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HomeMy WebLinkAbout17020 SMOKEY POINT BLVD_PA26-0243_2026 TENANT IMPROVEMENT IN PARTIAL BUILDING D =BAT ACADEMY General Notes: 1. Scope of work: This project shall include the installation of a new addressable initiating devices and notification devices on an existing Fire-Lite MS-92000DLS APPROX. T.I. SQ. FOOTAGE: 15,150 SQ. FT. Fire Alarm System. SedCom FIRE ALARM SYSTEM FIRE&SECURITY 3014 Hoyt Ave. 2. These drawings are diagrammatic. Refer to the architectural drawings for exact Everett,WA 98201,3 P:420.31].8259 F:425.31].8261 www.cellseac° m BUILDING SPRINKLER STATUS: FULLY 17020 SMOKEY POINT BLVD. dimensions. m SPRINKLERED 3. Installation shall comply with NEC, NFPA 72 and all other applicable codes as NICET ARLINGTON, WA 98223 required by the local authority having jurisdiction. 77] A PLAN PACE DESCRIPTIONKory Mehl 173N PI FA 1.0 COVER PAGE 4. Wiring depicted on these plans is schematic, actual wire locations may differ NICET FAS III#160751 ®Smokey Point Motor Inn y73rdPINE FA LEVEL182FIREALARMPLAN from these plans. Wiring shall be performed as actual building construction Olyri lol'IZZa Sunnse Es resso O Apmtm ntlmgton FA 1.2 CALCULATIONS ®&Pastattslian p E conditions allow and to minimize penetrations through area separation walls and KeyBank© Best West, BILL OF MATERIAL Arlington/Ma QUANTITY IS EXISTING MANUFACTURER PART NO DESCRIPTION fire rated walls. The use of a raceway is permitted as long as no 110 V or CL Teriyaki Bowl 1 X FIRELITE MS92000DL3 INTELLIGENT ADDRESSABLE FACP WITH Q BUILT-IN ALPOWECOMMUNICATOR higher voltage cables are in the same raceway. 1 POTTER PSN-106 10A CONVENTIONAL POWER SUPPLY WITH 0 MrnnnaIf, 6OUTPUTS © ADDRESSABLE MANUAL PULL STATION W 2 FIRELITE BG-12LX WITH INTERFACE MODULE MOUNTED Q Taco Time 0 - ADDRESSABLINSI RECESS PHOTO 5. Final ratings shall be maintained for all penetrations through fire rated ° 1 FIRELITE W-SD355 DETECTOR -O- _ -- - f ---- - __-, _ -- -- 1 POTTER PE-STW STROBE,WALL,WHITE construction. 11 POTTER PE-$TWC STROBE,CEILING,WHITE 3 POTTER PE-HSW 2-WIRE,HORN STROBE,WHITE _ -- 'Wendy_® 2 POTTER PE-HSWC 2-WIRE,HORN STROBE,CEILING,WHITE ADDITIONAL ASSEMBLY COMPONENTS AND UDLS MAIN 6. Power for all fire alarm panels and fire alarm power supplies must be provided 1 X FIRELITE MS92BOARD MAIN INTELLIGENMMUNICATORMT ADDRESSABLE FACP WITH it BOARD BUILT-IN COMMUNICATOR MAIN BOARD by a dedicated AC branch circuit. The location of the branch circuit breaker Safeway 1 POTTER PSN-106 MAIN BOARD PSN-106 MAIN BOARD RutuZune Auto Parts 0 cr "_" a DEVICE LEGEND shall be permanently identified at the control unit. Where a circuit breaker is the Auta°neotticlal > Z _ St,-aemzone o afle©,e- SYMBOL IS EXISTING QUANTITY MANUFACTURER PART NO DESCRIPTION p Cowes Home Improvement • a INTELLIGENT ADDRESSABLE FACP WITH disconnecting means, an approved breaker locking device shall be installed. N z FACU X 1 FIRELITE MS-92000DLS > p Y,,,Khchens 0 Y BUILT-IN COMMUNICATOR W F PertenFn -.-. E 10ACONVENTIONALPOWERSUPPLYWITH For fire alarm and/or signaling systems, the circuit disconnecting means shallOIL AC N 1 POTTER PSN-106 6OUTPUTS U ®Buffalo Wild Wln have a red marking. W ADDRESSABLE MANUAL PULL STATION ❑F 2 FIRELITE BG-12LX WITH INTERFACE MODULE MOUNTED INSIDE puts Bar - 0 andVes elLcensing Ai(imtyatArhngdon O ADDRESSABLE WIRELESS PHOTO 7. Power limited in non-power limited circuit wiring must remain separated in stets Pizza0 S W 1 FIRELITE W-SD355 DETECTOR 169th 51 NE - cabinet. All power limited circuit wiring must remain at least a quarter inch - -- - - 1 POTTER PE-STW STROBE,WALL,WHITE away from any non-power limited circuit wiring. Furthermore, all power limited &Roll 0 m More Key 0 ]69N,StNE 11 POTTER PESTWC STROBE,CEILING,WHITE and non-power limited circuit wiring must enter and exit the cabinet through a C different knockouts and or separate conduits. B 3 POTTER PE-HSW 2-WIRE,HORN STROBE,WHITE a ------- 169 Paralso Mexican Z 69th+�"E=------ �Sl NE Festenmm 9) 2 POTTER PE-HSWC 2-WIRE,HORN STROBE,CEILING,WHITE al Gourm 8. When utilizing class A circuits, separate outgoing and return conductors of class L11H et® 6 and Brews -Medallion Inn and Suites ,6Bit ° ADDITIONAL ASSEMBLY COMPONENTS AND HARDWARE a circuit by a minimum of 12 inches where run vertically and 48 inches where © _ ®The Point Bar X 1 FIRELITE MS-92000DLS MAIN INTELLIGENT ADDRESSABLE FACP WITH run horizontally. BOARD BUILT-IN COMMUNICATOR MAIN BOARD 1 POTTER PSN-106 MAIN BOARD PSN-106 MAIN BOARD N I TY MAP�p CABLE AND WIRE LEGEND vICRESISTANCE 9. All fire alarm cabling shall be acceptable to the fire alarm equipment MIT LABEL PART NO MANUFACTURER APPLICATION RESISTANCE AWG DESCRIPTION TOTALLENGTH A 16/2 FPLR GENERIC SLC 4.89 16 2 COND.SOLID COPPER FPLR ADDRESSABLE 425' 1D O V 1412FPLPIR GENERIC NAC 3.07 14 2COND.SOLIDCOPPERFPLP/RANALOGUNSHIELDED 672• manufacturer for the intended purpose. CD w N II M O 10. Smoke detector shall not be installed until after construction cleanup is M co completed and final. Z FIRE ALARM SYSTEM INPUT/OUTPUT OPERATIONAL MATRIX 11. Locate smoke detectors a minimum of 3 feet from mechanical supplies. o , SYSTEM OUTPUTS Wall-mounted smoke detectors shall be located a minimum of 4 inches and a NOTIFICATION maximum of 12 inches from ceilings. CONTROL UNIT ANNUNCIATION 12. Device addresses are to be field determined P�°Q °Q �Gc��P c''`PC�° T Y Y Y � o`` �cP` 5`P �'� �`' 13. Provide synchronization of all visual notification appliance circuits. GCS �P 0, J� y�G �(,� Q� yJ P. �0 14. Upon completion of the fire alarms stem installation andprogramming, the Q�\5o �- p p Y \��P installing contractor shall perform final testing of the entire system, per all P yJ a �� P 5 sy applicable codes, and shall coordinate and perform a final fire alarm system inspection. C C�JP G`JP G`JP `JP� �P `�JP `�JP \hQ3 QP�S P�5 P�5 Z LJ P P P P P P P o �Q �� 15. Provide offsite monitoring as required by the international fire code, section SYSTEM INPUTS A B C D E F G H I J K o 907.6.6 and the local authority having jurisdiction. Z LL N o 1 COMMON AREA SMOKE DETECTORS X X X X X 1 rn 0 2 COMMON AREA HEAT DETECTORS X X X X X 2 m Q 3 MANUAL PULL STATIONS X X X X X 3 16. Installing contractors shall physically label all initiating devices and notification Q o 4 SPRINKLER WATER FLOW X X X X X 4 (� 2 appliance circuit end of lines (when wiring class B). These labels shall be in ° 5 SPRINKLER TAMPERS X X X X 5LU Q 6 FIRE ALARM SYSTEM SUPERVISORY X X X X 6 place prior to start up in testing. CD W 7 FIRE ALARM SYSTEM ALARM X X X X X 7 V LU 8 FIRE ALARM SYSTEM TROUBLE X X X X 8 Q 9 FIRE ALARM SYSTEM AC POWER FAILURE X X X X 9 W 10 FIRE ALARM SYSTEM LOW BATTERY X X X X 10 11 IFIRE ALARM SYSTEM OPEN CIRCUIT X X I X X 11 1 4^ 12 FIRE ALARM SYSTEM G ROUND FAULT X X X X 12 13 13 A B C D E F G H I J K 4a CO OR SMOKE DETECTOR THERMAL DETECTOR 6"FROM CEILING CEILING HORN/STROBE 12" MAX N1.01 EOL 4.7k N2.02EOL5.lk N2.01 NAC EXPANDER WALL HORN/STROBE ~ >cm 15cd 15cd POWER SUPPLY / \ i N 2 C� m N LU G ~00 l O ,v W Z a Cn co } Ll FACP BPS o �0 0 Q W° � D FAA V Y a FIRE 80"-96" Q o a FROM EXISTING SLC�A�JW ALARM NAC �Z W 6'0° 6'0" POWER Q J N1.15 EOL 5.1k Nl"1 NI.12 Nl-10 Nl-07 N1-D6 Nl•05 Nl-04 NI.03 N1.L_)od' -01 CONTROL S'O" N Q LL 15cd N114 75cd 15cd Ni•11 15cd NI.09 Nl-08 15cd 15cd 15cd 15cd 15cd 15c _ SUPPLY42"FRONT ACCESS75A C C 7scd C 135cd 110cd C C C C C C PANEL 48"SIDE ACCESS E FIRE ALARM CONTROL PANEL I-TO EXISTING SLC FROM EXISTING SLC ,a ,A--------- L1 EQUIPMENT MOUNTING ELEVATIONS SHEET ®= REFERENCE (TYPICAL) NUMBER: FA 1 .0 5 4 3 L 1 1 ..J SeaCom 22' 0" NAC TRIGGER 3014 FROM EXISTING ACP S4.11 Everett,WA 98201 P:425.317.8259 F:425.317.8261 www.cellseac" m G 23 21 23 26 w NAC BOOS�61R F 1A NOT FICATI D CES NAC G m 06 N.I.C. FROM EXISTING SLC 21 • NP O 1 Ni 1 EOL Al OM EXIS SLC 21 J410MEETING AREA 20 Z 15 AGE 12'-0"CLR.,V.I. . FIL OM 2 A2 1.01INS�LTpRUUNCGTEEOR ¢ S4.11�ry 1 54.11C 54.11 I 108 Nh FL ROO gEy�54.11 '02 00EOL 5.1 12 EO .11 C21)7 15cd VIEWU G AREA 27 C A IGN WALKWAY C 27 tv 11 Kory Mehl N2.01 24 EO EO NICET FAB111*110751 Z 104C jP1v Nl-04 FE ry t FE 15cd F F rR S4.11 W < - LINE OF LEVEL N.I.C. 56.11 07 2 ABOVE aa 9 RE S4.'H CAGE 106 16 10 H 48'-0" Al A4.20 „ 67 SAGE _ �=f-0�" ONLY T.I. - FIRE ALARM PLAN - LEVEL 2 w6.10 48'-0" I TO SCALE ON 36'X 48"FORMAT '-2"' 11 Iv MENS RESTROOM 5 o Z 105 16 S6.1 c CAGE Z w O 03 1- 48•-0•' a -1� y w 0 E I 22 CAGE NP' TYP. 51' 6" 07 I I I _ I I WA KWAY a B 1 46 CAGE Z 01 11' 21/2" TYR I _ I I I N.I.C. 25 MACHINE _ N.I.C. Ot W 52'_0" CD � .09 M �w C)D N1 N N M M a E Z m 25 MACHINE I 10 52'-0 I I I I _ I I _ z 02 MACHINE I 1- TYR 1- a m 52,_p" N c c > L I I WALKWAY 104A I 6„ N110 Tic� U S4.11 Z 12 Ni•1 Z W Oil O W Sod MJM Q 67 2 W > rn O = V °� o � w N1.2 PITCHING PITCHING IY UJ 18'-87)b TUNNEL O wll TUNNEL MACHINE MACHINE O Cl)W U I _3 _ = a W^' 2' IN. 14'-0" U) � z 54.11 � B KEYPLAN: NOT TO SCALE Nl-14 STORAGE 75W PRO OP 103 N1.13 75cd 03 13 C 1 S4.11 S4.11 4'-2 M ER o 14'-0" 8'-0" 8'-0" 1- m N �E H 00 ILu — (EA 7 102N•15�0 5. W oa A9.0 15cd p CL LU c a F A U Yo a D uj 1 2 3 4 5 r U)J wY W Q 1 � o1Aj-1) D-BAT T.I. - FIRE ALARM PLAN - LEVEL 1 AREA OF WORK 1/8"=1'-0" ONLY TO SCALE ON 36'X 48"FORMAT 0 4' 8' 16' Add exterior Scale:1/8"=V-0" City of Arlington horn strobe Building Department SHEET APPROVED REFERENCE facing Smokey Kevin Olander- 03/26/2026 NUMBER: point Blvd / No changes authorized unless approved by parking lot the Building Official FA 1 . 