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FIR2019-00005 - FIR Permit / Conditions - 12/12/2018
MASON COUNTY DEPT. OF COMMUNITY DEVELOPMENT Phone: (360)427-9670, ext. 352 . �PeaN �UMrr Mason County 615 W Alder Street Shelton, WA 98584 1854 FIRE PROTECTION PERMIT FIR2018-00054 APPLICANT: CHRISTOPHER M CARLETTI RECEIVED: 11/28/2018 CONTRACTOR: SUPPRESSION SYSTEMS INC 1.253.926.3300 LICENSE: SUPPRIS1044RR ISSUED: 12/12/2018 SITE ADDRESS: 12 E BEACH DR UNION EXPIRES: 6/12/2019 PARCEL NUMBER: 322335000009 LEGAL DESCRIPTION: SUNNY BEACH PCL 2 OF BLA#04-59 SURVEY 30/232-3 PROJECT DESCRIPTION: COMMERCIAL PROVIDE CLEAN AGENT SUPPRESSION SYSTEM WITH CONVENTIONAL DETECTION AND CONTROLS IN EQUIPMENT ROOM 002 GENERAL INFORMATION System Information Type of Use: COMM Sprinkler Heads: Audible Switches: Pull Stations: Fire District: 6 Flow Switches: Visual Devices: Door Releases: Hood& Duct?: ? Pressure Switches:: Smoke Detectors: Duct Detectors: Dry Chemical?: Zones: Heat Detectors: Wet Chemical?: Sprinkler?: Standpipe?: SQUARE FOOTAGE FEES Monitoring Company: First Floor: Type Amount Due Amount Paid Monitoring Phone No.:()- Second Floor: Sprinkler System Permit Fe $251.25 $251.25 Auto Fire Alarm?: Third Floor;: Sprinkler System Plan Che $163.31 $163.31 Total: $414.56 $414.56 FIR2018-00054 Please refer to the following pages for conditions of this permit. Page 1 of 5 CASE NOTES FIR2018-00054 CONDITIONS FOR FIR2018-00054 1.) 1. Install FM200 System per NFPA2001 requirements. X `� 2. Connect system to NFPA addressible 72 alarm system. X 3. Install per redline plan notes. X 4. Inspections required: i Fan Test Pneumatic test at 40psi for 10min Trip test Final n X Plan approval does not relieve the designer/contractor from complying with all applicable codes and requirements as adopted by Mason County and the State �of�Washington, not does it abrogate the requirements of the requirements of other authorities having jurisdiction. X FIR2018-00054 Please refer to the following pages for conditions of this permit. Page 2 of 5 OWNER I BUILDER acknowledges submission of inaccurate information may result in a stop work order or permit revocation. Acknowledgement of such is by signature below 1 declare that I am the owner, owners legal representative, or contractor. I further declare that I am entitled to receive this permit and to do the work as proposed. I have obtained permission from all the necessary parties, including any easement holder or parties of interest regarding this project. The owner or authorized agent represents that the information provided is accurate and grants employees of Mason County access to the above described property and structure(s)for review and inspection. This permit/application becomes null&vo d if work or authorized construction is not commenced within 180 days or if construction work is suspended for a period of 180 days PROOF OF CONTINUATION OF WORK IS BY MEANS OF INSPECTION. INACTIVITY OF THIS PERMIT APPLICATION OF 180 DAYS WILL INVALIDATE THE APPLICATION. Signature Date ram]A �t,,v �z� OWNER - REPRESENTATIVE - CONTRACTOR Print Name (Circle one to indicate) f i FIR2018-00054 Please refer to the following pages for conditions of this permit. Page 3 of 5 -n n x CONCRETE MECHANICAL MANUFACTURED HOME Date B �— Footings !Setbacks Ribbons M Gas Piping 90 Intenor Date By Interior. Date By Date By 00 Extenor Date By Exterior- Datr- By Setup_ _ .__.,....,. Point load 1 Isolated Footings`CA INSULATION Date By = BG 1 SLAB INSULATION X Date _ By Data By FIRE DEPARTMENT Cl) foundation Wails Floors Date By q O Date By Data By DECKS = F RAM I NG Watts Date By M Date By Date By PROPANE TANKS X PLUMBING vault Date By Date By OTHER Groundwork Attic Type Date ByDate By Date By D.W.v DRYWALL Type- InL Brace Walt Date BY - Date ev Date By �"` �" N y FINAL INSPECTION 0 o Water Line Fire Separation M, Date By Date By Date C By iN 90 ttl O o Pass or Request Inspect. o Ty of Insp. Fail Date ate Done ByComments ° HUI& s 11 7T. 5 OAFS - uZP-�� 0 r FUa T7N o J N O r We T%,u Cn fD N (f] (D A 0 MASON COUNTY FIR20 18- Oo054 DEPARTMENT OF COMMUNITY DEVELOPMENT c k Mason County Bldg. 8, 615 West Alder Street, WY�� 84 �S{ www.co.mason.wa.us (360)427-9670 Belfair(360)27 - 67 Elm�10)482-5269 Mason County Fire Protection System Permit Application/U d ystem Incomplete applications will not be acc� `le ' Owner: ��. erWt�.f K Phone#: Mailing Address: 1Z F. 5eoLrd, eve. City: U ULlOK- State: �✓ :r U. t Site Address: 1Z E. T3e ---L Dnvc- City: (kK''oK State: X,/A Zip: 19 S R Z Parcel#: 3 ZZ-33 S 00000'7 Legal Description: Lien/Title Holder: 'v,A \S H A Address: City: State: Zip: Contractor: �yS f ekes TIVL Phone#: (ZS3)1 7-6-33©0 Address: 3o?7 Zofi, 5f: E. 3 City: Pi4e State: t✓A- Zip: 9q?-4 Contractor Registration #: 5(XPPK5r0Ltq RR Expiration Date: 1Z/1-0 Zg Building Square Footage (existing&proposed): 1st 1.-75/1.75 2nd / 3rd / Building Use: Cow-imer&vd Occupancy Classification: Construction Type: Type of System: k(OveC_ � Anej4"r Type of Work: Sprinkler: New System: Wet Dry Modification: Standpipe: Wet Dry Fire Underground Automatic Fire Alarm: Fire Pump Hood &Duct: Extraction Dry Chem: Wet Chem: UL certified Monitoring company: Phone #: Contractors Bid Price: $ 14, Z-00 (Must be bid in writing) RECEIVED NOV 13 20118 1Users\b1r.MAS0N\Desktop\Fire_Protection_System_Permit_Application.doc 615 W. Alder Street Enclosure Integrity Test Report In compliance with NFPA 2001 (2012 Edition) Annex C Enclosure Integrity Procedure and using FSSA peak pressure equations SUPRESSION SYSTEMS, INC. SPECIAL HAZARD FIRE PROTECTION 3077 20TH STREET EAST, SMITE B FIFE, WA 98424-1 798 (253)926-3300 FAX(253)926-3306 Tested building: TWO STORY OPERATIONS BUILDING Tested enclosure: SERVER ROOM Building Address: 12 EAST BEACH DRIVE, UNION, WA Performed for: Performed by: Zachary Tuck Certification level 3 Test date: 2019-02-22 Associated Test file: Z:\Company Shared Folders\Job Files-Server\Complete\1876 WATERMARK OPERATIONS BLDG\CORRESPONDENCE\WATERMARK FAN TEST NFPAED2015 2019-02-22 0806.fxml Page 1 of 12 Summary �-y�SERVER ROOM w_ irCL FanTestic Integrity version: 5.11.17 licensed to:Suppression Systems, Inc. Test date: 2019-02-22 By:Zachary Tuck Certification: 3 Location: 12 EAST BEACH DRIVE, UNION,WA Building:TWO STORY OPERATIONS BUILDING Witness: Robert McGee, Fox Fire Prevention 360-871-1985 Net protected volume,V [cu ft] 1,658 Agent Novec 1230[FK-5-1-12] Max flooded height, Ho [ft] 9.5 Quantity [lb] 68 Required protected height, Hp [ft] 6.5 Type Halocarbon Design temp,T [°F] 70.0 Discharge time, [s] 10 Enclosure pressure limit, [Pa] 500 Mixing during hold time No Specified Hold Time, [min] 10 Initial concentration,c; 4.527% Elevation, [ft] 0 Design concentration, c 4.5% Minimum design humidity 30% Bias during Hold, Pbn [Pa] 0 Maximum design humidity 60% 1d tlm molts -a - Fan make/model Retrotec 6000 Fan serial # 3PH600149 Leakage exponent, n 0.0726 Fan calibration date 12/15 Leakage constant, kl [m3/h/Pa"] 155.5 Gauge make/model DM32 Total Leakage Area, [sq in] 32 Gauge serial# 404702 Gauge calibration date 12/15 Predicted Hold Time,t [min] 10.1 Hold Time compliance based on Annex C of NFPA 2001 (2012 Edition) Calculations predict that the enclosure will maintain the minimum concentration of 3.825%at the required protected height of 6.5 ft for 10.1 minutes. The enclosure PASSES this acceptance procedure because this hold time is greater than the specified minimum of 10 minutes. Peak Pressure compliance using FSSA equations Calculations predict a maximum positive peak pressure of 195 Pa. This pressure is less than the specified maximum enclosure pressure limit of 500 Pa,therefore the enclosure PASSES this part of the procedure Calculations predict a maximum negative peak pressure of 1,458 Pa. This pressure is greater than the specified maximum enclosure pressure limit of 500 Pa,therefore the enclosure FAILS this part of the procedure. This enclosure will require additional PRV area of 20 sq in that opens under negative pressure to maintain the enclosure's structural integrity and pass the peak pressure procedure in the negative direction. Page 2 of 12 Assumptions and warnings While FanTestic Integrity software may identify clean agent peak pressure and hold time risks, use of this software does not in any way guarantee the elimination of those risks. Enclosure Integrity (hold time) The enclosure was tested in compliance with NFPA 2001 (2012 Edition)Annex C Enclosure Integrity Procedure. These tests only address potential failures in maintaining extinguishing agent concentration due to excessive enclosure leakage. The following assumptions were made: • The initial extinguishing agent concentration as indicated in the test report will be achieved. • Ductwork connected to air-handling systems that are outside this enclosure will be either isolated with dampers or will be shut down during the hold time. • If air handlers are used to provide continuous mixing,they will be dedicated to this enclosure and will not create significant flows across the enclosure boundaries. • An adequate return path for the air flow was provided during the enclosure integrity door fan tests. • All intentional openings will be sealed during the enclosure leakage for hold time tests. • There are NO fans that continue running during the hold time or heat sources that will produce enough air circulation to cause a 'continuous mixing' condition within the entire enclosure. • All other non-integrity tests, as outlined in the NFPA standard,will be satisfactorily completed. Enclosure Integrity (peak pressure) Enclosure integrity tests and calculations were performed to determine that the enclosure has adequate venting to provide peak pressure relief as required by NFPA 2001 (2012 Edition)section 5. Calculations for peak pressure were performed using equations from the Fire Suppression Systems Association (FSSA) "Pressure Relief Vent Guide". The following assumptions were made: • All intentional openings will be set to the operating condition expected during the agent discharge for positive peak pressure relief when enclosure leakage is tested for positive vent area. • In addition,for halocarbons only, all intentional openings will be set to the operating condition expected during the agent discharge for negative peak pressure relief when enclosure leakage is tested for negative vent area. • Adequate air flow was provided along a path leading to outdoors for the test fan but the doors surrounding the enclosure were set in the position that provide the lowest air flow required to establish the required test pressures. • Design temperature inside the tested enclosure during discharge is 70.0'F. • Relative humidity in the enclosure will range between 30%and 60%. Page 3 of 12 Background Hold time prediction,Descending Interface Model This procedure predicts the hold time for the extinguishing agent/air interface to drop to the specified minimum protected height, based on the variables shown in this report. Due to the conservative assumptions regarding leakage distribution,this prediction model usually predicts a shorter retention time as compared to an actual discharge, but not always. This prediction only applies to conditions as found at the time of the test. Additional penetrations,weather, open doorways, HVAC modifications, malfunctions and the inherent assumptions in the enclosure integrity procedure could all combine to give very different results in a real discharge. Leakage area defined for hold time The Total Enclosure Leakage test measures all unintentional holes in the enclosure,the sub-floor and the above- ceiling space,whether or not extinguishing agent will leak out of these holes. All intentional openings (such as installed pressure relief vents) must be held in their closed position but not sealed. The measurement is performed over a range of pressures so that the exact leakage rate at lower pressures for agent loss will be known. The predicted hold time is worst case since it is assumed that half of the measured leakage is located in the ceiling and the other half is located in the floor. Leakage area defined for Peak Pressure Leakage for peak pressure does not depend on leak location, making the Total Enclosure Leakage test accurate for peak pressure prediction. All intentional openings(such as installed pressure relief vents) must held in the positions they are expected to be in during the positive peak pressure spike during discharge. For halocarbons, this test must be repeated where all intentional openings (such as installed pressure relief vents) must held in the positions they are expected to be in during the negative peak pressure spike during discharge. The measurement is performed over a range of induced test pressures so that the exact leakage rate at the higher reference pressure of 125 Pa for venting will be known. The predicted peak pressure will then be based on an enclosure leakage that accurately represents the free vent area faced by the agent discharge. Page 4 of 12 Discussion of Results - SERVER ROOM Hold Time Compliance with Annex C of NFPA 2001. (2012 Edition) It is predicted that a Total Enclosure Leakage measurement of 32 sq in maintains the minimum concentration of 3.825%at the minimum protected height of 6.5 ft for 10.1 minutes. This hold time is greater than the specified minimum of 10 minutes,therefore the enclosure PASSES this acceptance procedure. It was assumed that there was no'continuous mixing'condition during the hold time. Predicted hold time was therefore calculated based on a descending interface model. Peak Pressure Compliance with section 5 of NFPA 2001 (2012 Edition) 5.3.7: The protected enclosure shall have the structural strength and integrity necessary to contain the agent discharge. If the developed pressures present a threat to the structural strength of the enclosure, venting shall be provided to prevent excessive pressures. And that the following shall be submitted for approval to the authority having jurisdiction: 5.1.2.2 (10):maximum positive and the maximum negative pressure... expected to be developed upon the discharge of agent 5.1.2.2 (28):pressure relief vent area... to prevent development of a pressure difference across the enclosure boundary that exceeds a specified enclosure pressure limit. Calculations for peak pressure, based on leakage area of Enclosure Only at a standard reference condition of 125 Pa and using no pressure relief vent(PRV), determined: • The enclosure would represent a free vent area during discharge of 11 sq in with the enclosure set up in the condition expected to occur during the positive pressure pulse caused by the agent discharge which is predicted to be 195 Pa. This pressure is less than the specified maximum of 500 Pa,therefore the enclosure PASSES this part of the procedure • The enclosure would represent a free vent area during discharge of 11 sq in with the enclosure set up in the condition expected to occur during the negative pressure pulse caused by the agent discharge which is predicted to be 1,458 Pa . This pressure is greater than the specified maximum of 500 Pa,therefore the enclosure FAILS this part of the procedure. Vents should be installed high in the enclosure so that mostly air is exhausted, instead of the heavier extinguishing agent. Additionally,the vents should be rated to fully open between 80-130 Pa. Once a vent is installed or it is decided to use leakage of the enclosure only to relieve pressures during discharge,the chosen venting situation is used to calculate expected peak pressure, and the available free vent area must be enough to relieve this peak pressure in order to pass. All leakage areas are extrapolated to a standard reference condition of 125 Pa which is representative of conditions where most of the peak pressure will be relieved Peak pressure calculation detail Using the leakage area of Enclosure Only and equations from the Fire Suppression Systems Association (FSSA) "Pressure Relief Vent Guide": • At the highest humidity of 60%, a peak positive pressure of approximately 195 Pa would form. Page 5 of 12 • At the lowest humidity of 30%, a peak negative pressure of approximately—1,458 Pa would form. Free vent area required calculation detail Assuming an Enclosure Pressure limit of±500 Pa,this enclosure requires a total vent free area of 4 sq in in the positive direction and 30 sq in in the negative direction to maintain the enclosure's structural integrity. Free vent area available calculation detail The leakage area during discharge will be: • it sq in for the Enclosure Only with the enclosure set up in its Positive Discharge Period Condition, where any dampers or installed PRV were fixed in the position they would assume under+125 Pa. • 11 sq in for the Enclosure Only with the enclosure set up in its Negative Discharge Period Condition, where any dampers or installed PRV were fixed in the position they would assume under-125 Pa. Additional PRV area required detail The Enclosure Only provides 11 sq in of positive venting area. Since this is more than the required total of 4 sq in,this enclosure does not require any additional PRV area to maintain structural integrity and pass the peak pressure procedure in the positive direction. By subtracting the leakage provided by the Enclosure Only from the required total free vent area of 30 sq in,this enclosure will require additional PRV area of 20 sq in that opens under negative pressure to maintain the enclosure's structural integrity and pass the peak pressure procedure