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FPS201 - 00176 4. I C � N C Ceiling ,;.s o � 4"Min. F o- 0�ul 6"Min. Smoke or Heat Detector 41 E o ��'S�. m U) S 0OJS 1X0 n =�au3fa i 5 � SW Thom$ f SW 76th PI a � N ^ SW Steve St N Nodflcallon Appllance: Maximum 96'to Top of Strobe Lens, ti f C Q Minimum 80'to Bottom of Lens. m m N a y C Notes: " < C w A WESTSIDE /� O 1. Detail not intended to show spatial relationship of devices. f a iO V FACPReference floor plan for actual locations, i Fire Six Inch(6")minimum If device cannot be located as y shown because ceiling height is insufficient $ x-t� Alarm Alarm Trouble Supervisory Misc. C H R I S TA I N HIGH SCHOOL Alarm �Exception to mounting height rgulrements is for cling SW Pfaffle St _ Control mount notification appliance circuit devices only. Ha We SW Pfaffle St S� 4�Detectors Shall NOT be Mounted Here. N A —CP Panel s'0 is DDS G� c 5�SidewallDetector Mounting Acceptable here. ?1r ��� ► \�� ` t Fire Detection & Alarm Maximum 48'. Detector/Base Edges Shall be within dimensions shown.Mnlmum 42' �.y \ Ceiling Mounted Detectors:Shall be Mounted NOT Less y E9 . > Above Flnlsh Floor than 4 inches from Sidewall. 0-> Pa x(\ CAUSE v0 1 �°� sP COMMENTS to Activation Handle. Sidewall Mounted Detectors:Shall be Mounted j Manual Alarm Station X X X X X Between 4"812"from the Ceiling. fid. S� z ay maw. c Smoke Detector X X X X X Finish Floor o WaterflowSwitch X X X X X X E AC Falure X x X Ci Fire Alarm Trouble X X X Mounting Elevation °� a om9.«.«gmm est oA 3 Duct Detector x X X Rust c.,ra Scale: None Post Indicator Valve K X X a- o Signal Stence x i airy S stem Reset x x a Electrical Notes: BUILDING LOCATION Sequence of Operations Drawing Set Contents: J 1. Installation shall corn I with NFPA-70 2008 Edition Approximate Scale:NTS m p y ( ),particularly article 760 section C.and shall also comply with NEPA-72(2010 Editiun;� pp Approximate Scale:NTS o Y and all local electrical codes and local requirements. FA-1 Title Sheet: Notes,Map,Device Legend, Sequence of Operations 2. Wire indicated on prints is diagramatic and maybe rerouted per field requirements. FA-2 One Line Diagram 3. AC power shall not occupy the same conduit as fire detection/protection circuits(most fire detection/protection circuits are NEC class 3). 4. Fire detection/protection wiring not required to be in conduit per specifications,code or user requirements.shall be types FPL, FA-3 Floor Fire Alarm Layout"A" shall be used In plenums.Wiring shall be secured to buNding structure. 5. Fire delectionlprotection Initiating Device Circuit(s)w Notification Appliance Circuit(s)shall not be parallel branched(Tee-Tapped)to FA-4 Floor Fire Alarm Layout"B" ensure supervision of wiring.Class B fire detection/protectlon Signaling Line Circult(s)may be parallel branched(Tee-Tapped). 6. Polarity of all fire detection/protection wiring shall be maintained throughout entire system:wire shat be marked&identified where spiced. FA-5 Floor Fire Alarm Layout"C" and at any junction boxes. sz a FA-6 Roof Fire Alarm Layout .9 m 7. The fire alarm control panel ground shall be a separate continuous ground wire back to the source ground;conduit ground Isnot acceptable „ M per manufacturer's specifications FA-7 Calculations 8. All field writing shall be checked for shorts and grounds.Wiring shall then be maggared before connection of any devices to the system wiring. wiring.Wiring shall be made up for this test so that all wiring comprising the system is tested.Meggar test results.including resistance values. FA-8 Installation Details(See Electrical Note#13 on This Page) c�sr. Ron aA shall be recorded and submitted to Johnson Control prior to commissioning test Device Legend: D—BY x-.t Ba 9. Flre alarm panel.and any other detection/protectlon equipment requiring 120vac,shall be suppled >*i—d 6-o-13 p eq g pilled by a dedicated circuit breaker.Other Non- Item � Symbol Part Description Part Number Manufacturer Mounting Options FA-9 FCPS-24S8 Sync Details fire detection/protection equipment shall not share the fire alarm circuit(s).This breaker shall be locked and dearly marked, sak M st— Flre Alarm Grcult Control". 1 1 FRCP Addressable Flre Alarm Control Panel IFC-320 IFC L 9GH CIR , 2 10. Power shat not be applied to the fire alarm panel unless a representative from Johnson Controls DAC Digital Alarm Communicator 5104 Silent Knight L Y7.DE ERIED BY' s is present. n B 3 1 ANN 80 Character Annunciator LCO2-80 IFC L NIC LE E FIED Bull drawings to Johnson Controls. Record all changes to wiring connections,device placement.wire routing.or conduit runs on Record As Built drawings Return Record As 4 1 Flush Mount Annunciator Backbox JABF-1 B IFC L — — — — — — C R TI FI ED 12. Notify Johnson Controls of any design questions of changes priorto installation 2 Battery 26AH,12V NP26.12 Yuasa FACP Enclosure 133aa n or fabrication. I D XXX 6 4 Battery 7AH,12V NP7-12 Yuasa DAC Enclosure EXPIRES Ot O1 2015 13.It is the responsibility of the contractor to read all instruction manuals.Manufacturer may change devices and appliances without notice. ! 1 P Addressable Manual Alarm Station JBG-12LX IFC A,E,F Sensor �Device Number e e 13.It Is the responsibility of the contractor to red line the signalling line circuit layout to be used in the as-built set O P Addressable Photoelectric Detector 2951J IFC Ref.Item#9 L — — —1 9 1 Detector Base B21OLP IFC A,C,D,F 11 7 Duct Detector DNR/ST-5(See 2951)Above) IFC Duct Mounted General Notes: Wire Tag Description Signaling Line Circuit Device Labeling ( Detector x#xx T-Tapping IS Permissible 12 4 MM Addressable Monitor Module M300MJ IFC G 1. Alterations or variations From Drawings Shall Be Red-Lined. Wire (AWG) 13 7 RM Addressable Relay Module M300RJ IFC G 14 , 2. Reference Instruction Manual During Installation of Fire Alarm Control Panel. �Numberer o of Conductors 57 XXcd Wall MountMultl-Candela Hom/Strobe P2R System Sensw A.D.E.F _ _ 15 17 ©O XXcd Wall Mount MulttCandela Strobe SR System Sensor A,D.E.F 3. Detectors Shall Not Be Mourned In Direct Air-Stream. � 16 2 Phone Jack RJ31 XSET OAC Enclosure 4. Detectors Shall Not Be Installed Within 3'-0•of Air-Supply Diffuser. Detail Reference I M XXX I 5. Orly U.L.Listed Devices Shall Be Used. �—Denotes Detail Designation. X —DenotesDrawAngSheet Sensor Device