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10-699-016
{ i FIRE ALARM INSTALLATION & OPERATION NOTES: FIRE ALARM SEQUENCE OF OPERATION: ACTUATION OF ANY MANUAL PULL STATION, SMOKE DETECTOR, HEAT DETECTOR OR WATER FLOW SWITCH SHALL CAUSE THE FOLLOWING OPERATIONS TO OCCUR; 1. GENERAL ALARM ACTIVATION OF ALL PROGRAMMED SIGNAL CIRCUITS, ON FLOOR OF INCIDENCE AND FLOOR ABOVE AND BELOW. (IF MULTIPLE FLOORS) 2. LIGHT THE ASSOCIATED INDICATORS CORRESPONDING TO ACTIVE SIGNAL CIRCUITS. 3. A GENERAL ALARM SHALL BE ANNUNICATED UPON ACTIVATION OF ANY PULL STATION, FLOW SWITCH & DETECTION DEVICE. A TROUBLE SIGNAL SHALL BE ANNUNCIATED UPON FAILURE OR REMOVAL OF A DETECTION OR MANUAL DEVICE. A SUPERVISORY SIGNAL SHALL ANNUNCIATE ANY TAMPER, HVAC, OR DUCT DETECTOR ACTIVATION. 4. IF MULTIPLE FLOORS, EACH ELEVATOR LOBBY, HOIST, AND MACHINE ROOM SMOKE DETECTOR SHALL INITIATE AN ALARM CONDITION IN THE BUILDING AND RETURN ALL ELEVATQRS -TO THE PRIMARY OR ALTERNATE,FLOOR OF EGRESS IN COMPLIANCEWITH ANSI ASME A17.1. 5. WATERFLOWN SWITCH SHALL ACTIVATE GENERAL ALARM. A VALVE TAMPER SWITCH SHALL CAUSE A SYSTEM SUPERVISORY ALARM INDICATION. 6. ANNUNCIATION OF THE ACTIVE DEVICE AT THE FIRE ALARM CONTROL PANEL AND ANY ANNUCIATORS, IN MONITORED BUILDING, SEND A SIGNAL TO THE U.L. MONITORING CENTER FOR ALARM, TROUBLE, WATERFLOW AND SUPERVISORY CONDITIONS. FIRE ALARM SPECIFICATIONS: ALL EQUIPMENT TO BE U.L. LISTED FOR FIRE SERVICE AND SHALL BE COMPATIBLE WITH THE SYSTEM BEING USED. SYSTEM IS TO BE POWER LIMITED. SYSTEM TO BE CENTRAL STATION SERVICE AS PER NFPA -72. FIRE ALARM PANEL SHALL BE LISTED FOR CENTRAL STATION SERVICE PER NFPA 72, 2002, SECTION 5 -2, UNLESS OTHERWISE SPECIFIED. THE FIRE ALARM PANEL MUST HAVE AN EARTH GROUND CONNECTION AS REQUIRED BY THE SYSTEM MANUFACTURER AND ARTICLE 760 OF THE NATIONAL ELECTRICAL CODE. MINIMUM WIRE SIZE IS 12 AWG FOR GROUND CONNECTION. (NOTE: PANEL NEUTRAL OR CONDUIT GROUND IS NOT ACCEPTABLE). ALL STROBE LIGHTS SHALL ACTIVATE UPON INITIATION OF THE GENERAL ALARM AND SHALL BE SYNCHRONIZED IN OPEN AREAS. ALL AUDIBLE SIGNALS SHALL HAVE THREE PULSE TEMPORAL PATTERN AND SOUND LEVEL SHALL BE AT LEAST 15 DBA ABOVE AMBIENT SOUND LEVEL AND HAVING A DURATION OF AT LEAST 60 SECONDS MEASURED 5 FT ABOVE THE FLOOR IN OCCUPIED AREAS. FIRE ALARM CIRCUITS AND DEVICES SHALL BE CLASS "B ". ALL WIRING AND CONDUIT TO CONFORM TO N.F.P.A. AND N.E.C. 760. CONNECTIONS TO LIGHTS AND POWER SERVICE SHALL BE ON A DEDICATED BRANCH CIRCUIT. THE CIRCUIT AND CONNECTIONS SHALL BE MECHANICALLY PROTECTED. THE CIRCUIT DISCONNECTING MEANS SHALL HAVE A RED MARKING AND BE ACCESSIBLE ONLY TO AUTHORIZED PERSONNEL AND BE PER N.F.P.A. 72 2002 EDITION THE FIRE ALARM PANEL IS PROVIDED WITH STANDBY BATTERY PER N.F.P.A. 72 WITH 24 HOURS OF STANDBY AND 5 MINUTES OF ALARM (AS REQUIRED). SHOULD LOSS OF NORMAL 120VAC POWER OCCUR, FIRE ALARM PANEL WILL AUTOMATICALLY TRANSFER TO BATTERY. A CERTIFICATE OF COMPLETION WILL BE PREPARED AND A COPY PROVIDED TO THE OWNER AND THE CITY FIRE RESCUE DEPARTMENT. OWNER MANUALS, INSTALLATION INSTRUCTIONS, OPERATION INSTRUCTIONS AND RECORD DRAWINGS SHALL BE AT THE SITE ON COMPLETION OF JOB AND FINAL ACCEPTANCE. INSTALLATION NOTES: ALL FIRE STOP PENETRATIONS SHALL BE MADE WITH APPROVED N.E.C. ELECTRICAL TUBING AND SHALL BE SEALED WITH U.L. APPROVE FIRE STOP MATERIAL. COLOR CODING MAY NOT APPLY TO EXISTING WIRE. (WIRE TO BE LABELED ACCORDINGLY.) CONDUIT SHALL BE A MINIMUM OF 1/2" AND 40% FILL