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HomeMy WebLinkAboutA10-0091 approved plansDRAWING INDEX ------------- TITLE PAGE FA2-03 SECOND LEVEL - PARTIAL AREA 3&4 UNIT 208 FIP ALARM SYSTEM LAYOUT FAl2-00 FIRE ALARM PANEL AND NAC VOLTAGE DROP CALCULATIONS FOR FAP6 FAl2-04 REMOTE POWER SUPPLY NAC VOLTAGE DROP AND BATTERY CALCULATIONS FOR RPS-7 FA13-00 FIELD DEVICE INSTALLATION AND WIRING DETAIL � o z o o z A ADDITIONAL COMMENTS HAND NOTED ON APPROVED SUBMITTAL COVER SHEET APPROVED AS NOTED BY CITY OF VAIL 6/1/09 TYPICAL DEVICE MOUNTING HEIGHTS NOT TO SCALE NOTES: 1. HEIGHTS SHOWN ARE TYPICAL 70 CENTERLINE OF BOX UNLESS NOTED OTHERWISE. 2. MOUNTING HEIGHTS SHOWN ON ARCHITECTURAL ELEVATIONS SHALL GOVERN OVER THOSE SHOWN ABOVE. 3. FOR CEILING HEIGHTS HIGHER THAN 7'-2". INSTALL FIRE ALARM NOTIFICATION AUDIO AND VISUAL APPLIANCES AT 80" A.F.F., OTHERWISE INSTALL AT 6" BELOW CEILING. 4. MOUNT STROBES SO THAT ENTIRE LENS IS LOCATED BETWEEN BO AND 96 INCHES. rINr MLMNUI Z)TZ)IrlVI ��LWULINUL Jr urLmmiiui WIMINIA VV I I_U IlD T E < xw u zw x 0 w z u 2 o - , w - a o o w w < o mw W 1w o z w z w z u z z z w w - z ' u z z o z I z o E z u o Y . a w w z E < > lz z� > > z z a z _o ti w� zo D z < w < < > z a o SOLARIS I < 1w wo w w z < m o z� I Do VAIL COLORADO 0 o z w o z z o z z o < � w I 5; a wo a z CS lo < w z < < < < < o ow K w < < U < Y o < < < < B B m ;� , - o L a 0 < > w o > o > > > > - L N a o < > z o a > < o w w m z 5 z 21 ol 1, m z zw z' T - 21 z 0 < INPUTS w o < < 1 SMOKE DETECTORS (IN GUEST ROOMS) X X X X X X 2 SMOKE DETECTORS (IN COMMON AREAS) X X X X X X X X 3 SMOKE DETECTORS (IN ELEV LOBBIES 4-5, STAIRS ENTRANCE 1-5 (EXCEPT ELEV 1ST LVL.) X X X X X X X X X X 4 SMOKE DETECTORS (IN ELEV LOBBIES 4-5, STAIRS ENTRANCE 1-5 (ON 1ST LVL.) X A X X X X X X X X X 5 SMOKE DETECTORS (IN THE TOP OF ELEVATOR SHAFTS 1-3, NOT PRESSURIZE X X X X X X X A I - SMOKE BETEe!?n(��!! 1! TOP OF STAIR S! !AFTS 6 7 SMOKE DETECTORS (IN THE TOP OF STAIR SHAFTS 1-5, PRESSURIZED) X X X X X X X _X 13 SMOKE DETECTORS (IN THE TOP OF ELEVATOR SHAFTS 4 AND 5, PRESSURIZED) X X Z-l\ X X X X X X X X 9 SMOKE DETECTORS (IN ELEVATOR MACHINE ROOMS X X X X X X X X X X 10,HEAT DETECTORS (IN COMMON AREAS X X X X X X X X � 11 11 1 1 11 " 11 HEAT DETECTORS (IN ELEVATOR MACHINE ­TROCM�� X X X X X X X X I X 12 MANUAL PULL STATIONS X X X X X X X X 13 DUCT DETECTORS AT AIR HANDLING UNITS X X X X X 14 WATER FLOW SWITCHES X X X X X X X X X X 15 VALVE TAMPER SWITCHES X X X X 16 GROUND FAULT X X X X 17 OPEN CIRCUIT X X X X 18 LOW BATTERY X X X X 19 AC POWER LOSS X X X X 20 TELEPHONE LINE FAULT X X X X 21 NOTIFICATION APPLIANCE SHORT CIRCUIT X X X X 22 SILENCE FEATURE AT FACP (ADA ROOMS SILENCE ONLY UPON DVC RESET) X X X X 23 HEAT DETECTOR ADJACENT TO ZAMBONI FOLDING DOOR X X X X X X X X 24 SMOKE AND HEAT DETECTORS BOWLING ALLEY X X X X X 25 SMOKE AND HEAT DETECTORS MOVIE THEATRE X X X X X 26 SMOKE, HEAT AND WATERFLOW DETECTION 2ND FLOOR RETAIL X X X X X I, 27 SMOKE, HEAT AND WATERFLOW DETECTION 1ST FLOOR EAST RETAIL X X X X X 28 SMOKE, HEAT AND WATERFLOW DETECTION 1ST FLOOR WEST RETAIL X X X X X 1. Installation shall conform to all re of applicable electrical codes. 2. Wirin methods and materials shall conform with all applicable sections of NEC Article 760. 3. 120VAC 60 z input power for fire alarm controls shall be a dedicated, lockin and properl labeled "fire alarm.' breaker. A 4. All wirin includin shields, must be dr and free of shorts and g rounds. 5. The installation contractor is to maintain "as built" drawin so accurate documentation can be maintained. 6. 120VAC or an other wirin is not permitted in same conduit with low volta fire alarm wirin 7. Do not appl power except in the presence of a factor representative. 8. The batter backup calculation sheet shown for each fire alarm panel and remote power suppl show the supervisor and alarm current re 9. Thermal devices in the g ara g e are for buildin annunciation onl as re b TOVFD for heat detector covera in g ara g e. These devices ma not full meet spacin re as provided b NFPA 72 10. Installation contractor shall label each initiatin device with address, t and function (I.E. Smoke Control). 11. All initiatin devices shall be installed at least 3' from an diffuser. 12. Ensure locations of smoke detectors in field usin below standards: A. Center Smoke Detectors between li coordinate and locate with reflected ceilin plan. B. If a sprinkler head is near the detector, locate the smoke detector between the li and the sprinkler. C. Center smoke detector between li and other ceilin elements such as HVAC Diffusers. 13. All ceilin hei are 9',0 ", unless otherwise noted. 14. All speakers tapped at 1/8 watt unless otherwise noted. 15. J-boxes are shown for reference onl related to conduit la J-boxes ma not be used in the field. 16. Red conduit is not bein provided. Fire Alarm j unction boxes will be pointed red and identified. 17. Conduit la is for reference onl exact locations of conduit to be determined b installation contractor. 18. Heat detectors shall be installed in areas preparin for phase turnover durin construction, in accordance with the phased occupanc plan. Heat detectors will be removed and replaced with smoke detectors prior to phased occupancy. A 19. For the floors immediatel above the a re ues tin a TCO tempor r heat detectors will be installed in the corridors and residential units (FA.B.XiFA --- FR. qAP BRF evel of eeeh dwe' A g unit), n lieu of smoke detection. If the floor immediatel below the area re a C is no complete temporar heat detectors will be installed as described above. 