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FIR2021-0035+Fire_Alarm_Plan_Calcs_Voltage+4.14.2021_2.28.07_PM+2145637FIRE ALARM SYMBOL LEGEND NOTE: ALL SYMBOLS MAY NOT BE USED ON THIS PROJECT SYMBOL DESCRIPTION MANUF. & PART # MOUNTING MOUNT IN QTY FRCP FIRE ALARM CONTROL PANEL POTTER - IPA-4000 WALL - TOP @ 66" CABINET INCLUDED 1 FSA REMOTE ANNUNCIATOR POTTER - RA-650OR WALL - TOP @ 66" 4 SQ. DEEP W/ SINGLE GANG MUD RING - MOUNTED FLUSH 1 C MM FIRE ALARM COMMUNICATOR AES - 7707P WALL - TOP ® 66" CABINET INCLUDED 1 DOC DOCUMENT BOX SPACE AGE ELEC. - SS000691 WALL - TOP @ 66" CABINET INCLUDED 1 FSD FIRE / SMOKE DAMPER FIELD VERIFY BY OTHERS INSTALLED BY OTHERS 13 FPS1 FIRE ALARM POWER SUPPLY POTTER - PSN-1000E WALL - TOP @ 66" CABINET INCLUDED 7 �2 SMOKE DETECTOR POTTER - PAD100-PD CEILING 4 SQ. DEEP W/ SINGLE GANG MUD RING - MOUNTED FLUSH 15 CO CARBON MONOXIDE DETECTOR SYSTEM SENSOR - C01224TR CEILING 4 SQ. DEEP W/ SINGLE GANG MUD RING - MOUNTED FLUSH 2 HEAT DETECTOR POTTER - PAD100-HD CEILING 4 SQ. DEEP W/ SINGLE GANG MUD RING - MOUNTED FLUSH 1 @135 CONVENTIONAL HEAT DETECTOR SYSTEM SENSOR - 5601 P CEILING 4 SQ. DEEP W/ SINGLE GANG MUD RING - MOUNTED FLUSH 3 DUCT SMOKE DETECTOR POTTER - PAD100-DUCT INDICATED DUCT DNR HOUSING 15 ©I MINI MONITOR MODULE POTTER - PAD100-MIM FIELD VERIFY 4 SQ. DEEP - MOUNTED FLUSH 5 MM MONITOR MODULE POTTER - PAD100-SIM FIELD VERIFY 4 SQ. DEEP - MOUNTED FLUSH 11 DM DUAL MONITOR MODULE POTTER - PAD100-DIM FIELD VERIFY 4 SQ. DEEP - MOUNTED FLUSH 7 RM RELAY MODULE POTTER - PAD100-RM FIELD VERIFY 4 SQ. DEEP - MOUNTED FLUSH 19 © PULL STATION POTTER - PAD100-PSSA WALL @ 48" 4 SQ. DEEP W/ SINGLE GANG MUD RING - MOUNTED FLUSH 1 VS SPRINKLER VALVE TAMPER FIELD VERIFY BY OTHERS INSTALLED BY OTHERS 9 WF SPRINKLER WATERFLOW FIELD VERIFY BY OTHERS INSTALLED BY OTHERS 8 STROBE SYSTEM SENSOR - SR(W)L WALL 80"-96" 4 SQ. DEEP W/ SINGLE GANG MUD RING - MOUNTED FLUSH 26 Z< HORN / STROBE SYSTEM SENSOR - P2R(W)L WALL 80"-96" 4 SQ. DEEP W/ SINGLE GANG MUD RING - MOUNTED FLUSH 59 wP HORN / STROBE (WEATHERPROOF) SYSTEM SENSOR - P2RK WALL 80"-96" 4 SQ. DEEP W/ SINGLE GANG MUD RING - MOUNTED FLUSH 3 r0J�< Wp L WATERFLOW ALARM SYSTEM SENSOR - P2RK WALL 80"-96" 4 SQ. DEEP W/ SINGLE GANG MUD RING - MOUNTED FLUSH 1 LOW -FREQUENCY HORN / STROBE SYSTEM SENSOR - P2R(W)L-LF WALL 80"-96" 4 SQ. DEEP W/ SINGLE GANG MUD RING - MOUNTED FLUSH 27 LOW -FREQUENCY SOUNDER SYSTEM SENSOR - HR(W)L-LF WALL 80"-96" 4 SQ. DEEP W/ SINGLE GANG MUD RING - MOUNTED FLUSH 392 (H CEILING MOUNT HORN / STROBE SYSTEM SENSOR - PC2R(W)L CEILING 4 SQ. DEEP W/ SINGLE GANG MUD RING - MOUNTED FLUSH 24 ABBREVIATION DESCRIPTION ABBREVIATION DESCRIPTION O jDEVICE ADDRESS FP L1 SO01 OR M01 (L - DENOTES LOOP #) (s or M -DENOTES SENSOR OR MODULE #) E EXISTING AWG AMERICAN WIRE GAUGE G WITH GUARD TWP TWISTED PAIR P PENDENT MOUNT TWSP TWISTED SHIELDED PAIR R RESIDENTIAL 110V FPLP FIRE POWER LIMITED PLENUM 1-#16/2 TWP WIRE TYPE ABBREVIATED CONDUCTOR COUNT WIRE SIZE # OF CABLES (IF OMITTED ONLY 1 CABLE NEEDED) S SOUNDER BASE FPLR FIRE POWER LIMITED RISER WP WEATHERPROOF .°. -STROBE °: CANDELA 15 30 EOL END OF LINE RESISTOR EOLR END OF LINE RELAY Of O Q U Z z Q o Q J < Z L<L J < d C_ < C� < J J Ld OPERATIONS Q of N `` �_ w �` Q L� Q Q `` O o� Q O z J __j z O:fw o U QCn Z Q r"i MATRIX D' < Z > J Z =� J < J D W O H- O Uof o W m Cn < C5 J < < < < Q W c� o O w _j m w L� Of m z � CD ¢ U v � °° w °° °° a- o w > w li wElf o a < Cn < < < Cn ~ < a w li z cn Q w < w w < w < w < w < w�� < � Cn � to � Cn w < w < w < w < w < v) w w < w < LLJ�>>>>>>_zzzz>>>>>�>> FIRE ALARM INPUT < of U U U U U OJ U U SMOKE DETECTORS • • • • • • HEAT DETECTORS • • • • • PULL STATIONS • • • • • PRIMARY RECALL FLR, ELEV LOBBY SMOKE DET • • • • • • • ALTERNATE RECALL FLR, ELEV LOBBY SMOKE DET • • • • • • • TOP OF ELEV SHAFT SMOKE DET • • • • • • • ELEVATOR EQUIPMENT ROOM SMOKE DET • • • • • • • ELEVATOR EQUIPMENT ROOM HEAT DET • • • • • • • TOP OF ELEV SHAFT HEAT DET • • • • • • • WATERFLOW SWITCHES • • • • • • • VALVE SUPERVISORY SWITCHES • • • • DUCT DETECTORS • • • • • FIRE ALARM AC POWER FAIL • • • • FIRE ALARM LOW BATTERY • • • • OPEN CIRCUIT • • • • GROUND FAULT • • • • NAC SHORT CIRCUIT • • • • LOSS OF AC TO BUILDING • • • • 4" MIN 12" MAX A/C SUPPLY OR RETURN DIFFUSER CEILING -MOUNTED 4" MINI HEAT DETECTOR 6" tMIN. 36" MIN. AUDIBLE/VISUAL AUDIBLE -ONLY REMOTE ALARM CEILING MOUNTED NEVER AND/OR VISUAL APPLIANCES INDICATOR SMOKE/HEAT HERE ONLY APPLIANCE ElDETECTOR 0 WALL -MOUNTED PENDANT MOUNTED- AUDIBLE/VISUAL APPLIANCES CEILING MOUNTED-v AUDIBLE/VISUAL APPLIANCES HEAT DETECTOR DOOR WIDTH � LESS 3" FSA MAGNETIC [ DOOR FACP SYSTEM HOLDER RECORDS. 80"-96" 90" MIN. 10' MAX ® DOCUMENTS TO LOWEST WHERE CEILING AFF PART OF LENS HEIGHT ALLOWS 5' MAX. 66" TO 66" TO 66" TO FROM EXIT TOP OF TOP OF TOP OF FSA FACP CABINET FINISHED FLOOR FIRE ALARM DEVICE MOUNTING HEIGHTS SCALE: NOT TO SCALE 30' MAX AFF MANUAL 42"-48" PULL STATION 30' MAX AFF NOTE: MEASUREMENTS SHOWN ARE TO THE CLOSEST POINT OF DETECTOR 2" MAX WALL -MOUNTED SMOKE DETECTOR I SIDE WALL FINISHED WALL Door Finish: (X) Black Texture. (Standard Interior) () Stainless Steel. (Standard Exterior) () Other 0 a"d �3,th St SW 23400 Hwy 99, Edmonds, WA 98026 w A (I1 9 234th St SW Naz Auto Sales U-Haul :'Nei hborhood Dealer :g Cardealer i .. Caliber Collision9 ,+hirlyBall Park Edmonds Trailer Lane Park ,��,�rrt�,a�t� , VI C I N ITY MAP N SCHEMATIC: NOT TO SCALE Vikings Auto Services Pacific Park Apartment Homes L h Irw 234th St SW 234t y Fashion Imiages Wn's clothing store Requires Potter Lock GENERAL NOTES: 1. SCOPE OF WORK: THIS PROJECT SHALL INCLUDE THE INSTALLATION OF A NEW ADDRESSABLE FIRE ALARM SYSTEM WITH SPRINKLER MONITORING, STAIRWAY PRESSURIZATION, AND OCCUPANT NOTIFICATION. 2. THESE DRAWINGS ARE DIAGRAMMATIC. REFER TO THE ARCHITECTURAL DRAWINGS FOR EXACT DIMENSIONS. 3. INSTALLATION SHALL COMPLY WITH NEC, NFPA 72 AND ALL OTHER APPLICABLE CODES AS REQUIRED BY THE LOCAL AUTHORITY HAVING JURISDICTION. 4. WIRING DEPICTED ON THESE PLANS IS SCHEMATIC — ACTUAL WIRE LOCATIONS MAY DIFFER FROM THESE PLANS. WIRING SHALL BE PERFORMED AS ACTUAL BUILDING CONSTRUCTION CONDITIONS ALLOW AND TO MINIMIZE PENETRATIONS THROUGH AREA SEPARATION WALLS AND FIRE WALLS. THE USE OF A RACEWAY IS PERMITTED AS LONG AS NO 110V OR HIGHER VOLTAGE CABLES ARE IN THE SAME RACEWAY. 5. FIRE RATINGS SHALL BE MAINTAINED FOR ALL PENETRATIONS THROUGH FIRE —RATED CONSTRUCTION. 6. POWER FOR ALL FIRE ALARM PANELS AND FIRE ALARM POWER SUPPLIES MUST BE PROVIDED BY A DEDICATED AC BRANCH CIRCUIT. THE LOCATION OF THE BRANCH CIRCUIT BREAKER SHALL BE PERMANENTLY IDENTIFIED AT THE CONTROL UNIT, MECHANICALLY PROTECTED, ACCESSIBLE ONLY TO AUTHORIZED PERSONNEL AND SHALL BE RED AND LABELED "FIRE ALARM CIRCUIT CONTROL" IN ACCORDANCE WITH NFPA 72. 7. POWER —LIMITED AND NON POWER— LIMITED CIRCUIT WIRING MUST REMAIN SEPARATED IN CABINET. ALL POWER —LIMITED CIRCUIT WIRING MUST REMAIN AT LEAST 0.25" AWAY FROM ANY NONPOWER—LIMITED CIRCUIT WIRING. FURTHERMORE, ALL POWER —LIMITED AND NON POWER— LIMITED CIRCUIT WIRING MUST ENTER AND EXIT THE CABINET THROUGH DIFFERENT KNOCK OUTS AND/OR SEPARATE CONDUITS. 8. WHEN UTILIZING CLASS "A" CIRCUITS, SEPARATE OUTGOING AND RETURN CONDUCTORS OF CLASS "A" CIRCUITS BY A MINIMUM OF 12" WHERE RUN VERTICALLY AND 48" WHERE RUN HORIZONTALLY. 9. WHEN UTILIZING SHIELDED CABLE TIE SHIELDS THROUGH AND INSULATE AT EACH JUNCTION BOX. INSULATE AND TAPE BACK AT END. 10. ALL FIRE ALARM CABLING SHALL BE ACCEPTABLE TO THE FIRE ALARM EQUIPMENT MANUFACTURER FOR THE INTENDED PURPOSE. CABLES USED IN VERTICAL RUNS SHALL BE TYPE FPLP OR FPLR. CABLE SPLICES OR TERMINATIONS SHALL BE MADE IN LISTED FITTINGS, BOXES, ENCLOSURES, FIRE ALARM DEVICES, OR UTILIZATION EQUIPMENT. WHERE INSTALLED EXPOSED, CABLES SHALL BE ADEQUATELY SUPPORTED AND INSTALLED IN SUCH A WAY THAT MAXIMUM PROTECTION AGAINST PHYSICAL DAMAGE IS AFFORDED BY BUILDING CONSTRUCTION. WHERE LOCATED WITHIN 7 FT OF THE FLOOR, CABLES SHALL BE SECURELY FASTENED IN AN APPROVED MANNER AT INTERVALS OF NOT MORE THAN 18 IN. 11. SMOKE DETECTORS SHALL NOT BE INSTALLED UNTIL AFTER CONSTRUCTION CLEAN—UP IS COMPLETED AND FINAL. 12. LOCATE SMOKE DETECTORS A MINIMUM OF THREE (3) FEET FROM MECHANICAL DIFFUSERS. WALL —MOUNTED SMOKE DETECTORS SHALL BE LOCATED A MAXIMUM OF 12" FROM CEILING. 13. PROVIDE SYNCHRONIZATION OF ALL VISUAL NOTIFICATION APPLIANCE CIRCUITS. PROVIDE ALL REQUIRED SYNC MODULES. PROVIDE A MULTI —SYNC MODE SLAVE CONNECTION BETWEEN ALL SYNC MODULES. 14. VERIFY ALL FIELD SELECTABLE AUDIBILITY SETTINGS OF NOTIFICATION APPLIANCES WITH FIRE ALARM CONTRACTOR. 15. UPON COMPLETION OF THE FIRE ALARM SYSTEM INSTALLATION AND PROGRAMMING, THE INSTALLING CONTRACTOR SHALL PERFORM FINAL TESTING OF THE ENTIRE SYSTEM, PER ALL APPLICABLE CODES, AND SHALL COORDINATE AND PERFORM A FINAL FIRE ALARM SYSTEM INSPECTION. 16. PROVIDE OFF —SITE MONITORING AS REQUIRED BY THE INTERNATIONAL FIRE CODE, SECTION 907.6.5 AND THE LOCAL AUTHORITY HAVING JURISDICTION. 17. INSTALLING CONTRACTOR SHALL, PHYSICALLY, LABEL ALL INITIATING DEVICES AND NOTIFICATION APPLIANCE CIRCUIT END OF LINE (WHEN WIRING CLASS "B"). THESE LABELS SHALL BE IN PLACE PRIOR TO START—UP AND TESTING. 