MAXIMUM. TWO TELEPHONE LINES SHALL BE PROVIDED TO THE FIRE CONTROL COMMUNICATOR. ALL FLOW, TAMPER, PIV AND BACKFLOW WILL HAVE MONITOR MODULES; FIRE PROTECTION SPRINKLER PUMP MONITORING. (3 POINTS) (A).FIRE PUMP RUN (B).FIRE PUMP FAIL (C).FIRE PUMP PHASE REVERSAL. ROUTING OF THE FIRE ALARM SYSTEM CONDUIT IS DIAGRAMMATIC. VERIFY EXACT LOCATIONS OF DEVICES AND WIRE ROUTING PRIOR TO STARTING WORK. MOUNTING REQUIREMENTS: MANUAL PULL STATIONS TO BE INSTALLED AT 48" A.F.F. MOUNT FIRE ALARM SYSTEM STROBES & HORN / STROBES AT 80" A.F.F. FROM BOTTOM OF DEVICE OR 6" BELOW CEILING. (WHICH EVER IS LOWER) SMOKE DETECTOR SHALL NOT BE LOCATED WITHIN T OF SUPPLY AIR OUTLETS. SMOKE DETECTORS TO BE INSTALLED AS PER N.F.P.A. 72. WALL MOUNTED SMOKE DETECTORS SHALL BE MOUNTED 4" MINIMUM FROM CEILING WITH 12" MAXIMUM FROM CEILING. LEGEND COUNT SYMBOL DEVICE TYPE MODEL MANUFACTURE 1 FFACP1 FIRE ALARM CONTROL PANEL FPA- 1000 -UL SERIES BOSCH 2 FP_/_3_1 FIRE ALARM POWER SUPPLY AL802 -WAL SERIES BOSCH 36 1-3/8(35) HORN/STROBE GEC SERIES GENTEX 1/2 -12 (13 -305) 1-1/4(32) HORN /STROBE 2 4-1/2(114) 1 2 (51) WEATHERPROOF WGEC SERIES GENTEX 52 ©Q STROBE ONLY GES SERIES GENTEX 7 3-1/4(83) STROBE ONLY WGES SERIES GENTEX 22 -30 (558 -762) 2 (51) WEATHERPROOF 2 5-1/2(140) 39 O SMOKE DETECTOR FAP -325 SERIES BOSCH 6 O HEAT DETECTOR FAH -325 SERIES BOSCH 3 0.149 DUCT DETECTOR FAD -325 -R SERIES BOSCH 3 RT REMOTE TEST STATION D344 -RT SERIES BOSCH 9 (AMPS) MANUAL PULL STATION FMM -325A SERIES BOSCH 6 ® RELAY MODULE D328A SERIES BOSCH (E) = EXISTING DEVICE 165 TOTAL DEVICES (WP) = WEATHERPROOF DEVICE FILL VOID OR CAVITY MATERIALS CLASSIFIED BY UNDERWRITERS LABORATORIES, INC. ® FOR USE IN THROUGH - PENETRATION US FIRESTOP SYSTEMS (XHEZ). SEE CURRENT UL FIRE ® RESISTANCE DIRECTORY 50L6,9OG9 SECTION A -A System No. C -AJ -1044 June 15, 2005 F Ratings - 2, 3, and 4 Hr. (See items 2A and 4) T Rating - 0 Hr. L Rating at Ambient - 2 CFM /sq. ft. L Rating at 400 F - less than 1 CFM /sq. ft. W Rating - Class I (See item 4) 1. Floor or Wall Assembly Lightweight or normal weight (100 -150 pcf or 1600 -2400 kg /m3) concrete. Except as noted in table under Item 4, min thickness of solid concrete floor or wall assembly is 4 -1/2 in. (114 mm). Floor may also be constructed of any min 6 in. (152 mm) thick UL Classified hollow core Precast Concrete Units *. When floor is constructed of hollow core precast concrete units, packing material (Item 3) and caulk fill material (Item 4) to be installed symmetrically on both sides of floor, flush with floor surface. Wall assembly may also be constructed of any UL Classified Concrete Blocks *. Max diam of opening is in solid lightweight or normal weight concrete. Floor is 32 in. (813 mm). Max diam of opening in floor constructed of hollow -core precast concrete units is 7 in. (178 mm). See Concrete Blocks (CAZT) and Precast Concrete Units (CFTV) categories in the Fire Resistance Directory for names of manufacturers. 