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HomeMy WebLinkAbout18802 67TH AVE NE_035412_2026 (n a 1� O c Y W J Q v) o > c C .k E N c co W co cr 'e C') U o cn J � % ��� CL Z p C u I- a0 3 p i 000000 O :�� a�� � J U o r w u a W (1)IL C\l IL +c) 1 CE CE cc w �� ��J U �! cc rn P� Y 41 Q< oU �\ ►4 v ? Z Z c a� oNJO i �1 \ ` O O m ° � IJ M ,1� U `� V E �3 cO 0 c lL (A 0cc 0 V � v 0. a Q U o O ° 4) � co v �J V �, CCL r � vLL z J Z v c a W At o a o ca Lb \ h v 6 H o o o r� co �+ a > o a`di Q It J 1�� �: 1"9 �l c o o (1)i °o c`is Ud U o Z) u_ u. o b • v�i o000 C 00000ao 0 0 m W > o (n CLCD c �c ca 11 � N` Q = Cr a o co o c IL ca J \ � � cr CZ o 1� � c� 0c� v� � = o ? J w lotQ ca oD0000� _ a\ O ~ p t a a J U ,� CM Ir z C .E wc O �� �� 0 � z Z c rn Z iii o H C � v ,, I. W , L o c� D oz q� a � o � c� mo V v o 3 ca 3 , Fa 1� 1. N 000000 `� ILn. ¢ U O o ° a m I �� , LL V� n a O 1 v Z J Z c a m OAI Q ° � K 1 W t a aF' o u o J �cLo Ao o o0N vrZ c tai o nc , m o aQ o o Cl) C13 cts 0000 a 000000fi� C I TY OF ARl— I NGTQiV CQhlSTFtUCT I ON P FEE "M I T ID,EFtM I T NO . 03-54 1 2 Dvner: ABSOLUTE, CONSTRUCTION 18802 67TH AVE HE ARLINGTON 98223 Value of Work: $3, 840. 00 Tax ID: 310515-004-017-00 Phone: Describe Work: FIRE ALARM SYSTEM Proposed Use: WAREHOUSE Legal Description: Job Address: 18802 67TH AVE HE Contractor's Name Type Address License# EVERGREEN SECURITY SPR 8229-D 44TH AVE W EVERGSI112L2 TOTALS Fee Permit Fee $ 5. 30 WORK WITH NO PERMIT 810105. 30 Plan Fee $163. 45 SIGNATUR TOTAL FEE. . . . . . . . . . . . . . . . . $564. 05 I HEREBY i;t-,:RTIFY THAT I HAVE READ AND EXAMINED THIS APPLICATION AND PAYMENTS. . . . . . . . . . . . . . . . . . So. 00 KNOW THE SAME TO BE TRUE AND COR- RECT ALL PROVISIONS OF LAWS AND TOTAL DUE. . . . . . . . . . . . . . . . . $564. 05 ORDINA ES GOVERNING THIS TYPE OF WORK I L C WLI�D WITH WHETHER DATE ,` RECEIPT # das—MSPEC D yyti,, n,,,., BUILDING OFFICIAL Vf(A 1- i T 1/1 1 I S I {' 1 4(.1 Y l i 1 tYfS• t 1• t 1�lt_) ! -1 )tJS) I i '. t/Ii ) ; ) •� '• i,l lit '.1HT, lit6j,� ii 'ti•�' 'iiik_!A :A'jt_IW �iCt-f'Yatt•I(1 11•.I.�rr.r.; . .► ,:e•i )I)t,A �igNf j • 'fu.f it; llflua .' I..Tj ):.! wj•1 1A'1(1'1' .