18. ROOMS CONTAINING CONTROLS FOR AIR—CONDITIONING SYSTEMS, SPRINKLER RISERS AND VALVES OR OTHER FIRE DETECTION, SUPPRESSION OR CONTROL ELEMENTS SHALL BE IDENTIFIED WITH PERMANENTLY MOUNTED SIGNS WITH LETTERING NOT LESS THAN 2 INCHES TALL WITH A PRINCIPAL STROKE OF NOT LESS THAN 3/8 INCH. LETTERS SHALL CONTRAST WITH BACKGROUND. SHEET NOTES: Qi ADDRESSABLE RELAY MODULE(S) AND MULTI —VOLTAGE CONTROL RELAY(S) PROVIDED FOR FIRE —SMOKE DAMPER CONTROL. INSTALLING CONTRACTOR SHALL FIELD VERIFY EXACT MOUNTING, CIRCUITING AND PROGRAMMING REQUIREMENTS. FIELD VERIFY EXACT QUANTITY AND LOCATIONS) WITH MECHANICAL DIVISION. <�> ADDRESSABLE MONITOR MODULE(S) PROVIDED TO MONITOR ALL WATER FLOW, PRESSURE SWITCHES, TAMPER SWITCHES AND POST INDICATING VALVES ASSOCIATED WITH THE FIRE SPRINKLER SYSTEM. INSTALLING CONTRACTOR SHALL FIELD VERIFY EXACT MOUNTING, CIRCUITING AND PROGRAMMING REQUIREMENTS. FIELD VERIFY EXACT QUANTITY AND LOCATION(S). O DUCT SMOKE DETECTORS PROVIDED WITHIN 5' OF FIRE/SMOKE DAMPER. CONTRACTOR SHALL FIELD VERIFY EXACT MOUNTING, CIRCUITING AND PROGRAMMING REQUIREMENTS. PROVIDE FOR SHUT DOWN OF THE ASSOCIATED DAMPER. FIELD VERIFY UNIT POWER SOURCE. USE MULTI —VOLTAGE CONTROL RELAY(S) IF REQUIRED. FIELD VERIFY EXACT QUANTITY AND LOCATION(S) WITH MECHANICAL DIVISION. PROVIDE REMOTE ALARM/SUPERVISORY INDICATION IN A LOCATION ACCEPTABLE TO THE LOCAL AHJ WHEN IN —DUCT SMOKE DETECTOR INDICATOR IS NOT VISIBLE TO RESPONDING PERSONNEL. O PROVIDE HEAT DETECTOR(S) WITHIN 24" OF EACH SPRINKLER HEAD IN THE ELEVATOR CONTROL ROOM AND HOISTWAY(S). HEAT DETECTORS SHALL HAVE A LOWER TEMPERATURE RATING THAN THE SPRINKLERS IN THE AREA AND BE MONITORED FOR INTEGRITY. O ADDRESSABLE RELAY MODULES (4) PROVIDED FOR THE ELEVATOR RECALL AND SHUT DOWN. TIE TO ELEVATOR EQUIPMENT ROOM DETECTOR(S), HOISTWAY DETECTOR(S) AND LOBBY DETECTOR(S) TO INITIATE RECALL AND SHUT DOWN. ADDRESSABLE MONITOR MODULE PROVIDED TO MONITOR THE CONTROL CIRCUIT TO THE ELEVATOR SHUNT TRIP BREAKER FOR THE PRESENCE OF OPERATING VOLTAGE. LOSS OF VOLTAGE SHALL CAUSE A SUPERVISORY SIGNAL AT THE CONTROL PANEL. FIELD VERIFY EXACT MOUNTING, CIRCUITING AND PROGRAMMING REQUIREMENTS. O LOCATE DETECTOR(S) AT TOP OF ELEVATOR HOISTWAY. Drawings reviewed by: Brady B. Haws SET NICET Certification Fire Protection Engineering Technology Fire Alarm Systems - Level IV Cert. No. 138751 Exp 5/ 1/2022 .-N y� created by: 5794 W. 4600 So. Inc. Hooper, UT 84315 Office: 801.985.0410 Fax-801.704.0410 UNICAD z 0 a R (U Cn W 0 z O w 0 CL < w I> Of Of 0 0 w Cn Cn O LLJ W� U� Et� Uj 0 w I,_ (n LLJ Co a_O J v) co Q QoQ O � U _j U Coo I U�0N WI\ •-• c� z Ln w I —I �I N z N W = _j J a W 0 C� z a N O O 00 0 0) z a W n C W J O Cn qq z W M O N M O o z W a J a W W U. DRAWN CRL UNICAD JOB #21092 CHECKED BRADY B. HAWS NICET IV 138751 DATE 3/5/2021 REVISION 0 SCALE SMOKE CONTROL GRAPHIC PANEL SCHEMATIC NOT TO SCALE www.unicad.net FA-1 — — — — — — — — — — — — — -- — — — z z 0 0 I < Q �QOf IQ� 1 I U) �QW > rNn I l:z:Qw U I. —Of ¢(n1 U I.— [If acn0- 7.6.2 I I 7.6.1 FSD FPS6 WF VS FSD CO I FSD 1 135' 1 135' WF VS FPS7 FSD FSD L CO D RM D MM 2 DM 2 RM D I D RM 2 I 2 I DM RM D 2 MM D RM D RM I RM D S19 M34 S20 M35 S21 M36 S22 M38 S23 M39 S24 M40 S25 M41 S26 M42 M43 M45 S30 S27 M46 S28 M47 S29 M48 M49 I M50 S31 M37 M44 N 1.1.1 J Z J z QJ afJ M z WP075 U w U w �_ r � w J W Of Q 2 L J ELF Q� I� 2 (n� 1 135 [FPS WF VS VS VS WF WF VS WF VS FPS2 FSD FSD FSD ' FPS3 WF VS FSD ' ' FSD WF VS FPS4 FPS5 FSD FSD FSD 120 VAC FACP N 2 P I MM 1 2 RM RM RM RM MM DM 2 MM MM I MM 2 DM 2 DM 2 MM D RM RM D RM D MM 2 DM 2 RM D D RM 2 DM 2 MM MM D RM D RM RM (DEDICATED CKT.) S01 M01 M02 M03 S02 S03 M04 M05 M06 M07 M08 M09 SO4 M11 M12 M13 S05 M14 S06 M16 S07 M18 S08 M19 M20 S09 M21 S10 M22 S11 M23 S12 M25 S13 S14 M26 S15 M27 S16 M29 M30 S17 M31 S18 M32 M33 #16/2 TWP M10 I M15 M17 M24 M28 ®POTTER �� rya aiam cammi Panel 1 FSA as 0EB 0 P-LINK RA-6500R #14/4 AWG Imo NAC-1 -----� PSN POTTER1000 Qom #14/4 AWG w #14/2 AWG POWER 150 150 115 150 150 150 115 150 150 SUPPLY 1 H H H H H H H H H A ES 1.1.1 1. . 1. .3 1.1.4 1.1.5 1. . 1. .7 1. . 1.1.9 7707P P-LINK IN #14/2 AWG RJ31 X NAC-3 � DIALER #14/4 AWG P-LINK OUT WIRELESS 15 30 110 75 177 177 30 75 75 75 110 15 15 30 r1 ♦Oi ♦� ♦� ♦Oi H H ♦� ♦Oi ♦� ♦Oi ♦� ♦Oi ♦Oi ♦Oi cn IRE ALARM RJ31 X o o " ° 1.2.1 1.2.2 1.2.3 1.2.4 1.2.5 1.2.6 1.2.7 1.2.8 1.2.9 1.2.10 1.2.11 1.2.12 1.2.13 1.2.14 CO MUNICATOR NAC-4 `° FPS 1 #14/2 AWG 24V POWER FROM FACP 150 150 115 75 150 BATTERY 3 H H H NAC-5 `" 1.3.1 1.3.2 1.3.3 1.3.4 1.3.5 #14/2 AWG 120VAC NAC-6 `° 150 150 150 115 150 (DEDICATED CKT.) 4 H H H H H 1.4.1 1.4.2 1.4.3 1.4.4 1.4.5 #14/2 AWG C BATTERY BATTERY wp 30 5 177 177 177 15 30 15 110 75 NO CONDUIT IN BOTTOM OF CAN 5 C; H H H H ;o� ;o� ;o� of "< `° 1.5.1 1.5.2 1.5.3 1.5.4 1.5.5 1.5.6 1.5.7 1.5.8 1.5.9 1.5.10 0 120 VAC (DEDICATED CKT.) ~ BATTERY BATTERY NO CONDUIT IN BOTTOM OF CAN POTTER PSN-1000 POWER 15 F 185 F 15 F F F F F F F F 15 75 185 wp 110 30 15 SUPPLY1 ♦, ♦, ., ., ., ♦, ♦, ., 2.1.1 2.1.2 2.1.3 2.1.4 2.1.5 2.1.6 2.1.7 2.1.8 2.1.9 2.1.10 2.1.11 2.1.12 2.1.13 2.1.14 2.1.15 2.1.16 2.1.17 2.1.18 2.1.19 2.1.2 0 P -LINK IN #14/2 AWG P-LINK OUT 15 15 15 75 wp 110 30 F F F F F F #14/4 AWG �_412♦o FPS2 2.2.1 2.2.2 2.2.3 2.2.4 2.2.5 2.2.6 2.2.7 2.2.8 2.2.9 2.2.10 2.2.11 2.2.12 2.2.13 2.2.14 2.2.15 2.2.16 2.2.17 2.2.18 2.2.19 #14/2 AWG 15 F F F F F F F 15 15 F F F 3 ♦o ♦o. ♦o. 2.3.1 2.3.2 2.3.3 2.3.4 2.3.5 2.3.6 2.3.7 2.3.8 2.3.9 2.3.10 2.3.11 2.3.12 2.3.13 2.3.14 2.3.15 2.3.16 2.3.17 2.3.18 2.3.19 2.3.2 0 #14/2 AWG 15 185 Fii 17F F F 15 F 15 F ,O` ,O♦ ,O` ,O` 2.4.1 2.4.2 2.4.3 2.4.4 2.4.5 2.4.6 2.4.7 2.4.8 2.4.9 2.4.10 2.4.11 2.4.12 2.4.13 2.4.14 2.4.15 2.4.1 6 2.4.17 2.4.18 2.4.19 2.4.2 0 2.4.21 #14/2 AWG F F 1 5 F F 5 Li ♦o; a 2.5.1 2.5.2 2.5.3 2.5.4 2.5.5 2.5.6 2.5.7 2.5.8 2.5.9 2.5.10 120 VAC (DEDICATED CKT.) BATTERY I BATTERY NO CONDUIT IN BOTTOM OF CAN #14/4 AWG POTTER PSN-1000 POWER SUPPLY 1 P-LINK IN P-LINK OUT 2 FPS3 3 4 5 120 VAC (DEDICATED CKT.) - - BATTERY BATTERY NO CONDUIT IN BOTTOM OF CAN # 14/4 AWG POTTER PSN-1000 POWER SUPPLY 1 P-LINK IN P-LINK OUT 2 FPS4 3 #14/2 AWG r� r� ♦^,15 r2 3.1.1 3.1.2 3.1.3 3.1.4 3.1.5 3.1.6 3.1.7 3.1.8 3.1.9 #14/2 AWG � � 2 75 r� r� r� r� r� r� r� r� r� r� ,v,15 ,♦ ,v, ,♦ ,v,185 ,♦ r� r�;�, 3.2.1 3.2.2 3.2.3 3.2.4 3.2.5 3.2.6 3.2.7 3.2.8 3.2.9 3.2.10 3.2.11 3.2.12 3.2.13 3.2.14 3.2.15 3.2.16 3.2.17 3.2.18 #14/2 AWG 15 F F F F F F F 15 %v\ 3.3.1 3.3.2 3.3.3 3.3.4 3.3.5 3.3.6 3.3.7 3.3.8 3.3.9 3.3.10 3.3.11 3.3.12 3.3.13 3.3.14 3.3.15 3.3.16 3.3.17 3.3.1 8 #14/2 AWG/ 15 �7 F 15 F 185 15 �/// �// 15 15 �/// �// \^ ,v` . ,v` \ ,v� `^� c(' /\C ^( ,l/I M 3.4.1 3.4.2 3.4.3 3.4.4 3.4.5 3.4.6 3.4.7 3.4.8 3.4.9 3.4.10 3.4.11 3.4.12 3.4.13 3.4.14 3.4.15 3.4.16 3.4.17 3.4.18 3.4.19 3.4.2 0 3.4.21 #14/2 AWG F F 7 7 F F 17 15 F F 17 17 F F 17 17 1 5 F `O `O `0L 3.5.1 3.5.2 3.5.3 3.5.4 3.5.5 3.5.6 3.5.7 3.5.8 3.5.9 3.5.10 3.5.11 3.5.12 3.5.13 3.5.14 3.5.15 3.5.16 3.5.17 3.5.18 3.5.19 3.5.2 0 #14/2 AWG 15 r� -1/ 4.1.1 4.1.2 4.1.3 4.1.4 4.1.5 4.1.6 4.1.7 4.1.8 4.1.9 4.1.10 #14/2 AWG i El 4.2.1 4.2.2 4.2.3 4.2.4 4.2.5 4.2.6 4.2.7 4.2.8 4.2.9 #14/2 AWG 4.3.1 4.3.2 4.3.3 4.3.4 4.3.5 4.3.6 4.3.7 4.3.8 4.3.9 4.3.10 4.3.11 4.3.12 4.3.13 4.3.14 4.3.15 4.3.16 4.3,17 #14/2 AWG 15 F F F F F F F F F F F F 15 4 ♦o, ♦o ra 4.4.1 4.4.2 4.4.3 4.4.4 4.4.5 4.4.6 4.4.7 4.4.8 4.4.9 4.4.10 4.4.11 4.4.12 4.4.13 4.4.14 4.4.15 4.4.1 6 4.4.1 7 4.4.18 #14/2 AWG 15 F07 F 185 15 F F F F F15 15 F F F F5 ZIT15 4.5.1 4.5.2 4.5.3 4.5.4 4.5.5 4.5.6 4.5.7 4.5.8 4.5.9 4.5.10 4.5.11 4.5.12 4.5.13 4.5.14 4.5.15 4.5.16 4.5.1 7 4.5.18 4.5.19 4.5.2 0 4.5.21 #14/2 AWG 120 VAC (DEDICATED CKT.) BATTERY BATTERY NO CONDUIT IN BOTTOM OF CAN #14/2 AWG FIRE ALARM RISER DIAGRAM SCHEMATIC NOT TO SCALE #14/4 AWG POTTER PSN-1000 POWER SUPPLY 1 P-LINK IN P-LINK OUT 2 FPS5 3 In 120 VAC (DEDICATED CKT.) BATTERY I BATTERY NO CONDUIT IN BOTTOM OF CAN #14/4 AWG POTTER PSN-1000 POWER SUPPLY 1 P-LINK IN P-LINK OUT 2 FPS6 3 u 5 120 VAC (DEDICATED CKT.) - - BATTERY BATTERY NO CONDUIT IN BOTTOM OF CAN #14/4 AWG POTTER PSN-1000 POWER SUPPLY P-LINK IN P-LINK OUT FPS7 L 15 L- 15 I�I ♦0 r ♦0 I�I I�IFn 5.1.1 5.1.2 5.1.3 5.1.4 5.1.5 5.1.6 5.1.7 5.1.8 5.1.9 5.1.10 5.1.11 5.1.12 5.1.13 5.1.14 5.1.15 5.1.16 5.1.17 5.1.18 5.1.19 5.1.2 0 1 #14/2 AWG �7 I 5.2.1 5.2.2 5.2.3 5.2.4 5.2.5 5.2.6 5.2.7 5.2.8 5.2.9 5.2.10 #14/2 AWG 1 I -�Z15 �185 �30 15 �185 15 r—� r—��♦�� r—� r—� r—�,�♦r—�,�♦r—�.�♦r—�/♦ ♦ , ♦ i ♦�i ♦ , mar o\ „..,. 5.3.1 5.3.2 5.3.3 5.3.4 5.3.5 5.3.6 5.3.7 5.3.8 5.3.9 5.3.10 5.3.11 i #14/2 AWG 17 5.4.1 5.4.2 5.4.3 5.4.4 5.4.5 5.4.6 5.4.7 5.4.8 5.4.9 5.4.10 5.4.11 5.4.12 5.4.13 5.4.14 5.4.15 5.4.16 5.4.1 7 1 #14/2 AWG 15 F F F F F F i♦ F o5 I 5.5.1 5.5.2 5.5.3 5.5.4 5.5.5 5.5.6 5.5.7 5.5.8 5.5.9 5.5.10 5.5.11 5.5.12 5.5.13 5.5.14 5.5.15 5.5.16 5.5.17 5.5.18 1 #14/2 AWG I I I I I I I I I �185 1151�115 �15 6.1.1 6.1.2 6.1.3 6.1.4 6.1.5 6.1.6 6.1.7 6.1.8 6.1.9 6.1.10 6.1.11 6.1.12 6.1.13 6.1.14 6.1.15 6.1.16 6.1.1 7 6.1.18 6.1.19 6.1.2 0 6.1.21 #14/2 AWG 1 I F ��F77 F F F F F 15 F F F F F F F 15 F F I 6.2.1 6.2.2 6.2.3 6.2.4 6.2.5 6.2.6 6.2.7 6.2.8 6.2.9 6.2.10 6.2.11 6.2.12 6.2.13 6.2.14 6.2.15 6.2.16 6.2.17 6.2.18 6.2.19 6.2.20 1 #14/2 AWG I 15 I 6.3.1 6.3.2 6.3.3 6.3.4 6.3.5 6.3.6 6.3.7 6.3.8 6.3.9 6.3.10 #14/2 AWG I 7 7 �15 F 185 �30 15 �185 15 1 6.4.1 6.4.2 6.4.3 6.4.4 6.4.5 6.4.6 6.4.7 6.4.8 6.4.9 6.4.10 6.4.11 1 #14/2 AWG 1 F F F F F F F F 1 6.5.1 6.5.2 6.5.3 6.5.4 6.5.5 6.5.6 6.5.7 6.5.8 6.5.9 6.5.10 6.5.11 6.5.12 6.5.13 6.5.14 6.5.15 6.5.16 6.5.17 1 #14/2 AWG I i I i I 15 F 15 185 F 75 F F F 15 1 ♦, ♦, ♦, ., ♦,ar 1 7.1.1 7.1.2 7.1.3 7.1.4 7.1.5 7.1.6 7.1.7 7.1.8 7.1.9 7.1.10 7.1.11 7.1.12 7.1.13 7.1.14 7.1.15 7.1.16 7.1.17 7.1.18 7.1.19 #14/2 AWG I I 15 17 17 IF 17 15 F185 15 15 15 o� ,o♦ o� o� ,o� o� 7.2.1 7.2.2 7.2.3 7.2.4 7.2.5 7.2.6 7.2.7 7.2.8 7.2.9 7.2.10 7.2.11 7.2.12 7.2.13 7.2.14 7.2.15 7.2.16 7.2.17 7.2.18 7.2.19 7.2.20 7.2.21 1 #14/2 AWG I 15 185 F F F F 15 F F 15 1 3 ♦o, ♦o, .o, ♦a, 7.3.1 7.3.2 7.3.3 7.3.4 7.3.5 7.3.6 7.3.7 7.3.8 7.3.9 7.3.10 7.3.11 7.3.12 7.3.13 7.3.14 7.3.15 7.3.16 7.3.17 7.3.18 7.3.19 7.3.20 7.3.21 #14/2 AWG 1 F F 15 F I 4 ♦o " `� I 7.4.1 7.4.2 7.4.3 7.4.4 7.4.5 7.4.6 7.4.7 7.4.8 7.4.9 7.4.10 1 #14/2 AWG 15 F 17 IT E185 30 15 F185 15 - - - - - - 5 ♦o ♦o, ♦o, ♦o, ♦o ♦o �a .