in the negative direction. Test Data Appendix- SERVER ROOM Enclosure Construction Data The maximum flooded height used in the calculations is 9.5 ft. The equipment was installed in the room, and the top of the rack was measured to be 6.5 ft, so 6.5 ft was taken as the minimum height for protection. Net protected volume used is 1,658 cu ft. Building elevation used is 0 ft, and the elevation correction factor used in the calculations is 1. Total Enclosure Leakage test data Based on measured values,the enclosure alone has an equivalent leakage area of 32 sq in at a reference pressure of 10 Pa. The following table represents the results from the enclosure integrity procedure carried out on the whole enclosure,with all intentional openings sealed. Test conditions Test date 2019-02-22 Inside temperature, 68,F Te[°F] Test time 08:06 Outside temperature, 68 OF T.Page 6 of 12 Operator location Inside Bias pressure, Pbt[Pa] 0.00 Pressurize Data Depressurize Data Induced pressure [Pa] 10.0 50.0 -10.0 -50.0 m Fan Pressure [Pa] 70 120 ^ m 74 122 C ro Flow (m3/h] 174 174 C 193 239 Total Flow rate [m3/h] 174.4 r174.4 193.3 238.9 Leakage exponent, n 0.000 0.132 Leakage characteristic, k, [m3/h/Pa"] 174.45 142.81 Leakage area at 10 Pa [sq 30.18 33.45 in] Correlation, r 1.0000 1.0000 Page 7 of 12 S 0 a t i 4 30 IT -30 -40 -50 -60 0 0>5 1 1.5 2 2.5 3 Time 1000 a Y a $ . Demessurtm r 3 Prrbe r m LOt19U � 100 10 1w (LAW Pre2pire(Pa) Page 8 of 12 Venting data for Enclosure Only There was no PRV installed for pressure relief so the Total Enclosure Leakage measured was extrapolated to the reference pressure of 125 Pa and used in further calculations as the only available leakage for peak pressure relief. In the case where the leakage area of the PRV only was to be used for pressure relief, but leakage area for enclosure and vent was entered as the venting area dataset,to determine leakage area for pressure relief by PRV alone,the leakage of the enclosure would have been subtracted from the leakage of the venting dataset. In the case where the leakage area of the enclosure and PRV was to be used for pressure relief, but leakage area for vent only was entered as the venting area dataset,to determine leakage area for pressure relief by the enclosure and PRV,the leakage of the enclosure would have been added to the leakage of the venting dataset. Positive direction data The positive free vent area provided by the Enclosure Orly is 11 sq in,for the enclosure set up in its Positive Discharge Period Condition,with all dampers or installed PRV fixed in the position they would assume under +125 Pa. The leakage of the Enclosure Only in the positive direction was obtained by measuring, and this leakage was manipulated as necessary to determine the leakage area of the Enclosure Only required for positive pressure relief. Negative direction data The negative free vent area provided by the Enclosure Only is 11 sq in,for the enclosure set up in its Negative Discharge Period Condition,with all dampers or installed PRV fixed in the position they would assume under- 125 Pa. The leakage of the Enclosure Only in the negative direction was obtained by measuring, and this leakage was manipulated as necessary to determine the leakage area of the Enclosure Only required for negative pressure relief. Peak Pressure data Peak pressure was calculated using the leakage of the l=nclosure'Only and equations from the Fire Suppression Systems Association (FSSA) "Pressure Relief Vent Guide". FSSA equations depend on experimentally derived curves for peak pressure based on a Leak to Volume ratio for the enclosure. -Ppfly,dgUiJs Enclosure pressure limit, [Pa]: 500 Discharge time, [s]: 10 Pressure relief vent type: no pressure relief vent (PRV) Peak Pressure relief using: Enclosure Only P k Positive Pressure Venting summary—Positive Direction Peak positive pressure, [Pa] 195 Minimum required leakage, [sq in] 4 Page 9 of 12 Leak to volume ratio, LVRPoS [sq in/cu 6.5 Venting area used, [sq in], (describes 11 ft) Enclosure Only) Additional PRV area needed, [sq in] 0 Peak negative pressure, [Pa] 1,458 Minimum required leakage, [sq in] 30 Leak to volume ratio, LVRfeg [sq in/cu 6.5 Venting area used, [sq in], (describes ft] Enclosure Only) 11 Additional PRV area needed, [sq in] 20 Page 10 of 12 Test Equipment The following test equipment was used in the performance of the enclosure integrity tests. Fart Fan serial: Fan calibration Gauge Gauge Gage Calibration serial #1 Retrotec 6000 3PH600149 12/15 DM32 404702 12/15 Fan Calibration Certificate Retrotec 6000: Retrotec 6000 3PH600149 Range n K K1 K2 K3 K4 Open 0.498 548 0 0.5 0 1 A 0.502 287 0 0.5 0 1 B8 0.54 113.25 0 0.8 0 1 {1- {1-CalibKl- CalibRange- {1-CalibN-4} {1-CalibK-4} 41 {1-CalibK2-4} {1-CalibK3-4} {1-CalibK4-4} 4} {1- {1-CalibKl- CalibRange- il-CalibN-51 {1-CalibK-5} 51 {1-CalibK2-5} {1-CalibK3-5} {1-CalibK4-5} 5} {1- CalibRan e- 1-CalibN-6 1-CalibK-6 {1-CalibKl- g { } { } 6} {1-CalibK2-6} {1-Calib K3-6} {1-CalibK4-6} 6} {1- {1-CalibKl- CalibRange- {1-CalibN-7} {1-CalibK-7} 71 {1-CalibK2-7} {1-CalibK3-7} {1-CalibK4-7} 7} {1- e- 1-CalibN-8 {1-CalibKl- CalibRan g { } {1-CalibK-8} 81 {1-CalibK2-8} {1-CalibK3-8} {1-CalibK4-8} 8} {1- e- 1-CalibN-9 {1-CalibKl- CalibRan g { } {1-CalibK-9} 9) {1-CalibK2-9} {1-CalibK3-9} {1-CalibK4-9} 9) {1- CalibRan e- 1-CalibN-10 {1-CalibKl- 11-CalibK2- 11-CalibK3- 11-CalibK4- g { } {1-CalibK-10} 101 101 10) 101 10} Page 11 of 12 {1- CalibRange- {1-CalibN-11} {1-CalibK-11} {1-CalibKl- {1-CalibK2- {1-CalibK3- {1-CalibK4- 11} 11} 11} 11} 11} Flow in CFM using the above calibration factors is calculated as follows: Page 12 of 12 MATERIAL SUBMITTAL FIRE MARSHAL ERMARK OPERATIONS BUILDING 12 EAST BEACH DRIVE UNION, WASHINGTON 98592 CLEAN AGENT SUPPRESSION SYSTEM WITH CONVENTIONAL DETECTION AND CONTROLS REreivED NOV t a zaie e,. .,. Alder sv,n SYSTEM DESIGNED AND INSTALLED BY SPECIAL HAZARD FIRE PROTECTION CONTRACTOR: SUPf3ESSION SYSTEMS, INC. SPECIAL HAZARD FIRE PROTECTION 30I7 20iH STREET EAST, SURE B FE, WA 98424-I )9B _. -. (253) 9263300 FAX (253) 9263306 TABLE OF CONTENTS ❖ PROJECT CALCULATIONS ➢ BATTERY CALCULATIONS ➢ VOLTAGE DROP CALCULATIONS ➢ CLEAN AGENT CALCULATIONS DETECTION AND CONTROLS • ➢ CONTROL PANEL ➢ CONTROL ACCESSORIES ➢ DETECTION AUDIO VISUAL CLEAN AGENT ➢ AGENT ➢ CYLINDER ➢ ACCESSORIES ➢ NOZZLES ➢ PIPE AND FITTINGS ➢ SIGNS JOB NAME: WATERMARK OPERATIONS BUILDING EQUIPMENT ROOM 002 SYSTEM TYPE: NOVEC AC Branch Circuit Requirements 120 VAC Control Panel 1.3 1 1.3 Power Supply Module 1.9 1 1.9 Minimum Requirement is 15 Amps AC Branch Current Total Amp Load 3.2 System Standby Power Requirements Standby Module/ Max Standby Current(Amps) System Current(Amps) Modules Control Panel (note 1) 0.1000 1 0.1000 Programable Relays 0.0000 4 0.0000 Field Devices Photoelectric Detector 0.0007 2 0.0014 Standby Load Amps 0.1014 System Alarm Power Requirements Alarm Module/ Max Alarm Current(Amps) System Current(Amps) Modules Control Panel (note 1) 0.2400 1 0.2400 Releasing Solenoids -Steady (note 5) 0.2000 1 0.2000 TB18-STROBE OF HORN/STROBE 0.1050 1 0.1050 TB17 NAC - HORN OF HORN/STROBE 0.0280 1 0.0280 TB19 NAC- DISCHARGE STROBE 0.1300 1 0.1300 Field Devices Photoelectric Detector 0.0700 2 0.1400 Alarm Load Amps 0.8430 Total Battery Capacity Required Required Standby Time (24,60,90) Total Standby Load 0.1014 24 2.4336 Required Alarm Time (5 Min =.084)OR (10 Min =.167) Total Alarm Load 0.843 0.084 0.0708 Amp Hours Required 2.5044 Derate Factor 0.2 0.5009 Total Amp Hours Required 3.0053 1)The standby and alarm values include the trouble relay. 2)The auxiliary power output current value stated is the maximum allowed. 3)The standby current for all detection is for each detector. The alarm current is for the detection circuit. 4)The current value stated for the notification appliance circuits is the maximum each. 5)The current value stated for the release sloenoid steady circuits is the maximum. 6) Momentary agent release solenoids and initiators are negligible in their current requirements and do not need to be included in the calculation. This calculator provided voltage drop calculations in three formats Point to Point, End of Line, and Load Centering). Make sure that you know what method is accepted by,and the results do not exceed the limits set by the respective jurisdiction Point to Point Method End of Line Method Load Centering Method Project Name EQUIPMENT ROOM 002 CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS Date 10/31/18 Circuit Number TB14 Totals Voltage Totals Voltage Totals Volta e Area Covered SOLENOID Current Distance Drop Current Distance Drop Current Distance Dro Nominal System Volta gel 24 0.200 50 0.10 0.200 1 50 0.098 0.200 50 0.049 Minimum Device Volta a 16 End of Line Voltage 23.90 End of Line Voltage, 23.90 End of Line Voltage 23.95 Total Circuit Current 0.200 Wire Ohm's Percent Drop 0.41% Percent Dropi 0.41% Percent Drop 0.20% Gauge Per 1000 End of Line and Load Centering Methods use only the wire guage for the first device to source Distance from source to 1st device 50 16 4.89 Standard Wire Resistance in Ohms per 1000 feet. Wire Gau a for balance of circuit 16 4.89 18=7.77 16=4.89 14=3.07 12=1.98 10=1.24 Enter current in amps. Distance 18-14 Aw =Solid Conductors 12-10 Awg=Stranded Conductors .150= 150 ma from Voltage Notes: Device Device previous At Drop from Percent Wire resistance is doubled in the calculations for two wires Positive and Ne ative Number Current device Device source Drop The voltage calculated to the last device in any method must not be lower then Device 1__ 0.200 50 23.90 0.098 0.41% the manufactures listed minimum operating volts a IE: rated operating voltage 20-32 VDC . END 23.90 0.098 0.41% END 23.90 0.098 0.41% Device Manufacturer IGENTEX Device Manufacturer END 23.90 0.098 0.41% 1 Current Current END 23.90 0.098 0.41% COMMANDS 3 SERIES @Rated @Rated END 23.90 0.098 0.41% Model # Candela Voltage Model # Candela Voltage END 23.90 0.098 0.41% STROBES 15 0.105 END 23.90 0.098 0.41% 30 0.13 END 23.90 0.098 0.41% 60 0.203 END 23.90 0.098 0.41% 75 0.243 END 23.90 0.098 0.41% 110 0.310 END 23.90 0.098 0.41% HORN jXX 0.028 END 23.90 0.098 0.41% CLEAN AGENT SOLENOID 0.200 END 23.90 0.098 0.41% END 23.90 0.098 0.41% END 23.90 0.098 0.41% END 23.9 00.098 0.41% END 23.90 0.098 0.41% END 23.90 0.098 0.41% END 23.90 0.098 0.41% Totals 0.200 50 End of Line Volta a 23.90 This calculator provided voltage drop calculations in three formats Point to Point, End of Line,and Load Centering). Make sure that you know what_ method is acce ted by,and the results do not exceed the limits set by the res ective jurisdiction Point to Point Method End of Line Method Load Centering Method Project Name EQUIPMENT ROOM 002 CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS Date I 10/31/18 Circuit Number TB19 Totals Voltage Totals Voltage Totals Voltage Area Covered DISCHARGE STROBE Current Distance Drop Current Distance Drop Current Distance Drop Nominal System Volta gel 24 0.130 1 50 0.06 0.130 50 0.064 1 0.130 50 0.032 Minimum Device Voltage 16 End of Line Voltage 23.94 End of Line Voltage 23.94 End of Line Voltage 23.97 Total Circuit Current 0.130 Wire Ohm's Percent Drop 0.26% Percent Drop 0.26%1 Percent Drop 0.13% Gauge Per 1000 End of Line and Load Centering Methods use only the wire guage for the first device to source Distance from source to 1st device 50--T 16 4.89 Standard Wire Resistance in Ohms per 1000 feet. Wire Gauge for balance of circuit 1 16 4.89 1 18=7.77 16=4.89 14=3.07 12=1.98 10=1.24 Enter current in amps. Distance 18-14 Aw =Solid Conductors 12-10 Aw =Stranded Conductors .150= 150 ma from Voltage Notes: Device Device previous At Drop from Percent Wire resistance is doubled in the calculations for two wires Positive and Negative) Number Current device Device source Drop The voltage calculated to the last device in any method must not be lower then Device 1 0.130 50 23.94 0.064 0.26% the manufactures listed minimum operating volts a IE: rated operating voltage 20-32 VDC). END 23.94 0.064 0.26% END 23.94 0.064 0.26% Device Manufacturer GENTEX Device Manufacturer END 23.94 0.064 0.26% Current Current END 23.94 0.064 0.26% COMMANDE 3 SERIES @Rated @Rated END 23.94 0.064 0.26% Model # Candela Voltage Model # Candela Voltage END 23.94 0.064 0.26% STROBES 15 0.105 END 23.94 0.064 0.26% 30 0.13 END 23.94 0.064 0.26% 60 0.203 END 23.94 0.064 0.26% 75 0.243 END 23.94 0.064 0.26% 110 0.310 END 23.94 0.064 0.26% HORN jXX 0.028 END 23.94 0.064 0.26% CLEAN AGENT SOLENOID 0.200 END 23.94 0.064 1 0.26% END 23.94 0.064 0.26% END _ 23.94 0.064 0.26% END 23.94 0.064 0.26% END 23.94 0.064 0.26% END 23.94 0.064 0.26% END 23.94 0.064 0.26% Totals 0.130 50 End of Line Voltage 23.94 This calculator provided voltage drop calculations in three formats(Point to Point, End of Line, and Load Centering). Make sure that you know what method Is accepted by,and the results do not exceed the limits set by the res ectIve jurisdiction Point to Point Method End of Line Method Load Centering Method Pro'ect Name EQUIPMENT ROOM 002 CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS Date 10/31/18 Circuit Number TB17 Totals Voltage Totals Voltage Totals Voltage Area Covered STROBE OF HORN STROBE Current Distance DropCurrent Distance Drop Current Distance Drop Nominal System Voltage 24 0.105 50 0.051 0.105 1 50 0.051 0.105 50 0.026 Minimum Device Volta a 16 End of Line Voltage 23.951 End of Line Voltage 23.95 End of Line Voltage 23.97 Total Circuit Current 1 0.105 Wire Ohm's Percent Drop _0.21%1 Percent Drop 0.21% Percent Drop 0.11 Gauge Per 1000 End of Line and Load Centering Methods use only the wire guage for the first device to source_ Distance from source to 1st device 50 16 4.89 Standard Wire Resistance in Ohms per 1000 feet. Wire Gauge for balance of circuit 16 4.89 _ 18=7.77 16=4.89 14=3.07 12=1.98 10=1.24 Enter current in amps. Distance 18-14 Aw =Solid Conductors 12-10 wg=Stranded Conductors .150= 150 ma from Voltage Notes: Device Device previous At Drop from Percent Wire resistance is doubled in the calculations for two wires Positive and Negative) Number Current device Device source Drop The voltage calculated to the last device in any method must not be lower then Device 1 0.105 50 23.95 0.051 0.21% the manufactures listed minimum operating volts a IE: rated operating voltage 20-32 VDC . END 23.95 0.051 0.21% END 23.95 0.051 0.21% Device Manufacturer GENTEX Device Manufacturer END 23.95 0.051 0.21% Current - - Current END 23.95 0.051 0.21% COMMANDE 3 SERIES @Rated @Rated END 23.95 0.051 0.21% Model# Candela Voltage Model# Candela Volta e END 23.95 0.051 0.21% STROBES 15 0.105 END 23.95 0.051 0.21% 30 0.13 END 23.95 0.051 0.21% 60 0.203 END 23.95 0.051 0.21% 75 0.243 END 23.95 0.051 0.21% 110 0.310 END 23.95 0.051 0.21% HORN jXX 0.028 END 23.95 0.051 0.21% CLEAN AGENT SOLENOID 0200 END 23.95 0.051 0.21% END 23.95 0.051 0.21% END 23.95 0.051 0.21% END 23.95 0.051 0.21% END 23.95 0.051 0.21% END 23.95 0.051 0.21% END 23.95 0.051 0.21% Totals 0.105 50 End of Line Voltage 23.95 l This calculator provided voltage drop calculations in three formats Point to Point, End of Line, and Load Centering). Make sure that you know what method is acce ted by,and the results do not exceed the limits set by the res ective jurisdiction Point to Point Method End of Line Method Load Centering Method Pro'ect Name EQUIPMENT ROOM 002 CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS Date 1 10/31/18 Circuit Number TB18 Totals Voltage Totals Voltage Totals Voltage Area Covered HORN OF HORN STROBE Current Distance Drop Current Distance Drop Current Distance Drop Nominal System Volta gel 24 0.028 50 0.011 0.028 50 0.014 0.028 50 0.007 Minimum Device Voltage 16 End of Line Voltage 23.991 End of Line Voltage 23.99 End of Line Voltage 23.99 Total Circuit Current 0.0281 Wire Ohm's Percent Drop 0.06%1 Percent Drop 0.06% Percent Drop 0.03% Gauge Per,1000 End of Line and Load Centering Methods use only the wire guage for the first device to source Distance from source to 1st device 50 16 4.89 Standard Wire Resistance in Ohms per 1000 feet. Wire Gauge for balance of circuit L 16 4.89 18=7.77 16=4.89 14=3.07 12=1.98 10=1.24 Enter current in amps. Distance 18-14 Aw =Solid Conductors 12-10 Aw =Stranded Conductors .150= 150 ma from Voltage Notes: Device Device previous At Drop from Percent Wire resistance is doubled in the calculations for two wires Positive and Negative) Number Current device Device source Drop The voltage calculated to the last device in any method must not be lower then Device 1 0.028 50 23.99 0.014 0.06% the manufactures listed minimum operating volta a IE: rated operating voltage 20-32 VDC). END 23.99 0.014 0.06% END 23.99 0.014 0.06% Device Manufacturer IGENTEX Device Manufacturer END 23.99 0.014 0.06% 1 Current Current END 23.99 0.014 0.06% COMMANDE 3 SERIES @Rated @Rated END 23.99 0.014 0.06% Model# Candela Voltage Model # Candela Voltage END 23.99 0.014 0.06% STROBES 15 0.105 END 23.99 0.014 0.06% 30 0.13 END 23.99 0.014 0.06% 60 0.203 END 23.99 0.014 0.06% 75 0.243 END 23.99 0.014 0.06% 110 0.310 END 23.99 0.014 0.06% HORN jXX 0.028 END 23.99 0.014 0.06% CLEAN AGENT SOLENOID 0.200 END 23.99 0.014 0.06% END 23.99 0.014 0.06% END 23.99 0.014 0.06% END 23.99 0.014 0.06% END 23.99 0.014 0.06% END 23.99 0.014 1 0.06% END 23.99 0.014 0.06% Totals 0.028 50 End of Line Voltage 23.99 Kidde Fire Systems KFS Hydraulic Flow Calculation Program v4.00 (FK-5-1-12) UL: EX4674/Component of FM Approved System SUPPRESSION SYSTEMS INC. 3077 20TH STREET EAST,SUITE