20. Until the Plaza and Lower Level are issued a certificate of occupanc the primar level of elevator recall will be the third level and the secondar level of elevator recall will be the g ara g e level. Once the buildin is complete the secondar level of elevator recall will be Level 1. This temporar arran is necessar since e throu the Plaza will not be available durin TCO. 21. Upon activation of an smoke, heat or waterflow in the buildin all combination smoke/fire dampers t an devices related to sm oke contro 22. Device layout for retail units are shown as core and shell layout only. Final design placement will be provided in a different submittal. A" CONDUIT FILL CALCULATION TABLE CONDUCTORS IN eg�p THE CONDUIT FILL CALCULATI • N ABLE: ENT OF CONDUIT SHOWN ON THE DRAWINGS HAS A TAG ASSOCIATED WITH IT. THE TAG IS IN THE FOLLOWING FORMAT, (x)A , (x)B,(x)C,(x)D,(x)G,(x)l. WHERE THE (x) INDICATES THE NUMBER OF CONDUCTORS/CABLES AS DESCRIBED IN THE WIRE SCHEDULE. A, B, REPRESENT CABLE TYPES. ENTER THE TABLE IN THE "CONDUCTORS IN THE CONDUIT SEGMENT" COLUMN AND MATCH THE TAG TO THE CABLE QUANTITY AND TYPE NUMBER, MOVE ACROSS TO THE MINIMUN CONDUIT SIZE WITH A CONDUIT FILL VALUE LESS THAN 40%. SHADED CELLS ARE NOT ACCEPTIBLE. WIRE SCHEDULE DESCRIPTION WIRE SIZE AND TYPE JACKET COLOR CONDUCTOR COLORS SIGNALING LINE CIRCUIT (SLC> 1 #16 T P NON-SHIELDED CABLE (A) SOL I D FPLR RED RED ELK NAC (STROBES) (B) 2 #14 SOLID THHN N/A ORN ELK NAC (SPEAKERS> CC> 1 #16 TSR SOLID FRLR RED RED PLK 2 #14 `L biWH HN N/A LK RS-485 COMMUNICATION (CABLE E> 1 #16 TSP SOLID FPLR RED RED BLK IDC (G) 2 #16 THHN SOLID NA BLU YEL SOUNDER INTERLOCK (I> 1 #16 THHN SOLID NA BLK 120 VAC POWER BY E.C. 1 #12 THHN SOLID NA 1. THE SIGNALING LINE CIRCUIT (SLC) CONNECTS INTELLIGENT DETECTORS AND ADDRESSABLE MODULES T 0 THE IFC-320'S, THE WIRE IS NON-SHIELDED, TWISTED PAIR, IGAWG CAN BE UP TO 5000 FEET IN LENGTH MAX.CLASS B ALLOWS T-TAPPING, HOWEVER THEY SHOULD BE KEPT TO A M INIMUM, CLASS A DOES NOT ALLOW T-TAPPING, AND MUST RETURN To THE FIRE ALARM CONTROL PANEL, 2. THE NOTIFICATION APPLIANCE CIRCUIT (NAC> CONNECTS SPEAKER/STROBES, STROBES AND SPEAKERS TO THE POWER SUPPLIES AND AMPLIFIERS THESE CIRCUIT S HAVE BEEN ENGINEERED USING 14AWG WIRE AND VOLTAGE C 0 0 S W I DR OP ALCULATI,N S HAVE BEEN DONE T 0 VERIFY THAT END OF ARE ITHIIN LIM TS. NO T-TAPPING ALLOWED ON THESE CIRCUITS. CHAN E S To THE IRCU T LAYOUT OR LOAD REQUIRES APPROVAL OF THE ENGINEER. 3. 24VOLT DC POWER PROVIDES POWER TO AUXILLARY DEVICES. 4. RS-4e5 PROVIDES COMMUNICATIONS TO REMOTE ANNUNCIATORS, 16AWG CAN 13E 4DOO FEET MAX. AT EACH CONNECTION, THE SHIELD SHALL BE CONNECTED AND TAPED TO BACK OF WIRE TO PROTECT IT FROM COMING IN CONTACTWITH GROUND. 5. THE INITIATING DEVICE CIRCUIT (IDC) CONNECTS ALARM CONTACTS TO ADDRESSABLE MONITOR MODULES. 6. WIRING WILL BE IN CONDUIT. TP INDICATES TWISTED PAIR, TSP INDICATES TWISTED SHIELDED PAIR, A JOHNSON CONTROLS FIRE ALARM SYSTEM IS BEING INSTALLED AT THE NEW SOLARIS PROJECT LOCATED IN VAIL, COLORADO. A DIGITAL VOICE COMMAND CENTER WILL BE I NSTALLED ON THE 3RD FLOOR IN THE FIRE COMMAND CENTER. 16 IFC-320 PANELS WILL BE CONNECTED TO A NETWORK ON EACH FLOOR EXCEPT FLOORS a AND 9. THESE PANELS WILL BE LOCATED IN THE ELECTRICAL ROOMS ON THE EAST AND WEST SIDE OF EACH FLOOR. THE FIRE ALARM PANELS AND THE MAIN ANNUNCIATOR WILL BE INTER-CONNECTED VIA A STYLE 4 WIRE NETWORK. THE SYSTEM WILL PROVIDE DIGITAL VOICE VIA DIGITAL AMPLIFIERS LOCATED ON EACH FLOOR ADJACENT TO THE IFC-320 PANELS. A THE EVAGUATIeN SEQUENGE IS GENERAL ALARM (SEE SEQUENCE OF OPERATION MATRIX) ALL SMOKE DETECTORS WITHIN DWELLING UNITS ARE INTERLOCKED SUCH THAT ALL SOUNDER BASES WILL ENERGIZE (SOUND) ANYTIME ANY DETECTOR IS IN ALARM. IN ADA UNITS BOTH THE SOUNDER BASE AND SPEAKER/STROBES WILL SOUND. THESE DEVICES WILL ONLY BE SILENCEABLE UPON RESET AT THE DVC. THE DIGITAL VOICE COMMAND CENTER WILL INCLUDE A DISPLAY OF EVENTS, KEYPAD, OVERRIDE SWITCHES, AND MICROPHONE. A SMOKE CONTROL SYSTEM CONFORMING TO SECTION 909 IFC, AND APPROVED RATIONAL ANALYSIS SHALL BE INSTALLED AND CONTROLLED BY THE FIRE ALARM SYSTEM- THE SMOKE CONTROL WILL BE COMPLETED IN A DEFFERED SUBMITTAL. THE SYSTEM IS AN ADDRESSABLE SYSTEM WITH A CLASS "B" SIGNALING LINE CIRCUIT AND CLASS B NOTIFICATION APPLIANCE CIRCUITS. ALL W WILL BE IN CONDUIT. EACH FLOOR IS SPLIT WITH HALF THE CIRCUITS ON THE EAST AND WEST SIDES OF THE BUILDING. ADDRESSABLE DEVICE DESIGNATION DETAIL: TAG­ -DEVICE TAG - DEFINED IN BILL OF MATERIAL Nxx:Lnn:D/Mzz-ADDRESSABLE DEVICE ADDRESS Nxx PANEL NETWORK NODE ADDRESS Lnn PANEL LOOP DESIGNATION D/Mzz - DETECTOR (D) MODULE (M) ADDRESS (1 TO 159) RPSx/FAPx- M` D 1/2WATT ww RPS. DA.- RPSx DAx-y-y 15d 15,d NUMBER OF THE DEVICE ON CIRCUIT L OF CIRCUIT ON NAC POWER SOURCE NAC POWER SUPPLY NUMBER SOURCE DAx- L NUMBER OF THE DEVICE ON CIRCUIT NUMBER OF CIRCUIT ON AMPLIFIER LL DIGITAL AMPLIFIER NUMBER SOURCE 1 5cd -CANDELLA SETTING AT STROBE /2WATT-WATTAGE SETTING AT SPEAKER (IF BLANK SET TO 1/8WATT) r� I I I rAro I I)-�l UAb - 0 - 1 _ _ loca J / I I DAMP I.IaivJU AMP ER RELAY 1A 1A I RP " Tr 26,2C 26 2C D /, i 8 2 W T 0 6 ; W B i Aoved as ad Ap *ved as NII 0 1 / j Digitally signed by Michael McGee TOR SAGO n Ic ae c ee, o= al Ire c= 1.2�J T ide: Emergency Services, ou= Deputy / '01lerem al =mmcgee val gov.com, S -4 1 c =U$ D -- J 7 cd B 6: 08 I / 1 B,1 C / CLG MT / P L DM RPS7 -2 -1 - - N06:L01 MO24 DA6 - - N06:1-01:M — 95cd _ j 1B 1C Y IA I I / r / I I 1 2 P 10' 4 "A.F.F � 06:L01:D 29 1A I s'-11°AFF GALLER Y zz- I 6C 027 / \106:1-01:MO23 n (ER CLG. MT. i Q SEEE NOTE 5� i DA6 -1 EOL 95cd 2 i RPS7 -2 EOL P D — — t01D028 II N06:1-01:D024 2 P 1A 2 N06:L01:D025 t 1A CLG. MT. 2B,2C 30cd RPS7 -2 -2 DA6 -1 -2 Z22 N06:1-01:1M % RETAIL / j— D / I / O / — — — -- F-- nSECOND LEVEL AREA 3 &4 - UNIT 208 FIRE ALARM PLA 1/4" = 1' -0" NORTH SHEET NOTES: 1. Retail units are provided with general coverage. Units will be upgraded when build out is complete. EXISTING LOCATION OF UNIT 208 FLOW AND TAMPER SWITCHES WITH MONITOR MODULE. . NOT TO BE DISTURBED. ,r REFLECTED CEILING PLAN LEGEND ® 24'x24° SUPPLY AIR DIFFUSER I2 "x24" RETURN AIR DIFFUSER $ SPRINKLER HAED 0 DIFFUSER SIZES DIFFER, RE: MECHANICAL 0 6' RECESSED CAN LIGHT ® PENDANT LIGHT J -BOX FUR FUTURE DECORATIVE FIXTURE, PROVIDED BY OWNER II U 2x2 LIGHT FIXTURE ® 2.4 FLUORESCENT LIGHT ® METAL HALIDE LIGHT FIXTURE } 9 VERTICAL FLOURESCENT CEILING HEIGHT IDENTIFICATION SPEAKER (MUSIC /PAGING) F777777777 I GYPSUM BOARD CEILING WOOD T &G CEILING AREA AREA AREA AREA 1 KEY PLAN INSTALLATION NOTE: 1. DURING INITIAL CORE AND SHELL CONSTRUCTION, EACH RETAIL AREA WAS PROVIDED A SEPARATE SLC ( CABLE A) , STROBE ( CABLE B) AND SPEAKER ( CABLE C) CIRCUIT. THIS CONFIGURATION IS TO BE MAINTAINED DURING SUITE TENANT FINISH. 