1 5 4 3 2 1 1 ..J SeaCom FIRE&SECURITY 3014 Hoyt Ave. Everett,WA 98201 P:.5.317.8259 F:425,317,8261 PANEL LOAD SUMMARY STANDBY CURRENT(AMPS) ALARM CURRENT(AMPS) CURRENTSUMMARY POWER SUMMARY -' �15ed�m<om CURRENT DRAW CURRENTDRAW MAX.CIRCUIT CURRENT(A): 3 STARTING MAX.V CALCVOLTAGE VOLTAGE: 2.37 m QTY PANT NO DESCRIPTION (A) TOTAL(A) (A) TOTAL TOTAL CIRCUIT CURRENT(A): 0.6890 MAX.VOLTAGE DROP: 2.37 PANEL COMPONENT SUMMARY SUMMARY REPORT SPARE CIRCUIT CURRENT(A): 2.31 VOLTAGE DROP 11.63% PSN-106 MAIN 1 PSN-106 MAIN BOARD ix0.075 =0.075 1x0.075 =0.075 N7 LUMP SUM REPORT SPARE CIRCUIT CURRENT%: 77.03% MIN.OPERATIONAL VOLTAGE: 16 BOARD PANEL POWER SUPPLY MAX CURRENT- 10A MAX.CARD CURRENT(A), Na END OF LINE VOLTAGE: 18.03 (NICET CIRCUIT TOTAL CARD CURRENT(A: 0,7480 WIRE RESISTANCE(Q/KFT): 3.07 , Nx0 =0 x0. 9 =0.689 SPARE CARD CURRENTTOTAL USED CAPACITY- 0.823A(8.23 %) SPAREC CARD CURB NT(%: TOTAL CRCUT: TOTALIRESSTANCELENGTHT CIRCUIT SUMMARY N22 1 1x0 0 1 x0.0505 9 --0.0590.059 (D): 3.44 = TOTAL STANDBY TOTAL ALARM CIRCUIT WIRING PROPMEASURED USING G RA FPLPIR NAC 14 AWG,2 COND.SOLID COPPER NAL LENGTH CA UNSHIELDED A CURRENT 0.075 CURRENT 0.823 DISTANCE MEASURED USING DRAWN SEGMENT LENGTHS WITH 10.00%ADDITIONAL LENGTH CALCULATED /'1 SYMBOL QUANTITY PART NO DESCRIPTION CANDELAS ALARM CURRENT(A) TOTAL CURRENT(A) 7! POINT-TO-POINT VOLTAGE DROP Try Mehl CIRCUIT DETAILS AND CALCULATIONS STANDBY CURRENT ALARM CURRENT CALCULATION SUMMARY SPEAKER POWER/DB LOSS CALCULATIONS 1 PE-HSW 2-WIRE,HORN STROBE,WHITE 75CD 0.077 0.077 NICET FAS III#160751 CIRCUIT STARTING STARTING TOTALUSED CURRENT DRAW CURRENT DRAW END OF LINE TOTAL USED END OF LINE POWER LOSS SOURCE MAX CAPACITY AVAILABLE CAPACITY CIRCUIT AWG SYMBOL OTY PART NO DEVICE SETTING CIRCUIT LENGTH RESISTANCE TOTAL(A) TOTAL(A) CALCULATION VOLTAGE DROP CALCULATION TOTAL IDS LOSS VOLTAGE CAPACITY ((lift) (A) (A) VOLTAGE VOLTAGE WATTS VOLTAGE PERCENT 1 PE41SW 2-WIRE,HORN STROBE,WHITE 110CD 0.109 0.109 1 PE-HSW 75cd i x 0 =0 1 x 0.077 =0.077 d 1 PE41SW 2-WIRE,HORN STROBE,WHITE 135CD 0.146 0.146 1 PE-HSW 110cd 1x0 =0 1x0.109 =0,109 2-WIRE,HORN STROBE,CEILING, W 1 PE-HSWC WHITE 75CD 0.077 0.077 Q C p 1 PE-HSW 135cd 1x0 =0 1x0.146 =0,146 Ni 14 561' 0.00307 20.4v 18.8v 1.6v � 1 PE-STW STROBE,WALL,WHITE 75CD 0.06 0.06 PSN-106 MAIN 1 PE-HSWC 75cd 1 x 0 =0 1 x 0.077 =0,077 BOARD C 10 PESTWC STROBE,CEILING,WHITE 15CD 0.022 0.22 W CALCULATION METHODS: 1 PE 75cd 1 x 0 =0 1 x 0.06 =0.06 TOTAL RESISTANCE(Q)=WIRE RESISTANCE((LET)X 2 X TOTAL CIRCUIT LENGTH(FT) TOTAL VOLTAGE DROP=TOTAL RESISTANCE(Q)X TOTAL CIRCUIT CURRENT(A) 10 PE-STWC 15cd 10x0 =0 10x0.-2 =0.22 CURRENTSUMMARY POWER SUMMARY Z MAX.CIRCUIT CURRENT(A): 3 STARTING CALC.VOLTAGE: 20.40 O_ 1 PE-HSWC 15cd 1x0 =0 Ix0.037 =0.037 TOTAL CIRCUIT CURRENT(Ay. 0.059 MAX.VOLTAGE DROP: 0.02 rn Z C SPARE CIRCUIT CURRENT(A): 2.94 VOLTAGE DROP W 0.09% W O N2 14 50' 0.00307 20.4v 20.39v 0.01v N2 LUMP SUM REPORT SPARE CIRCUIT CURRENT 98.03% MIN.OPERATIONAL VOLTAGE: 16 w a MAX.CARD CURRENT(A): Na END OF LINE VOLTAGE: 20.38 K C 1 PE-STWC 15cd 1 x 0 =0 1 x 0.022 =0.022 TOTAL CARD CURRENT(A): 0.7480 WIRE RESISTANCE(Q/KFT): 3.07 y SPARE CARD CURRENT(A): TOTAL CIRCUIT LENGTH(FT): 50 w SECONDARY POWER SOURCE REQUIREMENTS SPARE CARD CURRENT%: TOTAL CIRCUIT RESISTANCE(Q): 0.308445 CIRCUIT WIRING PROPERTIES:'V'14/2 FPLPIR NAC 14 AWG,2 COND.SOLID COPPER FPLPIR ANALOG UNSHIELDED REQUIRED STANDBY TIME=24 HOURS DISTANCE MEASURED USING DRAWN SEGMENT LENGTHS WITH 10.00%ADDITIONAL LENGTH CALCULATED REQUIRED ALARM TIME MINUTES SYMBOL QUANTITY PART NO DESCRIPTION CANDELAS ALARM CURRENT(A) TOTAL CURRENT(A) SECONDARY STANDBY LOAD 0.075 x24 =1.8 AH SECONDARY ALARM LOAD 0.823 x0.08 =0.07 AH PROVIDE (2) 12V 7AH BATTERIES @ 24VDC �C WHITE 1 PE-HSWC 2-WIRE,HORN STROBE,CEILING, 15CD 0.037 0.037 STANDBY AND ALARM LOAD SUBTOTAL 1.87 AN DERATING FACTOR x 1.25 SECONDARY LOAD REQUIREMENTS(AMP HOURS) 2.34 AH O 1 PESTWC STROBE,CEILING,WHITE 15CD 0.022 0,022 !CALCULATON METHODS: TOTAL RESISTANCE(Q)=WIRE RESISTANCE((LET)X 2 X TOTAL CIRCUIT LENGTH(FT) TOTAL VOLTAGE DROP=TOTAL RESISTANCE(0)X TOTAL CIRCUIT CURRENT(A) JE CURRENT SUMMARY POWER SUMMARY LUMP SUM REPORT SUMMARY TOTAL CIRCUIT CURRENT DISTANCE MEASURED USING DRAWN SEGMENT LENGTHS WITH 10.00%ADDITIONAL LENGTH CALCULATED 0.6890 MAX.VOLTAGE DROP: 1.60 WIRE STARTING MIN. AI STARTING CALL. 2040 SOURCE CIRCUIT PART NO MAX.CARD TOTAL CARD SPARE CARD SPARE CARD MAX.CIRCUIT TOTAL CIRCUIT SPARE CIRCUIT SPARE CIRCUIT VTIRE GAUGE RESISTANCE TOTAL CIRCUIT TOTAL CIRCUIT CALCULATION OPERATIONAL 'VOLTAGE END OF LINE VOLTAGE DROP MAX.CIRCUIT CURRENT 3 SPARECIRCUIT 231 VOLTAGE: VOLTAGE DROP%: 7.84% CURRENT(A) CURRENT(A) CURRENT(A) CURRENT% CURRENT(A) CURRENT(A) CURRENT(A) CURRENT% (QIKET) LENGTH(FT) RESISTANCE(Q) VOLTAGE VOLTAGE DROP VOLTAGE N1 POINT-TO-POINT REPORT (A): CURRENT(A): Ni PSN-ID6MAIN 3 0.6890 2.31 77.03% 14 3.07 561 3.44 20.40 16 2.37 18.03 11.63% SPARE CIRCUIT MIN.OPERATIONAL (PSN-10fi) N/A 0.7480 co Ot O CURRENT%: 77.03% VOLTAGE: i6 END OF LINE VOLTAGE: 18.80 N2 BOARD 3 0.059 2.94 98.03% 14 3.07 50 0.308445 20.40 i6 0.02 20.38 0.09% CVO _ W TOTAL CARD CURRENT TOTAL CIRCUIT LENGTH CALCULATION METHODS: (A): 0.7480 WIRE RESISTANCE (FT): 561 TOTAL RESISTANCE(Q)=WIRE RESISTANCE(Q/FT)X 2 X TOTAL CIRCUIT LENGTH(FT) N II p SPARE CARD CURRENT (O/KFT): 3.07 TOTAL CIRCUIT TOTAL VOLTAGE DROP TOTAL RESISTANCE(0)X TOTAL CIRCUIT CURRENT(A) N - (.0CIRCUIT WIRING PROPERTIES:'V'1412 FPLPIR NAC 14 AWG,2 COND.SOLID COPPER FPLPIR ANALOG UNSHIELDED MAX.CARD CURRENT(A): Na 3.44 00 CV (A): RESISTANCE(Q): SPARE CARD CURRENT M DISTANCE MEASURED MEASURED USING DRAWN SEGMENT LENGTHS WITH 10.00%ADDITIONAL LENGTH CALCULATED n Cl) %: E REMAINING ALARM DISTANCE FROM RESISTANCE FROM VOLTAGE DROP FROM VOLTAGE DROP DEVICE LABEL PART NO DESCRIPTION CANDELAS ALARM CURRENT(A) CURRENT(A) PREVIOUS PREVIOUS(0) PREVIOUS VOLTAGE AT DEVICE TOTAL VOLTAGE DROP PERCENT Z N1.01 PE-STWC STROBE,CEILING,WHITE 15CD 0.022 0.6890 119 0.731 0.5 19.90 0.5 2.47% 75 Nl-02 PE-STWC STROBE,CEILING,WHITE 15CD 0.022 0.6670 25 0.151866 0.1 19.79 0.610 2.97% Q? .Q N Ni•03 PE-STWC STROBE,CEILING,WHITE 15CD 0.022 0.6450 15 0.0931 0.06 19.73 0.670 3.26% 0 N 0_ Nl-04 PE-STWC STROBE,CEILING,WHITE 15CD 0.022 0.6230 32 0.197538 0.12 19.61 0.790 3.86% Nl-05 PESTWC STROBE,CEILING,WHITE 15CD 0.022 0.6010 59 0.360478 0.22 19.40 1 4.93% N1•D6 PE-STWC STROBE,CEILING,WHITE 15CD 0.022 0.5790 37 0.230175 0.13 19.26 1.14 5.58% Ni•07 PE-STWC STROBE,CEILING,WHITE 15CD 0.022 0.5570 20 0.124777 0.07 19.19 1.21 5.92% Ni•OB PE-HSW 2-WIRE,HORN STROBE,WHITE 110CD 0.109 0.5350 6 0.034831 0.02 19.17 1.23 6.01% Nl-09 PE-HSW 2-WIRE,HORN STROBE,WHITE 135CD 0.146 0.426 67 0.41069 0.17 19 1.40 6.87% Nl-10 PE-STWC STROBE,CEILING,WHITE 15CD 0.022 0.28 53 0.325334 0.09 18.91 1.49 7.32% N1.11 PE-HSW 2-WIRE,HORN STROBE,WHITE 75CD 0.077 0.258 26 0.157413 0.04 18.87 1.53 7.51% PANEL N7.01 EOL 4.7K(PSN-108)BATTERY CALCULATION Ni•12 PE-STWC STROBE,CEILING,WHITE 15CD 0.022 0.181 19 0.113805 0.02 18.65 1.55 7.62% (SECONDARY POWER SOURCE REQUIREMENTS) Nl-13 PE-HSWC 2-WIRE,HORN STROBE,CEILING, 75CD 0.077 0.159 27 0.16791 0.03 18.82 1.58 7.75% WHITE STANDBY CURRENT SECONDARY CURRENT Nl-14 PESTW STROBE,WALL,WHITE 75CD 0.06 0.082 1 31 0.193024 0.02 18.80 1.60 7.82% QTY PART NO. DESCRIPTION CURRENT DRAW(A) TOTAL(A) CURRENT DRAW(A) TOTAL(A) N1.15 EOL 5.1K PE-STWC STROBE,CEILING,WHITE 15CD 0.022 0.022 25 0.152218 ONVENTIONAL POWER a CO PANEL COMPONENTS 1 PSN-106 0 0 0 0 SUP PLY WITH60UTPUTS CALCULATION METHODS: N a N RESISTANCE FROM PREVIOUS(Q)=WIRE RESISTANCE(DIET)X 2 X DIST.FROM PREVIOUS(FT) 1 PSN-106 MAIN BOARD PSN-106 MAIN BOARD 0.075 0.075 0.075 0.075 C C > VOLTAGE DROP FROM PREVIOUS=RESISTANCE FROM PREVIOUS(0)X REMAINING CURRENT(A) CIRCUIT MAX CARD AMPS USED CARD AMPS SPARE CARD AMPS SYMBOL QTY PARTNO DESCRIPTION CURRENT DRAW(A) TOTAL(A) CURRENT DRAW(A) TOTAL(A) 2 a 4,CURRENT SUMMARY POWER SUMMARY 1 PE-HSW 2-WIRE,HORN STROBE,WHITE 75CD 0 0 0.077 0.077 Q g TOTAL CIRCUIT CURRENT 0.059 MAX.VOLTAGE DROP: 0.01 A): STARTING CALL. 2040 2-WIRE,HORN STROBE,WHITE MAX.CIRCUIT CURRENT 3 SPARECIRCUIT 294 VOLTAGE: VOLTAGE DROP%: 0.05% 1 PE-HSW 110CD 0 0 0.109 0.109 N2 POINT-TO-POINT REPORT (A): CURRENT(A): SPARE CIRCUIT MIN.OPERATIONAL 98.03% 16 END OF LINE VOLTAGE: 20.39 CURRENT%: VOLTAGE: 2-WIRE,HORN STROBE,WHITE TOTAL CARD CURRENT 07480 TOTAL CIRCUIT LENGTH 50 � ,1 (A): WIRE RESISTANCE (FT): U CIRCUIT WIRING PROPERTIES:'V 1412 FPLPIR NAC 14 AWG,2 COND.SOLID COPPER FPLPIR ANALOG UNSHIELDED MAX.CARD CURRENT(A): Na SPARE CARD CURRENT (Q/KFT): 3.07 TOTAL CIRCUIT 0308444 Ni (A): RESISTANCE(Q): 2-WIRE,HORN STROBE,CEILING, Z SPARE CARD CURRENT C 1 PE-HSWC WHITE 75CD 0 0 0.077 0.077 DISTANCE MEASURED USING DRAWN SEGMENT LENGTHS WITH 10.00%ADDITIONAL LENGTH CALCULATED %: N/A 0.748000 REMAINING ALARM DISTANCE FROM RESISTANCE FROM VOLTAGE DROP FROM VOLTAGE DROP DEVICE LABEL PART NO DESCRIPTION CANDELAS ALARM CURRENT(A) CURRENT(A) PREVIOUS PREVIOUS(0) PREVIOUS VOLTAGE AT DEVICE TOTAL VOLTAGE DROP PERCENT 1 PE-STW STROBE,WALL,WHITE 75CD 0 0 0.06 0.06 ; Q N2.01 PE-HSWC 2-WIRE,HORN STROBE,CEILING, Q 15CD 0.037 0.059 17 0.105102 0.01 20.39 0.01 0.03% J 0)WHITE MM N2.02EOL5.1K PE-STWC STROBE,CEILING,WHITE 15CD 10.022 0.022 33 0.203342 0 20.39 0.01 0.05% W H CALCULATION METHODS: 10 PE-STWC STROBE,CEILING,WHITE 15CD 0 0 0.022 0.22 } > RESISTANCE FROM PREVIOUS(0)=WIRE RESISTANCE(DIET)X 2 X DIST.FROM PREVIOUS(FT) Q O F O VOLTAGE DROP FROM PREVIOUS=RESISTANCE FROM PREVIOUS(0)X REMAINING CURRENT(A) U = I- L) 2-WIRE,HORN STROBE,CEILING, 1 PE-HSWC WHITE 15CD 0 0 0.037 0.037 CC V LLI Q :N2 C G oM W w O 1 PESTWC STROBE,CEILING,WHITE 15CD 0 0 0.022 0.022 O LLI TOTAL STANDBY(A) 0.075 TOTAL ALARM(A) 0.8230 a REQUIRED STANDBY TIME(HOURS) 24 W REQUIRED ALARM TIME(MINUTES) 1 5 ''^^ SECONDARY STANDBY LOAD(A) 0.075 24 1.80 U) SECONDARY ALARM LOAD(A) 0.8230 1 0.083 1 0.069 POINT-TO-POINT REPORT SUMMARY 87 DISTANCE MEASURED USING DRAWN SEGMENT LENGTHS WITH 10.00%ADDITIONAL LENGTH CALCULATED STANDBY AND ALARM