Number I 6. Detector Heads Shall Not Be Installed Until Final Cleaning Has Been Performed. Number of Detail Location. A Dash Equals Same Sheet L 7, Fire Alarm System Designed per NEPA 72(2010 Edition). —' Signaling Line Circuit Device Labeling ( Module ) T-Tapping IS Permissible J Abbreviation LegendF— — — — _ — — — O Not All Abbreviations are used or Referenced In this Drawing SetA I V_ X Abbreviation Description Abbreviation Descri Con N /� I Device Mounting Options: W v Notification A liance Device Number I Q = A.AMP Am heres max Maximum pp A 2'x 4"x 1-7/8'Deep Single Gang E Double Gang I 4-Square with 1-1/2"Extension AC Altematln Current min Mlrlmum ADA Americans with 5F_ mei Act NAC Notification Appliance ClrcuiUPower Supply Circuit Number AFF Above Finished Floor NC WC Normall Closed L— 8 2'x 4"x 2-1/2'Deep Single Gang F 4 x 4 x 1-1 2' J 4'Square with 2-118'Extension AH Amp Hour NEC National Electrical Code C 3-112"Octagon G 4•x 4•x 2-118' K Four Gang AHU Air Handling Unit NFPA National Fre Protection Association Notification ANN Annundator NO N10 NormallyDip en Appliance Circuit Device Labeling D 4"Octagon H 4-11116"x 4-11/16"x 2-118" L Factory Provided ~ Z AWG American Wire Gage N.I.C. Not InContract T-Tapping is NOT Permissible /'� Q Bldg building PVC Polyvinyl Chloride V J c Common Conduit PS Power Supply cd Candela RM Relay Module W (j) CFM Cubic Feet Per Minute ROR Rate of Rise Cot circuit SH Shielded Com Common Sht Sheet CPVC Chlorinated Pol 'n Chloride SLC S'nalin Line Circuit U DAC ''tal Alarm CommuicatornSPST Single Pole Sin le Throw DPDT Double Pole Double Throw Su v Supervisory E End of Line resistor THHN Thermalastic Heat Resistant Nylon Site Location: EMT Electrical Metallic Tubingi T Trouble Ed End of Line TSP Twisted Shielded Pair 8200 SW Pfaffle Street F Fan enhelt.Fixed Tem erature TW Twisted TIGARD,OR 97223 FACP Fire Alarm Control Panel Ty Typical FAC Fire Alarm Communlcator UON Unless Otherwise Noted Q Gnd Ground v Volts3665— 0058 HSSD High Sensltivlt Smoke Detection VAC Vdts Alternating Current HVAC Heating Ventilation 6 Air-conditioning VDC Vohs Direct Current ,-Box Junction Box W Watt Fire Alarm LBS.# Pounds W/ With mA Mlllam WPW/P FA-1 >T C � N N'4 a g O N WIRE SCHEDULE o O DESCRIPTION WIRE S AN V K C L N xU C �OO SIGNALING LINE CIRCUIT (SLC) 1 k16 TP NON-SHIELDED CABLE <A) S C L I D R R C«> K <-) = m N NAC RCUIT (CABLE ) 2 k14 SOLI C«> LK C-> C .= 3 4 V POWER (CABLE ) #14 L (+) L -) a 0 0 N L k L L N�O_LL ( A E E) a16 TP SOLID NA -FLU YEL A POWER By E. C. NA ,�1` N4 4.7K 1I2W. 1. THE SIGNALING LINE CIRCUIT CSLC> CONNECTS INTELLIGENT DETECTORS AND ADDRESSABLE MODULES (SPARE) TO THE IFC-640, IFC-3030 AND THE IFC-320, THE WIRE IS NON-SHIELDED, TWISTED PAIR, 16AWG N Eol. CAN BE UP T❑ 5000 FEET IN LENGTH MAX. STYLE 4 ALLOWS T-TAPPING, HOWEVER THEY SHOULD BE KEPTRT A MINIMUM, STYLE, 6 & 7 DO NOT ALLOW T-TAPPING, AND MUST RETURN TO THE FIRE ALARM C O CONTROL PANEL. O 2. THE NOTIFICATION APPLIANCE CIRCUIT (NAC> CONNECTS HORN/STROBES,STROBES AND HORNS TO THE N POWER SUPPLIES. THESE CIRCUITS HAVE BEEN ENGINEERED USING 14A WG WIRE, AND VOLTAGE DROP CALCULATIONS HAVE BEEN DONE TO VERIFY THAT THE END OF LINE VOLTAGES ARE WITHIN LIMITS. C Q Equals Candela Setting Typical RE( ). 00U I TAPPING RES IS APPROVAL W THE OENGINE N G INFER C I RC U ITS. CHANGES TO THE CIRC UITS LAYOUT OR LOAD O 0 3. 24VOLT DC POWER PROVIDES POWER TO AUXILLARY DEVICES. Equals Current Draw(Typical). 4. RS-485 PROVIDES COMMUNICATIONS TO REMOTE ANNUNCIATORS, 16AWG CAN BE 6000 FEET MAX, AT EACH CONNECTION, THE SHIELD SHALL BE CONNECTED AND TAPED TO BACK TO PROTECT IT FROM 110cd 110cd 110cd 110cd 110cd COMING IN CONTACT WITH GROUND. 0212 0.212 1212 0212 U.212 4.]KC11I2W. 5. THE INITIATING DEVICE CIRCUIT ( IDC) CONNECTS ALARM CONTACTS TO ADDRESSABLE MONITOR 2#14 MONITORS Power o 0 0 0 0 4 Eol. 6. WIRING IN PLENUM AREAS WILL BE FPLP, WIRING IN RISERS WILL BE FPLR. MIRING IN AREAS Supply N21 N22 N23 N2� ACCESSIBLE TO DAMAGE, MECHANICAL AND EQUIPMENT ROOMS WILL BE IN CONDUIT. TP INDICATES N3 Items previously TWISTED PAIR, TSP INDICATES TWISTED SHIELDED PAIR. 15cd 15cd 110cd 15cd 15cd 15cd 15cd 15cd permitted and installed N 1 2#14 0 079 0.079 0 0.079 0106, 0106, 0.066 0106, XZ 0.079 4.7KI1 EW , 1. in Phase 1 (2 013) 0 0 0 0 o N1-1 I I 1 1 4.WK 1I2W. (See Page FA-9) Eol. Equals Candela setting(Typical). Electrical Riser Diagram Keyed Notes: Equals Current Draw(Typical). 75cd 110cd 75cd 75cd 110cd 110cd N4 2#14 XZ 017, SZ 0.212 SZ 0176 0176 NZ 0212 0.212 To 120VAC,20Amp Dedicated Circuit. a a N4 1 N4 2 N4 3 N4 4 N4 5 N4 6 O Circuit Breaker Location to be Noted at FACP. w Ciruit Breaker to be Identified in Red Letters: 15cd 30cd 110cd 15cd 110cd 30cd 30cd 30cd 30cd "Fire Alarm System Control". N3 2#14 0.066 0.094 a 0.212 0.066 0.212 0107 SZ 0.107 SZ 0107 SZ 0.107 4.7KC2112W. Provided&Installed by Electrical Contractor. 0 0 0 0 0 o Eol. N3-1 N3 2 I N34 I I I II N3-9 O Alarm Contact from IFC-320 PS #1 30cd 30cd 15cd 15cd 15cd 15cd Power N2 2#14 0 094 o 0.107 0.066 0.066 A 0.079 0 0.079 4.71O Supervisory Contact from IFC-320 Eol. Supply N2-1 N2-2 N2-3 N24 N2-5 N2-6 a 15cd 15cd 110cd 15cd 75cd 15cd 15cd 15cd 15cd 15cd ® Trouble Contact from IFC 320 a m N1 2#14 0079 0066 0212 007, 0.176 0.066 0066 0066 0076 0066 4.7K01/2W. N Eol. I I I N14 I N1-6 I N1-8 I N1-10 24 VDC from IFC 320 FACP O c,�*wa, R�Be, Dom.,1% K".dm% 4.711<(2112W. D"� S (See Page FA-9) Eol. Equals Candela Setting(Typical). � MS �7 Equals Current Draw(Typical). SISTE N�� 75cd 75cd 75cd 75cd 75cd 75cd v DESIGN CERr NED a n 44 B N4 2#14 0176 0.176 0.176 0.176 0.176 0.176 NIC LE133E FIED N4-1 N4-2 N4-3 N4-4 I I l 30cd 30cd 15cd 75cd 75cd 15cd 110cd 110cd 15cd 1715rRes b D i:o,s N3 2#14 SZ 0.107 SZ 0.107 0076 SZ 0.176 0.176 SZ 01079 SZ 0212 SZ 0212 NZ 0079 4.7KC21i2W. 0 0 0 0 0, p o o A Eol. I N3-2 I N34 N3-5 I I N3-8 I 15cd 15cd 15cd 15cd 15cd 110cd 15cd S XXX N2 2#14 SZ 0079 SZ 0.079 0.066 0066 0066 SZ 0.212 SZ 0.079 4.7KC)1(2W. 0 0 0 o Eol. N2-1 N2-2 N2-3 N2-4 I N2-6 N2-7 I Sensor Device Number 75cd 15cd 15cd 15cd 15cd 75cd 75cd 75cd 15cd L - - - - - - J N1 2#14 SZ 0176 0.066 0.076 0.076 0.07, 0.176 0.176 0176 0.079 4.7K(21/2W, Signaling Line Circuit Device Labeling Sensor 0 ,o 0 0 0 ,o o, ° Eol. g g g ( ) I I I N1-4 I I N1-7 I N1-9 T-Tapping IS Permissible SLC Loop for Reference Only.Loop is Class B.Contractor to Conclude Best Path for Wire and As-Built the Condition on FA-4 and FA-5. F- - - - - - ? P C, 7 7 � P MM RM RM RM RM RM RM MM MM MM RM M XXX 2#16 D001 D002 D003 D004 D005 D006 D007 D008 M001 M002 M003 M004 M005 M006 M007 M008 M009 M010 M011 M012 SLC Data Loop Sensor Device Number - - - - - - - J J FACP 2#16 DAC p Fire Alarm Digital Alarm 2 PAIR 2#16(1 SUPPLY AND RETURN Signaling Line Circuit Device Labeling ( Module ) w U 3#12 Control Panel O 2#16 Communicator ANN T-Tapping IS Permissible � O 2#14 - - - - - - - - - - - Q = ® 2#16 O Power Supply# I U PSXNX - X ( z Notification Appliance Device Number co < O3#12 Circuit Number W Co - - - - - Notification Appliance Circuit Device Labeling v T-Tapping is NOT Permissible Site Location: 8200 SW PfaHle Street TIGARD,OR 97223 Electrical Riser Diagram 3665- QQj$ Fire Alarm Scale:None FA-2 i i I C 0 N^ to .