1A. Steel Sleeve (Optional, not shown) - Max 15 in. (381 mm) ID (or smaller) Schedule 10 (or heavier) steel sleeve cast or grouted into floor or wall assembly. Sleeve may extend a max of 2 in. (51 mm) above top of floor or beyond either surface of wall. Max 16 in. (406 mm) I D (or smaller) min 0.028 (0.71 mm) wall thickness (or heavier) galvanized steel sleeve cast or grouted into floor or wall assembly. Sleeve may extend a max of 1/2 in. (13 mm) beyond either surface of floor or wall. 2. Through Penetrants - One metallic pipe, conduit or tubing to be installed either concentrically or eccentrically within the firestop system. Max annular space between pipe, conduit or tubing and edge of through opening or sleeve is dependent on the parameters shown in Item 4. Min annular space between pipe or conduit and edge of through opening is 0 in. (0 mm) (point contact). Pipe conduit or tubing to be rigidly supported on both sides of floor or wall assembly. The following types and sizes of metallic pipes, conduits or tubing may be used: A. Steel Pipe - Nom 30 in. (762 mm) diam (or smaller) Schedule 10 (or heavier) steel pipe. B. Iron Pipe - Nom 30 in. (762 mm) diam (or smaller) cast or ductile iron pipe. C. Conduit - Nom 6 in. (152 mm) diam (or smaller) rigid steel conduit. D. Conduit - Nom 4 in. (102 mm) diam (or smaller) steel electrical metallic tubing. E. Copper - Tubing Nom 6 in. (152 mm) diam (or smaller) Type L (or heavier) copper tube. F. Copper Pipe - Nom 6 in. (152 mm) diam (or smaller) Regular (or heavier) copper pipe. 3. Packing Material - Polyethylene backer rod or nom 1 in. (25 mm) thickness of tightly - packed mineral wool batt or glass fiber insulation firmly packed into opening as a permanent form. Packing material to be recessed from top surface of floor or from both surfaces of wall as required to accommodate the required thickness of caulk fill material (Item 4). 4. Fill,Void or Cavity Material* - Caulk or Sealant - Applied to fill the annular space flush with top surface of floor. In wall assemblies, required caulk thickness to be installed symmetrically on both sides of wall, flush with wall surface. At point contact location between penetrant and sleeve or between penetrant and concrete, a min 1/4 in. (6 mm) diam bead of caulk shall be applied at top surface of floor and at both surfaces of wall. The hourly F Ratings and the min required caulk thicknesses are dependent upon a number of parameters, as shown in the following table: Min. Floor or Wall Thkns In. (mm) Nom. Pipe Tube or Conduit Diam in. (mm) Max Annular Space in. (mm) Min. Caulk Thkns in. (mm) F Rating Hour 2-1/2(64) 12 -12 (13 -305) 1-3/8(35) 1/2(13) 2 2-1/2(64) 1/2 -12 (13 -305) 3-1/4(83) 1 (25) 2 4-1/2(114) 1/2 -6 (13 -152) 1-3/8(35) 1/4 (6) (a) 2 4 -12 (114) 1/2 -12 (13 -305) 1-1/4(32) 1/2 (13) 2 4-1/2(114) 1/2 -20 (13 -508) 2 (51) 1 (25) 2 4 -12 (114) 1/2 -20 (13 -508) 2 (51) 1 (25) 2 4-1/2(114) 1/2 -12 (13 -305) 3-1/4(83) 1 (25) 2 4-1/2(114) 22 -30 (558 -762) 2 (51) 1/2(51) 2 5-1/2(140) 1/2 -6 (13 -152) 1-3/8(35) 1 (25) (b) 2 (a)Min 2 in. (51 mm) thickness of mineral wool batt insulation required in annular space. (b)Min 1 in. (25 mm) thickness of mineral wool batt insulation required in annular space on both sides of floor or wall assembly. Min 1 in. (25 mm) thickness of caulk to be installed flush with each surface of floor or wall assembly. 3M COMPANY - CP 25WB+ caulk or FB -3000 WT sealant. (Note: W Rating applies only when FB -3000 WT sealant is used.) *Bearing the UL Classification Marking *NOTE This material was extracted by 3M fire protection products from 2004 edition of the UL fire resistance directory. SCOPE OF WORK 1. INSTALLATION OF A NEW BOSCH FIRE ALARM FACP, DIALER, POWER SUPPLIES, ELEVATOR RECALL, INITAITING & NOTIFICATION DEVICES AS SHOWN ON PLANS. THE SCOPE OF WORK IS A 4 STORY BUILDINGINCLUDING THE ROOF LEVEL AND HAS A TOTAL AREA OF: 12,250 SQ. FT. THE NEW FACP IS AN ADDRESSABLE INTELLIGENT SYSTEM. THE SYSTEM HAS A SLC DEVICE CAPACITY OF 127 DETECTORS AND MODULES. 