2. NO WORK IS BEING DONE IN THE HATCHED AREA, HOWEVER, DEVICES AND WIRING WITHIN THE HATCHED AREA MUST REMAIN INTACT AND FUNCTIONAL DURING AND AFTER CONSTRUCTION. 3. DEVICES SHOWN WITH AN (E) INDICATE EXISTING DEVICES AND MAY REQUIRE RELOCATING AND /OR RE- CIRCUITING. 4. INSTALLER TO MATCH WIRE TYPE TO EXISTING SIZE, COLOR AND TYPE. SEE WIRE SCHEDULE. 5. EXISTING PULL STATION AT FRONT OF THE UNIT TO BE RELOCATED TO BACK OH THE UNIT TO AN AREA ATTENDED BY STAFF AS DETERMINED AT TIME OF INSTALLATION BY THE OWNER, TENANT AND FIRE DEPARTMENT. 6. ADDRESSES ASSIGNED WERE SPARE AT TIME OF ORIGINAL ENGINEERING, VFRIFY THAT AnnRFSS IS STll I AVAII ARI F AT TIAAF OF PR()(,RAAAAAIN(' DEVICE SYMBOLS INPUT DEVICES O PHOTOELECTRIC W /STANDARD BASE P THRMAL E O DETECTOR R/F FLOW V DETECTOR g TAMPER DETECTOR OUTPUT DEVICES SPEAKER MISC. JUNCTION BOX ADDRESSABLE MODULES MM DM DUAL MONITOR NODDLE MONITOR NOODLE MISC. DIGITAL DA AMPLIFIER DIGITAL VOICE DV COMMAND Z PHOTOELECTRIC O W /SOUNDER BASE Z DUCT PHOTOELEC P SMOKE DETECTOR P 9 PRESSURE + DETECTOR VALVE W /TAMPER DETECTOR (n'VI SPEAKER I�I.I / STROBE C CONTROL R RELAY MODULE MODULE FIRE ALARM FAP PANEL REMOTE LCD ANNUNCIATOR O PHOTOELECTRIC FOR SMOKE CONTROL -SC MANUAL PULL STATION THERMAL FOR ( 1 I SMOKE CONTROL ` /F -SC THERMAL WIT I j J SOUNDER BASE H �R /F -SB Q STROBE REMOTE POWER RPS SUPPLY MAP GRAPHIC ANNUN. � F SOUNDER BASE P- ` S J B /SC Y F- 58 /SL'AND SMOKE CONTROL 1 lu urowing Ilse: INFORMATION 4UMBER: SECOND LEVEL AREA 3 &4 SUITE 208 )ATE: FIRE ALARM PLAN I'ME: Project Title: SOLARIS 1/4" = l . -D . S 141 EAST MEADOW DRIVE 1LE NAME: VAIL, COLORADO 81657 :NCE DRAWING I NO. REVISION - LOCATION ECN DATE I BY ANEER: PROJECT MANAGER: APPLICATION ENGINEER: DRAWN APPROVED enbeck Jack Bath Patrick Meyer PA DATE: D3/25/09 BY' DATE. yyy BRANCH INFORMATION: CONTRACT NUMBER C WEST 1 CENTEN CO. 0855•0072 Johnson 1 PHONE: ( O. SD127 PHONE: (303) 973 -5930 DRAWING NUMBER Controls FAX: (303) 979 -6847 FA2 -03 FIRE ALARM CONTROL PANEL FAP6 BATTERY BACK -UP CALCULATION IFC -320 FIRE ALARM CONTROL PANEL - FAP6 TOTAL CURRENT - STANDBY OPERATION 0.567 HOURS REQUIRED FOR OPERATION 24 BATTERY REQUIREMENTS FOR 24 HRS 13.61 TOTAL CURRENT -ALARM OPERATION 0.547 HOURS REQUIRED FOR OPERATION (5min) 0.08 BATTERY REQUIREMENTS FOR 5 MIN 0.05 TOTAL BATTERY REQUIREMENTS 13.65 BATTERY REQUIRED WITH 20% FACTOR 16.38 BATTERY TO BE INSTALLED 18 AMP -HR ° x NO CHANGE TO HAPG'S CURRENT DRAW THE MAXIMUM SLC CURRENT FOR A FULLY LOADED SLC IS USED FOR THE CURRENT DRAW CALCULATIONS ADDING DEVICES TO THE MAXIMUM ALLOWABLE COUNT WILL NOT INCREASE THE BATTERY REQUIREMENTS, THERE IS NO MODIFICATI ❑NS BEING MADE HAPG'S N❑TIFICATI ❑N APPLIANCES CONNECTED Calculation Column 1 Primary, Non -Fire Alarm Current (amps) Calculation Column 2 Primary, Fire Alarm Current (amps) DEVICE QTY. AMPS. TOTAL QTY. AMPS. TOTAL IFC -320 1 0.2500 0.2500 1 0.2300 0.2300 KDM -R2 DISPLAY 1 0.1000 0.1000 1 0.1000 0.1000 ACPS -2406 0 0.1287 0.0000 0 0.0000 0.0000 BACNet Gateway 0 0.3600 0.0000 0 0.3600 0.0000 LCD- 80,LCD -80TM 0 0.1000 0.0000 0 0.1000 0.0000 JNCA 0 0.4000 0.0000 0 0.5000 0.0000 LDM -32 0 0.0400 0.0000 0 0.0000 UZC -256 0 0.0350 0.0000 0 0.0850 0.0000 AMG- 1,AMG -E 0 0.0600 0.0000 0 0.0600 0.0000 FFT- 7,FFT -7S 0 0.0600 0.0000 0 0.1200 0.0000 AA -30 0 0 AA-1 00,AA-1 20 0 0 M302MJ,M502MJ 0 0.0094 0.0000 0 0.0900 0.0000 XPIQ 0 0.0000 0 0.0000 RPT- W,RPT- WF,RPT- F,NCM -W 1 0.0170 0.0170 1 0.0170 0.0170 UDACT Communicator 0 0.0400 0.0000 0 0.1000 0.0000 Notification Appliance 0 0 SOUNDER BASES 0 0.0010 0.0000 0 1 0.0150 0.0000 Power Supervision Relays 0 0.0200 0.0000 0 0.0200 0.0000 DHSO0,DHSO2 Duct Detectors 0 0.0000 0 0.0000 CHG -120 Battery Charger 0 0 SLC #1 Totals 1 0.2000 0.2000 1 0.2000 0.2000 TOTAL 0.57 0.55 TOTAL CURRENT - STANDBY OPERATION 0.567 HOURS REQUIRED FOR OPERATION 24 BATTERY REQUIREMENTS FOR 24 HRS 13.61 TOTAL CURRENT -ALARM OPERATION 0.547 HOURS REQUIRED FOR OPERATION (5min) 0.08 BATTERY REQUIREMENTS FOR 5 MIN 0.05 TOTAL BATTERY REQUIREMENTS 13.65 BATTERY REQUIRED WITH 20% FACTOR 16.38 BATTERY TO BE INSTALLED 18 AMP -HR ° x NO CHANGE TO HAPG'S CURRENT DRAW THE MAXIMUM SLC CURRENT FOR A FULLY LOADED SLC IS USED FOR THE CURRENT DRAW CALCULATIONS ADDING DEVICES TO THE MAXIMUM ALLOWABLE COUNT WILL NOT INCREASE THE BATTERY REQUIREMENTS, THERE IS NO MODIFICATI ❑NS BEING MADE HAPG'S N❑TIFICATI ❑N APPLIANCES CONNECTED REMOTE POWER SUPPLY RPS7 NAC VOLTAGE DROP CALCULATIONS This calculator provided wltage drop calculations in three formats (Point to Point, End of Line, and Load Centering). This calculator provided wltage drop calculations in three formats (Paint to Point. End of Line, and Load Centering). This calculator provided voltage drop calculations in three formate (Point to Point. End of Line, and Load Centering). This calculator provided voltage drop calculations in three formats (Point to Point, End of Line, and Load Centering). Make sure that you know what method is accepted by, and the results do not exceed the limits set by the resp sort ve jurisdiction Make sure that you know what method