SUBTOTAL(AMP HOURS) 1.25 WIRE STARTING MIN. DEBATING FACTOR 1.25 MAX.CARD TOTAL CARD SPARE CARD SPARE CARD MAX.CIRCUIT TOTAL CIRCUIT SPARE CIRCUIT SPARE CIRCUIT TOTAL CIRCUIT TOTAL CIRCUIT MAX.VOLTAGE END OF LINE VOLTAGE DROP SECONDARY LOAD REQUIREMENTS(AMP HOURS) 2.34 SOURCE CIRCUIT PART NO CURRENT(A) CURRENT(A) CURRENT(A) CURRENT% CURRENT(A) CURRENT(A) CURRENT(A) CURRENT% WIRE GAUGE RESISTANCE LENGTH(F) RESISTANCE(Q) CALCULATION OPERATIONAL DROP VOLTAGE % PROVIDE(2)12V 7AH BATTERIES (O/KFT) VOLTAGE VOLTAGE 'BATTERY BOX SIZE CAPACITY NOT SPECIFIED.REFER TO MANUFACTURER DOCUMENTATION. Nl PSN-106MAIN 3 0.6890 2.31 77.03% 14 3.07 561 3.44 20.40 16 1.60 18.80 7.64% (PSN-106) N2 BOARD1llA 0.7480 3 0.059 2.94 98.03% 14 3.07 50 0.308444 20.40 1B 0.01 20.39 0.05% CALCULATION METHODS: RESISTANCE FROM PREVIOUS(0)=WIRE RESISTANCE(DIET)X 2 X DIST.FROM PREVIOUS(FT) VOLTAGE DROP FROM PREVIOUS=RESISTANCE FROM PREVIOUS(Q)X REMAINING CURRENT(A) r Cq 2 m Qo W W oa co >- D- Q }z � V Yo a D Q 0z a a U)J W M U_ W CV Q O LL 9 � City of Arlington Building Department APPROVED SHEET Kevin Olander- 03/26/2026 REFERENCE No changes authorized unless approved by NUMBER: the Building Official FA 1 .2 5 4 3 2 1 119! SeaCom ;Ot� CABLING TECHNOLOGY SOLUTIONS 1912 Everett Avenue Suite.120,Everett,WA 98201 City of Arlington Building Department APPROVED Kevin Olander-03/26/2026 No changes authorized unless approved by Submittals the Building Official D-Bat Academy T.I. Arlington, WA Fire Alarm System 19ISeaCom CABLING TECHNOLOGY SOLUTIONS Fire Alarm System D-Bat Academy T.I. Submittals Material Manufacturer Part Number Page NAC BOOSTER PANEL POTTER PSN-106 1-2 SMOKE DETECTOR FIRE-LITE SD355 3-4 MANUAL PULL STATION FIRE-LITE BG-12LX 5-6 STROBES POTTER PE-STW& PE-STWC 7-11 HORN STROBES POTTER PE-HSW & PE-HSWC 7-11 (E) POTTER PSN SERIES The Symbol of Protection POWER SUPPLY UL,cUL,CSFM Listed • PSN-64 has 6 amps regulated with 4 Outputs • PSN-106 has 10 amps regulated with 6 Outputs • Outputs Rated at 3 amps maximum each • May be configured as up to three class"A"Style"Z"notification circuits ® - • 3 amp,24 VDC programmable output power • Supervised Battery Charger:27.3 @ I(supports 7-55 AH batteries) • Easy to install cabinet with leveling mounts and key lock " • Wiring knockouts provided on sides and top of cabinet • Two Trouble Relays(5A at 30VDC) General System Trouble(programmable for AC delay) Low AC Trouble with optional delay settings • Diagnostic LED's patent pending Status LED's for Active NAC and NAC trouble conditions Status LED's for Earth Fault(Amber),AC(Green),Battery Fault(Amber) • Trouble Memory feature captures troubles which have previously restored U • Synchronized notification appliance circuits C ®� US LISTED Potter/AMSECO®,Wheelock®,Gentex®,System Sensor® S2930 7315-0328:0189 • Configurable output circuits(DIP switch sets options for each circuit) • 15 mA at 8-33 VDC input trigger Product includes a 5 year warranty • Reference EOL allows 2K—27K EOL value to be used • Quadrasync provides panel wide synchronization of same or multiple brands Dimenions: 16 1/8"W x 16 3/4"H x 3 1/2"D • PassThru mode allows the Outputs to match the Input Signal Electrical Specs: Stock Number:3006436 PSN-64 Red Enclosure • 120/240 VAC 50-60 Hz input 3006437 PSN-106 Red Enclosure • 5.1 Amps @ 120 VAC or 2.5 Amps @ 240 VAC 3006446 PSN-106 Black Enclosure • Battery Standby Current 75 mA • Alarm Standby Current 75 mA(no external load) • Terminals support 12- 18 AWG wire. Description The PSN series of notification power supplies offers reliable notification Sensor®strobe devices. Each output can be configured the same sync power with unprecedented versatility.The power supplies offer either protocol or set independently. 6 or 10 amps of continuous power through 4 or 6 outputs respectively. In addition,the panel has an input PassThru mode allows the outputs Each output is rated at 3 amps and it may be used continuously without to follow the input signal and sync up the input flash. The panel will any derating. recognize the type of input being supplied and pass this through to the The power supply operates on either 120 VAC or 220 VAC power input outputs with the same pattern.This input pass through can be selected and has a regulated 24 VDC output.In addition,the panel can charge on each output independently. up to 55 AH batteries and leads the industry in housing up to 18 AH The power supply contains simple dipswitch programming and LED batteries.The cabinet is constructed out of 18 gauge cold rolled steel and indications providing the installer indications of the operation and the has a durable red powder coat finish.In addition,a key lock is provided ability to correct any faults.A Trouble Memory is provided to allow an for securing the door.Ample electrical knockouts are provided on the installer to review past troubles and make the necessary repairs.Each sides and the top,allowing the installer options for running wires and output has an LED to pin point the exact circuit where a problem may maintaining the correct separations. have occurred.Relays are provided for monitoring the general system The power supply offers an industry leading Quadrasync function that and AC failure. allows formultiple strobe circuits of different brands to be synchronized Each output and be independently configured for various applications to flash at the same time.The panel can have four different brands each and installations.Each output can be independently configured for Class connected to its own circuit and all of the strobes flash together. A or Class B operation,constant power,ANSI Temporal Code 3,Single, Each output can independently be configured to provide one of Multiple or Combo Inputs or Door Holder Power. four synchronizations or steady power. This provides unequivocal flexibility in new and retrofit installations.The panel can be configured to synchronize Potter/AMSECO®, Gentex®, Wheelock® and System Potter Electric Signal Co.,LLC• St.Louis,MO•Cust Service: 866-240-1870•Tech Support: 866-956-1211 •Canada 888-882-1833•www.pottersignal.com PRINTED IN USA MKT.#8910013-REV D PAGE 1 OF 2 1/18 1 of 11 (E) POTTER PSN SERIES ® The Symbol of Protection POWER SUPPLY PSN-106 Wiring Diagram 120/240 VAC GND FAULT Jumper Position DETECT ENABLE ON o o n OFF 120VAC 50Hz-60Hz 240VAC 50Hz-6OHz Black Connect to separate white unswitched AC circuit Ground status LBD s NACI NAC2 NAC3 NAC4 NAC5 NAC6 DCPWR ® ® ® aaaaaaaa aaaaaaaa ❑ o eases 3I H N COMM. Fuse0 ❑ o eases sx ❑❑ ° ° o °11 o eases 33 ° ° o Besse S4 Pac[ory Installed 0 ° ° Interconnect. a AC Power o eases SS Low Battery 0 Commault ❑ ❑ ❑ ❑ ❑ ❑ 0 eases S6 8 ❑ El ease❑Bulk Options DEEDEE ❑ ❑ �❑ El ® ® ® ® ® ® ® ® NAC NAC2 NAC3 NAC4 NA 5 NAC6 CP R REF INl rN + NC CO M NO NC COM NO Battery+ Ll Common relays are Battery- Optional E.O.L. O non-power limited. Ref ce E.o.L. E.O.L. DC Power Trigger ii; - - + - + Battery connection(non-power limited). Note:PSN-64 and PSN-106 draw 15 mA when polarity reverses and the power Use two(2)12V batteries connected in series. supply is triggered.There is no current draw in Standby Mode. Engineering Specification The contractor shall supply and install the Potter PSN power supply.The assemblies.The LEDs shall have distinct flash patterns to provide further power supply shall operate on either 120 or 240 VAC input.The panel indication ofthe troubles present.The panel shall have selectable Trouble shall be capable of continuous load power without any degradation to Memory to provide the installer an indication that a past trouble existed the main supply or the distribution board.The cabinet shall be capable of on a circuit for diagnostic purposes. housing up to 18 AH batteries and the panel shall be capable of charging Each output of the power supply shall be capable of 3 amps of continuous up to 55 AH batteries in an external cabinet. power without degradation over time.The power supply shall provide for The panel shall have dip switches for simplistic configuration of the multiple circuits of strobe appliances.The power supply shall synchronize system and LEDs to provide visual indication to the installer of the status the flashes of any of the above listed strobe appliances on a per circuit of the system.The dip switches shall allow forAC power delay selection, basis.Up to four different strobe circuits may be connected and all of Class A/B operation per output,Door Holder Power options,constant the strobes shall flash in unison as required by UL 864.In addition to auxiliary power,trigger input type,ANSI Code 3 Temporal Code,Pass this Quadrasync feature, the panel shall allow any of the four above Thru(input tracking),Potter/AMSECO®sync,Gentex®Sync, System mentioned sync patterns as an input and pass this signal through and Sensor®Sync or Wheelock®sync.The LEDs shall provide indication synchronize the outputs to match the input flash pattern. of communication between the power supply and distribution circuit PRINTED IN USA MKT.