2.THIS INSTALLATION WILL INCLUDE UTILIZATION OF NEW AND EXISTING COMPATIBLE COMPONENTS 3. THE MAXIMUM HEIGHT OF CEILING 9' -8 ". 4. SEE BATTERY CALCULATIONS FOR MAXIMUM LENGTH PER NOTIFICATION CIRCUIT. 5. THIS BUILDING DOES NOT HAVE A SPRINKLER SYSTEM. WIRE LEGEND SYMBOL WIRE TYPE AND DESCRIPTION WIRE REQUIRED 14 AWG COLOR 12 AWG 2 414 FPLR ISOTEC P#-IR142SFPL1 -02 10 AWG A WIRE FOR DATA COMMUNICATION RED TOTAL STANDBY 2 #14 FPLR ISOTEC P#- IR142SFPL1 -02 STANDBY B WIRE FOR NOTIFICATION BLUE CURRENT 2 #14 ISOTEC P#- I142SVNTC -00 ALARM C WIRE FOR GROUND CONNECTION GREEN 0 2 412 THHN SUPPLY BY OTHERS CAPACITY D WIRE FOR PANEL POWER BLACK DESCRIPTION THE INSTALLATION OF THE FIRE ALARM SYSTEM WIRING SHOULD TAKE INTO TIME (HOURS) ACCOUNT THE FIRE ALARM SYSTEM MANUFACTURERS PUBLISHED * INSTALLATION INSTRUCTIONS AND THE LIMITATIONS OF THE APPLICABLE CURRENT PRODUCT LISTING OR APPROVALS. QTY WIRE SIZE SHOWN IS FOR MIN. ACCEPTANCE GAUGE. CURRENT WIRE SIZE MAY INCREASE IF REQUIRED BY CIRCUIT. FILL VOID OR CAVITY MATERIALS CLASSIFIED BY UNDERWRITERS o LABORATORIES, INC. ® FOR USE IN THROUGH - PENETRATION US FIRESTOP SYSTEMS (XHEZ). SEE CURRENT UL FIRE ® RESISTANCE DIRECTORY 50L6,90G9 SECTION A -A System No. W -L -3001 September 07, 2004 F Ratings - 1 and 2 Hr. (See items 1) T Rating - 3/4, 1, 1 -1/2 and 2 Hr. (See item 2) L Rating at ambient - 15 CFM /sq. ft. (See item 3) L Rating at 400 F - less than 1 CFM /sq. ft. (See item 3) 1. Wall Assembly - The 1 or 2 hr fire -rated gypsum wallboard /stud wall assembly shall be constructed of the materials and in the manner described in the individual 0300 or U400 Series Wall or Partition Designs in the UL Fire Resistance Directory and shall include the following construction features: A. Studs - Wall framing may consist of either wood studs or steel channel studs. Wood studs to consist of nom 2 by 4 in. lumber spaced 16 in. OC with nom 2 by 4 in. lumber end plates and cross braces. Steel studs to be min 3 -5/8 in. wide by 1 -3/8 in. deep channels spaced max 24 in OC. B. Gypsum Board* - Nom 1/2 or 5/8 in. thick, 4 ft wide with square or tapered edges. The gypsum wallboard type, thickness, number of layers and sheet orientation shall be as specified in the individual Wall or Partition Design. Diam of circular through opening to be 3/8 in. to 5/8 in, larger than outside diam of cable or cable bundle. C. Fasteners - When wood stud framing is employed gypsum wallboard layers attached to studs with cement coated nails as specified in the individual Wall or Partition Design. When steel channel stud framing is employed, gypsum wallboard attached to studs with Type S self -drilling, self- tapping bugle -head steel screws as specified in the individual Wall or Partition Design. The hourly F Rating of the firestop system is equal to the hourly fire rating of the wall assembly in which it is installed. 