is accepted by, and the results do not exceed the limits set by the respecfiw jurisdiction Make sure that you know what method is secs prod by, and the results do not exceed the limits set by the respective jurisdiction Make sure that you know what method is accepted by, and the results do not axce ad the limits set by the respective jurisdiction Point to Point Method End of Line Method Load Centering Method Point to Paint Method End of Line Method Load Centering Method Point to Point Method End of Line Method Load Centering Method Paintta Point Method End of Line Method Load Centering Method Project Name Solaris Project Neme Solaris Project Name Solaris Project Neme Solar- Data 8/25/2010 Data 8125/2010 Data 8/25/2010 Date 8/25/2010 Circuit Number Remote P awe r SUppy#7/RPS7-1 Totals Voltage Totals Voltage Totals VoRage Circuit Number Remote Pourer Supply #7 /RPS7 -3 Totals Voltage Totals Voltage Totals VoRage Circuit Number Remote Power Supply #7 / RPS7-5 Totals Voltage Tolak Voltage Totals Voltage Circuit Number Remote Power Supply #7 /RPS7 -7 Totals Voltage Totals Voltage Totals Voltage Location Second LeWl Padial Lobby Curenl Distance Drop Curren) Distance Drop Curren) Distance Drop Location Second Lewl Spa Curren) Distance Drop Curren) Distance Drop Curren) Distance Drop Location Second Level Retail 210 Curren) Distance Drop Current Distance Drop Curren) Distance Drop Location Second Level Partial Curren) Distance Drop Curren) Distance Drop Current Distance Drop Nominal System Voltage 20.4 0.870 385 1.36 0.870 385 2.137 1).870 385 1.068 Nominal Sye tem Voltage 20.4 0.580 270 0.69 0.580 270 0.999 0.580 270 0.500 Nominal System Volt age 20.4 0.392 510 0.88 0.392 510 1.275 0.392 510 0.638 Nominal System Voltage 20.4 1.254 455 2.38 1.254 455 3.640 1.254 455 1.820 Minimum Device Voltage 16 End of Line V altase 19.04 End of Line Voltage 18.26 End of Line Voltage 79.33 Minimum Devi c a Voltage 16 End of Line Voltage 19.71 End of Line Voltage 19.40 End of Line Voltage 19.90 Minimum Device Voltage i6 End of Line Voltage 19.52 End of Line Volt age 19.12 End of Line Voltage 19.76 Minimum Device Voltage i6 End of Line Voltage 18.02 End of Line VoRage 1fi.78 End of Line Voltage 18.58 Total Circuit Current 0.870 Wire Ohm's Percent Drop 6.64% Percent Drop 10.48% Percent Drop 5.24% Total Circuit Current 0.580 Wire Ohm's Percent Drop 3.36% Percent Drop 4.9D% Percent Drop 2.45% Total Circuit Current 0.392 Wire Ohm's Perc enl Drop 4.32% Percent Drop 6.25% Percent Drop 3.13% Total Circuit Current 1.254 Wire Ohm's Percent Drop 11.66% Percent Drop 17.84% Percent Drop 8.92% Gauge Per70 End of Line and Load Centering Methods use only the wire guage forthe first devic a to source Gauge Per 1000 End of Line and Load Centering Methods use only t he Ore guess for the first device to source Gauge Per 1000 End of Line and Load Centering Methods use only the wire guage for the first device to source Gauge Per 1000 End of Line and Load Centering Methods use only the wire goose for the first device to source Distance from source to let device 45 14 3.19 Standard Wire Resistance in Ohms per 1000 feet. Distance from source to let device 75 14 3.19 Standard Wire Resistance in Ohms per 1000 feet. Distance from source to let device 175 14 3.19 Standard Wire Resistance in Ohms per 1000 feet. Distance from source to 1st device 30 14 3.19 Standard Wire Resistance in Ohms per 1000 feet. W ire Gauge for balance of circuit 14 3.19 18 =7.77 16 =4.89 14 =3.19 12 =1.96 1D =1.24 Wire Gauge for balance of circuit 14 3.19 18 =7.77 16 =4.89 14 =3.19 12 =1.98 10 =1.24 Wire Gauge for balance of circuit 14 3.19 18 =7.77 16 =4.89. 14 =3.19 12 =1.98 10 =1.24 Wire Gauge for balance of circuit 14 3.19 16 =7.77 16 =4.89 14 =3.19 12 =1.98 10 =1.24 nler current in amps Distance 18 -14 Awy =Solid Conductors 12 -10 Awg= SUanded Conductors nler current in amps Distance 18 -14 Awy =Solid Conductors 12 -10 Awy= Stranded Conductors nter current in amps Distance 18 -14 Awg =Solid Conductors 12 -10 Awy= Stranded COnduclars nler current in amps Distance 18 -14 Awg =Solid Conductors 12 -10 AVVg= Stranded Conductors .150 = 150 me fiom VoRege Notes: .150 = 150 me Rom Voltage Notes: .150 = 150 me Rom VoRege Notes: .150 = 15D me Rom Voltage Notes: Device Device previous At Drop Rom Percent Wire resistance is doubled in the calculations for two Was(Positive and Negative) Device Device previous At Drop Rom Percent Wire resistance is doubled in the[ alculations for 1- Ores(POsitiW and Negative) Device Device previous Al Drop Rom Percent Wire resistance is doubled in the calculations for two wfres(PosiliW and Negative) Device Device previous At Drop from Percent Wire resistance is doubled in the calculations for two wires (Positive, and Negative) Number Current device Device Drop The wltage calculated to the last device in arty method must not be lower then Number Current device Device Drop The wltage calculated to the last device in any method must not be lower then Number Current device Device Drop The wltage calculated to the last device in any method must not be lower then Number Curren) device Device Drop The wltage calculated to the last device in any method must not be lower then Device 1 0.060 45 20.15 x 0.250 1.22% the manufactures listed minimum operating wfiage (IE: rated operating wltage 20 -32 VDC). Device 1 0.065 75 20.12 x 0.278 1.36% the manufactures listed minimum operating wltage (IE: rated operating wltage 20 -32 VDC). Device 1 D.O60 175 19.96 0.438 manufactures listed minimum operating wRage QE: rated operating wltage 20 -32 VDC). Device 1 9.092 30 20.16 x 0:240 1.16% the manufactures listed minimum operating wltage QE: rated operating wltage 20.32 VDC). Device 2 0.060 20 20.D5 0.353 1.73% Device 2 0.065 45 19.97 0.425 2.09% Device 2 0.060 45 19.87 0.533 2.61% Device 