� °I I° °I y'� m ° _ . _ pN' € =w o M 1, WORK ROOM ( Y M N o o = m Node 1 N1-3 128 I co CL 0� N1-3 15cd CBC CBC H NURSERY OFFICES Node 1 N1-2 L C O ART ROOM PHYSICS CLASSROOM CLASSROOM HALL 15cd 131 PS 1 N1-3 133 O i„i 118 120 121 122 127 Node 1 N1-1 0 110cd C C - - - B OFFICE 75cd O u 129 MM MM VE IBUL MM PLAN MAP 11 Node 1 N1 8 Node 1 N1-7 Node 1 N1-5 OFFICE PS 1 N1-2 132 I Node 1 N1-6 I 15cd Scale:NTS 75cd 75cd 75cd 75cd 130 =- � ° o ° o STORAGE I ° Node 1 N14 MUSIC 134 I (E) ° IScd PS 1 N1-1 CLASSROOM \ EO15 Node 1 N1-9 15cd 135 - ° 15cd o IT FACPPS 1 PS 2 0 75cd PS 1 N1-5 COURTYARD (E) �p PS115cd FROM F N1.4 I 123 STORAGE MECH/ EC L01D001 (E)STOR. ' z 137 136 165 15cd ID No de 1 N2-2 Node 1 N2-1 15cd� — o Devices and wiring � - — -- SMALL -- _ _ ' ---- - _ AHAL Ps1GROUP Node 1 N2-3 - DFROOM FROM PS 1and installed in 11715cd144 Phase 1 (2013) Node 1 N3-1 30cd SMALL 30cd 143 PS 1 N2-1 (E)KITCHEN K GROUP Node 1 N2-4 HALL o STORAGE MENS 111176 15cd CLASSROOM CLASSROOM 126 138 TOILET MM 147 I o N LIBRARY 125 124 140 145 L1 M002-ANSUL jI 114 15cd ° PS 1 N2-2 I Checked BY Ron Bell 30 c WORKROOM seued d I Drew BY Kenneth Ball S 1 N1$ EOLR 15cd dell 5-1613 115 PS 1 N 10 I Bm,e, "Sk— Node 1 N2-5 15cd Node 1 N2-6 I I SYSTEM DESIGN CERiIRED BY TOILET s 110cd JIc LE e rIED Node 1 N3-2 RGE 141 15cd = 30cd GROUP 5cd 1 N1-7 o PS 1 N1_9 TOILET TOIL 133aa EOLR 15cd Node 755 Node�Ncd 4 15cd 139 PS 1 N1-8 15cd T L (E) O TNS [Jul [E49: 0 I E%PIREB 07 01/2015 1:3ft Node 1 N2-7 I o / 142 PS 1 N2-4 5 1 I D ' Node 1 N3-3 146 � PS N L J U -- ° [ROM PS-1 15cd I WESTSIDE ' (� HALL 0 102 110cdNode 1 N3-7 15cd RETURN TO PS-1-SEE DETAILS Node 1 N3-6 -- ° 75cd I SCIENCE 75cd 75cd 75cd 75cd 75cd SCIENCE 113 Node 1 N4-3 Node 1 N4-4 Node 1 N4-5 Node 1 N4-6 ' HALL Node 1 N4-1 Node 1 N4-2 Node 1 N4-7 ERI 110 I I �W LL I I 1 � � J II CLASSROOM ' O CLASSROOM CLASSROOM CLASSROOM CLASSROOM CLASSROOM PREP i o CLASSROOM 108 107 106 105 104 103 ( 1 1 I U Fill] L.LJ ] EOLR I 2 'o I Node 1 N3-9 ( (D SCIENCE °�P ] 15cd U, _ 112 C� Q - VEST _ I I w U_ H -- - - ki - - Node 1 N3-8 I I ° site Location: 1 10c I 8200 SW game Street j TIGARD,OR 97223 - --- --- - -- -- - - -- --- - ---- - - -- -- --- --- - - 'r 3665- 0058 Floor Plan Fire Alarm Floor Plan"A" Fire Alarm Scale:1/8"=1'-0" FA-3 T >f0 C C N O C O O N 0�q U C 0 tp ' / ErwC W O Y M f i ininw V1 rll.0 o u> D ,o 0 C y N?N F1 72X 0 0 , -� a I77712' IT77 i 110cd C O O2 MM LM009 PS 2 N1-3° PS 2 N1 2 N C 1 uP 15cd C MM L1M010 O MM L1M011 UP V O % WEIGHTS/ 2AGE I (E) FITNESS 34 (E)STAGE AUDITORIUM HALL 159 I I 164 163 (E)SOUND 160 162 ' FROM PS-2 FROM PS-1 TOR. ( ( R. -' - - D 75cd PS 1 N4-3 PS 1 N4-4 o PS 2 N1-1 o n 75cd 75cd 15cd PLAN MAP 0 0 o Scale:NTS 3 - - PS 1 N4-1 ° 110cd 110cd ' PS 1 N4-2 PS 1 N4-5 I DRAWING NOTES I ' O One Flow and Two Valve Supervisory Switches. i COMMONS I O Exterior Bell by Fire Protection Contractor-Out of Scope. 150 I PS 1 N4-6 o 1 10c I ° 1 CM(W BY Ran Bell Denim By: Kennet Ball I Deb laweE: 5Y15-13 O F Si NB— I SYSTEM DESIGN CERTIFIED BY: I RETURN TO PS-2-SEE DETAILS Devices and wiring NIC LE in BE FIED previously permitted [ROM PS-1 and installed in Phase 1 (2013) EXPRES 01/0,/2015 --- - ---------- PS -------PS 1 N3 3 ° 1 10Gd ° O NFEREN CONFERENCE o� 151 PS 1 N3-5IF 155 — 15cd 30cd WORKROOM o 0 PS 1 N3-1 PS 1 N3-6 I EOLR Ff58 ° 30cd IPS 1 N3-9 I ERITAGE HALL PS 1 N3-2 0 I OPEN F 101 30cd OFFICE 154 DW REF RECEPTION -- I152 I PS 1 N2-6 P ' 15cd L1M001 Ji J PS 1 N3-7 30cd 0 EOLR STAFF ROOM Q ° 30cd I W U CONFERENCE PRINCIPAL PS 1 N3-8 I 0 VESTIBULE Z 153 PS 1 N3-4 156 i = 100I 15cd _ I Z UJ I of 1 I II U I � Site Location: 8200 SW PfafOe Street TIGARD,OR 97223 3665- 0058 Floor Plan Fire Alarm Floor Plan"B" Fire Alarm Scale:118"=V-0" FA-4 T C � �•sC p p�j8� O } E 0 N U C c oo'� = �vN�(L C • O N C C L V PLAN MAP Scale:NTS O6 O7 8 09 10 11 12 n13 r � w O' 11 I d PS2N2 3 I I x ALCOVE 1 PO0 S PS 2 N2-2 N1-9 0 15cd 110cd PS2N2-4 ° 15cd chedW& RonBOH TEAM PS 2;1 Di—By Kennalh Bell 168 GIRL / Dat I—d: 5.15-13 OCKE O SYSTEM DESIGN CERTIFIED BY: 1 NIC L E RED p STORAGE ri 171 PS 2_N�11-7 13344 V u 15cd EXPIRES 01/01/2015 0 Li ASIUM u 12,247 sf 15cd 110cd STORAGE _ PS N2-1 PS N2-5 176 PS 2 N1-6 110 EOLR S I LO I I RO ---- ----- --- I , TEAM 73 174 L_ FROM PS-2 I PS 2 N1-5 Q 15cd o Z:zs:zz;;;A I - w -r ALCOVE cd PS 2 1-4 C) 15 177 0 _ I I vJ 2 TRAININ OFFICE �. Z - -------------------------------------------------- ---- 172 Lo Fol - -- n W U Site Location: 8200 SW PFaffie Street TIGARD,OR 97223 3665- 0058 Floor Plan Fire Alarm Floor Plan"C" Fire Alarm Scale:118"=1'-0" FA-5 T _ N C � N — C N p . 'Q O 2 O E O Q'N m c O 6 C O �Y pp M 0tO 0 c m m n O O _ �7U) 0-LL Awl11\_ Q1 2 3 4 5 6 7 8 910 11 12 13 __ N C 60 0 41 - -O IIA r I o u° DRAWING NOTES OLocate In-Duct Detector and Relay Module in Conditioned Airspace Below HVAC Unit. L1 M012 FR 7 RTU L1DO08 EF - O 5 30 I ' P I I � o o O N i i lb J I i 3 z W I I I 1 I I I MAU EF I i - o C ------- - C - - - _ - - - - ___ _- . T - _ C J RTU � >" o , m - RTU 4 ! �iR U � RTU i 5 CIO - o 0 0 ,lu L1D007 CO RTU 6 i° - Che*W By: Ron L1RMU06 Dl� D.-By: K.