#8910013-REV D PAGE 2 OF 2 1/18 2 of 11 DF-52384:D•E-160 SD355(A) Series Flre•LM ALarmS Addressable Photoelectric Smoke Detectors J by Honeywell Addressable Devices General The SD355(A), SD355T(A), and SD355R(A) addressable, low-profile plug-in photoelectric detectors use a state-of-the- art photoelectric sensing chamber with communications to provide open area protection and are used exclusively with Fire-Lite's Addressable Fire Alarm Control Panels (FACPs). The SD355T(A)adds thermal sensors that will alarm at a fixed ( l a temperature of 135°F (57C). Since these detectors are z addressable, they will help emergency personnel quickly locate a fire during its early stages, potentially saving precious * / rescue time while also reducing property damage. Two LEDs on each sensor light to provide a local, visible sensor indica- tion. Remote LED annunciator capability is available as an " optional accessory, PN RA100Z(A). The SD355R(A) is a SD355(A) in B210LP A Base remote test capable detector for use with D355PL(A) or DNR(A)/DNRW duct smoke detector housings. Features OPTIONS • Remote LED output connection, PN RA100Z(A). SLC LOOP • Two-wire loop connection. Applications • Unit uses base for wiring. Use photoelectric detectors in life-safety applications to pro- ADDRESSING vide a broad range of fire-sensing capability, especially where smoldering fires are anticipated. Ionization detectors are often • Addressable by device. better than photoelectric detectors at sensing fast, flaming • Rotary, decimal addressing: 01 —99 with MS-9200UD(LS), fires. and 01 —159 with MS-9600UD(LS). ARCHITECTURE Construction • Unique single-source, dual-chamber design to respond These detectors are constructed of off-white fire resistant plas- quickly and dependably to a broad range of fires. tic. SD355(A) series plug-in, low-profile smoke detectors are • Sleek, low-profile design. designed to commercial standards and offer an attractive appearance. • Integral communications and built-in type identification. • Built-in tamper-resistant feature. Installation • Removable cover and insect-resistant screen for simple SD355(A)series plug-in detectors use a detachable mounting field cleaning. base to simplify installation,service and maintenance. OPERATION Mount base (all base types) on an electrical backbox which is • Withstands air velocities up to 4,000 feet-per-minute(20 m/ at least 1.5" (3.81 cm)deep. For a chart of compatible junction sec.)without triggering a false alarm. boxes,see DF-60059. • Factory preset at 1.5% nominal sensitivity for panel alarm NOTE: Because of the inherent supervision provided by the SLC threshold level. loop, end-of-line resistors are not required. Wiring "Ttaps" or • Visible LED "blinks"when the unit is addressed (communi- branches are permitted for Style 4 (Class B) wiring. S0355R(A) cating with the fire panel)and latches on in alarm. mounts in a 0355PL(A)or DNR(A)/DNRW duct detector housing. MEC14ANICALS Operation • Sealed against back pressure. Each SD355(A) series detector uses one of 99 possible • Direct surface mounting or electrical box mounting. addresses on the MS-9200UD(LS) and up to 318 (159 on • Mounts to: single-gang box, 3.5" (8.89 cm) or 4.0" (10.16 each loop) on the MS-9600UD(LS) Signaling Line Circuit cm)octagonal box, or 4.0" (10.16 cm)square electrical box (SLC). It responds to regular polls from the system and reports (using a plaster ring—included). its type and status. OTHER SYSTEM FEATURES The addressable photoelectric sensor in the SD355(A) series has a unique unipolar chamber that responds quickly and uni- • Fully coated circuit boards and superior RF/transient pro- formly to a broad range of smoke conditions. It can withstand tection. wind gusts up to 4,000 feet-per-minute (20 m/sec.) without • 94-VO plastic flammability rating. sending an alarm level signal. Because of its unipolar cham- • Low standby current. ber, the SD355(A) series is approximately two times more responsive than most photoelectric sensors. This makes it a more stable detector. DF-523840•2/11/2015—Page 1 of 2 3 of 11 Detector Sensitivity Test SD355RA: Same as SD355R with ULC Listing for use with a D355PLA or DNRA duct detector housing; B21OLPA base Each detector can have its sensitivity tested (required per included. NFPA 72,Chapter 14 on Inspection,Testing and Maintenance) when installed/connected to a MS-92000D(LS) or MS- INTELLIGENT BASES 96000D(LS) addressable fire alarm control panel.The results NOTE:"A"suffix indicates ULC Listed model. of the sensitivity test can be printed off the MS-92000D(LS)or MS-96000D(LS)for record keeping. NOTE:The detector's plug-in base can be changed off for special applications. For details about intelligent bases and their mount- Specification ing,see DF-60059. B210LP(A): Plug-in detector base (included); standard U.S. Voltage range: 15-32 VDC(peak). flanged low-profile mounting base. Standby current:300 pA @ 24 VDC. B210LPBP: Bulk pack of B210LP; package contains 10. LED current:6.5 mA @ 24 VDC(latched"ON"). B501(A): Standard European flangeless mounting base. Air velocity:4,000 ft./min. (20 m/sec.) maximum. B501 BP: Bulk pack of B501; package contains 10. Size:2.1" (5.33 cm) high; base determines diameter. B200SR(A): Intelligent sounder base capable of producing -B210LP(A): 6.1" (15.5 cm)diameter. sound output with ANSI Temporal 3 or continuous tone. -B501(A):4.1" (10.4 cm)diameter. Replaces B501 BH series bases in retrofit applications. -B200SR(A):6.875" (17.46 cm)diameter. B224RB(A): Plug-in System Sensor relay base. Screw termi- nals: up to 14 AWG(2.0 mm2). Relay type: Form-C. Rating:2.0 -B224RB(A):6.2" (15.748 cm)diameter. A @ 30 VDC resistive; 0.3 A @ 110 VDC inductive; 1.0 A @ Weight:3.6 oz. (102 g). 30 VDC inductive. Operating temperature range: for S0355(A): 0°C to 49°C B224BI(A): Plug-in System Sensor isolator detector base. (32°F to 120°F);for S0355T(A): 0°C to 38°C (32°F to 100°F). Maximum 25 devices between isolator bases(see DF-52389). S0355R(A): installed in a DNR(A)/DNRW-20oC to 70oC (-4°F to 158°F). ACCESSORIES Temperature: 0°C-49°C(32°F-120°F). F110: Retrofit flange to convert B210LP(A) to match the B350LP(A) profile, or to convert older high-profile bases to Relative humidity: 10%-93%, non-condensing. low-profile. Listings F11013P: Bulk pack of F110; package contains 15. Listings and approvals below apply to the SD355(A), F210: Replacement flange for B210LP(A)base. SD355T(A), and SD355RT(A) detectors. In some cases, cer- RA100Z(A): Remote LED annunciator.3-32 VDC. Mounts to tain modules may not be listed by certain approval agencies, a U.S. single-gang electrical box. For use with B501(A) and or listing may be in process. Consult factory for latest listing B210LP(A) bases only. status. SMB600: Surface mounting kit • UL Listed:S1059. M02-04-00:Test magnet. • ULC Listed: S1059. M02-09-00:Test magnet with telescoping handle. • CSFM:7272-0075:0194. XR213: Detector removal tool. Allows installation and/or • MEA:243-02-E. removal of detector heads from bases in high ceiling applica- • FM approved. tions. XP-4: Extension pole for XR2B. Comes in three 5-foot Product Line Information (1.524 m)sections. NOTE:"A"suffix indicates ULC Listed model. T55-127-010: Detector removal tool without pole. SD355: Addressable photoelectric detector; B21 OLP base BCK-20OB: Black detector covers for use with SD355(A)only; included. box of 10. SD355A: Sames as SD355 with ULC Listing; B21OLPA base WCK-20OB: White detector covers for use with SD355(A) included. only; box of 10. SD355T: Same as SD355 but with thermal element; B21OLP base included. SD355TA: Same as SD355T with ULC Listing; B210LPA base included. SD355R: Remote test capable addressable photoelectric FireLiteO Alarms is a registered trademark of Honeywell International Inc. detector for use with a D355PL(A) or DNRA/DNRW duct 02015 by Honeywell International Inc.All rights reserved.Unauthorized use detector housing; B210LP base included. of this document is strictly prohibited. I�O 9001 This document is not intended to be used for installation purposes. We try to keep our product information up-to-date and accurate. We cannot cover all specific applications or anticipate all requirements. ENGINEERING&MANUFACTURING All specifications are subject to change without notice. QUALITY SYSTEMS For more information,contact Fire-Lite Alarms.Phone:(800)627-3473,FAX:(877)699-4105. www.firelite.com Page 2 of 2-DF-523840•2/11/2015 4 of 11 DF-52013:D•E-100 BG-12Lx (RIFIre-LiTeALarms Addressable Manual Pull Station by Honeywell Addressable Devices General The Fire-Lite BG-12LX is a state-of-the-art, dual-action (i.e., requires two motions to activate the station) pull station that includes an addressable interface (mounted inside) for - Fire-Lite's addressable fire alarm control panels (FACPs) Because the BG-12LX is addressable, the control panel can display the exact location of the activated manual station.This leads fire personnel quickly to the location of the alarm. Features PUSH IN • Maintenance personnel can open station for inspection and PULL DOWN address setting without causing an alarm condition. • Built-in bicolor LED, which is visible through the handle of the station, flashes in normal operation and latches steady red when in alarm. • Handle latches in down position and the word"ACTIVATED" appears to clearly indicate the station has been operated. • Captive screw terminals wire-ready for easy connection to _ SLC loop(accepts up to 12 AWG/3.25 mm2 wire). • Can be surface mounted (with SB-10 or SB-1/0) or semi- flush mounted. Semi-flush mount to a standard single- gang,double-gang,or 4" (10.16 cm)square electrical box. • Smooth dual-action design. N a' • Meets ADAAG controls and operating mechanisms guide- LL lines (Section 4.1.3[13]); meets ADA requirement for 5 lb. maximum activation force. • Highly visible. usually needed for semi-flush mounting with 4" (10.16 cm) or • Attractive shape and textured finish. double-gang boxes(not with single-gang boxes). • Key reset. • Includes Braille text on station handle. Operation • Optional trim ring(BG12TR). Pushing in,then pulling down on the handle causes it to latch in the down/activated position. Once latched, the word "ACTT- • Meets UL 38, Standard for Manually Actuated Signaling VATED" (in bright yellow) appears at the top of the handle, Boxes. while a portion of the handle protrudes from the bottom of the station. To reset the station, simply unlock the station with the Construction key