♦ ,. ,♦ ,♦ .♦ .♦ 7.5.1 7.5.2 7.5.3 7.5.4 7.5.5 7.5.6 7.5.7 7.5.8 7.5.9 7.5.10 7.5.11 1 #14/2 AWG 1 I 6 - - - - - - - - - - - - - - - - - - - - - - - - - - - Drawings reviewed y: #14/2 AWG Brady B. Haws SET 120 VAC (DEDICATED CKT.) BATTERY BATTERY NO CONDUIT IN BOTTOM OF CAN NICET Certification Fire Protection Engineering Technology Fire Alarm Systems - Level IV Cert. No. 138751 Exp 5/ 1/2022 shop drawings created by: 5794 W. 4600 So. Inc. Hooper, UT 84315 Office: 801.985.0410 UNIC Fax-801.704.0410 www.unicad.net - • -111111I . z O a U Cn w ❑ J 0 a w w 0 0 W Cn Cn z O c o Lu 0 w W~ Cn U Ct 3: UJ 0 w I� Cl 00 a_0 J 100 Q QoQJj UU _j U ��o WI\ •-• NzLn W JNzN W � _j Q 0 Q Q Z O Q oc w w � o � z M O N Q Z 0 J Q W W LL DRAWN CRL UNICAD JOB #21092 CHECKED BRADY B. HAWS NICET IV 138751 DATE 3/5/2021 REVISION 0 SCALE 1/8$$=1'-0" FA-2 FACP Battery Calculation PROJECT NAME: HWY 99 EDMONDS Required Standby Time: 24 Hours Required Alarm Time: 5 Minutes S stem Manufacturer Potter 3/29/2021 AC Branch Current AC Branch Current: 5.00 Am s ® 120V Re ulated Load in Standb Device T e Model Number of Devices Current Am s Total Current Am s FACP MAINBOARD P-LINK SUPERVISION ANNUNCIATOR IPA-4000 1 X 0.130000 = 0.130000 PSN-1000 7 X 0.015000 = 0.105000 RA-6500R PAD100-PD 1 15 X X 0.020000 0.000300 = = 0.020000 0.004500 SMOKE DETECTOR HEAT DETECTOR PAD100-HD 1 X 0.000300 = 0.000300 DUCT SMOKE DETECTOR PAD100-DUCT 13 X 0.000300 = 0.003900 MONITOR MODULE PAD100-SIM 11 X 0.000240 = 0.002640 DUAL MONITOR MODULE PAD100-DIM 7 X 0.000240 = 0.001680 MINI MONITOR MODULE PAD100-MIM 5 X 0.000200 = 0.001000 RELAY MODULE PULL STATION PAD100-RM 19 X 0.000240 = 0.004560 PAD100-PSSA 1 X 0.000200 = 0.000200 TOTAL STANDBY LOAD 0.273780 Re ulated Load in ALARM Device T e Number of Devices Current Am s Total Current Am s FACP MAINBOARD P-LINK SUPERVISION ANNUNCIATOR IPA-4000 1 X 0.220000 = 0.220000 PSN-1000 7 X 0.015000 = 0.105000 RA-6500R 1 X 0.025000 = 0.025000 SMOKE DETECTOR PAD100-PD 15 X 0.000300 = 0.004500 HEAT DETECTOR PAD100-HD 1 X 0.000300 = 0.000300 DUCT SMOKE DETECTOR PAD100-DUCT 13 X 0.000300 = 0.003900 MONITOR MODULE PAD100-SIM 11 X 0.000240 = 0.002640 DUAL MONITOR MODULE PAD100-DIM 7 X 0.000240 = 0.001680 MINI MONITOR MODULE PAD100-MIM 5 X 0.000200 = 0.001000 RELAY MODULE PAD100-RM 19 X 0.000240 = 0.004560 PULL STATION PAD100-PSSA 1 X 0.000200 = 0.000200 FACP-1 (See Voltage Drop Calculations) 0.176000 = 0.176000 FACP-2 (See Voltage Drop Calculations) 0.000000 = 0.000000 FACP-3 (See Voltage Drop Calculations) 0.000000 = 0.000000 FACP-4 (See Voltage Drop Calculations) 0.000000 = 0.000000 FACP-5 (See Voltage Drop Calculations) FACP-6 See Volta a Dro Calculations 0.000000 = 0.000000 0.000000 = 0.000000 TOTAL ALARM LOAD 0.544780 Battery Requirements Standby Load Current Am s 0.273780 Required Standby Time in Hours X 24.00000 = 6.570720 Alarm Load Current Am s 0.544780 Required Alarm Time in Hours X 0.083333 = 0.045398 Total Ampere Hours (before Berating factor) Deratin Factor X 6.616118 1.2 TOTAL AMPERE HOURS REQUIRED = 7.939342 BATTERIES TO BE PROVIDED 2 - 12v 12 AH FPS1 Battery Calculation PROJECT NAME: HWY 99 EDMONDS Required Standby Time: 24 Hours Required Alarm Time: 5 Minutes S stem Manufacturer Potter 4/8/2021 AC Branch Current AC Branch Current: 5.10 Am s ® 120V Re ulated Load in Standb Device Type Number Model of Devices Current Am s Total Current Am s FPS1 MAINBOARD PSN-1000 1 X 0.060000 = 0.060000 TOTAL STANDBY LOAD 0.060000 Regulated Load in ALARM Device Type Number of Devices Current Am s Total Current Am s FPS1 MAINBOARD PSN-1000 1 X 0.200000 = 0.200000 FPS1-1 (See Voltage FPS1-2 (See Voltage FPS1-3 (See Voltage Drop Calculations) Drop Calculations) Drop Calculations) 1.893000 = 1.893000 1.678000 = 1.678000 0.959000 1.055000 1.477000 = = = 0.959000 1.055000 1.477000 FPS1-4 (See Voltage Drop Calculations) FPS1-5 (See Voltage Drop Calculations) FPS1-6 (See Voltage Drop Calculations 0.000000 = 0.000000 TOTAL ALARM LOAD 7.262000 Batter Re uirements Standby Load Current (Amps) 0.060000 Required Standby Time in Hours X 24.00000 = 1.440000 Alarm Load Current Am s 7.262000 Required Alarm Time in Hours X 0.083333 = 0.605167 Total Ampere Hours (before Berating factor) berating Factor X 2.045167 1.2 TOTAL AMPERE HOURS REQUIRED = 2.454200 BATTERIES TO BE PROVIDED 2 - 12v 7 AH FPS2 Battery Calculation PROJECT NAME: HWY 99 EDMONDS Required Standby Time: 24 Hours Required Alarm Time: 5 Minutes S stem Manufacturer Potter 3/4/2021 AC Branch Current AC Branch Current: 5.10 Am s ® 120V Regulated Load in Standby Device T e Model Number of Devices Current Am s Total Current Am s FPS2 MAINBOARD PSN-1000 1 X 0.060000 = 0.060000 TOTAL STANDBY LOAD 0.060000 Regulated Load in ALARM Device T e Number of Devices Current Amps Total Current Am s FPS2 MAINBOARD FPS2-1 (See Voltage FPS2-2 (See Voltage FPS2-3 (See Voltage FPS2-4 (See Voltage FPS2-5 (See Voltage FPS2-6 See Volta a Drop Calculations) Drop Calculations) Drop Calculations) Drop Calculations) Drop Calculations) Dro Calculations PSN-1000 1 X 0.200000 2.391000 = 0.200000 = 2.391000 1.886000 = 1.886000 1.998000 = 1.998000 2.253000 = 2.253000 1.026000 = 1.026000 0.000000 = 0.000000 TOTAL ALARM LOAD 9.754000 Battery Requirements Standby Load Current (Amps) Required Standby Time in Hours 0.060000 X 24.00000 = 1.440000 Alarm Load Current (Amps) Required Alarm Time in Hours 9.754000 X 0.083333 = 0.812833 Total Ampere Hours (before Berating factor) Deratin Factor X 2.252833 1.2 TOTAL AMPERE HOURS REQUIRED = 2.703400 BATTERIES TO BE PROVIDED 2 - 12v 7 AH FPS3 Battery Calculation PROJECT NAME: HWY 99 EDMONDS Required Standby Time: 24 Hours Required Alarm Time: 5 Minutes S stem Manufacturer Potter 4/8/202, AC Branch Current AC Branch Current: 5.10 Am s ® 120V Regulated Load in Standby Device Type Model Number Current of Devices (Amps) Total Current Am s FPS3 MAINBOARD PSN-1000 1 X 0.060000 = 0.060000 TOTAL STANDBY LOAD 0.060000 Regulated Load in ALARM Device Tye Number of Devices Current (Amps) Total Current Am s FPS3 MAINBOARD FPS3-1 (See Voltage FPS3-2 (See Voltage FPS3-3 (See Voltage FPS3-4 (See Voltage FPS3-5 (See Voltage Drop Calculations) Drop Calculations) Drop Calculations) Drop Calculations) Drop Calculations) PSN-1000 1 X _ 0.200000 = 0.200000 0.918000 = 0.918000 2.087000 = 2.087000 1.825000 = 1.825000 2.189000 = 2.189000 2.052000 = 2.052000 FPS3-6 See Volta a Dro Calculations 0.000000 = 0.000000 TOTAL ALARM LOAD 9.271000 Batter Re uirements Standby Load Current (Amps) Required Standby Time in Hours 0.060000 X 24.00000 = 1.440000 Alarm Load Current Am s Required Alarm Time in Hours 9.271000 X 0.083333 = 0.772583 Total Ampere Hours (before Berating factor) berating Factor X 2.212583 1.2 TOTAL AMPERE HOURS REQUIRED = 2.655100 BATTERIES TO BE PROVIDED 2 - 12v 7 AH N CD N w --- Point Ln M z O a U w 0 J 0 Q w w G' 0 0 w Cn cn z O U o w O rr^^ W vJ� W� U`�' >>- �� UJ W � L�J 00 O J�00 Q O Q 00 UU�� U o �U�0N W'� -� W Nz� � UJ �_� �� N U. O r No Z 0 00 O Z O Q Q Roo J .. LU d7 QO J Z a � M � V W Q J Q W U. Drawings reviewed by: DRAWN CRL UNICAD JOB #21092 Brady B. Haws SET NICET Certification CHECKED NICET B. HAWS Fire Protection Engineering Technology NICET IV 138751 Fire Alarm Systems -Level IV DATE 3/5/2021 Cert. No. 138751 Exp 5/1/2022 REVISION o shop drawings SCALE 1/8"=1'-0" created by: Inc. 5794 W. 4600 So. Hooper, UT 84315 Office: 801.985.0410 Fax: 801.704.0410 N CA 111 11 p� IlIgI111 FA=3 www.unicad.net - • - - 3/4/2021 Point to Point NAC Volta e Dro Calculation 3 4 2021 Project Name HWY 99 EDMONDS Circuit Number FACP-1 Nominal System Voltage 20.4 volts Wire Resistance Minimum Device Voltage Distance from source to 1st device 16.0 volts Gau e Per 1000 409 feet 14 3.07 Wire Gauge for balance of circuit 14 3.07 Max Output Current 3.00 amps Total Circuit Current 0.176 amps End of Line Voltage 19.96 volts Notification A liance Manufacturer S stem Sensor Circuit is within limits Distance Circuit Device Device Previous Voltage aiDrop From Percent Identifier T e Current Device Device Source Drop 0.1.1 P2RK 75 0.176 409 19.96 0.442 2.17% Totals 0.176 409 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal . Point to Point NAC Volta e Dro Calculation 4/8/2021 Project Name HWY 99 EDMONDS Circuit Number FPS1-1 Nominal System Voltage 20.4 volts Wire Resistance Minimum Device Voltage Distance from source to 1st device 16.0 volts 55 feet Gau e Per 1000 14 3.07 Wire Gauge for balance of circuit 14 3.07 Max Output Current 3.00 amps Total Circuit Current 1.893 amps End of Line Voltage 16.87 volts Notification A