2 0.060 40 19.66 0.537 2.63% Device 3 0.060 30 19.90 0.497 2.43% Device Manufacturer Wheelock Device Manufacturer Wheelock Device 3 0.065 15 19.93 0.468 2.30% Device Manufacturer Wheelock Device Manufacturer Wheelock I Device 3 0.092 95 19.70 6.698 3.42% Device Manufacturer Wheelock Device Manufacturer lWheelack Device 3 0.165 60 19.44 D.958 4.70% Device Manufacturer Wheelock Device Manufacturer Wheelock Device 0.060 70 19.60 0.805 3.95% 1 Current Current Device4 0.065 15 19.89 0.505 2.48% Current Current Device4 0.060 115 19.57 0.830 4.07% Current Current Devi[e4 D.O60 5D 19.14 1.257 6.16% Current Curent Device, 5 0.0611 20 19.51 0.885 4.34% Model# Candela @Rated Model# Candela @Baled Device5 0.061) 45 19.60 0.597 2.93% Model# Condole @Rated Model# Candela @Rated Davice5 OAbo 55 19.53 0.872 4.27% Model# Candela @Rated Model# Candela @Rated Devi[e5 0.060 25 19.00 1.397 6.85% Model# Candela @Rated Model# Candela @Rated Device 6 0.060 10 19.48 0.922 4.52% Speaker /Strobes (Wall Mount) Voltage Strobes (Wall Mount) Voltage Device 6 0.065 30 19.75 0.647 3.17% Speaker /Strobes (Wall Mount) Voltage Strobes (Wall Mount) Voltage Device 6 O.OfiO 25 19.52 0.882 4.32% Speaker /Strobes (Wall Mount) Voltage Strobes Pall Mount) Voltage Device 6 0.060 55 18.72 1.684 8.25% Speaker /Strobes [wall Mount) Voltage Strobes (Wall Mount) Voltage Device 7 0.060 40 19.35 1.D52 5.16% E70- 24MCW -FW 15 0.060 RSS - 24MCW -FW 15 0.060 Device 7 0.065 15 19.73 0.666 3.26% E70- 24MCW -FW 15 0.060 RSS - 24MCW -FW 15 0.060 END 19.52 0.882 4.32% E70- 24MCW -FW 15 8.D60 RSS - 24MCW -FW 15 0.060 Device 7 0.060 55 18.45 1.950 9.56% E70- 24MCW -FW 15 0.060 RSS - 24MCW -FW 15 0.060 Device 8 0.060 50 19.20 1.195 5.86% E70- 24M -FW 30 0.092 RSS- 24MCW -FW 30 0.092 Device 8 0.065 20 19.72 0.662 3.34% E70- 24MCW -FW 30 0.092 RSS- 24MCW -FW 30 0.092 END 19.52 0.882 4.32% E70- 24MCW -FW 30 0.092 RSS- 24MCW -FW 30 0.092 Device 8 0.220 N 18.32 2.063 10.21% E70- 24MCW -FW 30 00092 RSS- 24MCW -FW 30 0.092 Device 0.165 30 19.13 1.270 6.23% E70- 24MCW -FW 75 0.165 RSS- 24MCW -FW 75 8.165 Device9 0.065 10 19.71 0.686 3.36% E70- 24MCW -FW 75 0.165 RSS- 24MCW -FW W 75 0.165 END 19.52 0.882 4.32% E70- 24MCW -F 75 1).165 RSS- 24MCW -FW 75 0.165 Device9 0.092 so 18.13 2.266 11.11% E70- 24MCW -FW 75 0.165 RSS- 24MCW -FW 75 0.165 END 19.71 0.686 3.36% E7g- 24MCW 110 0.220 RSS- 24MCW 110 0.220 Device 10 0.165 4D 18.04 2.364 11.59% E7D- 24MCW 11D 0.220 RSS- 24MCW 110 0.220 Device 10 Device 11 END END END END END 0.061) 0.165 30 40 19.119 19.04 19.114 1.313 1.355 1.355 6.44% 6.64% 6.64% E70- 24MCW -FW E70- 24MCWF4FW E7g- 24MCWFFFVy 110 135 185 0.220 0.300 0.420 RSS- 24MCW -FW RSS - 24MCWH -FW RSS- 24MCWFFFW 110 135 185 D.22D 0.300 D.42? END END END END END END 19.71 19.71 19.71 0.686 0.666 0.666 3.36% 3.36% 3.36% -FW E70 -24MCW FFFW E70- 24MCWF4FW 135 165 0.300 0.420 -FW RSS -24MCW FFFW RSS- 24MCWF4FW 135 185 D.30D 0.420 END END END END END END END 19.5 2 19.52 19.52 0.882 0.882 0.882 4.32% 4.32% 4.32% E70- 24MCW -FW E70 -24MCW F4FW E70 -24MCW FFFW 110 135 185 1).220 0.300 0.420 RSS- 24MCW -FW RSS- 24MCWF4FW RSS- 24MCWFFFW 110 135 185 0.220 0.300 0.420 Device 11 END END END END END 0.220 1D 18..02 18.02 18.02 2.378 2.378 2.376 11.66% 11.66% 11.66% -FW E70- 24MCWFFFW E70- 24MCWF4FW 135 185 0.3D0 0.420 -FW RSS - 24MCWH -FW RSS - 24MCWH -FW 135 165 0.300 0.420 19.114 19.04 19.114 1.355 1.355 1.355 6.64% 6.64% 6.64% Speaker /Strobes (Ceiling E10- 24MCC Mount) 15 0.065 Speaker /Strobes (Wall RSS - 24MCC -FW RSS- 24MCC -FW Mount) 15 30 D.oq 0.105 19.71 19.71 19.71 0.666 0.686 0.666 3.36% 3.36% 3.36% Speaker /Strobes (Ceiling E90- 24MCC -FW E9g- 24MCC -FW M ount) 15 30 0.065 0.105 Speaker /Strobes (Wall RSS - 24MCC -FW RSS - 24MCC -FW MounQ 15 30 D.O65 0.105 19.52 19.52 19.52 0.882 0.882 0.882 4.32% 4.32% 4.32% Speaker /Strobes (Ceiling E90- 24MCC Mount) 15 OA65 Speaker /Strobes (Wall RSS - 24MCC -FW RSS- 24MCC -FW Mount) 15 30 D.D65 0.105 18.02 18.02 18.02 2.378 2.378 2.378 11.66% 11.66% 11.66% Speaker /Strobes (Ceiling E90- 24MCC -FW E9D- 24MCC -FW Mount) 15 30 0.065 0.1D5 Speaker /Strobes (Wall RSS - 24MCC -FW RSS- 24MCC -FW Mount) 15 30 OA65 0.105 19A4 1.355 6.64% -FW E90- 24M CC -FW 31) 0.105 19.52 0.882 4.32% -FW E90- 24MCC -FW 30 0.11)5 END END END END 19.114 19.04 19.04 19.114 1.355 1.355 1.355 1.355 6.64% 6.64% 6.64% 6.64% E90- 24M CC -FW E90- 24MCC -FW E90 -24MCC I4FW E90- 24MCCFFFW 75 95 115 177 0.169 0.249 0.300 0.420 RSS - 24MCC -FW RSS - 24MCC -FW RSS- 24MCCF4FW RSS- 24MCCFFFW 75 95 115 177 0.189 0.249 0.300 D.42D END END END END 19.71 19.71 19.71 19.71 0.686 0.666 0.666 0.666 3.36% 3.36% 3.36% E90- 24MCC -FW E90- 24MCC -FW E90- 24MCCF4FW E90- 24MCCF4FW 75 95 115 177 0.189 0.249 0.300 0.420 RSS- 24MCC -FVV RSS - 24MCC -FW RSS - 24MCCH -FW RSS- 24MCCH -FW 75 95 115 177 0.189 0.249 0.300 0.420 END END END END 19.52 19.52 19.52 19.52 0.862 0.882 0.882 0.882 4.32% 4.32% 4.32% 4.32% E90- 24MCC -FW E90- 24MCC -FW E90.24MCCH4FW E90- 24MCCFFFW 75 95 115 177 1).169 0.249 0.300 0.420 RSS - 24MCC -FW RSS - 24MCC -FW RSS- 24MCCF4FW R5S- 24MCCFFFW 75 95 115 177 0.189 0.249 0.300 0.420 END END END END 18.1)2 18.02 18.02 18.02 2.378 2.378 2.378 2.378 11.66% 11.66% 22 11.66% 11.66% E9g- 24MCC -FW E90- 24MCC -FW E90- 24MCCH -FW E90- 24MCCF4FW 75 95 115 177 1.189 0.249 0.300 0.420 RSS- 24MCC -FW R5S- 24MCC -FW RSS- 24MCCF4FW RSS- 24MCCF4FW 75 95 115 177 0169 0.249 0.300 0.420 Totals 0.870 385 End of Line VoRage 19.04 Totals O.SBD 270 End of Line Voltage 19.77 Totals 0.392 510 AMPS AMPS F CURRENT 1.5 OUT AVAILABLE CURRENT 1.5 OUT AVAILABLE CURRENT ACURRET 0.670 OUT TOTAL CURRENT 1).580 OUT TOTAL CURRENT E CAPACITY= 42% OUT SPARE CAPACITY= 61% OUT SPARE CAPACITY= This calculator rovided wRa edro calculations in three formats Point to Point. End of Line. and Load Centering). This calculator