-th B.11 BEII RTU RMI O 7 Deem: 6-20-13 2 L1D002 L1DO03 sale: 4Sh—. (J� 1 ® WeO RTURiIRED' I SYSTEM DESIGN CEBY: RTUge ERTU RM \-.nj s Vii ___1cu Devices and wiring NIC LE e RED RT ': I 14 L1M003 LIM005 previously permitted 13344 Raoo6 O I R�005 1 and installed in E%FIRES �,01/2015 RT' � � Phase 1 (2013) RTU *TU RTU 28 .. ? -- 45 _. —.. _. ____ _._. —._._ _._-. _ a I L1 M004 ' I FRM C1 L1 DO04 1 P c =- I I RT R RTU RTU U RTU RTU RTU RTU RTU I - 15 17 18 19 20 21 22 EF RTU I ❑ 3 13 I ' ! � � I I I J I 0: LLJ U �— z 1 3 04 l J (D 10 11 (1 L 2 1133 W U) U Site Location: 6200 SW Pfaffle Street Roof Plan Fire Alarm Floor Plan"ROOF" TIGARD,OR 97223 Scale:1116"=1'-0" 3665- 0058 Fire Alarm FA-6 T A 3 C C N C 0'a �$ m o N U c O C LU oo� = w eau. 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FRONT BACK IFC-320 WITH LCD2-80 SYSTEM DESIGN CERTIFIED BY n B Scale:NONE NIC LE13344 E FIE 71 1 aI E%PIRES 01 O1 O10 M300MJ/DJ DEVICE DETAILS I= E= SLC LOOP IN FROM PREVIOUS DEVICE Scale:NONE —) ]SLC LOOP INSTALL THE M300DJ +) OUT TO NEXT 4" SQUARE XNFOR UZEiI�6A � ) +) DEVICE ROTARY ADDRESS SWITCHES DEEP BOK 0 0 N 7n LED PREVIOUS IDEV CEM LED OPERATION e I—I +) —) �—) +) O O C� O [3NORMAL: RED O o O O M]ODDd O (—> W Noe>DnMSRE Imo—ALARM: 9 O INPUT FROM OUTPUT TO t 2 a a HANDLE STEADY STEADY RE 14 s 0 1 8 0111 FROM PREVIOUS DEVICE O O OR NEXT DEVICE �- o 7- 12 v OR FACP OR PRIOR OR EOL 0 0 3 DEVICE O t7 0 �7Op Tll STA11fN 00ptO 1111 NOT 1U y 6 40 • 0 B SLC (—) 7 VAiE 1NE TENS 5 OM[ S FLOW SWITCH SLC (+) SYNCHRONIZED NAC WIRING NORMAL SC OOP OUT TO ' NOTE: THE COM N.C. N 0. COM N.G N 0. 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This calculator pmgdad%liege drop calcWYlons In three finals(Point to Point,End of Una and Load Cantmng} This calculator Provided wtage it calculations In three firm ab(Polm to Point,End of Urn.and Load CaMerlq), O Make un that u know what method to accepted by,and the nature,ala not exceed the limits set by the n�edlus Jurisdiction that our knoa Point to Point Method End of LMB McNod Load Centering MSSad Mab sun tlatyou lmow what m•Nod isswap ted ,end N•rontM Method not•xe.•d Oa lm Li eec Nen Load Mob sure that you know what m•Nodis accepted by,end the results M th not exceed tint of 3•t by lin r•4eodLead Comforting Mak.un that you know what methed 1.Mottled by,and the results Method red exceed N•of Line tbyfM nep•mva Junsdbaon Ndb • Or Line •Ned Load • ng • Polnb►dM M•Notl tikd of LlM Nstned Load GntMp M•Ned /dntbPolnt MottxM Mal of Line McNed Load GnYrip Method Project Noma E CIRCUIT 13 WITHIN LIMITS Protect Name WESTSIOE CIRCUITI9WITHINUMITS Pimect Nam• WE8 CIRCUITI3WITNNUWTS Frolic Nam• W 7910E CIRCt3TN WITHIN LIMITS Data 6/21II01 Dab 621/7011 Data 6/21.401 Dab 1120/3 Circa Numb. P90 NACi Total. Voltage Totals Voltage Tota* VMage Ckcult Number AMP= s Volp. oiala Vdtp• Bala Vod-9 Clrcurt Number NaCl Touts Vdlp• Totals Voltage 7btYs Vonage Clrcult Number P90 NAG Totsia Voltage Totals Volage TobN Voltage Area Colaretl Gfpad Curer Detarc• Drop cumin Distenc• Drop Cumin Dlatenc• Dnp Area Cal." Ground Flop Current Diatanc• Drop Curren Calsnc. Drop Cumin Distenc. Drop Area Covered Gr9teY hoar Current Distance Drop Curt Distance Drop Cumin OOstano Drop Area Cawed Caolad ibor Current Ohbnce Drop Curt Chore Drop CurtoM patarce Drop Namnsi system Voltage 20.1 1.086 198 0.87 1.086 198 7372 1.086 198 0.686 Nominal System Von 20.4 0.647 182 0.64 0.647 182 0.751 4547 182 0.176 Nominal 3yatem Vona" 4 7.227 297 }.25 7.227 297 2775 1.227 297 1.162 NomnY System Voltage 20,4 1.232 232 1.10 1.232 232 1.621 1.232 232 0.911 Minimum Dun Volpe 16 End of Ln•Vd 19.57 Entl d Un VON a 10.07 Entl o/Llrro VON 1971 MnNnum D•Nce Voltage t Eno of U, Vott 19.66 End orLlns VON 10.65 End oiLMo Votta 20.02 Mkamum Devic•Voltegs 1 EM 2=1 19.15 Entl d Urn Volt 78.06 End of UM V • 19R{ Minimum DMco Voltage 16 End of Una Voltage 19.10 Entl oiUrn V 16.56 Erin 2!=! 19.49 Total CAiult Cumin 1.086 Win Ohm's P.rcaM 4.07% Peo.m 6.72% Percent 3.36%Total Olrc ult Cumn 0.647 Win Ohne P•rcsot Orap 2.66% Partem Drop 3.68% for Percerrt Drop 1.54%Total grtutt Curets 1.227 WIn Ohm's 6.13% Retool Drop 11.40% Percent Drop 5.70%Total Circuit Currant 1.232 WIN Dema Perch Drop &39% P•rcsot Drop 6.94% 4.47% D*bnu9omsourcetolstde4c 32 G1/s Pat d mend Load Standard WhoCoast IQ Reahten<•IIn Ohy the msPr�000 brM Mttledu to sarc• Distance Som source let davit 32 G14 P3.1at � End of Una entl Load Standard Win R•s*tancGenter"Methods use 0eryInlOhms per lhe wine WO W Irat OeNce to sort• Distance trend source to lit tledc 4D Gauge74Par 3.1000 End o1lM•antl Lead��Carrier"Mhod&use only Resistancenthe Whir Ohms Far 1000 N•M MItl•Nceto source Distance gen source to let dMc 96 O11 P3.19 End pLhro and Lutl DemotingStandard WIN R•shbnce n Ohms Per 1000 AW.ythhovArisquagoler IntdMuto•out• WIN for aana of circuit 11 319 15.7.71 16.4.89 74.3.19 12=1.96 70=7.24 WIn ter balenit oi circus 11 3.19 18=7.77 164.89 14=3.19 12.1.98 10=1.24 Wlre Ge ear oaisrc•oicucuN 14 3.19 18-7.77 76-4.89 14.3.19 12-1.98 10.1.24 WIn ebr balance of cInult 11 3.19 18=7.77 16-4.89 14.3.19 12-1.98 10.1.24 KercumK In amps Diatarco 1&14 A =SONtl Contlucton 12-10 Awl=Stranded Conductors Ker cummt In amp Distance 16-14 A -Solid Conductors 12-10 A =SandedConductois er curt n am Ps Dlstanc 18.14 A •Sola Conductor 12-10 A -Stranded Conductor Ker currant n amps Distance 18-14 A =Solid Conducted 12.10 A -Stranded Conductors .100-150 ms tom Voltage Notes: ASO-150 m4 from Voltage Noto: .150=150 me tom Voltage Notes: .150=150 me fran Nobe: PS-0 IFC-320 FIRE ALARM PANEL D•uc• DWc• Palloui At Drop from Percent Wale resistance Is Coated In the calculations for two Mm(Pcsitlw and Nsg•6w) DMc• D•Nc• previous At Drop torn Percent Win resistance Is doubled n N•calculations for two wlm(Pnmw entl N•gabw) Do*. Device puwua At Drop tom Percent Win resistance is doubled n tin calculations for two wlres(Pcehw and Negsdle) D•Nce D•fi. I= At Oro% Percent WIN mhtenc•h doubled In the calculation ter two wh•t,(Powtha•nd NegetM) OPERITION ON BITTER'/BMCOP POWER Nunbe Current aloe D•Vc• source D The whage calculated to in*lost deuce n any method must not be blwr than Number Cumin alce Device swrc• The Voltage calculated to ill*last deficit In any method mat not a lows than Number CumM dour D•Nc• source Drop The%a"calculated to the last device in any method must not be lower than Number Cunha d•Nu Devic• source Drop The Voltage calculated b the last tl•Vca In any method must not be lower it- DEVICE TYPE CTY STANOSY CURRENT CITY ALARM CURRENT D•Nu 1 0.176 32 20.18 0.222 7.09% Me manufactum stated mlKmum ogenang wltp.OE:Mee opewp Voltp.20.32 VDC} Device 1 0.079 32 20.27 0.132 0.66% the manufactures listed minimum operating Voltage(IE:rated operating%Otago 20-32 VDC} Dank.1 0.107 40 Mot) 0.373 7.53% ft*maMctuts listed minimum operating Wt ge(IE:feted operating%lag•2032 VDC). GNce 1 0.176 98 19.63 0.770 3.78% Ne manututune Ilam minimwn opxetlq%Nage PE:rete.op•ratlp Wipe 2032 VDC). EACH TOTAL EACH TOTAL Device 2 0.066 15 20.09 0.309 1.61% Delco 2 0.079 60 20.05 0.350 1.77% Device 2 0.107 24 19.92 0.483 2.38% D•Nce 2 0.176 24 19.47 0.932 4.67% NAC7-I 1 0.000 O.ODO ! 