Make sure that the screws are level. Refer to Figure 2-3. 2. Place the cabinet's tear-drop holes over the screws, allowing the screws to fully slide into the slots of the tear-drop holes. 3. Install two screws in the lower mounting holes. These holes are approximatelyin diameter. 11.25 13.5 13.25 Figure 2-3. Dimensions for Surface Mount Holes Continued on next page 2-4 Mounting Cabinet, Continued Semi-Flush Semi-flush mounting involves recessing the cabinet into a wall and attaching it directly to the Mounting wall's studs. At a minimum, 1.5 inches of the cabinet must protrude ti-om the vmall to allow for clearance of the panel door. 14.9 DOOR 16.25 1.5" MIN Figure 2-4. Cabinet Dimensions for Semi-Flush Mounting 2-5 Removing and Installing Plastic PCB Cover and Slide-In Labels Removing and A plastic cover protects the main AutoPUlsc Z-10 Printed Circuit Board (PCB). This cover must Replacing Plastic be removed to wire circuits, perform certain service operations, and to gain access to the Program PCB Cover Switch, used to place the panel into progranunin1_1 mode. I . Disconnect the AutoPulSe Z-10 from all povlrcr sources (AC and Battery) before removing the plastic cover. 2. Use a Phillips screwdriver to remove the three screws that secure the cover to the PCB. 3. Always replace the PCB cover before reapplying power to the panel. Slip Label into Slot located at top of Keypad after Removing Plastic PCB Cover rz~e 2 Z. 4 Figure 2-5. Plastic PCB Cover and Label Location Installing Labels The sheet, shown in Figure 2-6, containing six labels (two blank, two for preaction/deluge, and two for agent release), ships along with the AutoPulse Z-10. The blank lal- -!s provide a means of assigning facility-specific zone names to the LEDs, allowing the LEDs to be associated with a more descriptive name than Zone 1, Zone 2 etc. Install one of these labels'in the field after the appropriate application type is chosen. To install the label, first separate the appropriate label from the sheet. Next, remove the plastic PCB cover and slide the label into the slot located on the top of the keypad. See Figure 2-5. Continuccl on next page 2-6 Removing and Installing Plastic PCB Cover and Slide-In Labels, Continued Installing Labels, (continued) Apnr Rdru LL VEASOV Prwrm IDM9. LL 5W Ne. Ysu.• A-. A6 iratl. Zone Ze+ S T- 7-Zone ) Zm 5 Trestle Ale. Y.+rtl Aeru Ayr. y.trPor Tratl. Zone 2 a. 5 T etl eAy Zone 2 Za. 6 T- ye. MC I h_ 4v. W I TraW Zone 3 Zone 3 Trail. W.C 2 T- T- NAC 2 Tratl. w. Zone 4 0. C 1 raa. r. Zone 4 RAC T- natl. AAC 1 iratl. Troll. AX Z natl. LY. Sl.nCa1 Ap.^r Ade.ad AY. SAreM Aprr R.y.saG Apeai.rY E- FM S9sa.v1 F>rN Fah 5YSYr T- Abm A'.. Sprtr hell. -1 Actrv. AC Pore A*, D.-I AC Pe.e R., F-1 F7 F] \A4 STlYS,- YAIY SYild S1DlF ~ 1M[ IFSfI Apne R_ MC Apr' Rtlrz. LLC F..c ;D bp. LLC Uod S1! 1w ]SN '405rn-BI Ale. ArW Rtlrs. Ale. AWi Raw Ak.1 -Z., 1 Zw 5 T_ new Z. 1 Z_ 5 T1_ T1_ Zone I - 5 Tl / Ain IInW R/y.M Ayn Ales R4u. AY. R.seM -Zone 2 Z x 6 natl nall.Zone 2 Zw 6 hal Tratl.Zone 2 2a 6 iraW Ar. - I no W. - WC l T- .y~. NAC 1 nalb Zone 3 Zone 3 Zone 3 Tall. MC 2 T'a T,a W.C 2 T- T,e RAC Z Tm AY. RAC 1 Tl- AM PAC I T- Alew RAC 1 T- Zone 4 Zone 4 Zone 4 I- RAC 2 T,a T,e AM 2 iro-..e T- RAC 2 Tro/le Ale. SSrc.E Ap.nr Reya.d Are. Sl.nc.b Agnr Rw.W Ayrn SIrcM Ap.It R..rM Spvl Zw 1 E- Fah UA--Y EvM Fah Spa., - Zw 5 E.M FM SY.rr T,tl Abel Acln. S,+.r Troupe Abo. Acp. SYtlr Traly Abar Aclw. AC Pow R.I.Y Oem..cs AC Pew RaY Eiuarn AC Pow Rrb, ti.ea.wl fYP! MAN A %T Ir" SYSTFY ur MT aa¢ Rszs lxrOiESi aelF IF4s .A.i sus ve¢ ,E4T Figure 2-6. Labels 2-7 Chapter 3 Connecting Field Wiring and AC Power Introduction This chapter describes connecting field wiring for all devices (smoke detectors, releasing appliances, abort switches, etc.) to the AutoPulse Z-10, and wiring AC power to the panel. Before installing any equipment, always make a survey of the area to be covered. Also, be sure to follow the requirements of applicable codes and standards, as well as the directives of Authorities Having Jurisdiction (AHJs). Remove the plastic PCB cover as described in "Removing Plastic PCB Cover" in the previous chapter. In this Chapter Refer to the page number listed in this table for information on a specific topic. Topic See Page # Wiring Initiating Device Circuits 3-2 Wiring Releasing Circuits 3-4 Wiring Special Purpose Monitor Circuits 3-7 Wiring Relay Connections 3-10 Wiring Notification Appliance Circuits 3-11 Wiring AC Power and Battery Wiring 3-13 Wiring 24V Aux Power 3-16 Testing Circuit Supervision 3-17 3-1 Wiring Initiating Device Circuits Guidelines Initiating Dcvice Circuits arc used for wiring smoke and heat detectors to the AUloPulse Z-10. Be aware that correct operation of the AUtoPulsc Z-10 depends on the proper installation and placement of smoke and heat detectors. This is particularly true when installing a cross-zoned, agent release system. With a cross-zoned system, the detectors in the room must be installed so that each successive detector in the space being protected is on an alternating zone pattern. The location and spacing of detectors shall be in accordance with the requirements of Section 2-3.4 of the National Fire Alarm Code (NFPA 72). Ansel recommends 250 ft' spacing per detector. Adhere to the following guidelines when wiring IDCs: • All wiring must be from 12 AWG (max.) to 18 AWG (min.). • Conductors most test free of all grounds. • All wiring is supervised and power limited. • Leave 3.3K, 1/2W resistor (Part No. 430156) across all unused IDC terminals. See note ® in Figure 3-1 (two-wire). • Terminate Style B (Class B) circuits with a listed 3.3K, IW (Part No. 431210) end-of-line resistor. See note [5 I in Figure 3-1. • Terminate Style D (Class A) circuits with a listed 3.3K, 1 W (Part No. 431210) end-of-line resistor. See note L" 1 in Figure 3-1. • For Canadian applications, attach the following resistor to the ULC-listed EOL device. - Part No. 431210 3.3K, 1 W resistor - Part No. 431537, Steel plate EOL Device • Maximum line resistance for a circuit is 50 Ohms. • Maximum number of smoke/heat detectors per IDC is 30. • Maximum detector standby current is 3ruA. • Maximum alarm current at 24 VDC (short) is 60 mA. • Voltage rating - nominal 24 VDC, 0.5V peak-to-peak ripple (max.) • Any combination of the detectors and bases listed below may be installed, except only one Part No. 430569 or Part No. 430702 (Canadian) may be used per circuit. The compatibility identifier is the model number found on the detector, base, and control unit. Compatible device Part Numbers are as follows: (Refer to Part No. 431424 for installation instructions.) 430559, Photoelectric Smoke (2.8 Detector 430695, Photoelectric Smoke (2.8 Detector, Canadian 430560, Combination Photoelectric/Heat Detector 430696, Combination Photoelectric/Heat Detector, Canadian 430561, Ionization Smoke Detector 430697, Ionization Smoke Detector, Canadian 430562, Photoelectric Smoke (3.5%) Detector 430565, 135° Fixed Tempc..ature with Rate-of-Rise Electronic Heat Detector 430699, 135° Fixed Temperature with Rate-of-Rise Electronic Heat Detector, Canadian 430566, 200° Fixed Temperature with Rate-of-Rise Electronic Heat Detector 430700, 200° Fixed Temperature with Rate-of-Rise Electronic Heat Detector, Canadian • Compatible Bases. (Refer to Part No. 431425 for installation instructions.) 430567, Two Wire Base (30 / Loop) 430701, Two Wire Base (30 / Loop), Canadian 430569, Two Wire Base with Aux. Alarm Relay (1 / Loop) 430702, Two Wire Base with Aux. Alarm Relay (1 / Loop), Canadian 430570, Two Wire Base with LED (Part Nos. 430563 through 430566 only) 430703, Two Wire Base with LED (Part Nos. 430563 through 430566 only), Canadian Continued on next page 3-2 Wiring Initiating Device Circuits, Continued Field Wiring Field wiring connections between two-wire IDC's and the panel are made as sho~Nn in the Connections - Two following figure. Refer to "Guidelines" earlier in this section for a list of compatible devices and Wire IDCs their installation instructions. If using contact closure devices, place device directly across terminals with no current limiting resistor. STYLE B (CLASS B) STYLE D (CLASS A) 3.3K 1 W (431210) 0 Typical Initiating Device Typical Initiating Device Contact Closure Device Contact Closure Device 8 3.3K 1/2 W (430156) 44 3.3K1/2W (430156) ti ti L) U U U U U a 010101010101010 TB2 + - + - + - + - IDC1 IDC2 IDC3 IDC4 1010101010101010 T B 2 3.3K 1W (431210) IDC1 IDC2 IDC3 IDC4 0101010 + - + IDC1 IDC2 now0] Class A Adapter Figure 3-1. Two-Wire IDC Wiring 3-3 Wiring Releasing Circuits Guidelines The Releasing Appliance Circuits (RACs) on the Aot0PUlse Z-10 are designated on the printed circuit board as RAC I and RAC2. Each RAC must connect to a Part No. 430687 coil supervision module, which in turn connects to a 12 VDC or 24 VDC solenoid (also known as an actuator). Figure 3-2 shows the wiring connections to the AUtoPulsC Z-10. • All wiring must be 18 AWG (min.) to 12 AWG (max.). • Conductors must test free of all grounds. • All wiring is supervised and power limited unless otherwise noted. • Wiring between Part No. 430687 coil supervision module (Yell/Black) is not power limited. Refer to the Coil Supervision Module Wiring Instructions (Part No. 431303). • Leave a 10K, 1/2 W (Part No. 431223) resistor across all unused RAC terminals. • Voltage rating - nominal 24 VDC, 0.5 V peak-to-peak ripple, maximum. • Total available current from main power supply is 3A. If auxiliary power is used, available signal power is reduced accordingly. • Terminal designations and are for the alarm state. • Connect 24 VDC actuator as shown, only one 24 VDC actuator per RAC. • Connect 12 VDC actuator as shown; two units must be connected via a maximum of 20 feet of wiring in conduit. • For specific actuator wiring instructions, reter to the manufacturer's recommendations. • Only releasing devices meeting the following criteria may be used with the AUTOPULSE Z-10: - Releasing devices specified by part number in this manual. - Any UL listed and/or FM-approved (as applicable) releasing device that is rated at 24VDC (2 Amp max) and has been specifically approved for use with the AUTOPULSE Z-10 by Ansul Incorporated. - Any releasing device rated at 24VDC (2 Amp max) that is a component of a UL listed or FM-approved fire suppression system, and is specifically approved for use with the AUTOPULSE Z-10 by Ansul Incorporated. • Max. alarm current is 2A per circuit. See following chart for line distances. • RAC2 is used as NAC3 (visual notification appliances) for the New York City Abort application. Maximum Distance from Panel to Releasing Device (Feet) Alarm Line Current 18 AWG 16 AWG 14 AWG 12 AWG Resistance (Amps) (Ohms) 0.25 434 690 1098 1747 6.2 0.50 217 345 549 874 3.1 0.75 145 230 366 582 2.07 1 109 172 275 437 1.55 1.25 87 138 220 349 1.24 1.50 72 115 183 291 F1.03 1.75 62 99 157 250 0.89 2 54 86 137 218 0.77 CorNInltC(l on nextpage 3-4 Wiring Releasing Circuits, Continued Field Wiring Field wiring connections between the releasing appliances and the panel's RACs are made as Connections shown in the following tigurc. The coil Supervision module provides polarization of the actuators. s o 1 24V unit > m m 24 V 3 Per Circuit ~ Q Actuator YEL BLK 2 12V units Per Circuit J Y W J J Y m W J 430687 m 430687 Coil Locate in Coil Locate in Supervision Valve Supervision Valve Module Junction Module Junction C Y Box 0 Y Box W J W J r5 10K 1/2 W 10K 112 W (431222) (431222) 101010101010101 010101010101 + - + - + - t - t - t - + - t - RAC1 RAC2NAC1 NAC2 RAC1 RAC2NAC1 NAC2 Figure 3-2. Releasing Appliance Circuit (RAC) Wiring - Style Y (Class B) Main I Reserve Figure 3-3 shows wiring for a Part No. 76496 (surface-mount) or Part No. 76497 (flush-mount) Switch main/reserve switch. The main/reserve switch is rated for 1.1A make/break current at 28 VDC or 6A continuous carry current at 28 VDC. Locate the Part No. 430687 coil supervision module in valve junction box. Connect to Release Appliance Red Yell Circuit (RAC) on System Board Coil Supervision Module 430687 Key-Operated and Designations Selector Switch Correspond to the Alarm State ( ) 24 DC Blk Bk Actuator • •NC • NO 24 DC Atlualor Figure 3-3. Main/Reserve Switch Continued on next page 3-5 Wiring Releasing Circuits, Continued Key Maintenance Figure 3-4 shows wiring for a Part No. 76498 (SUrfacc mount) or Part No. 76499 (tlush mount) Switch key maintenance switch. The switch is rated for 1.1 A make/break current at 28 VDC or 6A continuous carry current at 28 VDC. Locate Part No. 430687 coil Supervision module in valve junction box. AutoPulse Z-10 Releasing Appliance Circuit ' ELK Coil Supervision ELK Module Actuator + 430687 YEL HEM NC - Key Operated - Lockout Switch NO Connect to AUX Power Terminals on : - < = ' Z-10 System Board - I + I I ~ Figure 3-4. Key Maintenance Switch 0 3-6 Wiring Special Purpose Monitor Circuits Overview Special Purpose Monitor (SPM) circuits are used for connecting abort and manual release switches to the AUYOPuISe L-10. The application type (i.e., single hazard or dual hazard) determines the function of each SPM. as tollo\a's: Application SPM Circuit Function SPM 1: Connect only abort switches. Single Hazard, Class A/B SPM 2: Connect only manual release switches. Refer to "Wiring Class A/B SPM Circuits for Single Hazard Applications". Abort switches and manual release stations can share SPM 1 and SPM2. An activated abort switch creates a current limited state on the circuit, whereas a manual release station Dual Hazard, Class A/B creates a short on the circuit. Refer to "Wiring Class B SPM Circuits for Dual Hazard Applications" below. Wiring Class A/B Adhere to Figure 3-5 and the following guidelines when wiring Special Purpose Monitor (SPM) SPM Circuits for for a single hazard application. Connect abort switches to SPMI and manual release stations to Single Hazard SPM2. Do not combine abort switches and manual release stations on the same circuit. Applications • Use only manual release and abort switches that are UL-listed for fire use. • Both manual release stations and abort switches must be normally open. • All wiring must be 12 AWG (max.) to 18 AWG (min.). • Conductors must test free of all grounds. • All wiring is supervised and power limited. • Leave 3.3 K, 1/2 W (Part No. 431536) resistor across all unused SPM terminals. • Terminate Style B (Class B) circuits with a listed 3.3K, I W (Part No. 431210) end-of-line resistor. • For Canadian applications, attach the following resistor to the ULC-listed EOL device. - Part No. 431210 3.3K, 1 W resistor - Part No.431537, Steel plate EOL Device • Terminate Style D (Class A) circuits at the Class A Adapter with a listed 3.3K, 1 W (Part No. 431210) end-of-line resistor. See Figure 3-5. • Maximum line resistance is 50 Ohms. • Normal condition (no devices closed). Current at 24 VDC: 6.0 mA • Manual Release condition. Current at 24 VDC: 25 mA • SPM Circuits do not support the connection of smoke or heat detectors. Continued on next page 3-7 Wiring Special Purpose Monitor Circuits, Continued Wiring Class A/B SPM Circuits for Single Hazard Applications, (continued) Abort Switch 3.3K 1W 3.3K 1W Abort (431210) (431210) Switch Abort Abort Switch • Switch Switch L -1 F Abort • 3.3K 1/2 W Switch (430156) -ti + N N a a a a 10101010101010101 N N + - + - a a a a SPM1 SPM2 N N 3.3K 1W (431210) 1010101010101010 © SPM1 SPM2 0101010 Note: Class A wiring for manual + - + - release stations is the same as the SPM1 SPM2 wiring shown in the Class A diagram. ff~i Wiring from the last release station returns to the Class A board, and a Class AAdapter 3.3K 1W resistor (Part No. 431210) is tied to the wiring. Figure 3-5. Class A/B SPM Wiring for Single Hazard Application Continued on next page 3-8 Wiring Special Purpose Monitor Circuits, Continued Wiring Shared, Adhere to the following guidelines when \ririn g Special Purpose Monitor (SPM) circuits for a Class B SPM dual hazard application. Circuits for Dual Hazard Applications • Use only manual release and abort switches that are UL-listed for fire use. • Both manual release stations and abort switches must be normally open. • All wiring must be 12 AWG (max.) to 18 AWG (min.). • Conductors must test free of all grounds. • All wiring is supervised and power limited. • Leave 3.3 K, 1/2 W (Part No. 431536) resistor across all unused SPM terminals. • Terminate Style B (Class B) circuits with a listed 3.3K, IW (Part No. 431210) end-of-line resistor. • For Canadian applications, attach the following resistor to the ULC-listed LOL device. - Part No. 431210 3.3K, I W resistor - Part No. 431537, Steel plate EOL Device • Maxinuun line resistance is 50 Ohms. • Normal condition (no devices closed). Current at 24 VDC: 6.0 mA • Manual Release condition. Current at 24 VDC: 25 mA • SPM Circuits do not support the connection ol'smoke or heat detectors. • An activated abort switch creates a current-limited state on the circuit, whereas a manual release station creates a short on the circuit. 3.3K 1W (431210) Abort Switch Abort Switch Note: Wire manual release stations before the Abort Supervision Abort Supervision Module. Wire Abort Module (431196) Switches after the Abort Supervision Module. Manual Release Station a a m fn 10101010 -tit - + - SPM1 SPM2 Figure 3-6. Class B SPM Wiring for Dual Hazard Application 3-9 Wiring Relay Connections General Guidelines Adhere to the following guidelines when wiring relay modules. These guidelines and specifications apply only to the standard, on-board relays. Information regarding the specifications and wiring of the optional auxiliary relays is located in Part No. 431305. • All wiring must be 18 AWG (min.) to 12 AWG (max.) • Conductors must test free of all grounds. • Relay circuits are rated for 2 A at 30 VDC, pilot duty (0.35 power factor). • Circuit is not supervised. • When setting jumpers to select Normally Open or Normally Closed contacts, position junipers as follows: Normally Closed, position jumper to the left. Molt= Normally Open, position jumper to the right E~ • All relays are single pole, double throw. • If power source is not power limited to the requirements of UL864, wiring is to be segregated to the non-power limited spaces of the cabinet. See "Wiring AC Power" later in this chapter for the location of the non-power limited cabinet area. I I OPTIONAL CLASSA OPTIONAL CLASSA OPTIONALCLASSA OPTIONAL CLASSA ADAPTER FOR NACs: ADAPTER ADAPTER ADAPTER IDCs 182 IDCs 384 SPM 182 ? - ¦ P ZONE I ALARM MANUAL RELEASE ZONEI TBL ZONE5 TBL ,r R ZONE 2ALARM MANUAL : RELEASE t ZONE 2 TBL ZONE 6 TBL Y JUMPERS TO SELECT NORMALLY OPEN < ZONE 3ALARM NAC1TBL OR CLOSED CONTACTS. DANGER NAC 2 TBI R3 RELAY #3 JUMPER NORMALLY CLOSED (JMPR LEFT) HIGH u T r ZONE 3 THE VOLTAGE E ZONE4ALARMRAC ITBIL R2- RELAY #2JUMPER Y ZONE 4 THE ! RAC 2 TBL TBL TROUBLE RELAY JUMPER NORMALLY OPEN (JMPR RIGHT) tY SUPERVISORY RELEASED TROUBLE RELAY iY. SILENCED EARTH FAULT SELECT NORMALLY OPEN ti ;ORNORMALLY CLOSED ~Y SYSTEM TBL ABORTACTIVE - RELAY #2 iG AC POWER RELAY DISC SELECT NORMALLY OPEN OR NORMALLY CLOSED ALARM SYSTEM RELAY #3 • :I ACK SI LENCEI RESET SELECT NORMALLY OPEN .1 OR NORMALLYCLOSED Figure 3-7. Field Wiring for Relay Connections 3-10 Wiring Notification Appliance Circuits Guidelines Adhere to the following guidelines when wiring Notification Appliance Circuits. • All wiring is to be 18 AWG (min.) to 12 AWG (max.) • Conductors must test fee of all 1711-01-Inds. • All wiring is supervised and power limited. • Leave a I OK, 1/2 W (Part No. 431223) resistor across all unused NAC terminals. See 4 in Figure 3-8 below. • Terminate Style Y (Class B) circuits with a listed I OK, 1112 W (Part No. 431222) end-of-line resistor. See 15 1 in figure. • For Canadian applications, attach a IOK W resistor (Part No. 431222) to a ULC-listed End of Line Device (Part No. 431537). • Terminate Style Z (Class A) circuits with a listed 10K, 1/2 W (Part No. 431222) end-of-line resistor. See ~0 1 in figure. • Voltage rating-- nominal 24 VDC, 0.5 V peak-to-peak ripple (max.) • Total available current from main power supply is 3 A. If auxiliary power is used, available signal power is reduced accordingly. • Terminal designations and are for the alarm state. • Compatible appliances listed below. Maximum 70 appliances per circuit. Maximum alarm current is 2A per circuit. See chart below for line distance. - Part No. 429694 (sounder with 15 candela strobe) - Part No. 429695 (sounder with 75 candela strobe) - Part No. 429696 (sounder with 117 candela strobe - Part No. 429698 (strobe, multi candela) • Maximum alarm current is 2A per circuit. See chart for line distance. • The operation of the NAC (Off on Reset; Off on Silence) is determined by the setting of the NAC Operation programming option. See Chapter 4 of this manual for information on setting this option. • When wiring NYC Abort operation, NAC I is used for connecting bells and bell strobes associated with the investigation timer, NAC2 is used for connecting audible notification appliances, and RAC2 is used for connecting visual notification appliances. Maximum Distance from Panel to Last Notification Appliance (Feet) Alarm Line Current 18 AWG 16 AWG 14 AWG 12 AWG Resistance Amps (Ohms) 0.25 840 1335 2126 3382 12 0.50 420 667 1063 1691 6 0.75 280 445 709 1127 4 1 210 334 532 845 3 1.25 168 267 425 676 2.4 1.50 140 222 354 564 2 1.75 120 191 304 483 1.71 2 105 167 266 423 1.5 Continned on next page 3-11 Wiring Notification Appliance Circuits, Continued Field Wiring Connections 10K 1/2W (431222) Horn/ 10K 1/2W Strobe (431222) + U U U U Bell Z Z Z Z 10K 1/2W 101010101010161 (431222) RAC1 RAC2 NAC1 NAC2 U U 10K 1/2W z z (431222) 10101010101 I 1 RAC1 RAC2 NAC1 NAC2 ml~lml~ NAC1 NAC2 aaaaau~o Class A Adapter Figure 3-8. NAC Field Wiring Connections 3-12 -J Wiring AC Power and Battery Wiring Field Wiring for AC Connect the AUtoPldsC Z-10 to a dedicated branch circuit per all local codes. Adhere to the Power and Battery following guidelines when wiring AC power and batteries. Wiring • Input voltage: 120 VAC, 60 Hz, 2A maximum or 2201230/240 VAC 50/60 Hz, I A maximum. • Battery voltage: 24 VDC, 3A maximum. Maximum charging current is 1.4A. • All wiring must be 18 AWG (min.) to 12 AWG (max.) AND per local code. • Battery charger compatible with Valve Regulated Scalcd Lcad Acid Batteries, 6.2 Ah to 12.7 Ali inclusive. • Refer to battery selection charts (Part No. 431437) for information on selecting the properly sized battery for the required standby time. • Battery connection is fused at the printed circuit board. No inline fuse is necessary. • Replacement fuse for AC input is Part No. 431295, 3A, 250 VAC fast acting. Fuse size is 5mm x 20 mm. Sec ~ 6 1 in Figure 3- 10 for location of fuse. • Connect battcricS to panel using Part No. 431297 harness as shown in Figure 3-10. • If expansion charger Part No. 430548 (50 Ah, 120 VAC), Part No. 430550 (50 Ah, 240VAC), or Part No. 430713 (50 Ah, 120VAC, Canadian) is used, connect the charger control (see ?9 in Figure 3-10 for location) on the AutoPulse Z-10 to TB1-I on the battery charger. Refer to Part No. 431322 for information on the external battery charger. • Loop the Line and Neutral wires around a ferrite bead twice before connecting them to Terminal Block TB5. See Figure 3-9. (Ferrite bead is Part No. 431296). • Connect Line and Neutral from the incoming dedicated AC power circuit (20 A maximum) to terminal block T135 on the panel. T135's terminals are labeled LINE and NEUT. See [1 in Figure 3-10 below. No switches orjumpers need to be configured for specific line voltages. Connect a 12 AWG copper ground wire from the safety ground in the electrical distribution panel to the AutoPulse Z-10 safety ground stud, which is located on the left wall of the cabinet, near the bottom. See Figure 3-9 below. 12 AWG ground wire running between safety ground in electrical panel and safety ground stud on AutoPulse Z-10 cabinet wall Incoming AC power line Wrap incoming connects to TB5 AC power line LINE and NEUT twice around 10. k ~ terminals. ferrite bead. \ Figure 3-9. Ground Stud and Ferrite Bead Continued on nextpage 3-13 Wiring AC Power and Battery Wiring, Continued Field Wiring for AC External Battery Charger Control: Power and Battery Connect to TB 1-1 on Part No. 430548, 430550, Wiring, (continued) or 430713 battery charger OPTIONAL CLASSA OPTIONAL CLASSA OPTIONAL CLASSA OPTIONAL CLASSA ADAPTER FOR NACs ADAPTER ADAPTER ADAPTER IDCsI&2 IDOs3&4 SEMI&2 i' ON A P 'QNE I4LARM19 MREANUAL R LEASE ZONE 1 TEL ! ZONE 5 TBL Y; ZONE 2 ALARM MANUAL R RELEASE' ,y ZONE 2TBL ZONE 6TBL 'Y R ZONE 3 ALARM NAC 1 TEL Y~ LI DANGER w' ZONE 3TEL NAC2TBL Y, R3 HIGH VOLTAGE "R ZONE 4ALARM RAC1TBL Y, R2 Y ZONE 4 TBL RAC 2 TBL 'Y' ':.TBL T. ~Y SUPERVISORY RELEASED 'Y, Y SILENCED EARTH FAULT Y: ~Y' SYSTEM TBL ABORTACTIVIE G, AC POWER RELAYDISC 'r INSTALL FERRITE ALARM (SYSTEM BEAD AS SHOWN TB5 ASK ~SILENCEli RESET IN FIGURE r 8 • PT F1 LINE NEUTRAL - w GROUND i 7 EARTH , CONNECT 431297 3 WHT C ) + _ L + _ 12VDC 12VDC Figure 3-10. AC Power and Battery Connections Enabling Canadian To enable Canadian Depleted Battery operation, remove the plastic PCB cover and use a small Depleted Battery pair of wire snips to clip the Jumper R187 (0 ohm resistor), which is shown in Figure 3-11. With Operation this jumper cut, the system shuts down if the batteries reach a depleted state (19.4 VDC). Note: Do this only if Depleted Battery Cutout is required. Leave this jumper in place for systems that do not shut down when batteries are depleted. The normal (default) system operation prevents NAC RAC, and relay operation from initiating after batteries are depleted. That operation does NOT require jumper removal. Continued on next page 3-14 Wiring AC Power and Battery Wiring, Continued Enabling Canadian Depleted Battery` ' Operation, (continued) w ( 4kY t Clip Jumper F` R187 4 ill III 1 > it U [ 3 k s k _ r Figure 3-11. Location of Jumper R187 Battery Maintenance Battery maintenance requires specialized test equipment. Contact your fire alarm service representative for information on testing batteries. 3-15 Wiring 24V Aux Power General The AutoPUlse Z-10 is capable of providing steady and resettable 24 VDC' power. The combincd ratim, for anv combination of steady or resettable devices must not exceed 750 mA. This section provides information on wiring steady 24 VDC power. Rcsettable 24 VDC power is typically used with four wire smoke detectors. Refer to "Wiring Initiating Device Circuits," cattier in this chapter for specific information on wiring resettable 24 VDC power. Wiring Steady, 24 Use the + terminal (24 VDC) and the - terminal (0 V) when wiring a device that requires steady VDC Aux Power 24 VDC power. 24 VDC Device Requiring 00 Steady 24 VDC. 750 mA Max. + - 10101010 0 01 + - R 24V Pwr 2A Max. for "R" is Neg. for 24 V Reset 3 9 Figure 3-12. Wiring Steady, 24 VDC Aux Power 3-16 _4 Testing Circuit Supervision Procedure Use the lollo\ering proccdures in the table below to confirm that 1DCs, NnCs, RACs, and SPMs arc supervising for opens, shorts and grounds. The right column in this table shows the LFDs that illuminate when an open, short, or ground occurs on a specitic circuit. Condition Corresponding LEDs IDC. Illuminates the System Trouble LED and the Trouble LED for the Zone. Open Remove the end of line and make NAC or RAC. Illuminates the System circuit impedance infinite. Trouble LED and the NAC/RAC Trouble LED. SPM. Illuminates the System Trouble LED and the Trouble LED for the SPM. Short Apply a zero ohm jumper across Illuminates the Trouble LED for the zone the circuit. and the System Trouble LED. Earth Ground Place a 10k or smaller If an Earth ground occurs on any circuit, value resistor from supervised wiring to the Earth Fault and System Fault LEDs Earth Ground both illuminate. 3-17 ~a Chapter 4 Programming Introduction This chapter describes the field programming required to select one of the panel's preprogrammed applications and configure the options for the selected application. In this Chapter Rcfcr to the page number listed in this table for information on a specific topic. Topic See Page # Overview 4-2 Programming the Application Mode 4-5 Programming IDC and SPM Circuit Style 4-6 Programming the Automatic Release Timer 4-7 Programming the RAC Time Limit Cutout 4-8 Programming Manual Release Time Delay 4-9 Programming Abort Switch Operation 4-10 Programming Stage 1 Alarm NAC2 Coding 4-11 Programming NAC Operation 4-12 Programming Supervisory Latching Option 4-13 Programming Supervisory Operation 4-14 Saving and Making Changes 4-15 4-1 Overview Introduction The AutoPulse Z-10 is site-progrannnable, using either a text-based or front-panel programming mcthod. In both cases, all programming selections are stored in non-volatile memory and saved between power on/off cycles. This section provides an overview of each programming method and identities any prerequisite steps (connecting serial cable, etc.) you must complete prior to programming the panel. Text-Based The text-based panel programmer runs in a terminal emulator window on your PC and uses a Programming series of 10 text prompts, each of which corresponds to a major programming task, to guide you through the programming process. Each prompt appears similar to the example shown below. The default setting for the prompt is always designated by a d, and an asterisk always indicates the currently programmed setting. Use X to exit the programmer at any time; use C to review the current programming configuration. To accept the currently programmed setting, simply press the Carriage Return (CR) key. To change a setting, enter the number corresponding to your choice and then press the CR key. When you press CR, the next prompt appears. When you turn the programming switch to the OFF position, all changes you have made are saved. Example: [01] APPLICATION MODE: d*l = Agent Release, Single Hazard, Cross Zoned, Combined Release 2 = Agent Release, Single Hazard, Non-Cross Zoned, Combined Release 3 = Agent Release, Dual Hazard, Cross Zoned 4 = Agent Release, Dual Hazard, Non-Cross Zoned 5 = Preaction/Deluge, Single Hazard, Cross Zoned, Combined Release 6 = Preaction/Deluge, Single Hazard, Non-Cross Zoned, Combined Release 7 = Preaction/Deluge, Dual Hazard, Cross Zoned 8 = Preaction/Deluge, Dual Hazard, Non-Cross Zoned 9 = Agent Release, Single Hazard, Cross-Zoned, NYC abort (d=default, -current setting) Select Number(X=exit): Complete the following steps to enable the panel for text-based programming. Step 1. Connect Serial Cable. Connect a Part No. 431206 serial cable between the PC and the AutoPUlse Z-10 service port, as follows: a. Locate the PC within 6 feet of the AutoPulse Z-10 FACP and connect a Part No. 431206 serial cable to a free serial port (typically COM 1) on the PC. b. Connect the other end of the cable to the service port on the AutoPulse Z-10 FACP. The Service port, labeled P2, is located on the top left of the AutoPulse Z-10 motherboard. Make sure the stripe on the cable is positioned at the bottom, as shown in the following figure. RFi FAS ING NOTIFICATION CIRCUITS CIRCUITS 12-18 AWO 12.18 AWC iZA MAX. / CKT ?A MAX. / CAT. RACI RAC? NAC1 NAC2 + - + - } - 0101010 10 Ole Part No ff *7 Pz 431206 ° OPTIONAL cuss A :ADAPTER FOR NAC, Serial ° Cable Figure 4-1. Connecting Cable to Service Port Continued on next page 4-2 Overview, Continued Text-Based Step 2. Set Program Switch to ON. Open the cabinet door, remove the plastic PCB cover, Programming, and set the Program Switch (SW I), located as shown in Figure 4-2, to the ON position. This (continued) places the panel in programming mode. When you do this, the tone-alert sounds and the Trouble LLD flashes (to indicate a programming mode trouble). Pressing Acknowledge silences the tone- alert and changes the LLD to steady ON. Location of Programming Switch (SW1). b1 Place switch in UP position to turn programming mode on. Figure 4-2. Location of Program Switch Step 3. Configure Terminal Emulator Serial Port Settings. Use a terminal emulation program, such as Windows Hyperterminal, to establish a serial communication session with the AutoPulse Z-10. Set the terminal emulator's serial communication parameters as follows: • 9600 baud • no parity • 8 data bits • l stop bit Step 4. Enter a P at the Dash Prompt. A dash prompt appears in the terminal emulator window to indicate that the PC and AutoPulse Z-10 are communicating with one and other. Enter a P at the dash prompt to start the programming session. -P The first prompt, which queries you for the application mode you want to select, automatically appears when you type P. Refer to "Programming the Application Mode" later in this chapter for a description of the application mode prompt. Front Panel Programming the AutoPulse Z-10 from the front panel is a 10-step process. With this method, the Programming AutoPulse Z-10 uses the LEDs on the front of the panel to represent the available programming options. The left column of LEDs represents which general programming option is selected and the right column represents context-sensitive choices for the selected programming option. The System Reset key allows you to move down through the choices and the ACK key is used to accept a selection and move to the next programming step. (The Alarm Silence key has no programming function.) Continued on next page 4-3 Overview, Continued Front Panel Figure 4-3 Summarizes the operation of the front Panel programming method. When you place the Programming, Program Switch in the ON position, the panel immecdcNelr enters programming mode and the (continued) LEDs appear as shown in "I -Application Mode." You are now ready to program the panel via the front panel. Refer to "Programming the Application Mode" in the next section for information on doing this. 3 - Automatic Release 5 - Manual Release 1 - Application Mode 2 - IDC & SPM Circuit Style Time Delay 4 - RAC Cutout Timer Time Delay ,n zo~u.A. Class B / A 0 Seconds No Cutout 0 Seconds Style C 10 Seconds 45 Second Cutout r,I p 20 Seconds 1 M nute Cutest J, d3 30 Seconds 3Minute Cutout 1`, J. _ 40 Seconds 4 Minute Cutout r Js 50 Seconds 5 Minute Cute n -r r 1 60 Seconds - 6 te-re Cute 6 Abort Release 1 Min 10 - T N Supervisory Lune Delay 7 - NAC Coding Inhibit 0 8 - NAC Operation 9 - Supervisory Latching ~nhib,t Notification ,t - Temporal On Until n Lath Supv btd,i- v +r 20 BRIM, - 1Reset. SI _ 1, nLatr a St,. - J N RI vL onU ,IF - l ~.~+..i '.I t 1 Rest 2 Silence On Until Reset , Figure 4-3. Summary of Programming Modes and Options 4-4 Programming the Application Mode Overview The first pro-ramming step involves selecting the application mode (i.c., Agent Release, Single Hazard, Cross Zoned, Combined Relcasc, ctc.). The AUtOPnISC Z-10 can bC programmed with any one of '9 agent release or preaction deluge application modes. Note: Refer to Table 1-1 in Chapter 1 for a summary of each application mode. Method Description j The first prompt, shown below, queries you to select the application mode. [011 APPLICATION MODE: d*1 = Agent Release, Single Hazard, Cross Zoned, Combined Release 2 = Agent Release, Single Hazard, Non-Cross Zoned, Combined Release 3 = Agent Release, Dual Hazard, Cross Zoned 4 = Agent Release, Dual Hazard, Non-Cross Zoned 5 = Preaction/Deluge, Single Hazard, Cross Zoned, Combined Release 6 = Preaction/Deluge, Single Hazard, Non-Cross Zoned, Combined Release Text-Based 7 - Preaction/Deluge, Dual Hazard, Cross Zoned Programming 8 _ Preaction/Deluge, Dual Hazard, Non-Cross Zoned 9 = Agent Release, Single Hazard, Cross-Zoned, NYC abort (d=default, *=current setting) Select Number(X-exit): Enter the number corresponding to the application mode you want to select and press the carriage return. Refer to "Programming IDC Circuit Style" in the next section for a description of the next programming step. The top LED (red) on the left side of the display is lit to indicate the application mode is being programmed. The top LED on the right side of the display is lit to indicate the default application (Agent Release, 1 Hazard, Cross Zoned, Combined RAC) that is currently selected. Press ACK to use the default. To choose a different application, do the following: 1. Press the RESET key to move down through the list of available applications. Each time you press this key, the illuminated LED on the right side of the panel changes to the next one down. (Refer to the figure below for the relationship between the LEDs and applications.) 