provided wltage drop[ alculations in three formats (Point to Point. End of Line, and Load Centering). This calculator 0 g D ( 9l Make cure that you know what method is accepted by, and the results do not exceed the limits bet by the respective jurisdiction Make sure thatyou Make sure that you know what method is accepted by, and the re intro tlo not exceed the limits set b athod Lead Centering Method project Name Solaris Project Name Solaris the respective jurisdiction Point to Point Method End of Line Method Load Centering Method Project Name Solaris Pointto Point Method End of Line Me Data 9/30/2010 Date 8/25/2010 Date 8/25/2011) Ciro nit NUm bar Remote Power Supply #7 /RPS7 -2 Totals Voltage Tolals Voltage Totals Voltage Circuit Number Remote PO rSupply #]/RPS7 -4 Totals Voltage Totals Voltage Totals VoRage Circuit Number Remote POVrer Location Second Level Retail 2D8 Current Distance Dro Current Distance Dro CurreN Distance Dro Location Second Level Retail 2D9 Current Distance Drop Current Distance Drop Curren) Distance Drop Location Second Level Retail P p P 20.4 0.3fi 80 stem age Nominal System Volt age 20.4 0.603 245 0.61 0.603 245 0.943 0.603 245 0.471 Nominal System Voltage 0.280 225 0. 2 22 5 0.402 0.280 225 0.201 Nominal Sy Volt Minimum Device Voltage 16 End of Line Voltage 79.79 End of Line Voltage 79.46 End of Line Voltage 19.93 Minimum Device Voltage 16 End of Line Voltage 20.04 End of Line Voltage 20.00 End of Line Voltage 20.20 Minimum Device Voltage Total Circuit Current D.603 Wire Ohm's Percent Drop 3.01 % Percent Drop 4.62% Percent Drop 2.31 % Total Circuit Current 0.280 Wire Ohm's Percent Drop 1.78 % Percent Drop 1.97% Percent Drop 0.99% Total Circuit Current 0.392 Gauge Per 1D00 End of Line and Load Centering Methods use only the wire guage for the first device to source Gauge Per 1000 End of Line and Load Centering Methods use only the wire guage for the first device to source Distance from source to let device 80 14 3.19 Standard Wire Resistance in Ohms per 1000 feet. Distance from source to 1st device 125 14 3.19 Standard Wire Resistance in Ohms per 1DD0 feet. Distance from source to 1st device W ire Gauge for balance of circuit 14 3.19 18 =7.77' 16 =4.69 14 =3.19 12 =1.98 11) =1.24 Wire Gauge for balance of circuit 14 3.19 18 =7.77 16 =4.89 14 =3.19 12 =1.98 10 =1.24 Wire Gauge for balance of circuit nter current in amps Distance 18 -14 Awy= Solid Conductors 12 -10 Any = Stranded Conductors ntsr current in amps Distance 18 -14 Awg= Solid Conductors 12 -10 Awg= Stranded Conductors nter current in amps Distance .150 = 150 me Rom Voltage Notes: .150 = 150 Me Rom Voltage Notes: .150 = 150 Me Rom Device Device previous At Drop from Percent Wire resistance is doubled in the calculations for two wares(Positive and Negative) Device Device previous At Drop from Percent Wire resistance is doubled in the calculations for two Oes(Positive and Negatiw) Device Device previous x Number Current device Device source Drop The wRage talc ulated to the last device in any method must not be lower then Number Current device Device Drop The wRage calculated to the last device in any method must not be lowerthen Number Current device Device 1 D.249 80 20.09 0.308 1.51% the manufactures listed minimum operating wltage (IE: rated operating wltage 20.32 VDC). Device 1 0.060 125 20.18 0.223 1.09% the manufactures listed minimum operating voltage (IE: rated operating wltage 20 -32 VDC). Device 1 0.060 220 Device 2 D.1 ?5 65 19.95 1).455 2.23% Device 2 0.220 100 20.04 0.364 1.78% Device 2 0.060 15 Device 3 0.249 100 19.79 0.613 3.01% Device Manufacturer Wheelock Device Manufacturer Wheelock END 20.04 0.364 1.78% Device Manufacturer Wheelock Device Manufacturer Wheelock Device 3 0.060 35 END 19.79 0.613 3.01% Current Current END 2D.04 0.364 1.78% Current Current Device, 4 0.06D 15 END 19.79 ( 13 3.01% Model# Candela @Rated Model# Candela @Rated END 2D. 04 0.364 1.78% model # Candela @Rated Model# Candela @Rated Device, 5 0.06D 15 END 19.79 D.613 3.D1% Speaker /Strobes (Wall Mount) Voltage Strobes (Wall Mount) Voltage END 2D. 04 0.364 1.78% Speaker /Strobes (Wall Mount) Voltage Strobes (Wall Mount) Voltage Device 6 0.092 35 END 20.04 0.364 1.78% E70- 24MCW -FW 15 0.060 RSS- 24MCW -FW 15 0.060 END End of Line VoRage 19.52 Tolals 1.254 455 End of Line Voltage 18.02 AMPS AMPS 1.5 OUT AVAILABLE CURRENT 1.5 0.392 OUT TOTAL CURRENT 1.254 74% OUT SPARE CAPACITY= 16% provided wRage drop calculations in three formats (Point to Point. End of Line, and Load Centering). This calculator provided wltage drop calculations in three formats (Point to Point, End of Line, and Load Centering). know what method is accepted by. and the results do not exceed the limits set bythe respective jurisdiction Make sure thatyou know what method is accepted by, and the results do notexceedthe limits set bythe respective jurisdiction Pointto Point Method End of Line Method Lead Centering Method Project Name Solaris Pointto Point Method End of Line Method Lead Centering Method Date 8/25/2010 Supply #] /RPS7 -6 Totals Voltage Totals VoRge a Totals VoRage Circuit Number Remote Power Supply #7 /RPS7 -8 Totals VoRage Totals Voltage Totals Voltage 211 Cuhent Distance Drop Current Distance Drop Curren) Distance Drop Location Second Level Partial Curren) Distance 500 Drop Curren) Distance Drop Current Distance Drop 7. 20.4 33392 3 0. 20.4 72 0.605 500 500 0.9fi5 0. 392 5 0.70 0. 