and pull the door open.This action resets the handle;clos- Shell, door, and handle are molded of durable polycarbonate ing the door automatically resets the switch. material with a textured finish. Each manual station, on command from the control panel, sends data to the panel representing the state of the manual Specifications switch.Two rotary decimal switches allow address settings (1 —159 with Breakaway Tab removed for MS-9600 Series, 1 — • Shipping Weight: 9.6 oz. (272.15 g) 99 and MS-92000DLS, 1 —50 for MS-9050UD). • Normal operating voltage:24 VDC. • Maximum SLC loop voltage:28.0 VDC. Architectural/Engineering • Maximum SLC standby current: 375 NA. Specifications • Maximum SLC alarm current: 5 mA. Manual Fire Alarm Stations shall be non-coded, with a key- • Temperature Range:32°F to 120°F(0°C to 49°C) operated reset lock in order that they may be tested, and so • Relative Humidity: 10%to 93%(noncondensing) designed that after actual Emergency Operation, they cannot be restored to normal except by use of a key.An operated sta- • For use indoors in a dry location tion shall automatically condition itself so as to be visually detected as activated. Manual stations shall be constructed of Installation red-colored polycarbonate material with clearly visible operat- The BG-12LX will mount semi-flush into a single-gang,double- ing instructions provided on the cover. The word FIRE shall gang,or standard 4" (10.16 cm)square electrical outlet box,or appear on the front of the stations in white letters, 1.00 inches will surface mount to the model SB-10 or SB-1/0 surface back- (2.54 cm) or larger. Stations shall be suitable for surface box. If the BG-12LX is being semi-flush mounted, then the mounting on matching backbox SB-10 or SB-I/O;or semi-flush optional trim ring (BG12TR) may be used. The BG12TR is mounting on a standard single-gang, double-gang, or 4" (10.16 cm) square electrical box, and shall be installed DF-520130•4/13/2012—Page 1 of 2 5 of 11 within the limits defined by the Americans with Disabilities Act (ADA) or per national/local requirements. Manual Stations shall be Underwriters Laboratories listed. Manual stations shall connect with two wires to one of the con- trol panel SLC loops. The manual station shall, on command from the control panel,send data to the panel representing the state of the manual switch. Manual stations shall provide address setting by use of rotary decimal switches. Product Line Information BG-12LX: Dual-action addressable pull station. Includes key locking feature. (Listed for Canadian and non-Canadian appli- cations.) SB-10: Surface backbox; metal. SB-1/0: Surface backbox; plastic. BG12TR:Optional trim ring. 17003: Keys,set of two. Agency Listings and Approvals In some cases, certain modules or applications may not be listed by certain approval agencies, or listing may be in pro- cess.Consult factory for latest listing status. • UUULC Listed: S711 (listed for Canadian and non-Cana- dian applications). • MEA:67-02-E. • CSFM: 7150-0075:0184. • FM Approved. Patented: U.S. Patent No. D428,351; 6,380,846; 6,314,772; 6,632,108. FireLite@ Alarms@ is a registered trademark of Honeywell International Inc. 02012 by Honeywell International Inc.All rights reserved.Unauthorized use of this document is strictly prohibited. I�O 9001 This document is not intended to be used for installation purposes. We try to keep our product information up-to-date and accurate. We cannot cover all specific applications or anticipate all requirements. ENGINEERING&MANUFACTURING All specifications are subject to change without notice. QUALITY SYSTEMS Made in the U.S.A. For more information,contact Fire-Lite Alarms.Phone:(800)627-3473,FAX:(877)699-4105. www.firelite.com Page 2 of 2—DF-520130•4/13/2012 6 of 11 (E) POTTER PE-HN, PE-HS, PE-ST Series The Symbol of Protection Horns, Horn/Strobes, and Strobes Features • LED Technology for Energy Efficiency: IIIII • Industry's lowest current draw,ensuring energy efficiency. �Q • Requires fewer power supplies and smaller wire gauge,reducing m wire rums. • 6 field-selectable settings for both wall and ceiling models. • Wall: 15 cd- 185 cd/Ceiling: 15 cd- 177 cd • 3 horn patterns(Continuous,T3,T3/T4)for fire and CO signaling in one device. • Strobe synchronization with Potter fire alarm control panels and power supplies. Ability to mix xenon and LED strobes in the same field of view. APPROVED LISTED Description Technical Specifications The Potter PE Series feature advanced LED technology with Mounting plate included with all models. a range of low and high candela settings for indoor wall and Wall-Mount Applications: ceiling-mount applications. Crafted with a low-profile design, • PE-HS and PE-ST are suitable for wall- these devices seamlessly complement building interiors. mount applications only. Rich in features,the devices offer 6 candela settings and 3 • Wall mounting options include single-gang, horn patterns within a single unit. Installation is simplified PE-SBB backboxes,or to 4"square with an with pre-wire/pre-test capabilities via a hinged mounting Mounting adapter kit. plate.Wall models follow a single-gang design, allowing Options(Indoor • PE-HN can be used for both wall and ceiling- tool-free setting changes. The PE Series is designed for 24V Only) mount applications. Ceiling-Mount Applications: operations. The PE-HN can also be used in 12V applications. . PE-HSC and PE-STC are designed for ceiling-mount applications only. High Efficiency, LED Technology • Ceiling mounting options include PE- The PE series of LED strobes utilize LED technology and SPKBB-C backboxes or to 4"square, 1 1/2" optical design to improve efficiency and reduce overall power or 2 1/8"and Octagonal, 1 ''/2"or 2 1/8"deep. consumption. Strobe models offer six candela settings(15, Wire Gauge #12 through#18 AWG 30, 75, 1010, 135, 185 cd for wall models and 15, 30, 75, Operating Temp 320F to 122°F(0°C to 50°C)maximum humidity 110, 150, 177 cd for ceiling models). 93/o Wall:4.79"H x 2.76"W x 1.18"D Product Listing: Dimensions Trimplate:5.25"H x 4.58"W x 0.32"D • UL Listed Ceiling:6.27"Diameter x 1.69"D Operating 12 VDC/VFWR:8-17.5 VDC/VFWR • FM Approved Voltage 24 VDC/VFWR: 16-33 VDC/VFWR(12 VDC • CSFM PE-HN/PE-HNC only) UL 1971,UL 1638,ULC S526. Selectable Strobe Output candela outputs for wall models(15,30,75, Rating 110, 135, 185)and ceiling models(15,30,75, 110, 150, 177). Synchronization Strobes can be synchronized with Potter fire Models alarm control panels and power supplies using Wheelock®sync protocol. Potter Electric Signal Company, LLC St. Louis, MO Phone: 800-325-3936 www.pottersignal.com 7 of 11 8830229-REV A 2/24 PAGE 1 OF 5 (E) POTTER PE-HN, PE-HS, PE-ST Series The Symbol of Protection Horns, Horn/Strobes, and Strobes PE-HS and PE-ST Switch Locations CANDELA Sound ® Candela Switch Up "°"u m Switch Up T31T4(L) 185 T31 135 CONT(L) 11010 T31T4(H) 75 T3(H) 30 CONT(H) 15 down down (Left Side) (Right Side) Cover ®' Removed PE-HSC and PE-STC Switch Locations Sound Candela Switch Up —r/� Switch Up DMI 30 con) 75 Tye W a 990 50 177 0 0 down TONE cnNnELn down SELECTOR SELE[LOR Cover Cover Removed Removed Dimensions 2.29----1—127 06.29 2.76 0 0 0m¢mo 0 0 000000®®m®o®®oo0o0 °o o°oo ®o°m o ® o 000°° °000 0 0 000 000000 m0oo o®® ®®000 om 4.53 �00°.00�-.o®0000000m s o omom0 o 0 0.00e000 ©POTTER 1.27 Potter Electric Signal Company, LLC St. Louis, MO Phone: 800-325-3936 www.pottersignal.com 8 of 11 8830229-REV A 2/24 PAGE 2 OF 5 (E) POTTER PE-HN, PE-HS, PE-ST Series The Symbol of Protection Horns, Horn/Strobes, and Strobes Regulated Voltage Range VDC Model Number Regulated Voltage Range VDC High dB Low dB PE-HN 8.0- 17.5 0.025 0.020 PE-HN 16.0-33.0 0.028 0.021 PE-STR & PE-HS Strobe Current Ratings 24 VDC(16-33 Volts) Model Number 15 cd 30 cd 75 cd 110 cd 135 cd 150 cd 177 cd 185 cd PE-ST 0.022 0.030 0.060 0.086 0.125 0.185 PE-STC 0.022 0.030 0.060 0.086 0.125 0.185 At Anechoic High Continuous PE-HS 0.037 0.046 0.077 0.109 0.146 0208. PE-HSC 0.037 0.046 0.077 0.109 0.146 0.208 At Anechoic Low Continuous PE-HS 0.030 0.039 0.070 0.102 0.139 0201. PE-HSC 0.030 0.039 0.070 0.102 0.139 0.201 PE-HN & PE-HS Horn Ratings PE-HN&PE-HS dBA Sound Output Reverberant dBA Per UL 464 Description Volume PE-HN @ 12V PE-HN,PE-HS @ 24V Continuous Horn High 80 80 Low 78 78 Notes: When the application requires T4;field devices must be set to T3/T4 Horn setting and in the Potter Programming Software the corresponding circuit be set to Wheelock T4 Potter Electric Signal Company, LLC St. Louis, MO Phone: 800-325-3936 www.pottersignal.com 9 of 11 8830229-REV A 2/24 PAGE 3 OF 5 (E) POTTER PE-HN, PE-HS, PE-ST Series The Symbol of Protection Horns, Horn/Strobes, and Strobes Specification & Ordering Information Model Number Part Number Mounting Strobe Candela Red White Lettering Horn Strobes PE-HSR 4871006 Wall 15,30,75, 110, 135, 185 X Fire PE-HSW 4871007 Wall 15,30,75, 110, 135, 185 X Fire PE-HSRC 4871008 Ceiling 15,30,75, 110, 150, 177 X Fire PE-HSWC 4871009 Ceiling 15,30,75, 110, 150, 177 X Fire Strobes PE-STR 4871002 Wall 15,30,75, 110, 135, 185 X Fire PE-STW 4871003 Wall 15,30,75, 110, 135, 185 X Fire PE-STRC 4871004 Ceiling 15,30,75, 110, 150, 177 X Fire PE-STWC 4871005 Ceiling 15,30,75, 110, 150, 177 X Fire Horns PE-HNR 4871000 Wall X No Lettering PE-HNW 4871001 Wall X No Lettering Accessories Model Number Part Number Description Mounting Red White PE-SBB-R 4871022 PE Series Backbox Wall X PE-SBB-W 4871023 PE Series Backbox Wall X PE-SPKBB-CR 4871026 PE Series Backbox Ceiling X PE-SPKBB-CW 4871027 PE Series Backbox Ceiling X Potter Electric Signal Company, LLC St. Louis, MO Phone: 800-325-3936 www.pottersignal.com 10 of 11 8830229-REV A 2/24 PAGE 4 OF 5 (E) POTTER PE-HN, PE-HS, PE-ST