liance Manufacturer S stem Sensor Circuit is within limits Distance Circuit Device Device Previous Volta e aiDro From 9 P Percent Identifier T e Current Device Device Source Dro 1.1.1 PC2RL 150 0.217 55 19.76 0.639 3.13% 1.1.2 PC2RL 150 0.217 71 19.03 1.370 6.72% 1.1.3 PC2RL 115 0.187 5 18.99 1.415 6.93% 1.1.4 PC2RL 150 0.217 86 18.31 2.086 10.23% 1.1.5 PC2RL 150 0.217 70 17.86 2.540 12.45% 1.1.6 PC2RL 150 0.217 71 17.49 2.905 14.24% 1.1.7 PC2RL 115 0.187 97 17.13 3.275 16.05% 1.1.8 PC2RL 150 0.217 61 16.96 3.438 16.85% 1.1.9 PC2RL 150 0.217 71 16.87 3.532 17.31 Totals 1.893 587 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal . Point to Point NAC Volta e Dro Calculation 3 4 2021 Project Name Circuit Number Nominal System Voltage Minimum Device Voltage Distance from source to 1st device Wire Gauge for balance of circuit Max Output Current Total Circuit Current End of Line Voltage Notification A liance Manufacturer HWY 99 EDMONDS FPS2-1 20.4 volts 16.0 volts 21 feet 3.00 amps 2.391 amps 17.23 volts System Sensor Wire Resistance Gauge Per 1000 14 3.07 14 3.07 Circuit is within limits Circuit Device Identifier T e Device Current Distance Previous Voltage alDrop From Device Device Source Percent Dro 2.1.1 SRL 15 0.043 21 20.09 0.308 1.51 % 2.1.2 P2RL-LF 185 0.266 27 19.70 0.698 3.42% 2.1.3 P2RL-LF 15 0.098 12 19.55 0.851 4.17% 2.1.4 HRL-LF 0.108 34 19.13 1.265 6.20% 2.1.5 HRL-LF 0.108 15 18.96 1.438 7.05% 2.1.6 HRL-LF 0.108 26 18.68 1.720 8.43% 2.1.7 HRL-LF 0.108 19 18.49 1.914 9.38% 2.1.8 HRL-LF 0.108 11 18.38 2.019 9.90% 2.1.9 HRL-LF 0.108 26 18.15 2.249 11.03% 2.1.10 HRL-LF 0.108 12 18.05 2.348 11.51 % 2.1.11 HRL-LF 0.108 24 17.87 2.529 12.39% 2.1.12 HRL-LF 0.108 12 17.79 2.611 12.80% 2.1.13 HRL-LF 0.108 23 17.65 2.754 13.50% 2.1.14 HRL-LF 0.108 13 17.57 2.826 13.85% 2.1.15 SRL 15 0.043 28 17.44 2.963 14.52% 2.1.16 P2RL-LF 75 0.158 17 17.36 3.042 14.91 2.1.17 P2RL-LF 185 0.266 15 17.30 3.096 15.18% 2.1.18 P2RK 110 0.212 26 17.25 3.149 15.44% 2.1.19 P2RL 30 0.074 23 17.23 3.165 15.52% 2.1.20 SRL 15 0.043 33 17.23 3.174 15.56% Totals 2.391 417 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal Point to Point NAC Volta e Dro Calculation 3/4/2021 Project Name HWY 99 EDMONDS Circuit Number FPS3-1 Nominal System Voltage 20.4 volts Wire Resistance Minimum Device Voltage Distance from source to 1st device 16.0 volts Gau e Per 1000 281 feet 14 3.07 Wire Gauge for balance of circuit 14 3.07 Max Output Current 3.00 amps Total Circuit Current 0.918 amps End of Line Voltage 18.25 volts Notification A liance Manufacturer S stem Sensor Circuit is within limits Distance Circuit Device Device Previous Voltage alDrop From Percent Identifier T e Current Device Device Source Drop 3.1.1 HRL-LF 0.108 281 18.82 1.584 7.76% 3.1.2 HRL-LF 0.108 15 18.74 1.658 8.13% 3.1.3 P2RL 15 0.054 34 18.59 1.805 8.85% 3.1.4 HRL-LF 0.108 37 18.45 1.952 9.57% 3.1.5 HRL-LF 0.108 23 18.37 2.028 9.94% 3.1.6 HRL-LF 0.108 12 18.34 2.060 10.10% 3.1.7 HRL-LF 0.108 27 18.29 2.114 10.36% 3.1.8 HRL-LF 0.108 11 18.27 2.129 10.43% 3.1.9 HRL-LF 0.108 27 18.25 2.147 10.52% Totals 0.918 467 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal . Point to Point NAC Voltage Dro Calculation 4/8/2021 Project Name HWY 99 EDMONDS Circuit Number FPS1-2 Nominal System Voltage 20.4 volts Wire Resistance Minimum Device Voltage Distance from source to 1st device 16.0 60 volts feet Gau e Per 1000 14 3.07 Wire Gauge for balance of circuit 14 3.07 Max Output Current 3.00 amps Total Circuit Current 1.678 amps End of Line Voltage 16.58 volts Notification Appliance Manufacturer S stem Sensor Circuit is within limits Distance Circuit Device Device Previous Voltage aiDrop From Percent Identifier T pe Current Device Device Source Dro 1.2.1 P2RL 15 0.054 60 19.78 0.618 3.03% 1.2.2 P2RL 30 0.074 38 19.40 0.997 4.89% 1.2.3 P2RL 110 0.162 48 18.95 1.454 7.13% 1.2.4 P2RL 75 0.121 59 18.44 1.957 9.59% 1.2.5 PC2RL 177 0.254 53 18.03 2.369 11.61 1.2.6 PC2RL 177 0.254 79 17.54 2.860 14.02% 1.2.7 P2RL 30 0.074 60 17.26 3.140 15.39% 1.2.8 P2RL 75 0.121 56 17.02 3.376 16.55% 1.2.9 P2RL 75 0.121 52 16.84 3.556 17.43% 1.2.10 P2RL 75 0.121 40 16.74 3.664 17.96% 1.2.11 P2RL 110 0.162 55 16.63 3.773 18.50% 1.2.12 SRL 15 0.043 31 16.60 3.804 18.65% 1.2.13 SRL 15 0.043 16 16.58 3.815 18.70% 1.2.14 P2RL 30 0.074 19 16.58 3.824 18.74% Totals 1.678 685 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). Point to Point NAC Volta e Dro Calculation 3 4 2021 Project Name Circuit Number Nominal System Voltage Minimum Device Voltage Distance from source to 1st device Wire Gauge for balance of circuit Max Output Current Total Circuit Current End of Line Voltage Notification Appliance Manufacturer HWY 99 EDMONDS FPS2-2 20.4 volts Wire 16.0 volts Gauge 29 feet 14 14 3.00 amps 1.886 amps 17.49 volts System Sensor Resistance Per 1000 3.07 3.07 Circuit is within limits Circuit Device Identifier T e Device Current Distance Previous Voltage alDrop From Device Device Source Percent Dro 2.2.1 SRL 15 0.043 0.043 29 27 20.06 19.76 0.336 1.65% 2.2.2 SRL 15 0.641 3.14% 2.2.3 SRL 15 0.043 21 19.53 0.873 4.28% 2.2.4 P2RL 75 0.121 32 19.18 1.219 5.97% 2.2.5 P2RK 110 0.212 11 19.07 1.329 6.52% 2.2.6 P2RL 30 0.074 39 18.73 1.670 8.19% 2.2.7 HRL-LF 0.108 37 18.42 1.977 9.69% 2.2.8 HRL-LF 0.108 12 18.33 2.068 10.14% 2.2.9 HRL-LF 0.108 27 18.14 2.256 11.06% 2.2.10 HRL-LF 0.108 12 18.07 2.332 11.43% 2.2.11 HRL-LF 0.108 26 17.92 2.478 12.15% 2.2.12 HRL-LF 0.108 12 17.86 2.538 12.44% 2.2.13 HRL-LF 0.108 23 17.76 2.637 12.93% 2.2.14 HRL-LF 0.108 28 17.66 2.739 13.43% 2.2.15 HRL-LF 0.108 16 17.61 2.787 13.66% 2.2.16 HRL-LF 0.108 24 17.56 2.843 13.94% 2.2.17 HRL-LF 0.108 16 17.53 2.869 14.07% 2.2.18 HRL-LF 0.108 32 17.50 2.901 14.22% 2.2.19 P2RL 15 0.054 39 17.49 2.914 14.29% Totals 1.886 463 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). Point to Point NAC Voltage Dro Calculation 3 4 2021 Project Name Circuit Number Nominal System Voltage Minimum Device Voltage Distance from source to 1st device Wire Gauge for balance of circuit Max Output Current Total Circuit Current End of Line Voltage Notification Appliance Manufacturer HWY 99 EDMONDS FPS3-2 20.4 volts 16.0 volts 47 feet 3.00 amps 2.087 amps 17.55 volts S stem Sensor Wire Resistance Gau e Per 1000 14 3.07 14 3.07 Circuit is within limits Circuit Device Identifier T pe Device Current Distance Previous Voltage aiDrop From Percent Device Device Source Dro 3.2.1 HRL-LF 0.108 47 19.80 0.602 0.748 2.95% 3.67% 3.2.2 HRL-LF 0.108 12 19.65 3.2.3 HRL-LF 0.108 34 19.26 1.139 5.58% 3.2.4 HRL-LF 0.108 15 19.10 1.301 6.38% 3.2.5 HRL-LF 0.108 26 18.83 1.565 7.67% 3.2.6 HRL-LF 0.108 19 18.65 1.746 8.56% 3.2.7 HRL-LF 0.108 11 18.56 1.843 9.03% 3.2.8 HRL-LF 0.108 26 18.34 2.055 10.08% 3.2.9 HRL-LF 0.108 12 18.25 2.146 10.52% 3.2.10 HRL-LF 0.108 24 18.09 2.310 11.32% 3.2.11 HRL-LF 0.108 12 18.02 2.384 11.69% 3.2.12 HRL-LF 0.108 23 17.89 2.511 12.31 3.2.13 HRL-LF 0.108 13 17.83 2.574 12.62% 3.2.14 SRL 15 0.043 28 17.71 2.692 13.19% 3.2.15 P2RL-LF 75 0.158 17 17.64 2.758 13.52% 3.2.16 P2RL-LF 185 0.266 15 17.60 2.803 13.74% 3.2.17 HRL-LF 0.108 31 17.56 2.844 13.94% 3.2.18 HRL-LF 0.108 12 17.55 2.852 13.98% Totals 2.087 377 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal . Point to Point NAC Voltage Dro Calculation 4/8/2021 Project Name HWY 99 EDMONDS Circuit Number FPS1-3 Nominal System Voltage 20.4 volts Wire Resistance Minimum Device Voltage Distance from source to 1st device 16.0 volts 85 feet Gau e Per 1000 14 3.07 Wire Gauge for balance of circuit 14 3.07 Max Output Current 3.00 amps Total Circuit Current 0.959 amps End of Line Voltage 19.21 volts Notification Appliance Manufacturer System Sensor Circuit is within limits Distance Circuit Device Device Previous Voltage aUrop From Percent Identifier Type Current Device Device Source Drop 1.3.1 PC2RL 150 0.217 85 19.90 0.501 2.45% 1.3.2 PC2RL 150 0.217 71 19.58 0.824 4.04% 1.3.3 PC2RL 115 0.187 59 19.39 1.014 4.97% 1.3.4 P2RL 75 0.121 62 19.26 1.143 5.60% 1.3.5 PC2RL 150 0.217 34 19.21 1.188 5.82% Totals 0.959 311 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). Point to Point NAC Voltage Drop Calculation 3/4/2021 Project Name Circuit Number Nominal System Voltage Minimum Device Voltage Distance from source to 1st device Wire Gauge for balance of circuit Max Output Current Total Circuit Current End of Line Voltage Notification Appliance Manufacturer HWY 99 EDMONDS FPS2-3 20.4 volts 16.0 volts 34 feet 3.00 amps 1.998 amps 17.39 volts System Sensor Wire Resistance Gauge Per 1000 14 3.07 14 3.07 Circuit is within limits Circuit Device Identifier Type Device Current Distance Previous Voltage aiDrop From Device Device Source Percent Drop 2.3.1 P2RL 15 0.054 0.108 34 19.98 0.417 2.04% 2.3.2 HRL-LF 38 19.53 0.871 4.27% 2.3.3 HRL-LF 0.108 12 19.39 1.006 4.93% 2.3.4 HRL-LF 0.108 31 19.07 1.335 6.54% 2.3.5 HRL-LF 0.108 27 18.80 1.603 7.86% 2.3.6 HRL-LF 0.108 12 18.69 1.715 8.41% 2.3.7 HRL-LF 0.108 25 18.47 1.930 9.46% 2.3.8 HRL-LF 0.108 12 18.37 2.026 9.93% 2.3.9 HRL-LF 0.108 20 18.23 2.172 10.65% 2.3.10 HRL-LF 0.108 12 18.15 2.251 11.04% 2.3.11 HRL-LF 0.108 26 17.99 2.406 11.80% 2.3.12 HRL-LF 0.108 13 17.92 2.475 12.13% 2.3.13 P2RL 15 0.054 33 17.77 2.629 12.89% 2.3.14 P2RL 15 0.054 18 17.69 2.706 13.27% 2.3.15 HRL-LF 0.108 32 17.57 2.834 13.89% 2.3.16 HRL-LF 0.108 11 17.53 2.870 