35 0.838 392 33 5 0.419 Nominal System Voltage 0.605 1.930 0.605 16 End of Line Voltage 19.70 End of Line Voltage 19.56 End of Line Voltage 79.98 Minimum Device Voltage 16 End of Line Voltage 19.28 End of Line Voltage 18.47 End of Line Voltage 19.44 Wire Ohm's Percent Drop 3.42% Percent Drop 4.11% Percent Drop 2A5% Total Circuit Current 0.6 05 Wire Ohm's Percent Drop 5.47% Percent Drop 9.46% Percent Drop 4.73% Gauge Per 1000 End of Line and Load Centering Methods use only the wire guage for the first device to source Gauge Per 1000 End of Line and Load Centering Methods use only the we guage for the first device to source 220 14 3.19 Standard Wire Resistance in 0hms per 1DD0 feet. Distance from source to 1st device 13D 14 3.19 Standard Wire Resistance in Ohms per 1000 feet. 14 3.19 18 =7.77' 16 =4.89 14 =3.19 12 =1.98 10 =1.24 Wire Gauge for balance of circuit 14 3.19 16 =7.77 16 =4.89 14= 3.19'. 12 =1.98 10 =1.24 18 -14 Awg =Solid Conductors 12 -10 Awy= Stranded Conductors nler current in amps Distance 18 -14 Awg =Solid Conductors 12 -10 AVVg= Stranded Conductors Voltage Notes: .150 = 15D me Rom Voltage Notes: At Drop Rom Percent Wire resistance is doubled in the calculatia ns for two wares(Positive and Negative) Device Device previous At Drop from Percent Wire resistance is doubled in the calculations for two wires (Positive, and Negative) Device Drop The wRage cal ulated to the last device inany method must not be lower then Number Current device Device source Drop The wltage calculatedtothe last device in any method must not be lower than 1985 . 0.550 2.70% the manufactures listed minimum operating voltage (IE: rated operating wltage 20 -32 VDC). Device 1 0.220 130 19.90 0.502 2.46% the manufactures listed minimum operating wltage QE: rated operating wRage 20.32 VDC). 19.82 0.582 2.85% Device 2 0.165 90 19.68 D.723 3.54% 19.76 0.643 3.15% Device Manufacturer Wheelock Device Manufacturer Wheelock Device 3 0.220 280 19.28 1.116 5.47% Device Manufacturer Wheelock Device Manufacturer Wheelock 19.74 0.663 3.25% Curren) Curren) END 19.28 1.116 5.47% Curren) Curenl 19.72 0.678 3.32% Model# Candela @Rated Model# Candela @Rated END 19.28 1.116 5.47% Model# Candela @Rated Model# Candela @Rated 19.70 0.698 3.42% Speaker /Strobes (Wall Mount) Voltage Strobes (Wall Mount) Voltage END 19.28 1.116 5.47% Speaker /Strobes (Wall Mount) Voltage Strobes (Wall Mount) VoRage 19.70 0.698 3.42% E70- 24MCW -FW 15 8.D60 RSS- 24MCW -FW 15 0.060 END 19.28 1.116 5.47% E70- 24MCW -FW 15 0.060 RSS- 24MCW -FW 15 0.060 END END END END END 19.79 19.79 D.613 D.613 3.01% 3A1% E70.24MCW -FW E70- 24MCW -FVV 15 31) 0.060 D.D92 RSS- 24MCW -FW RSS- 24MCW -FW 15 30 0.060 0.092 END END END END END 20.04 0.364 1.78% E70- 24MCW -FW 30 0.092 RSS - 24MCW -FW RSS - 24MCW -FW RSS- 24MCW -FVJ R5S -24MCW FFFW RSS- 24MCWFFFW 75 30 110 135 185 0.092 0.165 0.220 0.30? 0.420 END END END END END 19.70 0.698 3.42% E70- 24MCW -FW 30 C.D92 RSS- 24MCW-FW RSS - 24MCW -FW RSS- 24MCW -FW RSS- 24MCWFFFW RSS- 24MCWFFFW 30 75 110 135 185 0.092 0.165 0.220 0.300 0.420 END END END END END 19.28 1.116 5.47% E70- 24MCW -FW 30 0.092 RSS - 24MCW -FW RSS - 24MCW -FW RSS- 24MCW -FW RSS- 24MCWH -FW RSS- 24MCWH -FW 30 75 110 135 185 00.. 092 165 0.220 0.300 0.420 19.79 1979 . 19.79 D.613 0.613 0.613 3.01% 3.01% 3.01% E70-FW E7&-FW E7624MCWIFW 75 110 135 0.165 0.220 0.300 RSS - 24MCW -FW RSS- 24MCW -FW RSS- 24MCWFFFW 75 110 135 0.165 0.220 1)�DD 20.04 2D. ?4 21).04 2D. ?4 0.364 0.364 0.364 0.364 1.78% 1.78% 1.78% 1.78% E70- 24MCW -FW E7g- 24MCW -FW E7g -24MCW FFFW E70- 24MCWFFFW 75 110 135 185 0.165 0.220 0.300 0.420 19.70 19.70 19.70 19.70 0.698 0.698 0.698 0.698 3.42% 3.42% 3.42% 3.42% E70- 24MCW -FW E70- 24MCW -FW E70- 24MCWFFFW E70- 24MCWFFFW 75 110 135 185 0.165 0.220 0.3 DO 0.420 19.28 19.28 19.28 19.28 1.116 1.116 1.116 1.116 5.47% 5.47% 5.47% 5.47% E70- 24MCW -FW E7D- 24MCW -FW E71 -24MCW FFFW E7D- 24MCWFFFW 75 1to 135 185 0.165 0.220 0.3D0 0.420 END END END END END 19.79 19.79 19.79 1).613 0.613 1).613 3A1% 3.01% 3.D1 % E70.24MCWFFFW Speaker /Strobes (Ceiling 185 Mount) 0.420 RSS- 24MCWFFFW 185 RSS - 24MCC -FW Speaker /Strobes (WaA3o RSS- 24MCC -FW 0.421) END END END END END 20.04 20.04 0.364 0.364 1.78% 1.78% Speaker /Strobes (Ceiling Mount) Speaker /Strobes (Wall RSS - 24MCC -FW R5S- 24MCC -FW R5S- 24MCC -FW MounQ 15 30 75 0.065 0.105 0.189 END END END END END 19.70 19.70 0.698 0.698 3.42% 3.42% Speaker /Strobes (Ceiling Mount) Speaker /Strobes (Wall RSS - 24MCC -FW R5S- 24MCC -FW RSS- 24MCC -FW Mount) 15 31) 75 0.065 0.105 0.189 END END END END END 19.28 19.28 1.116 1.116 5.47% 5.47% Speaker /Strobes (Ceiling Mount) Speaker /Strobes (Wall RSS - 24MCC -FW R5S- 24MCC -FW RSS- 24MCC -FW Mount) 15 31) 75 0.065 0.105 0.189 19.79 19.79 D.613 0.613 3.01% 3.01% E90.24MCC -FW E90.24MCC -FW 15 30 0.065 0.105 20.04 21). ?4 21).04 0.364 0.364 0.364 1.78% 1.78% 1.78% E90- 24MCC -FW E9g- 24MCC -FW E9g- 24MCC -FW 15 30 75 0.065 0.105 0.189 19.70 19.70 19.70 0.698 0.698 0.698 3.42% 3.42% 3.42% E90- 24MCC -FW E90- 24MCC -FW E90- 24MCC -FW 15 30 75 0.065 0.11)5 0.189 19.28 19.28 19.28 1.116 1.116 1.116 5.47% 5.47% 5.47% E90- 24MCC -FW E90- 24MCC -FW E90- 24MCC -FW 15 30 75 0.065 0.11)5 0.189 END END END 19.79 19.79 19.79 19.79 1).613 1).613 0.613 1).613 3.D1% 3.1)1% 3.01% 3.1)1 % E90-24MCC -FW E90.24MCC -FW E90.24MCCH -FW E90.24MC CFFFW 75 95 115 177 0.189 0.249 0.300 0.420 R5S- 24MCC -FW R5S- 24MCC -FW RSS- 24MCCF4FW R5S- 24MCCFFFW END END END 2D. ?4 20.04 0.364 0.364 1.78% 1.78% E9g- 24MCC -FW E90- 24MCCF4FW 95 115 0.249 0.300 RSS- 24MCC -FW RSS- 24MCCH 95 115 0.249 0.300 END END 19.70 19.70 0.698 0.698 3.42% 3.42% E90- 24MCC -F95 E90- 24MCCH4FW 115 0.249 0.300 RSS- 24MCC -FW RSS- 24MCCF4FW 95 115 0.249 0.300 END END 19.28 19.28 1.116 1.116 5.47% 5.47% E90- 24MCC -FW E90- 24MCCH 95 115 0.249 0.300 R524MCC -4 RS END 20.04 0.364 1.78% E90- 24MC- 177 0.420 -FW RSS- 24MCCH -FW 177 0.420 END 19.70 0.698 3.42% E90- 24MCCF4FW 177 0.420 RSS- 24MCCF4FW 177 0.420 END 19.28 1.116 5.47% -FW E9 ?