2. When the LED corresponding to the desired application is illuminated, press the ACK key. This saves the selection in memory and moves you to the next programming step. Agent ReLe.;:. H:,_e 1 n L,1- Croce ze ed These LEDs When top LED Agent R -j represent the (red) on left side Agent R leas' available Front Panel of display is lit, it application Programming indicates that the Agent Release selections. Use application mode Preaction „el„y re, . j the RESET key is being to move through programmed. Prea IonD mfr ; a.. the choices. Preaction Deluge °r Press ACK when Preaction Deluge, I the illuminated Yellow Trouble NYC Ab t g LED corresponds Single Haz d C - I to the desired LED lit to _ choice. indicate panel is nausrt in programming mode. Green LED is AC I I rn'l ,_rern Power. E -r 4-5 Programming IDC and SPM Circuit Style Overview The setting of this option determines how the system interprets short and current-limited conditions on the IDCs and SPMs, as follows: • Style C Operation. This option is not currently supported. • Class A/B Operation. When the IDC circuit style is set to Class A/B operation, alarms are initiated on IDCs with either a short or current limited alarm. Abort switches conic into the system as current limited alarms. A manual release comes into the panel as a short. The maximum number of abort switches per circuit is five. Method Description The second prompt, shown below, asks you to set the IDC and SPM circuit style. [02] STYLE C OPERATION: d 1 = No *2 = Yes Text-Based ,d-de`au]., *-current sett-ngj Programming Select Number(X=exit): Press Carriage Return to accept the default (No). Refer to "Programming the Automatic Release Timer" in the next section for a description of the next programming step. Press the ACK key to use the default choice (Class B/A). This saves the selection in memory and moves you to the next programming step. Class B I A These LEDs represent the When second LED available circuit style from top on left style C~ selections. Note that only side of display is Class A/B operation is lit, it indicates that currently supported. the IDC/SPM t circuit style is Press ACK to accept the being default (Class A/B programmed.' operation). Front Panel Programming Yellow Trouble LED a indicates panel is in programming mode. Green LED is AC tw S Power. , r Q RM 8YSTM SILENCE RESET r 4-6 Programming the Automatic Release Timer Overview The Automatic Release Time Delay is a programmable timer that delays the activation of the releasing appliance circuits (RACs). This timer starts immediately after receiving a confirming alarm (cross zoned system) or a First alarm (single alarm system). When the timer expires, the releasing appliances activate (assuming the abort switch is not active). This delay allows evacuation of the protected space before release of the agent. A delay timer should be considered if occupants might possibly be present in the protected space. Keep the following in mind when setting this timer. • Cross-Zoned System. The occupants may or may not receive an evacuation signal depending on the interval between the first and second alarms. Implementing a delay in this case ensures that an interval of time passes between when the signals sound and when the RACs operate. • Single Alarm System. A selection of "0" seconds activates the RACs at the same time as when the NACs signal an initial warning. A delay provides a contigurablc amount of time for the signals to sound and warn occupants to Icavc the protected space. Method Description The third prompt, shown below, asks you to set the Automatic Release Delay Timer. [031 AUTOMATIC RELEASE TIMER: 1 = Immediate (no delay) *2 = 10 sec. 3 = 20 sec. 4 = 30 sec. Text-Based 5 = 40 sec. 6 = 50 sec. Programming d 7 = 60 sec. (d=default, *=current setting) Select Number(X=exit): Enter the number corresponding to the delay timer you want to select and press the carriage return. Refer to "Programming the RAC Time Limit Cutout" for a description of the next programming step. The timer range is 0 to 60 seconds, selectable in 10 seconds increments. The default setting for this option is 60 seconds. Use the Reset key to scroll through the selections. When the desired choice is illuminated, press the ACK key to save the selection in memory and move to the next programming step. econds 10 seconds These LEDs represent the When third LED from top available timer selections. on left side of display is lit, 20 Seconds ti; n Use the RESET key to it indicates the Automatic I 30 Seconds move through the choices. Release Time Delay is being programmed. 40 Seconds Press ACK when the Front Panel 50 Seconds illuminated LED corres Programming 60 Seconds coo ceponds to the desired E Yellow Trouble LED indicates panel is in programming mode."`' ~r Green LED is AC Power. t ~ -r reU 4-7 Programming the RAC Time Limit Cutout Overview The RAC Cutout Timer is a programmable timer that specifics the length of time the Releasing Circuits arc active. When the timer expires, the RACs "cut out," which stops the water flow or release of the extinguishing agent This option is typically used on Deluge systems, and does not work with all releasing systems and or releasing devices. (Some devices discharge their entire supply of agent when tired So this setting would have no effect on operation.) A selection of - 0-means the RACs do not "cut out" and remain on until the system is reset. Method Description The fourth prompt, shown below, asks you to set the RAC Cutout Timer. [041 RAC TIME LIMIT CUTOUT: d*1 = None 2 = 45 secs. 3 = 1 min. 4 = 3 min. Text-Based 5 - 4 min. 6 = S min. Programming 7 = 6 min. 8 = 7 min. (d=default, *=current setting) Select Number(X=exit): Enter the number corresponding to the value you want to select and press the carriage return. Refer to "Programming Manual Release Time Delay" in the next section for a description of the next programming step. Eight selections are available - no cutout, 45 seconds, one minute, three minutes, four minutes, five minutes, six minutes, seven minutes. When the desired choice is illuminated, press the ACK key to save the selection in memory and move to the next programming step. No Cutout These LEDs represent the available timer selections. When fourth LED 45 Second Cutout Use the RESET key to from top on left side t Minute Cutout move through the choices. of display is lit, it t 3 Minute Cutout- Press ACK when the indicates that the RAC Cutout Timer is 4 Minute Cutout . illuminated LED being programmed. 5 Minute Cutout corresponds to the desired Front Panel choice. Programming s Minute Cutout 7 Minute Cutout Yellow Trouble LED indicates panel is in programming mode. svsrEn+lRaue1.e Green LED is AC Power. 4. P ~f 77V SYSTEM g SILENCE PESET t 4-8 Programming Manual Release Time Delay Overview The Manual Release Time Delay is a programmable timer that specifics the delay between the activation of a manual release switch and the activation of releasing appliances. The default setting for this timer is 10 seconds. A setting of 0 causes the releasing appliances to immediately activate after a manual release switch activates. As the timer counts down, the notification appliances sound a temporal or 20 beat per minute signal (the actual signal that plays depends on the setting of the NAC Coding option, as described in "Programming NAC Coding," later in this chapter). Method Description The fifth prompt, shown below, asks you to set the Manual Release Delay Timer. [051 MANUAL RELEASE TIMER: 1 = Immediate (no delay) *2 = 5 sec. d 3 = 10 sec. 4 = 15 sec. Text-Based 5 = 20 sec. 6 = 25 sec. Programming 7 = 30 sec. (d=default, -current setting) Select Number(X-exit): Enter the number corresponding to the value you want to select and press the Carriage Return key. Refer to "Programming Abort Switch Operation" in the next section for a description of the next programming step. Seven selections are available - ranging from 0 to 30 seconds, selectable in five-second intervals. Use the Reset key to scroll through the selections. When the desired choice is illuminated, press the ACK key to save the selection in memory and move to the next programming step. 0 Seconds 5 Seconds These LEDs represent the available timer selections. When fifth LED from 10 Seconds - Use the RESET key to top on left side of move through the choices. display is lit, it indicates 5 Seconds that the Manual 20 Seconds Press ACK when the Release Delay Timer is 25 Seconds illuminated LED Front Panel being programmed. corresponds to the desired Programming so seconds = choice. Yellow Trouble LED indicates panel is in EM-eoue~E programming mode. Green LED is AC Power. ~AnM r,1--M [ ~ Sri-E rrese- I I 4-9 Programming Abort Switch Operation Overview The Abort Release Time Dclay specifics the anion that occurs when the abort switch is released. This option applies only to Agent Release applications. Important Notes: 1.) For all choices except IRI Abort, pressing and holding the abort switch prevents agent release for as long as the switch is held in. For IRI Abort, the abort switch must be pressed and held before the second alarm activation occurs to prevent release. 2.) Refer to "Programming the Application Mode" for information on setting NYC Abort operation. • Immediate. If a confirmed alarm exists (i.e., two detectors on separate zones for a cross zoned system or a single detector in a single alarm system), the RACs activate immediately upon release of the abort switch. • 10s/Remaining. When the abort switch is released, the delay used is whichever is greater the remaining time left on Automatic Release Delay Tinier or 10 seconds. • IRI Abort Cross Zoned System Only (Does not comply with UL 864). When a single alarm is present, pressing the abort switch prevents the RACs from activating. If a second alarm condition occurs while the Abort switch is still pressed, the automatic release timer resets to whatever value has been configured for it and begins to count down, stopping at 10 seconds. When the abort switch is released, the panel starts the release timer countdown. • Original Delay (Does not comply with UL 864). Releasing the abort switch resets the delay timer interval to the value set for the Automatic Release Delay Tinier. Method Description The sixth prompt, shown below, asks you to set the abort switch operation. (061 ABORT SWITCH RELEASE OPERATION: 1 = Immediate Release d*2 = Max of (10 sec or remaining time) 3 = IRI Text-Based 4 = Original delay Programming (d=default, *=current setting) Select Number(X=exit): Enter the number corresponding to the value you want to select and press the carriage return. Refer to "Programming Stage 1 Alarm Operation" for a description of the next programming step. Use the Reset key to scroll through the selections. When the desired choice is illuminated, press the ACK key to save the selection in memory and move to the next programming step. Immediate These LEDs represent the o s i Remaining j available selections. When sixth LED iR) Abort Use the RESET key from top on left side F to move through the of the display is lit, it original Delay; choices. indicates that the NYC Abort k Abort Switch Press ACK when Front Panel operation is being the illuminated LED programmed. corresponds to the Programming desired choice. Note: If you select the NYC Abort Yellow Trouble LED application, the LED indicates panel is in ~Y_rrn,R~l',E corresponding to programming mode. NYC Abort is lit and Green LED is AC no change to this Power. 771 = option is allowed. SILENCE R',,FT 4-10 Programming Stage 1 Alarm NAC2 Coding Overview When an alarm occurs, the AntOPUlsc Z-10's audible NACs use the following signaling cadences to indicate the various stages within the releasing sequence. • Cross Zoned System. The first alarm sounds a temporal code (.5 second ON, .5 second OFF, .5 second ON, .5 second OFF, .5 second ON, 1.5 seconds OFF, and then repeat pattern) Oil the audible NACs. The second alarm causes the cadence to increase to 120 beats per minute for the duration of the Automatic Release Delay Timcr. When release occurs, the audible appliances sound a steady tone. • Single Alarm System. The first alarm sounds a temporal code on the audible NACs for the duration of the Automatic Rcleasc Delay Timer. When the timer expires and the RACs activate, the NACs switch to a steady tone. This option allows the first alarm signal to be changed from temporal (default) to a slower 20 BPM signal, if necessary. Method Description The seventh prompt, shown below, asks you to set the Stage 1 Alarm Coding. [071 STAGE 1 ALARM NAC2 CODING: d 1 = Temporal Text-Based .2 = 20 BPM Programming (d=default, -=current setting) Select Number(X-exit): 1 Enter the number corresponding to the value you want to select and press the carriage return. Refer to "Programming NAC Operation" for a description of the next programming step. Use the Reset key to scroll through the selections. When the desired choice is illuminated, press the ACK key to save the selection in memory and move to the next step. Temporal These LEDs 20 BPM x represent the available options. When seventh LED Use the RESET key from top on left side to move through the of the display is lit, it choices. Front Panel indicates the NAC,' 3 Press ACK when Programming Coding option is being programmed. , the illuminated LED corresponds to the ` desired choice. E Yellow Trouble LED .I indicates panel is in programming mode. Green LED is AC Power. ,LENS 4-11 Programming NAC Operation Overview The AUtOPUISe Z-10's NACs can be configured to operate in any of the following ways. • Both NACS turn on and stay on until a Signal Silence is performed. No inhibit. • NACI on until Resct; NAC2 on until Signal Silence. No Inhibit. • Both NACs turn on and stay on until a System Reset occurs. No Inhibit. • Both NAGS turn on and stay on until a Signal Silence is performed. 60 second inhibit. • NACI on until System Reset; NAC2 on until Signal Silence. 60 second inhibit. • Both NACs turn on and stay on until a System Reset occurs. 60 second inhibit. Selections listed as No Inhibit allow immediate silence or reset; selections listed as I Min. Inhibit, do not allow a silence or reset for one minute following alarm activation. Note: For NYC Abort ONLY, all selections are valid, but the selections labeled "NAC1 On til Reset, NAC2 On til Silence" become "NAC3 On til Reset, NAC1&2 On til Silence." (The inhibit or no inhibit remains valid.) In other words, when the NYC abort application is selected, choosing "NAC 1 on til Reset, NAC2 On til Silence - No Inhibit" is equivalent to choosing "NAC3 On til Reset, NAC1&2 On til Silence - No Inhibit." Method Description The eighth prompt, shown below, asks you to set the NAC Operation. [081 NAC OPERATION: d 1 = Both on til Silence with no inhibit *2 = NAC1 - on til Reset, NAC2 - on til silence with no inhibit 3 = Both on til Reset with no inhibit 4 = Both on til silence with 60 sec inhibit Text-Based 5 = NACI - on til Reset, NAC2 - on til Silence with 60 sec inhibit Programming 6 = Both on til Reset with 60 sec inhibit (d=default, --current setting) Select Number(X=exit): Enter the number corresponding to the value you want to select and press the carriage return. Refer to "Programming Supervisory Latching Operation" for a description of the next programming step. Use the Reset key to scroll through the selections. When the desired choice is illuminated, press the ACK key to save the selection in memory and move to the next step. On Until Silence -v *a These LEDs Reset, z Silence r _ No Inhibit represent the available options. On Until Reset' Use the RESET On Until Silence (key to move When eighth LED from top through the on left side of the display 1 Reset, 2 Silence 1 Min. Inhibit choices. is lit, it indicates the NAC On Until Reset Front Panel Operation option is being Press ACK when Programming programmed. the illuminated LED corresponds to the desired choice. Yellow Trouble LED indicates panel is in programming mode. i,„,E Green LED is AC Power. r-',';-" r,7 7M1 7777, ,ILEN,e aesFr 4-12 Programming Supervisory Latching Option Overview Supervisory input points can be programmed as either latching or non-latching, as described below. (Only certain applications can connect supervisory points to the system. See Table I-I for information on Which applications support supervisory inputs.) • Latching Supervisory Point. A latching supervisory point latches (stays ON) until the supervisory condition (open OSY valve, for example) cleats and the panel is reset. Note: This option must be enabled for Canadian applications. • Non-Latching Supervisory Point. This type of supervisory point does not require user intervention (i.e., panel does not need to be reset) to clear the supervisory condition from the panel. It only requires that the abnormal state causing the condition be cleared. For example, if a supervised OSY valve is opened, a supervisory condition appears at the panel. When the valve is closed, the supervisory condition clears. Method Description I The ninth prompt, shown below, asks you to set the Supervisory Latching Option. [091 SUPERVISORY LATCHING: d*1 = Yes z Text-Based = No (d=default, *=current setting) Programming Select Number(X=exit): Enter the number corresponding to the value you want to select and press the carriage return. Refer to "Programming Supervisory Operation" for a description of the next programming step. Use the Reset key to scroll through the selections. When the desired choice is illuminated, press the ACK key to save the selection in memory and move to the next step. latcning supv - non-latching ; These LEDs represent the When the ninth LED from available options. top on left side of the Use the RESET key display is lit, it indicates to move through the Front Panel the Supervisory Input € choices. Programming option is being programmed Press ACK when the illuminated LED corresponds to the desired choice. Yellow Trouble LED indicates panel is in programming mode. Green LED is AC Power. r'R 4-13 ~r Programming Supervisory Operation Overview When a supervisory condition occurs, you can program the system to react in one of four ways, as follows: Option I Turn Panel's LED and Piczo On (referred to as std below) Option 2 Turn on NAC2 and the LED/Piezo Option 3 Turn on Aux. Relay 3 and the LLD/Piczo Option 4 Turn on ,Aux. Relay 3, NAC2, and the LED/Piczo Note: If either Option 2 or Option 4 are selected, an alarm condition will take precedence over a supervisory condition and NAC2 will operate in accordance with the programmed application mode. Method Description The tenth prompt, shown below, asks you to set the Supervisory Option. [10] SUPERVISORY OPERA`iON: d*1 = LED and piezo only 2 = LED, piezo, and NAC2 Text-Based 3 = LED, piezo, and relay 3 Programming 4 = LED, piezo, NAC2, and relay 3 (d=default, -current setting) Select Number(X=exit): Enter the number corresponding to the value you want to select and press the carriage return. Use the Reset key to scroll through the selections. When the desired choice is illuminated, press the ACK key to save the selection in memory and move to the next step. These LEDs std (LED-piezo)~ represent the ~available options. std+NAC2 - When the tenth LED from J Use the RESET key std+AUX3 to move through the top on left side of the choices. display is lit, it indicates std+AUX3+NAC2' the Supervisory Action Press ACK when the option is being - i illuminated LED Front Panel programmed. r corresponds to the Programming desired choice. J HI Yellow Trouble LED indicates panel is in - programming mode. Green LED is AC Power. ~LARM 'at31EM` ~ AIL EN(,E RESET i 4-14 Saving and Making Changes Set Program Switch When you are finished programming the panel, set the Program Switch, located as shown in to OFF to Save Figurc 4-2, to the OFF position. This automatically saves the changes you have made to the Changes AuIOPUISC Z-10's programming and places the panel in Fire alarm mode. Making Changes to Edits to an existing program can be made at any time. To do this, follow these steps: an Existing Program I . Place Program Switch in ON position. Panel is now in programming mode and does not function as a fire alarm panel. 2. Move to the general programming option (for example, the application type or NAC operation) that you want to change by pressing the ACK button. Each time you press this button, the LED that is lit in the left column moves down one. Use Figure 4-3 as a guide to the meaning of the LEDs. 3. When the appropriate LED in the left column is illuminated. press the RESET key to move through LEDs on the right side of the display, which represent the specific selections for that option. When you are finished making changes, turn the Program Switch to the OFF position to return to fire alarm mode. Archiving the Program if you use the text-based programmer to program the panel, it is possible to create a copy of the program on the PC. To do this, follow these instructions. 4-15 Chapter 5 Operating Introduction This chapter describes the AutoPUlse Z-10 user interface and provides basic instructions for managing alarms, troubles, and supervisory condition, silencing alarms, resetting the system, and viewing the historical log. In this Chapter Refer to the page number listed in this table for information on a specific topic. Topic See Page # Overview 5-2 Acknowledging Alarms, Troubles, and Supervisory Conditions 5-7 Silencing Alarms 5-8 Resetting the System 5-9 Viewing Historical Log/Setting Time 5-10 5-1 Overview LEDs and Keys The AutoPulse Z-10 user interface consists of LEDs and keys. It allows a system operator to monitor the status of the AutoPulse Z-l0's circuits. Figure 5-1 shows the operator interface for the AutoPulse Z-10. The LCD labels used on the interface depend on whether the system is programmed as a preaction/deluge or agent release system. In some cases a Custom, site-specific label may also be used. Preaction/Deluge Label Agent Release Label O Alarm 1 O Am Manual Release O Zone O Trouble Zone 5 Trouble O O Zone 1 Trouble Zone 5 Trouble Q Alarm Walerllow O Alarm Manual Release O Zone 2 O Zone 2 0 Q Trouble Zane 6 Trouble Q Trouble Zone 6 Trouble Alarm NAC l Trouble O Q Alarm NAC 1 Trouble Q O Zone 3 Zone 3 O Trouble NAC 2 Trouble O O Trouble NAL 2 Trouble O Alarm RAC 1 Trouble O Alarm RAC 1 Trouble Q O Zone 4 O O Zone 4 0 O Trouble RAC 2 Trouble Q Trouble RAC 2 Trouble O Alarm Sllencetl Agent Released O Alarm Silencetl Agent Released O O Superv sory Earth Fault Q O Supervisory Earth Fault O System Trouble Abort Active O O Sys[em Trouble #RelayADisc'onnn-t borActive O O AC Power O AC Power O ACK SLENCE RESETtl ACK 10! SYSTEM RESET O O Figure 5-1. Operator Interface The AutoPulse Z-10 uses the LEDs and keys shown in Figure 5-1 as its primary means of displaying status information and controlling the system. Table 5-1. AutoPulse Z-10 Operator Interface LEDs and Keys LED/Key ( Description Alarm LEDs. Four red LEDs, each of which corresponds to a specific zone, flash when an alarm condition occurs. An alarm condition is a serious event, indicating the possibility of fire danger. Be aware of any facility-specific procedures that you may be required to follow. Operators should be aware that the AutoPulse Z-10 is a hardwired, zone-oriented system, meaning the device Alarm and Zone, NAC, and causing the alarm is not individually identified, and only RAC Trouble LEDs the activated device(s) zone is identified. It is critical that system operators understand the way in which zone numbers map to physical areas of the building Trouble LEDs. A flashing trouble LED for one of the system's zones, NACs or RACs indicates the presence of a circuit break or ground within a system point (smoke detector, heat detector), or somewhere in the wiring between the AutoPulse Z-10 and one of its points. Continued on next page 5-2 Overview, Continued LEDs and Keys, (continued) Table 5-1. AutoPulse Z-10 Operator Interface LEDs and Keys (continued) LED/Key Description Manual Release. Flashes to indicate that a manual release switch has been activated. Waterf low. If the sprinkler system is equipped with a Manual Release and waterflow switch, this LED indicates that the switch has Waterflow LEDs been activated and water is flowing through the sprinkler system. Be aware that most sprinkler systems do not open every sprinkler head when a fire condition occurs. Typically, only specific heads, located near the source of the fire, activate. A supervisory condition indicates a problem with the Supervisory LED condition of the building's automatic sprinkler system. In many cases it indicates that a manual valve somewhere on the system has been closed. Flashes until acknowledged when any trouble occurs in System Trouble LED the panel. Changes from flashing to on steady to indicate an acknowledged trouble. Green LED. When lit steady, it indicates that the panel is receiving AC power that is within the specified range. If AC Power LED this LED is not lit and the panel is still functioning, this indicates that the panel is using battery power to operate. Make sure to notify the building's facility management immediately if this occurs. This LED turns on steady when the Releasing Appliance Agent Released LED Circuits activate. These circuits are connected to the device that controls the release of the agent used in the protected area. Earth Fault LED On to indicate a wiring fault from a circuit to Earth. Abort Active LED On when an abort switch is activated (pressed). Optional relay modules feature a relay disconnect switch Relay Disconnect Switch that disconnects the relay from the system when it is and LED pressed. The LED lights when this switch is pressed to indicate that the relay is disconnected. The system LEDs (alarm, supervisory, trouble) flash to indicate the presence of an unacknowledged alarm, supervisory, or trouble condition somewhere in the ACK Key and LED system. The ACK key allows you to indicate that you have c,' served the presence of an alarm. When you press it, the system creates an entry in the system log to indicate the alarm was acknowledged. Continued on next page 5-3 Overview, Continued LEDs and Keys, (continued) Table 5-1. AutoPulse Z-10 Operator Interface LEDs and Keys (continued) LED/Key Description Pressing the ALARM SILENCE key provides a means of silencing the building's audible notification appliances Alarm Silence Key and LED (horns). LED is ON to indicate that an alarm is still active in the system but the NACs have been silenced (i.e., the Alarm Silence Key has been used). Pressing this key directs the panel to reset all attached devices and clear all acknowledged alarms, troubles, and System Reset Key and LED supervisory conditions. All alarms must be acknowledged and all devices must be reset (i.e., alarm condition or trouble must clear) before the system can be reset. Delay Timers System operators must be aware of the following three programmable timers on the AutoPulse Z- 10. Rcfcr to the label on the back of the front cover, which provides a location for specifying the tinier values, for information on the specific tinier values used for the facility. • Manual Release Delay Timer. The Manual Release Time Delay is a programmable tinier that specifies the delay between the activation of a manual release switch and the activation of releasing appliances. The default setting for this timer is 10 seconds. A setting of 0 causes the releasing appliances to immediately activate after a manual release switch activates. As the timer counts down, the notification appliances sound a temporal or 20 beat per minute signal (the actual signal that plays depends on the setting of the NAC Coding option). • Automatic Release Delay Timer. The Automatic Release Time Delay is a programmable timer that delays the activation of the releasing appliance circuits. This timer starts immediately after receiving a confirming alarm (cross-zoned system) or a first alarm (single alarm system). When the timer expires, the releasing appliances activate (assuming the abort switch is not active). The timer range is 0 to 60 seconds, selectable in 10 seconds increments. The default setting for this option is 60 seconds. • Abort Release Time Delay. The Abort Release Time Delay specifies the action that occurs when the abort switch is released. This option applies only to Agent Release applications (applications one through four in the application matrix described in Table 1-1). Refer to the description of the Abort Release Time Delay in Chapter 4 of this manual for specific :nformation. Continued on next page 5-4 Overview, Continued Manual Release Agent Release systems typically include a manual rclcase switch used to manually activate the Switch agent release system. Activate this witch only when you observe it tire in progress. When you press a manual rclcase switch, the Manual Release LED illuminates at the panel to indicate the switch has been pressed. A programmable manual release delay timer may or may not be used with the system. If one is used, agent release does not occur until this timer expires. If no delay timer is used, agent release occurs IMMEDIATELY upon activating the manual release switch. If a delay timer is used, the NAC2's horns pulse (either a temporal or 20 BPM code) while the timer counts down. When the timer expires, NAC2's horns change from pulsing to ON Steady. Note: When the NAC2 horns change their pattern, agent release is imminent. Abort Switch An operator can prevent the release of the suppression agent by pressing the abort switch at any time between when the automatic releasing sequence starts and the solenoid is activated. It is critical that all operators and building facilities' personnel understand the following about the abort switch. • Manual release stations override the abort switch. In other words, if a manual release station is activated while the abort switch is held in, agent release occurs. • No agent release occurs while the abort switch is held in. • The abort switch has no effect on an activated releasing, preaction, or deluge system (i.e., if the system is releasing agent or water, pressing the switch will not stop the release). • For IRI Abort, the abort switch must be pressed and held before the second alarm activation occurs to prevent release. Continued on next page 5-5 Overview, Continued Abort Switch, When the abort switch is released, one of the following occurs: (continued) - If the alarm conditions clear and a system reset occurs before the switch is released, no agent release occurs. - If the alarm conditions are not clear and the delay timer is still running, no agent release occurs until the timer expires. - If the alarm conditions arc not clear and the delay timer has expired, agent release occurs. Alarm Clear/Reset Operators should be made aware that if the alarm is verified to be false, clearing the alarm condition and resetting the system prior to releasing the abort switch prevents agent discharge. Performing a Lamp Performing a lamp test lights all of the LEDs on the system and allows you to verify that all of the Test system's LEDs are functioning. To perform a lamp test, press and hold the ACK button for a duration of five seconds. 5-6 Acknowledging Alarms, Troubles, and Supervisory Conditions Panel Indications for When an alarm condition is detected by the AUtoPUlse Z-10, the panel does the following to Alarm, Trouble, indicate the presence of the alarm. Supervisory Condition - - - - - - Condition Panel Indications Alarm Red LED, corresponding to zone or SPM in alarm, pulses. Tone-Alert sounds steady. _ Yellow LED, corresponding to zone or SPM with trouble condition, Trouble flashes. Tone-Alert pulses. After acknowledging, the trouble LED stays ON until the trouble condition clears- Supervisory Yellow Supervisory LED flashes and tone-alert sounds if a sprinkler or waterpump valve is closed. Acknowledging Use the ACK key to acknowledge every abnormal status present in the system (i.e., if there are Alarms three alarms and two troubles, you must press the ACK key five times.) The panel's tone-alert turns off when all abnormal conditions are acknowledged. 5-7 Silencing Alarms Procedure Silencing an Alarm turns off the horns and strohes that warn occupants of the building to the presence of an alarm condition. To silence an alarm, press the ALARM SILENCE key. The ALARM SILENCED LLD turns on steady and the signals turn off. The LED remains on until all alarms are clear and the system is reset. 5-8 Resetting the System Procedure I . Restore or replace all affected devices (agent release tanks, sprinkler system components, smoke detectors, heat detectors, etc.) in accordance with the instructions provided with each device. 2. press the SYSTEM RESET key. All outputs (NACs, RACs, and relays turn oft) and zone power is dropped and restored. Any remaining abnormal conditions reactivate the appropriate outputs. If a release has occurred, contact the building's facilities management and your building's fire alarm sprinkler representative for information on resetting the agent release, preaction sprinkler, or deluge sprinkler system. Important Note: If an alarm is verified to be false, clearing the alarm condition and resetting the systemIn•ior to releasing the abort suvitch prevents agent discharge. 5-9 Viewing Historical Log/Setting Time and Date Procedure I . Remove plastic PCB cover. 2. Place Pro-rarn Switch on the AutoPulse Z-10 in the ON position. 3. Locate the PC within 6 feet of the AutoPulse Z-10 FACP and connect a Part No. 43 1206 serial cable to a free serial port (typically COM I ) on the PC. 4. Connect the other end of the cable to the service port on the AutoPulse Z-10 FACP. The Service port, labeled P2, is located on the top left of the AUtoPIIIsc Z-10 motherboard. Make sure the stripe on the cable is positioned at the bottom, as shown in the following figure. RFT-ASING NOTIFICATION CIRCUITS CIRCUITS 12-18 AUC 12-18 A6G 2A MAX. / CK-,2A MAX. / CKT, RAC1 RAC2 NAC1 NAC Part No. ~I~I~hhIPhI~T, 431206 Seria Fff P2 Cable o CPT;aNA CLASS A 0 0 ADAPTER FOR NACs Stripe -/Figure 5-2. Connecting Cable to Service Port 5. Use a terminal emulation program, such as Windows Hyperterminal to establish a serial communication session with the AutoPulse Z-10. Set the serial communication parameter's for the PC port to which the serial cable is connected, as follows: • 9600 baud • no parity • 8 data bits • 1 stop bit 6. To display the historical log, enter an "L," followed by a carriage return, at the dash prompt. 7. To view the timestamp used by the panel, enter a "T," followed by a carriage return. To change the timestamp, enter the following command at the dash prompt (where HH is the hour, MM is the minutes, and SS is the seconds). T HH. MM.- SS Each field must be separated by a colon. 