2. Cables - Individual cable or max 1 in. diam cable bundle installed in through opening with an annular space of min 0 in. (point contact) to max 3/4 in. Cable to be rigidly supported on both sides of wall assembly. The following types and sizes of cables may be used: A. Max 150 pair No. 24 AWG copper conductor telephone cable with polyvinyl chloride PVC insulation and jacket materials. When max 25 pair telephone cable is used, T Rating is 2 hr.When 50 to 150 pair telephone cable is used in 1 hr fire rated wall, T Rating is 3/4 hr.When 50 to 150 pair telephone cable is used in 2 hr fire rated wall, T Rating is 1 hr. B. Max No. 10 AWG multiple copper conductor Type NM ( "Romex ") nonmetallic sheathed cable with PVC insulation and jacket materials. When Type NM cable is used, max T Rating is 1 -1/2 hr. C. Multiple fiber optical communication cable jacketed with PVC and having a max outside diam of 5/8 in. When fiber optic cable is used, max T Rating is 2 hr. D. Max 12 AWG multi conductor (max seven conductors) power /control cable with cross - linked polyethylene (XLPE) insulation and XLPE or PVC jacket materials. When multi conductor power /control cable is used, max T Rating is 2 hr. E. Max four conductor with ground No. 2 AWG (or smaller) aluminum SER cables with polyvinyl chloride insulation and jacket materials. 3. Fill,Void or Cavity Materials* - Caulk, Sealant or Putty - Caulk or putty fill material installed to completely fill annular space between cable and gypsum wallboard on both sides of wall and with a min 114 in. diam bead of caulk or putty applied to perimeter of cable(s) at its egress from each side of the wall. 3M COMPANY - MP+ Stix putty, CP 25WB+ caulk, FB -3000 WT sealant or Cable Wrap putty (Note: L Ratings apply only when CP 25WB+ caulk or FB -3000 WT sealant is used.) *Bearing the UL Classification Mark REQUIRED 18 AWG BOSCH FIRE ALARM CONTROL PANEL 16 AWG REQUIRED 14 AWG STANDBY 12 AWG TOTAL ALARM 10 AWG REQUIRED ALARM 0.224 TOTAL STANDBY - STANDBY 0.000 TIME STANDBY CURRENT ALARM ALARM TOTAL ALARM TOTAL STANDBY CURRENT (AMPS) 0 CAPACITY CAPACITY TOTAL ALARM CAPACITY (AMPS) DESCRIPTION CURRENT TIME (HOURS) QT, BATTERY CURRENTPER CURRENT (AMP -HR) QTY BATTERY CURRENT DEVICE DEVICE (AMP -HR) 24 PER UNIT (AMPS) (AMP -HR) (AMP -HR) 2.300 PER UNIT (AMPS) 5.947 REQUIRED (AMP -HR) 24 X 0.149 (AMPS) 3 568 1.2 0 084 ITEM (AMPS) (AMPS) = 0.140 0.175 (AMPS) 14 1.554 FPA - 1000 -UL MAIN BOARD 0.1250 x 1 = 01250 0.2400 x 1 = 02400 1.466 x FAP325 SERIES SMOKE DETECTOR 00004 x 39 = 0.0156 0.0080 x 39 = 0.3120 TOTAL SYSTEM 1 372 FAH-325 SERIES HEAT DETECTOR 00004 x 6 = 0.0021 00080 x 6 = 00480 FAD328 -R SERIES DUCT DETECTOR 00004 x 3 = 00012 00080 x 3 = 00240 D344RT REMOTE TEST STATION 0.0005 x 3 = 0.0015 00015 x 3 = 0.0045 FMM -325A SERIES PULL STATION 0.0003 x 9 = 0.0027 00040 x 9 = 0.0360 D328A SERIES RELAY MODULE 00001 x 6 = 0.0006 00050 x 6 = 00300 0.1487 GEG2475 00000 x 1 = 00000 0.1900 x 1 = 01 900 WGES -2475 0.0000 x 7 = 0.0000 0.1120 x 7 = 07840 REQUIRED OPERATION TIME FROM NFPA 72 4.4.1.5 2.2.(1) & 4.4.1.5 3.1 STANDBY: 24 HOURS ALARM: 5 MINUTES X1/60 = 0.084 HOURS MINIMUM AMP /HOUR P 1 BATTERY REQUIRED 7 REQUIRED 18 AWG REQUIRED 16 AWG REQUIRED 14 AWG REQUIRED REQUIRED 12 AWG TOTAL ALARM 10 AWG REQUIRED STANDBY 0.224 TOTAL STANDBY - STANDBY 0.000 TIME STANDBY CURRENT ALARM ALARM TOTAL ALARM DESCRIPTION CURRENT (AMPS) 0 CAPACITY CAPACITY CURRENTPER CAPACITY (AMPS) AMP /HOUR CAPACITY TIME (HOURS) - BATTERY (AMP -HR) (AMP -HR) (AMP -HR) (HOURS) BATTERY (AMPS) DEVICE DEVICE (AMP -HR) 24 (AMP -HR) (AMPS) (AMP -HR) (AMP -HR) 2.300 ITEM (AMPS) (AMPS) 5.947 REQUIRED (AMP -HR) 24 X 0.149 = 3 568 1.2 0 084 X 1 669 = 0.140 0.175 CIRCUIT #1 14 1.554 x 1 = 1.554 CIRCUIT #2 1.510 1XI 1 = 1.510 CIRCUIT #3 1.466 x 1 = 1.466 CIRCUIT#4 1.242 1XI 1 = 1.242 TOTALSYSTEMI 22% TOTAL SYSTEM 1 372 3.07 0.075 1 1.924 5.947 STANDBY (AMPS) 1 16.01 ALARM (AMPS) YES TOTAL SYSTEM TOTAL SYSTEM 