- 1 w ii il'.i w iI 4UTAIV)f t' . . . . . . . . . . . . . . . . .:L1'1 . . . . . . . . . . . . . . . . . .tflliAMYA°I . . . . . . . . . . . . . . . . .AIJU .I AT(IT ( u ' .I, A l MAR-07-1900 17:41 P.01 �^ CITY OF A UNGTON i CONSRUCDON � 3 PIER f i RANINNAT11M1 N1: Q WRcAM1i1cIIL Cl PLtmano ❑ ap$m PERMIT NO. ql��1[[ I tGT Ok GA I\ � Ult jr «Tu ICONI Air N 'r '-5y3 „ 1r 0Auolr011 _flALTEA:ATION ©AErAIII ODIMMfYQN Q11VILt1MXKLoC4T" v��Jr1iIoII��. j �KI lOKK I nlurouv�i0liit I HFRE81f CE&W THAT I HAVE READ AND D A1MJM THIS APPLfGM [iT:r•u,rKw K t�i�Tci n wTATTu,N I S T*N AND 040W TNk M ME To RE TRLit MID OORRECY AI.L pROV& �- S*MsOF LAWSANOORDWAKUOGVMMMGTMSrMOF WORK cut, �.xa „nr WILL EIE COAIPUM Wr M WHETHER SIIflCRTfn HER N OR NOT.THE CBMd MOFAPEWff0 ESMWMSUMEToGNEAUTHORMM {� V"ATE OR CANM TW FWVSK WS Of AM OTHER SPATE OR riuc 10 MUMDCAL F•'1 LONMINLICIWi RATMICCoNST1lIJCfIAFWM EPWiF FISSUAWM �PEItl1AfT Y[AR►R'OM f1ltYE C!F 1S3lL1NCE. leca LAgr oF tOFi'ICI U5L ONLY! _ nu 44046 MLCN WAL "FL of ruTuff i ffE Na THE of c Do fit *Al RCLIJS£T I)OILlt AUICJOfO JJNITS-Iu.EA. VAIPHUN RCFRWOLU►TIpN VN11S-Kr.EK rJ1Y41VRT RMATYH D1131N1 NMLtRi. _ �1�r e,A n o�. Ts-roNNAeci� _ U11SLp$we kPor, AM ITST -A.T.II. MIA J1131AASIICFI RALLN[AT[ - r.0 N T LAUwDRY IRAr u1U11KATLRi. T,u, M ILbI11Ls1Iw 1lll EY YEGIOLlas _ RAIFJtIRATIII I CLOINESDRr[NS _ lfItINAL VINTN,ATIQM AK TIRWKINC.rWlNIAIN lIDOD RCIA muou LRAM AM KANDLING UNIT- In'" YALUUAt■BEAU as It"v"t"-all A11lltAt)EAS MITAI fotpt^CE t JaN mEy Mft ILLNVICL-1)AR,LIa) _ � WS rM1NG I SUIT TOTAL I A L [IJ•YOTAC A rER1Nr A 1QRUIT TOTAL FEE t TOTAL PEE I rir ujL�Gwaii a.TiWSi.Jt:MA psncrl �11MD D7I0 C> FEL oucxvrNo. I ovqLOI 04MA "!" r Y t N,r> ❑nS fEii VAL"Y" FEE rtul&vs11 �cllYur ti .ovmurufi f1A1fC1Oc+ngti+Ao 6 W1� sryR►L� wxncEar�y� -" G� � ►rAts.Iw+rEc'afmvwAm _ E3WS ad 11Iidw1CA1 IMMEMTS i1A`��a°°I slllcvooeionloulca FEW" WE E D TO61L APR 0 3 2003 7 w1�IwbfiILYYIUpgtD p111IHpe1m nsarnlMtrwllAlr A#� FMq _il1l�p CITY OF I RLINGTON . i�.�r.�.AM F1�fh Il'!•RIT�nr. .. M..n w .. nw.-Win..«... ...._ i TOTAL P.01 �. .;�i" '�A ws' .. ..•�i� . . i•.-� .r a iM i City of Arlington Building De; FIRE DEPARTAffM CHECKLIST PERMIT # 3 _��'I I - DATE: - D NAME: >Vl`_ f l� I�(Uri ADDRESS: c_- LJ_1 7-H 14,V LEGAL: 0�� '�n�7 "�� 7"A) BUILDING USE: 0Vk S e_ OCCUPANCY CLASSIFICATION: A E F H 1 F2 12.1131 4 1 1 2 1 3 1 2 1 1 2 1 3 1 4 1 5 1 6 1 7 I M R 5 U 1.1 1 1.2 1 2 1 3 1 1 3 1 1 1 2 3 4 5 1 =2 TYPE OF CONSTRUCTION I II III 1V V F.R. F.R. ONE-HOUR N ONE-HOUR N H.T. ONE-HOUR N Item inspected &completed Signature &Date: Site Plan: Approved Denied Access Requirements: Required: Fire lane: hp Sprinkler system: p4d (1� Alarm