8. To view the current date set on the panel, enter a "D," followed by a carriage return, at the dash prompt. To change the date set on the panel, enter the following command at the dash prompt (where MM is the month, DD is the date, and YY is the year). D MMIDD!YY 5-10 Appendix A FM System Requirements Introduction This appendix describes specific requirements for Factory Mutual agent release and preaction/deluge systems. In this Chapter Rcfer to the page number listed in this table for information on a specific topic. Topic See Page # FM Requirements/Approvals A-2 A-1 FM Requirements/Approvals General Use battery charts Part No. 431437, with discharge curves for battery voltage to 23 VDC 111ininIL1111. • Use Coil Supervision Module Part No. 430687 on each releasing circuit. Automatic Release circuit voltages must rcnlain between 20.4 and 26.4 VDC under all load conditions. Extinguishing Follow wiring chart to determine maxinuull wiring distance from panel to releasing appliances. Release Requirements Preaction/Deluge . Circuits are compatible with Automatic Water Control Valves, Groups A, B, C, D, E, F, G Applications and H. See table below. • Initiating device circuits must be wired Class A, using module Part No. 430531. • Battery standby must be 90 Ahr. • Release circuit voltages Must rcnlain between 20.4 and 26.4 VDC under all load conditions. Follow wiring chart to determine maximum wiring distance from panel to releasing appliances. Maximum Distance from Panel to Last Device (Feet) Alarm Line Current 18 AWG 16 AWG 14 AWG 12 AWG Resistance (Amps) (Ohms) 0.25 434 690 1098 1747 6.2 0.50 217 345 549 874 3.1 0.75 145 230 366 582 2.07 1 109 172 275 437 1.55 1.25 87 138 220 349 1.24 1.50 72 115 183 291 1.03 1.75 62 F 99 157 250 0.89 2 54 T 86 137 218 FM Approved Water The following table identifies the FM approved water control valves that can be used with the Control Valves AutoPulse Z-10. FM Group Model A Skinner solenoid ,alve Model LV2LBX25, 24 V dc, 11 WATTS, 458 mA, 1/2 in. NPS, 1/2 in. orifice. These valves are interchangeable. • ASCO solenoid valve Model T8210A107, 24 V dc, 16.8 WATTS, 700 mA, 112 in. NPS, 5/8 in orifice. B • ASCO solenoid valve Model R8210A107, 24 V dc, 16.8 WATTS, 700 mA, 1/2 in. NPS, 5/8 in. orifice. • ASCO solenoid valve Model 8210A107, 24 V dc, 16.8 WATTS, 700 mA, 1/2 in. NPS, 5/8 in. orifice. Continued on nest /gage A-2 FM Requirements/Approvals, Continued FM Approved Water Control Valves, FM Group Model (continued) C Star Sprinkler Solenoid Valve Model 5550, 24 VDC, part of Model D deluge valve. - ASCO solenoid valve Model 8210G207, 24 V dc, 10.6 WATTS, 440 mA, 1/2 in. NPS, 1/2 in. orifice. D ASCO solenoid valve Model HV2648571, N.C. 24 V dc, 10.6 WATTS, 440 mA, 1/2 in. NPS, 112 in. orifice. • ASCO solenoid valve Model HV2648581, N.O. 24 V dc, 10.6 WATTS, 440 mA, 1/2 in. NPS, 1/2 in. orifice. • Skinner solenoid valve Model 73218BN4UNLVNOC1 1 1C2, 24 V dc, 10 WATTS, 420 mA, 1/2 in. NPS, 5/8 in. orifice. E Skinner solenoid valve Model 73212BN4TNOONOC111 C2, 24 V dc, 10 WATTS, 420 mA, 112 in, orifice, 5-300 psi rated working pressure. F Skinner solenoid valve Model 73212BN4TNLVNOC322C2, 24 V dc, 22 WATTS, 112 in. NPS, 0.92 A, 250 psi (1725 kPa), 1/2 in. orifice. Skinner solenoid valve Model 71395SN2ENJ1NOH111C2, 24 V dc, 10 G WATTS, 420 mA, 1/4 in. NPS, 1/16 in. orifice, 250 psi (1725 kPa) rated working pressure. H Viking Model HV-274-060-001 solenoid valve, 24 VDC, 22.6 WATTS, 1/2 in NIPS, 0.94 A, 250 psi (1725 kPa), 3/4 in orifice. A-3 Appendix B TEPG-US/Ansul UL Part Number Cross Reference Description TEPG Part No. Ansul Part No. 636-598 431290 Internal Membrane Membrane Keyswitch over 637-599 - 431291 - System Board 566-353 431292 Expansion Relay Keypad 637-610 431293 8 Pin Header/Class A 532-624 - 431294 Fuse, 2A, 250V, Fast 208-163 431295 Ferrite Bead 155-010_ 431296 Battery Harness 734-096 431297 ~Z10 Door Assembly 742-962 431298 Red Back Box w/o Labels 698-894 431299 ~B-Key 252-027 L 431202 4606 Annunciator Keyswitch 454-132 431203 Varistor for External Aux Power 463-017 431204 8 Pin Header/Class A 532-624 431205 Laptop Programmer Download Cable ____L_733-794 431206 _Ferrite Bead Kit _______740-836 431207 ~EOL Harness 2.2K 1/2W 734-125 431208 EOL Harness 3.3K 1W 734-127 431210 EOL Harness 4.7K 1/2W 734-128 _ 431212 EOL Harness 6.8K 1/2W 734-129 431214 EOL Harness 1.8K EOL Harness 560 ohm 1W 734-131 431218 EOL Harness 1.2K 1W 734-132 431220 EOL Harness 10K 1/2W 734-133 431222 EOL Harness 20 ohm 1W 734-134 431224 EOL Harness 1 K 1 W 734-135 431226 EOL Harness 100 ohm 1/2W _1 734-136 431227 EOL Harness 22K 1/2W 734-137 431228 EOL Harness 3.3K 1/2W 378-115 430156 SSD Smoke Detector Adapter Tool 553-805 431229 SSD Smoke Detector Tool 553-810 431230 Static Control Kit 553-484 431231 Abort Supervision Module 637-675 431196 Two Amp Coil Supervisor Module 637-754 430687 _EOL Device Plate Mounted ULC 743-080 431537 Base Panel 120/240V Red 742-908 430525 Auxiliary Relay Module 743-021 430529 Battery Meter Module 748-623 430530 _Class A Adapter Module 743-022 430531 _ 50 Ah External Battery Charger 120V 637-770 50 Ah External Battery Charger 240V 637-771 Photo Smoke Detector (2.8%) 743-012 430559 Photoelectric Detector Smoke/Heat 677-468 430560 B-1 Description TEPG P/N Ansul # Ionization Smoke Detector 677-469 430561 Photoelectric Smoke Detector (3.5%) - 677-470 430562 - - - Electronic Heat Detector 135F Rate of Rise 677-471 430565 Electronic Heat Detector 20OF Rate of Rise 677-473 430566 Detector Base 2 wire 677-474 430567 j Detector Base 2 Wire w/ Aux Alarm Relay- - 677-475 j - 430569 _ Detector Base 2 Wire w/ Remote Alarm Indic. 677-476 430570 Photo Smoke Detector (2.8%) (Canada) 743-013 430695 Photoelectric Detector Smoke/Heat (Canada- 677-488 _ F- 430696 Ionization Smoke Detector (Canada) 677-489 430697 Electronic Heat Detector 135F Rate of Rise (Canada) 677-490 430699 Electronic Heat Detector 20OF Rate of Rise (Canada) 677-491 430700 Detector Base 2 wire (Canada) 677-492 430701 Detector Base 2 Wire w/ Aux Alarm Relay (Canada) 677-493 430702 Detector Base 2 Wire w/ Remote Alarm Indic. (Canada) 677-494 430703 B-2 ANSULINCORPORATED ONE STANTON STREET MARINETTE, WI 54143-2542 715-735-7411 d C6 0 r J UI ~ N C C O U C J C Q N O O O a 0 M a 0 2 r ANSUL® SAPPHIRETm ENGINEERED CLEAN AGENT SYSTEM DESIGN, INSTALLATION, RECHARGE AND MAINTENANCE MANUAL ANSUL PART NO. 570590-1 UNDERWRITERS LABORATORIES FILE NO. EX-4510 APRIL 1, 2005 REVISION RECORD 4-1-05 - - - DATE PAGE REV. NO. DATE PAGE REV. NO. 4-1-05 Table of Contents _1- 4-1-05 C 9-1 1 4-1-05 1-1 j 1 - 4-1-05 -9 2 1 - i 4-1-05 1-2 1 4-1-05 10-1 1 - t 4-1-05 1-4 1 4-1-05 10-7 1 4-1-05 1-6 1 4-1-05 10-16 1 4-1-05 1-8 1 4-1-05 1-9 1 4-1-05 1-11 1 j I 4-1-05 1-15 1 4-15-05 I 1-20 - 1 - - - 4-1-05 Section II - MSDS Updated 4-1-05 3-2 1 i 4-1-05 3-4 1 4-1-05 3-5 1 4-1-05 4-2 1 4-1-05 5-1 1 4-1-05 5-2 1 4-1-05 5-3 1 4-1-05 5-4 1 4-1-05 5-5 1 4-1-05 5-7 1 4-1-05 5-8 1 4-1-05 5-11 1 i 4-1-05 ~ 5-12 1 I 4-1-05 6-1 1 4-1-05 6-2 1 L 4-1-05 6-3 1 ? Indicates revised information. U ANSUL Table of Contents 4-1-05 REV.1 SA4-,,,??HRC m w~~~~~s:on'V~«ns SECTION FORM NO. PAGES 1. COMPONENTS 1-1 -1-21 3MT1 NovecTM 1230 Fire Protection Fluid F-2003183-1 1-1 Agent Tank Shipping Assembly F-2003184-1 1-2 Discharge Valve Assembly F-2003185 1-3 Electric Actuator - 24 VDC F-2003186-1 1-4 AUTOPULSEo Control System F-2003187 1-5 ANSULAUTOMAN II-Co Releasing Device (For Pneumatic Actuation) F-2003188-1 1-6 Mounting Bracket Assembly F-2003189 1-7 Flexible Discharge Hose F-2003190-1 1-8 Manifold Check Valves F-2003192-1 1-9 3 In. Discharge Hose/Check Valve Assembly F-2003191 1-10 Discharge Nozzles F-2003193-1 1-11 Pneumatic Actuator F-2003194 1-12 Local Manual Actuator F-2003195 1-13 Pressure Switch - DPST F-2003196 1-14 Low Pressure Switch F-2003197-1 1-15 Pressure Trip F-2003198 1-16 Warning Signs F-2003199 1-17 Safety Relief Valve F-2003201 1-18 Liquid Level Indicator F-2003203 1-19 Actuation Line Components F-2003200-1 1-20 Recharge Components F-2003232 1-21 II. MSDS 2-1 - 2-6 III. GENERAL INFORMATION 3-1 -3-5 IV. PLANNING 4-1 - 4-2 V. DESIGN 5-1 - 5-14 VI. INSTALLATION 6-1 - 6-4 VII. INSPECTION 7-1 - 7-2 VIII. MAINTENANCE 8-1 -8-18 IX. RESETTING AND RECHARGE 9-1 - 9-4 Valve Teardown 9-1 -9-2 Testing 9-2 - 9-3 Filling Instructions 9-3 - 9-4 X. TYPICAL EXAMPLE 10-1 -10-18 -a I:l ANSUL System Components UL EX-4510 4-1-05 Page 1-1 REV. 1 S 4,Athp, I P P H F Ic suPP3E»ion s~sr~nn. 3MTm NovecTM 1230 Fire Protection Fluid Novec 1230 fluid has been developed as a halon replace- ment alternative to HFCs, HCFCs, and PFCs in special hazard, high value applications. It has unique qualities that provide the right balance of fire extinguishing performance, end use safety, and environmental sustainability. Novec 1230 fluid is low in toxicity and environment impact. It is a liquid at room temperature, with a low vapor pressure, which allows for ease in handling, storage, and shipping. Novec 1230 fluid is available in two sizes of containers: Part No. 570650 - 55 gallon (208.2 L) Drum Shipping Assembly Part No. 570534 - 220 gallon (832.8 L) Tote Shipping Assembly ANSUL and SAPPHIRE are trademarks of Ansul Incorporated or its affiliates. TYCO SAFETY PRODUCTS, MARINETTE, WI 54143-2542 715-735-7411 Form No. F-2003163-1 ©2005 Ansul Incorporated Litho in U.S.A. U ANSUL System Components UL EX-4510 4-1-05 Page 1-2 REV. 1 Hi Csm NuF,. =ve_Nsian , Agent Tank Shipping Assembly The agent tank assemblies are manufactured in accor- dance with DOT 4BW450 and consist of a tank fitted with a1 valve and internal siphon tube. Eight partial filled tank sizes - are available. A nameplate is adhered to the tank displaying the agent weight and gross weight. Tanks are superpres- surized with dry nitrogen to 360 psi (25 bar) at 70 °F u' I (21 °C). All tanks are available in multiple fill increments. Note: Quantity of agent will have to be specified on cus- tomer P.O. when ordering factory filled tank shipping - assemblies. Also, when low pressure switch and liquid level indicator installed options are required, they must be specified when A r . - ordering. Component Material Approvals Tank Steel DOT4BW450 Valve Brass Valve/TankAssembly UL Listed -t - 006901 ULC Listed FM Approved Shipping Nominal Approximate Dimension Assembly Tank Size Agent Quantity Empty Weight "A" Diameter Valve ? Part No./TC lbs. (kg) lbs. (kg) lbs. (kg) in. (cm) in. (cm) Size 570635 20 (9.1) 10 to 21 (4.5 to 9.5) 33 (15) 12 (30.4) 10 (25.4) 1 in. 570633 50 (22.7) 20 to 46 (9.1 to 21) 41 (18.6) 19.8 (50.2) 10 (25.4) 1 in. ? 570634 90 (40.8) 37 to 88 (17 to 40) 57.5 (26) 32.8 (83.3) 10 (25.4) 1 in. 570638 140 (63.5) 58 to 138 (26 to 62.6) 108 (49) 23.5 (59.6) 16 (40.6) 2 in. ? 570639/570657 280 (127) 116 to 280 (52.6 to 127) 158 (71.7) 40.2 (102) 16 (40.6) 2 in. 570640/570652 390 (177) 161 to 388 (73 to 176) 198 (90) 53.3 (135) 16 (40.6) 2 in. 570641/570653 450 (204) 194 to 459 (88 to 204) 233 (106) 64.3 (163) 16 (40.6) 2 in. 570586/570654 850 (386) 375 to 851 (170 to 386) 456 (207) 57.7 (146.6) 24 (61) 3 in. ANSUL and SAPPHIRE are trademarks of Ansul Incorporated or its affiliates. TYCO SAFETY PRODUCTS, MARINETTE, WI 54143-2542 71 5-735-7411 Form No. F-2003184-1 ©2005 Ansul Incorporated Litho in U.S.A. 1it ANSUL System Components UL EX-4510 12-1-03 Page 1-3 NuPi?3e»:on -Nv.,iPz:eni Discharge Valve Assembly The replacement valve assembly is available for field BONNET / replacement. The valve is fully assembled, with internal ASSEMBLY components, gauge, and burst disc assembly. The replace- ment valve is 100% leak tested before it leaves the factory. Component Material Approvals Valve Brass UL Listed ULC Listed P PISTON _ FM Approved _ I ? ASSEMBLY I Ilf PILOT - PORT Shipping Assembly Part No. Description 1 570535 1 in. Valve Shipping Assembly ~ DISCHARGE 570536 2 in. Valve Shipping Assembly OUTLET BURST DISC 570588 3 in. Valve Shipping Assembly ASSEMBLY - - 111a762 ( 0 _i Oo 825 ANSUL and SAPPHIRE are trademarks of Ansul Incorporated or its affiliates. TYCO SAFETY PRODUCTS, MARINETTE, WI 54143-2542 715-735-7411 Form No. F-2003185 ©2003 Ansul Incorporated Litho in U.S.A. -1 1:1 ANSUL] System Components UL EX-4510 4-1-05 Page 1-4 REV. 1 S,,46,, HFIc4@ auaa3Casion _N Electric Actuator - 24 VDC The 24 VDC electric actuator is required to electrically actu- 1 IN. 3SP_..._.._~,, ate the tank valve. An electric signal is required from the _ AUTOPULSE Control panel which operates the solenoid in the actuator. This causes the actuator to open the tank - valve and discharge the agent. On multiple tank systems, only one actuator is required, on the master valve. The remaining tanks will be actuated pneumatically through 1/4 in. stainless steel hose and a pneumatic actuator installed on the top of each tank valve. The actuator draw is 0.2A. Note: Composite cap attached to actuator is used as the _ i reset tool. To reset actuator, put cap in place and turn (85 m) i knurled swivel coupling until cap threads are completely ` engaged. A small "click" will be heard while resetting. N6763 Note: Actuator has a 10-year shelf life. T-- Thread 1-component Material Type Approvals Electric Body: Steel 1 in. UL Listed Actuator Swivel Nut: j BSPP ULC Listed Brass FM Approved Actuation Pin: 1.8 K (45 mm) _-i Stainless Steel - - - - - Shipping Assembly Part No. Description 570537 Electric Actuator ANSUL and SAPPHIRE are trademarks of Ansul Incorporated or its affiliates. TYCD SAFETY 'IRDDUCTS, MARINETTE, WI 54143-2542 71 5-735-7411 Form No. F-2003186-1 ©2005 Ansul Incorporated Litho in U.S.A. U ANSUL System Components UL EX-4510 12-1-03 Page 1-5 ??Hi:tC" NuPP=te~~:on -NY_%zen_N AUTOPULSE Control System The AUTOPULSE Control System is designed to monitor fixed fire hazards. The control system can automatically actuate the fire suppression system after receiving an input signal from one or more initiating devices, i.e., manual pull station or detector. The control system incorporates an internal power supply, on-line emergency batteries, and solid state electronics. Refer to Detection and Control man- ual for additional information. m 002,9r 5 ANSUL and SAPPHIRE are trademarks of Ansul Incorporated or its affiliates. TYCO SAFETY PRODUCTS, MARINETTE, WI 54143-2542 715-735-7411 Form No. F-2003187 92003 Ansul Incorporated Litho in U.S.A. :l ANSUL System Components UL EX-4510 4-1-05 Page 1-6 REV. 1 ANSUL AUTOMAN II-C Releasing Device IS ! C 3uF,i,3i=-sNifan _Nv~`iii (For Pneumatic Actuation) The ANSUL AUTOMAN II-C Releasing Device consists of a metal enclosure which contains a spring-loaded puncture c o pin release mechanism, an actuation cartridge, electrical n circuitry, and an input/output terminal strip for making elec- trical connections. The ANSUL AUTOMAN II-C releasing device provides automatic pneumatic actuation of the SAPPHIRE System. When wired to an AUTOPULSE Control system, it will provide supervised electric detection and release. It also provides manual actuation using the strike button on the release. When an AUTOPULSE Control System is used, manual actuation is accomplished using an electric manual pull station. The ANSUL AUTOMAN II-C releasing device requires an LT-30-R nitrogen cartridge for system actuation. Cartridge must be ordered separately. Component Approvals ° o o0ay42 ANSUL AUTOMAN II-C UL Listed Releasing Device ULC Listed FM Approved Shipping Assembly Part No. Description ? 17728 ANSULAUTOMAN II-C Releasing Device 5373 LT-30-R Nitrogen Cartridge (order separately) 26310 Cocking Lever (order separately) ANSUL and SAPPHIRE are trademarks of Ansul Incorporated or its affiliates. TYCO SAFETY PRODUCTS, MARINETTE, WI 54143-2542 71 5-735-7411 Form No. F-2003188-1 ©2005 Ansul Incorporated Litho in U.S.A. J:l ANSUL System Components UL EX-4510 12-1-03 Page 1-7 PPHRE' NuPP3e»ion sY_%ren_N Mounting Bracket Assembly The mounting bracket assembly consists of a nut, bolt, and two bracket straps (back channel must be supplied by oth- ers). Approved type of Unistrut Channel is series P1000T, 1.6 in. x 1.6 in. (41 mm x 41 mm). Each strap is notched for insertion into the channel, allow- A ing the tank to be properly aligned. The bracket assembly is designed to be mounted to a rigid vertical surface with the tank assembly resting fully on the floor or vertical surface. A single bracket assembly is required for 20, 50, 90, 140, 280, 390, and 450 lb. tank sizes. Two bracket assemblies are required for the 850 lb. size tank. ~r Component Material Approvals - ----006759 Mounting Bracket Steel UL Listed ULC Listed FM Approved Shipping "A„ Assembly Dimension Part No. Description in. (cm) 570085 Bracket Assembly for 15.7 (40) 20, 50, and 90 lb. tanks (10 in. diameter) 570092 Bracket Assembly for 23.6 (60) 140, 280, 390, and 450 lb. tanks (16 in. diameter) 570336 Bracket Assembly for 27.3 (69) 850 lb. tank (24 in. diameter) ANSUL and SAPPHIRE are trademarks of Ansul Incorporated or its affiliates. TYCO SAFETY PRODUCTS, MARINETTE, WI 54143-2542 t 715-735-7411 Form No. F-2003189 ©2003 Ansul Incorporated Litho in U.S.A. :1 ANSUL System Components UL EX-4510 4-1-05 Page 1-8 REV. 1 i R C NuPP3c3]rii l ]Y.,scrm , Flexible Discharge Hose The flexible discharge hose is used to connect the tank valve outlet to rigid distribution piping. On single tank sys- tems, a check valve is not required. Three sizes of flexible discharge hoses are available: 1 in. (for 20, 50, and 90 lb. tank sizes), 2 in. (for 140, 280, 390, and 450 lb. tank sizes), and 3 in. (for 850 lb. tank sizes). 1 IN. HOSE ? The 1 in. flexible hose or the adaptor, Part No. 570557, can 161N (406 mm) be used to connect the valve outlet to rigid pipe. 1 AND 21N. 2 IN. HOSE FLEXIBLE The 2 in. flexible hose or the adaptor, Part No. 570558, can 20 3/8 IN. DISCHARGE HOSE (517 mm) ' be used to connect the valve outlet to rigid pipe. When using a 3 in. flexible discharge hose (without a mani- fold), three single tank swivel adaptors are available for connection from the valve outlet to the flexible discharge hose. .)06760 Component Material Approvals - 1 IN. HOSE 1, 2, 3 in. Flexible Stainless Steel UL Listed 3IN (79 mm) Discharge Hose Tubing with ULC Listed 21. (HOSE 51N. (127 mm) Stainless Steel FM Approved Braid Cover Shipping 0. Assembl ADAPTOR- TANK y TO PIPE Part No. Description 570539 1 in. Flexible Discharge Hose - - - _ - - 570538 2 in. Flexible Discharge Hose 1 IN. ADAPTOR 'i. IN. (64 rmn) 69990 3 in. Flexible Discharge Hose 2 2 1/2 INz . ADAPTOR 006760: 570557 1 in. Single Tank Swivel Adaptor 3 3/16 IN. (81 mm) 570558 2 in. Single Tank Swivel Adaptor 3 IN. NPT 69470 3 in. Flared to 3 in. NPT Single Tank Swivel Adaptor _ a 3 IN. FLARED SWIVEL 31N. 69471 3 in. Flared to 3 in. Grooved Single Tank FLARED SWIVEL Swivel Adaptor O 570363 3 in. Flared to 3 in. BSPT Single Tank Swivel Adaptor 161N. 31N. NP OR 31N- (410 mm) 3 IN. BSPT GROOVED 31N.ADAPTORS 006248 006249 31N. FLEXIBLE DISCHARGE HOSE ANSUL and SAPPHIRE are trademarks of Ansul Incorporated or its affiliates. TYCO SAFETY PRODUCTS, MARINETTE, WI 54143-2542 71 5-735-7411 Form No. F-2003190-1 9)2005 Ansul Incorporated Litho in U.S.A. U ANSUL System Components UL EX-4510 4-1-05 Page 1-9 REV. 1 IS1546;\ If?H1iC . suPin=-Nsion _N Manifold Check Valves The manifold check valve is designed to prevent a loss of agent during a discharge in the event that a tank has been removed from the system. The check valve is a "mush- - room" type, which lifts into the manifold as discharge ? 15 occurs. NPIN. IN. OR 25 T MALE FOR R MANIFOLD INLET Two sizes of manifold check valves are available: 1 in. and - CONNECTION 2 in. - Manifold are constructed of standard Schedule 40 pipe and 300 lb. fittings. The check valves assemble directly into the fittings. - Component Material Approvals Check Valve Body: UL Listed 77 Brass ULC Listed Stem and Seal: FM Approved 1 IN. OR 2IN. NPT Stainless Steel FEMALE FOR - - DISCHARGE HOSE ? CONNECTION Shipping Assembly Part No. Description 570566 1 in. Manifold Check Valve 570568 2 in. Manifold Check Valve ANSUL and SAPPHIRE are trademarks of Ansul Incorporated or its affiliates. TYCD SAFETY PRODUCTS, MARINETTE, WI 54143-2542 715-735-7411 Form No. F-2003192-1 ©2005 AnSUI Incorporated Litho in U.S.A. U ANSUL System Components UL EX-4510 12-1-03 Page 1-10 P P Hi 3 In. Discharge Hose/ aru~~~e»;on SA6,s~sc~nN Check Valve Assembly The 3 in. discharge hose/check valve assembly combines 3 IN. NPT the elbow, hose, check valve, and swivel coupling for con- nection to the valve discharge outlet and the discharge CHECK VALVE manifold. The check valve provides a 1 1/2 in. (3.8 cm) height adjustment. Component Material Approvals APPROX. - _ 27 1/2 IN. 3 in. Discharge Hose. Double Braided i UL Listed (69.9 cm) Hose/Check Stainless Steel ULC Listed Valve Elbow: Stainless Steel FM Approved Valve Swivel Nut: Stainless Steel Check Valve Body: Cadmium Plated 3IN FLARED Mild Steel SWIVEL Check Valve Seal - - and Seat: Brass oorza, Spring: 8 1/2 IN. ---r. Stainless Steel 1 (21.6 cm) I Shipping Assembly Part No. Description 1.....69841-- 3 in. Discharge Hose/ Check Valve Assembly _ _ and SAPPHIRE are trademarks of Ansul Incorporated or its affiliates. TYCO SAFETY PRODUCTS, MARINETTE, WI 54143-2542 71 5-735-7411 Form No. F-2003191 ©2003 Ansul Incorporated Litho in U.S.A. -1 U ANSUL System Components UL EX-4510 12-1-03 Page 1-10 P P HIalC" 3 In. Discharge Hose/ su~~3e»:on S~SL~m~ Check Valve Assembly The 3 in. discharge hose/check valve assembly combines 3IN NPT the elbow, hose, check valve, and swivel coupling for con- nection to the valve discharge outlet and the discharge CHECK VALVE manifold. The check valve provides a 1 1/2 in. (3.8 cm) height adjustment. Component Material Approvals I----"------ APPROX. 27 1 /2 IN. 3 in. Discharge Hose: Double Braided i UL Listed (69.9 cm) Hose/Check Stainless Steel ULC Listed Valve Elbow: Stainless Steel FM Approved Valve Swivel Nut: Stainless Steel Check Valve Body: Cadmium Plated 3IN. FLARED Mild Steel SWIVEL Check Valve Seal I - - and Seat: Brass Spring: 61/2 IN. Stainless Steel (216 cm) Shipping Assembly Part No. Description 69841 3 in. Discharge Hose/ Check Valve Assembly ANSUL and SAPPHIRE are trademarks of Ansul Incorporated or its affiliates. TYCO SAFETY PRODUCTS, MARINETTE, WI 54143-2542 71 5-735-7411 1 Form No. F-2003191 9)2003 Ansul Incorporated Litho in U.S.A. J:1 ANSUL System Components UL EX-4510 4-1-05 Page 1-11 REV. 1 <!`>??i3C{m ,uPiP3c„i®n,y,r.en, Discharge Nozzles The discharge nozzles are available in a 180° and 360° pattern and are designed to uniformly distribute the NovecTM 1230 agent throughout the hazard area. The 180° nozzle has seven ports and the 360° nozzle has sixteen ports. Six sizes of nozzles are available, 1/2 -'l through 2 in. The hydraulic flow program will determine the nozzle size ~z and orifice size required. ON823 Note: When ordering nozzles, orifice size must be speci- fied when ordered. R Component Material Threads Approvals 1/2 in. Nozzle Brass 1/2 in. NPT UL Listed 3/4 in. Nozzle 3/4 in. NPT ULC Listed 1 in. Nozzle 1 in. NPT FM Approved 1 1/4 in. Nozzle 1 1/4 in. NPT; 004823 1 1/2 in. Nozzle 1 1/2 in. NPT' 2 in. Nozzle 2 in. NPT Shipping Assembly % Part No. Description 570515 112 in Nozzle - 180°- - 570516 3/4 in. Nozzle - 180° 0048 0 180' NOZZLE 360° NOZZLE 570517 1 in. Nozzle - 180° PATTERN PATTERN 570518 1 1/4 in. Nozzle - 180° 570519 1 1/2 in. Nozzle - 180° 570520 2 in. Nozzle - 180° 570602 112 in. Nozzle - 360° 570603 3/4 in. Nozzle - 360° 570604 1 in. Nozzle - 360° 570605 1 1/4 in. Nozzle - 360° 570606 1 1/2 in. Nozzle - 360° 570607 2 in. Nozzle - 360° ANSUL and SAPPHIRE are trademarks of Ansul Incorporated or its affiliates. TYCO SAFETY PRODUCTS, MAHINETTE, WI 54143-2542 715-735-7411 Form No. F-2003193-1 ©2005 Ansul Incorporated Litho in U.S.A. :1 ANSUL System Components UL EX-4510 12-1-03 Page 1-12 ?"PH E' 3~uF,P3i=-»;on sys«n_N Pneumatic Actuator The pneumatic actuator is required to pneumatically actu- 1/4 IN NPT ate the agent tanks. The actuator operates from pressure received from the nitrogen cartridge located in the ANSUL AUTOMAN II-C release. When the pneumatic actuator is pressurized, the internal actuator piston pushes down on the valve stem, opening the tank valve, allowing the agent to discharge. Component Material Approvals l Pneumatic Brass UL Listed Actuator ULC Listed FM Approved o~ 64 Shipping Assembly Part No. Description x570550 Pneumatic Actuator ANSUL and SAPPHIRE are trademarks of Ansul Incorporated or its affiliates. TYCO SAFETY PRODUCTS, MARINETTE, WI 54143-2542 715-735-7411 Form No. F-2003194 ©2003 Ansul Incorporated Litho in U.S.A. In ANSUL System Components UL EX-4510 12-1-03 Page 1-13 Local Manual Actuator The local manual actuator is used to mechanically operate the tank. To prevent accidental actuation, the actuator con- STRIKE tains a steel safety pin. The pin must be removed to oper- r % BUTTON ate the actuator. The actuator is operated by depressing the strike button. SAFETY The actuator can be mounted either on the top port of the PIN tank valve or on top of the electric solenoid valve. - Component Material Approvals - - r Local Manual Body: Brass UL Listed C Actuator ULC Listed Safety Pin: Steel FM Approved Actuation Pin: Stainless Steel - - COHN Shipping Assembly Part No. Description 570549 Local Manual Actuator ANSUL and SAPPHIRE are trademarks of An sul Incorporated or its affiliates. TYCO SAFETY PRODUCTS, MARINETTE, WI 54143-2542 71 5-735-7411 Form No. F-2003195 ©2003 Ansul Incorporated Litho in U.S.A. 1Sl ANSUL System Components UL EX-4510 12-1-03 Page 1-14 suPi,=ti=-s,ion Pressure Switch - DPST The pressure switch can be used to open or close electrical 3 5l8 IN. circuits to either shut down equipment or turn on lights and 92`n') (7.3 m) alarms. The double pole, single throw (DPST) pressure switch is constructed with a gasketed, water-tight housing. The housing is constructed of malleable iron. A 1/4 in. NPT pressure inlet is used to connect the pressure switch to the 1/4 in. actuation piping between the ANSUL AUTOMAN II-C release and the pneumatic actuator on the master! 4916IN. _ (12 cm) SAPPHIRE tank valve. f7"'j' Minimum operating pressure is 50 psi (3.5 bar) - ;Do 10, 004593 Shipping Assembly Part No. Description `J 46250 Pressure Switch - DPST Thread Electrical Component Material Size/Type Rating Approvals Pressure Switch Switch: BAKELITE Conduit Inlet: 2 HP - 240 UL Listed DPST 3/4 in. NPT Female VAC/480 VAC ULC Listed Housing: Malleable Iron Pressure Inlet: 2 HP - 250 VDC FM Approved Piston: Brass 1/4 in. NPT Female 30A- 250V AC/DC Cover: Brass 5A - 480V AC/DC ANSUL and SAPPHIRE are trademarks of Ansul Incorporated or its affiliates. TYCO SAFETY PRODUCTS. MARINETTE, WI 54143-2542 715-735-7411 Form No. F-2003196 ©2003 Ansul Incorporated Litho in U.S.A. U ANSUL System Components UL EX-4510 4-1-05 Page 1-15 REV. 1 i ,upa3F„ian, Low Pressure Switch The low pressure switch is used to indicate a pressure drop within the SAPPHIRE tank. The switch is mounted in the 1 1/8 in. switch port of the tank valve. The switch continuous- ly monitors the tank pressure and in the event of the pres- sure dropping below 290 psi (20 bar), the switch operates, D00716 enabling the condition to be signaled at the control panel. The low pressure switch is optional and must be ordered separately when ordering the SAPPHIRE tank. Shipping Assembly Part No. Description 570585 Low Pressure Switch . j Switch Electrical Component Material Point/Type Rating Approvals Low Pressure Hermetically Sealed Opens on fall at Maximum Current: I UL Listed Switch Stainless Steel Body 290 psi 10 psi 2.9A ULC Listed (20 bar .7 bar) Voltage Range: FM Approved 5-28 VDC 6 ft. (1.8 m) Wire Leads Closes on rise at 350 psi 10 psi (24 bar .7 bar) ANSUL and SAPPHIRE are trademarks of Ansul Incorporated or its affiliates. TYCO SAFETY PRODUCTS, MARINETTE, WI 54143-2542 715-735-7411 Form No. F-2003197-1 ©2005 Ansul Incorporated Litho in U.S.A. -1 H ANSUL System Components UL EX-4510 12-1-03 Page 1-16 IS I 4J06k I P P H F I r: 3uPP=re»ion 3,Y3,«n_N Pressure Trip The pressure trip is connected to the 1/4 in. actuation pip- ing from the ANSUL AUTOMAN II-C release. By either pneumatic or manual actuation, the pressure trip can 33/41N. release spring or weight powered devices to close doors g.scm and windows, open fuel dump valves, close fire dampers or close fuel line valves. The pressure trip is constructed of brass with two 1/4 in. NPT fittings for connection to actua- tion piping. The link on the pressure switch is released either pneumatically, by nitrogen pressure from the car- tridge in the ANSUL AUTOMAN II-C, or manually, by use of qp the pull ring. The link then releases the device which per- 3IN. forms the auxiliary functions. (7.6 cm) aoo452 Operating pressure must be a minimum of 75 psi (5.2 bar) with a maximum load of 70 lbs. (31.8 kg). Note: Pressure trip must not be installed in agent dis- charge piping. Thread Component Material Type Approvals Pressure Brass 1/4 in. NPT UL Listed i Trip Female ULC Listed FM Approved Shipping Assembly Part No. Description 5156 Pressure Trip ANSUL and SAPPHIRE are trademarks of Ansul Incorporated or its affiliates. TYCO SAFETY PRODUCTS, MARINETTE, WI 54143-2542 715-735-7411 Form No. F-2003198 ©2003 Ansul Incorporated Litho in U.S.A. SI ANSUL System Components UL EX-4510 12-1-03 Page 1-17 S,46_~??HRC C m ,u??=cE,,;®n,y,ccr,, Warning Signs Two warning signs are available for warning personnel that the space is protected by a SAPPHIRE system and no one WARNING should enter after a discharge without being properly pro- tected. Each sign is made of aluminum and contains four THIS SPACE IS PROTECTED BY A SAPPHIRE" mounting holes for ease of installation. FIRE SUPPRESSION SYSTEM j Component Material Approvals WHEN SYSTEM IS DISCHARGED AS A RESULT _ OF FIRE, CAUTION MUST BETAKEN TO AVOID Warning Sign Aluminum UL Listed EXPOSURE TO PRODUCTS OF COMBUSTION. ULC Listed FM Approved DO NOT ENTER WITHOUT APPROVED SELF- CONTAINED BREATHING APPARATUS OR UNTIL AREA IS PROPERLY VENTILATED. Shipping Assembly _ Part No. Description IS &GkIff" 57I 0580 Warning Sign 570581 Agent Discharge Warning Sign 006894 WHEN ALARM SOUNDS VACATE AT ONCE 3M- NOVEC- 1230 FIRE PROTECTION FLUID BEING RELEASED IS Pi?HRic ANSUL and SAPPHIRE are trademarks of Ansul Incorporated or its affiliates. TYCO SAFETY PRODUCTS, MARINETTE, WI 54143-2542 715-735-7411 Form No. F-2003199 ©2003 Ansul Incorporated Litho in U.S.A. :1 ANSUL System Components UL EX-4510 12-1-03 Page 1-18 ST~HI'?C p NuPP3r=-»ion wsrena Safety Relief Valve The safety relief valve is used to relieve the nitrogen pres- sure in the actuation line after the system has been actuat- ed by an ANSUL AUTOMAN II-C release. After agent dis- charge, pulling the ring on the relief valve can relieve the pressure in the line. Component Material 00° j Approvals 437 Safety Relief Brass UL Listed Valve ULC Listed FM Approved shipping Assembly Part No. Description 15677 Safety Relief Valve r ANSUL and SAPPHIRE are trademarks of Ansul Incorporated or its affiliates. TYCO SAFETY PRODUCTS, MARINETTE. WI 54143-2542 715-735-7411 Form No. F-2003201 ©21003Ansul Incorporated Litho in U.S.A. 1:1 ANSUL System Components UL EX-4510 12-1-03 Page 1-19 S®> Nu?? r=„ian, Liquid Level Indicator The liquid level indicator is used to measure the level of liq- uid NovecT11 1230 agent in the tanks. The amount (weight) of agent is determined by converting the level measure- ment into a weight measurement using the weight conver- sion tables located in this manual. The liquid level is found by lifting the measuring tape from inside the tube to the end (or approximately 3 in. above the anticipated liquid level) and slowly lowering the tape until a magnetic interlock with the float is felt. The tape will then remain in the up position, allowing a reading at the top of the housing. This measurement is accomplished without - removing the tank from the fire suppression system. The indicator can be installed in empty tanks with the prop- er port or tanks can be ordered with the indicator already installed. Component Material Approvals Liquid Level Body: Brass UL Listed Indicator ULC Listed j Tape: Steel FM Approved I.......... - - - - - 006255 j Shipping Assembly Part No. Description 570277 Liquid Level Indicator for 280 Ib. Tank i 570278 Liquid Level Indicator for 390 and 850 lb. Tanks 570589 Liquid Level Indicator for 450 Ib. Tank ANSUL and SAPPHIRE are trademarks of Ansul Incorporated or its affiliates. TYCO SAFETY PRODUCTS, MARINETTE, WI 54143-2542 715-735-7411 Form No. F-2003203 92003 Ansul Incorporated Litho in U.S.A. -I :1 ANSUL System Components UL EX-4510 4-1-05 Page 1-20 REV. 1 ~uPP3rc»ion Actuation Line Components ? 1/4 in. Actuation Hose Male Actuation Tee - Part No. 31811 The 1/4 in. stainless steel actuation hose is used to connect The male actuation tee is used to connect multiple actua- the 1/4 in. actuation line to the pneumatic actuator located tion hoses together. The actuation tee has a 7/16-20 thread on the tank valve. The hose is used when the actuation line for connecting to the female actuation hose and a NPT is rigid 1/4 in. pipe and fittings. The hose has a 1/4 in. NPT thread for connecting to the pneumatic actuator on the tank male thread on one end and a 7/16-20 female thread on the valve. other end. A male straight adaptor, Part No. 32338, is 7/16-20 ? required with this hose. Three lengths of hoses are available. I I I I ? ~ SEE CHART -+1 • CEMON:n . NPT 01111,1 0001,12 ? Part No. Description 73597 16 in. (40.6 cm) Hose Male Actuation Elbow - Part No. 31810 415142 32 in. (81.3 cm) Hose The male actuation elbow is used to connect the actuation ? 430815 42 in. (106.7 cm) Hose hose to a single or last tank in a multiple tank system. The elbow connects between the hose and the pneumatic actu- 1/4 in. Female Actuation Hose - Part No. 32336 ator on the valve. The elbow has a 7/16-20 thread for con- The 1/4 in. stainless steel, female actuation hose is used to necting to the hose and a 1/4 in. NPT thread for connecting connect the actuation line compression tees between each to the pneumatic actuator on the tank valve. agent tank. The hose has the same thread, 7/16-20, as the 7/16-20 f compression tees. LF 24 IN. _ I I I (61 cm cm) 1/4 IN. NPT 000433 000436 Male Actuation Connector - Part No. 32338 Male Adaptor - Part No. 570342 The male connector is used to connect the 1/4 in. female The male adaptor is required to attach the 1/4 in. actuation actuation hose to rigid 1/4 in. actuation fittings and also the hose to the master tank pilot port. When using the male pneumatic actuator. The connector has a 7/16-20 thread for adaptor on the master tank pilot port, a 1/4 in. pipe coupling connecting to the actuation hose and a 1/4 in. NPT thread must be used between the adaptor and the male hose for connecting to the actuation piping and pneumatic thread. actuator. /1/4-18 NET / f 1/4 IN. MALE 1/41N. II IJJ++I BSP I MALE NPT 001820 7/16 - 20 00°1'1 ANSUL and SAPPHIRE are trademarks of Ansul Incorporated or its affiliates. TYCO SAFETY PRODUCTS, MARINETTE, WI 54143-2542 715-735-7411 Form No. F-2003200-1 ©2005 Ansul Incorporated Litho in U.S.A. 1:l ANSUL System Components UL EX-4510 12-1-03 Page 1-21 i 4w su??=ti=-„iQri, Recharge Components Recharge and rebuild tools and kits are available for disas- sembling the valves after a discharge. O-ring kits are avail- able to replace internal valve o-rings after a discharge. Spanner Wrench - Part No. 570574 This tool is required to remove the valve bonnet assembly for access to the valve piston and o-ring replacement on 1 and 2 in. valves. Recharge Adaptors Top Adaptor Assembly for 1 and 2 in. Valves - Part No. 570579 Fill Adaptor Assembly for 1 in. Valve - Part No. 570576 Fill Adaptor Assembly for 2 in. Valve - Part No. 570592 Fill Adaptor Assembly for 3 in. Valve - Part No. 69891 Rebuild Kits Rebuild Kit for 1 in. Valve - Part No. 570559 (contains bonnet o-ring, collar o-ring, siphon tube o-ring) Rebuild Kit for 2 in. Valve - Part No. 570584 (contains bonnet o-ring, collar o-ring, siphon tube o-ring) Rebuild Kit for 3 in. Valve - Part No. 570373 (contains top cap o-ring, complete piston assembly, collar o-ring) ANSUL and SAPPHIRE are trademarks of Ansul Incorporated or its affiliates. TYCO SAFETY PRODUCTS, MARINETTE, WI 54143-2542 71 5-735-7411 Form No. F-2003232 ©2003 Ansul Incorporated Litho in U.S.A. ANSUL® SECTION II UL EX-4510 4-1-05 Page 2-1 S14%'F'6'1,1,1??HRC`- Nt?N«ns Material Safety Data Sheet 3MTm NOVECTM 1230 FIRE PROTECTION FLUID MATERIAL SAFETY DATA SHEET CONFORMS TO DIRECTIVE 2001/58/EC 1. IDENTIFICATION OF THE SUBSTANCE/PREPARATION AND OF THE COMPANY/UNDERTAKING 1.1. Identification of the preparation Product Name: "3MTm NovecTM 1230 Fire Protection Fluid Chemical Name: 1, 1, 1,2,2,4,5,5,5-Nonafluoro-4-(trifluoromethyl)-3-pentanone. CAS No.: 756-13-8. Chemical Formula: CF3CF2C(O)CF(CF3)2- EINECS Number: Product complies with chemical notification requirements. NOTE: "3M" and "Novec" are Trademarks of the 3M Company. 1.2. Use of the preparation The intended or recommended use of this preparation is as a FIRE EXTINGUISHING AGENT. 1.3. Company identification Manufacturer/Supplier: ANSUL INCORPORATED Address: One Stanton Street, Marinette, WI 54143-2542 Prepared by: Safety and Health Department Phone: 715-735-7411 Internet/Home Page: http://www.ansul.com Date of Issue: May, 2004 1.4. Emergency telephone CHEMTREC 800-424-9300 or 703-527-3887 2. COMPOSITION/INFORMATION ON INGREDIENTS 2.1. Ingredient Name: 1,1,1,2,2,4,5,5,5-Nonafluoro-4-(trifluoromethyl)-3-pentanone. Chemical Formula: CF3CF2C(O)CF(CF3)2. CAS No.: 756-13-8. EINECS Number: Product complies with chemical notification requirements. Concentration, Wt > 99.9 Hazard Identification: See Heading 3. 2.2. (i) There are NO substances presenting a health or environmental hazard within the meaning of Directive 67/548/EEC, in concentrations equal to or greater than those laid down in the table set out in Article 3 (3) of Directive 1999/45/EC, nor with lower limits given in Annex I to Directive 67/548/EE" or in Annexes II, III or V to Directive 1999/45/EC. (ii) There are NO substances for which there are Community workplace exposure limits, which are not already included in (i) above. NOTE: Unless a component presents a severe hazard, it does not` need to be considered in the MSDS if the concentration is less than 1 [According to Directive 1999/45/EC.] :a SECTION II UL EX-4510 4-1-05 Page 2-2 Material Safety Data Sheet 3. HAZARDS IDENTIFICATION FOR HUMANS: EU Classification: This product is not classified as dangerous according to Directive 1999/45/EC. Limit Values for Exposure: 1,1,1,2,2,4,5,5,5-Nonafluoro-4-(trifluoromethyl)-3-pentanone TWA Limit: 150 ppm. Limit set by 3M Company. Neither this preparation nor the substances contained in it have been listed as carcinogenic by National Toxicology Program, I.A.R.C., or OSHA. AS PART OF GOOD INDUSTRIAL AND PERSONAL HYGIENE AND SAFETY PROCEDURE, avoid all unnecessary exposure to the chemical substance and ensure prompt removal from skin, eyes, and clothing. DO NOT eat, drink or smoke when using this product. SIGNS AND SYMPTOMS: Acute Exposure: Eye Contact: Contact with the eyes during product use is not expected to result in significant irritation. Skin Contact: Contact with the skin during product use is not expected to result in significant irritation. Inhalation: Prolonged or repeated exposure, above recommended guidelines, may be absorbed following inhalation and cause target organ effects. Ingestion: No health effects are expected. Chronic Overexposure: Prolonged or repeated exposure, above recommended guidelines may cause liver effects. Signs or symptoms may include loss of appetite, weight loss, fatigue, weakness, abdominal tenderness, and jaundice. MEDICAL CONDITIONS GENERALLY AGGRAVATED BY EXPOSURE: None known. FOR ENVIRONMENT: NO harm to the environment is expected from an accidental release of this preparation. See Heading 12 ECOLOGICAL INFORMATION. 