Series The Symbol of Protection Horns, Horn/Strobes, and Strobes Architect & Engineering Specifications The notification appliances shall be Potter PE-HS audible visual strobe appliances,PE-ST visual strobe appliances and PE-HN audible appliances for wall and ceiling-mount applications with a low-profile design or approved equals. The PE-HS and PE-ST strobes shall be listed for UL Standard 1971 (Emergency Devices for the Hearing-Impaired)for Indoor Fire Protection Service and UL 1638 (Visible Signaling Devices.The PE-HS and PE-HN Audibles shall be UL Listed under Standard 464(Fire Protective Signaling). All models shall meet the requirements of FCC Part 15 and ICES-003.All inputs shall be compatible with standard reverse polarity supervision of circuit wiring by a Fire Alarm Control Panel(FACP)with the ability to operate from 16 to 33 VDC/ VFWR. The PE-HS audible strobe and PE-ST strobe appliances shall produce a flash rate of one(1) flash per second over the Regulated Voltage Range and shall incorporate a Light Emitting Diode(LED)as the light source with a rugged Lexan®lens.The appliances shall be of low current design. The LED strobe flash duration shall be 20 ins. Where Multi-Candela appliances are specified,the strobe intensity shall have 6 field selectable settings at 15, 30, 75, 110, 135 and 185 candela for wall mount applications and 15, 30, 75, 110, 150 and 177 for ceiling applications. The selector switch for selecting the candela shall be tamper resistant. Appliances with candela settings shall show the candela selection in a visible location at all times when installed. The audible shall have a choice of three(3)horn patterns(high&low output): Continuous,T3, and T3/T4 for fire(T3)and CO(T4) signaling. The PE-HS audible strobe,PE-ST strobe, and PE-HN audible shall include a hinged mounting plate. Mounting options shall include PE-SBB backboxes, single-gang backbox and to 4" square with adapter kit for wall-mount models and PE-SPKBB backboxes,4" square, 1 1/2"or 2 1/8"deep and 4"Octagonal, 1 '/2"or 2 1/8"deep for ceiling models. Two wire appliance wiring shall be capable of directly connecting to the mounting base. Removal of an appliance shall result in a supervision fault condition by the Fire Alarm Control Panel(FACP). All notification appliances shall be backwards compatible. The PE-HS,PE-HN,and PE-ST wall models shall have a low profile measuring 4.79"H x 2.76"W x 1.18"D. The PE-HSC and PE-STC ceiling models shall have a low profile measuring 6.27"Diameter with 1.69"D. When synchronization is required,the appliance shall be compatible with Potter fire alarm control panels and power supplies with built-in Wheelock®sync protocol The strobes shall not drift out of synchronization at any time during operation. If the sync protocol fails to operate,the strobe shall revert to a non-synchronized flash-rate and still maintain(1)flash per second over its Regulated Voltage Range. Potter Electric Signal Company, LLC St. Louis, MO Phone: 800-325-3936 www.pottersignal.com 11 of 11 8830229-REV A 2/24 PAGE 5 OF 5 FIRE ALARM PERMIT APPLICATION For Instruction/Checklist,please click here Site Address: 17020 Smokey Point Blvd Project Name: I D Bat Project Valuation: 16400 Preferred Contact: O Owner OO Contractor Project Description: D Bat Tenant Improvement Owner Details Owner Name: Danna Gibson Office No.: Email Address: danna@dbatsmokeypoint.co Cell No.: 425-232-8234 Mailing Address: 4028 167th St NW City: Stanwood State: I WA Zip: 98292 Contractor Details Contractor Name: I Seacom Cabling INC Office No.: Email Address: cameronbye@callseacom.cc Cell No.: 425-953-7476 Mailing Address: 13014 Hoyt Ave City: Everett State: I WA Zip: 98201 L&I Contractor License Number: I SEAOC1944DO Expiration Date: mm/dd/yyyy REINSPECTION/PHASED INSTALLATION INSPECTIONS Submit Phasing Plan with Application—review and approval required TENANT IMPROVEMENT OR SYSTEM MODIFICATION (NFPA 72) Number of Devices" Device Fee Subtotal lto2 $ 75.00 = $0 3 to 5 $ 125.00 = $Q 6to 10 $ 175.00 = $0 11 to 20 $ 225.00 = $ 21 to 40 $300.00 = $ 300 41 to 100 IF $375.00 11 = $Q 101 to 200 $475.00 =F = $Q >200 $500.00 plus $50.00 per 100 additional devices (round up) Total Number of Devices= $500.00 + $ _ $ FACP/TRANSMITTER ModificationIF— $125.00 11 = $ PERMIT FEE SUBTOTALIF $ iwoo, O NEW COMMERCIAL SYSTEM (NFPA 72) Number of Devices" Device Fee Subtotal 1 to 100 $ 350.00 = $ 101 to 200 IF $ 475.00 = $ L==, >200 $500.00 plus $50.00 per 100 additional devices (round up) Total Number of Devices = $500.00 + $ _ $ FACP/TRANSMITTER New $200 = $ PERMIT FEE SUBTOTAL IF = $ E Plan review fee due at time of submittal TOTAL PERMIT FEE $ PLAN REVIEW FEE $U Processing/Technology Fee $ 25.00 TOTAL $= I hereby certify that I am the Owner OApplicant Contractor and authorized to sign this application and that the above information is correct and construction on, and the occupancy and the use of the above- described property will be in accordance with the laws, rules and regulation of the State of Washington, and the City of Arlington. Print Name: Cameron Bye Date: 03/25/2026 18204 59th Avenue NE • ' • 14 op Arlington, Washington 98223 to tt Phone: 360-403-3551 jNG� WASHINGTON C Fire - Fire Alarm Permit Parcel:00482800000104 Permit#:26-0243 Permit Address:17020 SMOKEY POINT BLVD Date Issued:April 2,2026 Description of Work:D Bat Tenant Improvement PERMIT EXPIRES 180 DAYS Valuation:$16400 AFTER DATE OF ISSUANCE. Code Year: OWNER APPLICANT CONTRACTOR Danna Gibson Cameron Bye Seacom Cabling Inc 4028 167th St NW 3014 Hoyt Ave 3014 Hoyt Ave,Everett,WA 98201 4259537476 425-953-7476 danna@dbatsmokeypoint.com cameronbye@callseacom.com cameronbye@callseacom.com registration_number:SEACOCI944DO PERMIT APPROVAL The issuance or granting of this permit shall not be construed to be a permit for, or approval of, any violation of this Code or any other ordinance or order of the City, of any state or federal law, or of any order, proclamation, guidance advice or decision of the Governor of this State. To the extent the issuance or granting of this permit is interpreted to allow construction activity during any period of time when such construction is prohibited or restricted by any state or federal law, or order, proclamation, guidance advice or decision of the Governor of this State, this permit shall not authorize such work and shall not be valid. The building official is authorized to prevent occupancy or use of a structure where in violation of this Code, any other City ordinances of this jurisdiction or any other ordinance or executive order of the City, or of any state or federal law, or of any order, proclamation, guidance advice or decision of the Governor. The building official is authorized to suspend or revoke this permit if it is determined to be issued in error or on the basis of incorrect, inaccurate or incomplete information, or in violation of any City ordinance, regulation or order, state or federal law, or any order, proclamation, guidance or decision of the Governor. It is unlawful to use or occupy a building or structure until a final inspection has been made and approval or a Certificate of Occupancy has been granted. This permit authorizes only the work noted and covers work to be done on private property only. Any construction on public domain (curbs, sidewalks, driveways, marquees, etc.) will require a separate permit. The property owner shall ensure that the construction project complies with all applicable zoning codes and regulations. The property owner shall also ensure that the construction project does not cause any adverse impact on the surrounding environment or community. The property owner shall be responsible for obtaining all necessary permits and approvals from the relevant authorities before commencing construction. The property owner shall ensure that the construction project complies with all applicable design review requirements. CONDITIONS 1.) Add exterior horn strobe facing Smokey Point Blvd. /parking lot 2.) Adhere to approved plans. 3.) approved plans shall be onsite for inspections. 4.) Call for inspections. INSPECTIONS Inspection Line: 360-403-3417 Call for inspections by 3:30 pm for next day inspection. Please allow 48 hours for Fire Inspections. Please provide the following information when leaving a message: Permit Number, Type of Inspection, and provide preference of morning or afternoon inspection. Inspection Portal: Please login to customer portal and submit for the desired inspection type for the permit. r Kevin Olander Building Official ASSOCIATED FEES Date Description Paid Date Amount Paid Balance March 25, 2026 Fire System Plan Review(006.345.83.00.02) $271.70 March 26, 2026 Processing/Technology(320.341.43.00.02) $25.00 March 30, 2026 Fire Alarm System Permit(006.322.10.00.01) $300.00 TOTAL: Permit Fees $596.70 $596.70 Credit/Debit Card 484 Payment Successful March 26, 2026 $271.70 $325.00 Credit/Debit Card 497 Payment Successful April 1, 2026 $325.00 $0.00 TENANT IMPROVEMENT IN PARTIAL BUILDING D =BAT ACADEMY General Notes: 1. Scope of work: This project shall include the installation of a new addressable initiating devices and notification devices on an existing Fire-Lite MS-92000DLS APPROX. T.I. SQ. FOOTAGE: 15,150 SQ. FT. Fire Alarm System. SedCom FIRE ALARM SYSTEM FIRE&SECURITY 3014 Hoyt Ave. 2. These drawings are diagrammatic. Refer to the architectural drawings for exact Everett,WA 98201,3 P:420.31].8259 F:425.31].8261 www.cellseac° m BUILDING SPRINKLER STATUS: FULLY 17020 SMOKEY POINT BLVD. dimensions. m SPRINKLERED 3. Installation shall comply with NEC, NFPA 72 and all other applicable codes as NICET ARLINGTON, WA 98223 required by the local authority having jurisdiction. 