system: K i/� yr1t Knox Box: Fire extinquishers: Hydrant: # of hydrants required: Location of Hydrant: Location of Knox Box: -Location of Fire Extinquishers: Fire Flow requirements: Location of address on building: FIRE DEPT: Date: igna RECEIVE6 3 BuilMonn fdchecklist J% City of Arlington Building F-,)t �/�?, ( FIRE DEPARTMENT CHECKLIST PERMIT o V✓ U`"t DATE: ���D NAME: A h' sO k'k-k ccyn ,+� ch Cal ADDRESS: I &kO a- LP-7 TH ,A��- LEGAL: 3�W�s`�D�'�� '�t/ BUILDING USE: WW1R.l i0%ks2- OCCUPANCY CLASSIFICATION: A B E F H 1 2 2.1 3 4 1 2 3L 1 2 1 1 2 1 3 1 4 1 5 1 6 1 7 I M R. ® U LI 1.2 2 3 1 3 1T62F3T4 5 1 2 TYPE OF CONSTRUCTION I II III 1V V F.R. F.R. ONE-HOUR N ONE-HOUR N H.T. ONE-BOURT N Item inspected& completed Signature & Date: Site Plan: Approved Denied Access Requirements: Required: Fire lane: Sprinkler system: Alarm system: Knox Box: Fire extinquishers: Hydrant: # of hydrants required: Location of Hydrant: Location of Knox Box: Location of Fire Extinquishers: Fire Flow requirements: Location of address on building: FIRE DEPT: Date: Signature BuildTorm\fdchecklist I f - .. - " +r r�r�<�;'7�3'p�"c"°'�t�vrt-� 'cam.-�-�"C rr_--��_—a.�T—+?-•r.,«-.+-:��s.�.r---�I O`IV" City of Ar'�q ton • Developmen n�ervices 7nlo�c; 238 N. Olympic • Arlington, WA 98223 DATE , TT B No. ❑/administration g g g fc�Buildin ❑En ineerin ATTENTION ❑Planning ❑Utilities TO � RE: � . I � 1 I i WE ARE SENDING YOU Attached ❑ Under separate cover via the following items: ❑ Shop drawings ❑ Prints ❑ Plans ❑ Samples ❑ Specifications ❑ Copy of letter ❑ Change order ❑ COPIES DATE NO, DESCRIPTION THESE ARE TRANSMITTED as checked below: ❑ For approval ❑ Approved as submitted ❑ Resubmit copies for approval ❑ For your use ❑ Approved as noted ❑ Submit copies for distribution ❑ As requested ❑ Returned for corrections ❑ Return corrected prints ❑ For review and comment ❑ FORBIDS DUE 20 ❑ PRINTS RETURNED AFTER LOAN TO US REMARKS 7 /! J, f / r I l�� r %C-'Z_ (_.' ilk_ 12 COPY TO SIGNED: -'� not as noted,kindly notify us at once. � r ' S ,I RECEIVED APR 0 3 2003 CITY OF ARLINGTON Cf-73 -S /1 - Fire Alarm Plan Submittals OFFICE COPY For Absolute Construction At 18802 671h Ave NE Arlington, WA 98223 �. 7.! �; •.