4. FIRST AID MEASURES Eye Contact: Flush eyes with large amounts of water. If signs or symptoms persist, get medical attention. Skin Contact: Wash affected area with soap and water. If signs or symptoms persist, get medical attention. Inhalation: If signs or symptoms develop, remove person to fresh air. If signs or symptoms persist, get medical attention. Ingestion: Do not induce vomiting. Give victim two glasses of water. Never give anything by mouth to an unconscious person. If signs or symptoms develop, get medical attention. 5. FIRE-FIGHTING MEASURES This preparation is a fire extinguishing agent. There are NO extinguishing media which must not be used for safety reasons. Fire fighters should wear full protective equipment (Bunker Gear) and a self-contained breathing apparatus (SCBA). See Heading 10 STABILITY AND REACTIVITY for hazardous combustion and thermal decomposition information. 6. ACCIDENTAL RELEASE MEASURES For personal protection: Prevent skin and eye contact, see Heading 8 EXPOSURE CONTROLS/PERSONAL PROTECTION. Clean up: Ventilate the area with fresh air. Contain spill. Working from around the edges of the spill inward, cover with bentonite. vermiculite, or commercially available inorganic absorbent material. Mix in sufficient absorbent until it appears dry. Collect as much of the spilled material as possible. Clean up residue. Place in a metal container approved for transportation by appropriate authorities. Dispose of collected material as soon as possible. See Heading 13 DISPOSAL CONSIDERATIONS. NO harm to the environment is expected from an accidental release of this preparation. See Heading 12 ECOLOGICAL INFOR- MATION. In the event of a release of this material, the user should determine if the release qualifies as reportable according to local, state, and federal regulations. SECTION II UL EX-4510 4-1-05 Page 2-3 Material Safety Data Sheet 7. HANDLING AND STORAGE 7.1. Handling Avoid eye contact with vapors, mists, or spray. Avoid breathing of vapors, mists or spray. Contents may be under pressure, open carefully. See incompatibility information in Heading 10 STABILITY AND REACTIVITY. 7.2. Storage Keep container in well-ventilated area. See incompatibility information in Heading 10 STABILITY AND REACTIVITY. Store in original container. Keep tightly closed until used. There is minimal danger to the environment from a storage release. See Heading 12 ECOLOGICAL INFORMATION. 7.3. Specific use The intended or recommended use of this preparation is as a FIRE EXTINGUISHING AGENT. - _ - - - 8. EXPOSURE CONTROLS/PERSONAL PROTECTION 8.1. Exposure limit values 1,1,1,2,2,4,5,5,5-Nonafluoro-4-(trifluoromethyl)-3-pentanone TWA Limit: 150 ppm. Limit set by 3M Company. 8.2. Exposure controls Do not eat, drink or smoke when using this product. 8.2.1. Occupational exposure controls 8.2.1.1. Respiratory protection Avoid breathing of vapors, mists or spray. Under normal use conditions, airborne concentrations are not expected to be significant enough to require respiratory protection. Select one of the following NIOSH approved respirators based on airborne concentration of contaminants and in accordance with OSHA regulations: Half facepiece or fullface air-purifying respirator with organic vapor cartridges. Consult the current 3M Respiratory Selection Guide for additional information or call 1-800-243-4630 for 3M technical assistance. If thermal decomposition occurs, wear supplied air respiratory protection. 8.2.1.2. Hand protection Butyl Rubber gloves are recommended. Select and use gloves and/or protective clothing to prevent skin contact based on the results of an exposure assessment. Consult with your glove and/or protective clothing manufacturer for selection of appropriate compatible materials. 8.2.1.3. Eye protection Indirect Vented Goggles are recommended. 8.2.1.4. Skin protection Select and use gloves and/or protective clothing to prevent skin contact based on the results of an exposure assessment. Consult with your glove and/or protective clothing manufacturer for selection of appropriate compatible materials. 8.2.2. Environmental exposure controls There is minimal danger to the environment from a storage release. See Heading 12 ECOLOGICAL INFORMATION. :7 SECTION II UL EX-4510 4-1-05 Page 2-4 Material Safety Data Sheet 9. PHYSICAL AND CHEMICAL PROPERTIES 9.1. General information Appearance: Clear, colorless liquid. Odor: Low odor. 9.2. Important health, safety, and environmental information pH: Not applicable. Boiling point/boiling range: 49.2 °C (120.6 °F). Heat of vaporization @ boiling point: 88.0 kJ/kg (37.9 BTU/lb). Freezing point: -108 °C (-162.4 °F). Flash point: Not applicable. Flammability (solid/gas): Not applicable. Explosive properties: Not applicable. Oxidizing properties: Not an oxidizer. Vapor Pressure: 244 mmHg, at 20 °C. Relative Density (Water = 1): 1.6. Solubility: - Water solubility: <0.001 % by weight. - Fat solubility: Not determined. Partition coefficient, n-octanol/water: Not determined. Viscosity: 0.6 centipoise, at 25 °C. Vapor density (Air = 1): 11.6. Evaporation rate (Butyl Acetate = 1): > 1. 9.3. Other information Auto-ignition temperature: Not applicable. 10. STABILITY AND REACTIVITY 10.1. Conditions to avoid Avoid direct sunlight and ultraviolet light. There are NO other known conditions such as temperature, pressure, shock, etc., which may cause a dangerous reaction. 10.2. Materials to avoid Strong bases, amines, or alcohols. 10.3. Hazardous decomposition products Normally stable. Hazardous polymerization will NOT occur. Combustion or decomposition products include carbon monoxide, carbon dioxide, and hydrogen fluoride. 11. TOXICOLOGICAL INFORMATION Product: Toxicity Data: Inhalation LC50 (rat) >10 % v/v. NOAEL for cardiac sensitization >10 % v/v. SECTION II UL EX-4510 4-1-05 Page 2-5 Material Safety Data Sheet 12. ECOLOGICAL INFORMATION 12.1. Ecotoxicity Not determined. 12.2. Mobility Product is highly insoluble in water and volatile. Normal use would not typically result in releases to aquatic environments. 12.3. Persistence and degradability Photolytic half-life is 3 to 5 days. The persistent photolytic degradation product is trifluoroacetic acid. 12.4. Bioaccumulative potential Not determined. 12.5. Other adverse effects Ozone depletion potential: None. Photochemical ozone creation potential: None. Global warming potential: 1. 13. DISPOSAL CONSIDERATIONS Not regulated as a hazardous waste by the EPA under RCRA. Reclaim if feasible. Incinerate in an industrial or commercial facility in the presence of a combustible material. Combustion products will include HF. Facility must be capable of handling halogenated materials. As a disposal alternative, dispose of waste product in a facility permitted to accept chemical waste. Dispose of in compliance with national, regional, and local provisions that may be in force. No harm to the environment is expected from this preparation. See Heading 12 ECOLOGICAL INFORMATION. 14. TRANSPORT INFORMATION Hazard Class or Division: Not hazardous. Label: No special label required. Emergency response guide page number: Not applicable. For additional transport information, contact Ansul Incorporated. No harm to the environment is expected from this preparation. See Heading 12 ECOLOGICAL INFORMATION. 15. REGULATORY INFORMATION EU Classification: This product is not classified as dangerous according to Directive 1999/45/EC. Exposure Limit Values: 1,1,1,2,2,4, 5, 5, 5-Nonafluoro-4-(trifluoromethyl)-3-pentanone TWA Limit: 150 ppm. Limit set by 3M Company. EINECS Status: The component of this product has been notified to ELINCS (Europe,-in List of Notified or New Chemical Substances). Certain restrictions apply. Contact your distributor for additional information. EPA TSCA Status: All components are included in TSCA inventories or are exempt from listing. Canadian DSL (Domestic Substances List): All components are included in the DSL or are exempt from listing. The product also complies with the chemical notification requirements for Korea (KECI), Australia (AICS), Japan (METI), and China (CICS). Environmental restrictions: None are known. Restrictions on Marketing and Use: None are known. Refer to any other national measures that may be relevant. SECTION II UL EX-4510 4-1-05 Page 2-6 Material Safety Data Sheet 16. OTHER INFORMATION (HMIS) HAZARDOUS MATERIAL IDENTIFICATION SYSTEM RATINGS: HEALTH: 0 4. Severe Hazard FLAMMABILITY: 0 3. Serious Hazard j REACTIVITY: 1 2. Moderate Hazard 1. Slight Hazard 0. Minimal Hazard PROTECTION: See Section 8. EXPOSURE CONTROLS/PERSONAL PROTECTION. (WHMIS) CANADIAN WORKPLACE HAZARDOUS MATERIAL IDENTIFICATION SYSTEM RATINGS: This product is rated: Not Hazardous. Format is from directive 2001/58/EC. There is no data in EINECS http://exb.jrc.it/existing-chemicals/ Data used to compile the data sheet is from 3M Material Safety Data Sheet, Jan. 21, 2004 and other product literature. The EU Classification is in accordance with Directive 1999/45/EC. 17. DISCLAIMER THE ABOVE INFORMATION IS BELIEVED TO BE CORRECT, BUT DOES NOT PURPORT TO BE ALL INCLUSIVE AND SHALL BE USED ONLY AS A GUIDE. ANSUL SHALL NOT BE HELD LIABLE FOR ANY DAMAGE RESULTING FROM HANDLING OR FROM CONTACT WITH THE ABOVE PRODUCT. :1 ANSUL SECTION III UL EX-4510 12-1-03 Page 3-1 ,ooh;?Hi C~ .,uP~vi=-»ion General Information 3MTm NOVECTM 1230 FIRE PROTECTION FLUID Based on the results of accelerated aging studies, Novec 1230 fluid is expected to have a shelf life and perform as a General Information clean agent for at least 30 years in a properly designed, 3MTm NovecT"" 1230 Fire Protection Fluid has been devel- maintained, and operating fire suppression system, provid- oped as an alternative to Halon 1301, production of which ed the agent has been stored and handled in accordance has ceased at the end of 1993, under the agreed adjust- with the information provided in this manual. ments made to the Montreal Protocol in Nov. 1992. Novec 1230 fluid is a liquid at room temperature allowing it Novec 1230 contains no Bromine or Chlorine and has no to be transferred using conventional pumping or gravity ozone depleting potential. transfer through a closed system. Novec 1230 fluid has a Novec 1230 systems utilize one or more storage containers viscosity similar to water. Consequently, it can be trans- arranged to provide the protected area with a pre-deter- ferred using any pump that would be used to transport a mined quantity of agent. low viscosity, nonflammable liquid. A gravity feed method may also be used to fill the system tanks, in lieu of pump- Novec 1230 storage container are designed to hold Novec ing. If using a pump, it is recommended that an inline filter 1230 in liquid form. Nitrogen is used to super-pressurize the (equal to or less than 20 microns) be used when filling container to 360 psi (24.8 bar) at 70 °F (21 °C). container. Handling and installation of Novec 1230 equipment should Standards used by the fire protection industry typically only be conducted by persons trained in dealing with this specify that clean agents meet certain standards of quality. type of equipment. In order to maintain the low water content of the original Under normal conditions Novec 1230 is a colorless and low Novec 1230 fluid, procedures must be used to prevent the odor fluid with a density around 11 times greater than air. It entry of moist, ambient air into the storage containers, has negligible vapor pressure and is super-pressurized with When transferring fluid, the receiving containers should be nitrogen to 360 psi (24.8 bar) when used in fire suppression free of water and purged with dry nitrogen prior to filling applications. with Novec 1230 fluid to remove moisture-laden air. The It contains no particulates or oily residues and is produced end of the fluid dispensing pipe must extend into the receiv- under ISO 9001 guidelines to strict manufacturing specifica- ing container. The dispensing container should be fitted tions ensuring product purity. with a vent drier or nitrogen purge to prevent the influx of moist air as Novec 1230 fluid is withdrawn. Vent driers Present understanding of Novec 1230 is that fire suppres- employing disposable or refillable desiccant cartridges are sion is through heat absorption and chemical means. available from vendors such as W.A. Hammond Drierite Co. Novec 1230 decomposes at temperatures in excess of Ltd. Alternatively, a nitrogen purge can be set up by 932 °F (500°C) and it is therefore important to avoid appli- installing a "tee" onto the vent bung of the dispensing con- cations involving hazards where continuously hot surfaces tainer and establishing flow of dry nitrogen at a volumetric are involved. Upon exposure to the flame, Novec 1230 will flow rate that is in excess of the rate of withdrawal of Novec decompose to form halogen acids. Their presence will be 1230 fluid from the container. readily detected by a sharp, pungent odor before maximum Good industrial hygiene practices should be followed when hazardous exposure levels are reached. handling Novec 1230 fluid. Novec 1230 fluid must be used in a well-ventilated area. Provide local exhaust ventilation at Storage and Handling Recommendations transfer points. If adequate ventilation cannot be accom- The unique properties of Novec 1230 fluid necessitate the plished to maintain air concentrations below the recom- user to follow certain handling and storage guidelines. mended exposure guideline, use respiratory protection. The Failure to follow these recommendations may result in cont- use of vented goggles for eye protection is required when am,nation of the agent and potential failure of the system in handling Novec 1230 fluid. Always wear gloves when han- which it is used. Contact with water or solvents either polar dling Novec 1230 fluid. Gloves made from butyl rubber are or hydrocarbon could render Novec 1230 fluid ineffective. recommended. For more specific information regarding the Novec 1230 fluid should not be mixed with other extinguish- use of Novec 1230 fluid, refer to the Material Safety Data ing agents (liquid, powder, or foam) without consulting Sheet. ANSUL to determine compatibility. Novec 1230 fluid should be stored indoors, out of direct Disposal Recommendations sunlight at temperatures below 104 °F (40 °C). If container Novec 1230 fluid may be disposed using an approved must be stored outdoors, confirm that all openings are fully industrial or commercial incinerator. Since Novec 1230 fluid closed. Protect container from direct sunlight and precipita- is nonflammable, it must be burned in the presence of a tion to every extent possible, and fully dry the exterior of the combustible material. Refer to the Material Safety Data container prior to opening. Sheet, Section II, for additional details. SECTION III UL EX-4510 4-1-05 Page 3-2 REV. 1 General Information 3MTm NOVECTM 1230 FIRE PROTECTION FLUID (Continued) CAUTION Health and Safety The discharge of clean agent systems to extinguish a fire can result in a potential hazard to personnel from the A proper designed and installed suppression system should natural form of the clean agent or from the products of not present any significant health or safety problems. combustion that result from exposure of the agent to the However, there are basic precautions to be taken to avoid fire or hot surfaces. Unnecessary exposure of personnel accidents, and aspects of the system operation that should either to the products of decomposition shall be avoided. be understood. Reference should be made to NFPA 2001 for the toxic and DESCRIPTION OF SAPPHIRE SYSTEMS asphyxiating hazards of clean agent replacement. SAPPHIRE systems are designed to suppress fires in Novec 1230 agent has acceptable toxicity for use in occu- Class A, B (minimum Class B design concentration is pied spaces when used as specified in the United States 5.85%; contact ANSUL for all Class B applications), and C Environmental Protection Agency (EPA) proposed hazards. Significant New Alternative Policy (SNAP) program rules and NFPA2001, "Clean Agent Fire Extinguishing Systems." Novec 1230 suppress fires by a combination of physical and chemical means. It does not significantly deplete the Novec 1230 fluid extinguishes fires via its cooling effect, not oxygen content in the room. by displacement of oxygen as is the extinguishment mecha- nism of C02, thus providing the ability to utilize Novec 1230 A system comprises one or more containers connected to a fluid in occupied areas. system of piping and nozzles. Novec 1230 is liquid under pressure and is stored in steel containers, each of which is Therefore, exposure to Novec 1230 at the design concen- fitted with a valve specially designed to allow the contents tration of up to 10.0% is not a hazard to health. Exposure to of the container to discharge within 10 seconds. When the higher concentrations is permissible for limited periods. valve opens, Novec 1230 flows into the distribution piping Refer to NFPA 2001 for exposure requirements. As with to the discharge nozzles where it is rapidly dispersed as a halons, the EPA and the National Fire Protection vapor. Association (NFPA) recommend that unnecessary expo- sure to any agent be avoided and that personnel evacuate Discharged Novec 1230 gives the appearance of a fog protected areas as quickly as possible to avoid the decom- which may reduce visibility. This normally clears rapidly and position products of the fire. should not obstruct the ability of personnel to safely exit the Novec 1230 can decompose at high temperatures to form protected area. acids. If so, their presence is readily detected as a sharp, SAPPHIRE Engineered Fire Suppression Systems are par- pungent odor long before hazardous maximum exposure ticularly valuable in extinguishing fires in enclosures con- levels are reached. taining hazards or equipment where a clean, electrically non-conductive medium is essential or where the cleaning The noise created by the Novec 1230 agent discharging up of foam, water or dry chemical would be a problem. can be loud enough to startle people in the vicinity, but is unlikely to cause any permanent injury. Turbulence caused by the high velocity discharge can dislodge substantial objects directly in its path, and cause general turbulence APPROVALS within the protected area to move paper and light objects. The SAPPHIRE Fire Suppression System has been t-sted Direct contact with the vaporizing liquid discharged from a and listed by Underwriters Laboratories, Inc. (EX-4510) and Novec 1230 nozzle has a chilling effect on objects and in Underwriters Laboratories of Canada (CEX1151) as well as extreme cases can cause frostbite to the skin. The liquid Factory Mutual (FM) as an engineered system for Class A, phase vaporizes rapidly when mixed with air and therefore B, and C fire suppression, at temperatures between 0 °F to limits the risk to the immediate vicinity of the nozzle. 130 °F (-18 °C to 55 °C). Reduction in visibility will occur due to the condensation of water vapor. SECTION III UL EX-4510 12-1-03 Page 3-3 General Information TYPE OF SYSTEM TYPES OF DETECTION Total flooding is the approved type of system available. A There are two approved types of detection available for the total flooding system normally consists of a fixed supply of SAPPHIRE system: electronic control panel and electric Novec 1230 agent connected to piping with nozzles to releasing device. direct the agent into an enclosed hazard space. In a total flooding system, the enclosure around the hazard must be Electronic Control Panel tight enough to hold the required percentage of Novec 1230 Electric actuation of the SAPPHIRE system is obtained agent concentration for a period of time to extinguish the through the use of electronic control systems that monitor fire. and control various system functions. All detection equip- ment must be installed according to NFPA 70 and NFPA 72. detection devices available are: ionization smoke detectors, TYPES OF ACTUATION photoelectric smoke detectors, flame detectors, and rate There are three basic types of actuation for the SAPPHIRE compensated heat detectors. Note: When designing the systems: pneumatic, mechanical, and electric. system, make certain the type of detector used is appropri- ate for the type of hazard so proper response is attained in Electrical a fire situation. When a detector senses a fire, a signal is sent to the control panel. The panel in turn sends an electri- Automatic electric actuation of the cylinder valve, through cal signal to the actuator located on the master tank valve. an approved control panel, can be accomplished by using The actuator opens the master valve, actuating that tank an electric actuator. The actuator is energized by an electric and causing pneumatic actuation of the remaining tanks signal from the detection/control panel. When using the from the pressure of the master tank. electric actuator, a mechanical actuating device can be attached as a secondary means of actuation. When using Electric Release Device electric actuation, a means of manual release must also be The ANSUL AUTOMAN II-C electric releasing device uses provided. approved thermal detectors and actuates the SAPPHIRE Mechanical tanks pneumatically, utilizing high-pressure nitrogen to open the tank valve. Mechanical actuation is accomplished by means of a local manual actuator mounted on top of the tank valve or on top of the electric actuator. The tank is actuated by removing SYSTEM LIMITATIONS the safety pin on the actuator and depressing the strike knob. The pin in the actuator opens the tank valve, allowing SAPPHIRE engineered systems are based on a Hydraulic the tank to discharge the agent. Flow Program developed by Hughes Associates Inc. The program predicts the two-phase flow of Novec 1230 agent Pneumatic and nitrogen through a pipe network. Information detailing Pneumatic actuation utilizes nitrogen gas pressure from a the enclosure is entered and the program calculates the cartridge located in a releasing device such as an ANSUL required pipe sizes, nozzle drill sizes, average nozzle pres- AUTOMAN II-C release. The gas pressure forces the pneu- sures and discharge time. matic actuator, located on the tank valve, down, which in As system design calculations are critical to the success of turn forces the cylinder valve open, releasing the Novec the suppression system, only ANSUL or ANSUL trained 1230 agent from the tank, through the piping and out the personnel are authorized to perform system calculations. nozzles. NOTICE The calculation method has been designed for specific types of fittings, pipe, and pipe I.D. When these limitations are not maintained, there is a risk that the sys- tem will not supply the required quantity of extinguishing agent. SECTION III UL EX-4510 4-1-05 Page 3-4 REV. 1 General Information SYSTEM LIMITATIONS (Continued) Nozzles to be located a maximum of 12 in. (30.5 cm) down from the ceiling, positioned vertically (either up or Design/Flow Calculation Limitations down). Exception: Sub-floor nozzles may be positioned • System Operating Temperature: 0 °F to 130 °F (-18 °C to either vertically down from the top of the sub-floor or verti- 54 °C) cally up from the bottom of the sub-floor. • Minimum Design Concentration: Class A, 4.2% - Class Maximum Linear Nozzle Coverage: 32 ft. x 32 ft. (9.8 m x B, contact Ansul Technical Services for specific fuel 9.8 m) ® design concentrations Minimum Ceiling Height: 12 in. (30.5 cm) • Fill Density: Maximum 75 Ibs/ft3, Minimum 31.0 Ibs/ft3 Piping/Tee Orientation: • Discharge Time: Maximum 10 seconds, Minimum 6 seconds • Maximum Arrival Imbalance: 1 second 1 • Maximum Runout Imbalance: 2 seconds • Maximum Pipe Volume to Cylinder Liquid Volume: 80% FLOW FLOW • Minimum Pipe Volume Ratio Before First Tee: 10% • Nozzle Area Ratio: Maximum Minimum NOT ACCEPTABLE li ACCEPTABLE All Size Nozzles 1/2 in. Nozzle All Other Sizes 80% 10% 20% • Minimum Nozzle Pressure: 73 psi (5.0 bar) • Flow Rate Limit: Pipe Minimum Flow Rate Maximum Flow Rate Diameter Ib/s (kg/s) Ib/s (kg/s) 1/2 in. 1.0 (0.5) 3.0 (1.4)= 3/4 in. 2.0 (0.9) 5.5 (2.5) 1 in. 3.5 (1.6) 8.5 (3.9) 1 1/4 in. 6.0 (2.7) 12.5 (5.7) NOTACCEPTABLE ACCEPTABLE 1 1 /2 in. 9.0 (4.1) 20.0 (9.1) 2 in. 14.0 (6.4) 30.0 (13.6) 2 1/2 in. 20.0 (9.1) 55.0 (24.9) 3 in. 30.0 (13.6) 90.0 (40.8) 4 in. 55.0 (24.9) 125.0 (56.7) t 1 5 in. 90.0 (40.8) 200.0 (90.7 6 in. 120.0 (54.4 300.0 136.1) ! ( " • Maximum Allowed Split Through a Tee: 65% - 30% - 90% 70% 70%- L 30% NOT ACCEPTABLE ~j ACCEPTABLE FIGURE 2 35%- 10% ooesoa SIDE THRUTEE . • Critical Pipe Length Before and After a Tee Split: BULL TEE Minimum of 10 pipe diameters FIGURE 1 00110, • Maximum nozzle height above floor level for a single row of nozzles is 14 ft. (4.3 m). For ceiling heights over 14 ft. (4.3 m), additional rows of nozzles may be added. SECTION III UL EX-4510 4-1-05 Page 3-5 REV. 1 General Information SYSTEM LIMITATIONS (Continued) Manifolding: All tanks on the same manifold must be the Design/Flow Calculation Limitations (Continued) same size and fill weight. • Maximum Elevation Difference in Pipe Runs: The calculation method has been designed for specific types of fittings, pipe, and pipe inside diameter. When - Statement No. 1. If nozzles are only located above the these limitations are not maintained, there is a risk that tank outlet, then the maximum elevation difference the system will not supply the required quantity of extin- between the tank outlet and the furthest horizontal pipe guishing agent. run or discharge nozzle (whichever is furthest) shall not Minimum Class A design concentration: 4.2% exceed 30 ft. (9.1 m). See Figure 3. - Statement No. 2. If nozzles are only located below the Maximum design concentration for occupied spaces: tank outlet, then the maximum elevation difference 10 /o between the tank outlet and the furthest horizontal pipe The SAPPHIRE Designer Program is designed for a run or discharge nozzle (whichever is furthest) shall not +70 °F (+21 °C) tank operating/storage temperature. exceed 30 ft. (9.1 m). See Figure 3. Therefore, the tank operating/storage temperature must - Statement No. 3. If nozzles are located both above be in the range of +60 °F to +80 °F (+15.5 °C to 26.7 °C) and below the tank outlet, then the maximum elevation for a single system protecting two or more separate haz- difference between the furthest horizontal pipe runs or ards. If the tank operating/storage temperature is outside discharge nozzles (whichever is furthest) shall not this range, an insufficient or excessive quantity of agent exceed 30 ft. (9.1 m). See Figure 3. may be discharged from one or more discharge nozzles. If tanks cannot be stored within this range, then each ~ hazard must be protected with its own individual system. 30 FT. 301 FT. (91 m) (9.1 m) STATEMENT NO. 1 30 FT. 30 FT. (9.1 m) (9.1 m) -_1 1 STATEMENT NO. 2 30 FT. (9.1 m) STATEMENT NO.3 FIGURE 3 06050 JS1 ANSUL SECTION IV UL EX-4510 12-1-03 Page 4-1 S<\;IC NuPi mac„ionPlanning Planning for design and installation for a SAPPHIRE system Hazard Information: should start when the customer is first contacted in regards Secure the general arrangement drawings of the areas to to protecting his hazard with Novec 1230 agent. Most of the be protected. information gathered for the design of a system is collected during the first meeting with the customer. The information If the general arrangement drawings do not include the gathered at this point will determine the ease or difficulty of following information, then you must obtain it. the rest of the project. One of the key elements for fire pro- Record all dimensions for the hazard areas such as tection is to correctly define the hazard and conduct a com- length, width, ceiling height, angles of corners if not 90 plete survey to determine if the system will properly protect degrees, etc. the hazard. Coordination with all parties involved in the pro- Draw a sketch including plan and elevation views of the ject will further improve the flow of the overall project. hazard area if drawings are not available. A thorough hazard analysis is required to determine the Indicate the quantity and locations of all exits from the protection required. It is important to cover each element hazard on the sketches. and accurately record the information. This information will be used to determine the size and location of the 'Record all dimensions for any structural objects such as SAPPHIRE system required and also to determine at a beams or columns, built-in cabinets, ducts, etc. which later date if any changes were made to the hazard after the may allow a reduction of the hazard volume. system was installed. Information necessary for design of a Identify anything unique about the hazard that would system is listed in the following paragraphs. affect system design or installation. Initial General Information: Identify the hazards normal, maximum, and minimum • Are Specifications available? If so, obtain a copy. ambient temperatures. • • Who is the "Authority Having Jurisdiction"? the owner? Will the hazard area be normally occupied? • Identify any openings, or potential openings in the hazard • Will the system need to be approved by any other regula- enclosure that may cause loss of agent during or after tory or insurance agencies? discharge. • Will any special requirements apply to the system design or installation? -1 SECTION IV UL EX-4510 4-1-05 Page 4-2 REV. 1 Planning Novec 1230 Supply Requirements: • Will the cylinders be located in a dedicated space? If so, record dimensions of that space. • Is the operating temperature range within 0° to 130° F (-18° to 54° C)? • Determine if the floor will support the cylinders and brack- eting. Assume 500 Ibs/ft2 for this requirement. • Will the cylinder bracketing be secured to a wall? If so, is _ the wall strong enough to support it and the cylinders? • Will a reserve supply of agent be required? If so will it need to be connected to the manifold? • Will a discharge test be required? Actuation and Alarm Requirements: • Will the system be actuated automatically as well as man- ually? • What type of manual actuation is required? • Will multiple areas be protected by a single system? If so, will the areas be protected separately or simultaneously? • Identify the locations for all Manual Pull Stations. • If automatic detection is a part of the system, provide ceil- ing details. • What types of alarm devices are required: audible and/or visible? • Where will the system actuation be annunciated? • Does the hazard area require explosion-proof or weather- proof wiring and devices? • What devices need to be shut down or started up? Identify the number of contacts required. Piping and Wiring Information: • Determine the cylinder location. • Identify preferred supply piping routes. _ • Indicate any obstructions to the piping or wiring runs. Ventilation and Leakage Concerns: • Identify any unclosable openings regardless of their size. • Advise the customer of the possible need to seal these openings to prevent agent loss. • • Will dampers be required for Inlet or Exhaust ducts? If so, how will they be operated, electrically or pneumatically? JS1 ANSUL SECTION V UL EX-4510 4-1-05 Page 5-1 REV. 1 I,46> P c.~ Nupp=tEN,ion we-N«rns Design After completing the hazard analysis sub-section in Section STEP NO. 1 - Determine hazard volume(s) IV Planning, proceed with the following elements to work up The first step in the design of an SAPPHIRE system is to a complete design and bill of materials. An example is calculate the volume of each area to be protected. Multiply included with each step to help the reader understand the the length times the width to determine the area, and then procedure. The example uses a computer room, subfloor, multiply the area times the height to determine the volume and storage room as shown below. for each hazard area. If any area is an odd shape, the designer may need to divide it up into regular shapes that will allow volume calculations, and then total all of the APPLICATION METHOD volumes together to determine the actual volume of that Total flooding is the only approved application method for area. If the irregular shape will affect distribution of agent, it SAPPHIRE TM systems. Novec 1230Tm agent is stored as a may be best to calculate sections of the hazard as separate liquid and discharged as a gas; it does not create a liquid areas and include nozzles for each of these areas. stream, therefore, local application of agent is not possible If the ceiling height exceeds the maximum allowable ceiling because the flow of gas cannot be accurately predicted height as defined in the General Information Section of this once it exits the nozzles. manual, multiple levels of nozzles must be designed into the system. In this case, it is usually beneficial to treat each s FT. level as a separate protected area so that proper agent 33 FT. distribution is achieved. Complete this step for each area protected by the system. \x% !,OFT. Example: ,z FT. - Computer Room = 33 ft. x 15 ft. x 10 ft. = 4950 cu. ft. FT Subfloor = 33 ft. x 15 ft. x 1 ft. = 495 cu. ft. 1 12 FT. : % • Storage Room = 12 ft. x 12 ft. x 10 ft. = 1440 cu. ft. 10 FT STEP NO. 2 - Determine volume of solid, permanent structures, or equipment The volume of solid objects in each hazard area that are FIGURE 1 not removable can be deducted from the volume of the oM811 hazard. This volume may include columns, beams, cut-out Total Flooding room sections, closets that will always be closed, ducts that The following steps must be followed, in the order they are pass completely through the area without any openings, presented, to properly design an SAPPHIRE total flooding and any other large, permanently fixed objects that cannot system. A simple design example will be used throughout be removed from the hazard enclosure. the steps to help understand each step. Use the Design Calculate the volume of all such objects and add them Calculations Worksheet in this section. together to determine the amount of space to be deducted from the volume. Complete this step for each enclosure protected by the system. Example There are no solid, permanent structures or equipment to deduct from hazard areas. SECTION V UL EX-4510 4-1-05 Page 5-2 REV. 1 Design APPLICATION METHOD (Continued) To determine the minimum quantity of Novec 1230 agent Total Flooding (Continued) required, determine the lowest anticipated ambient temper- ature for the area being protected and determine the design STEP NO. 3 - Calculate Reduced Volume concentration required for the material to be extinguished. Subtract the volume of solid, permanent objects (Step No. Minimum Ambient Temperature is defined as the lowest 2) from each of the hazard's volumes (Step No. 1). The anticipated temperature in the enclosure during normal result is considered to be the Reduced Volume for the conditions and is usually determined by the environmental enclosure. conditions or the air handling system. This temperature is Volume - Solid Object Volume = Reduced Volume used in the design because it is the "worst case," meaning Complete this step for each area protected by the system. that it will require the highest amount of agent. Using these two variables, the weight of agent required for Example a hazard can be calculated from the formula below: There are no solid, permanent structures or equipment to First: The formula in NFPA 2001 can be used. deduct from hazard areas. V C W= X S 100-C J STEP NO.4 - Determine minimum design concentration Minimum Design Concentration is defined by NFPA 2001 W = Weight of agent required - lbs. as the Extinguishing Concentration for the specific fuel plus V = Hazard volume - ft3 ? a 20% safety factor for Class A fuel and a 30% safety factor S = Specific vapor volume - ft3/lb where S = 0.9856 + ? for Class B fuel. Extinguishing Concentration is the agent 0.002441T concentration required to extinguish a test fire. T =Design temperature in hazard area - F° The Minimum Design Concentration for various fuels is shown in the following table: C =Required Novec 1230 design concentration by volume) at design temperature (T) SAPPHIRE Minimum Design Concentrations NOTE: This calculation includes an allowance for the Class A Surface Fuels 4.2% normal leakage (efflux) from a "tight" enclosure due to Class B Fuels Heptane 5.85%` agent expansion. The second option for calculating the required quantity of Class C Fuels 4.2% Novec 1230 agent is to refer to the "Flooding Factor Chart" Contact Ansul Technical Services Department for Minimum Design on Page 5-13 and 5-14 in to determine the correct flooding Concentrations for other Class Bfuels. factor to use. To do this, start by locating the Minimum Class A, B (contact ANSUL for types), and C hazards are Ambient Temperature in the left column, follow this line UL listed and FM approved for SAPPHIRE systems. across until you reach the column for the Minimum Design Complete this step for each area protected by the system. Concentration needed for the design. The number listed where the temperature line and the concentration column Design Concentrations are determined by NFPA 2001, meet is the Flooding Factor to be used. NOTE: If the 2000 edition, Paragraph 3-4.2 and UL-2127, first edition, minimum temperature, the minimum design concentration, Paragraph 59.2(b). or both are not listed, interpolation will be required. Next, to determine the quantity of Novec 1230 agent, multi- STEP NO. 5 -Determine minimum quantity of Novec ply the Reduced Hazard Volume by the Flooding Factor 1230 agent required determined from the table. This step is used to determine the minimum amount of Complete this step for each area protected by the system. Novec 1230 agent required to protect each hazard area. The amount of agent calculated during this step is the NOTICE minimum amount of agent that is required to protect the hazard area. The amount of agent in the system must The actual design concentration of Novec always be at least this much and may be exceeded. Failure 1230 agent cannot less than the to supply at least the amount of agent indicated in this step concentration selected in n Step No. 4. may prevent the system from suppressing a fire. SECTION V UL EX-4510 4-1-05 Page 5-3 REV. 1 Design APPLICATION METHOD (Continued) STEP NO. 7 - Determine the total system agent quan- Total Flooding (Continued) tity required Add quantities from all areas to determine the minimum Example total agent quantity required for the entire system. Minimum Ambient Temperature = 60 °F. Example Flooding Factor = 0.0387 Minimum Quantity Required: Computer Room 164.8 + 16.5 + 47.9 = 229.2 lbs. of agent • 4950 cu. ft. x .0387 = 191.6 lbs. of Novec 1230 agent Subfloor STEP NO. 8 - Determine estimated number of tanks • 495 cu. ft. x .0387 = 19.2 lbs. of Novec 1230 agent required Storage Room To determine the estimated number of tanks required, • 1440 cu. ft. x .0387 = 55.8 lbs. of Novec 1230 agent divide the quantity of Novec 1230 agent for the entire system by the actual tank capacity and then round up to the Step No. 6 - Adjust Quantity of Agent with Altitude next whole number. NOTE: The SAPPHIRE tank size listed Correction Factor on the Component Sheet is a nominal size. The quantity ? entered into the calculation should be the Actual Fill It may be necessary at this point to adjust the required Quantity in the tank. Refer to the table below for exact initial Novec 1230 agent quantity for altitude effects. An quantities. . increase in altitude causes the agent to expand and occupy more space, which will lead to a higher concentration if the NOTE: When manifolding tanks, all tanks on the manifold agent quantity is not reduced accordingly. A decrease in ' must be the same size and fill weight. altitude will cause the opposite effect, increasing the quan- Nominal Tank Min.