0.1487 1 6685 STANDBY (AMPS) ALARM (AMPS) REQUIRED 18 AWG REQUIRED 16 AWG REQUIRED 14 AWG REQUIRED REQUIRED 12 AWG TOTAL ALARM 10 AWG REQUIRED STANDBY 0.224 TOTAL STANDBY - STANDBY 0.000 TIME STANDBY CURRENT ALARM ALARM TOTAL ALARM DESCRIPTION CURRENT (AMPS) 0 CAPACITY CAPACITY CURRENTPER CAPACITY (AMPS) AMP /HOUR CAPACITY TIME (HOURS) - BATTERY (AMP -HR) (AMP -HR) (AMP -HR) (HOURS) BATTERY (AMPS) DEVICE DEVICE (AMP -HR) 24 (AMP -HR) (AMPS) (AMP -HR) (AMP -HR) 2.300 ITEM (AMPS) (AMPS) 5.947 REQUIRED (AMP -HR) 24 X 0.149 = 3 568 1.2 0 084 X 1 669 = 0.140 REQUIRED 18 AWG REQUIRED 16 AWG 4.89 14 AWG 3.07 12 AWG MINIMUM 10 AWG 1.21 STANDBY 0.224 REQUIRED - STANDBY 0.000 TOTAL STANDBY STANDBY CURRENT ALARM ALARM TOTAL ALARM DESCRIPTION DERATING 0 AMP /HOUR CAPACITY CURRENTPER CAPACITY (AMPS) AMP /HOUR CAPACITY FACTOR 1.2 - BATTERY (AMP -HR) (AMP -HR) (AMP -HR) 1.554 BATTERY O DEVICE DEVICE (AMP -HR) 24 (AMP -HR) (AMPS) (AMP -HR) 1.800 2.300 ITEM (AMPS) (AMPS) 5.947 REQUIRED 3 568 + 0.140 = 3 708 X 1.2 = 4 450 BOX MOUNTING IN CONDUIT 4" SQUARE (2 -1/8" DEEP) BOX (OR 4" BOX). PROVIDE O O ADEQUATE SUPPORT FOR BOX IN CEILING FLEX 4" SQUARE (2 -1/8" DEEP) BOX O O CEILING 4" SQUARE BOX TO 3 -0 ADAPTER RING (OR NO RING IF 4 -0 BOX IS USED) I I PLUG - IN DETECTOR BASE NOTE: MIN PIPE FLEX 112" FREE WIRE IN CEILING DETECTOR HEAD BOX MOUNTING IN LIFT OUT OR INTERLOCKING TYPE CEILINGS WITH SYSTEMS INSTALLED IN CONDUIT THIS DIAGRAM IS FOR REPRESENTATIVE PURPOSES ONLY, AND IS NOT AN EXACT SPECIFICATION. DETECTOR BASE NOTE:3 CABLE NOTE: 3 FROM INTFC BOARD ( -� TO NEXT DEVICE AT FACP[ + ](WHERE APPLICABLE) NOTE: 1 2( +) 1( 2( +) 1(- (30 O �30 O ❑ M1TYP ❑ m1TYP LOOP�� ADDRESS LOOPADDRESS WIRING FOR ADB -FL BASE (STYLE 4) NOTE 1: DETECTOR (SLC LOOP) TO BE INSTALLED USING TWISTED FPL WIRE NOTE 2: DO NOT LOOP WIRE UNDER TERMINALS 1 & 2. BREAK WIRE RUN TO PROVIDE SUPERVISION NOTE 3: OBSERVE POLARITY. DO NOT GROUND CONTROL WIRES OR SHIELDS. TIE SHIELDS TOGETHER AT EACH DETECTOR. NOTE 4: SET THE ROTARY DIALS ON THE REAR OF THE DETECTOR HEAD TO CORRESPOND TO THE LAST TWO DIGITS OF THE DEVICE LOOP ADDRESS. REFER TO THE FLOOR PLANS FOR THE DETECTOR DEVICE NOTE 5: RECORD THE LOOP ADDRESS & DEVICE TYPE IN THE SPACES PROVIDED ON ADA HEIGHT REQUIRMENTS 80" A.F F. OR 6" BELOW CEILING (WHICHEVER IS LOWER) NOTES, RISER & DETAILS - FIRE ALARM PLAN SCALE: N.T.S STROBE OR HORN /STROBE PULL STATION . O 48" A.F.F. O O NOT TO SCALE BOX MOUNTING REQUIRMENTS 1900 BOX PROVIDE ADEQUATE SUPPORT FOR BOX IN CEILING 00- I I CEILING I I PLUG - IN I I DETECTOR BASE DETECTOR HEAD BIG MOUNTING IN SHEET ROCK OR PLASTER TYPE CEILINGS (MUST BE INSTALLED WITH CONDUIT) THIS DIAGRAM IS FOR REPRESENTATIVE PURPOSES ONLY, AND IS NOT AN EXACT SPECIFICATION. VD = 2 XL XR XI OPERATING RANGE FOR DEVICES 1000 ARE BETWEEN 16VDC AND 33VDC VD = VOLTAGE DROP L = ONE -WAY LENGTH OF CIRCUIT R = CONDUCTOR RESISTANCE IN OHMS PER THOUSAND FEET 1 = LOAD CURRENT OHMS PER THOUSAND 18 AWG 7.77 16 AWG 4.89 14 AWG 3.07 12 AWG 1.93 10 AWG 1.21 POWER SUPPLY #1 QTY STANDBY AMPS REQUIRED 7 REQUIRED ALARM TOTAL ALARM STANDBY REQUIRED STANDBY 0.224 CURRENT - STANDBY 0.000 TOTAL STANDBY CURRENT CURRENT CAPACITY ALARM TOTAL ALARM DESCRIPTION CURRENT 0 QTY 0.000 CURRENTPER 0 (AMPS) QTY CAPACITY CURRENT - PER UNIT (AMP -HR) (AMP -HR) (AMP -HR) 1.554 PER UNIT O DEVICE DEVICE (AMP -HR) 24 X (AMPS) = 1.800 2.300 ITEM (AMPS) (AMPS) 5.947 = 0.500 (AMPS) AL802 -WAL 0.075 x 1 = 0.075 0.175 x 1 = 0.175 CIRCUIT #1 14 1.554 x 1 = 1.554 CIRCUIT #2 1.510 1XI 1 = 1.510 CIRCUIT #3 1.466 x 1 = 1.466 CIRCUIT#4 1.242 1XI 1 = 1.242 TOTALSYSTEMI 22% TOTAL SYSTEM 1 372 3.07 0.075 1 1.924 5.947 STANDBY (AMPS) 1 16.01 ALARM (AMPS) YES KtUUlHtU UPtKA IKON IIMt t-KOM NI-PA /Z 4.4.1.b.Z.2.