- 24MCCH -FW 177 0.420 RSS- 24MCCF4FW 177 0.420 Totals D.603 245 End of Line Voltage 19.79 Totals 0.280 225 End of Line Voltage 20.04 Totals 0.392 335 AMPS AMPS F P RENT 1.5 OUT AVAILABLE CURRENT 1.5 OUT AVAILABLE CURRENT TOT' ITV = 60% OUT SPARE 81% OUT SPARE ITY End of Line Voltage 19.70 Totals 0.605 500 End of Line Voltage 79.28 AMPS AMPS 1.5 OUT AVAILABLE CURRENT 1.5 D. OUT SPARE 61)% NOTIFICATION CIRCUIT RPS7 -2 IS BEING MODIFIED DURING THE UNIT 208'S PS -7 BATTERY CAPACITY TENANT FINISH, THE VOLTAGE DROP CALCULATION HAVE BEEN MODIFIED OPERATION DEVICE TYPE CALCULATION FOR RPS7 STAND-BY E POWER QT STAND -- BV BY CURUP URRENT QTV ALARM CURRENT EACH TOTAL EACH TOTAL RPS7-1 FOR THIS CIRCUIT AND THE BATTERY CALCULATIONS FOR REMOTE POWER RPH7.2 1 0.D0 0.00 1 .6 7 0.000 0 0.000 0 7 0.603 0 .fiO 3 RPS7 RPS7 - 4 SUPPLY RPS -7 HAS BEEN MODIFIED RPS7 -5 RPS7 -6 1 RPS7 -7 RPS7 -8 MAIN PC BOARD 1 0.000 ?.DOD 1 0.580 0.580 1 0.1)1)0 0.001) 1 0.280 1).2e1) 1 0.1100 0.001) 1 0.392 D.392 1 0.000 0.000 1 0.392 D.392 1 0.000 0.000 1 1.254 1.254 1 0.1100 0.001) 1 0.605 D.6 05 1 0.129 0.129 1 0.129 0.129 Number of Slaw power Supplys TOTAL CURRENT NAC VOLTAGE DROP CALCULATIONS AND POWER SUPPLY OTAL CURRENT HOURS REQUIRED RED FOR OR O OPEPERATIOON BATTERY STANDBY REQUIREMENTS 0 0.006 0.000 0 0.006 0.000 D 1).001) DAD? 9 N" 0.000 D US ?.1)D? 1) 0.1)00 1).000 0.129 5.105 0.129 N 24.00 3.10 BATTERY CALCULATIONS FOR RPS7 THE "POINT TO TOTAL CURRENT -ALARM OPERATION 5.105 HRS REQUIRED FOR OPERATION POINT" METHOD IS USED TO CALCULATE THE VOLTAGE BAT ALARM REQUIREMENT O D83 (5 MINI) 0.43 DROP AT THE LAST DEVICE. A STARTING VOLTAGE 0 BA TALBATTRE BATTERY REQQUIUIRED W WITHITH 2 20%0% F FACTOR 4 .52 4.23 7 AMP -HOUR BATTERIES INSTALLED 20.4 VOLTS AND THE CURRENT DRAW AT 16 VOLTS IS AMPS USED, THE VOLTAGE DOES NOT DROP BELOW 16 VOLTS AT FVAI CURRENT CURRENT B 5.105 CAPACITY THE LAST DEVICE. 36.19% REVISION Drawing Title: INFORMATION l RETAIL 208 TENANT FINISH 09/30/10 PDM NUMBER: REMOTE POWER SUPPLY MOVIE THEATER 01/10/10 PDM RPS -7 NOTIFICATION CIRCUIT SUBMITTAL 05/D4/09 PDM DATE: VOLTAGE DROP CALLS REFERENCE DRAWING NO. REVISION - LOCATION ECN DATE BY SALES ENGINEER: PROJECT MANAGER: APPLICATION ENGINEER: DRAWN APPROVED Richard Coleman Ball Patrick Meyer BY DATE: Ken TIME: Project Title; 09/30/2010 BY: DATE: SOLARIS BRANCH INFORMATION: CONTRACT NUMBER Scaie: ,�, � 10289 WEST p NONE 141 EAST MEADOW DRIVE /�J' CENTENNIAL 0055'OO72 O. VAIL COLORADO 81657 Joh nson LITTLE CO. 60127 FILE NAME : r PHONE: : ( (303) 973 -5930 DRAWING NUMBER C ontrols FAX: (303) 979 -6847 FAl2 -04 "B" SIZE CABINET ENCLOSURE NO WIRE ENTRY. 4- 16' 5-5/ 32' WIRE ENTRY FOR I DEVICES AND COMMUNICATION CONNECTIONS. NO 120V OR 24V WIRING IN THIS AREA. B-5 T 0 c�D 213-5 1 B-5 / B" CONDUIT ENTRY I WIRE ENTRY FOR FOR 120V POWER. 0 0- CONNECTION TO NR45-24. 9-5 NO WIRE ENTRY. 24— - 24-1/8' tz I NO WIRE ENTRY DH300P DUCT DETECTOR WITH REMOTE TEST SWITCH FROM PREMDUS DEVICE TO NEXT DEVICE SLC OR FACP SUC RTM51 M 0 - --z 0 M300RJ RELAY FOR FAN SHUTDOWN FIRE DOOR CONTROL M300MJ MONITOR MODULE (SINGLE) In lo 0 LA E DL RESISTOR - 00 - 47K, 1/2W ILL) LLJ FRONT BACK FOR MONITORING INPUTS FLOW / TAMPER SWITCHES DRY CONTACTS CONVENTIONAL HEAT DETECTORS M30DRJ CONTACT RATING 0.9 AMPS 0 110VAC r-) r-) 3'0 AMPS RESISTIVE 0 30VDC 1 1.0 AMP INDUCTIVE @ 30VDC TO CONTROL CIRCUIT OR CONTROL INPUT FRONT U' BACK L'J CONTACT OPENS IN ALARM TYPICAL CONTROL FOR FAN SHUTDOWN ELEV. SHUNT ELEV. RECALL --4 M300RJ RELAY FOR DOOR CONTROL H — 120 VAC CIRCUIT -F N- TO OR FROM CONTACT RATINGS. M C - 1 'VT 0 N AMP C 3.0 AMPS RESISTIVE 0 3OVDC 1.0 AMP INDUCTIVE 0 30VDC O CONTACT OPENS IN ALARM DOOR C DOOR SINGLE OR DOUBLE DOOR(S) B210LPJ BASE SLC WIRING FROM PREVIOUS DEVICE TO NEXT DEMCE OR FACP �C ac I - ) SLC SLC (1) FOR MONITORING INPUTS F U S DAMPER POSSITION FLOW AND TAMPER M300DJ MONITOR MODULE (DUAL to 15 EOL RESISTOR ODD I NPUT 47K. 1/2W NOR: ONLY ON ONES EOL EVEN INPUT I EVEN SETTINGS 0 0.* RESISTOR --- 47K, 1/2W L-J L-J xvM FRONT BACK I'D" SIZE CABINET ENCLOSURE 4' IRE ENTRY FOR 1 0 AND COMMUNICATION CONNECTIONS. NO I 20V OR 24V WIRING IN THIS AREA. 0 0 46 O CONDUIT ENTRY FOR 120V POWER. 0 NO WIRE ENTRY. 24-1/8. 5� 8-5/8' 5-5/32 WIRE ENTRY FOR CONNECTION TO NR45-24. NO WIRE ENTRY. M300 SERIES MODULES SLC WIRING PREVIOUS DEVICE FROM PRE OR S �' SLC S BACK C 714 : C 16' -1-0 O J 24" NO WIRE ENTRY. 8 -5/8" M300RJ FOR RELAY FOR FIRE/SMOKE CONTROL DAMPERS H 24 VAC N M300RJ CONTACT RATINGS: 0.9 AMPS 0 1 OVAC Ell F.) RESISTIVE 3.0 AMPS 0 30VDC 1.0 AMP INDUCTIVE @ 3OVDC t- p w CONTACT OPENS IN ALARM RELAY R -1 8-5 JBG-12LX MANUAL PULL STATION FR M PREVIOUS DEVICE TO NEXT DEVICE DR FACP - --L' �-� , SUC S I F N f 8-5 -(> 9-5/16" DNR INTELLIGENT DUCT DETECTOR NOTE- CURRENT IS ONLY REQUIRED DURING DUCT DETECTOR REMOTE TEST. THE DETECTOR DOES NOT REQUIRE CURRENT WITH REMOTE TEST SWITCH FROM THE 24VDC TO OPERATE NORMALLY. 24VDC IS NOT REQUIRED TO BE BATTERY BACKED OR SUPERVISED. RTS451KEY - FILED TEST I DNR 0 0 ALM 3 0 SW. 1 2 ) 4 5 6 0 0 @ 0 + FROM 24VDC NAC WIRING STYLE Y OUTPUT OF FCPS-2456/8 W EOL RESISTOR OUTPUT OF DIG. AMP. 6) H H H H STROBE SPEAKER STROBE SPEAKER SPEAKER/STROBE STROBE SPEAKER SPEAKER/STROBE SPEAKER/SRTOBE, SPEAKER, STROBE WIRING, STYLE Y, NO T-TAPPING ALLOWED DNR INTELLIGENT DUCT DETECTOR WITH REMOTE INDICATOR LED RA40O2 LED DNR i ALM 0 0 1 ® 2 -' -' 2 - ; 1 0 F REVISION Drowin Title: INFORMATION NUMBER FIELD DEVICE INSTALLATION AND WIRING DATE 1 OF TIME- t Titl Projece: Sca SOLARIS NONE 141 EAST MEADOW FILE NAME: VAIL, COLORADO DETAILS UNIT 208 TENANT FINISH SHOP DRAWINGS 09/30/10 05/02/09 PDM PDM 1 REFERENCE DRAWING ND. REVISION - LOCATION ECN DATE BY SALES ENGINEER: � PROJECT MANAGER: APPLICATION ENGINEER: I DRAWN APPROVED Richard Coleman Ken B.1 Patrick Meyer PDM I DATE: DATE: PD 09/3D/201 0 DRIVE 81657 4 0 f( Johnson J 10 Controls BRANCH INFORMATION: 1 0289 WEST CENTENNIAL RD. LITTLETON , CO 80127 PHONE: (303) 973-5930 FAX: (303) 979-6847 CONTRACT NUMBER 0855-0072 DRAWING M FAliT-