-Max. tity of agent required. This same effect will apply to Size Fill Weight increases or decreases in the ambient pressure as could be . 20 lb. 10-21 lbs. caused by ventilation systems designed to maintain a posi- 50 lb. 20-46 lbs. tive or negative pressure within the enclosure. To apply the 90 lb. 37-88 lbs. proper adjustment, first look up the altitude or pressure of 140 lb. 58-138 lbs. the hazard on the "Atmospheric Correction Factors Chart" 280 lb. 116-280 lbs. ? on Page 5-10 in this section. ? 390 lb. 161-388 lbs. Determine the total Novec 1230 agent required by multiply- ? 450 lb. 194-459 lbs. ? ing the quantity of agent required (see Step 5) by the 850 lb. 375-851 lbs. Altitude Correction Factor. If the altitude is between 3000 ft. NOTE: Actual tank(s) size(s) and fill weights may change below sea level and 3000 ft. above sea level, use of the alti- based upon the SAPPHIRE Designer ANSL 3.60 program tude correction factor is optional. Interpolation of the table system calculations. may be necessary if the actual altitude or pressure is not listed. Example The hazard altitude is 4000 feet. Referring to the chart on Page 5-10, the altitude correction factor of 4000 ft. is 0.86. Computer Room • 191.6 lbs. Novec 1230 agent x .86 = 164.8 lbs. of agent Subfloor • 19.2 lbs. Novec 1230 agent x .86 = 16.5 lbs. of agent Storage Room • 55.8 lbs. Novec 1230 agent x .86 = 47.9 lbs. of agent SECTION V UL EX-4510 4-1-05 Page 5-4 REV. 1 Design APPLICATION METHOD (Continued) Example Total Flooding (Continued) Maximum Ambient Temperature = 80 °F Calculate required agent for each hazard volume: The following calculation is used: % Hazard Agent = Individual Hazard Area Sum of Hazard Areas C = 100W V + W • Computer Room = 4950 cu. ft. = 71.89% S 6885 cu. ft. Where: • Subfloor = 495 cu. ft. = 7.19% W = Weight of agent used - Ibs 6885 cu. ft. V = Volume of hazard - ft3 • Storage Room = 1440 cu. ft. = 20 92% S = Specific vapor volume - ft3/lb where S = 0.9856 + 6885 cu. ft. 0.002441T As the subfloor is less than 10% of the total volume, a T = Maximum ambient temperature - °F separate tank may be required due to hydraulic limitations. C = Design Novec 1230 concentration at maximum ? Therefore: ambient temperature (T) 4950 cu. ft. Then, C + altitude correction factor = design concentration • Computer Room = = 6390 cu. ft. 77.46% at maximum temperature . Example: • Storage Room = 1440 cu. ft. = 22.54% Computer Room 6390 cu. ft. _ 100 (164.8 lb) • Subfloor = 495 cu. ft. = 100% C 4950 cu ft + 164.8 lb 495 cu. ft. 1.181 ft3/lb To determine the size and quantity of tanks required, add C = 3.8% the hazard agent quantities together: Design concentration = 3.8% _ 0.86 (altitude correction • 164.8 lbs. (Computer Room) + 47.9 (Storage Room) = factor) = 4.4% 212.7 lbs. (Rounded up to 213 Ibs) Storage Room • 16.5 lb. (Subfloor) = 17 Ibs rounded uo C 100 (47.9 lb) STEP NO. 9 -Determine the Design Concentration at 1440 cu ft + 47.9 -lb ~ 1.181 ft3/Ib the Maximum Ambient Temperature for Each Area This step determines the Design Concentration of Novec C = 3.8% 1230 agent in each protected area using the Reduced Design concentration = 3.8% _ 0.86 (altitude correction Volume and the supplied quantity of agent for the area at factor) = 4.4% the "Maximum Ambient Temperature." It is necessary to Subfloor assure that we do not over-concentrate the area due to the additional agent actually supplied to the area and the C = 100 (17 lb) increased volume of agent caused by increased tempera- 495 cu ft + 17 lb ture. 1.181 ft3/lb C = 3.9% Design concentration = 3.9% _ 0.86 (altitude correction factor) = 4.5% SECTION V UL EX-4510 4-1-05 Page 5-5 REV. 1 Design APPLICATION METHOD (Continued) Storage Room Total Flooding (Continued) C = 100 (47.9 lb) STEP NO. 10 - Verify that the actual Novec 1230 agent 1440 cu ft + 47.9 lb 1 44 ft ft . 157 concentration is within the design concentration range of 4.2% to 10% C = 3.7% This step is used to verify that the "worst case" design Design concentration = 3.7% = 0.86 (altitude correction concentration will not exceed limits for fire suppression on factor) = 4.3% the low end and life safety on the high end.. Subfloor NOTE: Normally occupied space is defined as "one that is 100 (17 lb) intended for occupancy" by NFPA 2001. The appendix of C 495 cu ft + 17 lb NFPA 2001 states "spaces occasionally visited by person- 1.157 ft3/lb nel, such as transformer bays, switch-houses, pump rooms, C = 3.8% vaults, engine test stands, cable trays, tunnels, microwave relay stations, flammable liquid storage areas, enclosed Design concentration = 3.8% = 0.86 (altitude correction energy systems, etc., are examples of areas considered factor) = 4.4% not normally occupied." Refer to NFPA 2001, Paragraph 1-6.1.3, for detailed expo- STEP NO. 12 - Determine the Nozzle Quantity sure conditions. Nozzle quantity will be determined by many factors, such Complete this step for each area protected by the system. as size and shape of the hazard area, height of the ceiling, flow rates through the nozzles, available orifice sizes, etc. Example To determine the quantity of nozzles required, divide the 4.4% and 4.5% are between 4.2% and 10%, therefore the area length by 32 ft. and then round up to the next whole system design is acceptable. number. Then divide the area width by 32 ft. and round up to the next whole number. Then, multiply the two answers STEP NO. 11 - Determine the Design Concentration at 'to determine the total nozzle quantity. NOTE: Maximum of Normal Ambient Temperature ' 20 nozzles per system. Complete the same procedure as done in Step No. 9 using Complete this step for each area protected by the system. the Normal Ambient Temperature instead of the Maximum 360° NOZZLE REQUIREMENTS: Ambient Temperature. • Maximum coverage length per nozzle - 32 ft. (9.8 m). Complete this step for each area protected by the system. Maximum coverage width per nozzle - 32 ft. (9.8 m). Example Maximum radial distance per nozzle - 28.6 ft. (8.7 m). The radial distance is defined as the distance from the Normal Ambient Temperature = 70 °F. nozzle to the farthest point of the area protected. • Computer Room Nozzle should be placed as close to the center of the 100 (164.8 lb) hazard as possible. On multiple nozzle systems, the C 4950 cu ft + 164.8 lb nozzles should be as equally spaced as possible. ? 1.157 ftS11 b 180° NOZZLE REQUIREMENTS: C = 3.7% • Maximum coverage length per nozzle - 32 ft. (9.8 m). Design concentration = 3.7% = 0.86 (altitude correction Maximum coverage width per nozzle - 32 ft. (9.8 m). factor) = 4.3% Maximum radial distance per nozzle - 35.8 ft. (10.9 m). The radial distance is defined as the distance from the nozzle to the farthest point of the area protected. • Nozzle must be located within 12 in. (305 mm) of the wall of the hazard. • The index mark on the bottom of the nozzle must point at the center of the hazard. SECTION V UL EX-4510 12-1-03 Page 5-6 Design APPLICATION METHOD (Continued) STEP NO. 13 - Estimate Agent Flow Rate for Each Area Total Flooding (Continued) This step estimates the total flow rate into each protected space to allow the designer to estimate nozzle sizes for REQUIREMENTS COMMON TO ALL NOZZLES: quotation purposes. NOTE: This is an estimate only. It is • Maximum nozzle height above floor level for a single row the designer's responsibility to assess the correctness of of nozzles is 14 ft. (4.3 m). For ceiling heights over 14 ft. this estimate. If the flow rate approaches the top end of the (4.3 m), an additional row of nozzles is required. allowable flow rate for a given size pipe, it may be in the • The nozzle(s) must be located in the hazard area to be Designer's best interest to increase the pipe size. protected. Separate enclosures or partial enclosures Complete this step for each area protected by the system. located within one common, protected hazard area may require additional nozzles within the enclosure to assure Example proper agent distribution within the entire common hazard Computer Room area. • If nozzle velocity is a concern, the designer may wish to 164.8 lb. _ 10 seconds = 16.5 Ibs/sec add additional nozzles to lower the individual nozzle Storage Room velocity to an acceptable limit. • 47.9 lb. _ 10 seconds = 4.8 lb/sec • If the room is an odd shape, the designer may wish to increase the nozzle quantity to provide a more even Subfloor distribution of agent. • 17 lb. = 10 seconds = 1.7 lb/sec • For multiple level hazards, the intermediate levels of nozzles must be positioned at the top of the designed STEP NO. 14 - Estimate the Nozzle Flow Rates height for each intermediate level. Nozzles mounted at If all of the nozzles within the hazard area will have the the ceiling must be within 12 in. (305 mm) of the ceiling. same flow rate, divide the Estimated Flow Rate for the Area Example (Step No. 13) by the nozzle quantity (Step No. 12). Computer Room If all of the nozzles within the hazard area will not have the • 33 ft. Length = 32 = 1.03 = 2 nozzles same flow rate, perform a percentage calculation using the • 15 ft. Width _ 32 = 0.46 = 1 nozzle volume protected by each nozzle divided by the total • 2 nozzles x 1 nozzle = 2 nozzles required for computer volume for the area and then multiply the Flow Rate for the room Area (Step No. 13) by the volume percent calculated previ- ously to determine the flow rate for that nozzle. Complete Storage Room this procedure for each nozzle in the system. • 12 ft. Length = 32 = .38 = 1 nozzle If the design includes multiple levels of nozzles, remember • 12 ft. Width = 32 = .38 = 1 nozzle to include all nozzles on all levels in this step. • 1 nozzle x 1 nozzle = 1-nozzle required for storage room Complete this step for each area protected by the system. Subfloor Example • 33 ft. Length = 32 = 1.03 = 2 nozzles • 15 ft. Width = 32 = 0.46 = 1 nozzle Computer Room • 2 nozzles x 1 nozzle = 2 nozzles required for subfloor 16.5 lb/sec + 2 nozzles = 8.3 Ibs/sec per nozzle Storage Room • 4.8 lb/sec _ 1 nozzle = 4.8 lb/sec Subfloor • 1.7 lb/sec - 2 nozzles = .85 lb/sec per nozzle SECTION V UL EX-4510 4-1-05 Page 5-7 REV. 1 Design APPLICATION METHOD (Continued) STEP 17 - Estimate Pipe Size for All Areas (Optional) Total Flooding (Continued) To complete this step, start by labeling all nozzle flow rates. Then, working backwards from the nozzles, determine the STEP NO. 15 -Determine the Nozzle Locations and Lay flow rate for each section of pipe using the flow rate limita- tions and design/calculation limitations. Using a plan view drawing of the protected areas, locate The flow calculation program will estimate pipe sizes auto- each nozzle and the tanks. NOTE: Nozzles should be matically; therefore this step is optional. The designer may ' located at the top of the hazard area, aimed up or down. wish to use the pipe size estimation charts to estimate the ' (Nozzles in subfloor can also be aimed upward or down- nozzle pipe sizes for quotation purposes. NOTE: This is an ward.) Connect the nozzles with piping following the piping estimate only. It is the designer's responsibility to assess guidelines listed in the General Information Section and the the correctness of this estimate. If the flow rate approaches Installation Section. After all of the nozzles are connected, the top end of the allowable flow rate for a given size, it lay out the piping to the tanks and lay out the manifold. may be in the designer's best interest to increase the pipe size. STEP 16 - Complete an Isometric Sketch of the Piping Layout Example ' Create an isometric sketch of the piping for use in inputting Computer Room the information in the SAPPHIRE Designer ANSL 3.60 8.3 lb/sec per nozzle = 1 in. program. Storage Room Piping Node Points • 4.8 lb/sec = 1 in. A node point defines the start or end of a branch (segment) Subfloor in the pipe system. A branch can consist of a run of pipe or .85 lb/sec = 112 in. another object such as a flex hose or check valve. Each node point is indicated on the isometric screen of the soft- STEP NO. 18 -Perform Flow Calculations ware by a circle. Segment 1 (Node 0 to 1) always represents the cylinder. With the information developed in Steps No. 15 and 16, run This segment can never be changed. The pipe length is the the computer program to determine the final pipe sizes and siphon tube/valve length (which is also the elevation nozzle orifice sizes. The SAPPHIRE Designer Program is change for the vertical cylinder) and the total equivalent the only calculation method to be used with ANSUL length is the measured equivalent length of the siphon Engineered Systems. tube/valve assembly. The designer program will number the rest of the pipe segments, as they are input. Nozzles Nozzles are indicated with the number of the enclosure and the number of the nozzle in that enclosure (i.e., E1N1 - E11\12). The designer program assigns the nozzle indica- tors. Sequential placement is not required; however, it is recommended that the designer use some sort of number- ing system to prevent confusion. SECTION V UL EX-4510 4-1-05 Page 5-8 REV. 1 Design STEP NO. 19 - Verify Actual System Performance ACTUATION REQUIREMENTS Once a flow calculation has been completed and the Three types of actuation are available for the SAPPHIRE Design Worksheet has been revised (optional), it is impor- system: manual, pneumatic, and electric. tant that the designer review all results to verify system performance. The SAPPHIRE Flow program will flag most Manual Actuation errors and prevent a completed flow calculation until they Manual actuation can be used with or without automatic have been corrected. However, this does not guarantee detection. When no detection is required, based on accep- that the systems performance will match what the designer tance by the authority having jurisdiction, the manual actua- expects. Careful review is an important step in the design of for can be mounted on top of the tank valve. The manual any Fire Protection system, which must be completed release actuator provides a manual means of agent tank before final approval of the system. actuation by direct manual actuation. The master valve is Review the revised worksheet to verify that: the only one that requires a manual actuator. On two or more tank systems, the remaining tanks are actuated by 1. The agent concentration at maximum temperature is the pressure from the master tank. within acceptable limits (4.2% to 10% for occupied spaces). Pneumatic Actuation 2. The agent quantity is above the amount required in the Pneumatic actuation is accomplished by supplying pressure Actual Quantity box (See Step No. 7). to the pneumatic actuator on the tank valve. The pressure is supplied from an LT-30-R nitrogen cartridge located in STEP NO. 20 - Complete Layout of the System the ANSUL AUTOMAN II-C release. The cartridge pressure At this point, all final details of the system can be finalized. pneumatically opens the cylinder valve. In Option 1 and Option 1 a, one pilot valve is required in STEP NO. 21 - Create Estimated Bill of Materials single or multiple cylinder systems. The rest of the cylinders will be actuated from the pressure of the pilot cylinder. In Create a list of all materials necessary to install the system. Option 2, all tank valves are actuated from the ANSUL NOTE: Actual tank(s) size(s) and fill weights may change AUTOMAN II-C. The maximum length of 1/4 in. Schedule based upon the SAPPHIRE Designer ANSL 3.60 program 40 pipe is 100 ft. (30.5 m) or 120 ft. (36.6 m) depending on system calculations. the option. See Figures 2 and 3 on Page 5-9. If it is neces- sary to have an actuation pipe run which exceeds the STEP NO. 22 - Create Installation Drawings maximum allowable 1/4 in. pipe requirements, 1/4 in. O.D. stainless steel tubing with a wall thickness of 0.065 can be The final step in the design of an SAPPHIRE system is used for the actuation line. When this size tubing is used, a completion of installation drawings for submittal to the maximum of 300 ft. (91.4 m), with no reductions for elbows appropriate authority and the customer. These drawings or tees, is allowed. See NFPA 2001, Paragraph should include all details necessary for installation of this 2-3.4.2 for information on pneumatic control equipment. system. Electric Actuation One electric solenoid actuator can be used to electrically SAMPLE APPLICATIONS actuate the master valve. After the master valve is electri- Refer to Section X (Typical Applications) for an example of cally actuated, agent pressure from that tank pneumatically a typical application. By reviewing this example, it may help actuates the remaining tanks through the pilot ports. answer some questions concerning the total design process. ~a SECTION V UL FX-4510 12-1-03 Page 5-9 Design ACTUATION DETAILS FIGURE 2 Pneumatic actuation can actuate up to 10 or 11 SAPPHIRE Option No. 2 - All tanks actuated directly from ANSUL agent tanks depending on the type of actuation design AUTOMAN II-C option - This option allows 10 SAPPHIRE chosen. Two options of pneumatic actuation are available: tanks to be simultaneous actuated from the nitrogen pres- Option No. 1 - Master SAPPHIRE tank actuated electrically sure from the ANSUL AUTOMAN II-C releasing device. All using a solenoid actuator with an AUTOPULSE control tanks are actuated pneumatically via a pneumatic actuator panel and then additional slave SAPPHIRE tanks pneumat- located on top of each tank valve. ically off the master tank valve pilot port or Option No. 1 a - Master SAPPHIRE tank pneumatically off an ANSUL The maximum length of 1/4 in. Schedule 40 piping or stain- AUTOMAN II-C releasing device and then additional slave less hose or tubing that can be utilized from the ANSUL SAPPHIRE tanks pneumatically off the master tank valve AUTOMAN II-C release to actuate one pneumatic valve pilot port. actuator is 120 ft. (36.6 m) (including all drops to the Option No. 1 or No. 1a - Master/Slave option - This option valves). When additional tanks are required, refer to allows 11 SAPPHIRE tanks to be simultaneous actuated. Actuation Piping Table below for maximum actuation pipe The first tank is actuated electrically or pneumatically via an length. actuator located on top of the tank valve. The remaining 10 Actuation Piping Chart (For Option No. 2) tanks are actuated from the pilot pressure port on the master tank valve to the pneumatic actuator(s) on the slave Quantity of Pneumatic Maximum Length of tank valve(s). Actuated Valves 1/4 in. Actuation Line The maximum actuation line length from the ANSUL 1 120 ft. (36.6 m) AUTOMAN II-C release is 120 ft. (36.6 m) of 1/4 in. Schedule 2 118 ft. (35.9 m) 40 piping or stainless hose or tubing to the pneumatic actua- 3 116 ft. (35.4 m) for located on the master tank valve. See Figure 2. 4 114 ft. (34.7 m) The maximum actuation line length from the Master tank 5 112 ft. (34.1 m) valve to the last Slave tank valve is 100 ft. (30.5 m) (includ- 6 110 ft. (33.5 m) ing all drops to the valves) of 1/4 in. stainless steel hose or 7 108 ft. (32.9 m) stainless steel tubing. See Figure 2. 8 106 ft. (32.3 m) 9 104 ft. (31.7 m) WIRING TO AUTOPULSE 100 FT. (36.6 m) 10 102 ft. (31.1 m) CONTROL PANEL MAXIMUM LENGTH Note: It is important to note that the actuation lengths listed SOLENOID, J - include branch lines to accessory items (pressure switches, ACTUATOR pressure trips, etc.). For each actuation line accessory, PILOT , AUTOPULSE ' R T 10 deduct a foot from the above maximum lengths. P CONTROL PANEL NOTE. ANY SIZE PARTIAL FILLED TANKS CAN BE OPTION L ? ~I ! ACTUATED SIMULTANEOUSLY ELECTRIC SOLENOID I ACTUATOR OPTION 1/4 IN. ACTUATION PIPING MAXIMUM - - _ SAFETY 120 FT. (36.6 m) INCLUDING DROPS RELIEF MASTER SLAVE SLAVE SLAVE SLAVE TANK TANK TANK TANK TANK TO PNEUMATIC ACTUATOR(S) VALVE i ~ ase ANSUL 1/4 IN. ACTUATION PIPING AUTOMAN II-C 120 FT. 36.6 m) MAXIMUM LENGTH 100 FT. (36.6 m) ( ) --TH RELEASE MAXIMUM . ~ SAFETY RELIEF VALVE ANSULAUTOMANII-C'~ RELEASE OPTION 1 AND 1A: 1 10 TANKS MAXIMUM MASTER + MAXIMUM 10 SLAVES - 11 TOTAL TANKS u ~J ! I OPTION 2 NOTE: ANY SIZE FIGURE 3 PARTIAL FILLED TANKS MASTER SLAVE SLAVE SLAVE SLAVE of 3 CAN BE ACTUATED TANK TANK TANK TANK TANK SIMULTANEOUSLY OPTION 1a W6892 SECTION V UL EX-4510 12-1-03 Page 5-10 Design NOVECTM 1230 AGENT ATMOSPHERIC CORRECTION FACTORS (NFPA2001) Atmospheric Equivalent Altitude Enclosure Pressure Correction Factor -3,000 ft. ( 914 m) 16.25 psia (84.0 cm Hg) 1.11 -2,000 ft. ( 609 m) 15.71 psia (81.2 cm Hg) 1.07 -1,000 ft. ( 305 m) 15.23 psia (78.7 cm Hg) 1.04 0 ft. ( 000 m) 14.71 psia (76.0 cm Hg) 1.00 1,000 ft. ( 305 m) 14.18 psia (73.3 cm Hg) 0.96 2,000 ft. ( 609 m) 13.64 psia (70.5 cm Hg) 0.93 3,000 ft. ( 914 m) 13.12 psia (67.8 cm Hg) 0.89 4,000 ft. (1220 m) 12.58 psia (65.0 cm Hg) 0.86 5,000 ft. (1524 m) 12.04 psia (62.2 cm Hg) 0.82 6,000 ft. (1829 m) 11.53 psia (59.6 cm Hg) 0.78 7,000 ft. (2133 m) 11.03 psia (57.0 cm Hg) 0.75 8,000 ft. (2438 m) 10.64 psia (55.0 cm Hg) 0.72 9,000 ft. (2743 m) 10.22 psia (52.8 cm Hg) 0.69 10,000 ft. (3048 m) 9.77 psia (50.5 cm Hg) 0.66 'NOTE: On systems between +3000 it. (914 m) and -3000 ft. (914 m), using the Atmospheric Correction Factor is optional. w u') w M > z I ~ i w O tr Q Q i I w o v V i Z - - - - CD Cry i j ~ ~ I I v w j x o w < w w U) Q O w a (n a Cl) N LLJ Q i ~ I i I I i N Q j LU i ' I i I j j I I ti I i i ti I I I ~ i I w p Q E j l o o U i i G O O U (n o a Z U N° Z a a y z E p ~.o J 9 O° a U a O O O?- Z Y w v v v a W F 1•, Q o F t-•~ m N o o v i- Q U U o U m } N LL o } c it w a H a H iy 2 P: -9 a Q o o Y w z co W Z Z Q o ° oU U Z r> ch > > n m Z a O o Q Q E a-0i 2 V Q° ° U o 7~ Q0 ~N U0, m U Z O O" W M o N j > > (D C14 Wm J U > 0 U z z z O U) ` W W O T Q Q ; N J M J Z > a O ^ ~ ° ~ Q) z mf)f O z T J W O O O g = O o Q tii ~ U m M 0 C) w w z cn w a I i w o U Q ~ j ~ z I!ji i Lo cn x o LL1 ~ v l cn z cn arf w a CO a j cn i a' w Q i ( E j I I z I ~ i co j N m ~ ~ I T m _ Q n- a ~ O o 'a 65 a~ Q' z a i m cj~ U m U U v H n I~ Q ~ ~ ~ M w Q I U o i, = w o y o ZE Y Q Q va 3 O O 0 ~ 4 N z o 0 0 o m ti o o E Q) F- i E r~ o o ~ z (D W tli U Q W Q co p LL U N c x m W c o a.Q a (9 C1 w w N o .c m c0 E ~ a a U z c7 ~ ,c N Q a z_ Q c7 oz N _d a Z I~ O Z Q U = C Q U N a fn W 0 0 X 'o p fUA N Z0 0 Z 1 0 Q -J Q Z m (9 N p E N z z CL 0 CD 0 C) W W M p M p E- .0 E U f6 U a A F- (n 0 C) 70- LLJ Q) E N z 0, C: ff _R 'r; in - o ccn wU wU zz C}~ Z C: o w ~ ~ U C aTa ) co 00 C m w O w z 0 z 0 Z O v 2 J z J Z UO C p Q .o~ Q CO CL ui D o m Q Q O U) F- U Q U Q cn O d U Q Q~ J SECTION V UL EX-4510 12-1-03 Page 5-13 Design :O CD t_ O 4 M CO M r- N 4 CO O) CO t~ N 1` Cl) O 4 N O 00 N O 4 N O M CO N O 00 CO U) co N O C 00 (.D Lo 4 co O O O O O v) 6) 0) O CO 00 co 00 co 00 fl- I- I- to r - I- O j 17 O O O O O O O O O O O O O O O O O 10 O O O O O O C O O O O O O O O O O O O O O O O C N Ln M Ln M co r- 00 M 4 rr- Cc r- M Mr- 4 N O N C 0 M O 0 4 N O of w Ln m N O C r (fl 4 M N O c0 O O O O 0) O m m m CO OJ O 00 OJ 00 t` r` ti r` r, CO Ln 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 O O O O O O O O O O O O O O O CO M M O (0 4 M M 'It LO M 4 C 4 M LO N O CO 4 N (D O Lo N O tl- to co r 0) ti U) M N O co t-- Lo 4 M c- O m m ti M Ln O O O m m C d7 co 00 M M m w tl- tl- I- t- t~ f~ t-- co O O co co 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 O O O N (0 M O 00 r- 00 O) M t- Lc) t- M O t` 0 M N 0 0 0 O O 4 N O t` Lo M N O 00 f~ Lr) 4 N O co B (D Lr) M N 6) C m m 00 of co M 00 c0 n I~ t` t- tl_ tl_ (D CO (D C0 (O (D co O Uf J O O O C O O C O O O C O O C O O C C O O O O O O 00 O O O O O O O O O O O O O O O O O O C). CD- O O CD. (D. C 00 LA') N M Lo 00 N (D f- co O I- m m N r- O O O O r- N O 00 O N O 00 CO Lr) M N O 0) co (.0 Lf) 4 M N O 0) 00 0) O 00 M co 00 00 t- t- t- t- P I- M O (fl Co M (D (D M M Lr) Lr) Ln O O O O O O O C O O O O O O C O O O O O O C O O O . 00 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 !6 M I CD M M '4 (D M N CD t- M O t- It N O 0) O 0) 0) O M (D 4 N O 00 (D 4 co O 00 tl- Ln 4 M N O w fl- M m Ln M -U j 00 00 00 00 t- ti ti ti ti t- (D (D CO (D (.0 0 (fl (D Ln Lr) Ln Lo Ln U') Ln UD 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 ti C C O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 E co M 4 Lo W Lo C Ln r t` 4 N O O 00 t- h r- t- M M N 4 O 00 CO 4 N O M O LO M N O CO t~ (D L) 4 M N O O 0 00 C` t- t-- r- t` (D CO CO (D CO (D CD (D Lo Lo Lo Ln Lo Lo Ln Ln Lf) Lr) 4 E 7 I 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 tom. 0 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~ N M LO M N LO N M 4 O^ Ln 4 4 4 4 4 Ln M C N 4~ 4 N O M(D LO 4 N r O M^ M L 4 M N - O M 07 co 00 M Ln (ti C ~ f- ti h- CD CD (D co CD (D CD Ln lf) Ln Lo In Lo Lr) In Lf) "1 4 It 4 4 4 N O Ln 0 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 ~ 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 r 4 00 N tl- M 0) (D 4 N O 0) 0) M O - N 4 CD W O M CD O O 0) 00 (D 4 M f O 00 t- CD Lo 4 M O 0) O 00 ~ (.O Ln 4 It M N U U (D co CD (D CD co LI ) In Lr) L17 Lo Ln Ln L!") It It 4 4 It 4 It 4 4 C C O O O O O O O O O O O C O O O O O O O O O O O O O 0 cc! 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 CD O M ti 4 O t+ CD (D Lo Lo O t'- OD O N 4 (fl O N Lo 00 O CO 4 M O 00 ti (O 4 CO N O 0) 00 t` (D (0 LO 4 M N N O M Lo CO (D CD CO CO Lo Lo Lo Lo Lo il) Lo In 4 4 V It It It 4 4 4 Ct ~t V C U 00 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 Of Ln 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 1~ (D (0 M O h- Lo 4 co co M M 4 Lo t.- M M co 00 N Lo 00 N 2) N O M t` O LO M N O M M r- (0 LO 4 M M N O O O 00 W (O (D m Ln U-) Lo Lo Lo U) Lo IT zi- It 4 4 It 4 4 M M M In 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 N Ln 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 a+ = N O 4 O r- O Lo Lo Lo cD t-- M O N 4 ti 0) N Q0 m M t- e; O M O CO M N M 00 t- CD Ln 4 co N N c- O M W 00 t` (D (.0 Lo Ln rt L Lf) Lf) Ln Lo Ln 4 4 It 4 4 4 4 4 4 4 M M M co M M M M M (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 Ln . 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' L M O 00 t-- (0 LO LO LO CD ~ M M CD 0) N LD 0) N W LO O LO 0) LtJ (D 0) ti M U) 4 M N r- O O O 00 t` O M LO 4 4 M M N N ~ O m It It 4 It It 4 It 4 4 M M M M M co M M M M M M co M M Lf)j 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 41 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 Q O (0 LO 4 It 4 Lf) (O I` 0) c- 4 t+ O M CO O 4 0) M 00 N ti M 00 (D Lo 4 M N O m 00 t-- t` O Lo Lo 4 M co N - O O 0) 0) 00 4 It It It 4 It It co co M M M M M M M M M M co co M N N N (t~ 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 4 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 Z ES L) .7- U v-. M N (D O IT 00 N t` L7 M M r-- Ln M M M N CO CD 4 00 N (O O d E (o L) O 4 (p co t- N co O Ln 0 4 co N t- (D O Lo 0) M 00 N Q N- M M 00 co Lo 00 O M Lo co O N L!) P- O N Lo ~ O N 4 t- m N LL co i tt ~ O Q7 m O O O r q - - - - e- - e- r- 4 4 4 4 4 I C O O J a L ~ E CD _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 U- N N M 4 Ln M ti co M 0 N M 4 M (0 t-- 00 O 0 N 9 I I I - - - - - - - N N N SECTION V UL EX-4510 12-1-03 Page 5-14 Design "T O L-0 fl- ~ Lo O ti ~ N f` 00 O r 0) r co O r O Lo Lo co I` N r Ln 't M Lr f-_ Ln M Ln 00 M O fl- Ltd Ln O Cfl 00 N M r M (.D co co r 1` co 0) r V r O V co M co N O co "t CD r-- M O ti V M r co M co M (D M V r m f- Lo n r O M M LO M r O M O co co r- f- f~ M 1.0 (.O Lo Lo Lo Ln -t 't d' V M M M M M N N N N N N r r 0 - - - - - - - - - - - - - - - - - - - - - - - M (D M O M m m Nrl- M N m M N f- r M f-- N O M M O N T M M M O M O M Lo Lo Lo m -It C) w N O W V W M W CD M M O M tCOn (+M') (00 It N O ti M Lo 00 O M t` LO N 'zt LO ti t-- M M CfJ LO Ln y V"'Zt V ~t ',I- M M M M N N N N N N r x 0 0 0 0 Cl Q) r r r ~ r r r r r r r r r r r r r r r r r r r r r r r r r r r (D O mrl- O Lo M It M M O N M M O Lo O r- (D N t- N tf) T M P- O M M co M M fl- t- M O O O O N Lf) O O LO r M M V (.O M M V LO r O N LO 0) T M~ O LO N O N O M LO N M LO M O t- r Ln N O[- LO M Q) N Ln M r O M (0 Ln M N O m w (D (.O M Ln LO LO V 'It V~ M M M CO co N N N N N r x 0 0 0 0 (D 0 0) O O O r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r O O O O ~t Lo M Lo O 1` Lo 't m 0) M M w ti Ln N O r O N Lo Lo M A O M M Lo V C0 N Ln M r M co O O M r- N CD M ~t N O O O N O N Ln M r LO M It O L! ) r CO Ln N O N 0 6) LO N O 3- 0) M CO 't N O r-- LO 'It T N O CO (D Ln CO O O r- C.0 't- M N Lo Ln Lo 'ZT V- V co co co M N N N N N N r 0 0 0 0 0 0 0 0) 0) M O M O CO r r- r r r r r r r r r r r r r r r r r r r r r r = 0 0 0 0 0 0 0 Lo m r O N (D r co N (D Co O N N O M d' r Lo 't 00 co M N fl- Lo f-- d' 't M CD CD O ti N M M t- 0) M 1- M m'IT f` Lo H M V Lo 0) S O N Lo O It 0) 'T O (c m O ti Lo M N N O O co O 00 Lo M O O co co 't N O co M M~t M r M 00 (D Lo V N O M tom- M Lo d' V M M M co N N N N N r 0 0 0 0 0 0 O) O O m m O m m co c0 M co 00 r r r r r r- r r r r c- r r r r 0 0 0 0 0 0 0 0 0 0 0 0 r T 00 t- M r It ti M M N M Lo M M t- O O (o (o N M 00 M r O M M V M Lo ~ r M (D (D N O tl- M M (D Cfl fl- O N M In M N tl- N t- M O w O ti Co Ln ~t M r O tilzt N O f- ,t N N O M CD V' N r M O ti M V M r 0 M ti M LO M N r 0 M E Lo n M M N N N r - 0 0 0 0 0 0) 0 0 0 6 0 0 0 00 M M M co 00 co M t` t- r r r r r r r r r r r r r r r e- f O O O O O O O O O O O O O O O O O Y `-p r- O V' ~ Ln M (D M ,T t- Lo M V' M O Lo IT r- "T (D M 't CD 0 M N M lzr LO O Ln Lo 00 cl 00 > M U) M 00 N O OD LO CO 00 00 W ~ V N O 0) r- Lo M N N O 0) r-(0 LO CO N O 0) r- C0 U') (M E N N N r x 0 0 0 0 0 0 0) 0) 0) M 0) 0) Q) M M M M CO M M M tl- t- ti t- f- ~ r r r r ~ ~ t~ r r r r r r r O O O O O O O O O O O O O O O O O O O O O E O M(0 r r O O 00 'It M r (D 0 LO f- LO M t- t~ O M r M M M N M O N M M O d- N 0) (D N O f- LO LO LO fl- M M r T M N ti V M O Ln N O (0 'IT M r 0 0 0 M O O r 0 V' N r O (.O -It N O M M M V M r m w M m Lo M N r O M t- co Ln 't m O O O 00 > In r 0 0 0 0 0 O M O O) 0) O M M M M M M M M f- t` t- r- t1 ti t- t~ P- f- (D (D _0 (D r r r r r r r O O O O O O O O O O O O O O O O O O O O O O O O (D O m N O 0) _ 00 r.- (o co M N N O N co M 0) O M ti M M V 00 t` 0) Lf ) Ln 00 ,1- M Lo O ti s 0) ~t (6 ~ t` t` 'IT N r r M Ln ti It Ln O LO O O V' M O ti Ln M N r 0 0 0 0 CD N M Ln = d' CO N(D M M N O co M t` Ln M N 0) M M t- Ln ~t M (N 0 0) M tl- CD Ln V' M N O O O O O) d7 0) 47 O M M M M M M M n t~ r--~ t~ f- t~ t~ ti t~ ~ (D (D M (D CD M M (D O M r c- r r 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 V C O M M r LO M M M N It r N O M r r M O Lf) 0 r- 0) V M CD O N N It M r M O O O O 0) M LO L'9 M It O M N M O LO V N N 07 r- V M N N N N Ln M M Ln fr- M Ln N O 0 r U) M M O M M M 00 M - O M r M M "t M N N O O 00 1- M Ln (0 M N O N ~ M O Cl O O O 01 O M M M M M CO M CO r- t-- t- t- t- r- n (.O CD GD (D CD (D CD CD CD CO O Ln r 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 C O LO ~ d co 0 Ln M ti V (fl N Lf) O 00 N Ln (D N V' O 0) N M ti O Lo M O O r-- N CD Ln Ln ~t t Ln (D M to 0) (D V 0) LO N 0) CO Ln V N r 0) 0) M M 0) 0) O r N V co 000 O Lo It M d) tl- Lf) N O O 0) f` (.D Lf) M (14 r O 0) f- (.0 Ln V co N N O 0) M tl- t- = Lo LT 0) O 0) M M M M M 00 M t` f-- ti t- r-- t-- t` t-- t` (D CD (o (o (fl (D (D (D M co LP) Ln Lo Ln O LO 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 N O M T Cfl (D N t N t N LO N T O O N O M N M (D M N O M O ~t M t` f~- ~t In Lo CD O N M M N 0) co Ln N O M r- t~ LO Ln "It TT Ln Ln (D t- 0) O N Lo t-- 0) N Lo (D Lo ~t N O 0) t- (D It M N O 0) M M L[) V CO N r O M CO t- CD (D M V' M N N r M co M M M n ti f-- ti h t~ f~ ti (D (.O 10 CD M (D (D (O M co Ln U) LO Ln Lo If) LL) LL7 Lo Ln Ln Z LO 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 CO Lo N M (D M Lo N Ln fl- N V O O',1- Nq1t M t'- It M M"T N M (D N O O r It O t- M Ln (0 O ct M LO - M M N M r O O M M M M M M CD M (O ti O N M t- r qt 00 tl- M Ln V N O 0) M (O Lo Ln M N O 0) M t- t- (0 Lo Ln V M V O O 0) M M r- Cfl (o Lo t- f- t` t- f- tl- (o Q0 co (D (D (.D (o co co Lo Lf) Ln Ln LO LO Ln LO Ln Lf) LO Ln LO V ~t d" V V V 4 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 Z tom- M O P- N M O h M M LO In M (D M N O O Ln N M ti M N N M O M tt CD Q M N M M d' O M V O tl- M t` M (D CO ~ O M O O N't CD CO r't 1'- O't t- LO O O M~ M V M N O O O M Imo- (O LO V' M M N N r 0 M M M t- M M M'IT V M N O N ~ ti t` M M M CD M M co (.0 Lo Lo Lo Lo Lo Lo LC) Lo Lo Lo Ln Lo ~t 7t "t V -1 ~ -t d' V V V' 0 It 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 Z p . L) O O . V LO E Y) O) Ln co r O T M r Lo O N M (D O'r ti c- M Lo M N (D O M ti r Lo M N (D M M r- r O N Q O r N M Ln M f- M O (N M V CD t- M O r N V Lo t- co 0) N M Lo M ti C) O N CD M M (D M M M co ~ ti t-_ ti r- r-- N- ti M M M M M M M M 00 D7 0) 0) 0) 0) O O O O J CL f6 O O O O O O O O O O O O O O O O O O O(D O O O O O O O O O O O O O r LL » 0 0 0 0 0 0 0 0 0 0 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 H a r` E O f- m O O LO O Lf) O r Lo o m O Lo O Lo O LO O Lo O Lo O LC) O Lo O Lo O Lo O O O U N Ln r r N N N M CO d' d- lO - LO CD (D 1-- f-- 00 M M M O O r r N N M I- 1- 1 7 7 Lo r r r r r r r :1 ANSUL SECTION VI UL EX-4510 4-1-05 Page 6-1 REV. 1 SA ii, C m auPP=ucNsion ,V,cCna Installation INSTALLATION All installations are to be performed in accordance with the parameters of this manual and all appropriate codes and standards from the local, state, and federal authority having jurisdiction. A • If a hydrostatic testing of system piping is required, dis- connect all actuator(s) (master and slaves) and cylin- der(s) from piping before pressurizing system piping. BRACKET Before the SAPPHIRE system is installed, the qualified HEIGHT installer should develop installation drawings in order to locate the equipment, to determine an actuation and distrib- ution piping routing, (refer to Piping and Actuation Requirements, located in SECTION V - DESIGN, for both / actuation and distribution piping limitations. FIGURE 1 For successful system performance, the SAPPHIRE sys- 006732 ? tem components must be installed within a temperature range of 0 °F to 130 °F (-18 °C to 55 °C). • ? The hazard temperature is listed to a minimum temperature Do not remove the outlet safety shipping cap until tank is of 0 °F (-18 °C). For the maximum allowable hazard tem- securely mounted in the bracket. Failure to comply could perature, see "Total Flooding Quantity Tables," stated in result in personal injury, death, or property damage from ? NFPA2001, current edition. violent tank movement or overexposure to high concen- trations of Novec 1230 agent. MOUNTING COMPONENTS 1. Mount the back channels (supplied by others) for the Tank/Bracket Assembly mounting brackets to a rigid, vertical surface at the SAPPHIRE tanks may be located inside or outside the pro- appropriate height. See Figure1. Make certain to use suitable fastening hardware. Note: If manifolding is tected space, although it is preferable to locate them out being utilized, make certain tank brackets are side of the space. They must not be located where they will spaced properly to accommodate the manifold be exposed to a fire or explosion in the hazard. inlet spacing. The tanks should be installed so that they can be easily 2. Position the tank(s) against the back channel, with the removed for recharging. Tanks must be installed indoors. valve outlet pointing to the left and back. Do not install the tanks where they are exposed to direct sun rays. See the following table for dimensions of bracket 3. Insert the tank straps into the back channel and secure location. with the bolts provided. Tank No. of Height from Floor to 4. If a connected reserve system is required, mount the Size Brackets Bracket Centerline reserve tanks directly next to the main system tanks. 