(1) & 4.4.1.b.3.1 STANDBY: 24 HOURS ALARM: 5 MINUTES X 1/60 = 0 -084 HOURS REQUIRED QTY TOTAL AMPS REQUIRED 7 REQUIRED 0.190 TOTAL ALARM STANDBY REQUIRED STANDBY 0.224 STANDBY - STANDBY 0.000 ALARMTIME CAPACITY CURRENT CAPACITY ALARM TIME (HOURS) 0.000 CURRENT 0 CAPACITY 0.000 (HOURS) 0 (AMPS) BATTERY CAPACITY 0 - (AMPS) (AMP -HR) (AMP -HR) (AMP -HR) 1.554 PER UNIT O DEVICE DEVICE (AMP -HR) 24 X 0.075 = 1.800 2.300 0.084 X 5.947 = 0.500 PSI REQUIRED QTY REQUIRED AMPS REQUIRED 7 GEC-2475 (75cd) 0.190 MINIMUM STANDBY GES -2475 (75cd) ALARM 0.224 0 - DERATING 0.000 AMP /HOUR CAPACITY 0.000 CAPACITY 0 AMP /HOUR 0.000 FACTOR 1.2 0 BATTERY 0.000 0.000 0 - BATTERY 0.000 0 - 0.000 (AMP -HR) 9 (AMP -HR) 1.554 PER UNIT O DEVICE DEVICE (AMP -HR) REQUIRED 1.800 + 0.500 = 2.300 X 1.2 = 2.759 TOTALS FOR CIRCUIT #1 QTY NOTIFICATION TYPE AMPS TOTAL 7 GEC-2475 (75cd) 0.190 1.330 2 GES -2475 (75cd) 0.112 0.224 0 - 0.000 0.000 0 - 0.000 0.000 0 - 0.000 0.000 0 - 0.000 0.000 0 - 0.000 0.000 0 - 0.000 0.000 9 TOTAL AMPS: 1.554 TOTALS FOR CIRCUIT #2 QTY NOTIFICATION TYPE AMPS TOTAL 5 GEC-2475 (75cd) 0.190 0.950 5 GES -2475 (75cd) 0.112 0.560 0 - 0.000 0.000 0 - 0.000 0.0oo 0 - 0.000 0.000 0 - 0.000 0.000 0 - 0.000 1 0.000 0 - 0.000 1 0.000 10 1 TOTALAMPS:1 1.510 MINIMUM AMP /HOUR BATTERY REQUIRED 4.5 TOTALS FOR CIRCUIT #3 QTY NOTIFICATION TYPE AMPS TOTAL 3 GEC-2475 (75cd) 0.190 0.570 8 GES -2475 (75cd) 0.112 0.896 0 - 0.000 0.000 0 - 0.000 0.000 0 - 0.000 0.000 0 - 0.000 0.000 0 - 0.000 0.000 0 - 0.000 0.000 11 TOTAL AMPS: 1.466 TOTALS FOR CIRCUIT #4 QTY NOTIFICATION TYPE AMPS TOTAL 3 GEC-2475 (75cd) 0.190 0.570 6 GES -2475 (75cd) 0.112 0.672 0 - 0.000 0.000 0 - 0.000 0.000 0 CIRCUIT 0.000 0.000 0 QTY 1 0.000 0.000 0 (AMPS) 1 0.000 0.000 0 - 0.000 0.000 9 IOTA! AMPS: 1.242 VOLTAGE DROP CALCULATIONS 18 AWG WIRE RUN 16 AWG 4.89 14 AWG 3.07 VOLTAGE 1.93 10 AWG 1.21 STANDBY OHMS PER TOTAL - POWER 0.000 VOLTAGE CURRENT CIRCUIT ONE WAY WIRE SIZE CIRCUIT VOLTAGE SUPPLY READING QTY ACCEPTABLE NUMBER (FEET] (AMPS) DRAW DROP VOLTAGE - DROP AT END VOLTAGE DROP (AMP -HR) (W.C.S.) 1.466 PER UNIT O DEVICE DEVICE (AMP -HR) 24 OHMS AWG = 1.800 ITEM (AMPS) (AMPS) 7.067 - 0.594 CIRCUIT #1 460 3.07 14 1.554 4.389 20.4 16.01 22% YES CIRCUIT#2 474 3.07 14 1.510 4.395 20.4 16.01 22% YES CIRCUIT #3 488 3.07 14 1.466 4.393 1 20.4 1 16.01 22% YES CIRCUIT#4 576 3.07 14 1.242 4.393 1 20.4 1 16.01 22% YES = WORST CASE SCENARIO VD = 2 XL XR XI OPERATING RANGE FOR DEVICES 1000 ARE BETWEEN 16VDC AND 33VDC VD = VOLTAGE DROP L = ONE -WAY LENGTH OF CIRCUIT R = CONDUCTOR RESISTANCE IN OHMS PER THOUSAND FEET 1 =LOAD CURRENT OHMS PER THOUSAND 18 AWG 7.77 16 AWG 4.89 14 AWG 3.07 12 AWG 1.93 10 AWG 1.21 POWER SUPPLY #2 QTY STANDBY AMPS REQUIRED 3 REQUIRED ALARM TOTAL ALARM 8 REQUIRED STANDBY 0.896 CURRENT - STANDBY 0.000 TOTAL STANDBY CURRENT CURRENT ALARM ALARM TOTAL ALARM DESCRIPTION CURRENT 0 QTY CAPACITY CURRENTPER CAPACITY (AMPS) QT, CAPACITY CURRENT - PER UNIT 0.000 (AMP -HR) TOTAL AMPS: 1.466 PER UNIT O VOLTAGE (AMP -HR) 24 X (AMPS) = 1.800 ITEM (AMPS) (AMPS) 7.067 - 0.594 (AMPS) ) AL802 -WAL 0.075 x 1 = 0.075 0.175 x 1 = 0.175 CIRCUIT #1 1.466 1.466 x 1 = 1.466 CIRCUIT#2 1.924 x 1 = 1.924 CIRCUIT #3 1.578 x 1 = 1.578 CIRCUIT #4 1.924 x 1 = 1.924 TOTAL SYSTEM YES TOTAL SYSTEM 1 372 3.07 0.075 1 1.924 7.067 STANDBY (AMPS) 1 16.01 ALARM (AMPS) YES KtUVIKtU UFLKA IIUN IIMt t-KUM N-PA /Z 4.4.1.b.Z.Z.