14.07% 2.3.17 HRL-LF 0.108 27 17.46 2.942 14.42% 2.3.18 HRL-LF 0.108 13 17.43 2.967 14.55% 2.3.19 HRL-LF 0.108 27 17.40 3.003 14.72% 2.3.20 HRL-LF 0.108 12 17.39 3.011 14.76% Totals 1.998 435 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). Point to Point NAC Voltage Drop Calculation 3/4/2021 Project Name Circuit Number Nominal System Voltage Minimum Device Voltage Distance from source to 1st device Wire Gauge for balance of circuit Max Output Current Total Circuit Current End of Line Voltage Notification Appliance Manufacturer HWY 99 EDMONDS FPS3-3 20.4 volts 16.0 volts 29 feet 3.00 amps 1.825 amps 18.06 volts System Sensor Wire Resistance Gauge Per 1000 14 3.07 14 3.07 Circuit is within limits Circuit Device Identifier Type Device Current Distance Previous Voltage alDrop From Device Device Source Percent Drop 3.3.1 SRL 15 0.043 29 20.08 0.325 1.59% 3.3.2 HRL-LF 0.108 37 19.67 0.730 3.58% 3.3.3 HRL-LF 0.108 12 19.55 0.853 4.18% 3.3.4 HRL-LF 0.108 32 19.24 1.161 5.69% 3.3.5 HRL-LF 0.108 12 19.13 1.268 6.22% 3.3.6 HRL-LF 0.108 25 18.92 1.475 7.23% 3.3.7 HRL-LF 0.108 12 18.83 1.567 7.68% 3.3.8 HRL-LF 0.108 27 18.65 1.755 8.60% 3.3.9 HRL-LF 0.108 1 18.64 1.761 8.63% 3.3.10 HRL-LF 0.108 26 18.49 1.908 9.35% 3.3.11 HRL-LF 0.108 12 18.43 1.968 9.64% 3.3.12 HRL-LF 0.108 23 18.33 2.067 10.13% 3.3.13 HRL-LF 0.108 28 18.23 2.169 10.63% 3.3.14 HRL-LF 0.108 16 18.18 2.217 10.87% 3.3.15 HRL-LF 0.108 24 18.13 2.272 11.14% 3.3.16 HRL-LF 0.108 16 18.10 2.299 11.27% 3.3.17 HRL-LF P2RL 15 0.108 32 39 18.07 18.06 2.331 11.42% 3.3.18 0.054 2.343 11.49% Totals 1.825 403 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). Point to Point NAC Voltage Drop Calculation 4/8/2021 Project Name HWY 99 EDMONDS Circuit Number FPS1-4 Nominal System Voltage 20.4 volts Wire Resistance Minimum Device Voltage Distance from source to 1st device 16.0 volts 263 feet Gouge Per 1000 14 3.07 Wire Gauge for balance of circuit 14 3.07 Max Output Current 3.00 amps Total Circuit Current 1.055 amps End of Line Voltage 17.94 volts Notification Appliance Manufacturer System Sensor Circuit is within limits Distance Circuit Device Device Previous Voltage aiDrop From Percent Identifier Type Current Device Device Source Drop 1.4.1 PC2RL 150 0.217 263 18.70 1.704 8.35% 1.4.2 PC2RL 150 0.217 71 18.33 2.069 10.14% 1.4.3 PC2RL 150 0.217 59 18.11 2.294 11.24% 1.4.4 PC2RL 115 0.187 36 18.02 2.383 11.68% 1.4.5 PC2RL 150 0.217 56 17.94 2.458 12.05% Totals 1.055 485 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal Point to Point NAC Voltage Drop Calculation 3/4/2021 Project Name Circuit Number Nominal System Voltage Minimum Device Voltage Distance from source to 1st device Wire Gauge for balance of circuit Max Output Current Total Circuit Current End of Line Voltage Notification Appliance Manufacturer HWY 99 EDMONDS FPS2-4 20.4 volts 16.0 volts 31 feet 3.00 amps 2.253 amps 17.22 volts System Sensor Wire Resistance Gauge Per 1000 14 3.07 14 3.07 Circuit is within limits Circuit Device Identifier Type Device Current Distance Previous Voltage aiDrop From Percent Device Device Source Drop 2.4.1 SRL 15 0.043 31 19.97 0.429 2.10% 2.4.2 P2RL-LF 185 0.266 22 19.67 0.727 3.57% 2.4.3 HRL-LF 0.108 23 19.40 1.002 4.91 % 2.4.4 HRL-LF 0.108 12 19.26 1.137 5.57% 2.4.5 HRL-LF 0.108 23 19.02 1.381 6.77% 2.4.6 HRL-LF 0.108 12 18.90 1.501 7.36% 2.4.7 HRL-LF 0.108 24 18.68 1.723 8.45% 2.4.8 HRL-LF 0.108 12 18.57 1.827 8.95% 2.4.9 P2RL 15 0.054 38 18.27 2.129 10.44% 2.4.10 HRL-LF 0.108 35 18.00 2.396 11.75% 2.4.11 HRL-LF 0.108 12 17.92 2.480 12.16% 2.4.12 HRL-LF 0.108 25 17.76 2.637 12.93% 2.4.13 HRL-LF 0.108 12 17.70 2.705 13.26% 2.4.14 HRL-LF 0.108 23 17.58 2.819 13.82% 2.4.15 HRL-LF 0.108 12 17.53 2.871 14.07% 2.4.16 HRL-LF 0.108 24 17.44 2.958 14.50% 2.4.17 HRL-LF 0.108 12 17.41 2.994 14.68% 2.4.18 P2RL 15 0.054 38 17.32 3.082 15.11 % 2.4.19 HRL-LF 0.108 32 17.25 3.146 15.42% 2.4.20 HRL-LF 0.108 20 17.23 3.173 15.55% 2.4.21 HRL-LF 0.108 14 17.22 3.182 15.60% Totals 2.253 456 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). Point to Point NAC Voltage Drop Calculation 4/8/2021 Project Name Circuit Number Nominal System Voltage Minimum Device Voltage Distance from source to 1st device Wire Gauge for balance of circuit Max Output Current Total Circuit Current End of Line Voltage Notification A liance Manufacturer HWY 99 EDMONDS FPS3-4 20.4 volts 16.0 volts 34 feet 3.00 amps 2.189 amps 16.86 volts System Sensor Wire Resistance Gouge Per 1000 14 3.07 14 3.07 Circuit is within limits Circuit Device Identifier Type Device Current Distance Previous Voltage aiDrop From Device Device Source Percent Drop 3.4.1 P2RL 15 0.054 34 19.94 0.457 2.24% 3.4.2 HRL-LF 0.108 38 19.44 0.955 4.68% 3.4.3 HRL-LF 0.108 12 19.30 1.104 5.41 % 3.4.4 HRL-LF 0.108 31 18.93 1.470 7.20% 3.4.5 P2RL-LF 15 0.098 27 18.63 1.770 8.68% 3.4.6 P2RL-LF 185 0.266 12 18.50 1.896 9.29% 3.4.7 SRL 15 0.043 27 18.26 2.136 10.47% 3.4.8 HRL-LF 0.108 38 17.94 2.464 12.08% 3.4.9 HRL-LF 0.108 12 17.84 2.559 12.54% 3.4.10 HRL-LF 0.108 20 17.69 2.705 13.26% 3.4.11 HRL-LF 0.108 12 17.62 2.785 13.65% 3.4.12 HRL-LF 0.108 26 17.46 2.940 14.41 3.4.13 HRL-LF 0.108 13 17.39 3.009 14.75% 3.4.14 P2RL 15 0.054 33 17.24 3.162 15.50% 3.4.15 P2RL 15 0.054 18 17.16 3.239 15.88% 3.4.16 HRL-LF 0.108 32 17.03 3.367 16.50% 3.4.17 HRL-LF 0.108 11 17.00 3.403 16.68% 3.4.18 HRL-LF 0.108 27 16.93 3.475 17.03% 3.4.19 HRL-LF 0.108 13 16.90 3.501 17.16% 3.4.20 HRL-LF 0.108 27 16.86 16.86 3.537 3.545 17.34% 17.38% 3.4.21 HRL-LF 0.108 12 Totals 2.189 475 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal Point to Point NAC Voltage Drop Calculation 4/8/2021 Project Name HWY 99 EDMONDS Circuit Number FPS1-5 Nominal System Voltage 20.4 volts Wire Resistance Minimum Device Voltage Distance from source to 1st device 16.0 90 volts feet Gau e Per 1000 14 3.07 Wire Gauge for balance of circuit 14 3.07 Max Output Current 3.00 amps Total Circuit Current 1.477 amps End of Line Voltage 17.82 volts Notification Appliance Manufacturer System Sensor Circuit is within limits Distance Circuit Device Device Previous Voltage aiDrop From Percent Identifier Type Current Device Device Source Drop 1.5.1 P2RK 30 0.107 90 19.58 0.816 4.00% 1.5.2 PC2RL 75 0.143 23 19.39 1.010 4.95% 1.5.3 PC2RL 177 0.254 53 18.99 1.409 6.91 1.5.4 PC2RL 177 0.254 77 18.53 1.869 9.16% 1.5.5 PC2RL 177 0.254 77 18.19 2.209 10.83% 1.5.6 P2RL 15 0.054 80 17.96 2.437 11.95% 1.5.7 P2RL 30 0.074 23 17.90 2.495 12.23% 1.5.8 P2RL 15 0.054 11 17.88 2.518 12.34% 1.5.9 P2RL 110 P2RL 75 0.162 0.121 28 17.83 2.567 12.58% 1.5.10 19 17.82 2.581 12.65% Totals 1.477 481 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal) . Point to Point NAC Voltage Drop Calculation Project Name Circuit Number Nominal System Voltage Minimum Device Voltage Distance from source to 1st device Wire Gauge for balance of circuit Max Output Current Total Circuit Current End of Line Voltage Notification Appliance Manufacturer HWY 99 EDMONDS FPS3-5 20.4 volts 16.0 volts 41 feet 3.00 amps 2.052 amps 17.42 volts System Sensor Wire Gauge 14 14 Resistance Per 1000 3.07 3.07 Circuit is within limits Circuit Device Identifier T e Device Current Distance Previous Voltage aiDrop From Device Device Source Percent Drop 3.5.1 HRL-LF 0.108 41 19.88 0.517 2.53% 3.5.2 HRL-LF 0.108 24 19.60 0.803 3.94% 3.5.3 HRL-LF 0.108 12 19.46 0.938 4.60% 3.5.4 HRL-LF 0.108 23 19.22 1.182 5.80% 3.5.5 HRL-LF 0.108 12 19.10 1.302 6.38% 3.5.6 HRL-LF 0.108 24 18.88 1.525 7.47% 3.5.7 HRL-LF 0.108 12 18.77 1.628 7.98% 3.5.8 P2RL 15 0.054 38 18.47 1.930 9.46% 3.5.9 HRL-LF 0.108 35 18.20 2.197 10.77% 3.5.10 HRL-LF 0.108 12 18.12 2.281 11.18% 3.5.11 HRL-LF 0.108 25 17.96 2.438 11.95% 3.5.12 HRL-LF 0.108 12 17.89 2.506 12.28% 3.5.13 HRL-LF 0.108 23 17.78 2.620 12.84% 3.5.14 HRL-LF 0.108 12 17.73 2.672 13.10% 3.5.15 HRL-LF 0.108 23 17.64 2.756 13.51 3.5.16 HRL-LF 0.108 12 17.61 2.792 13.68% 3.5.17 P2RL 15 0.054 38 17.52 2.880 14.12% 3.5.18 HRL-LF 0.108 32 17.46 2.944 14.43% 3.5.19 HRL-LF 0.108 20 17.43 2.970 14.56% 3.5.20 HRL-LF 0.108 14 17.42 2.979 14.60% Totals 2.052 444 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). FPS4 Battery Calculation PROJECT NAME: HWY 99 EDMONDS Required Standby Time: 24 Hours Required Alarm Time: 5 Minutes S stem Manufacturer Potter 4/8/2021 AC Branch Current AC Branch Current: 5.10 Amps @ 120V N 0 N w --- H Ln Q r\ 0 Z O H a U w 0 J 0 Q w w 0 0 w V) cn z O o w O rr^^w v)� W� U �< �� W � Co Lw 00 0-O J�00 Q O 00 QU_�� U of �- U� o N rr^^ � v J W N z Ln w J Lo W , _J.� �� N O N �� O Z O O Q Q 2 Roo J 0 = - W U) U 00 J qq Z a � M � V W Q J W Drawings reviewed by: DRAWN CRL UNICAD JOB #21092 Brady B. Haws SET NICET Certification CHECKED BRADY B. HAWS Fire Protection Engineering Technology NICET IV 138751 Fire Alarm Systems -Level IV DATE 3/5/2021 Cert. No. 138751 Exp 5/1/2022 REVISION o shop drawings SCALE 1/8"=1'-O" created by: Inc. 5794 W. 4600 So. Hooper, UT M315 Office: 1.704. 