B FIFE, WA 98424 Phone: 253-926-3300 File Name: 1876 FLOW CALC.FC4 Consolidated Report Customer Information Company Name: WATERMARK OPERATIONS BLDG Address: Phone: Contact: Title: Calculation Date/Time:Tuesday,October 23,2018,3:31:34 PM _ Copyright(c)JENSEN HUGHES,Inc. Licensed to:Kidde-Fenwal KeyID:1109508029 Page:1 of 11 jKiddeFireSyAems Consolidated Report Project Data Proiect Name: Designer: NINA M REEVES Number: 1876 Account: Location: EQUIPMENT ROOM 002 Description: Calculation Date/Time:Tuesday,October 23,2018,3:31:34 PM III Copyright(c)JENSEN HUGHES,Inc. Licensed to:Kidde-Fenwal KeyID:1109508029 I Page:2 of 11 i r Kidde Fire Systems Consolidated Report Enclosure Report Elevation: 0 ft (relative to sea level) Atmospheric Correction Factor: 1 (NFPA 2001) Enclosure 1 EQUIPMENT ROOM 002 Enclosure Temperature: Number of Nozzles: 1 Minimum: 70 F Width: 0.0 ft Maximum: 70 F Length: 0.0 ft Max. Concentration: 4.53 % Height: 0.0 ft Design Concentration: Volume: 1658.7 ft 3 Adjusted: 4.53 % Non-permeable: 0.0 ft 3 Minimum: 4.50% Total Volume: 1658.7 ft 3 Min.Agent Required: 67.6 lb Adjusted Agent Required: 68.0 lb Calculation Date/Time:Tuesday,October 23,2018,3:31:34 PM Copyright(c)JENSEN HUGHES,Inc. Licensed to:Kidde-Fenwal KeyID:1109508029 Page:3 of 11 j Kidde Fire Systems Consolidated Report Agent Source Report Agent: FK-5-1-12/Propellant N2 Cylinder Name: 70 lb Cylinder Cylinder Part Number: 45-550070-001 Agent Per Cylinder: 68.0 lb Fill Density: 68.0 lb/cubic ft Number of Main Cylinders: 1 Number of Reserve Cylinders: 0 Cylinder Empty Weight: 52.0 lb Weight,All Cylinders+Agent: 120.0 lb Floor Area Per Cylinder: 0.44 ft Z Floor Loading Per Cylinder: 273 lb/ft Z II it i I Calculation Date/Time:Tuesday,October 23,2018,3:31:34 PM Copyright(c)JENSEN HUGHES,Inc. Licensed to:Kidde-Fenwal Key ID:1109508029 Page:4 of 11 I j Kidde Fire Systems Consolidated Report Parts Report Total Agent Required: 68.0 lb Cylinder Name: 70 lb Cylinder(Part:45-550070-001) Number of Cylinders: 1 Nozzle Nozzle Type Diameter Nozzle Area Part Number E1-N1 180-BR 3/4 in 0.2353 in Z 45-194714-152 Pipe & Fittings Type Diameter Length Elbows (90) Elbows(45) Tees Unions 40T 3/4 in 6.83 ft 1 0 0 0 Other Obiects Name Quantity Part Number 1-1/2 in.Valve Outlet Adapter 1 283904 Calculation Date/Time:Tuesday,October 23,2018,3:31:34 PM Copyright(c)JENSEN HUGHES,Inc. Licensed to:Kidde-Fenwal KeyID:1109508029 Page:5 of 11 j Kidde Fire Systems Consolidated Report System Acceptance Report System Discharge Time: 9.4 seconds Percent Agent In Pipe: 8.5% Percent Agent Before First Tee: 0.0% Dead Volume: 0.0%(0.0 Ib) Enclosure Number: 1 Enclosure Name: EQUIPMENT ROOM 002 Minimum Design Concentration: 4.50% Adjusted Design Concentration: 4.53% Predicted Concentration: 4.53% Maximum Expected Agent Concentration: 4.53%(At 70 F) Maximum Allowed Enclosure Pressure: 5.0 lb/ft Z Installed Vent Area: 0.0 ftZ Predicted Minimum Vent Area (Negative): 0.7 ftZ Predicted Minimum Vent Area (Positive): 0.1 ftZ Predicted Enclosure Pressure (Negative): N/A Predicted Enclosure Pressure (Positive): N/A Minimum Adjusted Predicted Average Agent Agent Agent Nozzle Nozzle Required Required Delivered Pressure E1-N1 67.6 lb 68.0 lb 68.0 lb 151 psig I i I I Calculation Date/Time:Tuesday,October 23,2018,3:31:34 PM Copyright(c)JENSEN HUGHES,Inc. Licensed to:Kidde-Fenwal KeyID:1109508029 Page:6 of 11 o Kidde Fire Systems Consolidated Report Pipe Network Report Total Total Pipe Start End Pipe Pipe Pipe Elevation Equivalent Nozzle Nozzle Nozzle Nozzle Description Section Node Node Type Diameter Length Union Change Length Name Size Type Area Cylinder-On Man./End 0 2 1-1/2 in 2.91 ft 0 2.91 ft 50.00 ft Adapter System 1-1j2 in 0.22 ft 0 ------ 11.80 ft.. � .:,. Pipe System 3 4 40T 3/4 in 0.50 ft 0 --- 0.50 ft ow Elbow(90) System 4 5 40T 3/4 in --- 0 ------ .20 Pipe&Nozzle System 5 6 40T 3/4 in 6.33 ft 0 6.33 ft 6.30 ft E1-N1 3/4 in 180-BR 0.2353 in 2 KeyID:1109508029 Page:7 of 11 Kidd,-Fire Systems Consolidated Report View #: 1 - Isometric View-Node NIL1-NI 5 -1/2in VOA E V4' 70 lb Cylinder,5 KeyID:1109508029 Page:8 of 11 Kidde Fire Systems Consolidated Report View : 2 - Isometric View-Pipe Lengths EI-NI 6.33 ft in VOA E W 70 lb Cylinder S r KeyID:1109508029 Page:9 of 11 1 i eKidde Fire Systems Consolidated Report View #: 3 - Isometric View-Pipe Diameters El-NI 3/4 in In VOA. E 70 lb Cylinder KeyID:1109508029 Page:10 of 11 Kidde Fire Systems Consolidated Report View #: 4 - Isometric View-Pressures 151 psi 70 l<E Cvylinde KeyID:1109508029 Page:11 of 11 AEGIS TM 2.0 Kidde Conventional Fire Alarm-Suppression Control Unit Fire Systems Effective: January 2017 K-84-200 FEATURES • Suppression Focused Control Unit • Built-in Class-A and Class-B Circuitry • Triple R Redundancy Provides Maximum Protection • Listed for use with Kidde,Fenwal and Chemetron agent Against Inadvertent Release release devices including Control Heads and Initiators • Agency Approvals • Sophisticated Programmable NACs • FM Approved to ANSI 864, 9th edition and NFPA 72 • Independently Programmable Agent Releasing Circuits (2002) • Compact Cabinet Design Supports Large Number of • UL Listed to ANSI 864, 9th edition Input and Output Circuits • California State Fire Marshal • 3 Detection Circuits • City of New York Fire Department • 2 Supervisory Circuits • Listed for a Wide Range of Suppression Systems: • Option to Use SUP 1 as 4th Detection Circuit • Kidde ECS HFC-227ea and FK-5-1-12 • 1 Manual Release Circuit • Kidde ADS HFC-227ea and FK-5-1-12 • 1 Abort Input Circuit(with 6 Abort Modes) • Kidde HP CO2 • 3 Notification Appliance Circuits • Kidde IG Argonite&Nitrogen • 2 Release Circuits • Kidde FE-13 • 3 Programmable and 1 Trouble Form-C Relays • Fenwal Spheres • 1 Auxiliary Power Output, 1 Amp • Fenwal BDCs • 5.4 Amp Power Supply Unit • Kidde INDTM Dry Chemical& WHDRT"'Wet Chemical • 1201240 V,50160 Hz AC Input Systems • Easy-to-Use User Interface and Display • Sprinkler Supervisory Service • Flexible Configuration Options • Deluge, Pre-Action,Foam,Foam-Water Systems • Password Protected • Combination Clean Agent plus Pre-Action System • Digital Release Countdown • Option with Door Mounted Abort and Manual Release • Battery Voltage and Charging Current Display Switches Available • Charging Capacity of 68 AH • Extensive Diagnostics • Backwards Compatible DESCRIPTION The Kidde AEGISTM 2.0 is a Conventional Single Hazard Agent Releasing Unit which provides configuration flexibility in a compact footprint to protect life and assets in commercial, high-tech and industrial applications. The AEGIS 2.0 control unit has a NEMA1 enclosure and an option for door mounted Manual Release and Abort switches to avoid the additional expense of wall mounting these items. The AEGIS 2.0 is well equipped to handle all special hazard extinguishing systems due to the high degree of programming flexibility provided and the following full complement of input and output circuits: • Three(3) Class A or Class B Detection Circuits • Two(2) Class A or Class B Supervisory Circuits • Option to Use SUP 1 as Fourth Detection Circuit • One(1) Class A or Class B Manual Release Circuit • One(1) Class A or Class B Abort Input Circuit AEGIS 2. • Three(3)Class A or Class B Notification Appliance Circuits ' • Two(2) Class B Agent Release Circuits • Three(3)Programmable and 1 Trouble Form-C Relays DETECTION CIRCUITS MANUAL RELEASE AND ABORT CIRCUITS The Detection Circuits support Conventional 700 Series, Both the Manual Release and Abort Circuits accept CPD-705x Ionization Smoke, PSD-715x Photoelectric Normally Open contact closure type devices. Activation Smoke and THD-705x Heat Detectors as well as of the Agent Release Circuits can either be Normally Open contact closure type devices. Two circuits instantaneous or delayed up to 30 seconds (maximum) are dedicated to the main suppression function and can upon receipt of Manual Release input. Agent release can be programmed to activate the release circuits by either be temporarily delayed by activating the Abort Circuit. single-shot or cross-zone input. The user configuration The Abort input can be programmed for 6 modes of allows automatic release via detection to be delayed from operation. These include the UL 10-second mode, the 0 to 60 seconds in 10-second intervals and also allows a full-delay mode, the IRI mode, two NYC modes, or the choice of which of the two Agent Release Circuits to abort can be disabled.Aborts can also be programmed to activate. be applicable for either one (ARC 1) or both Agent The third Detection Circuit is programmable for either Release Circuits thereby allowing use with Deluge/Pre- Waterflow or as an independent Detection circuit. When Action systems. programmed for Waterflow, Notification Appliance NOTIFICATION APPLIANCE CIRCUITS (NAC) Circuits can be programmed as Non-Silenceable as The three Notification Appliance Circuits are rated 1.5 required by certain jurisdictions. Additionally, the Amps each and accept polarized 24 VDC Notification Supervisory 1 circuit can be configured to be the fourth Appliances. Each circuit is driven independently and is detection circuit. user configurable for First Alarm, Pre-Release, and SUPERVISORY CIRCUITS Releasing as well as for 60 BPM, 120 BPM, Temporal, or The Supervisory Circuits accept Normally Open contact Continuous pattern. closure type devices such as pressure switches on the The control unit supports appliances that provide the agent cylinders or on the water or air pipe network. The option to use silenceable horns and non-silenceable system configuration enables the supervisory input to be strobes on the same NAC. Multiple NAC circuits a participant in the suppression function. For example, (connected to audible devices only)programmed with the low air supervisory can be included with detection for same master code pattern are synchronized, regardless release of pre-action systems as required by certain of any differing starting times that preceded their jurisdictions. concurrent operation. The NACs configuration includes a user-selectable intelligent synchronization feature which allows a silenceable horn to be shut off while the strobe continues to flash in synchronized fashion. SUPERVISORY 1/ MANUAL WATERFLOW/ SUPERVISORY DETECTOR ABORT RELEASE DETECTOR DETECTOR 1 ,_� RS432 TB7 TB6 ; O -5 -4 TB3 TB2 TROUBLE ®TB6 \ _ TB1 ® � DETECTOR RELAY 3 ®TB9 RELAY ', ® T810 stow o�.'cm Q°1ERB12A8E o I%Kidde ors Fire Systems RELAYI � ®TB11 �+ ,n, ' ou 0_u 0— B S S o..«,t o., a o..s , BATT OUT ® T612 p..,., o, Te, o.�,n�, o,Tn 0— 0 0— 0111T11 o.— o—,n, 0— ocnwnmm, "=:' I— AC SUPPLY SELECT SWITCH(S6) c m TB19 ® NAC 1 ACIN IL IW11 2O TB14 TB15 TB16 TB17 TB16 ® [ NAC2 z-+- RELEASE 1 RELEASE 2 AUX NAC 3 ARC 1 ARC 2 24 VDC Figure 1. Printed Circuit Board (PCB) -2 - BUILT-IN CLASS A AND B CIRCUITRY POWER-LIMITED CIRCUITRY For the input and NAC circuits, the choice of Class A or All circuits are inherently power-limited. ARCs can be Class B supervision is made at site on the board itself by configured for power-limited or non-power-limited selecting the terminals used for wiring. Neither operation. One in-line releasing device is required for conversion boards nor additional hardware nor jumper each solenoid on a power limited ARC. In-line releasing selection is required for this purpose. devices are not included with the panel; the appropriate AGENT RELEASING CIRCUITS (ARC) number of in-line releasing devices should be ordered using part number 06-220023-001. The two circuits can be programmed for activation by different inputs, with independent time delays and abort ROBUST POWER SUPPLY UNIT(PSU) modes to fire combinations of two of the following The AEGIS 2.0 features a universal 120/240 V, 50/60 Hz releasing devices: AC Power Supply Unit with a robust 5.4 Amps of 24 VDC • 1 or 2 Kidde Continuous and Momentary Solenoid power. Input voltage selection is via a slider switch with Control Heads no jumper cutting required. The on-board battery charger is able to charge 24 VDC (2 x 12) batteries of capacity up • 1 Kidde Actuator or Fenwal Initiator to 68 AH thereby allowing from 24 hours of supervision • 1 Factory Mutual Group A, B, D, E, F, G, I, J, or K plus 5 minutes of alarm to 90 hours of supervision plus 10 Solenoid minutes of alarm required by some jurisdictions. In other words, operating in tandem, the two circuits can AUXILIARY POWER SUPPLY release: Up to 1 Amp of auxiliary power at 24 VDC is available to • 1 or 2 Control Heads on ARC 1 and 1 or 2 Control power external 4-wire devices such as Flame Detectors, Heads on ARC 2 AlarmLine modules, Duct Detectors, etc. The auxiliary • 1 or 2 Control Heads on ARC 1 and 1 Actuator/ power output is resettable. Initiator on ARC 2 or vice-versa ELEGANT USER INTERFACE • 1 or 2 Control Heads on ARC 1 and 1 FM Sprinkler Solenoid on ARC 2 or vice-versa The user interface consists of an array of LED Indicators, • 1 Actuator/Initiator on ARC 1 and 1 Actuator/Initiator Control Switches, a Digital Display, and Buzzer. Over and on ARC 2 above the System, Power Supply status, Input circuit Fire • 1 FM Solenoid on ARC 1 and 1 FM Solenoid on and Trouble and Output circuit Trouble LEDs, the AEGIS ARC 2 2.0 annunciates its suppression state-of-alarm via three This configurability is useful for those jurisdictions where additional Pre-Release, Releasing and Post Release the gaseous suppression agent is required to be LEDs. Four switches are provided, one each for supplemented with a pre-action system. Acknowledge, Signal Silence, System Reset and Output Disable. The 3-digit display provides a countdown of TRIPLE-R PROTECTION FOR ARCS impending agent release. On command from the user P 9 9 The two ARCs feature a triple failure redundancy interface switches, it also indicates the battery open safeguard system to protect them from inadvertent circuit voltage and charging current. activation by the main microprocessor. The Triple-R SIMPLE SITE-SPECIFIC CONFIGURATION system requires that in order to activate an ARC, the main microprocessor issues two release commands of Setting the site-specific configuration is easily done using � opposing polarity via separate channels and that these the digital display and user interface buttons. To prevent commands be combined with a third signal from the panel unauthorized use, the configuration menu is protected by watchdog timer to confirm the microprocessor operation. auser-changeable password. Factory technical support The Tri le-R system ensures that electrical transients or can provide assistance with lost or forgotten passwords. P Y disturbances such as power surges that could interfere Apart from the input voltage selection performed on both with the operation of the main microprocessor will not the PSU and main board via a slider switch, no other on- inadvertently activate the connected suppression system. board settings or jumper cuttings g are required. The result is a more robust and reliable suppression- EXTENSIVE DIAGNOSTICS focused panel. Also initiated via the digital display and user interface PROGRAMMABLE RELAYS switches, the troubleshooting function displays diagnostic Of the 4 relays, three are user-programmable for a variety codes that assist in determining causes of trouble. A of alarm related conditions and the fourth is a dedicated complete list of diagnostic codes and their meaning ships trouble relay. All relay contacts are rated 3.0 Amps at 30 factory installed on the inside of the enclosure door for VDC/120 VAC (resistive). easy reference. - 3 - BACKWARDS COMPATIBILITY TECHNICAL SPECIFICATIONS (cont'd) The AEGIS 2.0 is backwards compatible and listed for One (1)Abort Circuit use with a full range of conventional detectors and alarm -Compatible with normally open contact-closure type devices as well as suppression accessories from Kidde, devices Fenwal and Chemetron. Going forward, this will allow - Configurable as Class A/Style D or Class B/Style B legacy panels to be replaced with relative ease. - Supervised for ground faults and open circuits EASY TO INSTALL CABINET - Six (6)Abort Modes available The cabinet design allows for easy installation by fitting - Power-limited between the studs of a standard 16 inch studded wall. It Two(2) Supervisory Circuits is large enough to house two 12 VDC, 12 AH Batteries -Compatible with normally open contact-closure type and provides up to 2 inches (51 mm) of wiring and finger devices space between the circuit board and the cabinet wall. -Configurable as Class A/Style D or Class B/Style B An optional door design features a Manual Release and -Option to use SUP 1 as 4th detection circuit Abort switch for applications with space constraints. Both -Supervised for ground faults and open circuits switches incorporate guards that prevent their - Power-limited inadvertent activation. Three (3) Notification Appliance Circuits (NACs) TECHNICAL SPECIFICATIONS -Compatible with polarized 24 VDC Audio-Visual • Hazards Protected devices - Rated at 1.5 Amps each - One - Up to 35 synchronized appliances • Power Supply - Configurable as Class A/Style Z or Class B/Style Y - 120/240 V, 50/60 Hz(90 to 264 Vrms,47 to 63 Hz) - Supervised for ground faults, shorts, and open AC Main Input circuits - 5.4 Amps at 27 VDC Output - Power-limited - Battery capacity up to 68 AH @ 24 VDC - Common NAC/ARC output disconnect switch -Auxiliary power output rated at 1 Amp at 18.8-27.6 Two(2)Agent Release Circuits VDC (resettable) - Each compatible with 1 or 2 control heads, or 1 • Three (3) or Four(4) Detection Circuits