20 lb. (91 kg) 1 5 1/8 in. (13 cm) 50 lb. (22.7 kg) 1 13 in. (33 cm) 90 lb. (40.8 kg) 1 23 3/8 in. (59 cm) 140 lb. (63.5 kg) 1 13 3/4 in. (35 cm) 280 lb. (127 kg) 1 29 112 in. (75 cm) 390 lb. (177 kg) 1 43 1/4 in. (110 cm) 450 lb. (204 kg) 1 54 3/4 in. (139 cm) 850 lb. (386 kg) 2 11 3/4 in. and 43 1/4 in. (30 cm and 110 cm) SECTION VI UL EX-4510 4-1-05 Page 6-2 REV. 1 Installation INSTALLING DISTRIBUTION PIPING Piping and Nozzle Installation General Piping Requirements (Including Manifolding) 1. With the tank properly secured in the bracket, remove the discharge outlet safety shipping cap. • Use Schedule 40 black iron, galvanized, chrome-plated, 2. If utilizing a discharge hose, connect the hose directly or stainless steel pipe conforming to ASTM A53, or A106. to the valve outlet. If rigid piping directly to the valve, All fittings must be a minimum Class 300, malleable or ductile iron first attach the appropriate union adaptor to the valve . outlet. • Pipe unions are acceptable. 3. Continue piping the remainder of distribution piping, • Reducing bushings and reducing fittings are allowed following the piping sketch completed in System when reducing pipe size. Design Section. • Cast iron pipe and fittings are not acceptable. 4. Verify that the nozzle locations are correct and rigidly • PTFE (Teflon) tape is the only acceptable pipe sealant mount the nozzles and connect to the distribution pip- and must be applied to male threads only. ing. Make certain not to exceed the piping limitations as stated in "Design/Flow Calculation Limitations" in NOTICE Section III. Do not allow tape to overlap the pipe opening, as this could cause possible blockage of the agent. Thread sealant or INSTALLING DETECTION SYSTEM compound must not be used. All detection and control design and installation require- Before assembling the pipe and fittings, make certain all ments are located on the AUTOPULSE Detection and ends are carefully reamed and blown clear of chips and Control Systems CD, No. 2001093. scale. The inside of pipe and fittings must be free of oil See Design Section for information on solenoid actuation and dirt. requirements. • All pipe lengths are measured center to center of fittings. • Hangers must be placed within 12 in. (30.5 cm) of the dis- charge nozzle. INSTALLING ACTUATION PIPING • Hangers must be UL listed or FM approved and mounted General Actuation Piping Requirements to a structure capable of supporting the weight of the pipe and agent. When using AUTOPULSE Control Panel for detection and actuation, the panel is electrically wired to the solenoid • All dead end pipe lines to be provided with a capped nip- actuator on the first (Master) tank. From the master tank's ple, 2 in. long. See Figure 2. pilot pressure port, 1/4 in. actuation piping is required to be • Vertical drops on the end of line are acceptable. run to the pneumatic actuators located on the remaining slave tanks. When using an ANSUL AUTOMAN II-C releasing devise, two actuation options are available: See "Actuation Requirements, Section V - Design", for detailed piping 1. Use only 1/4 in. Schedule 40 black iron, hot-dipped galvanized, chrome-plated, or stainless steel pipe/braided hose and fittings conforming to ASTM A120, A53, or A106. 2. Before assembling the pipe and fittings, make certain all ends are carefully reamed and blown clear of chips and scale. Inside of pipe and fittings must be free of oil and dirt. 3. The piping and fitting connections must be sealed with pipe tape. When applying pipe tape, start at the second male thread and wrap the tape (two turns maximum FIGURE 2 clockwise around the thread), away from the pipe 001876 opening. SECTION VI UL EX-4510 4-1-05 Page 6-3 REV. 1 Installation INSTALLING ACTUATION PIPING (Continued) 2. Remove actuation port protector cap from the valve General Actuation Piping Requirements (Continued) assembly and install the pneumatic actuator; hand tighten. See Figure 4. NOTICE Do not allow tape to overlap the pipe i E= opening, as this could cause possible blockage of the gas pressure. Thread sealant or compound must not be used. 4. Cast iron pipe and fittings are not acceptable. rll~ \J 5. Actuation piping must be rigidly supported by UL listed hangers. 6. Refer to "Actuation Requirements - Option 1, Option / ? 1a and Option 2" in Design Section for detailed piping limitations. I Actuation Piping Installation Install actuation gas line by completing the following: FIGURE 4 006]76 Z~h CAUTION 3. Install 1/4 in. actuation piping from gas outlet port on the ANSUL AUTOMAN II-C release (if used) to the Piston in each valve actuator must be in the "UP" posi- master tank location. If using Option 1a, safety relief tion before installing on valve. If piston is not in the "UP" valve, Part No. 15677, must be installed in the actua- position, tank may actuate, causing personal injury or tion piping between the ANSUL AUTOMAN II-C property damage. release and the first (master) SAPPHIRE tank. 4. If pneumatic operated accessories are required, 1. Make certain the piston in each pneumatic actuator is branch off the 1/4 in. actuation piping and run to each in the "UP" position. See Figure 3. accessory. 5. Complete actuation piping from the NPT pipe to the pneumatic actuators, using the 1/4 in. stainless steel hose and fittings listed in the Component Section. If using Option 2, the safety relief, Part No. 15677, must be installed in the last fitting of the actuation piping. FIRED 1f I 7 - - ~ COCKED APPROX. 3/16 IN. - (4.5 mm) RESET FIGURE 3 006775 SECTION VI UL EX-4510 12-1-03 Page 6-4 Installation NOTES: I:1 ANSUL SECTION VII UL EX-4510 12-1-03 Page 7-1 S „`f m Inspection ,uPi,~z»con ,Vs~Cn~ Inspection is a "quick check" that a system is operable. It is intended to give reasonable assurance that the system is fully charged and will operate. This is done by seeing that the system has not been tampered with and there is no obvious physical damage, or condition, to prevent opera- tion. The value of an inspection lies in the frequency, and thoroughness, with which it is conducted. Systems should be inspected at regular monthly intervals, or at more fre- quent intervals when circumstances require. The following visual checks should be performed during a SAPPHIRE system inspection: • Visually inspect the hazard area to verify that it has not changed. Look for different fuels, new equipment, blocked open doors or dampers. • Check detectors to make certain they are in place, not damaged or coated with dirt, grease, paint, or any conta- minating substance. • Check all manual pull stations to assure they have not been tampered with and are not blocked from use. • Check all alarm devices for damage, dirt, corrosion, etc. • Check that the piping is secure and nozzles are in place. Make certain the nozzles are not covered with dirt, grease, or paint and that there is nothing structural block- ing the discharge. • Visually inspect all components for signs of damage, such as disconnected or loose parts, corrosion, twisted or dented components, etc. • Check each SAPPHIRE tank gauge to determine that tank pressure is in the operable range. • Visually verify that the control panel and/or releasing device is functioning properly. • Perform any other checks that may be required by the authority having jurisdiction. • Record that the system has been inspected and inform the proper personnel. SECTION VII UL EX-4510 12-1-03 Page 7-2 Inspection NOTES: 1:1 ANSUL SECTION VIII UL EX-4510 12-1-03 Page 8-1 S,A4,, C ~u~~3~aa:on,VacErnN Maintenance ANNUAL MAINTENANCE EXAMINATION 6. Check the condition of all tanks. Look for signs of dam- Systems shall be maintained at regular intervals, not more age or corrosion, and check the tank's last hydro date. than one year apart, or when specifically indicated by an (NFPA 2001 states "Cylinders continuously in service inspection. without discharging shall be given a complete external visual inspection every five years or more frequently if Maintenance is a "thorough check" of the system. It is required. The visual inspection shall be in accordance intended to give maximum assurance that a system will with Compressed Gas Association Pamphlet C-6, operate effectively and safely. It includes a thorough exami- Section 3; except that the cylinders need not be emp- nation and any necessary repair, recharge, or replacement. tied or stamped while under pressure.") Refer to NFPA It will reveal if there is a need for hydrostatic testing of the 2001, Chapter 4 Inspection, Maintenance, Testing, and tank. The procedures listed in this section are the minimum Training, for hydro requirements. that are necessary to maintain a system. If circumstances warrant them, a more thorough procedure should be fol- 7. Check condition of all tank discharge hoses. Look for lowed to assure system performance. Make certain that all signs of structural problems like abrasions or weather people affected by the maintenance are informed before checking. Make certain all hoses are connected prop- you start. This may include the owner, security personnel, erly. All hoses must be tested every 5 years. Refer to the local Fire Department, and possibly local workers that NFPA 2001, Chapter 4 Inspection, Maintenance, may be affected by equipment shutdown or start up. Testing, and Training, for detailed testing requirements. 8. Check condition of all actuators by completing the fol- NOTICE lowing: If the system includes an ANSUL Remove all actuators from the tank valves (elec- AUTOMAN II-C releasing device, before tric, manual, and pneumatic) and leave them off proceeding with annual maintenance examination, insert lock pin in ANSUL until the final step in Maintenance Section. AUTOMAN II-C release and remove nitro- For pneumatic actuators, check the condition of gen cartridge. Install safety shipping cap each actuator to make certain they operate freely. on cartridge. When finished, reset the pin in the up position. Do 1. Survey the hazard to make certain it has not changed not install on tank valves. from what the system was designed to protect. While For electric actuators, make certain all wires are surveying the hazard, look for different fuels, loss of properly connected. Do not install on tank hazard integrity, new hazards, etc. valves. 2. Check all nozzles to make certain they are in place. Check the condition of the nozzle for corrosion or dam- NOTICE age and make certain it is not obstructed internally or Before proceeding with Step No. 9, make externally. certain all electric actuators have been removed from all valves and that the nitro- 3. Check the condition of the piping to make certain that it gen cartridge has been removed from the is properly secured in the hangers and that all fittings ANSUL AUTOMAN II-C release and that are connected tightly. the locking pin in the release mechanism 4. Check all warning nameplates (signs) throughout the has also been removed. area. Make certain they are in place, mounted secure- ly, readable, and are not damaged. 5. Check all tank bracketing. Make certain all tanks are secured in the brackets. Check for corrosion, damage, or missing components. SECTION VIII UL EX-4510 12-1-03 Page 8-2 Maintenance ANNUAL MAINTENANCE EXAMINATION (Continued) 9. Tank Weighing - Option 1 Tanks must be weighed (without liquid level indicator) ~9 gg MEASURING j to determine agent quantity. The weighing procedure is TAPE as follows: • Remove all manual controls, actuators and actuation CAP pipe or tubing and flexible electrical connectors. REMOVED • Disconnect and remove discharge piping/discharge hoses from tank valves. MAGNETS • Install Safety Outlet Caps onto tank valves. NTERLOCKED • Remove tanks from bracketing and weigh tanks. Any tank showing more than the maximum allowable FIGURE 1 weight loss must be recharged by a qualified 006255 recharge agent. c. Read the measurement on the tape directly at the • Record weight of tank on record tag. top of the plastic sleeve in the measuring device • Replace tanks in bracketing and remove Safety housing (see Figure 2). Record this measurement Outlet Caps. and note the temperature of the tank module. • Reconnect discharge piping/discharge hoses and all NOTICE control heads, pressure actuators, pressure actua- The tank module temperature can be tion pipe or tubing and flexible electric connectors. determined by measuring the ambient 9a. Tank Weighing - Option 2 temperature at the tank location. The tank must be stored at this temperature Determine agent quantity using liquid level indicator. for at least 24 hours to obtain an accu- The liquid level indicator is used to determine the liquid rate liquid level reading. level in 280, 390, 450 and 850 lb. tanks. During a maintenance examination, the indicator will enable a service representative to convert a linear measurement to agent weight in order to determine if the tank has any weight loss. This measurement is accomplished without removing the tank from the fire suppression ` System. READ LEVEL HERE To measure the liquid agent level: a. Remove the protective cap from the measuring device housing. b. Lift the measuring tape to the end (or approximately 006263 3 in. above the expected level). Slowly lower the tape until a magnetic interlock is felt. See Figure 1. FIGURE 2 006263 d. To reinstall tape, quickly pull on the tape to disen- gage the magnetic interlock. Then slide the tape into the housing and replace the protective cap. SECTION VIII UL EX-4510 12-1-03 Page 8-3 Maintenance ANNUAL MAINTENANCE EXAMINATION (Continued) Remove gasket from cartridge receiver in ANSUL e. Using the Agent Quantity Table(s) located in this sec- AUTOMAN II-C release mechanism. Check Bas- tion, determine the weight of charge as follows: ket for elasticity or cuts and replace if necessary. Clean and coat gasket lightly with a good grade of • Find the liquid level reading along the left hand extreme temperature grease such as Dow vertical line of the table. Corning No. 4. Reinstall gasket into cartridge • From that point, follow the horizontal line to the receiver. Do not install cartridge at this time. point where it intersects with the temperature col- 15. When all tests are complete, reset control panel and all umn (using the tank temperature noted in Step c). accessory electrical equipment. • Read the weight of Novec 1230 agent at the 16. Make certain all electric and pneumatic actuators are level/temperature column intersection. reset. f. Compare the weight from the table to the weight of 17. Install all electric and pneumatic actuators on tank charge stamped on the tank nameplate. If the mea- valves. Hand tighten. surement shows a net weight loss of more than 5%, the tank must be weighed to verify the liquid level mea- 18. Install nitrogen cartridge in ANSUL AUTOMAN II-C surement. If the weight loss still exceeds 5% of the release by completing the following: weight of charge, the tank requires recharging. Make certain release mechanism is cocked and 10. Check condition of control panel for tampering, corro- locking bar is in place. sion, or damage. Test panel at this point by referring to Remove shipping cap and weigh nitrogen car- the appropriate AUTOPULSE Control System manual. tridge. Replace if weight is 1/2 oz. (14.2 g), or Note: If system includes an ANSUL AUTOMAN II-C more, below the weight stamped on the cartridge. release, make certain cartridge is removed, release is Screw cartridge into release mechanism, hand cocked, and locking pin is not in place before each tighten. test. • 11. Check all detectors. Make certain they are in place, Remove locking pin. clean, and not damaged. If required, check the sensi- Close cover on enclosure, install locking pin tivity of each per the instructions of the detector manu- through "STRIKE" button, and secure with visual facturer. See appropriate AUTOPULSE Control System seal, Part No. 197. manual for detailed instructions. 19. Record annual maintenance date on tag attached to 12. Check all pull stations. Make certain they are in place, unit and/or in a permanent file. that they are not blocked or damaged. Operate each 20. Inform proper personnel that the system is back in ser- pull station to make certain that they operate the con- vice. trol panel. Reset each pull station. 13. While checking the detectors and electric pull stations, inspect each alarm device. Check the alarm's condition and verify that they operate properly when ene-jzed. Reset the alarm circuit after each test. 14. If the system includes an ANSUL AUTOMAN, check release by completing the following: • Make certain locking pin is not in place, and man- ually test release by operating the "STRIKE" but- ton on the release mechanism. • Cock ANSUL AUTOMAN II-C release using cock- ing lever, Part No. 26310, and install locking pin. SECTION VIII UL EX-4510 12-1-03 Page 8-4 Maintenance m 6) Lo r Co 't O (D N m Ln r I- 'It O (D N O Lo f f_ V' O CO N M U) r- O M 1-t O Cfl O N 6 M O M CD 00 r M (D 0~ 4 r O N V' r• O N Ln M O M Ln oO r M M M N Ln ti O O O CD N N N N M CO M M -,r lzt V Ln Ln Ln LO (D CO CD Co ti ti r M M M M r r r r c- r r r r r r r r r r- r r r r r r- r r T- r r O CD M O Lo N 00 Lo r r V' O ~ M O Cfl N M In N M LO r 1` O r- M O O O t~ M N V ti O N 6 f` O M LO M r M (6 O V (D 63 N li ti O N LO M O M (6 N 00 00 V (6 6) O O O O N N N N co M co M d' f d' d- Lo Ln u-) CO (o (0 O ti 1` r- r O O O 6) r r= c- r r r - r r r r r r- = r r r r r = r c- r r f- M O r- M O O M O CD M M O M O (fl N O (fl N O LO N M LO N O Ln N O Lo co r-_ O N Lo S O N 6 w O M (D 00 4 CD O N v ~ O N 6 C6 M M LO co O O O O N N N M M M M dt dt ',t Ln In LO LO (D (D (.D ~ t: r~ O 6) 6) r r r r r r r r r r r r r r r r r r r r r r r r r r r r r o r 00 d CD U' x 4l N-) LO N m c Q0 M c c9 M O r_ -t CD r v O O N LO C6 O M (fl 00 .4 CD rn N v n O N LO Co O M O rn r- v O N ui r- O O M O O O O N N N N CO M M ~t It V It LO LO LO M CD (fl CD CD t~ r` a0 r O O r r c- e- r r r r r r r r r r r r r r c- r r r r r r r r r N t` V r 00 LO N C~ CD M O t- V r M In N O (D M O (D M O ;J: M Lo N m 10 M O B r- M N m f` O M CD M r d' CD O N-,t P- O M Lo m M CD W v r` 6 N C) ( J O O O O r r r N N N N M M M M E V V LO LO LO LO (D (D W (D r- I- r- r• 00 O 00 LO N O t- V r CO Lo Co O t, V r 00 Lo M O P~ r M Lo M O ~ ~t r 00 O co (D 00 6) N LO 1` O M (D 00 O 6) N Ln r-~ O M Ln CO 4 (6 6) N 4 C) c6 N O O O O r r r r N N N M M M M V U2 U2 LO (D (D CD (D t` N 00 M M M LO M O t` Ln N O f,- O (fl M 00 Ln Cl? 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C > L Ln Ln LO LO LO Ln Ln LO N Ln ti N LO ti N Lo t- N Ln t- 0 a) N LO t` N In t- N Ln N L0 n O O O O N CV N N M CM M C-) 't N J J - (D O CD C6 1` ti r- 00 00 M M O (:6 6) 6) r- r r r r c- r e- e- r e- r e- - SECTION VIII UL EX-4510 12-1-03 Page 8-5 Maintenance ~t V' O i9 N Cp Ln 7 t` M O CO (V CO Ln r- M O CO N CO Ln r r M O M N 0.~ V' - I'- Co O <r (9 o) ~t (.0 0) N Vt O N Q r- O M Lo 00 M Co 00 ~ dt (.0 M N ~ t~ 6) N Lo f-- O M U) r• t• x M Cp O 6) O G7 O O C O e- e-- r- r N N N N M M M M ci' d' Ln Lo Ln CO N N N N N N N N N N N N N N N N N N N N N N O CO N O Un N CO r M 6) O N 0) U) N CO d' r• ~t O (9 M Cn (D N 0) Ln O o6 00 r- M (D G) d" ti O N LO r. O N LO M O M M 00 V CO M N V O N LO r- O M N r• C4 CO M d7 O p tT O O O r N N N N M M M M t'T t ;t Lf 7 Lo M (.O CO N N N N N N N N N N N N N N N N N N N N N N N M Ln N 0O Ln 00 Ln M Z~ 00 r- 'd r- "7Y O r- t O r- M O r- M O CO M O O M (D 00 M M N :1' r- O N Ln O O M (D 00 1- M M N IT r• O N Ln M O M CO M M M 00 tT 0 a7 6) O O O N N N N M M M M LO LO U) LO CO (D (0 N N N N N N N N N N N N N N N N N N N N N N N N N i CD: c- 00 Co Lf) 00 Lf) N O Lr (1,' M (D M 6) (O M O O M O r- O I- ~ 00 -,t M O r,-: Co Lr) 00 M (D M V r- O) N L() r- O M 6 M - CD m N rt r- O N Ln w O M O 00 M rM M d) O) ~W O O O O O r- N N N N M M M M~`1- 't LO U) LO Ln (D (D O(0 r ~ ~ N N N N N N N N N N N N N N N N N N N N N N N N N N I N M O I` d' 00 Ln N Cn (O M O Ie c7' o0 Ln N O) O M O) CD M O d' IX) Ln N 0i CD Lo 00 O M (0 00 V CD 0) N LC) r- O M M M M CO O V r O N Ln C6 O M Co M O Cj M 00 CT O O (n O O O O N N N N M M M M V' V V LID LO Ln LO CO O (D (D r- (T r- N N N N N N N N N N N N N N N N N N N N N N N N N N N CD M O r d, 00 (0 M O r- V O CO M O r d' - M (D M O r ~t - 0') (D M O r- dt M r• O M Ln c6 M CD O) N V r O N Ln oo M M 6 v r- O N Ln w O M CO O-' 4 O N I c0 p O O m 0 0 0 0 N N N N M M M M' 't d Lf) U) Lf) L0 (D (D (D (D t-- r M N ND N N N N N N N N N N N N N N N N N N N N N N N N N N _ M Ln M O r- Lo N O r• V O (D Co 00 Lo Co O r- Lf) (Ij O) r~t 0) (D M 00 lf) M c' O N Ln Co O M CO 00 -4 r rn N 6 06 O M (o O) V' r• rn N U) 00 O M CO rn~ 4 r- O Op p p 6) O O O O t- T N N N M M M M ~ It dt It Lf) Lo Lf) (D (D CO Co r- r- r- r N N N N N N N N N N N N N N N N N N N N N N N N N N N N N I U p U) N O r O CO M O- U) CT Cfl V 00 Lf) M O r V N 0) (D M CO t.C) N Y) M O O N Y r• O N Ln M Co (.O O ~ r- O N Lf) W M (D O- V r, O N U) 00 d O CA M O M 0 0 0 N N N N M M M ~t ",T V ~t L!') U) LD LO CO O (D r- r- r- r- C d CD N N N N N N N N N N N N N N N N N N N N N N N N N N N N N d ~ r C 0 M O of In N O CO M O M Ln N M CO M O OJ LC) N O7 CD M O M In N ZT (D M O M Ln N 0 U- O N Lo r- O Co Lo 00 V M O N 'zT r- O M Lo M M (o M N 'It r- O N Lo M M (D O V O 0 0 0 0 0 0 0 r r N N N M M M M 1- T"T Lo Lf) Lo (D cD CO (D r- r- I` r-- Lo C N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N a) _ O M O r- 00 Ln N O) CO ct 00 Ln N O O M O r- ~t CC) U) N M CO M O r- zT N Co -7 M (6 rn V r- O N Ln r- O M C6 O() 4 (fl rn N Un ti O M Ln 00 M CD (::6 N v r- O Q y 0 4 p t) 6) 0 0 0 0 N N N N Co M CO M d' V 't U) U) Lf) Lo (D CO (0 (D r- r- r- 00 H L r- N N N N N N N N N N N N N N N CV N N N N N N N N N N N N N N r L O (9 M O (D M O L`- d N U) N O) CD M O L- ct -7 CO U? N O CD N 0~ CO M O I- ~t Z Q V' I~ O M LO 00 M O O lzt r- 0) N Lf) 00 O Cl) CD 00 (D Q) N ct r- O M U) M Q P O O Q7 O O O O N N N N M co co -t 4 V -t Lf) Lo U) U) O O co r- r r- r• 00 D F~ Co '..N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N C3 F - z 00 Lf) N O (D M LT M (.0 O r- d, r- d' 00 Lf) N O Lf) N 0) (D M O I-- M O r, W (D 00 -4 6 (:6 N4 r- O M Lr) 00 M CD G3 4 r- m N Lf) r- O M 6 N v (D N O (O 6) O) O O O O - N N N N M M CO Co ';t V V "r Ln Ln U) (D (D CD CD r, r- r- r- 00 Q N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N Y Z N b- Cp V 00 Up CO Lo N (DO Lf) N O) L0 N O (D Co 0) (D M O M M O r- M O r- -t O f- N r O N Lo 00 O co CD oo -t CO rn N v r O N Ln of O M CD rn 4 r rn N Ln r O M U O O) O O O O N N N N M M M 4 VW 't Lo Ln In Lf) (D Co M (.O t-- r• r M 00 W e- N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N Z M M O r• M O r- M O r- CO O r M O r- M O r` M O r- M O r- M O r- M O r- M O 0 ~CO t co a) N_ d' r- O N Lo (p O M (6 00 4 (D 6 N d' r• O N Ln o6 O M (D oa r 4 O O O O O N N N N Co Co Co M f' t -t -73- U) Lo In (D CD (D O r- M 00 Z O N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N D CL Ln L0 Lr) Ln U) Lf) Ln U) Lr) Ln Ln Ln Lr) Lo Ln Lr) In C ~ > L N Lr) r- N Lo r- N L() r. N Ln r- N U) r, N Ln r- N L) r- N Lf7 r- N 00 J J D IT V m Lo m m CO M O (D r- n r r- M W M M M O M M O O O O N N e- e- - - - - - - - - r - c- - c- r- - N N N N N N N N N N SECTION VIII UL EX-4510 12-1-03 Page 8-6 Maintenance O N M V M O M N M O N Lo 00 O M (.D M r M co m- d- r-~ m M :O (.9 O r` ti 00 M M Co m m m m N N N N N N N N N N N N N N N M d r d' O (O M m M N M Ln c- M O 06 In 00 M (D m r; ~ (D m N V f- O N N ty. (D M f- f- f- M M M M m m m O O N N N N N N N N N N N N N M M M M M m p M m p N m M N m M N m . . . . m C' M (D t` ~ ti M CO W M M m M O O O N N N N N N N N N N N N M M Co M: L() r- M Lo N m LIB N m CO co m CO M O O ti - CO m N ~t r` O N Lo 00 O M C6 m O M r- r- f- M M M m m m m 0 0 0 CD N N N N N N N N N N N M M M M N. M O f~ 00. U-) N M (D M O r"t e- d' ~ m N In f-- O M L() 00 -,t (6 m N O (rNj ti f` rl_ M M 00 m m m m 0 0 (D 0 m N N N N N N N N N N M M M M M ti N m CO M O f-7 1~t N m M M O f- 1t N t` m N Lo co O M M co - V r m N Ln O N r- n 00 M M m m m m O 0 CD C) r M N N N N N N N N N M M M M M M O f~ Ln N m f~ V m Cfl o? M L() M O N LC) M O M (.0 m- V f- O N L6 M O N M co 00 M m m m m 0 0 0 e- f~ .-N N N N N N N N M M M M M M M V m 00 CO M O f- LI) N m CD V 7 U) ~j O M (D M ~t f- O N Ln M O CO M m d 0 M M M M m m m 0 0 0 0 ` (D N N N N N N N M Cl) M Cl) M M M M 01 CT) CO M O CO LI) N m (D Cl) O M LI) N m LL. p . It r- O N Lo M O M (D m m y O r M M M m m m m 0 0 0 C) r LC) N N N N N N N M Cl) M M M Cl) Co Co N y L uj Q _ m CD M O f- 'ch - M LO N M (D M O f` m 'a' N L6 M M (D m 4 r-: m~ L6 M O Fa- i OV 4 00 N N N N N N N M O O O M M M M } Z F- m F- a) _ M M N M M M O ti M Ln N M M Z a M M m 4 r-~ O N 6 M O M M M Q E O r- M M M m m m 0 0 0 CD N Q ~ M N N N N N N M M M M M M M M M C1 H Z M Lq M Ln N m (D M m (O M O f~ d' LLI ~ 'It f,- O N M M O M (D M V m N O M M m m m m 0 0 0 0 r N Q N N N N N N N M M M M M M M M M Y Z N f` d' t` d' M Ln e- M M N M LO N N Lo m M m m r-~ m N 6 f-~ O M U O M M m m m m 0 0 0 0 r- r- N N lJ.l N N N N N N M M M M M M M Cl) M Z M f` M CD t-, M O r` M O I-, M O f- M O Q ti (D m N tl' r` O N 6 M O M CO M 4 co M m m m O O O O N N Z O N N N N N M M M M M M M M Cl) Co D a Q) U) LI) Lo Lo Lr) LI) Lf) C 5 > L L(? ~ N LI) t- N UI N LI) t` 00 07 N N N Co Cl) Cl) Cl) V Nt V 'IT Ln m Lr) Lo (D N J J - N N N N N N N N N N N N N N N SECTION VIII UL EX-4510 12-1-03 Page 8-7 Maintenance V M W d' O 'f? M N W :M O~ rt O Lfl t'~ N W d' O) I CD C Ln N O t O N !o t~ O CO Ln aJ O Co !o 00 M C.O N M CD a) ~ d' CD M CO M N d' f` M N M j M M M M d' V Ln Ln Ln LC; (D M M M t` ti ti ti M W W W 67 O 07 O O O O m t,- M M -,r O CO N CO "t O in I` M M Lo O (D N 00 t O (D ti M O Lo r M N W O C6I M CD M V CD 6 ~ 4 r-~ rn N v P-~ rn N Ln r- O N Ln M O M Ln M O M CD M~ M N may. ; M M Co M V' d" d' d' Ln Lo Lo Lo Cfl (D CD Cfl r-- t-- r M Co W M 6) 6) 6) O O O O O r r - - - - - - - - - M i O M N M ~ O M N M ~t O CD N 6) L[7 f~ M 6'i Ln t, M 6) to O W N M cr O r) N 'T r- 6) N U) f` O N In M O M In M M CO CO (D O V r O N Lo I` O N Lo m M Co M d' d' V' Ln Ln Ln Lo (D Co co (.D r- ti ti M Co M M 6) 6) 6) 6) O O O - c- r- r- ~ - - - - - r - - - - - N N N N N N r) ! CO M O CD N M Lo T-- r zT. O CD M 6) M N W CD, r--. M O CD N M Ir, r- M C), (D N Lo 00 O Cl) (D 00 M CD O I` m N V I- O N to M O M Lo M M (D O (D M M M Co V d' d~t Ln 1.n In M M M CD (.0 r` t1- r M M Co M O O m 6) O O O O c- - - - - r - - - - - - - - N N N N N N N i N t~ M O CO M 6) (p N o) Ln N W In N W Lo = M't - ti tY O f~ Co O M M M CD N M Co M (O 6) 4 M O N 4 r-- O N Ln W O M CD co V co o~ N V r-~ O N In I~ O M Ln co c- M M M V V d' Ln Ln to M (D CO CD t~ t~ ti t~ W W W M O Q) d7 O O O O O (rNj O ~ ~ r- ~ e- N N N N N N N Lo N m Lo N 6) CO N 6) (D Co 6) (D M O CO Co O 1 d' O t- d ~ V M V M Lo r- ~j mot' t~ (T) N to ti O ('M Ln W P M CO 6 N 4 ti O N Ln c6 O M Cfl M 4 Cfl 67 N_ 4 t-~ O O N M M M d' mot' d' In Ln Ln Ln (D W (D M f~ ti M M M M O Q) 6) 6) O O O O N , r r- r N N N N N N N N M Ln N O7 W M O t~ M Ln N O O M O f-- ~ M Ln N 67 M M O ti r m co O M (o m V' ~ 6) N Ln r` O M Ln o6 ~ M (6 6 N 4 r-~ O N Ln N O M to 6 O N M M mot' cr ~P -t Lo Lo Ln Lo M co O I- t-- t-- I- M M M M m m 6) O O O O r' r r- N - - r- r - - - - c- - r- c- - r N N N N N N (V N N V (D C7 Cfl M M Ln M O I~ Ln N C7 6) CD M M Ln M O t~ Lo N 6) ti c7' 137 CO (n Imo- O N 0 W O M M M~ t~ M N Lo M O M W M ~ t- O N Lo 00 O Co CD 6) d' CD O M M Ln Ln to In M Cfl CO M t` I~ M M M M 6) 6) d1 O O O O N N i M ~ r r- r- r r N N N N N N N N N N C O I`- "t N O S Lo M CO CD V' - M ti V N O h Lo M O M C.D M r- M CD It N M t-- In . . U- p 00 ~t r` O N Ln Co r- Co CO m N 'T I- O Co (D 00 T r- 0) N Ln M O Co CO a t- fn O r M V d" V LfJ lf7 Lo Ln M CO CD <R M t` ti M M M M 67 O d7 6) O N O NO N N N NNN T In T ~ N N N N N W J y _ t- LO M M I-- Ln M M t- M M M I-- LO M M I` LO M M I- CO ~t N O W M m? V O M CO rn v ti O M Ln M v r--: 6 N In W M (D 6 N Ln ti O M (6 rn N 4 t` 6 Q y O d' d' to Ln to CD (fl CD (.D h t~ t~ f~ M M M 6) 6) 6) 6) O O O N N N Co F- L t- t N N N N N N N N N N N 3 _ R F L7 M- O M M In M N O M t- Ln M N O M f` M'IT N O M ti (D 'IT N r M t` W V M Z Q' N Ln M M C6 6 N Ln M O M 6 6 N Ln ~ O M c6 6 N V t` O M CD 6 4 P--~ O M Q E O V d' Lo Lo Ln Lo M M CO tl r t~ t~ M M M M M M M O O O N N N M M ? ty M - - - r r- c- - r r r- - - - - - - - N N N N N N N N N N N N Q H Z t_ N O M t- (P Ln M N O W t- (q ~t M N 6) M r,~ L() zt M N O 6) M M Ln zj: M 'IT t~ O N M M 'It t` O N M M r- ~t ti O M LO M- fi t- O M M M ',I- I- O M M O ~t rt Ln Ln Ln Ln M W CO P~ t` t~ f~ M M M M O M M O r O O N N N M CO M e- r- N N N N N N N N N N N N N Y I Q N O m M t~ CD Ln 't M N N O 0) M t, (D Ln Z' M N O O 61 M r,*~ M Ln V M N O H N CD M 4 t-- O M M m N In M O M Cfl 6) N Lo m ~t h- O N in w 4 ti O M M m O t~ -'T -t Lo 0 m ((D (D (D (O I-- t-- r- M M Co M 6) 6) 6) N 0 ON N N N N N N N N N N N W t- r Z 0~ 00 f~ (D W LO LO V 'Y CO N N 0 0 M M M t` t-- M Ln LO I- V M M N O O M r- . . . . O) N In Co . .4 t~ O M CO Q1 d' t~ O M M oi N Ln M 4 t-- O M M 67 ? O .c' r- Ln Ln LC) M M M CD tZ I- I` M CO M W 6) M M 0 CD CD 0 N N N M M Z M M 1r2 c2 ~ e2 e- c'- c- - - r- N N N N N N N N N N N N N N N a L(7 Ln Ln Ln Ln Ln Lo L() Lo Ln C D j .C In L!') l) Ln Ln Ln N Ln r N Ln N Ln tl N Ln t- N Cn t~- m 3 j 1 N Ln t~ N Ln ~ N Ln t~ O O O O N N N N M M 2 M ~t V' V' ~t Lf7 M J J r-- t` ti ti M M M LoO (n O c- r- ~ ~ e2 r- ~ ~ SECTION VIII UL EX-4510 12-1-03 Page 8-8 Maintenance CO d' O Lf) O (0 N 1~ M 6) O U) r r- N 00 M G? UJ O CO N r- M oo d' O Ln CO N 00 O r, 6) N U) 1` O N L.7 ti O M U) o0 O M to o0 O co O M M CD 00 4 (.D 6) 4 (D M i f r N N N M M M M i- zt f V U) U) U) Lo CO CO CO (o N t` r- r` 00 CO M w G7 m m N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N I i V' O O N ti M O to r N op "t O O N ti o? O Ln r,~ M 00 V O O N CO M 6) U) O c6 O Q7 ,t (fl m- v r` 6) NzT t- O N U) ~ O N Lf) N O M Lo co M O w c- M (6 6) N N N N N M M M M V' 't 't U) m Lf) L!i (D (D (D Co r-- I~ il, fl- M m m 00 m m m m r- N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N O O N 00 V O (.p M O U) r--7 C? O U) r M O Lf) 00 V O O N 00 B O O N o0 V O c6 of O M U) 00 M (D co V co O V r-: O N d' 1` O N Lo w o M Lo CO r- M O co r- c- N N N N M M Co M 't 't Lo M Lo M (D (D (D ~ r_ 1,_ h- 00 00 M M O O M M O N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N M (.C N :f) M '7t O Q-- M O Lf) N CD '7 ti M .O CO Lr, I-- It O (.D N Ln CC O 6) N,T r` O N Lo op O co Lo o6 M co 6 -4 (D 6 N v ti O N Lo OO O M Lid oD ri O M N N N Co Co Co M"t "t U) Lo Lo U) O (D (0 (D r` ~ ~ 00 oo 00 oo m O) m m O O N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N CO CO CV N 67 Lf) N CO Lf) M 1~ V O t- M O C0 M O O M (D? CD N 6') 47 N M Lf) M M CD m ~ r` 6) N 6 ti O co U) CD co (D a) v (D 6) N -,t t` O N U) CA O M CD CD M N N N N M M Co Cl) V V 't U7 Lf) Lr) L0 O (D (D (.0 t-_ t- r- 1-- 00 00 00 6) 6) (3) 6) O (D O O N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N Cl) M M M U) N M Lf) N O) U) N O O N O O M O O M O O M O t- M O 1- V' Or-~ t~ V N LD 00 O M (0 00 t (D D) N V 1~ O N M 00 r M CD 6) t 1- O N Lf) r- O M LI) 00 O N N N N Co M M Co V V' ~t L0 Lf) Lf) (D C0 (D (D ~ r- f- ti M 00 00 00 O) (3) O O O O O 00 N N N N N N N N N N N N N N N N N N N N N N N N N N N N N M M M M 7 M M N O O M O 1- ~r c- C0 U) N O O M O 1- ~t CO LO N M C0 M O r` V 00 D) N Lo r` O M (fl 00 4 Cfl 6 N 4 r-~ O co Ln o, ~ M (D 6 ~ v r-~ O N Lf) 00 O O N N N N M M M zt V -t m m Lo m (0 O (D 1-- t- 1-- ti co M M w 6) 6) O O O O O T- r- N N N N N N N N N N N N N N N N N N N N N N N N N N N N M M M M M V M 00 Lf) O n Un N O~ O (.0 M 7 00 U) M O r,-: U? N O S V O (D M M U) f`- O N U) 00 M (0 O t- O N U) 00 M (D 6) N V~ O N LO 00 Co C0 M N Vt d O N Co M M M V' V IT V Lf) Lf) m O (0 (D (D ti~ t-- t- M 00 OD O) 6) 6) 6) O O O O r- d (D N N N N N N N N N N N N N N N N N N N N N N N N N N N M M Co M M M N O CO (D M - O (D :T N M 1l- U) N O 00 U) CO - 00 CO ~t M ti N O 00 U) M c- 00 LL O M Lf) C0 O N Lf) 1- O M O M V 1- O N U) 00 - M (o O N M P- O M (D M fn O M M M M ',t 't ~t Lf) LC) Lf) O (D M (0 ti ti 1-- 00 00 00 CO 6) M 6) M O O O Lo N N N N N N N N N N N N N N N N N N N N N N N N N N M M CO M M Co M W J d _ N O 00 O N O 00 O N O 00 CO ~t N O N M It N O 00 W V N O 00 O -t M - 67 m 0 V M (6 00 .4 1` O N Ln Oo .4 (o rn N Ln 00 O M CO rn N 4 t-~ O M C0 w r -t ti O N Q y O CO M CO V 't IT U) Lf) LO LO CO (D O CC r- 1- 1'- 00 00 M CO 6) 6) O O O O O - e- N N H 3 ' N N N N N N N N N N N N N N N N N N N N N N N N CO CO CO M CO CO M M M t0 L F- d - O 00 O It M- O 00 (0 L() M O 00 P- Lf) M N O CO r- Lf) N O M ti Lf) 1:T N O) Z CL 6 CO 4 r` O M (D CO V' ti O M Ln CO v ti O N Ln 00 4 r` rn N Ln o0 V (6 D E MO N N N N N N N N N N N N N N N N N N CO N N N N O Cl) M CO CO O O O CO M M M M M CY ~ H Z O O 00 (p U? d N O 6) 1, (p U) d N- O0~ r Cfl Ln M N 6) 00 r-~ Cfl M N O W C6 61 V 1l- O M O M N't 1- O M O C3) ,N U) 1- O Co O O) N U) 1- O M CC O) N U) CO O (7 O M V' It V U) m Lf) U) O (D (D t- 1-- t- h 00 Co CC) 6) 6) 6) m O O O N N N M Q N N N N N N N N N N N N N N N N N N N N N N N M Cl) M M M M M M Co Co Cl) Y Z (V O) 00 t` t- O LO d. M N - O 6) CO t- (0 U) ~t ~t CO N - O 0) 00 1- O LO rt M N O H N 4 r` O M (D 6 N U) 00 M (fl 6 N 6 00 4 t-~ O M 6 00 O M CD o) N 6 V O -t -t -t U) U) U) L() O CD (p t` t` r- t` of 00 00 M O) m O O O O N N N N Co CO W N N N N N N N N N N N N N N N N N N N N M M M M M M M M M M M M M Z 00 Cq 1- O O U? ~t M M N N O O D1 O 00 f~ C0 O n Lf) V M M N N r O M O O N LL) M- d' t-- O M O O) d' t-- O M O D) N Lo Co d- r O M (D m V' U) Lf) m Lf) O O M ti 1-- t-- Co co Co Co 6) 6) m O O O O - - N N N M M M M Z O N N N N N N N N N N N N N N N N N N N M M M M M M M M M M Co M M M D d Q) Lo Lf) Lo Lo lL) Ln L0 Ln U) Lf) L(') Lr) Lf) lf) Lf) U) Lo 7 > .C N Lf) 1- N U) t~ N L0 t` N U) 1- N L0 rl_ N L0 rl- N Ln ti N Lf) tl- N N Ln Ln Ln (D m (6 CD r` r,-~ ti r` oo o6 N w 6) 6 6 6 O O O O N N N N M M M J J - - - - - - - - - - - r- - - - - - - N N N N N N N N N N N N N N SECTION VIII UL EX-4510 12-1-03 Page 8-9 Maintenance ~t M 6) Ln O (D r M M rt O to r Cp N M :M O `7 O CD r M M V" 6) In (D N f~ M O ct m r ~ r- m N 1- 1_ m N LC) r O N L.0 t~ O N Lo 00 O Co Lo N O Co Ln 00 M CO Co - M L1) M O CD O O r CV N N M CO CO CO d' 7t T Ln Lr) Ln LO CD (0 (D C0 r- rl- f-- f` M r N Co Co Co M M M M M M Co Cl) M Cl) M CO M M (v) M M M Co Co M Co M M Co M M Co i C•7 f~ M 0Z O (D N M V O U7 r M O Ln O CD N 00 O Lo f~ M O Ln r CD N M ct O r M m N r f-- m N V ti O N Lo f` O M Lo w O M (D 00 M M M V M O- b- N w O O O O r r r r N N N M M M M "t ~t 't V' M Ln M Lo (D CD O (D t` N I` t-- CO CO r M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M I O CO Co O Ln I` M 07 Ln r M M M M O CD N 00 V O M N M d' O (D M M Lo O Crj (COD 2) rl' t~ p N ct' t~ O N Lo f` O M Ln M r M (D M 4 (D O 4 1- 0) N 4 ~ r p p O N N N CO M CO Co 't V 1- Ln Ln Ln Lo (D (D (D (D r- t-- h- r 00 00 00 M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M I 6) : d' O M O tf) N M1- _ t~ c'), CD. CD N M Ln t~ rt O CD C0, M, Lo M1- O f~ M O CD (D r_I (D 0) M a7 N T 1` O N Lo 00 O CO LO W M (D M V' (D M N V ti p N Lo t'- O O M O O N N N M Co M M It Iq 't 't Ln Lo Ln LC) CD (D (D (D r- ti ti m w 00 00 m r m M M M M M M M M M M M M M M M M M M M M M M M Co M M M M M M Co M I N t` 'a' O h- M O O Co (7) (D N O Ln N 00 to 00 L-0 00 't f~ V O ti M O (D CO ~Y CD d7 N V r- O N L') 1` O M Lo M M (p 0) r 4 t` O N Lo f~ O M Lo M Y-) M O M O r r r N N N M M M M V d' V ~t Ln LL) U) Lo CD CD CD (D t~ - f- CO 00 00 M 0) p 0) M M M M Co Cr) M Co M Cr) Cr) Co Co Cr) Co M M M M M M CO Co M Co M M M M Co Cl) co co i t`_ I M Lo op Lo N o0 Ln N (D) Lo N 0) (q N O (D M - (O M O O M O f- M O r d' O r- M CD O) rt r` M N M r` O M Lo M r M C0 M r T t-- O N Lo 00 O M (0 00 q (D O N! N N N N Co Co M ~I- d' V Lo L0 Lo Lc) (D (.0 M ti t` M Co M M 0) O O) M M M M M CO M Co M M M M Co CO M CO Co M M M M M M M M M M M M M M Co M M I I Lo N M Ln N O7 O M (D t` V r- 00 Lo N O CD M O t~ '7r - CO Ln N O (0 CO O t-- ~T r M . M CD M It (D O) N LO t-~ O M Ln 06 r M (D rn N -t N O N L6 00 O M (D 6 r Ij t` 6 p N r r r N N N N Cl) Cl) Co V' dt ~t 1~t Ln Lo L0 Ln (D M Cfl 1` I` I~ 1-- 00 00 M 00 O 0) m 0) t~ M M CO M M Cr) M M M Co M M Co M M M M Co M M M M Cr) Cr) Co Cr) Co Cr) M M M M M U Lo M 1- LC) N 0) n O) (p M O~ Lo M O r-: V N O (D IZT 00 CO M O 00 Lo N O y L6 f` O M Lo CO M M 0) N 'f 1` O M Lo o0 - V' (D 0) N t~ O M Lt) 00 4 p 0) N LC) d O r r N N N N M CO M M "r V ~t Ln Ln Ln Ln (D CD (D (fl t- ti~ M 00 00 00 0) O 01 O O i(o M M M Co Cl) M Co Cl) M M M M M M M M M M M M Co Cl) M Co Co Cl) Co M M Cl) M 't V ~ I CD t CT ti t N O ti LC) M O 00 M M O (D T N (3) ti Lo CO O M (D M O to d' N LL p q r- 0) N Ln 00 Cl) M O N V 1` O Cl) Lo 00 V (o 0) N Ln M O M CD C e- V ti O N O N N N M Co Co V' d' d' d' Lo Lo Lo (.0 O CD (D h- ti ti ti 00 M CC) 0) O O 0) O O O LC) CO M CO M M CO CO M M M M M M M M M M Co CO 1) M M Co M M M M M Co rY "t 'T V' W D) -j a) m Q _r-- Lo M r 0) ti Lo M r O f` Ln M r 0) f- Lo M r O ti L(') M r f~ LC) M r 0) ti Ln M ct L6 M .4 m 6 N Ln 06 O M CD rn N 4 r-~ O M (D W 4 r.