410 o F A 4 Fax: 801.704.0410 Q N I C www.unicad.net - •illill I I 11111 -�� - cc ( ) LL (n @ 11 LL @ FPS5 Battery Calculation PROJECT NAME: HWY 99 EDMONDS Required Standby Time: 24 Hours Required Alarm Time: 5 Minutes S stem Manufacturer Potter 3/4/2021 AC Branch Current AC Branch Current: 5.10 Am s @ 120V Regulated Load in Standby Device Type Model Number of Devices Current (Amps) Total Current Am s FPS5 MAINBOARD PSN-1000 1 X 0.060000 = 0.060000 TOTAL STANDBY LOAD 0.060000 Re ulated Load in ALARM g Device T e Number of Devices Current Am s Total Current Am s FPS5 MAINBOARD PSN-1000 1 X 0.200000 2.052000 = = 0.200000 2.052000 FPS5-1 (See Voltage Drop Calculations) FPS5-2 (See Voltage Drop Calculations) 1.026000 1.327000 = = 1.026000 1.327000 FPS5-3 (See Voltage Drop Calculations) FPS5-4 (See Voltage FPS5-5 (See Voltage FPS5-6 See Volta e Drop Calculations) Drop Calculations) Dro Calculations 1.836000 = 1.836000 1.825000 = 1.825000 0.000000 = 0.000000 TOTAL ALARM LOAD 8.266000 Battery Requirements Standby Load Current (Amps) Required Standby Time in Hours 0.060000 X 24.00000 = 1.440000 Alarm Load Current Am s Required Alarm Time in Hours 8.266000 X 0.083333 = 0.688833 Total Ampere Hours (before derating factor) Derating Factor X 2.128833 1.2 TOTAL AMPERE HOURS REQUIRED = 2.554600 BATTERIES TO BE PROVIDED 2 - 12v 7 AH FPS6 Battery Calculation PROJECT NAME: HWY 99 EDMONDS Required Standby Time: 24 Hours Required Alarm Time: 5 Minutes S stem Manufacturer Potter 4/8/2021 AC Branch Current AC Branch Current: 5.10 Amps FPS7 Battery Calculation PROJECT NAME: HWY 99 EDMONDS Required Standby Time: 24 Hours Required Alarm Time: 5 Minutes S stem Manufacturer Potter 4/s/2o2, AC Branch Current AC Branch Current: 5.10 Amps Point to Point NAC Volta e Dro Calculation 3 4 2021 Project Name HWY 99 EDMONDS Circuit Number FPS4-1 Nominal System Voltage 20.4 volts Wire Resistance Minimum Device Voltage Distance from source to 1st device 16.0 volts 244 feet Gau a Per 1000 14 3.07 Wire Gauge for balance of circuit 14 3.07 Max Output Current 3.00 amps Total Circuit Current 1.026 amps End of Line Voltage 18.31 volts Notification A liance Manufacturer S stem Sensor Circuit is within limits Distance Circuit Device Device Previous Voltage a�Drop From Percent Identifier T e Current Device Device Source Dro 4.1.1 HRL-LF 0.108 244 18.86 1.537 7.53% 4.1.2 HRL-LF 0.108 13 18.79 1.610 7.89% 4.1.3 HRL-LF 0.108 23 18.68 1.725 8.45% 4.1.4 HRL-LF 0.108 13 18.62 1.781 8.73% 4.1.5 HRL-LF 0.108 24 18.53 1.868 9.16% 4.1.6 HRL-LF 0.108 13 18.49 1.907 9.35% 4.1.7 P2RL 15 0.054 28 18.43 1.972 9.67% 4.1.8 HRL-LF 0.108 42 18.34 2.056 10.08% 4.1.9 HRL-LF 0.108 12 18.33 2.072 10.15% 4.1.10 HRL-LF 0.108 25 18.31 2.088 10.24% Totals 1.026 437 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal . Point to Point NAC Volta e Dro Calculation 3 4 2021 Project Name Circuit Number Nominal System Voltage Minimum Device Voltage Distance from source to 1st device Wire Gauge for balance of circuit Max Output Current Total Circuit Current End of Line Voltage Notification A liance Manufacturer HWY 99 EDMONDS FPS5-1 20.4 volts Wire Resistance 16.0 volts Gau e Per 1000 41 feet 14 3.07 14 3.07 3.00 amps 2.052 amps 17.42 volts S stem Sensor Y Circuit is within limits Circuit Device Identifier T e Device Current Distance Previous Volta e a1Dro From Percent 9 P Device Device Source Dro 5.1.1 HRL-LF 0.108 41 19.88 0.517 2.53% 5.1.2 HRL-LF 0.108 24 19.60 0.803 3.94% 5.1.3 HRL-LF 0.108 12 19.46 0.938 4.60% 5.1.4 HRL-LF 0.108 23 19.22 1.182 5.80% 5.1.5 HRL-LF 0.108 12 19.10 1.302 6.38% 5.1.6 HRL-LF 0.108 24 18.88 1.525 7.47% 5.1.7 HRL-LF 0.108 12 18.77 1.628 7.98% 5.1.8 P2RL 15 0.054 38 18.47 1.930 9.46% 5.1.9 HRL-LF 0.108 35 18.20 2.197 10.77% 5.1.10 HRL-LF 0.108 12 18.12 2.281 11.18% 5.1.11 HRL-LF 0.108 25 17.96 2.438 11.95% 5.1.12 HRL-LF 0.108 12 17.89 2.506 12.28% 5.1.13 HRL-LF 0.108 23 17.78 2.620 12.84% 5.1.14 HRL-LF 0.108 12 17.73 2.672 13.10% 5.1.15 HRL-LF 0.108 23 17.64 2.756 13.51 5.1.16 HRL-LF 0.108 12 17.61 2.792 13.68% 5.1.17 P2RL 15 0.054 38 17.52 2.880 14.12% 5.1.18 HRL-LF 0.108 32 17.46 2.944 14.43% 5.1.19 HRL-LF 0.108 20 17.43 2.970 14.56% 5.1.20 HRL-LF 0.108 14 17.42 2.979 14.60% Totals 2.052 444 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal . Point to Point NAC Volta e Dro Calculation 4 8 2021 Project Name Circuit Number Nominal System Voltage Minimum Device Voltage Distance from source to 1st device Wire Gauge for balance of circuit Max Output Current Total Circuit Current End of Line Voltage Notification A liance Manufacturer HWY 99 EDMONDS FPS6-1 20.4 volts 16.0 volts 34 feet 3.00 amps 2.189 amps 16.86 volts S stem Sensor Wire Gau e 14 14 Resistance Per 1000 3.07 3.07 Circuit is within limits Circuit Device Identifier T e Device Current Distance Previous Voltage a�Drop From Device Device Source Percent Dro 6.1.1 P2RL 15 0.054 34 19.94 0.457 2.24% 6.1.2 HRL-LF 0.108 38 19.44 0.955 4.68% 6.1.3 HRL-LF 0.108 12 19.30 1.104 5.41 % 6.1.4 HRL-LF 0.108 31 18.93 1.470 7.20% 6.1.5 P2RL-LF 15 0.098 27 18.63 1.770 8.68% 6.1.6 P2RL-LF 185 0.266 12 18.50 1.896 9.29% 6.1.7 SRL 15 0.043 27 18.26 2.136 10.47% 6.1.8 HRL-LF 0.108 38 17.94 2.464 12.08% 6.1.9 HRL-LF 0.108 12 17.84 2.559 12.54% 6.1.10 HRL-LF 0.108 20 17.69 2.705 13.26% 6.1.11 HRL-LF 0.108 12 17.62 2.785 13.65% 6.1.12 HRL-LF 0.108 26 17.46 2.940 14.41 6.1.13 HRL-LF 0.108 13 17.39 3.009 14.75% 6.1.14 P2RL 15 0.054 33 17.24 3.162 15.50% 6.1.15 P2RL 15 0.054 18 17.16 3.239 15.88% 6.1.16 HRL-LF 0.108 32 17.03 3.367 16.50% 6.1.17 HRL-LF 0.108 11 17.00 3.403 16.68% 6.1.18 HRL-LF 0.108 27 16.93 3.475 17.03% 6.1.19 HRL-LF 0.108 13 16.90 3.501 17.16% 6.1.20 HRL-LF 0.108 27 16.86 3.537 17.34% 6.1.21 HRL-LF 0.108 12 16.86 3.545 17.38% Totals 2.189 475 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal . Point to Point NAC Volta a Dro Calculation 3 4 2021 Project Name Circuit Number Nominal System Voltage Minimum Device Voltage Distance from source to 1st device Wire Gauge for balance of circuit Max Output Current Total Circuit Current End of Line Voltage Notification A liance Manufacturer HWY 99 EDMONDS FPS7-1 20.4 volts 16.0 volts 29 feet 3.00 amps 2.076 amps 17.53 volts System Sensor Wire Gau e 14 14 Resistance Per 1000 3.07 3.07 Circuit is within limits Circuit Device Identifier T e Device Current Distance Previous Voltage aiDrop From Device Device Source Percent Dro 6.1.1 SRL 15 0.043 29 20.03 0.370 1.81 % 6.1.2 HRL-LF 0.108 37 19.57 0.832 4.08% 6.1.3 HRL-LF 0.108 12 19.43 0.973 4.77% 6.1.4 HRL-LF 0.108 32 19.07 1.330 6.52% 6.1.5 HRL-LF 0.108 12 18.94 1.456 7.14% 6.1.6 SRL 15 0.043 27 18.68 1.722 8.44% 6.1.7 P2RL-LF 185 0.266 22 18.47 1.932 9.47% 6.1.8 P2RL-LF 75 0.158 12 18.37 2.027 9.94% 6.1.9 HRL-LF 0.108 27 18.18 2.215 10.86% 6.1.10 HRL-LF 0.108 12 18.11 2.291 11.23% 6.1.11 HRL-LF 0.108 26 17.96 2.437 11.95% 6.1.12 HRL-LF 0.108 12 17.90 2.497 12.24% 6.1.13 HRL-LF 0.108 23 17.80 2.596 12.73% 6.1.14 HRL-LF 0.108 28 17.70 2.698 13.23% 6.1.15 HRL-LF 0.108 16 17.65 2.746 13.46% 6.1.16 HRL-LF 0.108 24 17.60 2.802 13.73% 6.1.17 HRL-LF 0.108 16 17.57 2.828 13.86% 6.1.18 HRL-LF 0.108 32 17.54 2.860 14.02% 6.1.19 P2RL 15 0.054 39 17.53 2.873 14.08% Totals 2.076 438 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal ). Point to Point NAC Volta e Dro Calculation 3 4 2021 Project Name HWY 99 EDMONDS Circuit Number FPS5-2 Nominal System Voltage 20.4 volts Wire Resistance Minimum Device Voltage Distance from source to 1st device 16.0 volts 214 feet Gau e Per 1000 14 3.07 Wire Gauge for balance of circuit 14 3.07 Max Output Current 3.00 amps Total Circuit Current 1.026 amps End of Line Voltage 18.50 volts Notification A liance Manufacturer S stem Sensor Circuit is within limits Distance Circuit Device Device Previous Voltage aUrop From Percent Identifier T e Current Device Device Source Dro 5.2.1 HRL-LF 0.108 214 19.05 1.348 6.61 % 5.2.2 HRL-LF 0.108 13 18.98 1.421 6.97% 5.2.3 HRL-LF 0.108 23 18.86 1.536 7.53% 5.2.4 HRL-LF 0.108 13 18.81 1.592 7.80% 5.2.5 HRL-LF 0.108 24 18.72 1.679 8.23% 5.2.6 HRL-LF 0.108 13 18.68 1.718 8.42% 5.2.7 P2RL 15 0.054 28 18.62 1.783 8.74% 5.2.8 HRL-LF 0.108 42 18.53 1.867 9.15% 5.2.9 HRL-LF 0.108 12 18.52 1.883 9.23% 5.2.10 HRL-LF 0.108 25 18.50 1.899 9.31 % Totals 1.026 407 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal Point to Point NAC Volta a Dro Calculation 3/4/2021 Project Name Circuit Number Nominal System Voltage Minimum Device Voltage Distance from source to 1st device Wire Gauge for balance of circuit Max Output Current Total Circuit Current End of Line Voltage Notification A liance Manufacturer HWY 99 EDMONDS FPS6-2 20.4 volts 16.0 volts 41 feet 3.00 amps 2.052 amps 17.42 volts S stem Sensor Wire Resistance Gau e Per 1000 14 3.07 14 3.07 Circuit is within limits Circuit Device Identifier T e Device Current Distance Previous Voltage alDrop From Device Device Source Percent Dro 6.2.1 HRL-LF 0.108 41 19.88 0.517 2.53% 6.2.2 HRL-LF 0.108 24 19.60 0.803 3.94% 6.2.3 HRL-LF 0.108 12 19.46 0.938 4.60% 6.2.4 HRL-LF 0.108 23 19.22 1.182 5.80% 6.2.5 HRL-LF 0.108 12 19.10 1.302 6.38% 6.2.6 HRL-LF 0.108 24 18.88 1.525 7.47% 6.2.7 HRL-LF 0.108 12 18.77 1.628 7.98% 6.2.8 P2RL 15 0.054 38 18.47 1.930 9.46% 6.2.9 HRL-LF 0.108 35 18.20 2.197 10.77% 6.2.10 HRL-LF 0.108 12 18.12 2.281 11.18% 6.2.11 HRL-LF 0.108 25 17.96 2.438 11.95% 6.2.12 HRL-LF 0.108 12 17.89 2.506 12.28% 6.2.13 HRL-LF 0.108 23 17.78 2.620 12.84% 6.2.14 HRL-LF 0.108 12 17.73 2.672 13.10% 6.2.15 HRL-LF 0.108 23 17.64 2.756 13.51 % 6.2.16 HRL-LF 0.108 12 17.61 2.792 13.68% 6.2.17 P2RL 15 0.054 38 17.52 2.880 14.12% 6.2.18 HRL-LF 0.108 32 17.46 2.944 14.43% 6.2.19 6.2.20 HRL-LF HRL-LF 0.108 0.108 20 14 17.43 2.970 14.56% 14.60% 17.42 2.979 Totals 2.052 444 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal Point to Point NAC Volta a Dro Calculation 4 8 2021 Project Name Circuit Number Nominal System Voltage Minimum Device Voltage Distance from source to 1st device Wire Gauge for balance of circuit Max Output Current Total Circuit Current End of Line Voltage Notification A liance Manufacturer HWY 99 EDMONDS FPS7-2 20.4 volts Wire Resistance 16.0 volts Gau a Per 1000 34 feet 14 3.07 14 3.07 3.00 amps 2.189 amps 16.86 volts System Sensor Circuit is within limits Circuit Device Identifier T e Device Current Distance Previous Voltage alDrop From Device Device Source Percent Dro 6.2.1 P2RL 15 0.054 34 19.94 0.457 2.24% 6.2.2 HRL-LF 0.108 38 19.44 0.955 4.68% 6.2.3 HRL-LF 0.108 12 19.30 1.104 5.41 % 6.2.4 HRL-LF 0.108 31 18.93 1.470 7.20% 6.2.5 P2RL-LF 15 0.098 27 18.63 1.770 8.68% 6.2.6 P2RL-LF 185 0.266 12 18.50 1.896 9.29% 6.2.7 SRL 15 0.043 27 18.26 2.136 10.47% 6.2.8 HRL-LF 0.108 38 17.94 2.464 12.08% 6.2.9 HRL-LF 0.108 12 17.84 2.559 12.54% 6.2.10 HRL-LF 0.108 20 17.69 2.705 13.26% 6.2.11 HRL-LF 0.108 12 17.62 2.785 13.65% 6.2.12 HRL-LF 0.108 26 17.46 2.940 14.41 % 6.2.13 HRL-LF 0.108 13 17.39 3.009 14.75% 6.2.14 P2RL 15 0.054 33 17.24 3.162 15.50% 6.2.15 P2RL 15 0.054 18 17.16 3.239 15.88% 6.2.16 HRL-LF 0.108 32 17.03 3.367 16.50% 6.2.17 HRL-LF 0.108 11 17.00 3.403 16.68% 6.2.18 HRL-LF 0.108 27 16.93 3.475 17.03% 6.2.19 HRL-LF 0.108 13 16.90 3.501 17.16% 6.2.20 HRL-LF 0.108 27 16.86 3.537 17.34% 6.2.21 HRL-LF 0.108 12 16.86 3.545 17.38% Totals 2.189 475 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal . Point to Point NAC Volta e Dro Calculation 3/4 2021 Project Name HWY 99 EDMONDS Circuit Number FPS4-3 Nominal System Voltage 20.4 volts Wire Resistance Minimum Device Voltage 16.0 volts Gauge Per 1000 Distance from source to 1st device 45 feet 14 3.07 Wire Gauge for balance of circuit 14 3.07 Max Output Current 3.00 amps Total Circuit Current 1.836 amps End of Line Voltage 18.13 volts Notification A liance Manufacturer S stem Sensor Circuit is within limits Distance Circuit Device Device Previous Voltage aiDrop From Percent Identifier T e Current Device Device Source Dro 4.3.1 HRL-LF 0.108 45 12 19.89 19.77 0.507 2.49% 4.3.2 HRL-LF 0.108 0.635 3.11 4.3.3 HRL-LF 0.108 34 19.43 0.973 4.77% 4.3.4 HRL-LF 0.108 15 19.29 1.112 5.45% 4.3.5 HRL-LF 0.108 26 19.06 1.336 6.55% 4.3.6 HRL-LF 0.108 19 18.91 1.487 7.29% 4.3.7 HRL-LF 0.108 11 18.83 1.568 7.68% 4.3.8 HRL-LF 0.108 26 18.66 1.740 8.53% 4.3.9 HRL-LF 0.108 12 18.59 1.812 8.88% 4.3.10 HRL-LF 0.108 24 18.46 1.939 9.50% 4.3.11 HRL-LF 0.108 12 18.41 1.995 9.78% 4.3.12 HRL-LF 0.108 23 18.31 2.086 10.23% 4.3.13 HRL-LF 0.108 13 18.27 2.129 10.44% 4.3.14 HRL-LF 0.108 25 18.20 2.196 10.76% 4.3.15 HRL-LF 0.108 13 18.18 2.221 10.89% 4.3.16 HRL-LF 0.108 28 18.14 2.259 11.07% 4.3.17 HRL-LF 0.108 12 18.13 2.267 11.11 Totals 1.836 350 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal . Project Name HWY 99 EDMONDS Circuit Number FPS5-3 Nominal System Voltage 20.4 volts Wire Resistance Minimum Device Voltage 16.0 volts Gauge Per 1000 Distance from source to 1st device 252 feet 14 3.07 Wire Gauge for balance of circuit 14 3.07 Max Output Current 3.00 amps Total Circuit Current 1.327 amps End of Line Voltage 17.33 volts Notification A liance Manufacturer System Sensor Circuit is within limits Distance Circuit Device Device Previous Voltage alDrop From Percent Identifier T e Current Device Device Source Dro 5.3.1 HRL-LF 0.108 252 18.35 2.053 10.06% 5.3.2 HRL-LF 0.108 15 18.23 2.166 10.62% 5.3.3 P2RL 15 0.054 34 18.00 2.397 11.75% 5.3.4 HRL-LF 0.108 37 17.76 2.638 12.93% 5.3.5 HRL-LF 0.108 23 17.63 2.772 13.59% 5.3.6 HRL-LF 0.108 12 17.57 2.834 13.89% 5.3.7 P2RL-LF 185 0.266 27 17.44 2.955 14.49% 5.3.8 P2RL-LF 30 0.115 11 17.41 2.987 14.64% 5.3.9 SRL 15 0.043 23 17.36 3.036 14.88% 5.3.10 P2RL-LF 185 0.266 16 17.33 3.067 15.03% 5.3.11 SRL 15 0.043 19 17.33 3.072 15.06% Totals 1.327 469 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal . Point to Point NAC Voltage Dro Calculation 3/4/2021 Project Name HWY 99 EDMONDS Circuit Number FPS6-3 Nominal System Voltage 20.4 volts Wire Resistance Minimum Device Voltage Distance from source to 1st device 16.0 volts Gau e 214 feet 14 Per 1000 3.07 Wire Gauge for balance of circuit 14 3.07 Max Output Current 3.00 amps Total Circuit Current 1.026 amps End of Line Voltage 18.50 volts Notification A pliance Manufacturer S stem Sensor Circuit is within limits Distance Circuit Device Device Previous Voltage aiDrop From Percent Identifier T e Current Device Device Source Dro 6.3.1 HRL-LF 0.108 214 19.05 1.348 6.61 % 6.3.2 HRL-LF 0.108 13 18.98 1.421 6.97% 6.3.3 HRL-LF 0.108 23 18.86 1.536 7.53% 6.3.4 HRL-LF 0.108 13 18.81 1.592 7.80% 6.3.5 HRL-LF 0.108 24 18.72 1.679 8.23% 6.3.6 HRL-LF 0.108 13 18.68 1.718 8.42% 6.3.7 P2RL 15 0.054 28 18.62 1.783 8.74% 6.3.8 HRL-LF 0.108 42 18.53 1.867 9.15% 6.3.9 HRL-LF 0.108 12 18.52 1.883 9.23% 6.3.10 HRL-LF 0.108 25 18.50 1.899 9.31 % Totals 1.026 407 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). Point to Point NAC Volta e Dro Calculation 3 4 2021 Project Name Circuit Number Nominal System Voltage Minimum Device Voltage Distance from source to 1st device Wire Gauge for balance of circuit Max Output Current Total Circuit Current End of Line Voltage Notification A liance Manufacturer HWY 99 EDMONDS FPS7-3 20.4 volts 16.0 volts 31 feet 3.00 amps 2.253 amps 17.24 volts S stem Sensor Wire Gau e 14 14 Resistance Per 1000 3.07 3.07 Circuit is within limits Circuit Device Identifier T e Device Current Distance Previous Voltage aiDrop From Device Device Source Percent Dro 6.3.1 SRL 15 0.043 31 19.97 0.429 2.10% 6.3.2 P2RL-LF 185 0.266 19 19.71 0.687 3.37% 6.3.3 HRL-LF 0.108 24 19.43 0.973 4.77% 6.3.4 HRL-LF 0.108 12 19.29 1.108 5.43% 6.3.5 HRL-LF 0.108 24 19.04 1.363 6.68% 6.3.6 HRL-LF 0.108 12 18.92 1.482 7.27% 6.3.7 HRL-LF 0.108 24 18.69 1.705 8.36% 6.3.8 HRL-LF 0.108 12 18.59 1.809 8.87% 6.3.9 P2RL 15 0.054 38 18.29 2.111 10.35% 6.3.10 HRL-LF 0.108 35 18.02 2.378 11.66% 6.3.11 HRL-LF 0.108 12 17.94 2.461 12.07% 6.3.12 HRL-LF 0.108 25 17.78 2.619 12.84% 6.3.13 HRL-LF 0.108 12 17.71 2.687 13.17% 6.3.14 HRL-LF 0.108 23 17.60 2.801 13.73% 6.3.15 HRL-LF 0.108 12 17.55 2.853 13.98% 6.3.16 HRL-LF 0.108 23 17.46 2.937 14.40% 6.3.17 HRL-LF 0.108 12 17.43 2.972 14.57% 6.3.18 P2RL 15 0.054 38 17.34 3.061 15.00% 6.3.19 HRL-LF 0.108 32 17.28 3.124 15.32% 6.3.20 HRL-LF 0.108 20 17.25 3.151 15.45% 6.3.21 HRL-LF 0.108 14 17.24 3.160 15.49% Totals 2.253 454 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal . Point to Point NAC Volta e Dro Calculation 3 4 2021 Project Name HWY 99 EDMONDS Circuit Number FPS5-4 Nominal System Voltage 20.4 volts Wire Resistance Minimum Device Voltage Distance from source to 1st device 16.0 75 volts feet Gau e Per 1000 14 3.07 Wire Gauge for balance of circuit 14 3.07 Max Output Current 3.00 amps Total Circuit Current 1.836 amps End of Line Voltage 17.80 volts Notification A liance Manufacturer System Sensor Circuit is within limits Distance Circuit Device Device Previous Voltage alDrop From Percent Identifier T e Current Device Device Source Dro 5.4.1 HRL-LF 0.108 75 19.55 0.845 4.14% 5.4.2 HRL-LF 0.108 12 19.43 0.973 4.77% 5.4.3 HRL-LF 0.108 34 19.09 1.311 6.43% 5.4.4 HRL-LF 0.108 15 18.95 1.450 7.11 % 5.4.5 HRL-LF 0.108 26 18.73 1.674 8.21 % 5.4.6 HRL-LF 0.108 19 18.57 1.826 8.95% 5.4.7 HRL-LF 0.108 11 18.49 1.906 9.34% 5.4.8 HRL-LF 0.108 26 18.32 2.078 10.19% 5.4.9 HRL-LF 0.108 12 18.25 2.150 10.54% 5.4.10 HRL-LF 0.108 24 18.12 2.277 11.16% 5.4.11 HRL-LF 0.108 12 18.07 2.333 11.44% 5.4.12 HRL-LF 0.108 23 17.98 2.424 11.88% 5.4.13 HRL-LF 0.108 13 17.93 2.467 12.10% 5.4.14 HRL-LF 0.108 25 17.87 2.534 12.42% 5.4.15 HRL-LF 0.108 13 17.84 2.560 12.55% 5.4.16 HRL-LF 0.108 28 17.80 2.597 12.73% 5.4.17 HRL-LF 0.108 12 17.80 2.605 12.77% Totals 1.836 380 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal Point to Point NAC Voltage Dro Calculation 3/4/2021 Project Name HWY 99 EDMONDS Circuit Number FPS6-4 Nominal System Voltage 20.4 volts Wire Resistance Minimum Device Voltage Distance from source to 1st device 16.0 252 volts feet Gau e Per 1000 14 3.07 Wire Gauge for balance of circuit 14 3.07 Max Output Current 3.00 amps Total Circuit Current 1.327 amps End of Line Voltage 17.33 volts Notification A liance Manufacturer S stem Sensor Circuit is within limits Distance Circuit Device Device Previous Voltage aiDrop From Percent Identifier T e Current Device Device Source Dro 6.4.1 HRL-LF 0.108 252 18.35 2.053 10.06% 6.4.2 HRL-LF 0.108 15 18.23 2.166 10.62% 6.4.3 P2RL 15 0.054 34 18.00 2.397 11.75% 6.4.4 HRL-LF 0.108 37 17.76 2.638 12.93% 6.4.5 HRL-LF 0.108 23 17.63 2.772 13.59% 6.4.6 HRL-LF 0.108 12 17.57 2.834 13.89% 6.4.7 P2RL-LF 185 0.266 27 17.44 2.955 14.49% 6.4.8 P2RL-LF 30 0.115 11 17.41 2.987 14.64% 6.4.9 SRL 15 0.043 23 17.36 3.036 14.88% 6.4.10 P2RL-LF 185 0.266 16 17.33 3.067 15.03% 6.4.11 SRL 15 0.043 19 17.33 3.072 15.06% Totals 1.327 469 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal . Point to Point NAC Volta e Dro Calculation 3 4 2021 Project Name HWY 99 EDMONDS Circuit Number FPS7-4 Nominal System Voltage 20.4 volts Wire Resistance Minimum Device Voltage Distance from source to 1st device 16.0 volts 214 feet Gau e Per 1000 14 3.07 Wire Gauge for balance of circuit 14 3.07 Max Output Current 3.00 