actuator/initiator, or 1 FM sprinkler solenoid -Compatible with 700 Series, CPD-705x, PSD-715x, - Circuits electrically capable of simultaneously and THD-705x detectors as well as Normally Open releasing any combination of two of the above contact closure type devices. Refer to documents devices K-70-100 and F-70-63 for details on compatibility - Factory configured as Class B/Style Y and the maximum number of devices supported. - Supervised for ground faults and open circuits -Configurable as Class A/Style D or Class B/Style B - Default setting: Power-Limited. Each solenoid on a -Supervised for ground faults and open circuits power-limited ARC requires the use of an in-line - Power limited releasing device, P/N 06-220023-001 (order - DET 1 and DET 2 used for suppression separately, not included with panel). - DET3/WF configurable for detection or waterflow - Common NAC/ARC output disconnect switch -Option to use SUP 1 circuit as DET 4 circuit Four(4) Relays • One (1) Manual Release Circuit - 3 independently programmable, normally de- -Compatible with normally open contact-closure type energized Form-C Relays devices - 1 dedicated normally energized Form-C Trouble -Configurable as Class A/Style D or Class B/Style B Relay - Supervised for ground faults and open circuits - Relay contacts rated 3 Amps at 30 VDC/120 VAC - Power limited (resistive) -4 - TECHNICAL SPECIFICATIONS (cont'd) ORDERING INFORMATION • Enclosure - NEMA 1 rated 18 gauge sheet steel with door Description Part Number - Red color - Suitable for wall and surface mounting Kidde AEGIS 2.0 Control Unit 84-732001-901 - Optional Trim Ring Kidde AEGIS 2.0 Control Unit with 84-732001-902 -Optional door with Manual Release and Abort Switches switches -Optional Dead Front Plate In-Line Releasing Device 06-220023-001 - Dimensions: - with Standard Door.' Dead Front Plate 06-220175-001 14-1/4 in. W x 5 in. D x 19 in. H EOL Resistors(10 pk) 06-220184-001 (362 mm x 127 mm x 483 mm) - with Switch Door: Trim Ring 76-600000-007 14-1/4 in. W x 6 in. D x 19 in. H Large Capacity Battery Enclosure 76-100010-001 (362 mm x 152 mm x 483 mm) • Environmental Criteria Installation/Configuration Kit 06-220148-902 - Indoor/Dry use only Replacement Hardware Installation Kit 06-220149-001 - Operating temperature range: 32°F to 120°F (0°C to 49°C) Replacement Enclosure Assembly 06-220172-902 - Humidity: 93 ±2% RH at 90 ± YF (32 ±2°C) Replacement Enclosure Assembly 06-220174-902 • Packaging/Shipping (with Switches) - Enclosure, PCB, and PSU packaged in individual Replacement Door Switches Kit 06-220176-001 cartons. Field assembly is required. -Accessories shipped include mounting hardware, Replacement PCB Assembly 06-220150-901 battery leads, IOM manual on CD-ROM, operating Replacement Power Supply 06-118394-002 instruction sheet, and EOL resistor kit. - Order in-line releasing device (required for power- Replacement Bezel Assembly 06-220151-001 limited ARCs)and batteries separately. Spare Key 06-118013-001 Spare Keylock with Keys 06-129924-001 ABORTMANUAL RELEASE AEGIS 2.0 - 5 - U - Sealed Lead-Acid Batteries .---------.� .-- AGM & GEL zz �I II �hlu��9"pia a • 3 .r m Sealed Lead- Acid Batteries 6 L Let UPG Power • Features & Benefits Our Universal line of AGM and GEL batteries are defined as Non Hazardous&Non-Spillable by DOT (Department of Transportation), IATA (International Airline Transport Association),and ICAO (International Civil Aviation Organization). Outstanding performance,withstanding high current Battery Terminal output and deep cycling. Excellent resistance to vibration,shock,chemicals "`B"'�n r Y and heat. �® —Negative Electrode Lower self-discharge. Exceptional leak resistance even in an upside-down AGM Separator position. I� Reliable power for critical applications. 1. DOT 60 classified for easy transportation. ,I UL recognized. Positive Electrode ABS Case AGM & GEL Battery_Design ____________________________ ---------------------------------------------------- AGM & GEL batteries are lead-acid and of the same battery chemistry (lead dioxide,sponge-lead and sulfuric acid electrolyte) but the electrolyte is stabilized differently. ! > Or .�.. r a The electrolyte is suspended in fiberglass mat The electrolyte is suspended in silica-based separators which act as absorbent sponges. gel as a thick pasty material. U P G Sealed Lead- Acid Batteries www.upgi.com Sealed Lead--Acid/AGM . -- - - - - -- ------- -- --- ---- ----- -- --- -.. NOm Capacity Length Dimensions Hel ht Weight Case Skid Width UPG No. Model No. Terminal Volt 20 hr.rate in. Min in. MM in, g „tm I be.+r•5% Qty Qty - --- ------ ------------------- - ------ ......- -.----•---------- ---------. ------------------ - ----------- 40559 UB445 F2. 4.. ___..4.50 __„ 1.86 ___47 ....2.06 52" 3.82 97_..__ 1.10._ 20.,__ 1920.__ D5798 UB490 F2- 4 00 4.02 1. 9101,74 43.9`I 99 1.16 5 S00 40561 - - UB610 F1 6 - 1 1-0-.06 2.01-- 51 1.65 42 2.20 56 0.53 20 2240 D5731 UBb13 -F1- - _- -6. - - 3,82, 97_--0.96 24_ _2.22- 56 6-- -_. 60 37t6 _-- D569S UB3.2-6 _ F1 15 3 _. .20 2.57, 65 1.19 33 4.00 102 .._ 1.10.. 30 1920. 4068E UB632L -_ _. F I b. 3,20 5.26._ 140 1.33 .. 32_. 2.37 58_:_ 1,40_.._: 20 __ 960... -D5732-------------UB634----------- -------Fi---------6--- --3.40----- 5.25 133 1.32 33 2.57 65 i-10 20 -1700 D5733 UB645. F i;:. 6.. 4.50 2.76 ,- 74 -LAS --47- 4.t 7 1 . 183...._ 20._.. 1766 . 4056S 09645WL WL. _ 6. 4,S0 2,75.. 69 1.96 47 3.94 100._ 2.02 .. 10 1200_ D5697-------------U9650S_Lantern-----'-- -S2 -6--------500--- 2.63 --67---Z63-- 67----4,50----114----202 20 1 D5897 UB6Si6F l -antern - F l 6 5.00- 63 2. __- _67 2.63 67 4.00 102- --2.02 - 20 1000 E6114 --- UB676 F1.:. 6 7.00.__. _. 5.94 - 150 -04 _34 3.94 100- .41 IU_.-- 1000_____.- D5735 U9685 FI 6 11 8.50 .__ 3.82 97 2.19 56 4.60. 117 ,...3.10 10 . . 800 D57361b5778 -__066_L20-----------------F11 2------6---- _ --12,00--------594----III___184_ __49_ __3,$2--__97_ -4 __-- 10______b50.___ 40575- UB6_130TOY Fi 6- 13.00 - 4.25 108 2.82----72 5.44 138- 5.04. �0------50-------- DW37 _ U86120TOY pp P2' 6 _ 12.00 4.25 1108 2.18 71 5.47 139 4A 9 16 50 45966 ___ UB--GC2� a#f-Cori -Case) L5- 6 -- 20QQ0------ 02 -260 T12---- ff-- S.6Y-- 245 62.30- _- (--------15a - D511 ---- --US12008 (Grp 27 -- --WL--------12- -08b----- I3�-- 6----038 3 228 61---0.25 - 20- -- TWO- ---- D2790 USI226-T.. _ _ _ ST_. 12. _"......2,00 5,91 I50 Ojii 20 ISO 89 1.54 .,. 20 1200. .. D5739 UB 1212 F 1 12 2.26 7.00 178 1.38 35_ 2.50 63 2.20 20 1400. N/A US 1223A PC. 12 2.310 7.17 182 033._...24- 2.40 61 1 A6 10 50..0 ...........:. D5700 UB1229T- - F1- - 12 2.90 -- --------78----2°19 56 4.00_.__102 2.12- �� 960 D5740 -- US1234--- - F#-'- --12 -'3.40---- 5.25 133 2.43 67 144_ 61- 320'-- t4---- $00---- _L5574tl05777-----08t250.................... --- FI_(F2 ____12- ____-5.00___-____3.54---90-_-_2-.76_---70_ _4.2t_____107----3.09____--10850_____--_ 44800 U81270_ -- -__ F 1--- [2_ 7,00 _-_5 94 151 .2,5� b5_ 3 94-- 100 4 50 8 360 40760 US 1272 _ F 1 . 12, 7.20 5.94 151 . .2.56 65 3.94 100 ...4 90 8 504 ->_D5743fA_5779 __-118120-_-- -- FI.1F2 L2_ -0QO 594----1-51---256----b5_ 394_-- 100----- _---_ -8--------_-$44-------- __40749/40748 US1290/USIMF2_-- _ _FI_-- 12_ ---9.00__ --___5.94_--1512.56 _65_ _3.94-----100----5.10------ 8-------504_------- DS719 UB#2161M F2 12' 10.66 5.94 ISI 256 65 4.51 117 7.28 $ ..... 504 DS744_t05775U912120_-- FI_/F2 - 12______1.200_------5.94 --15f 3.8859__ _400__---102_---8.38 - -- 4____---336--_-- ---- 4065$-------------US12f50___ Tab_4vl'h91b----12-_______1500__----_594_:__i_5( 3,$9----99---395-----100-_ 940------`1-------2`±4----_-- 40672 __. VB.121.50.._ F2 12. 15.00 5.94....._I S 1. ..3,.89 94 3.95 100. _9.60._ 4 244..._. D5745140s;4.8 UB1180 T4/F2 - 12 18.00 713- 181 3-01 - 76_ _6.57_. 167: 11.90 - 4 - 240 40696 U9-1_2116 T4_ 12. 22.66 7.13-„ I 9 I 3.01 76 6.57 167 f 3.01 2 240 05747 UB12260., T3_ 1.2. 2&W ...._ 6.50.__ 165 686 174 434 125 18.08 2 168 4059.6 UB 122260T T3 12 26.00 6.50 165 4.94 125 6.86 174 21.00 2 150 D5722 UB 12350 Group U I j L f 12 35.00 7.68 195 $.16 131 7.13 181 23.15 1 128 45916 US 2350(Group U 1) 12_ 12 35.0(1 7.68 195 5.16 131 6.14 1$6 23.15 1 128 45977 US 12500 L2 12 50 00 7.72 196 6.50 165 7.17 182 3 L97 1 100 45825 US 12550 Group 22NF) Z I 12 55 00 0.02 229 5.43 138 9.13 232 38.58 1 84 40740 US 12550 +OIL LE� Z 1. 12 55.00 0.01 229 SA3 138 9.11 232 38.58 1 84 45980 UB 12550 Group 22N 14__ ___-1.2_ 55.00 1.02___229 _SA3____1.38_ 9.27___ 110___38.58 ( 84 45821 US127.50_Group24-----ZI 12------ 75.00--------614-- 260---6.61 168_ _----- 232 50.71 - 1 60------ -- 45822- US127S0 Group24 _____14--------12-------75.00--------10.24---260___6.61----168---8.27___-210---50.71-- 1-- _ 66----- __ 45826 UB12900 Group27 . Z ... 12 90.00.... .. I2.05_ _306 6.61 168 9.13__. 232._56.80 1 S2 45823 ___ US 12900 Group 2 14__ _Q 90.06 _-__ 12.05___306 6._6_f 168- 8.27__ 2 f 0___56.80 ( 52 45978 US 121000 Group 2 1 Z I:. 12 100 00 12 05 _ 306 6.61 138 9.13 232 .._58 90 1 52 D5751 US 121100lGroup_IOHI� Group 30 FL I__ 12 116.66 12 91 328 6.77 172 4.20 __ 236 67.24 1 47 45981 UB12 E 100 Group 30ii I6 12 1 i 0 00 - 12 9I -328 6.77 172 8 58 218 67.24 - 1 47 . 45824 _- US 121 100 Q 12 110.00 - -_12 91 328 _6.77 172 9.11 236 67.24 1 47_ 40994 UB121350 16... 12 13S.00 1119,..-340 6.81 173- 1-1-.2-2-.. 285_ 8T08 1 40 . 45965_,_._,.._. UB-4DAGM. L4 12- 200.00 NIS527 ..8..1I i 206 1.65___ 245 __123.46...... 1_........ 24 45964 . _ US-SDAGM L4. 12 250.00 ._ _20.47_ 520 _W55 268 9.65- 169 160.94 _ I_ 18 venture Power Marine Absorbent Glass Mat AGM - ----------- ----------------------------------------------------- ----------------------------- Nom Capacity Length Dimensions Height Weight Case Ski UPG No. Model No. Terminal Volt 20 hr.rate in. -m in. ...------ ______.__. 40fi00_ SS Group 22NF) Marine Post 12 55 00 9.02 229 5,43 138 10.22 259 39.00 " 84 40601 UB I Group 24) Marine Post 12 75 00 10.14_..260 6.61 168 10.h6 258 54.50 1 66 40602 UB 12900 oup 27 Marine Post 12 90.00 12 05__.306 6.61 168 10.16 258 64. 1 52 40603 09111100t 30H)_ Marine Post 12 110.00 13.00 330 6.91 175 10.37 263... 5 1 46 Flame Retardant led Lead-Ac%d/Absorbent Glass t ______________________ Nom Capacity Dimensio Weight Case Skid Length Widt Height UPG No. Model No. Terminal Olt 20 hr.rate in. nim in. inm in. ,nm 1 be,+1-5% Qty Qty 45565 _._.. US1250FR._... F2 12 S 00 _ _____ ________________ _ __ F2- 3.54 90 6 70 4.2 4 _ 100 3 09 10 360 45566 UB.1270FR_ #2 7,00 5.94 .. I 256 64. 3,94.,.. 10 i_.-4,96....._' 8 '. 0 4SS67 __ .__UB121.20FR_ __ F2._ 12 ........ . . . . .5.94 ._. 51.. 3.,88 _ .98.._"4.00.- 102 . 8.3$ 4 _..336.. .....__ 45568 UB.12180FR T4 12 18., 7 181 3.01 .76. 6.57 167. 11.90., 4 480 . . 40995 US I2260FR T3.. 12 26.00 6.89 175 4.92_. .1125.... 18.08... 120.05 2 5, 0 a b i_3.1 _7,13_..18 i___ 23.,l 5___ 2 l 28___ D5881 US 12550FR Zl_ 12 5.5 9.0 229,.. 5..43 t_38 9._13._., 232.... 38.58., _ i 84.. . D5882 UB32750FR ZI _ 12 00 10.24 _ 6.61 168 9,13 232 _50,71 1 60 45983 UB.12750FR 14 12 75,00 10,24 26 6.61 E 68 8.31 211 ...50,71 1 60." D5883 UB_12900FR ------Zl-------- 9000- 12,05 306- - 168 9j3 232:u_59,52-------1--------52-------- D_5884__ UB121_LOOFR__ ZI____ ___2_-----I_i_0,00-_____12.91____328___6.7____ t72__ 9.29.___236____6.7_.24___-_-f______47........ Sealed Lead-Acid - ---------------------------- ------ -------------------------------- Nom Capacity Dimensions Weight Case Skid Volt Length Width Height +i-Sl Qty Qty UPG No. Model N Terminal 20 hr.rate in. mm n, n,tn in, n l - -- - --_- --- ------- 40703 UB (Golf_Cart)Gel L5_ 6. 1.8000 . 1026.._ 260 . 7.12 180 96.7 245 63.2 1 20.._. D5870 U EL L.1 _12 32.00 7.69 ".. 195 5.19 132 7.00 178 _23.10 D5871 B-22NF GEL- Z1_ 12 55.04 9.02 229. ,.5..38 137 9.13. ., 232 38.58 _.._ 84 D$872 UB-24 GEL _ Z.1. 12 75.00 10 2S"....,.._260 6,63 168 9.25_. 235. SO 10.__- 1 ... 60 D5873 UB-27 GEL Z I 12 90.00 12.05 306 6.61 168 9.13 232 59.52 1 D UB-30H GEL._ F_L2_ __.12. - 100.00._,"_ 12.91 328_..617 .._172 :9.29 236 67.24 I 52._,. 01 UB-4bGn L4_ 12 f8Q.06 2087----S30 8.11 206 9.6f 244 f3228 1 24- 40702 U8-8D GEL L4 T2 230.00 20.47 520 10.55 268 9.65 245 171.96 I 16 Performance�Characteristics .................................................................................. Discharge Current vs Time Curve 25C(77F) Cycle Life vs Depth of Discharge 100 20 810 Z 40 loox ............ 3M 6 X Temperature ....................................... 2D 077-F(25-0) , , \NS E 0 20D 40D w so 1000 12DO K N\ NNI, Cycle Numboer & N I\ N Open Circuit Voltage vs Residual Capacity 20 \\0 X \1 7.00 14.0 615 > > 6.60 ............................ 110 f. B.25 12.6 0 12.0 11.5 30 so 200 500 1 2 3 5 10 15 20 30 50 100 200 > 5.75 > A Discharge Current 6.25 ................................ ms L63 10.0 r 0 20 40 w so 100 0 Residual Capacity(%) Discharge Characteristics Shelf-Life& Storage Temperature 100. 000VISd. I om,�-of Qpsc�v> w 12-0 0.0 INN 11.0 S.S .. .......... .. ............... ......... 80 Clhninq Define ------- mo�w fut Doc 026C 0 Q.� 0,00 X ID 60-1 45 IC &0 4j0 ...11-1-1 1 30°C 2 40*C Do not 9. 0 Z 40 L__ Mt s1aM roams 11 1 i �h. 1 2 3 5 10 20 30 60 2 3 5 1 e 20 0 Discharge Time Hr 0 2 4 6 8 10 12 14 16 18 20 Standing Period(Months) Discharge Current vs Final Discharge Voltage Effect of Temperature on Capacity 120 Final Discharge ion ........... ................................... Discharge Current(A) Voltage(V/celf) 0.01C>C. 1.90 0.2>CA>,0.01C 1.75 ............. i. .............. 0.5>CA>-0.2C 1.70 20, 2.0>CA>-0.5C 1.60 CA>ZOC 1.30 -20 _io 0 10 20 30 4M 14 32 50 68 as 100 Amblunt Temperature ................................................ ----------------- ----------------- -------------------------- 0 For assistance,please contact a UPG sales professional at 866.892.1122 or by email U PG at sales@upgi.com. ST4Y POWERED' ----------------------------------------------------------------------------------------------------------- .................... Terminal Configurations F Series(Faston Tabs) PPZSeries(Plastic Connector) ns u in ' 44..0�m�m T ...... e L W • H T 1 73 , Fl 6S0 mm 4.75 mm 6.00 mm J.00 .00 mm 0.80 mm 0.26 In 0.19 in 0.24 in .20 in 0.03 in 22.5 mm� !�7 L F2 7.80 mm 6.35 mm 7.80 mm mm 0.80 mm 0.99in0.31 in 0.25 in0.31 in .24 in 0.03 ink---J �--� 14.5 mm 0.57 in Marine Combo Post Fla Terminal FLt 30.8 mm 25.0 mm 9 ( } 1.21 in7. Flag Terminal(FL2) 0,___� 0.31 nm I.jo281 in �0.00386i i ,M � !s ` 295 mm i its I.Ibin 0.06 nm 059 in ---� :�€ 0.311. iw 10.0mmr��-4-1 343 mm 0.39in 1nm H008 in ''-` 123 men I 0.481n 2.24 men OS9 In \ men 2.24 in � 10.04101n in ; + 10.47 10.0 men IISmm QO e7 In --,--� 46.5 men 54.9 men 1.83 In 216 in I Series(Internal Thread) Z Series(Z Post Tarminal) s Series M 0 H Sl 11 600mm 130 4.00mm 024 n 051 I Iai6040 150 3.00 men 15.0 men 015S4 05gin i 0.0p102p n I' 05 nm�O63 4. In 1„ 059 in e mi H h 9.00 mm 14 026inm 059M 0/6 nm ZI 17.0mm B.00mm 21.5_ 9pp 0.35 in 55 0.671n 0321n 0.051n 0351nm IB 037 LL nm 067m 0.06 in 19.0mm I4 6.00m 6.0mm 4.016 0, 0.75M 0.24 in In �b3 in 0. i - pp Iv 0.371,511 hen 0631n 0./6 hlm Ie 39 men,175in 000in 0.39 n 0.75 in 0.08 ti I9 9.SI men 19.0 men 4.00 men 0.7� 0.75 in �0.16 in L Series(L Type Terminal) T Series (Tab Terminal) i Trnei�� L I W H h I 175 mm 7.00 men I I7.0 7.00 men I850 men 1 e LI ILI`m 900n 10.69n �,038 in 0341n � s ryp. L � W i h 17.0 men 9 00 !17.0 men 9 00 men 650 men . Lx 0.69 m 035 069 n 035 m 026 n ;� 14.0 men 200 nm .49 6.00 m 6.00 mm OSS In 009 .049 024 0.24 in 255 men 7 00 220 men I OS men 850 men ! 