1.085 1.084 Device 3 0.0 20 19.98 0.416 2.04% D•Nc•Manufacturer •trot D•Nc•Manufacturer 8etna Dolce 3 0.066 i8 20.00 0.396 1.94% DaAc.Manufacturer System 9•faor CN**Menutectunfr 8 $ON Smear Dove 3 0.079 30 19.72 0.679 3.33% Chau Maddicturor S Yam Senior D•Nc•Modfied r 9 stem Smear Dolce 3 0.176 22 19.34 1.066 5.17% Calico Manufadurer tem Senior Dnk•Maahcturer 8 3ahaor NACI-2 1 0.000 OMC 0.447 0.547 Oslc.4 0.079 32 19.83 0.573 2.81% Cummt Current Do*64 0.066 15 19.96 0.437 2.74% Cumnt Current Dog u4 0.175 24 19.58 0.822 4.03% Currant Carnot CaVice4 0.176 22 19.25 1.154 5.66% Currant Curt 1- 1 7 1. i. D•Nc•6 0.079 12 19.77 0.625 3.06% Xan Strabag ®Rated 9Lab• ®Ratso Dolce 5 0.056 18 19.92 0.478 234% Nbm 8tn10es �Rstoo 8habe On QRY•d Dove 5 __0_1W_ 20 19.48 0.918 4.50% Han Strobes ®RY•d Strube �Reted D.Vice 5 OATS 22 19.17 1.228 6.02% Hem strobes �wted Strobe, ®Rated I 1 1. 1,232 GNC•6 0.176 22 Mae 0.710 3.48% Modal# Canaala Vott Motlal# Ca"a Vott Device6 0.212 32 19.86 0.537 2.63% Oda# Candela Vd a odel# Condole Vu • Devce6 0. 9 Za 19.38 1.022 5.01% Moana Condole Nottage model Gndele Von D•Nce6 0.176 22 19.12 1.278 6.26% Modal# CandNs Vasa Mod•I# GrdNa Voitags D•Nce 7 0.176 28 19.61 0.787 3.86% P2R 15cd 10 0.079 SR 15cd 16 0.066 D•ucs 7 0079 10 19.86 0.542 266% P2R(15cd) 15 0.079 9R(1&0 16 0.066 Dove 7 0212 19.28 1.115 5.47% P2R 15cd) 15 0.079 8R n5od) 18 0.066 Calc.7 0.176 22 19.10 1.303 6.39% P2R(1 Std) 15 0079 SR(1kd 18 0.066 MAN PC BOARD 1 0.250 0.250 4230 0.230 GNc.6 OATS 22 19.58 0.823 4.04% P2R 30cd 30 0.107 SR 30c0 30 0.094 ENO 0.000 0 19.86 0.542 2.66% P2R 30ctl 30 0.107 9R 30ctl 30 0.094 0.4c48 0212 62 19.17 1.230 6.03% P2R 30c0 30 0.107 SR 30 0.094 ENA O.00D 0 19.70 7.303 6.39% P2R 30c 30 0.101 30ctl 30 0.094 LCD2-&U ! O.1D0 0.100 0.740 4.700 Gvica9 0.0 15 19.67 0.831 4.07% P2R 75ctl 75 0.176 6cd 75 0.166 END 0.000 0 19.86 0.542 2.66% P2R 5ctl 75 0.176 SR 0 76 0.156 Diic.9 0.079 40 19.15 1.251 6.13% PM 76cd 75 0.176 SR tl 75 0.158 END 0.000 0 19.10 1.303 6.39% P2R Sc 75 0.176 SR 75cel75 0.158 0 0.000 0.000 D 0.000 END 0.000 0 19.57 0.831 4.07% P2R 95cd 96 0.194 R 96td 86 0.781 END Clow 0 19.86 0.542 266% P2R e) 95 0.194 SR(95cd) 96 0.181 END 0.000 0 19.15 1.251 6.13% M 0 95 0.194 SR 0 95 0.181 END 0.000 0 19.10 1.303 6.39% P 5ctl 95 0184 SR 9610 96 0.181 SLC FULLY LOADED O.DO 0.20D 1 42)5 0200 END 0.000 0 19.57 0.831 4.07% PM 110ctl 110 0.212 Sit I10etl 710 0.202 END 0. 0 19.86 0.542 2.66% P2R IICctl 110 0.212 SR 110cd 110 0.202 ENO 0.000 0 19.15 1.251 6.13% P2R 77oc0) 110 0.212 SR 110.4) 110 0.202 END 0.000 0 19.10 1.303 6.39% P2R Ii0cd) 110 0.212 SR(I10ctl 110 0.202 TOTAL CURRENT 0.550 4.722 END 0.000 0 19.57 0.831 4.07% CM 16c 16 0.079 SCR 15ctl 18 0.068 END 0.000 0 19.86 0.542 2.66% PC2R 13c0 75 0.079 SCR 16c 15 0.066 END 0.000 0 19.15 1.257 6.13% CM 76od) 75 0.07! SCR 15ca) 13 0.066 END 0.000 0 /9.70 1.303 8.39% PC2R(16od) 7S 0.078 SCR 16cd) 16 0.066 END O.00D 0 19.57 0.831 4.07% PCM 30 0.107 SCR 0 30 0.094 END 0.000 0 19.86 0.542 266% PCM(3)cd) 30 0.107 SCR(3010) 30 0.0% END 0.000 0 19.15 1.251 6.13% PC2R 3070) 30 0.107 SORT 30cd) 30 0.094 END 0.000 0 19.10 1.303 6.39% PC2R(30cal30 0.107 9CR(30cd) 30 0.094 TOTAL CURRENT.STANDBY OPE PATIDN 8.650 END 0.000 0 19.57 0.831 4.07% PCM 5ccl75 0.176 SOR(75cd) 75 0.168 END 0.000 0 19.86 0.542 2.66% PCM 0 75 0.178 9CR Std 75 0.168 END 0.000 0 19.15 1.251 6.13% PCM 75etl 75 0.176 $OR 75ctl 75 0.158 END 0.000 0 19.10 1.303 6.39% PC2R 75cd 76 0.776 81:R 0 75 0.166 HOURS REQUIEO FOR OPE RATION 24.00 END 0.000 0 19.57 0.831 4.07% PCM 110.0) 95 0.212 SCR(I lod) 110 0.101 END 0.000 0 19.86 0.542 266% PCM 110c0 95 0.212 SCR 110ed 110 0.161 END -i.000 19.15 1.251 6.13% PCM 110c 95 0272 SCR 110.0 lie 0.181 END 0.000 0 19.10 1.303 6.39% PCM 110ctl 95 0.212 8CR t70c 110 0.161 13ATTE RY STANDBY REQUIEMENITS 1320 END 0.000 0 19.57 0.831 4.07% PZR 15c0)1L 15 0.066 END 0.000 0 19.86 0.542 266% P2R ISod n 16 0.066 END 0.000 0 19.15 1.251 6.13% PM 15od 1S 0.066 END 0.000 0 19.10 1.303 6.39% P2R 1St n 16 0.068 END 0.000 0 19.57 0.831 4.07% P2R 110cd)TL 110 0.196 END &ON 0 19.86 0.542 266% P2R 110td TL 710 0.198 END 0.000 0 19.15 1.251 6.13% P2R TI 1L 710 0.186 END 0.000 0 19.10 1.303 6.39% P2R 110ctl TL 110 0.198 TOTAL CURRENT•ALARM OPERATION 4.722 END O.ODD 0 19.57 0.831 4.07% END 0.000 0 19.86 0.542 266% END 0.000 0 19.15 1.251 6.13% END 0.000 0 19.10 1.303 6.39% FRS REQUIFED FOR OPERATION 0.083 (5MNt END 0.000 0 19.57 0.831 4.07% END 0.000 0 19.86 0.542 2.66% END 0.000 0 19.15 1.251 6.13% END 0.000 0 19.10 1.303 6.39% SAITERYALARM REQUIREMENT 0.39 END 0.000 0 19.57 0.831 4.07% "P"DEVICES ARE WALL MOUNT END 0.000 0 19.86 0.542 2.66% 'P'DEVICES ARE WALL MOUNT END 0.000 0 19.15 1.251 6.13% 'P'DEVICES ARE WALL MOUNT END 0.000 0 19.10 1.303 6.39% "P'DEVICES ARE WALL MOUNT END 0.000 0 19.67 O.B31 4.07% "P C'DEVICES ARE CEIUNG MOUNT END 0.000 0 19.86 0.542 266% "PC'DEVICES ARE CEILING MOUNT END 0.008 19.15 1.251 6.13% 'PC DEVICES ARE CEIUNG MOUNT END 19.10 1.303 6.39% 'PC DEVICES ARE CEIUNG MOUNT TOTAL BATTERY PEQUREMENTS 7359 END 0.000 0 19.67 0.831 4.07% 'TL'DEVICES TAPPED TEMPORAL LOW END 0000 0 19.86 0.542 266% 'TV DEVICES LAPPED TEMPORAL LOW END 19.15 1.251 6.13% "TL"DEVICES TAPPED TEMPORAL LOW END 19.10 1.303 6.39% "TL"DEVr-ES TAPPED TEMPORAL LOW BATTERY REQUIRED WITH 2O%FACTOR 1631 25AMP+HOURBA1TERES INSTALLED END 0.000 0 19.37 ON 4.07% END 0.000 0 19.86 0.542 266% END 19.15 1.251 6.13% END 19.10 1.303 6.39% END 0.000 0 19.57 0.931 4.07% Horn On 'S'DEVICES ARE WALL MOUNT END 0.000 0 19.86 0.342 266% Han 'S'DEVICES ARE WALL MOUNT END 19.16 1.251 6.13% -52 an "S'DEVICES ARE WALL MOUNT END 19.10 1.303 6.39% Nan Only "S'DEVICES ARE WALL MOUNT M END 0.000 0 19.57 0.831 4.07% IMM(WHITE) NA 0.014 'SC DEVICES ARE CENNG MOUNT END 0.000 0 19.86 0.542 2.66% MNW HITE NM 0.011 'SC DEVICES ARE CEILING MOUNT END 19.15 1.231 6.13% MNW ) NN 0.011 'SC'DEVICES ARE CEIUNG MOUNT END 19.10 7.303 6.35% m NA 0.014 'SC"DEVICES ARE CEIUNG MOUNT AMPS +U END 0.000 0 19.57 0.831 4.07% END 0.000 0 19.86 0.542 2.66% END 19.15 1.251 6.13% END 19.10 1.303 6.39% AVAILABLE C.UdRENT 8 N N Tolsl. 