-: O N Ln 00 .4 CD O N Lo Q y O N N CO M M M It t It Ln Ln Lo Lo (D (.0 CD r` r` r- h 00 00 00 M M 0) rn O O O O 1- T CO M CO CO M M M M M CO M M Co Cl) M Co M Co Co Co M CO M CO M M M V V 't T ~t ~t R d I`- (0 V N r 0) 00 (D r M r 0) 00 (0 Lo Co r O CO CO In M N O M ti Ln M N O M 1` Lo z CL c` (T N Ln M M m 6 N Ln o6 O M (D 6 N Ln N O M (D 6 N Ln r-~ O M (D 6 N 4 r` O Q E O N M co M ~ ~t Lo Lo Lo CD co co (D f~ F- t` co M oo co m 0) 6) O O O O N Q Co Co Cl) Cl) (M Co M Co M M Cl) Co Co Cl) M M M M co Co M M Co M M It V' V' It It -It V F Z M Ln ~t M N O 0) M (D Lf) d- M O 0) M (D L? d N r O ti (D Ln N O 00 t` lJJ M CD M N LO 00 M CD M N Ln 00 ~ (D M N M M 4 1` M N Lo W ~ ti O N M (j O (D M M M 1t ~t I- Lo Lo Ln Ln p ('fl CD t` t- ti r CO 00 M M M M M O O O r r N N N Q N M M M M M M M M M M M M M M M M M M M M M M M M~ It V' ~I" d' ~t V V Y ' Q N M CO t- (D M',I- M N O M CO M t~ (D LO d' M N r- O M 00 r M LC) Lo - M N r O M F- N O M co m N Ln 00 V (D rn N Ln CO 4 r--~ O M (D CO 4 r` O M (fl rn N Ln w O M 'd' It V 'It Ln LO U) (.D (D (D (D t-- fi r- 00 M 00 M M M M O (D O N N N M W M M M Co M M M M M M M Co M M Co M M M M M M'1 4 -,t V 4'4 .4 -t 4 4 d- Z M I O M CO CO ~ CD CD Lo Ln ~ V CO N N O M M m 00 r- !l- CO Lo LO V V M M N r Q t-- d' n O M (D M N Ln 00 r-t t- O M O 0) = d- f- O M (D 0) N Lo CO d' f-- O M M d q -t Lo Lo Ln Lo (D (D (D r- t-- ~ 00 CO M 00 M M M O O O O N N N M M M Z O M M C) M M M M M M M Cl) M M M M M M M M rt ~t V' d ~t ~t d' d' d' -t CL N a>i Ln Lo Lo Lo Lo Ln Lo Ln Ln u; Ln Ln Ln Lo Ln Ln C D t Lo r` N Ln tl N Lo ti N Ln r,-: N LX) f` CV L.o r- N Ln n N Ln t~ N Ln Cf m I co M ~t t t t Ln Ln Lo Ln (D (D O (D 1` h- N M M M 0p (m a) cy) 0) O O O O r r M J J - N N N N N N N N N N N N N N N N N N N N N N N N N N co co M M co M M -t SECTION VIII UL EX-4510 12-1-03 Page 8-10 Maintenance V 0~ O CO 1- N 00 V' d7 O CO 0) <; "t CO M ~ CO f tf) Co 00 00 CS) M M M O O O M Co M co M M M 't d' V O Cfl 7 ti M 07 Lf) - r N O 00 r` m N,i- r` m N 6 r-- O may. CO M M O M M O O O ..M M M M M M~ rt ~ ~ 1~ M C)) LC) ti M CT Lf) O M O CA M O O O O O M M M M M ~ ~t V ~ ~ (V M rt ~ t` M O iS) CV ~ O M M M M CO M _ d' GO O M D1 0 0) 0 0 0 0 'IT 'IT "It CV M O. CO N M CO N M Ln N Cfl CO Cfl M N r O O O M O O O O N (A Co M ,I- V ~t T V V' V d' CT N d' 1` O N M 06 O M 00 M CD CD CD In N O CO M O r 00 N Lo r. _O Co Cfl 00 V C.0 ti N d~~ V ~t V V d' d' V V N rn CD v 0f CO M w Li 1` O M Lo 00 V CO (7) N C14 N N Co CD 0 L7 CO V d' V d' d ' V V M f` LO N O 00 Lf) CO CD N Lo U. O N In N N N N (o M M N Lf) V V V r"t tl- "i zi d' V a7 a) L w J m 0 00 CO v N o 00 Cfl - m o V o0 M c6 O N 6 n O M C) C4 CN C14 04 CO CO (1) It ~t r L H a) V N O 0-) 1` Cfl T N CA z OL _ ri co c7i 4 r o c-i Co o6 E oM N N v Co M v 4 v v v H _ z (fl Lo M N - 0) 00 r- CO -zY LLI ~ 00 4 r` O N Ln N 4 (9 O N M M c) ~Y V ~t n Lo Q N V V "t V NT V ~T Y Z N 00 t` Cfl Lo ~t M N N O H N M Cfl 0) N 6 00 4 O V O M co Co d' ~t ~t Lo Lo Lf) CO W V V V V V ~t V V d z 00 O O OA C? M rt` O Cfl Lf) f` 0) N ~t r O M (fl m N Lf) co V Lf) Lo Lo Lo CO CO z O V' d' ~t ~t d' V ~t d a 5 Q) Ln Ln Ln In Lo C 0 > L r, N Lf) t` N Lf) tl- 0) S a) L) N N N (V M c7 M CM V M J J - co Co M M M M M M co M -J SECTION VIII UL EX-4510 12-1-03 Page 8-11 Maintenance !l M O t- M O 1-P 0') O :D M M 19 M 6: CO N m (9 O j Lo M O M CO 00 r 4 (O M N 4 h O N LO M O M CD 00 (D 6) 4 h 6) N 6 h O M Lf) .O CO O (D Pte- h h 1`- 00 00 00 6) 6) O O C O O r r r r N N N N M M 4 r r r c- r r- r r r r- r- r r r r r N N N N N N N N N N N N N N N N 4 r of Ln r- CO U) N 0) (D M m CO CO O h 4 CO 4 Co Ln N M GO N 0) (a> M O h 4 O f~ O N Ln CO O M (D CO r 4 CO O N 6 h O M Ln . r M O rn ~ h O N Ln C6 O M N 00 Ln CO O CO O I- h h h M M M M O O M(D 0 0 0- - N N N N M Co M 4 4 r r c- r r T- e- r- r r c- r r N N N N N N N N N N N N N N N N N f,) ! 4 r 00 Lo N M CO 4 M Ln N M Co M M Lo N O Co M O of Lo N M CO M O h Lo N O O N 4 h O N Ln C6 r M (D 6 ~ 4 h- O N to w O M (6 O 4 h 6) N 6 00 O M (6 Lt) CO (.O O h h h h M M M o0 67 0 0 0 0 0 0 r r N N N N CO CO M 4 4 4 N N N N N N N N N N N N N N N N N N 01 M r CO LO M O 00 LO N O Imo- L() N M P- N O Cn 4- M CD CO 06 LC) CO O M Lr) N O O 4 O O N U) Imo- O M (D 00 r 4 (D O) N Lf) h O (D M 4 h 67 N U) M O Co CO 6) O CO O CD O h h h CO DD CD M 6) 6) 6) O O O O r N N N N M M M 4 4 4 4 r r r r N N N N N N N N N N N N N N N N N N CJ M M (D 4 r 6) h 4 'N' ID? h 11") N O CO Ln M of CD 4 M h 4 N O I- L1) M O of co CO 00 r-- O N m M O M (D m N 4 h cD M tP M (O 6) N 6 M O M CO 6) O c~ CO CO (D h h h h ~2 ~2 2 O O.- ~ r- O 6) O O O N N N N M M M 4 4 4 4 Lf) r r r t- ~ ~ r N N N N N N N N N N N N N N N N N N N I M of Cfl 4 N O c6 CD 4 N O M CO M r O h Lo M r 6) h Lt) M 00 Cfl 4 N O M O L() CD O M M M N 4 h O M CD co r 4 f~ 6) N U) oo M co 6) N Uf) h. O M O 6) r It O N j CD CO h h h h o0 M M 6) 6) 6) m O O O O N N N N CO CO M It 4 4 4 Lf) Lf) N N N N N N N N N N N N N N N N N N N O O K LO CO O M O 4 N 0 M r- LO CO O 00 (.0 4 N O M h U) M O) M (D 4 j h O N Lo co r 4 h m N Ln o M CO rn N 6 co O M CD rn N 4 h O M O 00 r- 4 h O CJ M h h h h (b 00 00 00 6) 6~ 6) 0 0 0 0 r e- N N N N M M M 4 4 4 It Lo Lo L() v r r r r r N N N N N N N N N N N N N N N N N N N N N V W CO M Lf) M O 06 O Ln M N O M h Ln 4 N O 67 h t.C) 4 (N 6) h CO 4 M 6) M M M 4 h O Co (O 00 4 h O Co Ln 00 4 h O N L(') 00 4 h O N Lf) 00 (O O d O= O h h h 00 M M 00 6] 6 0 0 0 0 0 N N N N M M M M 4 4 4 In L0 LIB Lf) ` (D - r r r r - r r- r N N N N N N N N N N N N N N N N N N N N N N C1 ~ I O U? 4 N - O M ti Lq 4 N O 00 r*-: U? 4 O N h (D 4 M O 6) r- (D 4 M U. p O M co p N 4 t+ O M (o 6) N Lo h O co co 6) N U) I- O co (o a) N Lo h 0 M (o 6) N y O f`- h h h M a0 oD tT O O O N O CD N N N N N N N N N N N N N N N N N N N r r r r e- c- r e- r r r W J d _ 4 N r O O M CD U) ~ M N O O M t` CO M N O CO h O Lf) V. N O M M (D In m O 4 N Ln c6 M CO O N Lr) o6 4 m rn N Ln 06 4 r- O N 6 00 4 h O M 6 c6 - 4 Q y 0 4 h h h M M rb M 6) 6) 6) 0 0 0 0 N N N M M M M 4 4 4 Lo M M u) (D (D N N N N N N N N N N N N N N N N N N N N N N N Y r ~ F- d O 6) CO h (D Lo M N O O 00 I` Cfl LC) 4 M N O M OD h O Ln 4 M N O O Z CL 4 r~ rn N 6 00 4 h O M CD C6 4 h O M O 6) N Ln h O M (D 6 N Ln 06 r 4 (6 Q E O h h h M CO 06 0 0 0 0 0 0 0 N N N N CO CO CO It 4 4 It Lf) LC) LO O CD O Fy Cl) e-- r r N N N N N N N N N N N N N N N N N N N N N N N N C Z M h (fl u) Ln 4 M N 0 6) OR M h (R Ln 4 4 M N O M M h h O Lf) 4 dt Co U) M 4 h O co CO 61 N U) h O co O O N Lf) oo 4 ti O M L6 06 4 h O M (O 6) O h h O M M O O 6) 6) 0 0 CD N N N M M M 4 4 4 4 Lf) U) U') CD (D CO CD Q N r r N N N N N N N N N N N N N N N N N N N N N N N N Y _I Q N I L() 4 4 M N N O O 6) M M r,-: P-: (D CO Lf) 4 4 M M N N O O O O M M r,-: (q H N h O Co CO O N Ln 00 4 O O N Lo M 4 h O M (D M N Lo M- 4 CO O N Lf) M V O h 00 M 00 D7 O Q) O O O O N N N M M M M 4 It 4 LO Ln LO LO (D (D O h W r r r r N N N N N N N N N N N N N N N N N N N N N N N N N cc, Z N r r 0 0 0 0 0 M CO Co h h h (O CD CO U) Lo L1) 4 4 M M M N N N - O h I O N Ln C6 4 h m N Lf) co 4 h O M CD 6 N Lrn c6 4 h O M Co rn N Ln M 4 r h CD CO M M M M O O O CD r N N N N M M CO 4 It It LO L() LO LD CO O (0 h t- Z O i- - r N N N N N N N N N N N N N N N N N N N N N N N N N D OO. WN LC) uo LC) Lo Lo Lf) U) U) U-) Ln Ln Ln In Ln Lo Lo C 7 N Lo h N Lo r` N Ln h N Lf) h N Ln h N U) h N Lf) h N Lf) t- in 7 N Y I O O O O N N N N CO C6 M M 4 4 4 4 LO Ln Lfj Ln (D (D (fl (p h h. 00 -t J J r - - e- - c- - r r- r- - r- r r c- r- - - e- c- - e- r r - e- SECTION VI11 UL EX-4510 12-1-03 Page 8-12 Maintenance m Ln N m Ln N M Ln N M Ln M Ln - M Ln M d' - M O M Ln M M (.0 m 4 ti m N f~ O M Lo co M CD m V t-~ m N Ln r-- O M Ln w M 'T 't ':T Ln Ln L) Ln CD CD CD (O ti t` 1` M M M M m m m m O O O CD T-- c- N N N N N N N N N N N N N N N N N N N N N N N N N N M Cl) M Co M M M Co M Co Co r,-: O Ln N O LO N O CD M O B O t` V M Ln N M Ln N m (0 M O r-~ M O m O 06 M 00 (.0 O N T tl- O N Ln 00 M (0 m 'IT t` O N Lo ti O M Lo 00 - d' C0 M N N ty. t Lo Lo Ln Ln CD (O (D r` r` r` r- of N M 00 m O m m O O O ~ ~ f N N N N M t- N N N N N N N N N N N N N N N N N N N N N M M M M M M M M M M M M m CD M O t` Ln N m (D M O~ V N m (q M O ti m (q M O ti V- op O M O N . . . . . . . . . . . . . . . (0 M (,J LO f-- CD Ln 00 'q r- M LO O M lO Lo LO M O (o (D ti I- r- r- M M O M m m m O O O O M O N N N CD M M N N N N N N N N N N N N N N N N N N N M M M M M M M M M M M M M M h L„ N m F` V N m C:J rt v7 M M In ^7 O .x L^: N O t~ Lo N m N N M V O^ V m N Lo 00 O Co (o O V' f~ O N Lo M M (fl O N VP-~ O N Ln 00 Co (0 m O M Ln Ln Ln Ln (o (o co I~ ti M M M O O m m 0 0 0 0 N N N N M M M M N N N N N N N N N N N N N N N N N N M M M M M M M M M M M M M M M N CD M OO (fl d' m t- N O t` In M O M (D CO m (fl V N m r'- Ln N O ice- Lf) M O V r O N m m M (D O N 6 t` O M (fl 00 -4 t-- m N LO o6 O M CD m N v r` O M O (rNj LD LO (0 (.0 O M t`- I` I- M CO M M O O m 0 0 0 0 N N N N M M M ,T V m , N N N N N N N N N N N N N N N N N M M M M M M M M M Co M M M M M M V N O 00 (0 M m r--7 U? M - m t` LO M O C? (O V N O 00 (fl N O 00 Ln M m ~ . . . . . . . . . . . . . . . O M Ln m d' CO O N m o6 O M (D O N d r` O M (D m d' r- O N Lo 00 M (o Co O N Ln M CO CO M r t` M 00 M O m m m 0 0 0 t- - - - N N N Co Co M M "t ~t "t N N N N N N N N N N N N N N N N M M M Co M M M M M M M M M M M M M N O M I- M M M M (D V N O M t` LO M O 00 (D rt N O M I-- In M M M (D t o M Ln o0 4. r` m N Ln o6 v cD m N Ln of O M co m N 6 r-~ O M cD 6: v r-~ O O N (0 (0 (0 (D t~ ti I` t~ CO 00 00 m O m m 0 0 0 r- r N N N M M M M ~T "t 't LO f~ N N N N N N N N N N N N N N N M M M M M M M Co Co M M M M Co M M Co M V CD Ln o? O M (p Ln M N O o0 r- Ln V N O O I, Ln N m~ (D "zt M m 00 O V N LO 00 'IT (D O N LO 00 M Co m N LO m O M Co m N Ln ti O M (D m N 4 t` O M w O O (D M t~ 1- ti ti M m m m m m m 0 0(D N N N M M M M T d' V Ln Lo i (fl N N N N N N N N N N N N N N M M M M M M M M M M M Co M M M M M M M t~ d O m I- co "t M N O m I\ (O Lo M N O m 00 (D Ln Co N M M (D Lo V N m 00 ~ LO U. Ln 1-- O M (D m N m r- O M (D m N LO ti O Co (D m N Ln h- O m (D 6) N Lo ti O Co (o y 0 (D (0 Il- ti ti 1` 00 00 00 m m m m 0 0 0 N N N m m M M It 'T ~ U') Lo LO m LO N N N N N N N N N N N N N Co Co M M M M M M M M M M M M M M M Co M Co d W -J y _ T Co N O m 00 f` (.0 V M N O M ti (D Lo V' N O M M I- In V M N m o0 r- O m V r-~ O M m o6 v r; O M M m N V r` O M (D m N Ln r; O M 6 m N Ln 00 O M (D m Q 41 O (D I'- t` r- t'- M M M m m m m O O O N N N M M M M ct IT d' LO Lo M M H N N N N N N N N N N N N M M M M M M M M M M M M M M M M M M M M M 3 N L H d M I- (fl LO V M N O M M t- (D Ln ci• M N O M M r- (0 LO 'ct M N O m o0 ti (0 Z rL m N Ln OJ r` O M 6 00 v r-.: 6 M (D m N v t` O M 6 m N 6 CO M 6 m N Q E O (D t'- r` t~ w 00 M m m m m 0 0 0 N N N M M M M d' '14- Lt') L!') 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O co (6 m _N Ln C_O 4 r` O M CD m N Ln O 4 r~ O N In o6 t- I- 00 M M m m m 0 0 0 0 r N N N M M M M IT V 'IT LO LO LO CO (0 (fl O r z O N N N N N N N N M Cl) Cl) M M M M Co Cl) Co M co Cl) Cl) M M M Cl) Co Cl) M Co Cl) Cl) Co 0 U) a. 70 N U) Ln Ln Ln Ln L f) Ln Lr) Ln Ln Lo Ln LO Lo U') U') Lr) C = j L N Lo I- N Ln ~ N LO t-- N Ln t- N LO t` N Ln r` N V) r` N Ln r` N Ln Cr N V co o0 00 m m m m 0 6 6 6 N N (V N M M M M V' cl' d v Lo Ln Ln Ln CD (6 J J C - r- - N N N N N N N N N N N N N N N N N N N N N N N N N N =1 SECTION VIII UL EX-4510 12-1-03 Page 8-13 Maintenance ~t p r- M Or-~ M O CO M O Cp M M CD M m (9 N m CO N m Ln N M Ln N m Ln N (.LZ Ln N O ~t M CD m 4 t- M N O N M O M <9 M C.O M N 4 t~ O N L.0 M O M (D M L<~ M M M 5 4 4 4 4 40 Ln L7 CC (0 (D Co r` r- r- ti CO M M w m m m p O O O M M M M Co M M Co M M M M M M M M M M M M M M M M M M 4 4 4 4 4 4 4 ~j r` 4 r- 07 u') M Ln N M (D M O CD M p t• 'z' r- M 4 ~ 00 U? N m C0 M m (d7 M O ti . . . . . . . . . . . . . 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(fl r- M O N V Ln (D r,-: m 0 V) Uj 00 ct O M N 00 V' r M M Lo r- M O (D N M V O (fl N M tf7 t-- CO M M 00 Lv O r d' ~T L.() M (D r t` W M M O O N N M IT TT LO Lo (D t- r- W CO M O O N M M M M M M M M M M M Co M 't d' I- d' It 'T It d' d' d V m m Lo L.(j Lo LC) Lo M LL) r'- CO O N 't (D 00 O M Lo t- m N T Cfl 00 O N V' Lt) r M M LO r M O N U- O Lo r M O (D N 00 V r ti M m Lo 00 4 O (6 N M Lo r-~ M m M N CO 4 O ti M N O "zl' Lo Lo (D r r- 00 CO m 0 0 N M M d' Lo Lf) CD (D ti 00 00 m m 0 N CO M E d Lo Cl) M Co Cl) Cl) Co Co Co Co d- V V 't lzl' "r ~l rt V ~t V d' V Lo tt) Lf) Lo Lo Lo Lo d LLJ J d _ (.D m r (D m r M Co M Cl) (D 00 O Cl) Lf) CO O M Lt) r• O N U) P-- O N~t r m N"t m Cl V c6 v r- M M (D N o0 -t r• M m (6 N CO v r- r. M m (6 N c6 4 r- M M to N 00 Q y 0 t Lo (D d ti t'- 00 m 0) (D r N N Cl) V L!) 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Lo r• O O O O N N N (V Co 00 J s L-) Lo Lo Lo (D O (.D O r- r- r- r- 00 00 00 00 m m m M r r r e- r r r r r e- r SECTION VIII UL EX-4510 12-1-03 Page 8-16 Maintenance ; O (O 0) (0 M M Cfl M O M Ln M O I'- N O 1- '7' N O I- '7' 67 (D ~t 0) (D O M Ln N M V C Ln c- ~ M M V O (fl ~ ti M O V O Co ti M 0) 4 O rb N n M M O ~ N N M Co M L.7 CO O ti r- M O O O O r N M M~'T Lo lC) QD r- ti M 00 O Lo Ln LO Lo Lo Lf) LO m Lo In Lo Ln Liz Lo Ln Ln (D O CD O CD (D (D (o Co (D (D (o (o co M (0 Co i t~ LP M a7 In M O) P-: LX? M O (D V' N O M C0 d' N O M CO N O M C0 V N O O (fl N t-- M m Lo C0 N 00 - O M t~ M M d- O (fl N M M M Lo t.- N 00 tT O N N M M d' V m (O (D tl_ t- M O m O O N M M't It Lo Ln (D I- t- M 00 O O Ln LO Lo Lo Lo Lo m Lo LO Lo Ln Lo Lo Lo (D (D C.O CD (fl Co (D C.O (D C0 (o (D CD (0 (0 Co (D r- Ln ~Y N O) M (p Ln M N O 0) ti CD V M O M ti Ln V N ()7 M Cfl LO M N O 0) ti O (rj O Lo t` N M V O CO N 00 M 0) Lo ~ ti M O V O Co N 00 'IT O Lo c- t- M O In O (O N M M d' In (D (D t- t` 00 00 O O O N M M ~t 'It n M CD P- CO M M O O In Lo Lo Lo Lo Li) Ln Ln Lo Ln LO Lo Lo Lo (D (0 C0 (0 (0 (O (D (D (D (D (D (D CO CD (0 C0 (D r- ~ M N O CSi M ~ (0 Ln d' M N C v7 M 00 t- i0 Ln ct M N O 0J i- Lt) lz. M O V O (o N Co M 0) Lo ti M 0) LO I-- N M ~t O (.fl N M.4 O (0 N H M O Lo t-- M O M N M M't ~t LO LO (D t- I- M M M O O N M M ~t ~ LO M CO r t~ 00 M M O O r Ln LO Ln Ln Ln LO LC) Ln Lo n Ln Lo m (D (D M O (D (D (D (D (D (D co (D (D Co (D (D M ~ Il_ t` i N N N O O O G) O) 00 M M r- I- CD C0 Ln Ln Ln M M M N N O O O) 6) M Ln ti M O LO O (D N M-t O CO N 00 O (D N M-t O Q0 N 00 ~t O CO N M M M O N M V' "~t LO Ln CO t- t-- M 00 M O O N M M V V LO (0 (D t-- r- M M M O CD 0) Lo LO Lo LO LO In Lo LL) Lo Ln to Lo (0 CD M M (o (D (D Co co (D (D co (D (D co (D (D t-_ t-- ti O O - N N N N N CV N M M M M M M Mt "t "t V ct V ;t Ln Lo d O Cfl N M -t O (D N 00 "t O (D N M rt O (D N M -,t O (D N M 4 O (6 N M V O (0 O O It V' LO Ln (D n n 00 00 O O O N Co M d' V Ln M (.O t` f- M 6) 6) O O N N M ~i Ln LO Lo Lo LO Lo Lo LO LO Li) Ln Q0 (D CD CO (D CO (fl (D CO C.O (D co Co (D (D M Co I- r- ti I- t- 0) O N M M Ln LO CO t` t- M O 0) O N N M 'ct Lf) (fl CD I-, M M (3) O O e- M V r-~ M m Ln r- r- M m LO H M O Lo N M V' O (D N M O (D N M 4 O r` M O M d' Ln Lo co (b t-- co M 0) O N N M z i Lo co (D t- I, M m m O O N N M r` Lo Lo Ln Lo m Lo Ln M Ln Lo Ln M (D CO CD CO CD Co Co (D (D CD (D Co (0 (D (D I-- t-- t~ ti ti r` I V N"': Lq (fl M C7 O C? 7t LO (P M O O M ~t Ln r M 0) O N M":~ Ln M 0) O N N V O (fl N 00 ~ O I- CO O LO M 0) (.0 N CO rT O CD N M Ln I- M 6) Ln - t- ct O d O L6 IT Lo L() (D Co I` 00 00 Q) 0) O N N Co IT LO co (D ~ ti 00 d7 0) O O N N Co "'t m (n Lo Lo Lo Lo in Lo Lo Lo Ln Lo (fl CD (0 (D (o (o (0 (fl CO CO (D (D (0 (D M (O rl- t- ti tl- N- tl- ti D) d V Co M M c- M LO t- O N Ct CD M O N M M Imo- 0) M Lo (0 M (D N It CO ti O M U. O 6) Cn c- N- It O (o N M Li) t-- M O (D N 00 IT O (0 M rn In r-~ v O (6 N M v t~ N O V Ln CO (D t1- 00 00 O) 6) O 7 N N M Nt ~ Lf) (D (D ti t- M 0) 0) O N N M V' Ct 07 LO Ln Ln Ln LO Ln Ln Ln LO Ln (D (.O (D (0 co (D (D (o C.D CO (o M (D (o (D (fl t- tl_ I-_ tl_ t- t-- W m 0 ti() V (o 0) - V (.O M M (D M e- M LO M O M LO M O N Ln ti O N Ln ti O N V v O ti M O Ln N M v O ti M 6 Ln N M 4 O ti M O Ln N M 4 O t` M O Ln M y Q y O U) (D (0 t- t- M M M O 7 N N M t It Ln (fl (fl ti~ M 0) 0) O N N M V ct LO rH ' L0 Ln LO L) LO LO LO Ln C0 M (D (D (D (D co (D (D (0 (D (D C.O (D (o (D t~ t-- n rl_ ti t0 r_ m L H d _ 0) N Ln M r,t t` O M (D 0) N Ln 00 e- I- O V P- O M (D M N LO M- ti O M M Z 6 (D N M Ln r\ V O CD N 6 Ln M 4 O r` M 6 6 N M 4 r` M O (o N 6 Ln Q E O T- LO (D t-- t- M O M O r- N N M't M M (D r r- M O O O N M M't "t LO (D M Lo Lo LO LO LO Lo LO (D M M (0 (D (D (fl (0 (D M (D M (D (D (0 (D I- ti I` r- ti n t- ti f- N~ d H Z N (q O M Cfl O r*-~ d M N Ln 0) N (q 0) M t` O V t, LO M N Ln C) M Cfl O M r,-: w Lo t- 'T O ti M O (D N M Lo t- V O (.0 M O) M N M LO t- - O (D M O (D N 00 (D CD M P- I-- M (M Q) O O N N M V' V LO (D (D P- I` M M O O N M M T r L) (D (D Q N Ln Ln LO Lo Ln LO (D (D (D (D (D (D M (D (D (D Co Cfl CO M (D O ~ tl- t- r- t- t- I- ~ ti r- ~ Y Z N Ln O M tl- - (D O 4- M N (D LO O M (D O d" M N r- - M O M I- N CO O d' M F (V O 6 M 6 (D N 0) LO M d' r--~ M O (6 M rn (n N M Ln M 4 O r--: M O (6 M rn Ln V t- r- M M 6) O O r- N N Cl) zt V' LO (o (0 r- r- M 0) 0) (D N M M ~ Ln Ln C0 (D h LU Ln Ln Ln Ln Ln (D (D M M (D (D (o (D (D (o (D (D (0 (D (O C0 ~ tl- I-- Il- t1- ~ ti r t~ ti f1 > vi O ~I Z t~ N t~ N (.q _ CD Ln O Ln O d M'q M M M M M M r- N t- N (fl CD LO O LO O 0 f~ Lt") N M Lo M -4 r` d' O r` M 6 CD N 6 Ln N M 6 M v r-~ 4 O n M O (.0 M r M M 0) O O - N N M ~t Ln LO (D ti I-- M 0) 0) (D N M CO It Ln Ln CD ti ti M Z O ~ I Lo LO LO LO (o (D M M (D Cfl M (D M M (0 (D cD (fl (o (D I- r- I- t` r t- ti h t- ti r ti t- O a Lr) N Ln Ln LO Ln LO Ln Ln L.O Ln N LO Ln N l.f') LO > ~ N Lo t- N Ln ~ N LC) t~ N Ln t~ N LC7 ~ N LO ti N N L() r- N Lo N L0 Cr N L) M M M "t 4 4-4 Lo 6 Ln 6 M CD CD 6 r-- r-~ t-: r--: 00 M M M 6 6 O O O O O 00 J J c- - r c- c- - - - r-- - - r- c- - - - e- r - c- e- - - c- N N N N N N SECTION VIII UL EX-4510 12-1-03 Page 8-17 Maintenance M M CD M O M Lq M O r- Ln N O h- V: 'N. U) r- It G7 O ~ M CD M M Ln M O O 0) Ln O CO N M M E Ln (D N 00 V M Lo CD N M"T O Lf) r- N 00 d- O LQ r r Co M Lt. O O r N N M M "T Lf) LO CO M r- r- CO M O O N M M d' LO) (D O r- r M - Co r r r r• r r r- r- r- r r- r- rr r r- Co 00 M M M M Co Co M M M M M Co C;j O M CD M 0) r- Un M 0) r- Lr) M O r- Lf) M 0) r Lt? M O M CD d' N O M CD O Oj (.0 - r• Co O V O (D N M M m Ln e- r• N M V O CD - r- M M Lo O CO N M V O M N may. O N N M V V LO) Ln CO CO r- M Co O O O r- r- N N M M d' Lo Ln CD CD r- r- M O r• r• r` r• r- r- r- r- r r- r r r- r- r- r- r• Co M M M M M 00 M M 00 M M M M M M M (D V' M O M r- LC) t N O M CO LO M N O M r- CO ~t M O M r LO 11- N M M O (rj N M "T O CO r CO M Ln M N M ct O M N r- M M Ln r- M M "t O CO N 00 M M N Co M d' "t In Lo (.O r M M 0) O O N N M 00 't Lo LIB CO r r- M 00 6) 0) r .I r r r- r- r- r- r- r- r- r• r• r- r- r- M 00 M M M 00 Co M 00 CO M M 00 M 00 00 00 00 O) N r- O O M r` Co CO M 'd' M N O M M r CO M ~t M N- O O 00 r (O Lr) M T M N (D M U') Q0 N M V O O N M cJ' O CO r- Co G) U) r- Co O Lo O (D N 00 T O Co N 00 O M N (M M t It LS) (D M r• r• M O 0) 0 0 N M M V 't LO) CD Co r- r` CO 0) M O O r- r- r• r- r- r- r- r'- r- r- r• r- r- r- M 00 M C'O M M 00 CO 00 M M M M M Co M M m 0) N O M 00 r r CO CD (SO LO) LS7 ct r.Y d' M CO N N N - - O O O 0) M 00 M 1-- r- r-- (O (0 LO) CV In r- M O Ln r- M m LO) r- M 6 Ln r- co G) Lo r- N M ter O CD N M V O Co O M N M M V' V' LO CO (.O r r- M O 0) O O N N M M d' LO Ln CO (0 t-- M M 0) M O O I-- r- r- r r- r r r- h- r I-- r- r- M Co M M M M M M M 00 00 00 00 M Co Co M m 0) 6) r,! Lo Ln U-). Lo Ln CD CD Co Lo (D CD CD (D. r. r- r M M 00 M M M M 0) 0) M. 0) M. M. _6 N 00 d' O (,0 01 00 ~t O M N M 'fit O M N M V' O CD N 00 O CD N 00 't O Co N M I O N M M It LO) Lo CD CD r M M M 0) O N N Co V d' Lid LLB CO r r, 00 M 0) O O N M r- r- r- r- r- r r- r r r r- 00 M M M M M M M M M M M M 00 M Co m 0) O 6) m I N N ('M 't~ Ln Liz Mr-r• M a) 0) O N M M d' LO) Lf) (D r- M M O O O N N M c' O LO r- M M LO) - I-- M M LO) M ~t O CD N CO ~t O M N 00 V' O (D M O Ln - rl- M O N -co V LO) Lo CO (D r• 00 CO O O O N M M ',t IZT LO) M CO r- r- M 0 M 0 0 N N M r- . r r r- r- r r- r- I-- r- I~ r 00 M M M M M M M M M M M M M Co M O O O 0) O m i V ~j M V Cfl r• M 0) N M d' CO r• M a) N M Ln CO r• M O N M rn lp r M O N '~t N M N M V' O (O M O Lo r- M M Lo N M O CD N CO LO) r- M M LO) r- d' O (D N C) O Nt Lo Lo Co r• r- M M O O O r N M M ~Y Lo LO) CO CD r- M M O M O e-- N M M V ` CO r r- r- r- h r- r r- r M 00 M M M M M M M M M CO M 00 Co M M m 0) O 0) 0) O O ~ I It r 6) O N ',t Co M O N M M r O e- M NT (D M O "t r 6) M Lo f` M O N V . . . . . . U- M m Lo N 00 't O (D M O LLB r_ Co O CD N CO ~ r- Co O L() 00 ml- O (D N O LLO y 0 U') Lo CD r- r M M M O O N N MIt V Lo Lo (D r- I` M M M O O N N M M .Zr Lt) LL) r• r• r- I-- r- r- r- r- M M M M M M M M M M 00 M M M M M m m m O m m m m m y ~ I J _ m 0 I r- 6) N rt CD d7 ~ M O) M CD M G M (.O CO M Li') M O M lf) M O N LO r- O N L(') O Co M rn Ln M 4 O CO M 0) Ln M 4 O CO M rn L() M 4 O M M rn Ln M v O Q y O Q (D CO r- r M a) 0) O ~ c; N N M M CD CD r`- r- M O M O N N M V V M CO r H' r- • r- r- rl- r- r- M M M M M M M M M M M M M M M M m m 0) 0) m m O m 0) m L~ Y r L I- d 6) N LO) 00 r- O M CD M N Lo M- V I- O M CD m N L.O) x - ZT r` O M Co m N LC) Z 2 r• V O CD M rn L6 N M d' O r M rn O N M Ln r- M O (D N rn LO) M 4 O C6 M 6 cx) Q CO (D (o CO t- 0 r- r- 0 00 M M M Co M m w M w O M0 M Co M M m m m O 0) 0) O m 0) m O m Q ~ I Z V M LO) O N M 0) M M O d r M N LO) 0) N (D O M r O d M Ln M N CO W Ln r d O (D M m LO) N M LO) r- q O CD m 0) Lh N co LO) r- 4 O CO co a) Lo N M 0 O r• M M M O O r' - N CO M V Ln LLB (D r- r- M M M O O N N M IZ IT Lr Ln (D t• I- Q N r- r• r- r Co M M M M M M Co M M M M M Co Co Co 0) 0) 0) 6) m 0) O O O O O 6) 0) Y ~ Z N N ti Lf) 6) M r N Co O V M M r- - m 0) M M N (D O d' M M r- LO) 0) M Co N CD N N M Ln I~ O r- M O M N 6 Ln N M -4 r- ~t O r- M rn M N 6 Lf) - M 4 r V O I CO CO M O O N N M 'S d' Lo Lo (D r r. M M M O r N N M T ct Lo (0 O r Co co r- r r M M M M M CO M M M M M M Co Co M M a) 0 0 0 0 0 0 0 0 0) m m O O Z M d7 M M CO M M N r- N r CD CD O Lo O LO) 6) T O V M M M r N r N (D r-I O Lo N CO Lo M -i r -t O r- M O (D M m (D N M Ln 06 4 c- t-~ - O r• M O 6 ! M O O O N N M V V 0 CO (D r- M M O O O r- Z O N M M ct In Lt) CD r- r- M O 41 r- r- M M M M M M M M M M M M M M M M O 6) O O 0 " O 0) O O d7 0 O O O u) a -2 N Ln LC) Lo LD LC) L() Ln Ln LO) LSO Lr0 Lr) LC) Ln LO) LC) G D > Lo t'- N Li) r- N In r- N Lo r- N Lo r- N LO) r• N Lo r N Lo r- N LL) In N U N N N N M M M M d' 4 ter 4 Lo L6 Lo Ln CD CD CD CD ~ r r• r• M co M M rn 6 6 00 J J N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N - L SECTION VIII UL EX-4510 12-1-03 Page 8-18 Maintenance ',M 47 M O f~ ~ CD 00 -1- o CO r ~2 ii CO 0 0 0 r 00 M m m m m 61 N O W CO ~t N O 00 ~ M CO 'r O M 0 0 0 N N M m 0) O m O (D L7 M N O O O M O N N M O) 0 0) 0 0 0 O M 't N N M MCo O a7 O O) O O N ! Lr~ l!7 - d' M Co N CO O O N N CD M m ~ 0 0 0 0 0 0 CD C) r- M M LO O 00 N 6) O O O O O m Lo ~ M m ° N 1 0) m m O Lo (o Co m m (p C~ o 0 (D Lo Q0 (D I- r-- d U- O Lr-- m o O ~ ti O N O w L O O O O m m d L W d I~ O N ti O) O C Qo ~ r- 00 M a) a+ L L _ O M r Co r Z CL 6 N 00 V O O Q E O f- 00 00 M O O y Cl) O O O) M C ' O M I-, z O7 M CO ~ O ~OJO { - r O O O O O O O Q N O O O Y Z v rn M N O O O M O O V 0 0 r N U o 6 0 0 0 0 0 LU 0) O (fl co o LX? Z M O CO N O LO Q _ 0 0 - N N M Z O 0 0 0 0 0 0 a C 73 j _C r- N L0 ~ U 00 J J N O O O 0 M J:1 ANSUL SECTION IX UL EX-4510 4-1-05 Page 9-1 REV. 1 S,,46, c m Resetting and Recharge CLEARING ELECTRICAL EQUIPMENT 3. Tank valves must be rebuilt and all O-rings replaced Refer to AUTOPULSE Installation, Operation, and prior to tanks being recharged. Follow instructions list- Maintenance manuals for detailed instructions on resetting ed in Step No. 4 and 4a. the electric; detection system. 4. 1 in and 2 in. Valves - Valve cleaning/O-ring replace- ment instructions. Refer to Figure 1 for component NOTICE descriptions. If AUTOPULSE Control System is utilizing The following components are required for valve an ANSUL AUTOMAN II-C releasing rebuilding: device for pneumatic actuation, AUTOPULSE panel will remain in trouble Bonnet assembly, Part No. 570543 for 1 in., Part No. condition until ANSUL AUTOMAN II-C 570541 for2 in. release is cocked. Piston assembly, Part No. 570551 for 1 in., Part No. 570552 for 2 in. • O-ring kit, Part No. 570559 for 1 in., Part No. 570584 CHECK MECHANICAL AND ELECTRICAL EQUIPMENT for 2 in. Piping and Nozzles If necessary, recoil cap assembly, Part No. 570553 A fire condition could cause damage to the piping and noz- for 1 in., Part No. 570554 for 2 in. zles and possibly support members. Check all rigid pipe a. Remove the valve from the tank. supports and all fitting connections. Take the nozzles off the b. Remove the siphon tube locking screw to allow piping, inspect for damage, corrosion, or obstructions, clean removal of the siphon tube from the valve. and re-install. c. Remove the socket head cap screw that holds the Electric Detection System recoil cap chain to the valve body. ANSUL AUTOMAN II-C RELEASING DEVICE - For com- d. Remove bonnet locking screw from the same port plete resetting instructions, refer to Installation, Operation, as socket head cap screw mentioned in Step "c" and Maintenance manuals, Part No. 17788 and 31496. and unscrew the bonnet assembly, using the Note: Before resetting release mechanism, bleed pres- spanner wrench, Part No. 570574. Remove and sure from actuation piping by pulling ring on safety discard O-ring from bonnet assembly. relief valve located on actuation piping. e. Remove the piston assembly by pushing up on it AUTOPULSE Control System - For complete resetting from the bottom of the valve. Discard complete instructions, refer to the appropriate installation, operation, piston assembly. and maintenance manual. f. Remove collar O-ring, and siphon tube O-ring. Discard both. RECHARGING g. Clean all internal valve surfaces. Use caution not to cause any scratching to surfaces. CAUTION h. Use O-ring kit, Part No. 570559 for 1 in. or Part Make certain tanks contain no pressure before removing No. 570584 for 2 in., to replace with all new valves. If tank contains pressure, removing valve could O-rings. Apply Dow Corning No. 4 lube to all cause violent tank movement, causing personnel injury O-rings before installing on components. or property damage. i. Push in new piston assembly. j. Screw in bonnet assembly, including new O-ring. Valve Teardown Tighten with spanner wrench. Note: In order to maintain Factory Mutual approval, factory k. Thread in bonnet locking screw followed by wash- filled SAPPHIRE tanks must be used. er, chain and socket head cap screw. The cap 1. Remove empty SAPPHIRE tanks by removing the screw holds the recoil cap chain to the tank valve actuators (either electric or pneumatic). body. 2. Remove piping and discharge hose from valve outlet I. Install collar and siphon tube O-ring. Before and remove empty tanks from brackets. installing, coat with Dow Corning No. 4 lube. SECTION IX UL EX-4510 4-1-05 Page 9-2 REV. 1 Resetting and Recharge RECHARGING (Continued) e. Clean inside surfaces of valve body. Be careful Valve Teardown (Continued) not to scratch surface. Spray a small quantity of PTFE silicone into the inside of the valve. m. Push siphon tube into base of valve and rotate until locking screw hole in the siphon tube is f. Lubricate top cap O-ring with PTFE silicone and aligned with the siphon tube locking screw hole in install into upper groove on valve body. the valve base. Install siphon tube locking screw. g. Lubricate collar O-ring with PTFE silicone and ? n. Do not install valve into tank until Step 1g" in install on valve collar threads. ? "Filling Instructions." h. Lubricate piston O-rings with PTFE silicone and BONNET install piston in valve body. ASSEMBLY i. Install top cap on valve body. Hand tighten. RECOIL CAP, PART j~ NO. 570553 (t IN.), j. Valve assembly is now ready to be leak tested. 570554 (2 IN.) See Testing Section. PISTON / TOP CAP, PART NO. 570598 ASSEMBLY BONNET LOCKING -~..y (INCLUDES SCHRADER / SCREW, PART NO. ~ VALVE) 570597/ ~ i / BODY O-RING (INCLUDED C, ! M4 X 6 MM WITH O-RING KIT, PART SOCKET HEAD NO. 570599) CAP SCREW I] STAINLESS STEEL PISTON \ r ASSEMBLY i M4 PART NO. WASHER 570601 v ~ STAINLESS RECOIL CAP, PART NO, 570600 / SIPHON TUBE LOCKING x- SCREW, PART NO. 3 IN. VALVE 570595 (1 IN.),i--X~ 570596 (2 IN.) - BODY NOTE: O-RING KIT, INCLUDES ITEMS 1.2.3 3-C 1 IN. AND 2 IN. VALVE COMPONENTS \ COLLAR O-RING v; FIGURE I - (INCLUDED WITH oos7e8 O-RING KIT, 4a. 3 in. Valve -Valve cleaning/O-ring replacement PART NO. 570599) instructions. Refer to Figure 2 for component descrip- FIGURE 2 tions. oM904 The following components are required for valve rebuilding: TESTING • Top cap assembly, Part No. 570598 On completion of the valve tear down, the valve assembly • Piston assembly, Part No. 570601 requires two tests - Leak Test and Pre-Dome ,ast (Pre- • O-ring kit, Part No. 570599 Dome Test is required only if burst disc had been changed). • If necessary, recoil cap assembly, Part No. 570600 The tests must be conducted using a nitrogen source, a test bottom cap, close down adaptor, and an outlet filling a. Remove valve from tank. Note: Siphon tube for 3 adaptor. See Figure 3 for Test Station Component Layout. in. valve stays in the tank collar. Bottom Top Closing Outlet Filling b. Unscrew top cap. Valve Test Cap Adaptor Adaptor c. Remove body and collar O-rings. Replace with Size Part No. Part No. Part No. new O-rings in a later Step. 1 in. 570272 570579 570576 d. Remove the piston from the valve body and dis- 2 in. 570276 570579 570592 card. 3 in. 570374 570579 69891 SECTION IX UL EX-4510 12-1-03 Page 9-3 Resetting and Recharge TESTING (Continued) FILLING INSTRUCTIONS 1. The valve assembly is assembled to the test bottom 1. Recharging Instructions: cap. The outlet adaptor is assembled to the valve out- a. See Figure 4 for a typical recharge station configu- let. Attach the nitrogen line and make certain the vent ration. valve on the outlet adaptor is closed. b. Install a drier (such as a Hammond DRIERITE fil- 2. Burst Disc Pre-Dome Procedure - Open the nitrogen ter) in a threaded port on the Novec 1230 agent regulator to 580 psi (40 bar) and slowly allow pressure container. A drier is required because humid air to the valve through the bottom test cap. This is to pre- may cause the agent to convert to an acid. dome the burst disc. Hold this pressure for 1 minute to ensure that there is no drop in pressure indicted by the c. The outlet of the container requires an inline (20 rest gauge on the nitrogen test set-up. micron or smaller) filter. 3. Pour water/soap solution into the top cap Schrader d. The agent can either be pumped or gravity fed to valve and apply leak detection spray to all ports on the the tank. valve. If no leaks are detected, the pressure to the e. Tank must be visually inspected and clean inside. valve must be reduced to 363 psi (25 bar) and the IMPORTANT - No moisture is allowed in the close down adaptor must be attached. To close the tank. It must be completely dried. Water mixed valve piston, increase the nitrogen pressure to the with agent will cause acid. close down adaptor to 580 psi (40 bar). f. Rebuild valve. See "Valve Rebuild Instructions," 4. Check for leaks. Step 4 and 4a. 5. Slowly release the gas pressure from the nitrogen test g. Reinstall valve and siphon tube assembly into tank. set-up, vent the close down adaptor, and make certain Tighten securely. that the outlet filling adaptor is opened before removing h. Purge tank by pressurizing through a Outlet Fill the adaptors. Adaptor Assembly (see chart on Page 9-2) to 100 6. If a leak had been detected, it must be rectified and psi (6.9 bar) with dry nitrogen, then vent pressure. retested. If the leak persists, the valve assembly must This process will remove humid air from the tank. be rejected. i. Fill tank with correct amount of agent by weight. BALL PRESSURE BALL REGULATOR See nameplate for this information. VALVE GAUGE VALVE NITROGEN j. Set regulator to 20 psi (1.4 bar) lower than the required tank pressure based on ambient tempera- - ture. Refer to pressure vs. temperature chart in this VENT BALL section. Pressurize tank. Agitate tank while pres- VALVE surizing. PRESSURE GAUGE k. After correct pressure is reached, close valve near r~ tank valve outlet. TOP BALL I. Close tank valve by using Top Adaptor Assembly, CLOSING BOTTOM VALVE Part No. 570579, as follows. Set regulator to 450 ADAPTOR TEST CAP VENT VENT psi (31.0 bar). Pressure Top Adaptor Assembly. r Open and close the valve rapidly to prevent over- OUTLET FILLING pressurizing of tank. ADAPTOR m. Vent pressure from tank valve outlet. ~ °RESSURE n. Remove Fill Adaptor Assembly and install recoil GAUGE FIGURE 3 cap on valve outlet. 00497 o. Agitate tank by rolling or inverting so that the agent can absorb the nitrogen. SECTION IX UL EX-4510 12-1-03 Page 9-4 Resetting and Recharge FILLING INSTRUCTIONS (Continued) w. Once tank pressure is correct, remove from fill sta- p. Add more nitrogen through the Top Adaptor Assembly. tion. Using the pressure vs. temperature chart at ambient TOP PUMP OR temperature, set the regulated pressure at the corre- ADAPTOR GRAVITY FED DRYER s ondin pressure plus 8 psi 6 bar). It takes 8 psi FILL p g PRESSURE <<t (.6 bar) to overcome the spring force in the valve core. iVENT ?k GAUGE AGENT Note: Do not use gauge on valve to determineVALVE: STORAGE TANK recharge pressure. + - - q. Repeat Steps "o" and "q" until the agent has fully FILTER (zo OR VENT absorbed the nitrogen. LESS MICRONS) J VALVE r. Let tank assembly sit for 3 hours. ~j OUTLET FILL s. Check the tank valve for leaks by using soap and ADAPTOR water solution. FIGURE 4 0x,767 t. Check tank gauge pressure based on pressure vs. temperature chart. 