(1) to 4.4.1.b.3.1 STA MIRY• 9d Hnl IRS Al ARM• S MIIMI ITPC Y 1 /rn = n MA Wr%l 100 REQUIRED QTY TOTAL AMPS REQUIRED 3 REQUIRED 0.190 TOTAL ALARM 8 REQUIRED STANDBY 0.896 STANDBY - STANDBY 0.000 ALARM TIME STANDBY CURRENT ALARM ALARM TIME (HOURS) 0.000 CURRENT 0 CAPACITY CAPACITY (HOURS) CAPACITY (AMPS) AMP /HOUR CAPACITY FACTOR 1.2 - (AMPS) 0.000 (AMP -HR) TOTAL AMPS: 1.466 BATTERY O VOLTAGE (AMP -HR) 24 X 0.075 = 1.800 0.084 X 7.067 - 0.594 PS2 REQUIRED QTY REQUIRED AMPS TOTAL 3 GEC-2475 (75cd) 0.190 MINIMUM 8 GES -2475 (75cd) 0.112 0.896 REQUIRED - 0.000 0.000 0 STANDBY 0.000 ALARM 0 - 0.000 DERATING 0 AMP /HOUR CAPACITY 0.000 CAPACITY - AMP /HOUR 0.000 FACTOR 1.2 - BATTERY 0.000 11 TOTAL AMPS: 1.466 BATTERY O VOLTAGE END (AMP -HR) W J (AMP -HR) REVISIONS: DEVICE 1111JY' R REQUIRED 1.800 + 0.594 = 2.394 X 1.2 = 2.872 TOTALS FOR CIRCUIT #1 QTY NOTIFICATION TYPE AMPS TOTAL 3 GEC-2475 (75cd) 0.190 0.570 8 GES -2475 (75cd) 0.112 0.896 0 - 0.000 0.000 0 - 0.000 0.000 0 - 0.000 0.000 0 - 0.000 0.000 0 - 0.000 0.000 0 - 0.000 0.000 11 TOTAL AMPS: 1.466 TOTALS FOR CIRCUIT #2 QTY NOTIFICATION TYPE AMPS TOTAL 6 GEC-2475 5cd) 0.190 1.140 7 GES -2475 (75cd) 0.112 0.784 0 - 0.000 0.000 0 - 0.000 0.000 0 - 0.000 0.000 0 - 0.000 0.000 0 - 0.000 0.000 0 - 0.000 0.000 13 TOTAL AMPS: 1.924 MINIMUM AMP /HOUR BATTERY REQUIRED 4.5 TOTALS FOR CIRCUIT #3 QTY NOTIFICATION TYPE AMPS TOTAL 3 GEC-2475 (75cd) 0.190 0.570 9 GES -2475 (75cd) 0.112 1.008 0 GES -2475 (75cd) 0.000 0.000 0 - 0.000 0.000 0 - 0.000 0.000 0 - 0.001) 0.000 0 - 0.000 0.000 0 0.000 0.000 12 TOTAL AMPS: 1.578 TOTALS FOR CIRCUIT #4 QTY NOTIFICATION TYPE AMPS TOTAL 5 GEC-2475 (75cd) 0.190 0.950 1 WGEC -2475 (75cd) 0.190 0.190 7 GES -2475 (75cd) 0.112 0.784 0 0.000 0.000 WIRE SIZE CIRCUIT 0.000 0.00.000 READING ACCEPTABLE 0.000 L13 � 0.000 0.000 � 0000 0.000 C TOTAL AMPS: 1.924 VOLTAGE DROP CALCULATIONS ma m - • % a0 WIRE RUN r rd V3 c w_gWcn - -- a W �W� - - atan4111- ' VOLTAGE �n` H�O�`c" o� aa� Y� \�. W O a 0U OHMS PER TOTAL POWER VOLTAGE CIRCUIT ONE WAY WIRE SIZE CIRCUIT VOLTAGE SUPPLY READING ACCEPTABLE NUMBER (FEET) � DROP � ATLAST DROP AT VOLTAGE DROP C r O � DRAW O VOLTAGE END W J (W.C.S.) REVISIONS: DEVICE 1111JY' R LICENSED ENGINEER: OHMS AWG P.E. 002$; 6111111 ii���. FIRE j414W6 C o •� • �. s 4t/0 •. �o �/ •• � +6 III1t1T�, ,t - PROJECT NUMBER: ,. F -09101 CIRCUIT #1 488 3.07 14 1.466 4.393 20.4 16.01 22% YES CIRCUIT#2 372 3.07 14 1 1.924 1 4.395 1 20.4 1 16.01 1 22% YES CIRCUIT#3 1 453 3.07 14 1 1.578 1 4.389 1 20.4 1 16.01 1 22% YES CIRCUIT#4 1 372 3.07 14 1 1.924 1 4.395 1 20.4 1 16.01 1 22% YES = WORST CASE SCENARIO ' 4 :.w � • r „ .� ma m - • % a0 ® A -- -- � r rd V3 c w_gWcn - -- a W �W� - - atan4111- ' LL O 43 �n` H�O�`c" o� aa� Y� \�. W O a 0U �1 0 alb N I'7 Q W O O c e~ n � m■ � o C r O � O f'- W J REVISIONS: 11D 1111JY' R LICENSED ENGINEER: SHANTILAL C. PATEL (954) 327 -9475 P.E. 002$; 6111111 ii���. FIRE j414W6 C o •� • �. s 4t/0 •. �o �/ •• � +6 III1t1T�, ,t - PROJECT NUMBER: ,. F -09101 DATE: SCALE: 11/18/09 N.T.S. DRAWN BY: CHECKED BY: D.L. B. P. 7 OF 7, •r • a rn 3 U Z J lb O 0 M LL E c`o Q LL rn c 32 m O M 07 rn 0 0 CV w U a1 .p IL pl c w` m c ;rn c LU • • i1..s t t.s • O O Cn D.. v Q q: W r a