1.086 198 End of Una Voltage 19.67 Tobe. 0.647 182 end of UM Voltage 10.76 Toteh 1.227 297 End of Una Voltage 19.15 Totals 1.232 232 End d Un Voltage 19.10 TOTAL CURRENT 4.722 SPARE CAPACITY 40.98X, T J O JQ C m Lo Z Q ll.l Y IFC-320 Calculations Scale: NTS AZAFAA AZAFM AZAFAA AZAFAA NHC Voltage Drop Celculdor NMC VOuW Oap Cyadap NAC Vdlp•Drop Calculator NAC Voltage Drop Calculator for Audio U Visual duces brAuft/VarW do as brAWio/Visual d.g- for Audio U Visual devices This calculator progdod map drop calculation In thm formats(Point to Pdm,End of Um,and Load Cantering). TINS oalalabr powbod%Nage drop calculations m Iuoe firman(Point b Point.End o/Line,and Load Clsotw*W. This calculate,Provdad%otage died calculation lin three formats(Pont to Point End of Urn.and Load Centorng). This calculator proAdad%Otago drop calculatlon In Nm kernels(Point to Point,End of Urn,and Load Gartering). Make unNat you know what method is accepted by,and int nults do not exceed the limfb est by tin midedh•juKedletlon Us was Netyoukrawwhatma9gdisaccopied oth•ouftdowtoxwed Neiinbsk the dive" ictan Make sore that you know what mothod is accepted by,and the results do not exceed Co limits est by Sa nspectiw Jurledlction Make un that you know what m•Nod Is accepted by,and N•r•ultsdo not exceed lin llmlts est by the nspectiw Jurisdiction Point to Point Method DW of Um Moo" Load C-Whg Me#" o b -fad End of Line ce Point to Point Method Sia of Ura Method Load GMM Mothoa Point to Point Method Bid of LIM Method Load Cantering Methed C Project Nan• ESTI CIRCUIT IS WI7NN LIMITS Pipet Nasi Project Name WEST9IDE I LI1 Protect Nen• WE813AE I LIMITS p Data 6!21/2013 Den 821 3 Date 3/21/2015 Dab N21/2013 Grcul Number NMC Circuit t-1 • Voltage Bala Vdlage obis Voltage CsaaR tML R,2 oto* Vokage Total Voltage ata* Vdtap Ctcul Mumbor NA CYCW N Toch Volt Totts Voltage Toteb Volpe Circuit Number NMC Circuit 1.4 Totals Voltage Totals Voltage Totals Vona" •_ Am Caaree Gronxd Floor Curter- dfbrco Drop Current patarce Drop Curtom Datarco Drop Asea Ca� Fop Oxnnt Delano, Dop Domain DstmO, Drop Curtlnl Data%- Cop Aw Covered Orpsd iklar Curter D*tare• On Current Dlsbnce Drop Curl Distance Drap Am Coaled FM LwY Curled Distance Uop CumM Dlsanu Drop Curt Dlstaae Dap U m Nominal Syet.m Voll4ga 20.4 0.955 180 0.57 0.955 180 1.097 0.955 ISO 0.50 Narnera System Vdfege 204 0.491 118 0.2i 0.491 115 0437 0491 ib 0.229 Nominal SYstem Vdtap 20 1.075 316 1.17 1.078 316 2173 1.078 316 1.067 Nominal System Voltage 20.1 1.160 247 7.17 1.164 247 1.671 1.164 247 0.917 Q N Min knum D•Nce 1. 19 End d Una V o 19.57 End IU.Vd • 19.30 End din•Vch 1935 11-Devoe Voha s 1 End o(LawV 20.14 End afLine V 1l94 End of Una Vd 20.17 Mnllnum CaVc•Voltage 1 Em oat Ln•Vd • 18.93 Entl Y Line Volt a 16.23 End ofUna Vol • 19.31 Minimum Calc•Volage 13 End of Un•Vdt • 70.22 End of Um Vott 18.57 End of Un Vott s 19.N Total Circuit Curt 0.955 Wb Ohm's Percent Oro 2.58% Percent 5.35% P•rt•M 3. 96 Trial Cleat Cuasan 0.497 Wio Olen) Percent 130% Percernt 2.24:4 Recent 1.1 Tobi CkcuN Cumin 1.078 Wm Olsne Percent 6.97% Percent DxcpI 10.65% Parch 5.33%Total Circuit Cumin 1.164 Win Ohms P•rc•n 5.80% P•rcoM 8.99% Recent 4.50% Go • Pe 1000 End of Una entl Load Canwing Methods use only the win guile ter the Mt doec•to source � �Per 7000 o Urn and Load Nrhg use my wore guile the t.Noe to salroa Go Per 1000 End d Una and Load CaNMng McBads ore only the win guilts for the Ml alc•to source Gaup Per 1000 End a Una and Load Certeaq Methods a•only the Mrs guage ter N•list davit•to source Distance tom source to tat it** 8 14 3.19 Standard WIN Reshtome n Ohms Par 1000 AM, Distance lom souro b 1sttl•va5 M 1 14 I 3.79 Staaad W se Resistance solaria pa 1000 bit, Distance from source to lot doi c 93 /1 3.19 Standard W in Resistanc.In Ohms Per 100069. Distance Pond source to tat doN, 88 11 3.19 Sbndatl Win Resistance n Ohms Par 10001M. Wire Gou•br bianu of ckeult tt 3.19 18.7.77 164.89 14-3.19 12=1.98 10=1.24 Win bbalance ofeirwn--'`1 14 11 3.19 18=7.77 10-4.89 W3.79 12-1.98 tq-124 WInG ear balance orclicuft 14 3.19 18.7.77 76-4.89 14.3.19 12.7.98 10.1.21 WIn Gu ter behncs ofcircutt 11 3.19 78=7.77 16'4.89 14.3.19 12.1.98 10=1.24 Mer curt n amps Dhterc• 18.14 A •Sola CanOIS 4 12-10 A =Stranded Conductore a#ront in ange Dtetante 18-71 =Soitl Camntlualas 72•10A =Gtralatl CoMroton Ker cu n amps Distance 11114A,•So9tl ConOuctore 72.70 A •Stranded Conucfon mer cumn In amps Ohbnc• 1&14 A -Sdlo Canducton 12-10 A -Stranded Cornducte,s .150-150ma tom Voltage Notes: .150.160m tan VNrag Nat•. .150-150m4 tan Vdtago Nolo.: .iso=k2 . from volae Notes: PS-7 FCR$-2458 D.Nct GVcs PreAas At Drop tan Paced WIN mistnc•15dubledinN•calcuhtlonsfor two wiw(PoaNhaandNegetha) Oevoa Devoa pRvous At Drop tom Parent WIN bhp*doubadinit*cYobkonshtwoease(PosMistaMNigaNa) D•Nu DMce prouoa At Drop tan P•Rwr WINmhtwceI.dobledI calcuMiarobrtwowiree(PuttMxdNpYM) Devc• pWoa At DIPtcm Perces WIN mhtatsIsdoublMlnthe cYCulabnbrtwo olm(PUNMandNgaea) OPERMTIONONBITTERrBICKIPPOWER Checked By: Ron Bell Number Current davit• Duce souco Th.wftapcalculded Wine last do**In any method must not be lo4erthen NPnba Curet devae D.- sono, Th wattage calculated to da last deice err my meaod mat not be lower then Nunba CumK davit• Davits awru The wAtapo cYcuetotl to tlr Wtduc•neny methotl muslrM be bwe Nm NunDa davits D•Nce source Th•%NpecakWeted totM lesttluc•nany mYhoO must red be low%mn NICE TYPE CTV STANDBY CRPEM CTV AUF6ACUWEM Device 1 0.0 8 20.35 0.049 0.24% N•m enufactur.s listed minimum op•r•Ong%ttp•(IE:Med opv6rq Voltage 20.32 V DC} Davu 7 O.W4 M 2426 0.138 0.68% fa mu+uufaduras.swd munmun apaaag dfags(E:artetl of"stag aitage 2032 VDC). talcs 1 0.069 96 19.71 O.fi60 7.24% No meMelum Iletsd mn4n um oporetip%lop gE:nlstl ap•Mlag wNtgo 20-32 V DC). GNce 1 88 . . . inimum q-*Ing Voltage PE:ram operating%Nage 20-32 VD•Nc•20.066 t1 20.27 0.127 0.62% Devoe 2 0.107 N 2023 0.173 0.85% O.Nco 2 0.031 74 19.65 0.751 3.68% D.Nce 220 19.62 0.780 3.82% NAC7= i 0 WD 0.200 1 0.95E 0.955Device 3 0.212 20 20.17 0.230 1.13% GNce Manufacturer or DeviceManufacturer 8 •m 9amdr Dawe 3 0. 