120 mm 3.D0 mm I2 5 m 5.00 m SSOmm U 1.00 m 0.28 in 10.87 m 041 n 0.34 in T4 0.47 m :0.12 m :0.49 in 0.20 m 26S mm 8.00 men 245 mm 120 men 9.D0 mm L I.W in 0.32 in �0.97 in 0.47m 0-"n � � - 26.5mm 8S0 men 124.0mm 10.0mm i8.00 men L -I Ls 1.04 in 034 in 0.95 in 039 in 032 in Battery Care --------------------------------------------------------------------------------------------------------------- To properly charge your deep cycle AGM/GEL battery: ":Active users:Charge daily. Occasional users: Charge your battery before any outing,after active use or every 90 days if no use. Only use with a specified charger. Only use appropriate charger to charge AGM vs GEL batteries as charging rates differ. Never use an automotive or wet type charger on aAGM/GEL battery. Top charge your battery frequently and/or leave on a charger/maintainer. Battery- Storacie------------------------ - - ------------------------------------------- Batteries should always be stored fully charged in a cool and dry place to maintain maximum service life. Depending on storage temperature,batteries hold their charge for 3 to 9 months until recharge is necessary. Above 30"C (86fl,recharge at 9 months. Above 40"C(104,f),recharge at 3 months.Do not store above 409C (104T), If a battery is stored for 9 months or longer without being charged,its service life may be shortened. Never store batteries in a sealed environment or incorporate into a sealed structure/enclosure without adequate ventilation. Usage Precautions CO_____________________ ------- - - - ------------------------------------------------------------------------------------- SLA batteries if used under recommended conditions generate no sulfuric acid gasses. However,because they contain lead and sulfuric acid,which are both toxic,proper care and handling is important in order to avoid accidental fires,damage to property, bodily injuries or even death. *Improper charging and poor maintenance may cause battery to *Use of SLA batteries in the upside down position is not recommended. emit hydrogen gas. Therefore,do not use battery near a spark, fuse,flame and/or equipment that emits sparks. *Do not use organic solvent,cleaning agents,paintJthinner,petroleum products to *Never mix the SLA batteries together with other types of batteries, clean battery surface.These products can lead to battery container/cover cracking. such as dry cells and nickel-cadmium batteries. *Keep the battery terminals from contact with wire,metal cabinets,metal *SLA batteries may not be compatible with certain equipment. Any uncertainty tools,such as screw drivers,spanners,torque wrenches unless they are about the specifications of the battery should be brought to our attention. properly insulated. Do not wear any watches,personal jewelry, hair pins or any other metallic objects when servicing the batteries. *Observe circuit polarities. Do not make or break live circuits. *Short circuiting the terminals of the battery can cause burns,injuries,damage to the storage battery,or trigger explosions. oAs appropriate,use an insulating blanket to cover exposed portions of the battery system when performing extended maintenance that could result in personal or oDo not direct solder to terminal. This may lead to electrolyte leakage. equipment contact with the energized conductors. Primarx_Power_Ap.plications__ - Standby Power Applications --------_------ ------- - --- ------ - -- Consumer Electronics Motorcycles Access Control Devices Electric Vehicles Photography Automotive& Cable Electronics Engine Starters Powersports Emergency Lighting Golf Cart PortableTools Security Hunting Solar Telecommunications Equipment Lawn&Garden Toys& Hobbies >'UPS Systems Marine Trucking Medical Mobility Other Portable Equipment Medical Equipment Specialized Applications If your needs are specialized,we are able to custom manufacture batteries and chargers to meet your particular specifications. Tell us what you need and let us handle the rest Envi ronmenta I Ca re Improper disposal of batteries can lead to contamination of soil and ground water. At UPG,we work with authorized recyclers to pick up your"spent"/used batteries and we ensure that these batteries are properly disposed of by EPA licensed smelters. Adventure Power°Chargers & Maintainers recommendsAdventure Powerfor charging and maintaining sealed lead-acid batteries in boats,motorcycles,ATVs, snowmobiles and other vehicles. Adventure Power Charger& Maintainers conveniently andsafely maintainbattery • without having to disconnect from ..••4a UPG No. Description Charges and/or Maintains `T 84036 12V IA Charger&Maintainer.. 12 V 2.9 Ah - 12V 7.2 Ah Batteries 84037 12V 2A Charger&Maintainer 12 V 8 Ah - 12V 12 Ah Batteries j 84038_ 12V 4A Charger&Maintainer 12V 12 Ah Batteries and_Up_ Adventure Power is a registered trademark of UPG. __._.___________-._________--_--_.._._..--.._-..__...__._-----.-_-_--__ - P 469.892.1122 UPG488 S. Royal Lane T 866.892.1122 Coppell,Texas 75019 F 469.892.1123 sales@upgi.com l - MAINTENANCE SWITCH Effective May 2010 >PART#GEM MAINT Specify 3 POLE OR 4 POLE MAINTENANCE SWITCH Optional Surface Mount Back Box PART#GEM 2GRB page 1 of 2 This MAINTENANCE panel is a key switch, which disconnects actuation circuits in the system to prevent accidental discharge during maintenance operations. MAINTENANCE SWITCH Two "LEDS" indicate "SYSTEM ARMED" SYSTEM SYSTEM ARMED INACTIVE and "SYSTEM INACTIVE". When the key is inserted and turned towards "SYSTEM Your ', INACTIVE", the red LED illuminates and He e tea. the green LED indicating "SYSTEM ARMED" turns off. The key can only be removed in the "SYSTEM ARMED" ' position. � This panel is also available with the key INSTALLATION removable in both the "ARMED" and the "INACTIVE" positions. The 2-Gang plate mounts to GEMCOM's Part# GEM 2GRB Surface Back Box and The information is silk-screened on a operates on 24VDC. This plate can also be two-gang stainless steel plate. flush mounted with a two-gang plaster FIGURE 1 2 GANG PLATE ring on a deep 4" square 1900 box. Refer FRONTVIEW to Figures 1 & 2 for dimensions. 1.375 - 1.8125 - - 1.375 .625 FIGURE 2 2 GANG PLATE TOP VIEW - 4.5625 - - - ---- 1.1563 2.25 ------- 1.1563 4.5 3.25 SWITCH CONTACTS / / / / / . z . 2 AND LED CLEARANCE DIMENSIONS .625 � .375 Fes- 4.5625 8828 S. Archer Ave. • Willow Springs, IL 60480 • office 708.839.6840 • fax 708.839.0324 • toll-free 888.4.GEMCOM • www.gemcom.com • Custom Graphic& Directory Annunciators • Custom Fire Alarm &Suppression Devices • • Custom Switches • Custom Signage • Safety Products • ri p > � GEMCOM MAINTENANCE SWITCH Effective May 2010 PART#GEM MAINT Specify 3 POLE OR 4 POLE Optional Surface Mount Back Box PART#GEM 2GRB page 2 of 2 Switch rated at 10A 250VAC, 15A 125-250VAC, the DC rating is 15A up to 30VDC. LEDS rated at 10mA each for a total current draw of 20mA. Mounting screws supplied: (4) 6-32 x 1/2"and (4) 6-32 x 1" 3-POLE WIRING DIAGRAM ARMED BLACK ' • NC -24 VDC G, + r * NC N + 0 0 C lu • C cc cc RED R + U • NO U • NO + 24 VDC . N INACTIVE 4-POLE WIRING DIAGRAM ARMED BLACK + • NC • NC • NC -24 VDc G r N + U • C U • C U • C RED �R� + � ONO � ONO � ONO � + 24 VDC INACTIVE This literature is provided for informational purposes only.Gemcom,INC. assumes no responsibility for the product's suitability for a particular application. The product must be properly applied to work correctly.If you need more information on this product,or if you have a particular problem or question, contact GEMCOM,INC.,WILLOW SPRINGS,IL 60480. Telephone:(708)839-6840 8828 S. Archer Ave. • Willow Springs, IL 60480 • office 708.839.6840 • fax 708.839.0324 • toll-free 888.4.GEMCOM • www.gemcom.com • Custom Graphic& Directory Annunciators • Custom Fire Alarm &Suppression Devices • • Custom Switches • Custom Signage • Safety Products • Two- and Four-Wire Kidde Conventional Smoke Detectors Fire Systems ESL/Interlogix 700 Series Products Effective: December 2017 K-70-140 STANDARD FEATURES • Two-Wire and Four-Wire Conventional • Field-replaceable optical chamber Photoelectric Smoke and Heat Detectors • Extensive two-wire compatibility listings • Advanced alarm verification feature reduces • Remote LED indicator available for 721 U, 721 UT chance of nuisance alarms and 741 UT detectors • Automatic drift compensation • Compatible with most Kidde, Fenwal and • Head and terminal base design(base sold Chemetron Conventional Control Panels separately) (See compatibility chart in Datasheet No. K-70-100) • Low-profile design blends into the ceiling • FM Approved • Self-diagnostic capability continually monitors . UL Listed operation • CSFM Approved • Meets NFPA 72 sensitivity test requirements DESCRIPTION The ESL/Interlogix 700 Series conventional photoelectric smoke detector is an interchangeable head and base detector with a light-scattering optical sensor that provides outstanding stability and excellent response to a wide range of fires. A pulsed infrared LED light source and a high-speed photodiode sensing element are housed in an omnidirectional sensing chamber protected by an insect screen. For easy cleaning, the detector features a field- replaceable optical chamber(P/N 211-10PKG). The Model 721 UT photoelectric detector includes an integral fixed temperature and rate-of-rise heat detector. A remote LED indicator is available for Models 721 U, 721 UT, and 741 UT detectors. This functionality requires the Model 702U base and the 706U1B Remote LED indicator. The ESL/Interlogix 700 Series smoke detectors are conventional self-diagnostic detectors specifically ENGINEERING SPECIFICATIONS designed for the demands of commercial and industrial The ESL/Interlogix 700 Series photoelectric smoke detec- environments. If the detector drifts out of its UL Listed sen- for is a low-profile, self-diagnostic, two-wire detector that sitivity range or fails internal diagnostics, the alarm LED monitors its own sensitivity and operational status. The flashes once a second to indicate a trouble condition. This detector meets NFPA 72 field sensitivity testing require- meets NFPA 72 field sensitivity testing requirements with- ments without the need for external meters. Built-in drift out the need for external meters. compensation automatically adjusts the sensitivity if the Additional diagnostic information is activated by applying a detector gets dirty. The ESL/Interlogix 700 Series photo- magnet near the detector's integral reed switch. This initi- electric detector features an alarm verification feature to ates a self-diagnostic routine and provides visual indica- further reduce the chance of a nuisance alarm. Normal tion of sensitivity level, or if service is required. The sensing occurs every 9 seconds. This rate doubles when a magnet test causes the LED to blink. The number of blink signal exceeding the alarm threshold value is sensed. Two counts corresponds to a smoke detector sensitivity range. additional successive signals above the threshold level ini- tiate an alarm. The optical sensing chamber is field And, if they become dirty over time, ESL/Interlogix 700 replaceable, allowing quick and easy cleaning and mainte- Series detectors automatically adjust the alarm threshold nance. through built-in drift compensation. If the detector needs to be cleaned, the patented field replaceable optical chamber makes cleaning quick and easy. TECHNICAL SPECIFICATIONS Electrical Physical Voltage 8.5-33VDC, non polarity sensitive Color White head and base Maximum ripple(peak 10%(vp-p) Detector head peak) dimensions to 4 in. D x 1.75 in. H(10cm x 4.44cm) Typical standy current 70NA 701 U,702U: 6 in. D x 0.06 in. H (24V) Base dimensions (15.24 cm x 1.3 cm) Typical alarm current up to 60 mA max, Total height, (24V) if not limited by control panel (head and base) 1.98 in.(5 cm)H Photoelectric 2 85%,+0.37,-0.75% Regulations Sensitivity Operating Listing UL 268, FM, CSFM temperature 32°F to 100°F(0°C to 38°C) ORDERING INFORMATION Operating 0 to 95%Non-condensing 711U Smoke detector head only, photoelectric, two-wire RFI immunity 20 V/m min;0-1000 MHz 721 U Smoke detector head only, photoelectric, Remote LED 5 mA min,8.5 mA max two-wire,output for remote LED output current 721 UT Smoke detector head only, photoelectric, Flashes approximately every 9 two-wire w/integral heat detector,output for LED indicator seconds for Normal State,flashes remote LED once every second for Trouble State, turns on steady for Alarm 741 UT Smoke detector head only, photoelectric, four-wire,w/integral heat detector, alarm Drift compensation T ft, max relay(N.O.)output and output for remote adjustment LED Environmental 701 U Smoke detector base,3 terminals,6 in.dia. Heat Sensor Ratings Fixed 135°F/Rate of rise 15°F/min, > 702U Smoke detector base,6 terminals,6 in.dia. (721 UT, 741 UT) 105°F(8.3°C/min., >40.6°C) (required for use with the 706U1 B Remote LED) Maximum 300 ft/min wind velocity 204-12/24VG End-of-Line, power supervision relay for Field wiring size 12-18 AWG four-wire applications 211-10PKG Replacement optical chamber for smoke compatibility identifier two S10A(711 U, 721 U, 721 UT) detectors, set of 10 co Note: Refer to Kidde Fire Systems Datasheet Number 06-117883-001 Test magnet K-70-100 for smoke detector compatibility. SM200-12PKG Canned smoke for functional testing of smoke detectors Note: ESL/Interlogix 700 Series smoke detectors and 706U1 B Remote LED indicator for 721 U, 721 UT accessories are manufactured by ESL/Interlogix and 741 UT(Requires use of 702U base) and re-sold by Kidde Fire Systems using original ESL/Interlogix part numbers.. All trademarks are the properties of their respective owners. This literature is provided for informational purposes only. KIDDE-FENWAL, INC.believes this data to be accurate,but it is published and presented without any guarantee or warranty whatsoever.KIDDE-FENWAL,INC.assumes no responsibility for the product's suitability for a particular application.The product must be properly applied to work correctly. If you need more information on this product,or if you have a particular problem or question,contact KIDDE-FENWAL, INC. ' Kidde Kidde Fire Systems 400 Main Street @2017 Ashland,MA 01721 USA Fire Systems 40 Rev AE ©2017 Kidde-Fenwal,Inc. Ph:508.881.2000 www.kiddefiresystems.com GES3 / GEC3 Colored Lens Series Selectable Candela Signals 24 VDC Colored Lens Strobe and Horn/Strobe 24 units per carton,28 pounds per carton Applications The Commander3 Series Colored Lens Signals are wall mount,low profile strobes or horn/strobes that offer dependable audible and visual alarms for warning and emergency notification. Applications include emergency communication,severe weather,emergency response and many more. The GE3 Colored Lens Series are 24VDC units available in lens colors of amber,blue, m,« green and red. The Series offers tamperproof field selectable candela options of 15, 30,60,75,and 110 candela. The GEC3 horn/strobe offers a continuous or synchable temporal 3 in 2400Hz,mechanical and chime as well as a whoop tone.All tones are easy for the professional to change in the field by the use of switches. The Commander3 Colored Lens Series is shipped with a standard 4"mounting plate which incorporates the popular Super-Slide'feature that allows the installer to easily test for supervision. The product also features a locking mechanism that secures the signal to the bracket without showing any screws. The GE3 Colored Lens Series also features the patented Checkmate'instant voltage verification feature which allows the installer to check the voltage drop draw and match it against the blueprint. The Commander3 Colored Lens Series are ANSI/UL1638,ANSI/UL464,CAN/ULC 5525 and/or CAN/ULC 5526 listed.The Series is also compliant with the rated candela per the polar dispersion requirements of ANSI/UL 1971. Therefore,the ANSI/UL 1971 polar plot is equal to the candela listed on the product,no derating was required. Product Listings The GE3 Colored Lens Series is warranted for three years from date of purchase. SIGNALEN6 Standard Features C UL us kk Nominal voltage 24 VDCSTED t Field selectable candela options of 15,30,60,75,and 110 �— Unit Dimensions:5"(12.7 cm)high x 4.5"(11.43 cm)wide x 2.5"(6.35 cm)deep ANSI/UL 464 and ANSI/UL 1638 Listed Lens colors available:amber,blue,green and red CAN/ULC S525 and/or CAN/ULC S526 Listed Super-Slide'°Bracket-Ease of Supervision Testing CSFM:7135-0569:135(Horn/Strobes) Checkmate'-Instant Voltage Verification 7135-0569:136(Strobes) Prewire entire system,install mounting bracket,then install signals Input terminals accept 12 to 18 AWG Patents Switch selection for high or low dBA Switch for 2400 Hz,mechanical,chime and whoop tones 7,375,617 May 20,2008 Switch for continuous or temporal 3(not available on whoop tone) Synchronize strobe and/or horn with Gentex AVSM Control Module Product Compliance Silence audible while visual appliance will remain flashing NFPA 72 Tamperproof re-entrant grill IBC/IFC/IRC Surface mount with the GSB(Centex Surface Mount Box) Quality Management System is certified to: Faceplate available in red or off-white ISO 9001:2008 Wall mount Note:ANSI/UL 1971 is not applicable to emergency communications devices,but readings were obtained using the measurement procedure specified under ANSI/UL 1971. Assembled GENTEX in the USA CORPORATIONMember GES3 Colored Lens Strobe,Selectable Candela Low Profile .......... Model Part Number Lens Color Voltage(VDC) Candela GESA24PWR 904-1335-002 Amber 24 15,30,60,75,110 ........... ..... _.........._ ......... .......... ..... GESA24PWW 904-1336-002 Amber 24 15,30,60,75,110 ..... GESB24PWR 904-1337-002 "s Blue 24 15,30,60,75,110 ...... .......... -�GESB24PW W 904-1338-002 Blue 24 15,30,60,75,110 ......... __... GESG24PWR 904-1339-002 Green 24 15,30,60,75,110 _. .. ....... ...... ............ .... .... GESG24PW W 904-1340-002 Green 24 15,30,60,75,110 GESR24PWR 904-1341-002 Red 24 15,30,60,75,110 GESR24PWW 904-1342-002 Red 24 15,30,60,75,110 GEC3 Colored Lens Horn/Strobe,Selectable Candela Low Profile Reverberant Anechoic Room Model Part Number Lens Color Voltage(VDQ Candela dBA at 1Oft. dBA at IOft. GECA24PWR 904-1327-002 Amber 24 15,30,60,75,110 62-82dBA 100dBA GECA24PWW 904-1328-002 Amber 24 15,30,60,75,110 62-82 dBA 100 dBA _ _.__.... .._....._......... GECB24PWR 904-1329-002 Blue 24 15,30,60,75,110 62-82 dBA 100 dBA �►-�GECB24PWW 904-1330-002 Blue 24 15,30,60,75,110 62-82 dBA 100 dBA ....... ........ _ ......... GECG24PWR 904-1331-002 Green 24 15,30,60,75,110 62-82 dBA 10OdBA GECG24PWW 904-1332-002 Green 24 15,30,60,75,110 62-82 dBA 100 dBA GECR24PWR 904-1333-002 Red 24 15,30,60,75,110 62-82 dBA 100 dBA GECR24PW W 904 1334-002 Red 24 15,30,60,75,110 62 82 dBA 100 dBA R=Red Faceplate,W=White Faceplate All units are available in plain(no lettering. Plain units are not returnable Lens Colors:A=Amber R=Red B=Blue G=Green ALERTand AGENTbezels available for order GE3 Colored Lens Series Strobe Current Ratings Amber Lens Blue/Green/Red Lens Current Ratings Current Ratings Candela 15 cd 30 cd 60 cd 75 cd 110 cd 15 cd 30 cd 60 cd 75 cd 110 cd UL Max 47 mA 64 mA 113 mA 145 mA 178 mA 105 mA 130mA 203mA 243mA 310mA GE3 Colored Lens Series Horn Decibel(dBA)and Current Ratings(mA) Horn Decibel Horn Current Levels(dBA) Ratings(mA) UL MAX Minimum Minimum Regulated SPL at 1Oft. SPL at 10ft. 24 VDC per per Operating ANSI/1.11-464 ANSI/1.11-464 Current Horn Mode (HIGH) (LOW) (HIGH) Temp 3240OHz 78dBA 71 dBA. 28mA ........ _ ......... Temp 3 Mechanical 76dBA 70 dBA* 25 mA Temp 3 Chime 70 dBA* 66 dBA* 15 mA ........ ........I. _- .......... ................. Continuous 240OHz 81 dBA 74dBA* 28 mA Continuous Mechanical 80dBA 72dBA* 25mA Continuous Chime 70 dBA* 66 dBA* 1S mA Whoop 82dBA 69dBA* 56mA *Operating the horn in this mode at this voltage will result in not meeting the minimum ANSI/UL 464 reverberant sound level required for public mode fire protection service. These settings are acceptable only for private mode fire alarm { use. Use the high dBA setting for public mode application(not applicable when using the chime tone. The chime tone is always private mode). it GEC3/GES3-Colored Lens Series ® 12.7 cm 00 0 11 4 cm 6.35 cm� .._.......... _............._ ____ _.__. ____. __....... ._............... ..._. __..__. .. ........ _................. ....._....... ..._.............. ......... ....._.._ Gentex Super-Slide® Mounting Bracket UL Listed Allows the installer to prewire the system,test for system Control Signal Signal supervision,remove the signal head until occupancy,switch out Panel S, S, S- H+ H- S. S+ S- H+ ri- Gentex signals without changing mounting brackets and has Supervised 0 e B 0 Signal Circuit locking edge connector for snap-in-place installation. \ + END OF LINE RESISTOR Gentex Checkmate' Instant Voltage Verification It is often necessary to confirm the voltage drop along a line of devices.The access holes are provided in the back of the terminal block to allow the voltage to be measured directly without p®� ® 0 removing the device.Typically this would be done at the end of the line to confirm design criteria.Most measurements will be taken / ,n 0 using the S+and S-locations although access is provided to other 1���// locations.Notice:Care should be taken to notshort the test probes. M o Notes E s+ s+ Operating temperature:32°to 1207(0°to 49°C) S_ The GES3/GEC3 Colored Lens Series is not listed for outdoor use => H+ For nominal and peak current across ANSI/UL regulated voltage s FI- range for filtered DC power and unfiltered(FWR[Full Wave � O �] Rectified])power,see installation manual iu The sound output for the temporal 3 tone is rated lower since the time the horn is off is averaged into the sound output rating. While the horn is producing a tone in the temporal 3 mode,its sound pressure is the same as the continuous mode. ® • PtN®Y��� 0 This appliance is not recommended for use on coded or pulsing signaling circuits ............ GES3 / GEC3 Colored Lens Series Selectable Candela Signals Architect & Engineering Specifications The audible and/or visible signal shall be Gentex GES3,GEC3 Colored Lens Series or approved equal and shall be listed by Underwriters Laboratories(ANSI/UL)per ANSI/UL 1638 and/or ANSI/UL464 and CAN/ULC S526 and/or CAN/ULCS52S and shall have compliance with the polar dispersion requirements of ANSI/UL 1971.The notification appliance(GEC3 Colored Lens Series)shall produce a peak sound output of 100 dBA or greater as measured in an anechoic chamber and shall also have the capability to silence the audible signal while leaving the visible signal energized with the use of a single pair of power wires. Additionally,the user shall be able to select either continuous or temporal tone output with the temporal signal having the ability to be synchronized. The unit shall be capable of being installed so that any unauthorized attempt to change the candela setting will result in a trouble signal at the fire alarm control panel. The audible/visible and visible signaling appliance shall also maintain a minimum flash rate of 1 Hz or up to 2 Hz regardless of power input voltage. The appliance shall have an operating current of 47 mA or less at 24 VDC for the 15 Cd strobe circuit with an amber lens. The appliance shall be polarized to allow for electrical supervision of the system wiring. The unit shall be provided with a mounting bracket with terminals with barriers for input/output wiring and be able to mount to a single gang or double gang box or double workbox without the use of an adapter plate. The GE3 Colored Lens Series shall be mounted on the wall. The unit shall have an input voltage range of 16-33 volts with either direct current of full wave rectified power for 24 volt models. The appliance shall be capable of testing supervision without disconnecting wires,verify voltage at the unit without removing unit and be capable of mounting to a surface back box. GENT EX Fire Protection Products Group 10985 Chicago Drive Zeeland,MI 49464 551-0045-04 important Notice:These materials have been prepared by Gentex Corporation("Gentex")for informational purposes only,are necessarily summary,and are notpurported to serve aslegaladvice and should not be used as such.Gentex makesno representations and warranties,express or implied,that these materials are complete and accurate,up-to-date,or in compliance with all relevant local,stateand federal laws,regulations and rules.The materials do notaddressall legal considerations as there is inevitable uncertainty regarding interpretation oflaws,regulationsand rules and the application of such laws,regulations and rulesto particular fact patterns.Each person's activities can differently affect the obligations that exist underapplicable laws,regulations orrules. Therefore,these materials should beused onlyfor informational purposes and should notbeused asa substitute for seeking professional legal a&ice.Gentex will notbe responsible for any action orfailureto act in reliance uponthe information contained in this material.Gentex Corporation reservesthe rightto make changes to the product data sheet at their discretion. I I I I II I I I I I I Kidde ECS 500 psi Kidde with FK-5-1-12 Fire Protection Fluid � Fire Systems Agent Data Sheet Effective: January 2018 K-45-0500 FEATURES • People Safe at Concentration Levels Required to Electrically Non-Conductive Extinguish Fire Space Saving; Quantity of Agent Needed to Extin- • Zero Ozone Depletion Potential guish Fires Typically Required Minimal Cylinders, • Atmospheric Lifetime of Five Days thus Minimal Space Required • Colorless,with Low Odor and No Particulate or Oily UL Listed, ULC Listed,and FM Approved for use with Residue Allowing for Minimal Business Disruption FK-5-1-12 Systems After a Discharge EXTINGUISHING AGENT Although FK-5-1-12 fluid has negligible toxicity in concentra- FK-5-1-12 is a fluorinated ketone(Dodecafluoro-2-methylpen- tions needed to suppress most fires,certain safety consider- tan-3-one)compound of carbon,fluorine and oxygen ations must be observed when applying and handling the (CF3CF2C(0)CF(CF3)2). It is colorless,electrically non-conduc- agent. For example, FK-5-1-12 fluid is a liquid at room tempera- tive and has a low odor. It suppresses fire primarily by physical ture and has been superpressurized with dry nitrogen. Upon mechanisms due to its relatively high heat capacity with minimal release to atmospheric pressure(e.g.,from nozzles)the liquid effect on the available oxygen.This allows people to see and flash evaporates at a low temperature.Thus, nozzles must be breathe, permitting them to leave the fire area safely. located to avoid direct impingement on personnel. FK-5-1-12 fluid is acceptable for use in occupied spaces when used in accordance with the United States Environmental Pro- DECOMPOSITION tection Agency(EPA)Significant New Alternatives Policy When FK-5-1-12 fluid is exposed to high temperatures, (SNAP)program rules. such as what may be expected in a flame front, hazard- Although FK-5-1-12 fluid is considered non-toxic to humans in ous products of thermal decomposition (halogen acids) concentrations necessary to extinguish most fires, certain are produced. If the FK-5-1-12 fluid is discharged in 10 safety considerations should be observed when applying and seconds or less, flames will be extinguished rapidly and handling the agent.The discharge of FK-5-1-12 fluid may cre- the amount of by-products produced will be minimal. ate a hazard to people from the decomposition products which result when the agent is exposed to fire or other hot surfaces. CLEANLINESS Exposure to the agent is generally of less concern than is expo- sure to the decomposition products. Unnecessary exposure to FK-5-1-12 fluid is clean and leaves no residue, thereby the agent or the decomposition products should be avoided. eliminating costly after-fire clean-up and keeping expen- sive downtime to a minimum. Most materials such as TOXICITY steel, stainless steel, aluminum, brass and other metals Unnecessary exposure to clean agents is to be avoided in as well as plastics, rubber and electronic components are accordance with the requirements of NFPA-2001.As such, unaffected by exposure to FK-5-1-12 fluid. upon operation of a system pre-discharge alarm,all personnel should immediately exit the protected space. In no case shall APPROVALS personnel remain in a room in which there is a fire. In the very FK-5-1-12 fluid complies with the NFPA Standard 2001,Stan- unlikely instance where a clean agent system should discharge dard for Clean Agent Fire Extinguishing Systems, EPA SNAP unexpectedly into an occupied room,all personnel should pro- Program, (Significant New Alternate Policy), Underwriters Lab- ceed in a calm and orderly manner to an exit and leave the oratories, Inc. (UL) FM Approvals(FM). room. FK-5-1-12 fluid has been evaluated for cardiac sensitization in USE accordance with test protocols approved by the United States Kidde Fire Systems ECS 500 psi Fire Suppression Systems Environmental Protection Agency(U.S. EPA).The EPAs SNAP designed for use with FK-5-1-12 Fire Protection Fluid are Program classifies FK-5-1-12 fluid as acceptable for use as a designed to extinguish fires in specific hazards or equipment total flooding agent in occupied spaces with specific limitations. located where an electrically non-conductive agent is required, Refer to the SNAP program rules or NFPA 2001 for more infor- where agent cleanup creates a problem,where extinguishing mation.FK-5-1-12 fluid has been judged acceptable by the U.S. capability with low weight is a factor and where the hazard is EPA for use in occupied spaces when used in accordance with normally occupied by personnel. FK-5-1-12 fluid is an accept- the guidance of NFPA 2001. In accordance with NFPA 2001, able alternative to Halon and is approved by the EPA and NFPA FK-5-1-12 fluid designed for use with agent vapor concentra- for use in fire suppression systems. tions up to ten volume percent in air are permitted.See NFPA 2001, Sect. 1-6,Safety. 1 Table 1: FK-5-1-12 Fluid Physical Properties Fuel Design Concentration,%v/v Chemical Formula CF3CF2C(0)CF(CF3)2 1-Butane 6.37 Molecular Weight 316.04 1-Propanol 7.02 Freezing Point -162.4-F (-108°C) 2,2,4-trimethylpentane 6.11 Boiling Point at 1 Atm. 120.6-F(49.2°C) 2-butoxyethanol 6.76 Critical Temperature 335.E-F(168.7-C) Acetone 5.85 Critical Density 39.91 Ib./ft.3(639.1 kg/m3) Acetonitrile 5.85 Critical Pressure 270.44 PSIA(1865 kPa) Commercial Heptane 5.85 Critical Volume 0.0251 ft.3/lbm(494.5 cc/mole) Commercial Hexanes 5.85 Ozone Depletion Potential 0 Cyclohexane 5.85 Global Warming Potential 1 Cyclopentanone 5.98 Denatured Alcohol 6.89 (92.2%EtOH,4.6% IPA, and 3.1%McOH) Table 2: FK-5-1-12 Fluid Toxicity Properties Diesel Fuel 5.85 FK-5-1-12 Fluid Toxicity Properties Diethl Ether 6.37 NOAEL 10.0% Ethanol 7.15 (No Observable Adverse Effect Level) Ethyl Acetate 6.11 LOAEL 10.0%> (Lowest Observable Adverse Effect Level) Gasoline-87 oct.unleaded 5.85 Hexene 5.98 Isooctane 6.11 Isopropanol Alcohol 6.37 Methane 7.28 Methanol 8.45 Methyl Ethyl Ketone 5.85 Methyl Isobutyl Ketone 5.85 Methyl Tert Butyl Ether 5.95 n-Heptane 5.85 n-Pentane 6.11 Octane 5.85 Propane 7.54 Pyrrolidine 6.11 Technical Heptane 5.85 Tetrahydrofuran 6.50 EXPORT INFORMATION(USA) Toluene 5.85 Jurisdiction:EAR Transformer Oil 5.85 Classification:EAR99 This document contains technical data subject to the EAR. All trademarks are the property of their respective owners. This literature is provided for informational purposes only.KIDDE-FENWAL,INC.believes this data to be accurate,but it is published and presented without any guarantee or warranty whatsoever.KIDDE-FENWAL,INC.assumes no responsibility for the product's suitability for a particular application.The fire suppression system design, installation,maintenance,service and troubleshooting must be performed by trained,authorized Kidde Fire Systems distributors for the product to work correctly. If you need more information on this product,or if you have a particular problem or question,contact: KIDDE-FENWAL,INC.,Ashland,MA 01721 USA,Telephone:(508)881-2000. Kidde 2 Kidde Fire Systems 400 Main Street Ashland,MA 01721 Fire S stems K-45-0500 Rev AA Ph:508.881.2000 Y ©2018 Kidde-Fenwal,Inc. Fax:508.881.8920 www.kiddefi resystems.com Kidde ECS 500 psi with FK-5-1-12 Fire Protection Fluid Kidde Fire Systems Cylinder and Valve Assemblies, 10 lb. to 70 lb. Capacity, Effective: January 2018 Vertical Mount Only Data Sheet K-45-0501 Rev AA FEATURES • UL Listed, ULC Listed,and FM Approved for use with Kidde ECS 500 psi Systems. P/N: 45-5500XO-001 ORDER INFORMATION Dimensions Part Number Cylinder CYLINDER VALVE Size A B C SAFETY CAP 45-550010-001 10 Ib. 7.07 in. 13.34 in. 17.38 in. 45-550020-001 20 Ib. 7.07 in. 21.01 in. 25.06 in. 45-550040-001 40 lb. 9 in. 22.80 in. 28.85 in. 45-550070-001 70 Ib. 9 in. 34.87 in. 38.75 in. MATERIALS SIPHON TUBE Valve Body: Brass C Cylinder: Steel, Painted Red 4 CYLINDER B A Notes: 1. The safety cap must be installed on the valve outlet at all times,except when the cylinders are connected to the sys- tem piping,or being filled.The safety cap must not be removed from its chain. 2. See K-45-0513 for additional information. 3. Cylinders are vertical mount only. EXPORT INFORMATION(USA) Jurisdiction:EAR Classification:EAR99 This document contains technical data subject to the EAR. All trademarks are the property of their respective owners. This literature is provided for informational purposes only.KIDDE-FENWAL,INC. ©2018 Kidde-Fenwal,Inc. believes this data to be accurate,but it is published and presented without any guarantee or warranty whatsoever.KIDDE-FENWAL,INC.assumes no responsibility for the product's suitability for a particular application.The fire suppression system Kidde Fire Systems design,installation,maintenance,service and troubleshooting must be performed by 400 Main Street trained,authorized Kidde Fire Systems distributors for the product to work correctly.If Ashland,MA 01721 you need more information on this product,or if you have a particular problem or Ph:508.881.2000 question,contact KIDDE-FENWAL,INC.,Ashland,MA 01721 USA. Fax:508.881.8920 Telephone:(508)881-2000. www.kiddefiresystems.com Component Description Or Kidde Fire Systems Effective: January 2018 Cylinder Mounting Straps Data Sheet K-85-0502 Rev AA FEATURES • UL Listed, ULC Listed,and FM Approved for use with systems listed in the Table, "COMPATIBILITY,"on page 2. Steel straps and brackets are used to mount the cylinders in a vertical position. Cylinder straps (P/N WK-283945-000, WK-283934-000, 06-235317-001, WK-281866-000, WK-294651-000, 06-236125-001 and 30710193)are available for all size cylinders. E A I U F(hole size) i 4 C 91 ® D Part Number Cylinder Cylinder O.D. Dimension A Dimension B Dimension C Dimension D Dimension E Dimension F Size WK-283945-000 10 lb., 7.07 in. 6.48 in. 9.62 in. 8.62 in. 1 in. 2.78 in. 0.437 in. 20 lb. (180 mm) (165 mm) (224 mm) (219 mm) (25 mm) (71 mm) (11 mm) WK-283934-000 40 lb., 9 in. 8.16 in. 11.69 in. 10.69 in. 1 in. 3.50 in. 0.437 in. 70 lb. (229 rn (207 mm) (297 mm) (272 mm) (25 mm) (89 mm) (11 mm) 06-235317-001 125 lb., 12.75 in. 12.93 in. 16.18 in. 14.56 in. 1.75 in. 5.59 in. 0.625 in. 200 Ib. (324 mm) (329 mm) (411 mm) (370 mm) (44 mm) (142 mm) (16 mm) WK-281866-000 350 Ib. 16 in. 15.50 in. 19.50 in. 17.88 in. 1.75 in. 6.06 in. 0.625 in. (406 mm) (394 mm) (495 mm) (454 mm) (44 mm) (154 mm) (16 mm) WK-294651-000 600 b. 22 in. 21.56 in. 25.75 in. 24.12 in. 1.75 in. 10.25 in. 0.625 in. (559 mm) (548 mm) (654 mm) (613 mm) (44 mm) (260 mm) (16 mm) 06-236125-001 900 Ib. 24 in. 23.75 in. 27.75 in. 26 in. 1.75 in. 12.13 in. 0.625 in. (610 mm) (603 mm) (705 mm) (660 mm) (44 mm) (308 mm) (16 mm) 30710193 1100 Ib 30 in 30-1/8 in(765 34-1/4 in(870 32-1/4 in(819 1-1/2 in(38 15 in 7/16 in(11 (762 mm) mm) mm) mm) mm) (381 mm) mm) 1 Component Description Or Kidde Fire Systems Adapters Data Sheet Effective: January 2018 Valve Outlet Ada p K-45-0518 Rev AA FEATURES • UL Listed, ULC Listed,and FM Approved for use with the systems listed in the Table, "COMPATIBILITY,"on page 2 P/N: WK-2839OX-000 B t (VALVE OUTLET CONNECTION) I I O D C A (SYSTEM PIPE CONNECTION) Note: For direct connection of cylinder valve to distribution piping. Part Number Size A B C D WK-283904-000 1-1/2 in. 1-1/2 in. (38 mm) 1-7/8 in. 2-11/16 in. 2-1/2 in. (38 mm) 11-1/2 NPT 12 UNJ (68 mm) (64 mm)Hex WK-238905-000 2 in. 2 in.