2. Replace recharged tanks in bracket and follow "Installation" procedures to put system back in service. u. Repeat Step "o." 3. Inform proper personnel that the system is back in ser- vice. decreased, repeat Step "p." NOVEC 1230 PRESSURE VS. TEMPERATURE CHART 430 - - - s 410 - - - - - - I 390 I - -1 370 W 350 _ ' ! ;L - W o: D - W 330 a - T 310 roe 290 I - t i t 270 - I f 250 0 20 40 60 80 100 120 140 TEMPERATURE (F) 006770 it ANSUL SECTION X UL EX-4510 4-1-05 Page 10-1 REV. 1 Example - Computer Room, S,, ??Hi:qc .iui,i-v2»:on _NvNz.i2ns Storage Room, and Subfloor Electronic data processing involves storage, recall and use • of information via electronic equipment. Electronic data pro- The authority having jurisdiction may have additional cessing equipment is found in almost every industry today. requirements. The equipment is very sensitive and operates within minute tolerances. Additionally, many computer installations are designed with a subfloor area containing data and power HAZARD cable bundles. A computer room having dimensions of 33 ft. x 15 ft. x Because of the high dollar valve of the equipment, the data 10 ft. managed by that equipment and the productivity provided A storage room having dimensions of 12 ft. x 12 ft. x 10 ft. by electronic data processing, rapid detection and efficient fire protection are imperative. Time lost to cleanup and ven- tilation of a computer room means lost time throughout the No unclosable openings. company, so these areas require a clean, no residue gas Ventilation to be shut down at system actuation. agent that disperses easily. The computer room and subfloor space can be protected with an SAPPHIRE suppression system, even when the computer room is normally occupied. Fires can occur within the computer electrical insulation and in the cable bundles in the subfloor. Paper debris that has been allowed to accumulate in the subfloor is also a source of fuel. Computer room/subfloor protection can be accomplished by installation of a total flood SAPPHIRE system. The system is designed in accordance with the ANSUL design, installation manual and NFPA Standard 2001, "Standard for Clean Agent Fire Extinguishing Systems." It is important that an effective agent concentration not only be achieved, but shall be maintained for a sufficient period of time to allow effective emergency action by trained personnel." The SAPPHIRE system consists of a tank(s), a piping arrangement and discharge nozzles located in the comput- er room, storage room, and subfloor space. Occasionally, drainage is installed in the subfloor area. Provisions must be made for making the drain piping a closed system unless water is present to assist in assuring the necessary concentration. When the computer room is normally occupied, personnel safety is of first concern. Alarms or warning devices must be located in the room to provide sufficient annunciation of agent discharge. The rooms and subfloor must be tight to prevent loss of agent. All air handling equipment must be shut down and dampered prior to system discharge. Smoke detectors, operated by an electronic control panel, are usually employed with a SAPPHIRE system to provide detection and thus suppression of a fire before it has a chance to do serious damage. SECTION X UL EX-4510 12-1-03 Page 10-2 Example - Computer Room, Storage Room, and Subfloor / 15 FT. 33 FT. / 10 FT. 12 FT./ / 1 FT. / / / 006891 12 FT. 10 FT. r -1 SECTION X UL EX-4510 12-1-03 Page 10-3 Example - Computer Room, Storage Room, and Subfloor stri"Mikim- Nup,T-ira-%Nion wi~zrcr:u John M. Kehoe One Stanton Street Marinette WI 54143-2542 Phone: 715-735-7411 Sapphire'" Designer Program File Name: AnsulManusISF.FLC Consolidated Report Customer Information Company Name: Ansul Incorporated Address: One Stanton Street Marinette WI 54143-2542 Phone: 715-735-7411 Contact: John M. Kehoe Title: Project Data Project Name: Designer: Number: Account: Location: Description: Page: 1 of 7 Calculation Date/Time: Monday, October 27, 2003, 10:26:57 AM Copyright (c) Hughes Associates, Inc. Licensed to: Ansul Incorporated ooesosa SECTION X UL EX-4510 12-1-03 Page 10-4 Example - Computer Room, Storage Room, and Subfloor 3&??HkE' Consolidated Report Enclosure Information Elevation: 4000 ft (relative to sea level) Atmospheric Correction Factor: 0.86 Enclosure Number: 1 Name: 5ubfloor Enclosure Temperature... Minimum: 70 F Maximum: 70 F Maximum Concentration: 5.144% Design Concentration... Adjusted: 5.144% Minimum: 4.200% Minimum Agent Required: 16.2 Ibs Width: 33.0 ft Length: 15.0 ft Height: 1.0 ft Volume: 495.0 cubic ft Non-permeable: 0.0 cubic ft Total Volume: 495.0 cubic ft Adjusted Agent Required: 20.0 Ibs Number of Nozzles: 2 r Page: 2 of 7 Calculation Date[Time: Monday, October 27, 2003, 10:26:57 AM Copyright (c) Hughes Associates, Inc. Licensed to: Ansul Incorporated 006905b SECTION X UL EX-4510 12-1-03 Page 10-5 Example - Computer Room, Storage Room, and Subfloor ~~?t~t~Nirr' Consolidated Report Agent Information Agent: Novec / Propellant N2 (Novec is a trademark of 3M) Adjusted Agent Required: 20.0 Ibs Container Name: 50 lb Cylinder Assemby Container Part Number: 570633 Number of Main Containers: 1 Number of Reserve Containers: 0 Manifold: No Manifold Starting Pressure: 360 psig Pipe Take Off Direction: Horizontal Agent Per Container: 20.0 Ibs Fill Density: 31.9 Ibs / cubic ft Container Empty Weight: 40.6 lbs Weight, All Containers + Agent: 60.6 Ibs Floor Area Per Container: 0.55 square ft Floor Loading Per Container: 111 Ibs / square ft Pipe Network Part 1 - Pipe Pipe - Description Start End Type Diameter Length Elevation Main Cyl. X 1 0 1 1 in 1.65 ft 1.65 ft Flex Hose 1 2 1 in 0.21 ft 0.00 ft Pipe 2 3 40T 1 /2 in 1.00 ft 0.00 ft Pipe 3 4 40T 1/2 in 2.15 ft -2.15 ft Pipe 4 5 40T 1/2 in 3.75 ft 0.00 ft Pipe 5 6 40T 1 /2 in 17.00 ft 0.00 ft Pipe 6 7 40T 112 in 1.25 ft 0.00 ft Pipe 7 8 40T 112 in 8.00 ft 0.00 ft Pipe/E1-N1 8 9 40T 112 in 0.33 ft -0.33 ft Pipe 7 10 40T 112 in 8.00 ft 0.00 ft Page: 3 of 7 Calculation Date/Time: Monday, October 27, 2003, 10:26:57 AM Copyright (c) Hughes Associates, Inc. Licensed to: Ansul Incorporated 006905c SECTION X UL EX-4510 12-1-03 Page 10-6 Example - Computer Room, Storage Room, and Subfloor Consolidated Report Part 1 - Pipe Pipe Description Start End Type Diameter Length Elevation Pipe/E1-N2 10 11 40T 1/2 in 0,33 ft -0.33 ft Part 2 - Equivalent Length Start End 90 45 Thru Side Union Other Added Total 0 1 0 0 0 0 0 0.00 ft 20.0 ft 1 2 0 0 0 0 0 1 inadap 0.00 ft 0.6 ft 2 3 0 0 0 0 0 0.00 ft 1.0 ft 3 4 1 0 0 0 0 0.00 ft 3.9 ft 4 5 1 0 0 0 0 0.00 ft 5.5 ft 5 6 1 0 0 0 0 0.00 ft 18.7 ft 6 7 1 0 0 0 0 0.00 ft 3.0 ft 7 8 0 0 0 1 0 0.00 ft 11.4 ft 8 9 1 0 0 0 0 0.00 ft 2.0 ft 7 10 0 0 0 1 0 0.00 ft 11A ft 10 11 1 0 0 0 0 0.00 ft 2.0 ft Part 3 - Nozzles Start End Flow Name Size Type Nozzle Area 0 1 20.0 Ibs 1 2 20.0 Ibs 2 3 20.0 Ibs 3 4 20.0 Ibs 4 5 20.0 Ibs 5 6 20.0 Ibs 6 7 20.0 Ibs 7 8 10.0 Ibs 8 9 10.0 lbs E1-N1 1/2 in 16 Port - BR 0.0329 square in 7 10 10.0 Ibs 10 11 10.0 Ibs E1-N2 112 in 16 Port - BR 0.0329 square in Parts Information Page: 4 of 7 Calculation Date/Time: Monday, October 27, 2003, 10:26:57 AM Copyright (c) Hughes Associates, Inc. Licensed to: Ansul Incorporated 0069054 SECTION X UL EX-4510 4-1-05 Page 10-7 REV. 1 Example - Computer Room, Storage Room, and Subfloor Consolidated Report Total Agent Required: 20.0 ibs Container Name: 50 lb Cylinder Assemby (Part: 570633) Number Of Containers: 1 Field l Nozzle Type Diameter Nozzle Area Part Number E1-N1 16 Port - BR 1/2 in 0.0329 square in 570515 E1-N2 16 Port - BR 112 in 0.0329 square in 570515 Nozzle Drill Diameter Drill Size E1-N1 0.0512 inches 1.30 mm E1-N2 0.0512 inches 1.30 mm Pipe: Type Diameter Length 40T 112 in 41.81 ft 'Other items: 1 - 1 in Union Adaptor (Part: 570557) List of 90 degree elbows: 6-1/2in List of Tees: 1 - 1/2 in System Acceptance • System Discharge Time: 8.3 seconds Percent Agent In Pipe: 49.8% Percent Agent Before First Tee: 32.2% Enclosure Number: 1 Enclosure Name: Subfloor Minimum Design Concentration: 4.200% Adjusted Design Concentration: 5.144% Predicted Concentration: 5.144% Page: 5 of 7 Calculation Date/Time: Monday, October 27, 2003, 10:26:57 AM Copyright (c) Hughes Associates, Inc. Licensed to: Ansul incorporated 006905e SECTION X UL EX-4510 12-1-03 Page 10-8 Example - Computer Room, Storage Room, and Subfloor Consolidated Report Maximum Expected Agent Concentration: 5.144% (At 70 F) Minimum Adjusted Predicted Nozzle Agent Agent Agent Pressure Nozzle Required Required Delivered (Average) E1-N1 8.1 Ibs 10.0 Ibs 10.0 Ibs 190 psig E1-N2 8.1 Ibs 10.0 Ibs 10.0 Ibs 190 psig Drawing View: 1 I 1 i E-I-N2 I i f B a\ -E E i 4 1 X50lb Cylinder emby-No Manifold W 'S i Page: 6 of 7 Calculation Date/Time: Monday, October 27, 2003,10:26:57 AM Copyright (c) Hughes Associates, Inc. Licensed to: Ansul Incorporated 0069051 SECTION X UL EX-4510 12-1-03 Page 10-9 Example - Computer Room, Storage Room, and Subfloor ~~?~r~Njt~ Consolidated Report Drawing View: 5 I E1N1 t-N2 i 4 W inadap ------E 1 50Ib C*nderAssemby- No Manifold I i - Drawing View: 9 I E t W nndap E i 1 ; 0lb Cylinder Assemby-No Manifold i E1-N1 E1-N2 t i I i 1 Page: 7 of 7 Calculation Date rime: Monday, October 27, 2003, 10:26:57 AM Copyright (c) Hughes Associates, Inc. Licensed to: Ansut Incorporated 006905g SECTION X UL EX-4510 12-1-03 Page 10-10 Example - Computer Room, Storage Room, and Subfloor t; L L L LL 5uP,z :t;=-N.N;cDn N --,*rFnN John M. Kehoe One Stanton Street Marinette WI 54143-2542 Phone: 715-735-7411 Sapphire TM Designer Program Project: Example File Name: Manual1.FLC Consolidated Report Customer Information Company Name: Ansul Incorporated Address: Phone: Contact: John M. Kehoe Title: Project Data Project Name: Example Designer: Number: Account: Location: Anywhere, USA Description: Computer Room, Subfloor and Storage Room Page: 1 of 9 Calculation Date/Time: Monday, October 20, 2003, 11:35:09 AM Copyright (c) Hughes Associates, Inc. Licensed to: Ansul Incorporated 006906a SECTION X UL FX-4510 12-1-03 Page 10-11 Example - Computer Room, Storage Room, and Subfloor Consolidated Report Enclosure Information Elevation: 4000 ft (relative to sea level) Atmospheric Correction Factor: 0.86 Enclosure Number: 1 Name: Computer Room Enclosure Temperature... Minimum: 60 F Maximum: 80 F Maximum Concentration: 4.388% Design Concentration... Adjusted: 4.216% Minimum: 4.200% Minimum Agent Required: 165.2 Ibs Width: 33.0 ft Length: 15.0 ft Height: 10.0 ft Volume: 4950.0 cubic ft Non-permeable: 0.0 cubic ft Total Volume: 4950.0 cubic ft Adjusted Agent Required: 165.8 Ibs Number of Nozzles: 2 Page: 2 of 9 Calculation Date/Time: Monday, October 20, 2003, 11:35:09 AM Copyright (c) Hughes Associates, Inc. Licensed to: Ansul Incorporated 006906b SECTION X UL EX-4510 12-1-03 Page 10-12 Example - Computer Room, Storage Room, and Subfloor L L L a Consolidated Report Enclosure Information Elevation: 4000 ft (relative to sea level) Atmospheric Correction Factor: 0.86 Enclosure Number: 2 Name: Storage Room Enclosure Temperature... Minimum: 60 F Maximum: 80 F Maximum Concentration: 4.386% Design Concentration... Adjusted: 4.213% Minimum: 4.200% Minimum Agent Required: 48.1 Ibs Width: 12.0 ft Length: 12.0 ft Height: 10.0 ft Volume: 1440.0 cubic ft Non-permeable: 0.0 cubic ft Total Volume: 1440.0 cubic ft Adjusted Agent Required: 48.2 Ibs Number of Nozzles: 1 Page: 3 of 9 Calculation Date/Time: Monday, October 20, 2003, 11:35:09 AM Copyright (c) Hughes Associates, Inc. Licensed to: Ansul Incorporated o06906c SECTION X UL EX-4510 12-1-03 Page 10-13 Example - Computer Room, Storage Room, and Subfloor Fz Consolidated Report Agent Information Agent: Novec / Propellant N2 (Novec is a trademark of 3M) Adjusted Agent Required: 214.0 Ibs Container Name: 390 lb Cylinder Assemby Container Part Number: 570640 Number of Main Containers: 1 Number of Reserve Containers: 0 Manifold: No Manifold Starting Pressure: 360 psig Pipe Take Off Direction: Horizontal Agent Per Container: 214.0 Ibs Fill Density: 41.2 Ibs / cubic ft Container Empty Weight: 198.2 Ibs Weight, All Containers + Agent: 412.2 Ibs Floor Area Per Container: 1.40 square ft Floor Loading Per Container: 295 Ibs / square ft Pipe Network Part 1 - Pipe Pipe Description Start End Type Diameter Length Elevation Main Cyl. X 1 0 1 2 in 4.44 ft 4.44 ft Flex Hose 1 2 2 in 0.39 ft 0.00 ft Flex Hose 2 3 2 in 1.71 ft 1.71 ft Pipe 3 4 40T 2 in 4.45 ft 4.45 ft Pipe 4 5 40T 1-1/4 in 2.25 ft 0.00 ft Pipe` 5 6 40T 1-1/4 in 1.50 ft 0.00 ft Pipe 6 7 40T 1-1 /4 in 17.00 ft 0.00 ft Pipe 7 8 40T 1-1/4 in 1.25 ft 0.00 ft Pipe 8 9 40T 1 in 8.25 ft 0.00 ft Pipe/E1-N1 9 10 40T 1 in 0.75 ft -0.75 ft Page: 4 of 9 Calculation Date/Time: Monday, October 20, 2003, 11:35:09 AM Copyright (c) Hughes Associates, Inc. Licensed to: Ansul Incorporated oassosd _a SECTION X UL EX-4510 12-1-03 Page 10-14 Example - Computer Room, Storage Room, and Subfloor Consolidated Report Part 1 - Pipe Pipe Description Start End Type Diameter Length Elevation Pipe 8 11 40T 1 in 8.25 ft 0.00 ft Pipe/E1-N2 11 12 40T 1 in 0.75 ft -0.75 ft Pipe 5 13 40T 3/4 in 1.00 ft 0.00 ft Pipe 13 14 40T 3/4 in 4.25 ft 0.00 ft Pipe 14 15 40T 3/4 in 4.50 ft 0.00 ft Pipe/E2-N1 15 16 40T 3/4 in 0.75 ft -0.75 ft Part 2 - Equivalent Length Start End 90 45 Thru Side Union Other Added Total 0 1 0 0 0 0 0 0.00 ft 35.0 ft 1 2 0 0 0 0 0 2inFIexN1 0.00 ft 0.4 ft 2 3 1 0 0 0 0 2inFIexN2 0.00 ft 17.2 ft 3 4 0 0 0 0 0 0.00 ft 4.5 ft 4 5 1 0 0 0 0 0.00 ft 6.0 ft 5 6 0 0 1 0 0 0.00 ft 3.8 ft 6 7 1 0 0 0 0 0.00 ft 20.7 ft 7 8 1 0 0 0 0 0.00 ft 5.0 ft 8 9 0 0 0 1 0 0.00 ft 14.0 ft 9 10 1 0 0 0 0 0.00 ft 3.6 ft 8 11 0 0 0 1 0 0.00 ft 14.0 ft 11 12 1 0 0 0 0 0.00 ft 3.6 ft 5 13 0 0 0 1 0 0.00 ft 5.5 ft 13 14 1 0 0 0 0 0.00 ft 6.5 ft 14 15 1 0 0 0 0 0.00 ft 6.7 ft 15 16 1 0 0 0 0 0.00 ft 3.0 ft Part 3 - Nozzles Start End Flow Name Size Type Nozzle Area 0 1 214.0 Ibs 1 2 214.0 Ibs 2 3 214.0 Ibs 3 4 214.0 Ibs 4 5 214.0 Ibs 5 6 165.8 Ibs Page: 5 of 9 Calculation Date/Time: Monday, October 20, 2003, 11:35:09 AM Copyright (c) Hughes Associates, Inc. Licensed to: Ansul Incorporated 006906. SECTION X UL EX-4510 12-1-03 Page 10-15 Example - Computer Room, Storage Room, and Subfloor Consolidated Report Part 3 - Nozzles Start End Flow Name Size Type Nozzle Area 6 7 165.8 Ibs 7 8 165.8 Ibs 8 9 82.9 Ibs 9 10 82.9 Ibs E1-N1 1 in 16 Port - BR 0.2963 square in 8 11 82.9 Ibs 11 12 82.9 Ibs E1-N2 1 in 16 Port - BR 0.2963 square in 5 13 48.2 Ibs 13 14 48.2 Ibs 14 15 48.2 Ibs 15 16 48.2 Ibs E2-N1 3/4 in 16 Port - BR 0.2524 square in Parts Information Total Agent Required: 214.0 Ibs Container Name: 390 lb Cylinder Assemby (Part: 570640) Number Of Containers: 1 Field1 Nozzle Type Diameter Nozzle Area Part Number E1-N1 16 Port - BR 1 in 0.2963 square in 570517 E1-N2 16 Port - BR 1 in 0.2963 square in 570517 E2-N1 16 Port - BR 3/4 in 0.2524 square in 570516 Nozzle Drill Diameter Drill Size E1-N1 0.1535 inches 3.90 mm E1-N2 0.1535 inches 3.90 mm E2-N1 0.1417 inches 3.60 mm Pipe: Type Diameter Length 40T 3/4 in 10.50 ft 40T 1 in 18.00 ft 40T 1-1/4 in 22.00 ft 40T 2 in 4.45 ft Page: 6 of 9 Calculation Date/Time: Monday, October 20, 2003, 11:35:09 AM Copyright (c) Hughes Associates, Inc. Licensed to: Ansul Incorporated oossosr SECTION X UL EX-4510 4-1-05 Page 10-16 REV. 1 Example - Computer Room, Storage Room, and Subfloor _ n Consolidated Report `Other' Items: 1 - 2 in Flexible Discharge Hose {Part: 570538) List of 90 degree elbows: 2-1in 3 - 1-1/4 in 3 - 3t4 to List of Tees 2 - 1-114 in System Acceptance System Discharge Time: 8.0 seconds Percent Agent In Pipe: 29.6% Percent Agent Before First Tee: 131% Enclosure Number: 1 Enclosure Name: Computer Room Minimum Design Concentration: 4.200`0 Adjusted Design Concentration: 4216`,' Predicted Concentration: 4.200% Maximum Expected Agent Concentration: 4.371 % (At 80 F) Minimum Adjusted Predicted Nozzle Agent Agent Agent Pressure Nozzle Required Required Delivered (Average) E1-N1 82.6lbs 82.9 lbs 82.6 lbs 144 psig E1-N2 82.6 Ibs 82.9 Ibs 82.6 lbs 144 prig Enclosure Number: 2 Enclosure Name: Storage Roam Minimum Design Concentration: 4.200% Adjusted Design Concentration: 4.213% Predicted Concentration: 4.271% Maximum Expected Agent Concentration: 4.446% (At 80 F) Page: 7 of 9 Calculation Date/Time: Monday„ October 20, 2003, 11:35:09 AM Copyrtgh (,c) Hughes Associates, bile Licensed to: Ansul Incorporated 0069069 SECTION X UL EX-4510 12-1-03 Page 10-17 Example - Computer Room, Storage Room, and Subfloor . Consolidated Report Minimum Adjusted Predicted Nozzle Agent Agent Agent Pressure Nozzle Required Required Delivered (Average) E2-N1 48.1 Ibs 48.2 Ibs 48.9 Ibs 142 psig Drawing View: 1 E14,12 ri ( i E b ~ t rr. r_t-. Hoop Page: 8 of 9 Calculation Date/Time: Monday, October 20, 2003, 11:35:09 AM Copyright (c) Hughes Associates, Inc. Licensed to: Ansul Incorporated 996906h SECTION X UL EX-4510 12-1-03 Page 10-18 Example - Computer Room, Storage Room, and Subfloor g k w Consolidated Report Drawing View: 5 r O~ J.~ !A3~ 1 -.iii Ib ^~_5e'n); - f.!p t- ,-sirl Drawing View: 9 E2-1d1 E1-Nt E1-1, L' F! , ihl_a (3i<:ch~rrt~ it<a E 1X1190IbCylirderAs erriby-itn'Pwtoid Page: 9 of 9 Calculation Date/Time: Monday, October 20, 2003, 11:35:09 AM Copyright (c) Hughes Associates, Inc. Licensed to: Ansul Incorporated 006906, MetroCenter V Tenant Improvements - Suite 255 655 Metro Place South Dublin, OH 43017- 931211125 / 583-400583-25 Specification Sections Electrical Contractor Telephone: FAX: Electrical Engineer Branch Manager: Mike Skunza Carney Ranker Architects Ltd Operations Manager: Don Pullen 5980 Wilcox Place Suite J Project Engineer: Robert Sines Dublin, OH 43016- Ops Coordinators: Tom Pritchard Telephone (614) 792-1000 Sales Representative: Mark Bayless FAX: (614) 792-1001 26-Sep-07 i SimplexGrinnell 6175 Shamrock Court Suite S Dublin, Ohio 43016-3250 Sales: 614-602-2000 Service: 614-602-2002 FAX: 614-602-2011 S,Simplex TrueAlert® Multi-Candela Notification Appliances UL, ULC Listed, FM Visible Notification Appliances with Horn and Synchronized and CSFMApproved* Flash; Non-Addressable, SmartSynCTM Operation Compatible rZT.TM M_ _ Audiblelvisible (AN) notification appliances with efficient electronic horn and high output xenon strobe, available for wall or ceiling mount t • Operation is compatible with ADA requirements (refer ! to important installation information on page 3) • Rugged, high impact, flame retardant thermoplastic housings are available in red or white with clear lens Operates over a two-wire SmartSync circuit to - provide: • Horns that are controlled separately from strobes on the same two-wire circuit • "On-until-silenced" and "on-until-reset" operation on the same two-wire pair • Horn control that can be selected to be temporal coded, march time coded, or on continuously • Strobe appliances on the same circuit operating at a synchronized I Hz flash rate • Class B (Style Y) operation requires connection to a compatible SmartSync NAC or to SmartSync Control Wall and Ceiling Mount ANs Module (SCM) 4905-9938 . • Class A (Style Z) operation when connected to the 4905-9938 SCM or with 410OU series fire alarm control Multi-Candela TrueAlert A/Vs with horn and panel NACs synchronized strobe provide convenient installation to standard electrical boxes. The enclosure designs are Wall mount A/Vs features: both impact and vandal resistant and provide a convenient • Wiring terminals are accessible from the front of the strobe intensity selection. Since each model can be housing providing easy access for installation, selected for strobe intensity output, on-site model inspection, and testing inventory is minimized and changes encountered during • Covers are available separately to convert housing color construction can be easily accommodated. Optional adapters and wire guards: Wall mount AN housings are a one-piece assembly (including lens) that mounts to a single or double gang, or • Wall mount AN adapters are available to cover surface 4" square standard electrical box. The cover can be mounted electrical boxes and to adapt to Simplex quickly removed (a tool is required) and covers are 2975-9145 boxes available separately for color conversion. • UL listed red wire guards are available for wall or ceiling mount A/Vs Ceiling mount AlVs install using standard 4" electrical boxes. Color choice is determined by model number. Visible notification appliance (strobe): Firm MIMIMIMM-MM M., • 24 VDC xenon strobe; intensity is selectable as 15, 30, 75, or 110 candela with visible selection jumper secured During installation, a selection plug at the back of the behind strobe housing housing determines the desired strobe intensity. An • UL listed to Standard 1971 attached flag with black letters on a highly visible yellow • Regulated circuit design ensures consistent flash output background allows the selected intensity to be seen at the side of the strobe lens. and provides controlled inrush current This product has been approved by the California State Fire Marshal (CSFM) pursuant to Audible notification appliance (horn): Section 13144.1 of the California Health and Safety Code. See CSFM Listing 7125-0026:317 for allowable values and/or conditions concerning material presented in this • Low current, 24 VDC electronic horn with harmonically document. It is subject to re-examination, revision, and possible cancellation. This product rich output sound suitable for either coded or steady was not approved by MEA (NYC) as of document revision date. Refer to page 2 for listing status of wire guards. Additional listings may be applicable; contact your local Simplex operation product supplier for the latest status. Listings and approvals under Simplex Time Recorder U L I fisted to Standard 464 Co. are the property of Tyco Safety Products Westminster. • " Simplex two-wire strobe synchronization operation is protected by U.S. patent No. 5,559,492 and SmartSync homistrobe operation is protected under U.S. Patent No. 6,281,789. S4906-0002-2 9/2004 S Proper selection of visible notification is dependent on SmartSync operation mode allows a two-wire circuit to occupancy, location, local codes, and proper applications provide the ability to activate both the horn and strobe on of: the National Fire Alarm Code (NFPA 72), ANSI the same NAC and then allow the horn to be silenced Al 17.1; the appropriate model building code: BOCA, while the strobe remains flashing. The horn operates as ICBO, or SBCCI; and the application guidelines of the "on-until-silenced" while the strobe operation is Americans with Disabilities Act (ADA). "on-until-reset." MyRff • • • • Multiple Strobes. When multiple strobes and their • 41000 and 4010 Fire Alarm Control Panels (refer to reflections can be seen from one location, synchronized data sheet 54010-0001 for details; refer to data sheet flashes reduce the probability of photo-sensitive reactions 54100-0031 for basic 41000 information) as well as the annoyance and possible distraction of • 4009 IDNet NAC Extender (refer to data sheet random flashing. The multi-candela strobes of these A/Vs 54009-0002) are synchronized by the controlling SmartSync operation • SmartSync Control Module (SCM) 4905-9938 (refer to NAC. data sheet S4905-0003) Additional SmartSync compatible notification appliances include separate horns and combination • • • horn/strobe notification appliances. Multi-Candela ANs Model Mounting Housing Color "FIRE" Lettering Description 4906-9127 Red White 4906-9129 Wall White Red Horn with Multi-Candela Strobe; strobe intensity selectable as: 15, 30, 75, or 110 candela; operates with SmartSync two-wire 4906-9128 Ceiling Red White control 4906-9130 White Red Wall Mount AN Adapters Model Description Dimensions 4905-9937 Red Surface Mount Adapter Skirt; use to cover 1-1/2" (38 mm) deep 5-3/8" H x 5-1/4" W x 1-5/8" D surface mounted boxes (136 mm x 133 mm x 41 mm) 4905-9940 White depth with strobe = 4-3/8" (111 mm) 4905-9931 Red Adapter Plate for mounting to Simplex 2975-9145 box (typically for 8-5/16" x 5-3/4" x 0.060" Thick retrofit, may be mounted vertical or horizontal) (211 mm x 146 mm x 1.5 mm) 2975-9145 Red Mounting Box, requires Adapter Plate 4905-9931 7-7/8" x 5-1/8" x 2-3/4" D (200 mm x 130 mm x 70 mm) SmartSync Control Module Model Description Dimensions 4905-9938 SmartSync Control Module with Class B or Class A output; mounts in 4" 4" x 4-1/8" x 1-1/4" D (102 mm) square box; refer to data sheet S4905-0003 for details (102 mm x 105 mm x 32 mm) Replacement Covers for Wall Mount ANs Model Description Dimensions 4905-9994 Red cover with white "FIRE" lettering 5-1/8" H x 5" W x 1-1/2" D 4905-9995 White cover with red "FIRE" lettering (130 mm x 127 mm x 38 mm) Wire Guards and Ceiling Mount AN Adapter , Model Description Dimensions 4905-9961* Wall mount red wire guard with mounting plate, compatible with semi-flush 6-1/16" H x 6-1/16" W x 3-1/8" D or surface mounted boxes (154 mm x 154 mm x 79 mm) 4905-9927* Red Wire Guard for mounting to flush mounted electrical box 8-1/2" x 6-1/8" x 3" (216 mm x 156 mm x 76 mm) 4905-9928* Ceiling Red Adapter Plate, required to mount guard to surface 9" x 7" Mount mounted electrical box (229 mm x 178 mm) 4905-9915 White Surface Mount Adapter Box Extension, use to cover 4-3/4" x 6-7/8" x 1-1/2" deep, 4905-9916 Red 1-1/2" deep surface mounted boxes (121 mm x 175 mm x 38 mm) ' UL listed by Space Age Electronics Inc. 2 S4906-0002-2 9/2004 Wall Mount or Ceiling Mount, Common Specifications Rated Voltage Range UL Listed Rating Regulated 24 VDC; see Note 1 below ULC Listed Rating 20 VDC to 30 VDC per ULC S526-M878 Flash Rate and Synchronized NAC Loading 1 Hz; with up to 35 synchronized strobes maximum per NAC Environmental; Temperature and Humidity 32° to 122° F (0° to 50° C); 10% to 93%, non-condensing at 100° F (38° C) Connections Terminal blocks for 18 AWG to 12 AWG (0.82 mm' to 3.31 mmz) ; two wires per terminal for in/out wiring Horn Output Characteristics 2400 to 3700 Hz sweep, modulated at 120 Hz rate Voltage 16 VDC 24 VDC 33 VDC Sound Type (see Note 2) Steady Coded Steady Coded Steady Coded Horn Output Ratings @ 10 ft (3 m) Reverberant Chamber, 86 dBA 82 dBA 88 dBA 84 dBA 90 dBA 86 dBA UL 464 Test Anechoic Chamber 92 dBA 91 dBA 94 dBA 95 dBA 96 dBA 96 dBA Housing Dimensions (with lens) 5-1/8" H x 5" W x 2-3/4" D (130 mm x 127 mm x 70 mm) Maximum RMS Current Rating per 15 cd 30 cd 75 cd 110 cd Wall Mount Strobe Setting (see Note 3 below) 75 mA 116 mA 221 111 285 mA Reference RMS Currents 18 VDC 70 mA 101 mA 184 mA 243 mA at other voltages 24 VDC 60 mA 84 mA 143 mA 185 mA Housing Dimensions (with lens) 4-3/4 L" x 6-7/8"W x 2-5/8" D (121 mm x 175 mm x 67 mm) Maximum RMS Current Rating per 15 cd 30 cd 75 cd 110 cd Ceiling Strobe Setting (see Note 3 below) 86 mA 132 mA 250 mA 320 mA Mount Reference RMS Currents 18 VDC 81 mA 119 mA 216 mA 283 mA at other voltages 24 VDC 70 mA 97 mA 167 mA 217 mA NOTES: 1. 'Regulated 24 VDC' refers to the voltage range of 16 to 33 VDC per UL Standard 1971, Signaling Devices for the Hearing Impaired, changes effective May 1, 2004. This voltage range is the absolute operating range. Operation outside of this range may cause permanent damage to the appliance. Please note that 16 VDC is the lowest operating voltage that is allowed at the last appliance on the NAC under worst case conditions. 2. Coded values are typical of the output measured with a Temporal coded or a March Time coded pulse and with a sound level meter reading on a "fast" setting. Under the same test conditions, coded horn output "peak" sound level readings are typically 4 dBA higher. 3. Currents are with horn on steady. The maximum RMS current listed is the device nameplate rating. Strobe designs are constant wattage and the maximum RMS current rating occurs at the lowest allowable operating voltage. (RMS is root mean square and refers to the effective value of a varying current waveform.) 0 0 Mounting is compatible with 1 0 1 r IMPORTANT! WALL MOUNT single gang, double gang, and 4" (102 mm) square boxes, INSTALLATION HEIGHT REFERENCE 1-112" (38 mm) deep, by others o 0 0 Bottom of lens is either even with, or slightly Electrical 0 0 0 s above bottom box outline Wiring access hole O of compatible\ boxes t Wiring terminals for tt p o SmartSync operation ° Mounting Holes. NFPA 72 requires 80" (2.03 m) Single are gang (4) (2) that the entire lens minimum S be not less than Double gang (3) 80" and not greater than 96" above the Transparent housing finished floor and lens assembly Intensity selection plug, accessible only from rear of housing; 75 n factory setting is 15 cd Removable cover Strobe intensity (tool required) viewing slot 3 S4906-0002-2 9/2004 llftnwl NOW, • Ceiling reference, 4" (102 mm) square box, Optional 4905-9928 Adapter Plate, surface mounted box 1-1/2" (38 mm) minimum depth required for surface mounted electrical box\ Four mounting clamps included, two each side \1i Y ° Ceiling reference, flush mounted box 40ptional 4905-9915/-9916 Adapter, - - recommended for surface mounted box Wiring terminals are Optional 4905-9927 / Red Wire Guard located behind the housing End View Strobe intensity viewing slot Intensity selection plug, accessible only from rear of lens housing; factory setting is 15 cd Surface Mounting Reference 2975-9145 Box with Optional Adapter Skirt and Optional Wire Guard Surface mount conduit and 0 box shown for reference F~Fj 11 4"(102 mm) square men" rl box profile, 1-1/2" (38 mm) deep J 0 Optional 4905-9961 Wire Guard 4905-9931 Adapter Plate Optional Surface Mount Adapter Skirt, 0 r 4905-9961 Optional Wire Guard 1-1/2" deep: 4905-9937, Red; (shown here for reference only, 4905-9940, White (conduit knockouts 4905-9931 Adapter Plate can be used on other mounting options) are provided on all four sides) Tvco, Simplex, the Simplex logo, IDNet, TrueAlett, and SmartSync are trademarks aJ Tyco International AG or its g1filiates in the U.S. and/or other countries. NFPA 72 and National Fire Alarm Code are registered trademm ks of the National Fire Protection Association (NFPA). ®Simplex Tyco Safety Products Westminster • Westminster, MA • 01441-0001 • USA S4906-0002-2 9/2004 www.tycosafetyproducts-usa-wm.com © 2004 Tvco Sa(ety Prochtets Westminster. All rights reserved All specifications and other information shmt n irerc can ent as of document revision date and are .subject to change without notice. 13,Simplex Multi-Application Peripherals UL, ULC Listed; FM, CSFM Audible Notification Appliances and MEA (NYC) Approved* Speakers, 25 or 70.7 VRMS, Wall or Ceiling Mount UTM M_ Fire alarm speakers with models for ceiling or wall mount: UL listed to Standard 1480 • Four inch cone (102 mm) provides high quality tone and voice reproduction • Multi-tapped design provides output power of 1/4, 1/2, 1, or 2 W with either 25 or 70.7 VRMS input • In/out wiring terminals for 18 AWG to 12 AWG • Mounts to 4" square outlet box, l-1/2" deep with 1-1/2" deep box extension • Capacitor input for connection to supervised notification appliance circuits • Rugged, high impact, flame retardant thermoplastic Rectangular Wall Mount Speakers are Available housings as Red with White "Fire" Lettering and Rectangular housing models feature: White with Red "Fire" Lettering • Appearance that complements TrueAlert' strobes and speaker/strobes • Red or white housings with "FIRE" lettering for surface or semi-flush wall mount • Optional matching adapter skirts for covering surface 1 l\\ mounted electrical boxes • Optional red wire guard Round housing models feature: • Off-white color (no lettering) for flush mount on ceiling Round Speakers are Available in Off-White (no lettering) or wall • Compatible with optional tile bridge 2905-9946 Dimensions, Rectangular Wall Mount Housings Simplex 4902 Series speakers provide high quality sound Housing Dimensions 5-1/8" H x 5" W x 1-1/2" D for emergency fire alarm use as well as for background (130 mm x 127 mm x 38 mm) music. The moisture-repellent speaker is designed for Depth into Box 2-3/4" (70 mm) smooth frequency response with minimal distortion. Dimensions, Round Housings 7-112" Diameter, 1/2" D The multi-tapped speaker transformer accommodates Housing Dimensions 13 mm) either 25 or 70.7 VRMS and provides an output of from (191 mm x Depth into Box 2-314" (70 13 mm) 1 /4 to 2 W to provide flexibility for satisfying the requirements of the installed conditions. General Specifications Input Voltage 25 or 70.7 VRMS Rectangular housing models are for surface or semi-flush 2, 7 and 2 W wall mount applications. Round housing models are powerTaps 1/4,1/2, AWG typically for ceiling applications but can be wall mounted Input Terminal Ratings 18 18 to m12 m2 to 3.31 mm2 ) if desired. The rectangular housing speakers are designed to compliment the TrueAlert family of strobes and Frequency Fire Alarm 400 to 4000 Hz speaker/strobes, providing conventional, non-addressable Response General Signaling 125 to 12 kHz speaker operation. Sound Output See information on page 4 Temperature Range 32° to 100° F (0° to 38° C) ` Refer to page 2 for guard listing. This product has been approved by the California State Fire Marshal (CSFM) pursuant to Section 13144.1 of the California Health and Safety Code. 10% to 95% RH from 32° to See CSFM Listing 7320-0026:242 for allowable values and/or conditions concerning Humidity Range 122° F (0° to 50° C) material presented in this document. It is subject to re-examination, revision, and possible cancellation. Additional listings may be applicable; contact your local Simplex product supplier for the latest status. Listings and approvals under Simplex Time Recorder Co. are the property of Tyco Safety Products Westminster. S4902-0003-5 8/2005 i Speakers Model' Description Dimensions 4902 9716(CA) Rectangular housing, wall mount Red with white "FIRE" lettering 5-1/8" H x 5" W x 1-1/2" D 4902-9717(CA) speaker White with red "FIRE" lettering (130 mm x 127 mm x 38 mm) 4902-9721(CA) Round housing speaker, ceiling or wall Off 7-1/2" Diameter x 1/2" D mount -white (no lettering) (191 mm x 13 mm) ULC listed model are designated with a CA suffix. Mounting Adapters Model Description Dimensions 4905-9941 Red Use to cover surface mounted 5-3/8" H x 5-1/4" W x 3-3/16" D Surface mount adapter skirt 1-1/2" deep box with 1-1/2" (136 mm x 133 mm x 81 mm) 4905-9942 White deep extension external to Total surface depth with wall (see diagram on page 3) speaker = 4-5/8" (117 mm) 2905-9946 Tile bridge for 4902-9721 Speaker See diagram on page 3 4905-9931 Adapter Plate, red, for mounting to 2975-9145 box (typically for retrofit, 8-5/16" x 5-3/4" x 0.060" Thick may be mounted vertical or horizontal) (211 mm x 146 mm x 1.5 mm) 2975-9145 Red mounting box, requires Adapter Plate 4905-9931 7-7/8" x 5-1/8" x 2-3/4" D (200 mm x 130 mm x 70 mm) Covers and Guard Model Description Dimensions 4905-9988 Red speaker cover with white "FIRE" lettering Interchangeable with 5-1/8" H x 5" W x 1-1/2" D 4905-9989 White speaker cover with red "FIRE" lettering TrueAlert horns (130 mm x 127 mm x 38 mm) Red wire guard with mounting plate; compatible with semi-flush or surface 4905-9999 mounted boxes; for use with 4" square electrical box mounting hole 6(1154 54 H x 6 54 m W x 9 mm D patterns only (UL listed by Space Age Electronics Inc.) ( mm x 154 mm x 79 mm) • Mounting requires a 4" (102 mm) square box, 1-1/2" (38 mm) deep, with a 4" box extension, 1-112" deep, by others O r I r~ Speaker assembly O 1_ O ~I o~ i o R \ \ `Wiring input terminals and speaker tap Off, O selection are accessible from rear c speaker housing Transparent speaker housing Removable cover (tool required) 2 S4902-0003-5 8/2005 4" square, 1-1/2" deep box with 1-1/2" extension (by others) Wiring input terminals and speaker tap selection are accessible from rear of speaker housing 0.024" thick sheet 3-3/4" (95 mm) square metal, folded with cutout, centered on plate 1/2" lip each side 0 1/2"_ (13 mm)' 13-3/8" ° ° (340 mm) ~1/4" diameter (6 mm) o holes, 4 places 6-11/16" (170 mm) 23-11/16" (602 mm) 4" (102 mm) square box, 1-1/2" (38 mm) deep with conduit shown for reference 4" (102 mm) square box Ilk extension, 1-1/2" (38 mm) deep Optional 4905-9999 Wire Guard Speaker assembly Surface mount adapter skirt, 3-3/16" deep: 4905-9941, Red; 4905-9942, White Conduit knockouts are provided on all four sides Wall surface / 3 S4902-0003-5 8/2005 Sound Output Ratings @ 10 ft (3 m) per UL 1480 Reverberant Chamber Testing Model Type Input Voltage Selected Tap 1/4 W 1/2 W 1 W 2 W 4902-9716 Rectangular Housing 25 VRMS 80 dBA 83 dBA 85 dBA 88 dBA 4902-9717 70.7 VRMS 79 dBA 82 dBA 85 dBA 88 dBA 4902-9721 Round Housing either 25 or 70.7 VRMS 79 dBA 82 dBA 85 dBA 88 dBA Sound Output Ratings @ 10 ft (3 m) per ULC S-541 Testing and per Anechoic Chamber Testing Model Test Selected Tap 1/4 W 1/2 W 1 W 2 W 4902-9716, 4902-9717, & 4902-9721; Output Test per ULC S-541 78 dBA 81 dBA 84 dBA 87 dBA with either 25 VRMS or 70.7 VRMS input voltage Anechoic Chamber, 1 kHz input, on-axis` 87 dBA 90 dBA 93 dBA 96 dBA Anechoic speaker output ratings are typically more representative of actual installed sound output. • Mail • 85 E j 84 i 0 83 I m 82 co 0 81 > 80 d ~ J d 79 i w 78 I a 7 c 0 76 i U) 751 . 90 80 70 60 50 40 30 20 10 0 10 20 30 40 50 60 70 80 90 Angular Displacement (Degrees) on Horizontal Axis -2kHz ----=-4kHz • 1 ' • • Me • 4905-9931 Adapter Plate 2975-9145 Box Ilk O 4905-9999 Optional Wire Guard mom. (shown here for v reference only, can be used on other O O mounting options) o ~ 0 W 4905-9931 Adapter Plate O Speaker assembly Tyco, Simplex, the Simplex logo, and TrueAlert, are trademarks ojTwo International Services AG or its alliliales in the U.S. and/or other co unrie" ®Simplex Tyco Safety Products Westminster • Westminster, MA • 01441-0001 • USA S4902-0003-5 8/2005 www.tycosafetyproducts-usa-wm.com © 2005 Two Safety Products Westminster. All rights reserved All specilications and other information shown mere an'rent as of docianent revision date and atn snhiect to change without notice.