22 20.19 0211 1.0.'7% Oaro•Minotaur-S Soap DaNu Maaactuer DaNce 3 0.212 22 18.52 0.679 4.31% Douce hla doctura stem Smear D•Ace Manufacturer a tan 8etn.or D.Vice 324 19.50 DAN 4.40% Do*.Manufacturer afar Delco Manufacturer 9arror NAC7 2 7 0.000 0.000 1 0.491 0.491 Delco 4 0.079 32 20.05 0.352 1.73% Cumin Cumt Dave 4 0.055 1 20.17 0226 1.127E Omelrt Curet Delco 4 0.066 M 19.32 1.078 5.28% Current Cunt Dolce445 19.32 1.082 5.30% Limn CImM -3 1 1 /. 1. Date Issued: 6.20.13 DoNcaS 0.176 10 20.01 0.386 1.89% Flomn SlroM ®Rated ®Rated DavceS .1 1. CRated QR•Ned GNce5 0.212 50 19.12 1.282 &28% Horn Stnabas �R-led1nobe OKGReed De%ce5a 18.30 1.104 5.11% Htxn SMib.s .Rated Strobe ON Rated NA -4 1 1 S.1 1.10""6 0.066 36 19.94 0.464 2.28% Model# cmdNa Vole a Modal# GndNa Vott Cwwce4 .1/ i. # - Vol odeta V GNc.6 0.107 10 19.09 1.309 6.42% • Candale Volta• # Gnala VON • GVicefi68 19.22 7.781 5.80% M el# Gndae VON-• Modal# Cando* VottDouoa7 0.066 14 19.91 0.489 2.40% PM 15c0 15 0.079 Sit 16ed 16 OAa6 END .14 0 1. Do*.7 0.107 36 19.02 1.383 6.78% P2R(15cd) 1 0.079 SR tacd) 16 0.086 END 0 19.22 1.164 5.80% P2R(15td) 15 0.019 9R(16c 16 0.066 MAIN PC BOARD / 0.067 0.091 1 0.145 0.145 Scale: As Shown. Gle•8 0.086 t0 19.90 0.503 2.46% P2R(301 30 0.107 SR 30ed 30 .094 END 0.000 20.11 0245 1.30% 20 0.107 30 0.094 C.Ne.8 0.107 14 19.60 1.402 6.8796 PM 30ed) 30 0.107 SR 30ed) 30 0.084 END 0.000 0 19.22 1.164 &80% PM c 30 D.t07 R Odd) 90 O.ON 0 0.00D 0.000 D 4000 0.000 Deuce 9 0.079 M 19.88 0.517 2.54% P2R 75etl is 0.1 SR 7&d 75 0.156 END 0.000 0 20.14 0265 1.30% 7E 0.174 SR 75 0.1 GNca 9 0.107 30 78.98 1.422 6.97% P2R 75e0 75 0.176 SR Sed 75 0.166 END 0.000 0 19.22 1.184 $ .80% d 75 0.776 SR 6e 75 0.158 0 ODO 0.000 0 449-3 0.000 DONca 10 0.066 20 19.87 0.526 2.58% P2R 95cd 95 0.194 SR 95ctl 96 0.181 END 0.000 0 20.14 0255 1.30% PM 95 0.194 SR 95 0.181 END 0.000 0 18.98 1.422 6.97% P2R 95cd 95 0.194 SR tl 95 0.161 END 0.000 0 19.22 1.184 5.80% PM 95ctl 95 0.194 SR 95 0.181 D 40 06] 0.000 0 4000 D.00D SYSTEM DESIGN CERTIFIED BY: END 0.000 0 19.87 0.526 2.58% P2R(itOetl) 110 0.212 SR(/10etl) 110 0. END .000 0 24.14 0255 7.30% 11 lie 0.212 SR 1t 110 0.202 END 0.000 0 18.98 1.422 6.9796 PM HOCO 170 0.212 Sit Itold 110 0.202 END 0.000 0 18.22 1.764 6.60% PM 1tOca 110 0.212 SR 110od 110 0.202 TOTAL CURRENT 0.097 3.833 END 0.000 0 19.87 0.526 2.58% PC2R 15c0 16 0.079 SCR 15c 13 _0W_END 0. 0 20.14 0205 7.3D% PCZR 1 95 5079 SCR is 0.065 END 0.000 0 18.98 1.422 6.97% PC2R(1510) 16 0079 SCR(75cd) 75 0.068 END 0.000 0 19.22 7.764 5.8096 PC2R(iScd) 15 0.079 SCR(15c0) 15 0.066 END 0.000 0 19.87 0.526 2.58% PC2R 30c 3D 0.107 SCR cal 30 0.094 END .000 0 20.14 0265 /.3D7i PC2R 30 0.147 SCR ?A 0.091 END 0.000 0 18.98 1422 6.97% PCM 30 0107 SCR 30c0 3D 0.094 ENO 0.000 0 19.22 1.784 5.8096 PC2R 30ctl 30 0107 9CR 30cd 30 0.091 TOTAL CRFENT-STANDBY OPEMTIDN 0.091 END 0.000 0 19.87 0.526 2.58% PC3R(75cd, 75 0.176 CR Scd) 75 o.16e END 0. 20.14 0255 t.3�: PC2R 75 0.174 SCR 75 0.158 END 0.000 0 1&9B 7.422 6.97% Pc2R 6c 75 0.1 8 SCR 75cd 76 0.158 ENO 0.000 0 19.22 1.184 5.80% PC2R Std 75 0178 8CR 7&d 75 0.158 HDURSREQU6EDFOROPEPAT1oN 24.03 n B END 0.000 0 19.87 0.526 2.58% PC2R 710td 95 0.212 3CR n0od 110 0.181 END O.WD 0 20.14 0265 1.30% PC2R it a5 0.212 SCR 11 110 0.181 END o.000 0 1&98 1.422 6.97% P2R( tt0od 95 0.212 SCR 110ed 110 O.1B1 END 0.000 0 19.22 1.184 5.5096 PCM/10etl 95 0.212 8CR 110cd 170 0.161 BA7TE R1'STAN[BY REQU3EMENT5 2.79 t,�/'� END 19.87 0.526 2.58% P2R/6cd TL 13 0. END .14 1. 1 END 0.000 0 1&98 1.422 &97% PM(15ctl)R 15 0.066 ENA 0.000 19.22 1.184 5.80% P2R(tped)ll 1S 088 IViI-. LE E FIED END 19.87 0.526 2.68% PM it loco)TL 110 0.186 END 14 0 h 1 END 0.000 0 78.98 1.422 6.97% P2R(l local)TL 110 0.196 END 0.000 0 19.22 1.184 5.80% PM(110c0)TL 170 0.1M TOTAL CRRENT-ALARM OPERATION 3.813 END 19.87 0.526 2.58% END .14 D 1. ENO 0.000 0 1&98 1.422 6.97% END 0.000 0 19.22 1.184 6.8096 NRS REQUIRED FOR OPERATION 0.250 (15MIN4 END 19.87 0.526 2.58% END 0.200 0 20.14 0255 1.3D% END 0.000 0 1&98 1.422 6.97% ENO 0.000 0 111 1.184 5.80% BATTERYALARM REQUIREMENT 0.95 END 19.87 0.526 2.58% "P'DEVICES ARE WALL MOUNT END 0.000 0 4714 0255 1.30% "P DEVICES ARE WALL MOUNT END 0.000 0 1&98 1.422 6.9716 "P"DEVICES ARE WALL MOUNT ENA 0.000 0 19.22 1.164 5.60% "P'DEVICES ARE WALL MOUNT END 19.57 0526 2.58% 'PC'DEVICES ARE CEILING MOUNT END 0.000 0 23.14 0255 1.307 -PC-DEVICES ARE CEILING MOUNT END 0.000 0 1&98 1.422 6.97% "PC"DEVICES ARE CEIUNG MOUNT END 19.22 Ilse 5.80% 'PC'DEVICES ARE CEILING MOUNT TOTAL BATTERY REQUIREMENTS 3.M END 19.87 0.526 2.58% "TL"DEVICES TAPPED TEMPORAL LOW END .200 0 2714 0255 1.30% "R"DEVICES TAPPEDTEMPOWIL LOW END 18.98 1.422 6.97% 'TV DEVICES TAPPED TEMPORAL LOW ENO 19.22 1.164 &80% 'TL'DEVICES TAPPED TEMPORAL LOW SATTERY REQUIRED WITH 20%FACTOR 3.n 7 AMP-HDUIRBATTERES INSTALLED 13344 END 19.87 O.S26 2.58% END 0.000 2014 0265 1.30% END 1&98 7.422 6.97% END 19.22 1.184 6.80% END 19.87 0.326 2.58% Item 'S'DEVICES ARE WALL MOUNT END 0.000 0 20.14 0255 1.30% Nam 'S OEVIC VICES ARE WALT,MOUNT END 1&98 1.422 6.9796 Flan 'S'DEVICES ARE WALL MOUNT END 19.22 1.184 5.80% MOm "S"DEVICES ARE WALL MOUNT END 19.57 0.326 2.58% MNNV VOTE NA 0.071 'SC'DEVICES ARE CEILING MOUNT END 0.000 0 20.11 0245 1.30% INm INA 0.014 "SC DEVICES ARE CE LNG MOUNT END 1&98 1.422 6.97% MHW ME NM 0.011 '3C MVICESARE CEIUNG MOUNT END 18.22 1.184 5.80% MHW NTE NA 0.014 'SC DEVICES ARE CEILING MOUNT AMPS EXPIRES 01/01/2015 END 19.87 0.526 2.58% END 0.008 0 20.14 0265 1.309: END 1&98 1.422 6.97% END 19.22 7.181 5. AVAILABLE Cl1RRENT 8 Totts 0.955 180 Erred d l-miN leg. 19.67 Tda* 0.491 1b Ed ofLi aVolge 20.14 Tolsh 1.076 316 End d Un Voltage lose Tda* 1.164 247 End of Una voltage 10.22 TOTAL CURRENT 3.933 SPARE CAPACITY 52.09% PS #1 Calculations Scale: NTS AZAFAA AZAFAA NAC Va6p.Drop Calculator NAC Voltage Omp Calculator ter Audio/Visual d•Ncos ter Aalo/Visual d"c•f This cakuator proAdatl%Raga drop calculations In Nrtes fomeb(Pont to POM,End.1 Un.and Load C4Medng). This calculator provdad%c tag•drop calculation In thm formats(Point to Point,End d Urn.and Load Centering). Mak•ea•that your know what m•Nod h accepted by,and tin r aMls do not exceed M Iknfa est by tin nepwlw)urlspcbm Make our Sot you know,whet method h accepted by,and the nulls do not exceed tis limits set by 6a r•epectiw JMspction Paint to Point Method Bol of Uma Method Load Centering Method Point to Point Method End of Um Method Load C•ntM Method Project Nam• WESTSIDE Project Name WESI3DE I Dab 421/2013 Data 621/2013 Circuit Number NMC CktW 1.1 Tobis Voitage Total. Voltage Tdais Volpe Grcul Nunb.r NACC uRI-2 Totals Voltage Totals Voltage Totals Voltage )1n � I Am Goland tNolnO Floor Cumin Ohlarce Cop Cummt Dhtenci Dnp Curt•nt Diatanco Drop Am Ca1en•d int Leal Current Distance Cop Current Distance Drop Caren Distance Orap Nominal System Vdtq• 20. 