(51 mm) 2-1/2 in. (64 mm) 3-1/8 in. 3 in. (51 mm) 11-1/2 NPT 12 UNJ (79 mm) (76 mm)Hex MATERIALS • Brass 1 COMPATIBILITY Series DIOM P/N Kidde ECS 500 psi with FK-5-1-12 Agent 06-237585-001 Kidde ECS with 3MT1 NovecTM 1230 Fire Protection Fluid 06-236553-001 Kidde ADS with 3MTm NoveCTM 1230 Fire Protection Fluid 06-237256-001 Kidde Marine with 3MTm NoveCTM 1230 Fire Protection Fluid 06-236559-001 Kidde ADS Marine with 3MTm NoveCTM 1230 Fire Protection Fluid 06-237257-001 Kidde ECS with HFC-227ea Agent 06-236115-001 Kidde Modular ECS with HFC-227ea Agent 06-236116-001 Kidde ECS Marine with HFC-227ea Agent 06-236225-001 Kidde ADS Marine with HFC-227ea Agent 06-236595-001 Kidde ADS with HFC-227ea Agent 06-236068-001 Kidde FE-13Tm Engineered Suppression System 06-236169-002 Kidde FE-13TM Modular Engineered Suppression System 06-236193-001 Kidde 3MT"NovecTM 1230(for UTC India Specifications) 06-237127-600 Kidde ECS with FM-20OTM (for UTC India Specifications) 06-237298-001 EXPORT INFORMATION(USA) Jurisdiction:EAR Classification:EAR99 This document contains technical data subject to the EAR. All trademarks are the property of their respective owners. This literature is provided for informational purposes only.KIDDE-FENWAL,INC.believes this data to be accurate,but it is published and presented without any guarantee or warranty whatsoever.KIDDE-FENWAL,INC.assumes no responsibility for the product's suitability for a particular application.The fire suppression system design, installation,maintenance,service and troubleshooting must be performed by trained,authorized Kidde Fire Systems distributors for the product to work correctly. If you need more information on this product,or if you have a particular problem or question,contact: KIDDE-FENWAL,INC.,Ashland,MA 01721 USA,Telephone:(508)881-2000. Kidde 2 Kidde Fire Systems 400 Main Street Ashland,MA 01721 Fire Systems K-45-0518 Rev AA Ph:508.881.2000 ©2018 Kidde-Fenwal,Inc. Fax:508.881.8920 www.kiddefi resystems.com Component Description Or Kidde Fire Systems Stackable Electric Control Head Kit with Control Head Monitor Effective: January 2018 and Lever Operated Control Head Data Sheet K-85-3002 Rev AB FEATURES • UL Listed,ULC Listed,and FM Approved for use with systems listed below in the Table,"COMPATIBILITY",on page 2. PIN: 85-486500-010 ORDER INFORMATION Part Number Description 85-486500-010 Kit, Includes: Electrical Control Head,24 VDC,Stackable, (Ex. Proof), P/N: 82-486500-010 Control Head Monitor,P/N 85-100000-100 (for more information,see data sheet K-85-3000) Lever Operated Control Head, P/N WK-870652-000 (for more information,see data sheet K-85-6005) 2.90" 1.25-18 UNEF-2A CONNECTION I I I I 1/2"-14 NPT CONDUIT CONNECTION ELECTRIC CONTROL HEAD,PART NO.486500-01 IS RATED FOR USE :::LL IN HAZARDOUS(CLASSIFIED) LOCATIONS CLASS 1,DIV.I, GROUPS C,D AND CLASS II,DIV.II, 5.28" GROUPS E,F,G BETWEEN -40F AND 140F.USE CONDUIT SEAL WITHIN 18 IN.(45Cm)OF THIS DEVICE. (3)18 AWG-LEADS 18"LONG SWIVEL NUT 1.25-18 UNEF-28 CONNECTION Note: This control head is polarized. Improper wiring will result in failure of this device to operate. Electric control head, P/N: 82-486500-010, is designed for installation directly on 487 Series Halon and AL other ECS agent valves only to a maximum size of 350 lbs.This control head must not be installed on any other type of halon or agent cylinder valve, nitrogen valve, carbon dioxide cylinder valve, FE-13 cylinder WARNING valve or Stop (Directional) valve. Installation of this control head to any other device (e.g., pressure oper- ated control head)will result in failure of device to operate. MATERIAL Body: Brass SPECIFICATIONS Voltage:24 VDC 1 Current: 0.2A Continuous Draw c,. O i i a Figure 1. Electric Control Head(Stackable Type)with Lever Operated Control Head and Control Head Monitor I COMPATIBILITY j Series DIOM P/N Supplement P/N Kidde ECS 500 psi with FK-5-1-12 Agent 06-237585-001 N/A I Kidde ECS with 3MTm NovecT'" 1230 Fire Protection Fluid' 06-236553-001 N/A Kidde ECS with HFC-227ea Agent` 06-236115-001 06-236115-003 Kidde Modular ECS with HFC-227ea Agent` 06-236116-001 06-236116-002 'For Cylinders up to 350 lbs. maximum Note: Agency listings also apply to the Fenwal Engineered Fire Suppression Systems,when the Control Head Monitor is used on these legacy product lines. EXPORT INFORMATION(USA) Jurisdiction:EAR Classification:EAR99 This document contains technical data subject to the EAR. All trademarks are the property of their respective owners. This literature is provided for informational purposes only.KIDDE-FENWAL,INC.believes this data to be accurate,but it is published and presented without any guarantee or warranty whatsoever.KIDDE-FENWAL,INC.assumes no responsibility for the product's suitability for a particular application.The fire suppression system design, installation,maintenance,service and troubleshooting must be performed by trained,authorized Kidde Fire Systems distributors for the product to work correctly. If you need more information on this product,or if you have a particular problem or question,contact: KIDDE-FENWAL,INC.,Ashland,MA 01721 USA,Telephone:(508)881-2000. Kidde2 Kidde Fire Systems K` 400 Main Street Fire Systems Ashland,MA 02721 K-85-3002 Rev AB Ph:508.881. 000 Fax:508.881.8920 ©2018 Kidde-Fenwal,Inc. www.kiddefiresystems.com In-Line Releasing Device • p ,A, Installation Instructions '`K'dd` Fen V V al Effective: November 2004 DESCRIPTION PROCEDURE The In-Line Releasing Device,P/N 06-220023-001,is used 1. The In-Line Releasing Device is polarity-sensitive and to make a single-or dual-solenoid releasing circuit power must be connected as shown in Figure 2 for a single- limited. See Figure 1. solenoid circuit or as shown in Figure No. 3 for a dual- solenoid circuit. 2. The red lead of the In-Line Releasing Device must be connected to the field wiring from Terminal 1 of the re- Figure 1. In-Line Releasing Device leasing circuit. The black lead must be connected to the control head or solenoid valve. SUPPLIED PARTS 3. Use wire nuts to connect the In-Line Releasing Device • In-Line Releasing Device, P!N 06-220023-001 to field wiring and leads from control heads and sole- noid valves. REQUIRED TOOLS • No.2 Flat-Head Screwdriver. • Small Flat-Head Screwdriver, Red Black Control Head for Agent Storage 1 _ Red Container or 2 In-Line Releasing Device Black Solenoid Valve for Sprinkler 3 System 4 Release-or Combo- Circuit Terminals - JUNCTION BOX (enlarged for clarity) Note: Junction box for In-Line Releasing Device must be close nippled to control head or enclosure for solenoid valve. Figure 2.Single-Control-Head or-Solenoid Releasing Circuit Release-Circuit Terminals FRed Black Control Head for Agent Storage 1 Red Container or 2 Releasing Device Black Solenoid Valve for Sprinkler 3 System 4 Red Black In-Line Releasing Devic Control Head for Agent Storage Red Container JUNCTION BOX or (enlarged for clarity) Black Solenoid Valve for Sprinkler System Note: Junction box for In-Line Releasing Device must be close nippled to control head or enclosure for solenoid valve. ___ Use separate junction boxes when control heads or solenoid valves are remote from each other. Figure 3. Dual-Control-Head or-Solenoid Releasing Circuit Kidde•Femval Is a registered trademark of Kidde•Fenwal,Inc. This literature is provided for informational purposes only.KIDDE•FENWAL,INC.assumes no responsibility for the product's suitability for a particular application.The product must be prop- erly applied to correctly. ' Kidde F e n wa II you need morere information on this product,or if you have a particular problem or question, contact KIDDE-FENWAL INC.,Ashland,MA 01721.Telephone:(508)881.2000 Kidde-Fenwal,Inc. 06.236541.001 Rev AA Q2004 Kidde-Fenwal Inc. Printed in USA 400 Main Street Ashland,MA 01721 U.S.A. www.kidde-fenwal.com Kidde ECS Nozzles Or Kidde . c 180 Degree Pendant Nozzle Data Sheet for use with �� Systems Kidde ECS-50OTM with FK-5-1-12 Agent and Effective: March 2018 Kidde ECSTM with 3MTm NovecTM 1230 Fire Protection Fluid K-45-2150 FEATURES • UL Listed,ULC Listed,and FM Approved for use with the FK-5-1-12 Nozzles can be mounted upright or systems listed in the Table , "COMPATIBILITY,"on page 2. pendent. PIN: 45-1946XX-XXX(Stainless Steel) PIN: 45-1947XX-XXX(Brass) A B ---: o Label (See Label Detail) Kidde DATE Fire Systems PART NUMBER LABEL DETAIL Note: A selection of orifices are available for each nozzle size and make. Consult the appropriate DIOM featured in the Table , "COMPATIBILITY,"on page 2 for details. Dimension Nozzle Size A B C 1/4 in. (6 mm) 1.91 in. (49 mm) 1.03 in. (26 mm) 0.88 in. (22 mm) 3/8 in.(10 mm) 2.03 in. (52 mm) 1 in. (25 mm) 1.19 in. (30 mm) 1/2 in. (13 mm) 2.25 in. (57 mm) 1.13 in. (29 mm) 1.38 in. (35 mm) 3/4 in. (19 mm) 2.69 in. (68 mm) 1.38 in. (35 mm) 1.63 in. (41 mm) 1 in.(25 mm) 2.88 in.(73 mm) 1.63 in. (41 mm) 1.94 in. (49 mm) 1-1/4 in.(32 mm) 3.29 in.(83 mm) 2 in. (51 mm) 2.38 in. (60 mm) 1-1/2 in.(38 mm) 3.63 in. (92 mm) 2.25 in.(57 mm) 2.69 in. (68 mm) 2 in. (51 mm) 4.50 in. (114 mm) 3 in.(76 mm) 3.50 in.(89 mm) Note: Nozzles are offered in either Stainless Steel or Brass. 1 Standard Pipe A53 CW and ERW "Ago" ✓/ t rt r .. 7,, k b Icy• IN, 3 al """'6" P 0 3 : tia nd Tube 3 --�• . ' liJ JMC.STEEL GROUP fr ' VC 046, <„e Standard Pipe A53 CW and ERW j Wheatland Tube is known as a leader in the standard pipe industry. We've been producing tube and pipe for more than 75 years and our reputation for quality and durability is unmatched. We're the only full-line producer of continuous welded and electric resistance weld 1/4"to 12" pipe, and we set the standards worldwide for hot dip galvanized products, We produce from 1/4" to 12" nominal sizes and stock 1/8" to 12" pipe sizes in a variety of ASTM standards so we can meet all of your requirements. • UL Listed; FM Approved : NSF61 • Suitable for Welding,Threading, Wheatland offers over 350 different combinations of Grooving and Bending finish, end treatments and lengths on our standard • Produced to ASTM A53A 53M, Federal pipe. We're strategically located and carry a large Specification WW-P404 and ASME B36.1 OM inventory so we can ship quickly to satisfy your delivery schedules. Hydrostatic Testing We're the only CW producer in the North America. Hydrostatic test pressures for plain-end pipe are indicated below. Standard Extra Strong Hot-Dipped Galvanized NPS Weight-PSI Weight-PSI 1/2 through 1 1500 1500 Our standard process is to galvanize to the ASTM A53 1-1/4-1-1/2 2000 2000 requirements. 2 through 3 2500 2500 3 1/2-4 2800 2800 Surface and End Finishes Tensile Requirements Surface Finishes: black, passivate, galvanized, uncoated, pickled and oiled, pickled, bare and Tensile Strength, min. 48,000 psi soluble oil. Yield Strength, min. 30,000 psi Elongation in 2" Refer to A 53 table x 4.1, latest End Finishes: plain ends, roll groove, cut groove, revisions-ASTM A53/A 53M threaded and coupled, and threads only(one or both ends). Bending Test- Less than NIPS 2" Choose From a Full Line of Standard Pipe Degree Diameter of Bend of Mandrel ASTM A53 is used for mechanical and low pressure Standard 90' 12 x outside pipe diameter applications and in ordinary uses in steam, water, gas Close Coiling 900 8 x outside pipe diameter and air lines. It can be formed and welded. Our products include: Flattening Test- NIPS 2 'h" and Greater A53 Continuous Welded Pipe As a test for quality of the weld, position the weld at • Type F Grade A 900 from the direction of force and flatten until the • Black, Passivate, Bare, Pickled and Oiled, OD is 3/4 of the original outside diameter. No cracks and Hot-dipped Galvanized shall occur along the inside or outside surface of the • Sizes: 1/2" -4" weld, • Standard and Extra Heavy • MIC Shield Coatings Compatible with CPVC Dimensions and Weight Chart - ASTM A 53 Type E STANDARD(SCHEDULE 40) BLACK PLAIN END Nominal Size O.D. Inches Nominal Wall Weight/Lb. Ft. 2" 2.375 .154 3.66 2-1/2" 2,875 .203 5.80 3" 3.500 .216 7.58 4" 4.500 .237 10.88 5" 5.563 .258 14.63 6" 6.625 .280 18.99 8" 8.625 .322 28.58 10" 10.750 .365 40.52 12" 12.750 .375 49.61 A53 Electric-Resistance Welded Tensile Requirements Type E, Grade B • Black and hot-dipped galvanized Tensile Strength, min. 60, 000 psi • Nominal Sizes: Schedule 40 2" - 12" Yield Strength, min. 35,000 psi • UL Listed; FM Approved • Suitable for welding, threading and grooving Bending Test(Cold) • Produced to ASTM A 53/53M, Federal Specification WW-P404 and ASME B36.1 OM. For NPS 2 and under Degree of Bend 900 Hydrostatic Testing and Diameter of Mandrel 12 x outside pipe diameter Nondestructive Electric Testing Flattening Test Hydrostatic inspection test pressures for plain-end pipe are listed in Table X 2.2 of the A53/A 53M As a test for ductility of the weld for pipe 2-1/2" NPS specification. Test pressures shall be maintained for a and larger, position the weld at 00 and alternately at minimum of five seconds. 900 to the direction of force and flatten until the OD is 2/3 of the original outside diameter. No cracks shall Nondestructive electric testing of the weld seam is occur along the inside or outside surface of the weld. required on each length of ERW pipe NPS 2 and larger. All of our facilities have quality systems in place. At a minimum, they're registered to ISO 9001:2008 Quality Management Systems. Dimensions and Weight Chart - ASTM A53 Type F BLACK PLAIN END Nominal OD Sch. 40 Sch. 80 Size Inches Wall Inches Weight Lb./Ft. Wall Inches Weight Lb./Ft. 1/2" 0.84 0.109 0.85 6.147 1.09 3/4" 1.05 0.113 1.13 0.154 1.48 11. 1.315 0.133 1.68 0.179 2.17 1-1/4' 1.66 0.14 2.27 0.191 3 1-1/2" 1.9 0.145 2.72 0.2 3.63 2" 2.375 0.154 3.66 0.218 5.03 2-1/2" 2.875 0.203 5.8 0.276 7.67 3" 3.5 0.216 7.58 0.3 10.26 !, 3-1/2" 4 0.226 9.12 0.318 12.52 4" 4.5 0.237 10.8 0.337 15 Standard Pipe Schedule 40 - ASTM A53 Grades A and B Outside Diameter Inside Diameter Wall Thickness Nominal Weight(Mass) per unit Length NPS DN Threads& Threads& Designator Designator Inches (inches) ( ) ( Plain End Plain End Couplings Couplings (Inches) (mm) Inches mm (Inches) (mm) (Ib/ft) (kg/m) s p g (lb/ft) (kg/m 1/8" 6 0.405 10.3 0.269 6.8 0.068 1.73 0.24 0.37 0.25 0.37 1/4' 8 0.540 13.7 0.364 9.2 0.088 2.24 0.43 0.63 0.43 0.63 3/8" 10 0.675 17.1 0.493 12.5 0.091 2.31 0.57 0.84 0.57 0.84 1/2' 15 0.840 21.3 0.622 15.8 0.109 2.77 0.85 1.27 0.86 1.27 3/4" 20 1.050 26.7 0.824 20.9 0.113 2.87 1.13 1.69 1.14 1.69 1' 25 1.315 33.4 1.049 26.6 0.133 3.38 1.68 2.50 1.69 2.50 1-1/4" 32 1.660 42.2 1.380 35.1 0.140 3.56 2.27 3.39 2.28 3.40 1-1/2" 40 1.900 48.3 1.610 40.9 0.145 3.68 2.72 4.05 2.74 4.04 2" 50 2.375 60.3 2.067 52.5 0.154 3.91 3.66 5.44 3.68 5.46 2-1/2' 65 2.875 73.0 2.469 62.7 0.203 5.16 5.80 8.63 5.85 8.67 3" 80 3.500 88.9 3.068 77.9 0.216 5.49 7.58 11.29 7.68 11.35 3-1/2' 90 4.000 101.6 3.548 90.1 0.226 5.74 9.12 13.57 9.27 13.71 4" 100 4.500 114.3 4.026 102.3 0.237 6.02 10.8 16.07 10.92 16.23 5" 125 5.563 141.3 5.047 158.2 0.258 6.55 14.63 21.77 14.90 22.07 6" 150 6.625 168.3 6.065 154.1 0.280 7.11 18.99 28.26 19.34 28.58 8" 200 8.625 219.1 7.981 202.7 0.322 8.18 28.58 42.55 29.35 43.73 10" 250 10.750 273.0 10.020 254.5 0.365 9.27 40.52 60.29 41.49 63.36 12' 300 12.750 1 323.8 12.000 304.8 1 0.375 1 9.52 49.61 1 73.78 1 51.28 1 76.21 Extra Heavy Pipe Schedule 80 - ASTM A53 Type A Outside Diameter Inside Diameter Wall Thickness Nominal Weight(Mass) per unit Length NPS DN Threads& Threads& Designator Designator Inches (mm) (Inches) (mm) (Inches) ( ) mm Plain End Plain End Couplings Couplings (lb/ft) (kg/m) (lb/ft) (kg/m 1/8" 6 0.405 10.3 0.215 5.5 0.095 2.41 0.31 0.47 0.32 0.46 1/4' 8 0.540 13.7 0.302 7.7 0.119 3.02 0.54 0.80 0.54 0.80 3/8" 10 0.675 17.1 0.423 10.7 0.126 3.20 0.74 1.10 0.74 1.10 1/2' 15 0.840 21.3 0.549 13.9 0.147 3.73 1.09 1.62 1.09 1.62 3/4" 20 1.050 26.7 0.742 18.8 0.154 3.91 1.48 2.20 1.48 2.21 1' 25 1,315 33.4 0.957 24.3 0.179 4.55 2.17 3.24 2.19 3.25 1-1/4" 32 1.660 42.2 1.278 32.5 0.191 4.85 3.00 4.47 3.03 4.49 1-1/2" 40 1.900 48.3 1.500 38.1 0.200 5.08 3.63 5.41 3.65 5.39 2" 50 2.375 60.3 1.939 49.3 0.218 5.54 5.03 7.48 5.08 7.55 2-1/2" 65 2.875 73.0 2.323 59.0 0.276 7.01 7.67 11.41 7.75 11.52 3" 80 3.500 88.9 2.900 73.7 0.300 7.62 10.26 15.27 10.35 15.39 3-1/2" 90 4.000 101.6 3.364 85.4 0.318 8.08 12.52 18.63 12.67 18.82 4" 100 4.500 114.3 3.826 97.2 0.337 8.56 15.00 22.32 15.20 22.60 Permissible Variations - ASTM A53 Grades A and B Pipe Permissible Variations for ASTM A53 Grades A and B Pipe O.D. Over Under NPS 1/8 to 1-1/2 1/64" 1/64" Outside Diameter DN 6 to 40 (0.4mm) (0.4mm) NPS 2 and up DN 50 and up 1% 1% Wall Thickness at Any Point -------- 12.50% Weight 10% 10% Mechanical Properties Grade A:Yield 30,000 (205 Mpa) psi minimum Tensile:48,000 psi (330 Mpa) minimum Grade B:Yield 35,000 (240 Mpa) psi minimum Tensile: 60,000 psi (415 Mpa) minimum oil i PICTORIAL TABLE OF CONTENT-S Forged Steel FORGED STEEL FITTINGS - CLASS 2000 THREADED db Fig. 2101 Fig. 2102 Fig. 2103 Fig. 2104 90°Elbow 45`Elbow Tee Cross Size Range :'/,'thru 4' Size Range:w thru 3' Size Range:'/<'thru 4' Size Range: '/,'thru 3' Page 91 Page 91 Page 92 Page 92 FORGED STEEL FITTINGS - CLASS 3000 THREADED jam Fig. 2111 Fig. 2112 Fig. 2114 Fig. 2115 Fig. 2113 90'Elbow 45'Elbow Tee Cross 90'Street Elbow Size Range:'/e"thru 4" Size Range:'/e'thru 4" Size Range:Ve"thru 4' Size Range:'/e'thru 4' Size Range: 1/8"thru 2' f Page 93 Page 93 Page 93 Page 94 Page 94 ,t tor Fig. 2116 Fig. 2117 Fig. 2119 Fig. 2118 Fig. 2120 Lateral Coupling Halt Coupling Reducing Coupling Pipe Cap Size Range '/z thru 2' Size Range:'/e'thru 4' Size Range:'/e thru 4 Size Range:'/,'x'/e'thru 4'x 11/2" Size Range:'/e'thru 4' Page 94 Page 95 Page 95 Page 96 Page 96 FORGED STEEL FITTINGS - CLASS 6000 THREADED i Fig. 2131 Fig. 2132 Fig.2134 Fig. 2135 Fig. 2133 90`Elbow 45`Elbow Tee Cross 90`Street Elbow Size Range:'/e"thru 4" Size Range:'/e'thru 4" Size Range:'/e thru 4° Size Range:'/s'thru 4' Size Range: Ve.thru 1'/2" Page 97 Page 97 Page 97 Page 98 Page 98 Fig. 2136 Fig. 2137 Fig. 2141 Fig. 2138 Fig. 2143 Lateral Coupling Half Coupling Reducing Coupling Pipe Cap Size Range:'/z'thru 1112" Size Range:'/e"thru 4" Size Range:'/e"thru 4" Size Range:'/4'x'/e'thru 4'x 2' Size Range:'/e'thru 4" Page 98 Page 99 Page 99 Page 100 Page 100 0-Ir ARM PF-11.13 ■ii PICTORIAL TABLE OF CONTENTSi �■ Forged Steel (Continued) FORGED STEEL FITTINGS FORGED STEEL FITTINGS CLASS 3000 SOCKET WELD CLASS 6000 SOCKET WELD AOL1W Fig. 2150 Fig. 2151 Fig. 2152 Fig. 2170 Fig.2171 Fig. 2172 90`Elbow 45°Elbow Tee 90°Elbow 45'Elbow Tee Size Range:'/e"thru 4' Size Range:'/e'thru 4' Size Range:'/e"thru 4' Size Range:'/z thru 4' Size Range:'/s'thru 4' Size Range:'/z'thru 4" Page 101 Page 101 Page102 Page 106 Page 106 Page 107 ; Fig. 2153 Fig. 2158 Fig. 2154 Fig.2173 Fig. 2178 Fig. 2174 Cross t Lateral Coupling Cross Lateral Coupling Size Range:'/8'thru 4" r Size Range: '/z"thru 2" Size Range:'/e"thru 4" Size Range:'h"thru 2" Size Range: yz"thru 1'/z' Size Range:'h"thru 4" Page102 Page103 Page 103 Page 107 Page 107 Page108 #q F T AlIft R Fig. 2155 1, Fig. 2156 Fig. 2157 Fig. 2175 Fig.2176 Fig. 2177 g Half Coupling Reducing Coupling Pipe Cap Half Coupling Reducing Coupling r Pipe Cap Size Range:'/e"thru 4" Size Range: 1 Size Range:'/8"thru 4' Size Range:'/z thru 4" Size Range: Size Range:'/z'thru 4 Page 104 4 V<'x'/8"thru 4"x 2 Page 105 Page 108 '12'x'/4'thru 4"x 2' Page 109 Page 104 Page log FORGED STEEL FITTINGS - HIGH PRESSURE PLUGS & BUSHINGS g Fig.2122 Fig. 2142 Fig.2121 Fig.2139J Fig. 2140 Square Head Plug Hex Head Plug Round Head Plug Hex Head BushingFlush Bushing Size Range:'/e"thru 4" Size Range:'/e'thru 4" Size Range:'/e'thru 4" Size Range:'/4'x'/e"thru 4'xange:'/4'x'/8'thru 2"x'/4" Page 110 Page 110 Page 110 Page 111Page 111 w. PF-11.13 Ell PICTORIAL TABLE OF CONTENTS Forged Steel (Continued) - Anvilets FORGED STEEL FITTINGS FORGED STEEL UNIONS SOCKET WELD REDUCER INSERTS Class 3000 ,. Class 3000 Class 6000 V ° For use with Sch.40&80 Pipe For use with Sch.160 Pipe Size Range:'/2"x'/4'thru 3'x 21/2" Size Range:1/4"x 1/4"thru 2"x 1114' Page 112 Page113 Fig.