amps Total Circuit Current 1.026 amps End of Line Voltage 18.50 volts Notification A liance Manufacturer S stem Sensor Circuit is within limits Distance Circuit Device Device Previous Voltage aiDrop From Percent Identifier T e Current Device Device Source Dro 6.4.1 HRL-LF 0.108 214 19.05 1.348 6.61 6.4.2 HRL-LF 0.108 13 18.98 1.421 6.97% 6.4.3 HRL-LF 0.108 23 18.86 1.536 7.53% 6.4.4 HRL-LF 0.108 13 18.81 1.592 7.80% 6.4.5 HRL-LF 0.108 24 18.72 1.679 8.23% 6.4.6 HRL-LF 0.108 13 18.68 1.718 8.42% 6.4.7 P2RL 15 0.054 28 18.62 1.783 8.74% 6.4.8 HRL-LF 0.108 42 18.53 1.867 9.15% 6.4.9 HRL-LF 0.108 12 18.52 1.883 9.23% 6.4.10 HRL-LF 0.108 25 18.50 1.899 9.31 % Totals 1.026 407 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal . Point to Point NAC Volta e Dro Calculation 4/8 2021 Project Name Circuit Number Nominal System Voltage Minimum Device Voltage Distance from source to 1st device Wire Gauge for balance of circuit Max Output Current Total Circuit Current End of Line Voltage Notification A liance Manufacturer HWY 99 EDMONDS FPS4-5 20.4 volts 16.0 volts 34 feet 3.00 amps 2.189 amps 16.86 volts S stem Sensor Wire Resistance Gauge Per 1000 14 3.07 14 3.07 Circuit is within limits Circuit Device Identifier T e Device Current Distance Previous Voltage aiDrop From Device Device Source Percent Dro 4.5.1 P2RL 15 0.054 34 38 19.94 0.457 2.24% 4.5.2 HRL-LF 0.108 19.44 0.955 4.68% 4.5.3 HRL-LF 0.108 12 19.30 1.104 5.41 4.5.4 HRL-LF 0.108 31 18.93 1.470 4.5.5 P2RL-LF 15 0.098 27 18.63 1.770 8.68% 4.5.6 P2RL-LF 185 0.266 12 18.50 1.896 9.29% 4.5.7 SRL 15 0.043 27 18.26 2.136 10.47% 4.5.8 HRL-LF 0.108 38 17.94 2.464 12.08% 4.5.9 HRL-LF 0.108 12 17.84 2.559 12.54% 4.5.10 HRL-LF 0.108 20 17.69 2.705 13.26% 4.5.11 HRL-LF 0.108 12 17.62 2.785 13.65% 4.5.12 HRL-LF 0.108 26 17.46 2.940 14.41 % 4.5.13 HRL-LF 0.108 13 17.39 3.009 14.75% 4.5.14 P2RL 15 0.054 33 17.24 3.162 15.50% 4.5.15 P2RL 15 0.054 18 17.16 3.239 15.88% 4.5.16 HRL-LF 0.108 32 17.03 3.367 16.50% 4.5.17 HRL-LF 0.108 11 17.00 3.403 16.68% 4.5.18 HRL-LF 0.108 27 16.93 3.475 17.03% 4.5.19 HRL-LF 0.108 13 16.90 3.501 17.16% 4.5.20 HRL-LF 0.108 27 16.86 3.537 17.34% 4.5.21 HRL-LF 0.108 12 16.86 3.545 17.38% Totals 2.189 475 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal) . Point to Point NAC Volta e Dro Calculation 3 4 2021 Project Name Circuit Number Nominal System Voltage Minimum Device Voltage Distance from source to 1st device Wire Gauge for balance of circuit Max Output Current Total Circuit Current End of Line Voltage Notification Appliance Manufacturer HWY 99 EDMONDS FPS5-5 20.4 volts 16.0 volts 59 feet 3.00 amps 1.825 amps 17.72 volts System Sensor Wire Resistance Gau e Per 1000 14 3.07 14 3.07 Circuit is within limits Circuit Device Identifier Type Device Current Distance Previous Voltage aiDrop From Percent Device Device Source Drop 5.5.1 SRL 15 0.043 59 19.74 0.661 3.24% 5.5.2 HRL-LF 0.108 37 19.33 1.066 5.23% 5.5.3 HRL-LF 0.108 12 19.21 1.189 5.83% 5.5.4 HRL-LF 0.108 32 18.90 1.497 7.34% 5.5.5 HRL-LF 0.108 12 18.80 1.604 7.86% 5.5.6 HRL-LF 0.108 25 18.59 1.812 8.88% 5.5.7 HRL-LF 0.108 12 18.50 1.903 9.33% 5.5.8 HRL-LF 0.108 27 18.31 2.091 10.25% 5.5.9 HRL-LF 0.108 1 18.30 2.097 10.28% 5.5.10 HRL-LF 0.108 26 18.16 2.244 11.00% 5.5.11 HRL-LF 0.108 12 18.10 2.304 11.29% 5.5.12 HRL-LF 0.108 23 18.00 2.403 11.78% 5.5.13 HRL-LF 0.108 28 17.90 2.505 12.28% 5.5.14 HRL-LF 0.108 16 17.85 2.553 12.51 % 5.5.15 HRL-LF 0.108 24 17.79 2.608 12.79% 5.5.16 HRL-LF 0.108 16 17.77 2.635 12.92% 5.5.17 HRL-LF 0.108 32 17.73 2.667 13.07% 5.5.18 P2RL 15 0.054 39 17.72 2.680 13.14% Totals 1.825 433 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). Point to Point NAC Voltage Drop Calculation 3/4/2021 Project Name HWY 99 EDMONDS Circuit Number FPS6-5 Nominal System Voltage 20.4 volts Wire Resistance Minimum Device Voltage Distance from source to 1st device 16.0 105 volts feet Gouge Per 1000 14 3.07 Wire Gauge for balance of circuit 14 3.07 Max Output Current 3.00 amps Total Circuit Current 1.836 amps End of Line Voltage 17.46 volts Notification Appliance Manufacturer System Sensor Circuit is within limits Distance Circuit Device Device Previous Voltage alDrop From Percent Identifier Type Current Device Device Source Drop 6.5.1 HRL-LF 0.108 105 19.22 1.184 5.80% 6.5.2 HRL-LF 0.108 12 19.09 1.311 6.43% 6.5.3 HRL-LF 0.108 34 18.75 1.649 8.08% 6.5.4 HRL-LF 0.108 15 18.61 1.788 8.77% 6.5.5 HRL-LF 0.108 26 18.39 2.013 9.87% 6.5.6 HRL-LF 0.108 19 18.24 2.164 10.61 % 6.5.7 HRL-LF 0.108 11 18.16 2.244 11.00% 6.5.8 HRL-LF 0.108 26 17.98 2.416 11.85% 6.5.9 HRL-LF 0.108 12 17.91 2.488 12.20% 6.5.10 HRL-LF 0.108 24 17.78 2.615 12.82% 6.5.11 HRL-LF 0.108 12 17.73 2.671 13.09% 6.5.12 HRL-LF 0.108 23 17.64 2.763 13.54% 6.5.13 HRL-LF 0.108 13 17.59 2.806 13.75% 6.5.14 HRL-LF 0.108 25 17.53 2.872 14.08% 6.5.15 HRL-LF 0.108 13 17.50 2.898 14.21 % 6.5.16 HRL-LF 0.108 28 17.47 2.935 14.39% 6.5.17 HRL-LF 0.108 12 17.46 2.943 14.43% Totals 1.836 410 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal Point to Point NAC Voltage Drop Calculation 3 4 2021 Project Name HWY 99 EDMONDS Circuit Number FPS7-5 Nominal System Voltage 20.4 volts Wire Resistance Minimum Device Voltage Distance from source to 1st device 16.0 252 volts feet Gouge Per 1000 14 3.07 Wire Gauge for balance of circuit 14 3.07 Max Output Current 3.00 amps Total Circuit Current 1.327 amps End of Line Voltage 17.33 volts Notification Appliance Manufacturer System Sensor Circuit is within limits Distance Circuit Device Device Previous Voltage alDrop From Percent Identifier Type Current Device Device Source Drop 6.5.1 HRL-LF 0.108 252 18.35 2.053 10.06% 6.5.2 HRL-LF 0.108 15 18.23 2.166 10.62% 6.5.3 P2RL 15 0.054 34 18.00 2.397 11.75% 6.5.4 HRL-LF 0.108 37 17.76 2.638 12.93% 6.5.5 HRL-LF 0.108 23 17.63 2.772 13.59% 6.5.6 HRL-LF 0.108 12 17.57 2.834 13.89% 6.5.7 P2RL-LF 185 0.266 27 17.44 2.955 14.49% 6.5.8 P2RL-LF 30 0.115 11 17.41 2.987 14.64% 6.5.9 SRL 15 0.043 23 17.36 3.036 14.88% 6.5.10 P2RL-LF 185 0.266 16 17.33 3.067 15.03% 6.5.11 SRL 15 0.043 19 17.33 3.072 15.06% Totals 1.327 469 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal Point to Point NAC Voltage Drop Calculation 3 4 2021 Project Name HWY 99 EDMONDS Circuit Number FPS7-6 Nominal System Voltage 20.4 volts Wire Resistance Minimum Device Voltage Distance from source to 1st device 16.0 volts Gauge Per 1000 133 feet 14 3.07 Wire Gauge for balance of circuit 14 3.07 Max Output Current 3.00 amps Total Circuit Current 0.080 amps End of Line Voltage 20.26 volts Notification Appliance Manufacturer System Sensor Circuit is within limits Distance Circuit Device Device Previous Voltage alDrop From Percent Identifier T e Current Device Device Source Drop 7.6.1 C01224TR 0.040 133 20.33 0.065 0.32% 4.6.2 C01224TR 0.040 309 20.26 0.141 0.69% Totals 0.080 442 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). Point to Point NAC Volta e Dro Calculation 3 4 2021 Project Name HWY 99 EDMONDS Circuit Number FPS4-2 Nominal System Voltage 20.4 volts Wire Resistance Minimum Device Voltage 16.0 volts Gauge Per 1000 Distance from source to 1st device 281 feet 14 3.07 Wire Gauge for balance of circuit 14 3.07 Max Output Current 3.00 amps Total Circuit Current 0.918 amps End of Line Voltage 18.25 volts Notification A liance Manufacturer S stem Sensor Circuit is within limits Distance Circuit Device Device Previous Voltage alDrop From Percent Identifier T e Current Device Device Source Dro 4.2.1 HRL-LF 0.108 281 18.82 1.584 7.76% 4.2.2 HRL-LF 0.108 15 18.74 1.658 8.13% 4.2.3 P2RL 15 0.054 34 18.59 1.805 8.85% 4.2.4 HRL-LF 0.108 37 18.45 1.952 9.57% 4.2.5 HRL-LF 0.108 23 18.37 2.028 9.94% 4.2.6 HRL-LF 0.108 12 18.34 2.060 10.10% 4.2.7 HRL-LF 0.108 27 18.29 2.114 10.36% 4.2.8 HRL-LF 0.108 11 18.27 2.129 10.43% 4.2.9 HRL-LF 0.108 27 18.25 2.147 10.52% Totals 0.918 467 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal . Point to Point NAC Volta e Dro Calculation 3 4/2021 Project Name Circuit Number Nominal System Voltage Minimum Device Voltage Distance from source to 1st device Wire Gauge for balance of circuit Max Output Current Total Circuit Current End of Line Voltage Notification A liance Manufacturer HWY 99 EDMONDS FPS4-4 20.4 volts 16.0 volts 29 feet 3.00 amps 1.825 amps 18.06 volts S stem Sensor Wire Resistance Gauge Per 1000 14 3.07 14 3.07 Circuit is within limits Circuit Device Identifier T e Device Current Distance Previous Voltage alDrop From Percent Device Device Source Dro 4.4.1 4.4.2 SRL 15 0.043 0.108 29 20.08 0.325 0.730 1.59% HRL-LF 37 19.67 3.58% 4.4.3 HRL-LF 0.108 12 19.55 0.853 4.18% 4.4.4 HRL-LF 0.108 32 19.24 1.161 5.69% 4.4.5 HRL-LF 0.108 12 19.13 1.268 6.22% 4.4.6 HRL-LF 0.108 25 18.92 1.475 7.23% 4.4.7 HRL-LF 0.108 12 18.83 1.567 7.68% 4.4.8 HRL-LF 0.108 27 18.65 1.755 8.60% 4.4.9 HRL-LF 0.108 1 18.64 1.761 8.63% 4.4.10 HRL-LF 0.108 26 18.49 1.908 9.35% 4.4.11 HRL-LF 0.108 12 18.43 1.968 9.64% 4.4.12 HRL-LF 0.108 23 18.33 2.067 10.13% 4.4.13 HRL-LF 0.108 28 18.23 2.169 10.63% 4.4.14 HRL-LF 0.108 16 18.18 2.217 10.87% 4.4.15 HRL-LF 0.108 24 18.13 2.272 11.14% 4.4.16 HRL-LF 0.108 16 18.10 2.299 11.27% 4.4.17 HRL-LF 0.108 32 18.07 2.331 11.42% 4.4.18 P2RL 15 0.054 39 18.06 2.343 11.49% Totals 1.825 403 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal . 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