0.791 no 1.25 0.782 330 1.657 0.792 330 O.SM Nominal System Vdtege 20.4 1.060 355 1.65 1.060 355 2107 1.060 355 1.200 Minimum Device Vdtag• 18 End d Urn Vd 79.15 End d Lha Volt 18.73 End of Line Voll • 79.57 Minimum D•Vice Voltage 76 Endof Line Vtl a 10.75 Endot Ln•Vol • 78.01) End d Urn Valor a 70.1 Total Ch:ult Current 0.792 WIn Dint P•rc•M 6.12% Percent 8.17% Placid 4.09%Title Circuit Curtin 1.060 WIN Olins Percent 8.11% Perc.M 11.77% Portent S.BB% 0 (19- Ga Pa 1000 End d Ln•and LOW Geneamp Methods use only th -Are guage brilliant dolt•to source Gauge Per 1000 End of Una and Lad Come"Mamotla us•only tha Mre gage ter the Mt dance to eoucs Distance tan source b tat aVc 113 1{ 3.19 Standard WIN Resistance n Olins der 10001%7. Distance from source to let CeNc 131 11 3.79 Standard WIn Resistance n Ohm.px 1000 IM WIN Gouge for Delano dcbcuft U 3.19 iB-7.77 16=1.89 14-3.19 12=1.98 10.1.24 Wlre for balance dckcult 14 3.19 18-7.77 16-4.89 14-3.19 12-7.98 10.1.24 mer curt4m In am P. Distant. 1&11 A •SONtl Conductor /2-10 A =Stranded Condreton mr curtwn In maps p*bnc• 18.14 A •Solid Conactors 12.10 A -Slnnad Conductor P S-2 FC P 5-2458 .150-150.a tom Voltage Notes: .150-150.e tan Voltage Notes: Calc• Duci pnvioa At Drop tan Portent Wk•resistance Is OKOW In the calculYbn br two whoa(Posltb and N•getM) Dour• Dwlca pnNoa At Drop tan Percent Win mista ce le do bled In the calculation br two-Ares(Podia and NsgalPe) OPERATION ON BUTTERY BkCKUP POWER Nunbr Currant oaVice Once source fie""top cNcaeted to the last duce n any method fruit not be lows than Number Cunha d•Nc4 06*4 source TM wvtag•calculated to tha last d•Ace n any method mat not be lows Nan NICE TYPE QTY STANOSY CRRENT QTY ALARM CURRENT ��rP66a P O�8r6�^ Delco 1 0.078 148 19.65 0.748 i .67% m.menrfacWm listed mnsnum op•rating volloge PE:rant operating wllq•20-32 VDC} Calca 1 0.212 137 19.57 0.886 ARD 4.34% int mandactum stated minimum oPeretn9%Mage PE:rated oPaetNp%alp•20-32 VDC} EACH TOTAL EACH TOTAL i j j jv - Do*.3 0.019 38 19.48 0.921 .51% Glt•2 0.212 62 19.23 1.187 6.72% NACt-1 1 0.000 0.000 1 0.792 4792 �{,La�'IB�VEDD FOR CODE CO��� D•Nc•3 0.212 10 19.32 1.082 .31% D•Ncs Mnufacture 8 9mee, Doc•MsonAectunr orlon Sonar Delo 3 0.212 62 1&98 1.479 6.96% Calc.Maafacluror S stem Smear Oevce Manufacturer tYn BSMp NMCt•Z 9 0000 0.000 1 1:790 1.040 Device 4 0.019 19.26 1.136 .57% Cmn Current D•Vc•4 0.212 64 78.81 1.592 7.80% Current Cumin ( 1 t 0.070 C D•Nc.5 0.066 8 19.25 1.154 5.66% Horn Strob•o QRteted 8trabo ®Rated D•Nc•5 0.212 46 1&75 1.654 8.11% Item Sbvbft GRaled Strobe OnlyQRated 1 0.070 0.020 O Douce 6 0.066 22 19.21 1.193 5.85% od.# Condole Voltage od.1# Candie Volt • END 0. 0 18.75 1.654 8.11% e,# Camsia Vo oat# Condole Volt � APP�� t '�"� Device 0.066 24 19.17 1.225 6.01% P2R 15cd 15 0.079 SR(1St 16 0.066 END 0.000 0 1&75 1.654 Sit% P2R(/bc0) 18 0,079 8R(16ed) 75 DAN MAN PC BOARD 1 0.091 D.'D91 4145 0.145 Galt•8 0.086 22 19.76 1.245 6.10% P2R(30:d 30 0.107 SR(301, 30 0.094 END 0.000 0 18.75 1.654 &11% P2R(30cd) 30 0.107 SR Poco) 30 0.094 0 0.000 0.000 0.043 0:000 Oa.w- + O GNc.9 .079 8 19.15 1.249 6.12% PZR 75ed 75 0.176 SR 5ctl 15 MISS END 0.000 0 18.75 1.664 &11% PM 6etl 75 0.176 SR be 75 0.158 0 OADD Dow D 4097 0.000 1 1■ END 0.000 0 79.75 1.249 6.12% PIR 95-0 96 0.194 SR d 96 0.161 END 0.000 0 18.75 1.654 8.71% 96ed % 0.181 SR d 86 0.187 D ODDS D.D00 D 0005 0.09] END 0.000 0 19.15 1.249 &12% P2R f10c0 Ito 0.212 SR 110ce Ito 0.202 END 0.000 0 1&75 1.664 8.11% P2R T10ctl lie 0.211 SR I10ctl 110 0.202 TOTAL CURRENT 0.091 1.997 � ]rte (/� W END o.OLD 0 19.15 1.249 &12% PC2R 1600) 18 Q07! SCt(16c0) /6 0.086 END DAM 0 18.75 1.654 8.11% PC2R(131 13 0.079 Soil(15ttl1 15 0.066 Perf nit END 0.000 0 19.15 1.249 6.12% PC2R 30 0.101 OR 30td 30 0.094 END DAM 0 1&75 1.864 8.71% PCM 30 0.101 3Cl 30ctl 30 0.094 TOTAL CURRENT.STANDBY OPERATION 0.091 END 0.000 0 19.15 1.249 &12% PCM & 75 0.176 3 Seal 76 0.156 END 0.000 0 1&75 1.664 &11% PCM 6etl 75 0.176 ICA 6etl 75 0.158 HOURS REOLIKOFOROPERATION 24.00 �� � "1 END 0.000 0 19.15 7.249 6.1216 PCM(I loco) 95 0.212 SCR 710etl 110 0.131 END 0.000 0 18.75 1.664 &11% PC2R 110etl 95 0.212 9CR 110ed Ito 0.187 BATTERY STANDBY REQUMMEWS 2.18 Q v/ END 19.15 1.249 ! 6.12% P2 (75C0)TL 16 0.086 END 0.000 0 1&75 1.654 &11% P2R(15cd)TL 15 0.088 Q END 19.15 1.249 8.12% PM(1/0c6)TL 110 0.196 END 0.000 0 1&75 1.654 8.11% FIR(1101tl TL 110 0.198 TOTAL CURRENT-ALARM OPERATION 1.997 cUlte ii a END 19.15 1.249 6.12% END 0.0DO 0 18.75 1.654 8.11% HRS REQUITED FOR OPERATION 0.250 (15M#4 w T END 19.15 1.249 6.12% END 0.000 0 1&75 1.654 8.11% SATTERYALARM REQLIMMENT 0.9 Dam: � END 19.15 1.249 6.12% R"DEVICES ARE WALL MOUNT END 0.000 0 18.75 1.654 3.11% 'P'DEVICES ARE WALL MOUNT END 19.15 1.249 6.72% 'PC"DEVICES ARE CEIUNG MOUNT END 0.000 0 18.75 1.650 8.11% 'PC'DEVICES ARE CEILING MOUNT TOTAL BATTERY REQUIREMENTS 2.58 e V 2, = END 19.15 1.249 6.12% 'TL'DEVICES TAPPED TEMPORAL LOW END 0.000 �01 1.654 &11% 'TL'DEVICES TAPPED TEMPORAL LOW BATTERY REQLMED WITH 20%FACTOR 3.22 7AMP-HOLR SOME RES INSTALLED END 19.15 1.249 6.12% END 0.000 1.661 &11%END 19.15 1.249 6.12% Mom 'S'DEVICES ARE WALL MOUNT END 0.000 1.654 &11% Ham 'S'DEVICES ARE WALL MOl1NTEND 19.15 1.249 6.12% sMW HQE f4I 0.01{ 'SC DEVICES ARE CEILING MOUNT END 0.0001.854 &H% MfOM NM "SC DEVICES ARE CEILING MOUNT AMPSEND 19.15 1.249 6.12% END0.000 1.654 &11% AVAILABLE CRREM 8 Tota* 0.792 330 End oiUlwVdlage 70.15 Tolsb 1.060 355 EnOdUmaVal.ge 13.75 SPAR CURRENT I. OFFICE COPY z SPARE CAPACITY 75.01% PS 2Calculations 0, Scale: NTS UJ U) U Site Location: 8200 SW Pfaffle Street TIGARD,OR 97223 3665- 0058 Fire Alarm FA-7