77] A PLAN PACE DESCRIPTIONKory Mehl 173N PI FA 1.0 COVER PAGE 4. Wiring depicted on these plans is schematic, actual wire locations may differ NICET FAS III#160751 ®Smokey Point Motor Inn y73rdPINE FA LEVEL182FIREALARMPLAN from these plans. Wiring shall be performed as actual building construction Olyri lol'IZZa Sunnse Es resso O Apmtm ntlmgton FA 1.2 CALCULATIONS ®&Pastattslian p E conditions allow and to minimize penetrations through area separation walls and KeyBank© Best West, BILL OF MATERIAL Arlington/Ma QUANTITY IS EXISTING MANUFACTURER PART NO DESCRIPTION fire rated walls. The use of a raceway is permitted as long as no 110 V or CL Teriyaki Bowl 1 X FIRELITE MS92000DL3 INTELLIGENT ADDRESSABLE FACP WITH Q BUILT-IN ALPOWECOMMUNICATOR higher voltage cables are in the same raceway. 1 POTTER PSN-106 10A CONVENTIONAL POWER SUPPLY WITH 0 MrnnnaIf, 6OUTPUTS © ADDRESSABLE MANUAL PULL STATION W 2 FIRELITE BG-12LX WITH INTERFACE MODULE MOUNTED Q Taco Time 0 - ADDRESSABLINSI RECESS PHOTO 5. Final ratings shall be maintained for all penetrations through fire rated ° 1 FIRELITE W-SD355 DETECTOR -O— _ -- — f ---- - __-, _ -- -- 1 POTTER PE-STW STROBE,WALL,WHITE construction. 11 POTTER PE-$TWC STROBE,CEILING,WHITE 3 POTTER PE-HSW 2-WIRE,HORN STROBE,WHITE _ -- 'Wendy_® 2 POTTER PE-HSWC 2-WIRE,HORN STROBE,CEILING,WHITE ADDITIONAL ASSEMBLY COMPONENTS AND UDLS MAIN 6. Power for all fire alarm panels and fire alarm power supplies must be provided 1 X FIRELITE MS92BOARD MAIN INTELLIGENMMUNICATORMT ADDRESSABLE FACP WITH it BOARD BUILT-IN COMMUNICATOR MAIN BOARD by a dedicated AC branch circuit. The location of the branch circuit breaker Safeway 1 POTTER PSN-106 MAIN BOARD PSN-106 MAIN BOARD RutuZune Auto Parts 0 cr "_" a DEVICE LEGEND shall be permanently identified at the control unit. Where a circuit breaker is the Auta°neotticlal > Z _ St,-aemzone o afle©,e- SYMBOL IS EXISTING QUANTITY MANUFACTURER PART NO DESCRIPTION p Cowes Home Improvement • a INTELLIGENT ADDRESSABLE FACP WITH disconnecting means, an approved breaker locking device shall be installed. N z FACU X 1 FIRELITE MS-92000DLS > p Y,,,Khchens 0 Y BUILT-IN COMMUNICATOR W F PertenFn —.—. E 10ACONVENTIONALPOWERSUPPLYWITH For fire alarm and/or signaling systems, the circuit disconnecting means shallOIL AC N 1 POTTER PSN-106 6OUTPUTS U ®Buffalo Wild Wln have a red marking. W ADDRESSABLE MANUAL PULL STATION ❑F 2 FIRELITE BG-12LX WITH INTERFACE MODULE MOUNTED INSIDE puts Bar — 0 andVes elLcensing Ai(imtyatArhngdon O ADDRESSABLE WIRELESS PHOTO 7. Power limited in non-power limited circuit wiring must remain separated in stets Pizza0 S W 1 FIRELITE W-SD355 DETECTOR 169th 51 NE - cabinet. All power limited circuit wiring must remain at least a quarter inch - -- - — 1 POTTER PE-STW STROBE,WALL,WHITE away from any non-power limited circuit wiring. Furthermore, all power limited &Roll 0 m More Key 0 ]69N,StNE 11 POTTER PESTWC STROBE,CEILING,WHITE and non-power limited circuit wiring must enter and exit the cabinet through a C different knockouts and or separate conduits. B 3 POTTER PE-HSW 2-WIRE,HORN STROBE,WHITE a ------- 169 Paralso Mexican Z 69th+�"E=------ �Sl NE Festenmm 9) 2 POTTER PE-HSWC 2-WIRE,HORN STROBE,CEILING,WHITE al Gourm 8. When utilizing class A circuits, separate outgoing and return conductors of class L11H et® 6 and Brews -Medallion Inn and Suites ,6Bit ° ADDITIONAL ASSEMBLY COMPONENTS AND HARDWARE a circuit by a minimum of 12 inches where run vertically and 48 inches where © _ ®The Point Bar X 1 FIRELITE MS-92000DLS MAIN INTELLIGENT ADDRESSABLE FACP WITH run horizontally. BOARD BUILT-IN COMMUNICATOR MAIN BOARD 1 POTTER PSN-106 MAIN BOARD PSN-106 MAIN BOARD N I TY MAP�p CABLE AND WIRE LEGEND vICRESISTANCE 9. All fire alarm cabling shall be acceptable to the fire alarm equipment MIT LABEL PART NO MANUFACTURER APPLICATION RESISTANCE AWG DESCRIPTION TOTALLENGTH A 16/2 FPLR GENERIC SLC 4.89 16 2 COND.SOLID COPPER FPLR ADDRESSABLE 425' V 1412FPLPIR GENERIC NAC 3.07 14 2COND.SOLIDCOPPERFPLP/RANALOGUNSHIELDED 672• manufacturer for the intended purpose. CD w N II M O 10. Smoke detector shall not be installed until after construction cleanup is M co completed and final. Z FIRE ALARM SYSTEM INPUT/OUTPUT OPERATIONAL MATRIX 11. Locate smoke detectors a minimum of 3 feet from mechanical supplies. o , SYSTEM OUTPUTS Wall-mounted smoke detectors shall be located a minimum of 4 inches and a NOTIFICATION maximum of 12 inches from ceilings. CONTROL UNIT ANNUNCIATION 12. Device addresses are to be field determined P�°Q °Q �Gc��P c''`PC�° T Y Y Y � o`` �cP` 5`P �'� �`' 13. Provide synchronization of all visual notification appliance circuits. GCS �P 0, J� y�G �(,� Q� yJ P. �0 14. Upon completion of the fire alarms stem installation andprogramming, the Q�\5o �- p p Y \��P installing contractor shall perform final testing of the entire system, per all P yJ a �� P 5 sy applicable codes, and shall coordinate and perform a final fire alarm system inspection. C C�JP G`JP G`JP `JP� �P `�JP `�JP \hQ3 QP�S P�5 P�5 Z LJ P P P P P P P o �Q �� 15. Provide offsite monitoring as required by the international fire code, section SYSTEM INPUTS A B C D E F G H I J K o 907.6.6 and the local authority having jurisdiction. Z LL N o 1 COMMON AREA SMOKE DETECTORS X X X X X 1 rn 0 2 COMMON AREA HEAT DETECTORS X X X X X 2 m Q 3 MANUAL PULL STATIONS X X X X X 3 16. Installing contractors shall physically label all initiating devices and notification Q o 4 SPRINKLER WATER FLOW x x x x x a appliance circuit end of lines (when wiring class B). These labels shall be in V = ° 5 SPRINKLER TAMPERS X X X X 5 Approved LU Q 6 FIRE ALARM SYSTEM SUPERVISORY X X X X 6 place prior to start up in testing. o> W 7 FIRE ALARM SYSTEM ALARM X X X X X 7 LU 8 FIRE ALARM SYSTEM TROUBLE X X X X 8 Steve Goforth, Fire Marshal W 9 FIRE ALARM SYSTEM AC POWER FAILURE X X X X 9 10 FIRE ALARM SYSTEM LOW BATTERY X X X X 10 ��� Subject to Field Review 11 FIRE ALARM SYSTEM OPEN CIRCUIT X X X X 11 4^ 12 FIRE ALARM SYSTEM G ROUND FAULT X X X X 12 13 1 13 03/30/2026 2:41:49 PM A B C D E F G H I J K 4' CO OR SMOKE DETECTOR THERMAL DETECTOR 6"FROM CEILING CEILING HORN/STROBE 12" MAX N1.01 EOL 4.7k N2.02EOL5.lk N2.01 NAC EXPANDER WALL HORN/STROBE ~ >cm 15cd 15cd POWER SUPPLY / \ i N 2 C� m N LU G ~W l ,v W Z a co co } Ll FACP BPS o �0 0 O VQmQ WYo ° aLL D 80"-96" o FROM EXISTING SLC�A JW FIRE �Za ALARM NAC J W 6 POWER O 6'0° S N1.15 EOL 5.1k N1.13 NI.12 Nl-10 Nl-07 N1-D6 Nl•05 Nl-04 Nl-03 N1cL_)od OL 15 CONTR Q 15cd N1A4 75c 15d i•11 15cd NI.09 Nl-08 15cd 15cd 15cd 15c 15c 42"FRONT ACCESS 75 48"SIDE ACCESS C PANEL SUPPLY E FIRE ALARM CONTROL PANEL I—TO EXISTING SLC FROM EXISTING SLC ,a ,A--------- L1 EQUIPMENT MOUNTING ELEVATIONS SHEET ®= REFERENCE (TYPICAL) NUMBER: FA 1 .0 5 4 3 L 1 1 ..J SeaCom 22' 0" NAC TRIGGER 3014 FROM EXISTING ACP S4.11 Everett,WA 98201 P:425.317.8259 F:425.317.8261 www.cellseac" m G 23 21 23 26 w NAC BOOS�61R F 1A NOT FICATI D CES NAC G m 06 N.I.C. FROM EXISTING SLC 21 • NP O 1 Ni 1 EOL Al OM EXIS SLC 21 J410MEETING AREA 20 Z 15 AGE 12'-0"CLR.,V.I. . FIL OM CO A2 1.01INS�LTpRUUNCGTEEOR ¢ S4.11�ry 1 54.11C 54.11 I 108 Nh FL ROO gEy�54.11 '02 00EOL 5.1 12 EO .11 C21)7 15cd VIEWU G AREA 27 C A IGN WALKWAY C 27 tv 11 Kory Mehl N2.01 24 EO EO NICET FAB111*110751 z 104C ip, v Nl-04 FE ry t FE 15cd F F rR S4.11 W < - LINE OF LEVEL N.I.C. 56.11 07 2 ABOVE aa 9 RE S4.'H CAGE 106 16 10 H 48'-0" Al A4.20 „ 67 SAGE _ �=f-0�" ONLY T.I. - FIRE ALARM PLAN - LEVEL 2 w6.10 48'-0" I TO SCALE ON 36'X 48"FORMAT '-2"' 11 MENS RESTROOM 5 o Z 105 16 S6.1 c CAGE Z w O 03 1- 48•-0•' a -1� y w 0 E I 22 CAGE NP' TYP. 51' 6" 07 I I I _ I I WA KWAY a B El 46 CAGE Z 01 11' 21/2" TYR I _ I I I N.I.C. 25 MACHINE _ N.I.C. cioOt W 52'_0" CD � .09 M �w O D N1 N N M M a E z m 25 MACHINE I 10 52'-0 I I I I _ I I _ z 02 MACHINE I 1- TYR 1- a m 52'_0" c c > L I I WALKWAY 104A I 6„ N110 Tic� U S4.11 Z 12 Ni•1 Z W O O W Sod MJM Q 67 2 W > rn O = V °� o � w N1.2 PITCHING PITCHING IY UJ 18'-87)b TUNNEL O wll TUNNEL MACHINE MACHINE O M W U I _3 _ = a W^' 2' IN. 14'-0" U) z 54.11 � B KEYPLAN: NOT TO SCALE Nl-14 STORAGE 75W PRO OP 103 N1.13 75cd 03 13 C 1 S4.11 S4.11 4'-2 M ER o 14'-0" 8'-0" 8'-0" 1- m N �E H 0 Lu H E7 102N•15�0 5. W oa A 15cd p C� U) c a F A U Yo00 a D 1 2 3 4 5 r U)J uj wY W Q 1 � ojAjj) D-BAT T.I. - FIRE ALARM PLAN - LEVEL 1 AREA OF WORK 1/8"=1'-0" ONLY TO SCALE ON 36'X 48"FORMAT 0 4' 8' 16' Scale:1/8"=V-0" SHEET REFERENCE NUMBER: FA 1 . 1 5 4 3 2 1 1 ..J SeaCom FIRE&SECURITY 3014 Hoyt Ave. Everett,WA 98201 P:.5.317.8259 F:425,317,8261 PANEL LOAD SUMMARY STANDBY CURRENT(AMPS) ALARM CURRENT(AMPS) CURRENTSUMMARY POWER SUMMARY -' �15ed�m<om CURRENT DRAW CURRENTDRAW MAX.CIRCUIT CURRENT(A): 3 STARTING MAX.V CALCVOLTAGE VOLTAGE: 2.37 m QTY PANT NO DESCRIPTION (A) TOTAL(A) (A) TOTAL TOTAL CIRCUIT CURRENT(A): 0.6890 MAX.VOLTAGE DROP: 2.37 PANEL COMPONENT SUMMARY SUMMARY REPORT SPARE CIRCUIT CURRENT(A): 2.31 VOLTAGE DROP 11.63% PSN-106 MAIN 1 PSN-106 MAIN BOARD ix0.075 =0.075 1x0.075 =0.075 N7 LUMP SUM REPORT SPARE CIRCUIT CURRENT%: 77.03% MIN.OPERATIONAL VOLTAGE: 16 BOARD PANEL POWER SUPPLY MAX CURRENT- 10A MAX.CARD CURRENT(A), Na END OF LINE VOLTAGE: 18.03 (NICET CIRCUIT TOTAL CARD CURRENT(A: 0,7480 WIRE RESISTANCE(Q/KFT): 3.07 , Nx0 =0 x0. 