µ 2125 Fig. 2126 UNIVERSAL ELBOWLET Threaded union socket weld union Size Range:1/4"thru 3' Size Range:1/4'thru 3' Page 114 Page 114 4 Class 6000 Fig.2127 Fig. 2128 Threaded Union Socket Weld Union t Class 3000&6000—Buttweld, Threaded & Socket Weld Size Range:1/4"thru 2" Size Range:1/4'thru 2' Class 3000 Threaded&Socket-Weld/Standard&XS/XH Buttweld Page 115 Page 115 Size Range:1b'thru 2" Class 6000 Threaded&Socket-Weld Size Range:'h"thru 1112" UNIVERSAL FORGED STEEL ANVILETS Page122 Buttweld LATERAL ANVILET f Standard Extra Strong XXS,Sch.160 Size Range:I/s'thru 24" Size Range:'/e 9 'thru 24" Size Range:1/2'thru 4 9 Page 117 Page 117 Page 118 Class 3000 Buttweld&Threaded Class 3000 Standard/XS Butt Weld Threaded Size Range:'/2'thru 2' Class 3000 Threaded/Standard ra Size Range:'/2"thru 2" Page 123 Class 3000 Class 6000 FLAT AN V I LET Size Range:'/e"thru 4' Size Range:'/2"thru 2" Page 119 Page 119 Class 3000 Threaded, Buttweld &Socket-Weldv Size Range:114"thru 3' Socket-Weld u.. Page 124 Class 3000 Class 6000 Size Range:'/s'thru 4' Size Range:'/i thru 2' Page 120 Page 120 "W /JNVIL PF-11.13 Oil; F • - Y IV B I i Materials Dimensions The steel for Anvil Forged Carbon Steel Fittings consists of forging, bars,seamless pipe ASME 1316.11,unless otherwise noted or tubes which conform to the requirements for melting process,chemical composition and mechanical properties of ASTM A105. Threads Design Basis ANSI/ASME B1.20.1 NPT Threads ASME 1316.11 - Forged fittings,socket-weld and threaded Forged Steel Fittings Reducing Fittings In accordance with ASME standard B16.11 - "Forged Fittings, Reducing elbows,tees and crosses are available in both threaded Socket-Welding and Threaded"this table shows the schedule of and socket-welding. pipe corresponding to each class of fitting for rating purposes. � On reducing tees and crosses give the size of the largest run opening; then give the opposite opening. On a tee give the PRESSURE RATINGS branch size last.On a cross give the largest side outlet third and 9Class Schedule the opposite opening last. N.P.T. S.W. side 2000 80 — Branch �—outlet - 3000 160 80 6000 XXS/XXH 160 1�h 11/t TEE 11/4 1 h t 1h x 3/4 x 11/4 x 14 I CROSS ASME B16.11 provides that the maximum allowable pressure of a fitting be computed in accordance with the applicable piping 19 LJ code or regulation for straight seamless pipe or for material of Br side � � Outlet equivalent composition and mechanical properties tothefitting. 3z 1 Any corrosion or mechanical allowances and any reduction in allowable stress due to temperature or other service conditions I 6 z 19 x 32 mm 38 38 x 19 x 32 x 13 mm must be applied to the pipe and fitting alike. rEE CROSS Standards and Specifications Dimensions Material Thread Pressure Rating FORGED STEEL THREADED FITTINGS Class 2000,3000,6000 ASME 616.11• ASTM A105,ASTM Al 82.ASTM A350 ASMEB1.20.1+ ASME 1316.11• •an American National standard(ANSI), +ASME 61.20.1 was ANSI B2.1 PF-11.13 I ■ n � '- O � (IQ _ �, o N ti C O ' 0 c m crrM _ -- A f N -- -i f G N N w � rD r• r+ N. • N ^' N CD CD v Q.) 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(p V N -� :-- O O O O O A O) :p N -� O O O O O O ..�i O is W ii O V W N V O N �D Q) NV N) x e V co (a) (n O V O Cp 00 W N W A V O O W V � a ■ FORGEDI ; ■II Forged Steel Fittings C Class 3000 Threaded a FIGURE 2111 Size A H Unit Weight 90° Elbows NPS ON in mm in mm lbs k 1/8 6 0.81 21 0.88 22 0.23 0.10 0 1/4 8 0.97 25 1.00 25 0.35 0.16 cm % 10 1.12 28 1.31 33 0.66 0.30 Y2 15 1.31 33 1.50 38 0.93 0.42 3/4 20 1.50 38 1.81 46 1.48 0.67 a H ___ a_ 1 25 1.75 44 2.19 56 2.30 1.04 1'/4 32 2.00 51 2.44 62 2.68 1.22 m iz 1'/2 40 2.38 60 2.97 75 5.30 2.40 � 2 50 2.50 64 3.31 84 5.85 2.65 2'/2 65 3.25 83 4.00 102 10.00 4.54 3 80 3.75 95 4.75 121 17.207. 152 80 100 4.50 114 6.004 as a 29.30 13.29 a si zv ' m m I FIGURE 2112 Size C H Unit Weight 45' Elbows NPS ON in mm in mm lbs k 1/8 6 0.69 17 0.88 22 0.18 0.08 _ /4 8 0.75 19 1.00 25 0.25 0.11 _ % 10 0.88 22 1.31 33 0.53 0.24 '/2 15 1.00 25 1.50 38 0.78 0.35 /R 3/4 20 1.12 28 1.81 46 1.20 0.54 Cy 1 25 1.31 33 2.19 56 1.90 0.86 \� *� 1'/4 32 1.38 35 2.44 62 2.30 1.04 i 1'/2 40 1.69 43 2.97 75 4.16 1.89 2 50 1.72 44 3.31 84 5.12 2.32 2'/2 65 2.06 52 4.00 102 7.70 3.49 3 80 2.50 64 4.75 121 12.00 5.44 4 100 3.12 79 6.00 152 19.70 8.93 y N 3 m FIGURE 2114 Size A H Unit Weight U Tees NPS DN in mm in mm ibs' kq 1/8 6 0.81 21 0.88 22 0.31 0.14 y U 1/4 8 0.97 25 1.00 25 0.42 0.19 0 10 1.12 28 1.31 33 0.93 0.42 1/2 15 1.31 33 1.50 38 1.20 0.54 1 3/4 20 1.50 38 1.81 46 1.84 0.83 CO ___ __ _ 1 25 1.75 44 2.19 56 3.05 1.38 T 1'/4 32 2.00 51 2.44 62 3.62 1.64 1 1/2 40 2.38 60 2.97 75 6.65 3.02 2 50 2.50 64 3.31 84 7.15 3.24 2'/2 65 3.25 83 4.00 102 13.70 6.21 3 80 3.75 95 4.75 121 21.00 9.52 4 100 1 4.50 114 6.00 152 38.00 17.23 PF-11.13 FORGED STEEL FITTINGS Forged Steel Fittings Class 3000 Threaded FIGURE 2115 Size A H Unit Weight Crosses NPS DN in mm in mm lbs k 1/86 0.81 21 0.88 22 - - '/a 8 0.97 25 1.00 25 - - % 10 1.12 28 1.31 33 - - j 1/2 15 1.31 33 1.50 38 1.40 0.63 3/4 20 1.50 38 1.81 46 2.10 0.95 1 25 1.75 44 2.19 56 3.50 1.59 -- %� -- -H 1'/4 32 2.00 51 2.44 62 4.30 1.95 1'/2 40 2.38 60 2.97 75 8.20 3.72 A■ 2 50 2.50 64 3.31 84 8.40 3.81 21/2 65 3.25 83 4.00 102 17.10 776 3 80 3.75 95 4.75 121 20.00 9.07 4 100 4.50 114 6.00 152 32.00 14.51 FIGURE 2113 Size A G H Unit Weight 90° Street Elbows PIPS DN in mm in mm in mm Ibs k '/a 6 0.75 19 1.00 25 0.75 19 - - '/a 8 0.88 22 1.25 32 1.00 25 0.23 0.10 ll 10 1.00 25 1.50 38 1.25 32 0.38 0.17 'A �--G Y2 15 1.12 28 1.62 41 1.50 38 0.53 0.24 3/4 20 1.38 35 1.88 48 1.75 44 0.88 0.40 i + 1 25 1.75 44 2.25 57 2.00 51 1.40 0.63 1Ya 32 2.00 51 2.62 66 2.44 62 2.40 1.09 1'/2 40 2.12 54 2.81 71 2.75 70 2.90 1.32 2 50 2.50 64 3.31 84 3.31 84 5.00 2.27 FIGURE 2116 Size B K L Unit Weight Laterals NPS DN in mm in mm in mm ibs' k '/2 15 1.56 39.62 2.56 65.02 3.56 90.42 1.75 0.79 3/4 20 1.84 46.74 3.00 76.20 4.13 104.90 2.75 1.24 ■�, 1 25 2.22 56.39 3.50 88.90 4.81 122.17 4.63 2.10 --- ---- --- 1114 32 2.50 63.50 3.94 100.08 5.38 136.65 5.50 2.48 11/2 40 3.03 79.96 4.75 120.65 6.44 163.58 10.81 4.91 2 50 3.34 84.84 1 5.00 127.00 6.63 168.40 11.50 5.23 t,Z!`/.ANVI nd.comL PF-11.13 ■__ ■ O �, 0 r p 0+ n C i C O °c M — m O cn m 3 o a+ �+ �o A W N N > N m a m A W N N > 1 a m s m • CD � 0 o cOit o o ti cN» o cit o °p °' � o o chit o O N cNit o cn o CO °' Z Ln A W W N ND O O CTi A W W N N O O O CT N M O Ul N -1 W CO -I CT Ut N O O Cn N -1 W 1 00 -4 M O Cn N O O Cn Cn OD N CO CD N O Cn N O O U1 Ul 00 N 00 Ul N � v O p V C?) 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(253) 9263300 CLEAN AGENT EXTINGUISHING SYSTEM DISCHARGE ALARM ALARM 1 - SLOW PULSE ALARM 2 - FAST PULSE DISCHARGE - STEADY CLEAN AGENT EXTINGUISHING SYSTEM DISCHARGE ALARM IF ACTIVE DO NOT ENTER CLEAN AGENT PLAN REVIEW CHECKLIST- 2004 NFPA 2001 & 2002 NFPA 72 Mason County Fire Marshals Office 615 W Alder St. Bldg. 8 FIRE`� Shelton, WA 98584 MARSHAL 360-427-9670 x 282 ILE Date of Review: 12/10/2018 Permit Number: FIR2018-00054 O i .Y Business/Building Name: Watermark Properties Address of Project: 12 E Beach Drive Union, WA Designer Name: Suppression Systems INC Designer's Phone: 253-926-3300 Contractor: Contractor's Phone: System Manufacturer: KIDD Fire Systems Model: AEGIS 2.0 Occupancy Classification: B/S Reference numbers following checklist statements represent an NFPA code section unless otherwise specified. Checkl}'�t Legend: �or OK= acceptable N = need to provide NA= not applicable 1. V , Three sets of drawings. 2. V- Equipment is listed for intended use and specification listing sheets are required. 3.7- Type of agent is provided and design manual for pre-engineered systems. Floor Rlan detailing the following items Chapter 5.1.2: 4. Scale: use a common scale, also provide room description and dimensions. 5. An equipment symbol legend is provided. 6. Sectional view of the room with floor and ceiling assemblies and isometric view of the system are provided, 5.1.2.2. 7. ,, A floor plan and cross sectional view detailing device and nozzle locations and positions. 8. Type of devices, detectors, and audible signal device wiring. 9.�L Control panel location is at a constantly attended location and tied into the building fire alarm system. 10. / Type and gauge of wire or cable are provided. 11.T Riser diagram details the number and type of devices per circuit, zone ID's, a dedicated 120 AC branch circuit, secondary power supply, panel, etc. Point to DOint s stem wiring diagram: 12. Interconnection of identified devices and controls are shown. 13. Indicate number of conductors in each circuit run. 14.�- Identify zone/circuits and EOL locations. Provide alarm indicating circuit load consumption (voltage drop) of circuits on drawing: 15. ✓ Quantity of signaling devices, current consumption, EOL voltage for each circuit, and the lowest nameplate voltage range for audible and visual notification devices. 16. Approximate length of each circuit and resistance of wire, use NEC resistance specs or provide / manufacturer specification sheet. 17. + Show formula and acceptable voltage drop limits on drawing or on an attachment. 18. Audible and visual pre-discharge alarms shall be provided within the protected area, 4.3.5.2. 19. Show means of activation of magnetic door-releasing hardware and/or ventilation shutdown. 20.� Show two sources of electrical power, 6.7.2.4.3 and .4. 21. Show that the main power supply for the system is on a dedicated branch circuit and properly labeled, 6.7.2.5.4 (1). "Clean Agent Extinguishing System" is recommended. 22. J If the building is sprinklered the sprinkler coverage shall remain in the area of clean agent coverage! 23. Pre-engineered Clean Agent Gas system layout meets manufacturer's listing requirements and the specification manual is provided. 5�J4 Batte calculation sheet detailingthe followingitems: R 24. Standby power consumption of all current drawing devices x the hours required by NFPA 72, 24 hours, c. including power consumption of the control panel modules. 25. Power consumption of all devices on standby power, including door holders, relays, smoke detectors, etc. 26. Alarm power consumption of all current drawing devices x the minutes required by NFPA 72, 5 minutes. 27.� Formula format for battery calcula ' Clean ent information detailin t e-fo owin ite son the tans-Floodingor Local Application: 28. Type of system: Flooding oval Ap . ion. 29. Type of hazard protected and qu ntity. 30. Type of agent Halocarbon or ert Ga , 1.5.1.2 and .3, 5.1.2.2 (7). .31. Design concentration is in compliance with section 5.4.2 for flame extinguishment and section 5.4.3 for inerting. 32. r✓Volume of area protected is 20 , if area above the ceiling is not included then drop ceilings must be /clipped in place. Ventilation system volume is required to be added, 5.3.5.3. 33. ✓ Amount of gas; concentration level is adequate for the hazard. 34. For the selected agent, the concentration level does not exceed NOAEL for occupied areas, see 1.5.1.2 35._/` Calculations: provide nozzle flow rate and orifice size, pipe lengths/type and equivalent lengths, gas temperature, reference points, gas quantity, and cubic footage of area protected, 5.1.2.2, 5.3.5.2. 36. Discharge time within 10 seconds for halocarbon agents, inert agents up to 1 minute, based on 20% safety factor, 5.7.1.2. r 37.� Retrofitted clean age is in dexisting systems shall result in listed or approved design, 1.7. 38._ Location of storage container is easily accessible, 4.1.3 39. Storage container securing system is detailed per the manufacturer's listing manual, 4.1.3.4. 40. Agent containers are located near or inside of the hazard area, 4.1.3.2. 41. Manifolded halocarbon agent containers are the same size and charge, inert agent containers may be different sizes, 4.1.4.5. 42. `r Piping materials types are noted on plans and are compatible with environment and clean agent. Cast iron, steel ASTM A 120 , or non-metallic pipe shall not be used, 4.2.1. 43. Fittings and associated pressure ratings are noted on the plans or provide specification sheet, 4.2.3. 44.—� Nozzles: provided is listing information for area coverage, height limits, and minimum design pressures, 4.2.5.1. Operating Devices, Control Devices, and Alarms (2001: 4.3): 45. Devices are listed for their use and listing sheets are provided, 4.3.3.2, 4.3.2.1, and 4.3.4.1. 46.E Detail location of emergency release manual pull device. 47. ✓ Automatic detection and actuation shall be used, 4.3.1.2; manual activation must be approved, 4.3.1.2.1. 48.--7- Manual pull device is distinct in appearance and not more than 4 ft. above the floor, note or detail, 4.3.3.7. 49. v — Detail location of warning and instruction signage at entrances and inside protected area, 4.3.5.5, 50. J Alarms or indicators for system operation are provided, 4.3.5.1. 51. Audible and visual predischarge alarms are provided 4.3.5.2, and audible levels are per NFPA 72. E 52. If abort switches are used, must be located in protected area near the exit, be a constant manual pressure type, tied into visual and audible devices, and it is detailed on plans, 4.3.5.3. 53. `� Alarms indicating failure of supervised devices or equipment are provided and detailed, 4.3.5.4. 54.=A predischarge alarm and time delay is provided for systems with concentrations above NOAEL and up to LOAEL, 4.3.5.6. NOAEL and LOAEL are defined in the acronym table. Other: 55. Protected area or room is properly sealed and the method is noted on plans, 5.3. 56. Forced-air ventilation shuts down if it affects performance of the system, 5.3.5. le.) Additional Comments: Review Date: t Z t v proved or Disapproved FD Reviewer: Review Date: ed or Disapproved FD Reviewer: -Review Date: Approved or Disapproved FD Reviewer: SUPRESSION SYSTEMS, INC. SPECIAL HAZARD FIRE PROTECTION 3077 20TH STREET EAST,SUITE B FIFE,WA 98424-1798 (253)926-3.300 FAX(263)926-3" R D August 10,2018 NOV 2 8 2018 Robert McGee 615 W. Alder Street FOX Fire Prevention, Inc. Phone 360-871-198S Fax 360-871-2262 Project: 12 East Beach Drive, Union,WA 98592 Subject: Equipment Room 002 Fire Suppression Dear Robert, Per your request I am pleased to provide a price quotation for delivery and installation of a clean agent fire suppression system: Furnish and install NOVEC 1230 Clean Agent Fire suppression system to protect the following room. Price includes all electrical and mechanical labor: Equipment Room 002 (assumed volume 2,610 FT') $14,200.00 Total $14,200.00 Under this proposal Suppression Systems, Inc.would perform the following: Scope of Work 1) Provide design &engineered drawings of clean agent suppression system 2) All system components to be new, factory furnished 3) Releasing control panel with 24hour emergency backup power 4) Installation, programming,and commissioning by Factory trained technicians 5) Labor and material to install piping and fittings for system 6) All piping,supports, anchors, &seismic as necessary 7) Piping to be clean black steel, but not primed or painted. 8) Pipe pressure and flow test 9) All required signage 10) Normal working hours 11) Engineered drawings,calculations, and all required submittals included 12) All components UL Listed &FM Approved 13) Three year factory warranty on all installed components,so long as preventative service and maintenance is current by factory authorized distributors. 14) Installation of all components for a complete and working system including but not limited to; photoelectrical smoke detectors, release stations, abort stations, horn/strobe notification devices, discharge strobes, keyed maintenance bypass, and supervisory pressure switches. 15) All wiring to be installed in conduit(EMT, MC) 16) Required permits (electrical and fire) 17) Off shift work