9 =0.689 SPARE CARD CURRENTTOTAL USED CAPACITY- 0.823A(8.23 %) SPAREC CARD CURB NT(%: TOTAL CRCUT: TOTALIRESSTANCELENGTHT CIRCUIT SUMMARY N22 1x0 0 1 x0.0505 9 --0.0590.059 (D): 3.44 = TOTAL STANDBY TOTAL ALARM CIRCUIT WIRING PROPMEASURED USING G RA FPLPIR NAC 14 AWG,2 COND.SOLID COPPER NAL LENGTH CA UNSHIELDED A CURRENT 0.075 CURRENT 0.823 DISTANCE MEASURED USING DRAWN SEGMENT LENGTHS WITH 10.00%ADDITIONAL LENGTH CALCULATED /'1 SYMBOL QUANTITY PART NO DESCRIPTION CANDELAS ALARM CURRENT(A) TOTAL CURRENT(A) 7! POINT-TO-POINT VOLTAGE DROP Kory Mehl CIRCUIT DETAILS AND CALCULATIONS STANDBY CURRENT ALARM CURRENT CALCULATION SUMMARY SPEAKER POWER/DB LOSS CALCULATIONS 1 PE-HSW 2-WIRE,HORN STROBE,WHITE 75CD 0.077 0.077 NICET FAS III#160751 CIRCUIT STARTING STARTING TOTALUSED CURRENT DRAW CURRENT DRAW END OF LINE TOTAL USED END OF LINE POWER LOSS SOURCE MAX CAPACITY AVAILABLE CAPACITY CIRCUIT AWG SYMBOL OTY PART NO DEVICE SETTING CIRCUIT LENGTH RESISTANCE TOTAL(A) TOTAL(A) CALCULATION VOLTAGE DROP CALCULATION TOTAL IDS LOSS VOLTAGE CAPACITY ((lift) (A) (A) VOLTAGE VOLTAGE WATTS VOLTAGE PERCENT 1 PE41SW 2-WIRE,HORN STROBE,WHITE 110CD 0.109 0.109 1 PE-HSW 75cd i x 0 =0 1 x 0.077 =0.077 d 1 PE41SW 2-WIRE,HORN STROBE,WHITE 135CD 0.146 0.146 1 PE-HSW 110cd 1x0 =0 1x0.109 =0,109 2-WIRE,HORN STROBE,CEILING, di 1 PE-HSWC WHITE 75CD 0.077 0.077 Q C p 1 PE-HSW 135cd 1x0 =0 1x0.146 =0,146 Ni 14 561' 0.00307 20.4v 18.8v 1.6v � 1 PE-STW STROBE,WALL,WHITE 75CD 0.06 0.06 PSN-106 MAIN 1 PE-HSWC 75cd 1 x 0 =0 1 x 0.077 =0,077 BOARD C 10 PESTWC STROBE,CEILING,WHITE 15CD 0.022 0.22 W CALCULATION METHODS: 1 PE 75cd 1 x 0 =0 1 x 0.06 =0.06 TOTAL RESISTANCE(Q)=WIRE RESISTANCE((LET)X 2 X TOTAL CIRCUIT LENGTH(FT) TOTAL VOLTAGE DROP=TOTAL RESISTANCE(Q)X TOTAL CIRCUIT CURRENT(A) 10 PE-STWC 15cd 10x0 =0 10x0.-2 =0.22 CURRENTSUMMARY POWER SUMMARY Z MAX.CIRCUIT CURRENT(A): 3 STARTING CALC.VOLTAGE: 20.40 O_ 1 PE-HSWC 15cd 1x0 =0 Ix0.037 =0.037 TOTAL CIRCUIT CURRENT(Ay. 0.059 MAX.VOLTAGE DROP: 0.02 (o Z C SPARE CIRCUIT CURRENT(A): 2.94 VOLTAGE DROP W 0.09% W 0 N2 14 50' 0.00307 20.4v 20.39v 0.01v N2 LUMP SUM REPORT SPARE CIRCUIT CURRENT 98.03% MIN.OPERATIONAL VOLTAGE: 16 w a MAX.CARD CURRENT(A): Na END OF LINE VOLTAGE: 20.38 K C 1 PE-STWC 15cd 1 x 0 =0 1 x 0.022 =0.022 TOTAL CARD CURRENT(A): 0.7480 WIRE RESISTANCE(Q/KFT): 3.07 y SPARE CARD CURRENT(A): TOTAL CIRCUIT LENGTH(FT): 50 w SECONDARY POWER SOURCE REQUIREMENTS SPARE CARD CURRENT%: TOTAL CIRCUIT RESISTANCE(Q): 0.308445 CIRCUIT WIRING PROPERTIES:'V'14/2 FPLPIR NAC 14 AWG,2 COND.SOLID COPPER FPLPIR ANALOG UNSHIELDED REQUIRED STANDBY TIME=24 HOURS DISTANCE MEASURED USING DRAWN SEGMENT LENGTHS WITH 10.00%ADDITIONAL LENGTH CALCULATED REQUIRED ALARM TIME MINUTES SYMBOL QUANTITY PART NO DESCRIPTION CANDELAS ALARM CURRENT(A) TOTAL CURRENT(A) SECONDARY STANDBY LOAD 0.075 x24 =1.8 AH SECONDARY ALARM LOAD 0.823 x0.08 =0.07 AH PROVIDE (2) 12V 7AH BATTERIES @ 24VDC �C WHITE 1 PE-HSWC 2-WIRE,HORN STROBE,CEILING, 15CD 0.037 0.037 STANDBY AND ALARM LOAD SUBTOTAL 1.87 AN DERATING FACTOR x 1.25 SECONDARY LOAD REQUIREMENTS(AMP HOURS) 2.34 AH O 1 PESTWC STROBE,CEILING,WHITE 15CD 0.022 0,022 !CALCULATON METHODS: TOTAL RESISTANCE(Q)=WIRE RESISTANCE((LET)X 2 X TOTAL CIRCUIT LENGTH(FT) TOTAL VOLTAGE DROP=TOTAL RESISTANCE(0)X TOTAL CIRCUIT CURRENT(A) JE CURRENT SUMMARY POWER SUMMARY LUMP SUM REPORT SUMMARY TOTAL CIRCUIT CURRENT DISTANCE MEASURED USING DRAWN SEGMENT LENGTHS WITH 10.00%ADDITIONAL LENGTH CALCULATED 0.6890 MAX.VOLTAGE DROP: 1.60 WIRE STARTING MIN. AI STARTING CALL. 2040 SOURCE CIRCUIT PART NO MAX.CARD TOTAL CARD SPARE CARD SPARE CARD MAX.CIRCUIT TOTAL CIRCUIT SPARE CIRCUIT SPARE CIRCUIT VTIRE GAUGE RESISTANCE TOTAL CIRCUIT TOTAL CIRCUIT CALCULATION OPERATIONAL 'VOLTAGE END OF LINE VOLTAGE DROP MAX.CIRCUIT CURRENT 3 SPARECIRCUIT 231 VOLTAGE: VOLTAGE DROP%: 7.84% CURRENT(A) CURRENT(A) CURRENT(A) CURRENT% CURRENT(A) CURRENT(A) CURRENT(A) CURRENT% (QIKET) LENGTH(FT) RESISTANCE(Q) VOLTAGE VOLTAGE DROP VOLTAGE N1 POINT-TO-POINT REPORT (A): CURRENT(A): Ni PSN-ID6MAIN 3 0.6890 2.31 77.03% 14 3.07 561 3.44 20.40 16 2.37 18.03 11.63% SPARE CIRCUIT MIN.OPERATIONAL (PSN-10fi) N/A 0.7480 co Ot O CURRENT%: 77.03% VOLTAGE: i6 END OF LINE VOLTAGE: 18.80 N2 BOARD 3 0.059 2.94 98.03% 14 3.07 50 0.308445 20.40 i6 0.02 20.38 0.09% CVO _ W TOTAL CARD CURRENT TOTAL CIRCUIT LENGTH CALCULATION METHODS: (A): 0.7480 WIRE RESISTANCE (FT): 561 TOTAL RESISTANCE(Q)=WIRE RESISTANCE(Q/FT)X 2 X TOTAL CIRCUIT LENGTH(FT) N II p SPARE CARD CURRENT (O/KFT): 3.07 TOTAL CIRCUIT TOTAL VOLTAGE DROP TOTAL RESISTANCE(0)X TOTAL CIRCUIT CURRENT(A) N (.0CIRCUIT WIRING PROPERTIES:'V'1412 FPLPIR NAC 14 AWG,2 COND.SOLID COPPER FPLPIR ANALOG UNSHIELDED MAX.CARD CURRENT(A): Na 3.44 00 CV (A): RESISTANCE(Q): SPARE CARD CURRENT M DISTANCE MEASURED MEASURED USING DRAWN SEGMENT LENGTHS WITH 10.00%ADDITIONAL LENGTH CALCULATED n M %: E REMAINING ALARM DISTANCE FROM RESISTANCE FROM VOLTAGE DROP FROM VOLTAGE DROP DEVICE LABEL PART NO DESCRIPTION CANDELAS ALARM CURRENT(A) CURRENT(A) PREVIOUS PREVIOUS(0) PREVIOUS VOLTAGE AT DEVICE TOTAL VOLTAGE DROP PERCENT Z N1.01 PE-STWC STROBE,CEILING,WHITE 15CD 0.022 0.6890 119 0.731 0.5 19.90 0.5 2.47% 75 Nl-02 PE-STWC STROBE,CEILING,WHITE 15CD 0.022 0.6670 25 0.151866 0.1 19.79 0.610 2.97% Q? .Q N Ni•03 PE-STWC STROBE,CEILING,WHITE 15CD 0.022 0.6450 15 0.0931 0.06 19.73 0.670 3.26% 0 N 0_ Nl-04 PE-STWC STROBE,CEILING,WHITE 15CD 0.022 0.6230 32 0.197538 0.12 19.61 0.790 3.86% Nl-05 PESTWC STROBE,CEILING,WHITE 15CD 0.022 0.6010 59 0.360478 0.22 19.40 1 4.93% N1•D6 PE-STWC STROBE,CEILING,WHITE 15CD 0.022 0.5790 37 0.230175 0.13 19.26 1.14 5.58% Ni•07 PE-STWC STROBE,CEILING,WHITE 15CD 0.022 0.5570 20 0.124777 0.07 19.19 1.21 5.92% Ni•OB PE-HSW 2-WIRE,HORN STROBE,WHITE 110CD 0.109 0.5350 6 0.034831 0.02 19.17 1.23 6.01% Nl-09 PE-HSW 2-WIRE,HORN STROBE,WHITE 135CD 0.146 0.426 67 0.41069 0.17 19 1.40 6.87% Nl-10 PE-STWC STROBE,CEILING,WHITE 15CD 0.022 0.28 53 0.325334 0.09 18.91 1.49 7.32% N1.11 PE-HSW 2-WIRE,HORN STROBE,WHITE 75CD 0.077 0.258 26 0.157413 0.04 18.87 1.53 7.51% PANEL N7.01 EOL 4.7K(PSN-108)BATTERY CALCULATION Ni•12 PE-STWC STROBE,CEILING,WHITE 15CD 0.022 0.181 19 0.113805 0.02 18.65 1.55 7.62% (SECONDARY POWER SOURCE REQUIREMENTS) Nl-13 PE-HSWC 2-WIRE,HORN STROBE,CEILING, 75CD 0.077 0.159 27 0.16791 0.03 18.82 1.58 7.75% WHITE STANDBY CURRENT SECONDARY CURRENT Nl-14 PESTW STROBE,WALL,WHITE 75CD 0.06 0.082 31 0.193024 0.02 18.80 1.60 7.82% QTY PART NO. DESCRIPTION CURRENT DRAW(A) TOTAL(A) CURRENT DRAW(A) TOTAL(A) N1.15 EOL 5.1K PE-STWC STROBE,CEILING,WHITE 15CD 0.022 0.022 25 0.152218 ONVENTIONAL POWER a CO PANEL COMPONENTS 1 PSN-106 0 0 0 0 SUP PLY WITH60UTPUTS CALCULATION METHODS: N a N RESISTANCE FROM PREVIOUS(Q)=WIRE RESISTANCE(DIET)X 2 X DIST.FROM PREVIOUS(FT) 1 PSN-106 MAIN BOARD PSN-106 MAIN BOARD 0.075 0.075 0.075 0.075 C C > VOLTAGE DROP FROM PREVIOUS=RESISTANCE FROM PREVIOUS(0)X REMAINING CURRENT(A) CIRCUIT MAX CARD AMPS USED CARD AMPS SPARE CARD AMPS SYMBOL QTY PARTNO DESCRIPTION CURRENT DRAW(A) TOTAL(A) CURRENT DRAW(A) TOTAL(A) 2 a 4,CURRENT SUMMARY POWER SUMMARY 1 PE-HSW 2-WIRE,HORN STROBE,WHITE 75CD 0 0 0.077 0.077 Q g TOTAL CIRCUIT CURRENT 0.059 MAX.VOLTAGE DROP: 0.01 A): STARTING CALL. 2040 2-WIRE,HORN STROBE,WHITE MAX.CIRCUIT CURRENT 3 SPARECIRCUIT 294 VOLTAGE: VOLTAGE DROP%: 0.05% 1 PE-HSW 110CD 0 0 0.109 0.109 N2 POINT-TO-POINT REPORT (A): CURRENT(A): SPARE CIRCUIT MIN.OPERATIONAL 98.03% 16 END OF LINE VOLTAGE: 20.39 CURRENT%: VOLTAGE: 2-WIRE,HORN STROBE,WHITE TOTAL CARD CURRENT 07480 TOTAL CIRCUIT LENGTH 50 � ,1 (A): WIRE RESISTANCE (FT): U CIRCUIT WIRING PROPERTIES:'V 1412 FPLPIR NAC 14 AWG,2 COND.SOLID COPPER FPLPIR ANALOG UNSHIELDED MAX.CARD CURRENT(A): Na SPARE CARD CURRENT (Q/KFT): 3.07 TOTAL CIRCUIT 0308444 Ni (A): RESISTANCE(Q): 2-WIRE,HORN STROBE,CEILING, z SPARE CARD CURRENT C 1 PE-HSWC WHITE 75CD 0 0 0.077 0.077 DISTANCE MEASURED USING DRAWN SEGMENT LENGTHS WITH 10.00%ADDITIONAL LENGTH CALCULATED %: N/A 0.748000 REMAINING ALARM DISTANCE FROM RESISTANCE FROM VOLTAGE DROP FROM VOLTAGE DROP DEVICE LABEL PART NO DESCRIPTION CANDELAS ALARM CURRENT(A) CURRENT(A) PREVIOUS PREVIOUS(0) PREVIOUS VOLTAGE AT DEVICE TOTAL VOLTAGE DROP PERCENT 1 PE-STW STROBE,WALL,WHITE 75CD 0 0 0.06 0.06 ; Q N2.01 PE-HSWC 2-WIRE,HORN STROBE,CEILING, J Q 15CD 0.037 0.059 17 0.105102 0.01 20.39 0.01 0.03% 0) IT WHITE MM N2.02EOL5.1K PE-STWC STROBE,CEILING,WHITE 15CD 0.022 0.022 33 0.203342 0 20.39 0.01 0.05% W H > a) CALCULATION METHODS: 10 PE-STWC STROBE,CEILING,WHITE 15CD 0 0 0.022 0.22 } > RESISTANCE FROM PREVIOUS(0)=WIRE RESISTANCE(DIET)X 2 X DIST.FROM PREVIOUS(FT) Q O F O VOLTAGE DROP FROM PREVIOUS=RESISTANCE FROM PREVIOUS(0)X REMAINING CURRENT(A) U = I- L) 2-WIRE,HORN STROBE,CEILING, 1 PE-HSWC WHITE 15CD 0 0 0.037 0.037 CC V LLI Q :N2 C G c)W w O 1 PESTWC STROBE,CEILING,WHITE 15CD 0 0 0.022 0.022 O LLI TOTAL STANDBY(A) 0.075 TOTAL ALARM(A) 0.8230 a REQUIRED STANDBY TIME(HOURS) 24 W REQUIRED ALARM TIME(MINUTES) 1 5 ''^^ SECONDARY STANDBY LOAD(A) 0.075 24 1.80 U) SECONDARY ALARM LOAD(A) 0.8230 1 0.083 1 0.069 POINT-TO-POINT REPORT SUMMARY 87 DISTANCE MEASURED USING DRAWN SEGMENT LENGTHS WITH 10.00%ADDITIONAL LENGTH CALCULATED STANDBY AND ALARM SUBTOTAL(AMP HOURS) 1.25 WIRE STARTING MIN. DEBATING FACTOR 1.25 MAX.CARD TOTAL CARD SPARE CARD SPARE CARD MAX.CIRCUIT TOTAL CIRCUIT SPARE CIRCUIT SPARE CIRCUIT TOTAL CIRCUIT TOTAL CIRCUIT MAX.VOLTAGE END OF LINE VOLTAGE DROP SECONDARY LOAD REQUIREMENTS(AMP HOURS) 2.34 SOURCE CIRCUIT PART NO CURRENT(A) CURRENT(A) CURRENT(A) CURRENT% CURRENT(A) CURRENT(A) CURRENT(A) CURRENT% WIRE GAUGE RESISTANCE LENGTH(F) RESISTANCE(Q) CALCULATION OPERATIONAL DROP VOLTAGE % PROVIDE(2)12V 7AH BATTERIES (O/KFT) VOLTAGE VOLTAGE 'BATTERY BOX SIZE CAPACITY NOT SPECIFIED.REFER TO MANUFACTURER DOCUMENTATION. Nl PSN-106MAIN 3 0.6890 2.31 77.03% 14 3.07 561 3.44 20.40 16 1.60 18.80 7.64% (PSN-106) N2 BOARD1llA 0.7480 3 0.059 2.94 98.03% 14 3.07 50 0.308444 20.40 1B 0.01 20.39 0.05% CALCULATION METHODS: RESISTANCE FROM PREVIOUS(0)=WIRE RESISTANCE(DIET)X 2 X DIST.FROM PREVIOUS(FT) VOLTAGE DROP FROM PREVIOUS=RESISTANCE FROM PREVIOUS(Q)X REMAINING CURRENT(A) r cq 2 m 00 W W oa co >- 93 D_ Q }z � V Yo a D Q 0z a a U)J W M U_ W CV Q O LL 9 � SHEET REFERENCE NUMBER: FA 1 .2 5 4 3 2 1