� I '_. � I I I Absolute Construction FIRE SYSTEM SUBMITTAL 4/3/2003 FIRE CONTROL BATTERY CALCULATION STANDBY STANDBY ALARM ALARM _ AMPS AMPS AMPS AMPS DEVICE QTY EACH TOTAL EACH TOTAL DMPXR20OF Main Board 1 0.12 0.12 0.25 0.25 DMP 790 Remote Annunciator 2 0.06 0.12 0.1 0.2 4 Wire Smoke Detectors 1 0.007 0.007 0.015 0.015 Fire-Lite BG-10 Pull Stations 9 0 0 0 0 Total Standby 0.247 Total Alarm 0.465 Standby Current Load 0.247 For 24 Hrs. 5.928 Amp Hrs. Alarm Current Load 0.465 For 5 Min. 0.0372 Amp Hrs. 20% Derating 1.19304 Amp Hrs. Total Standby Current Required 7.15824 Amp Hrs. Batter s to be used 2 12VDC 18AH RODLAND TOYOTA USED CARS FIRE SYSTEM SUBMITTAL AUX POWER BATTERY CALCULATION STANDBY STANDBY ALARM ALARM AMPS AMPS AMPS AMPS DEVICE QTY EACH TOTAL EACH TOTAL DMP 504-24 APS 1 0.15 0.15 0.15 0.15 System Sensor P241575 HN/STB 0 0 0 0.091 0 P2475 HN/STB 0 0 0 0.148 0 P24110 Horn/Strobe 10 0 0 0.165 1.65 S241575 Strobe 6 0 0 0.066 0.396 10" Potter Bell 0 0 0 0.17 0 Total Standby 0.15 Total Alarm 2.196 Standby Current Load 0.15 For 60 Hrs. 9 Amp Hrs. Alarm Current Load 2.196 For 5 Min. 0.17568 Amp Hrs. 20% Derating 1.835136 Amp Hrs. Total Standby Current Required 11.010816 Amp Hrs. Batter s to be used 2 12VDC 18AH f Q 70 -0 Cl) U) 7 7 UUUU c C: c c a� cu cu c6 a L N cm > c -p L N -p "O "O "p J E O 0C C Q U Q a) cna � � u- � > > » > 00 T ' n CD > O U X cu ccCCCcCCCC -O N o o o o o O o O o o C: Q N N N N N N N N N N N LL 2 U co O > N N T T Absolute Construction Fire System Submittals 4/3/2003 Voltage Drop Calculations IND CKT AREA DISTANCE AMPS LAST DEVICE IC1 Horn/Strobes 200ft 1.59 23.Ovdc IC2 Horn/Strobes 150ft 0.462 >23.6 IC3 IC4 IC5 PRODUCT SPECIFICATIONW XR20OF • • • Processor 242 Zone Fire Communicator MEA MODEL XR20OF Commercial Fire Package CIFM Description The XR20OF Command Processor fire package from DMP provides alarm dealers with the industry's most powerful addressable fire system available.The package is built around . the proven XR200 Command Processor TM and offers that panel's reputation for reliability and full range of zone expansion, communication, and relay output capabilities. System Features Package Contents • Up to 234 zones suitable for 2-wire smoke detectors 1 -XR20OPCB Command Processor TM Panel • Eight additional waterflow supervision zones using four 1 -350-81 Large Red Panel Enclosure Model 869 Dual Style D Initiating Modules 1 -893 Dual Phone Line Module • Individual zone programming for fire, fire verification,fire 1 -715 Zone Expander Module (four 12 VDC zones) retard, presignal, cross zoning, and fire supervisory 1 -318 Dual Battery Harness 1 -320 16 VAC, 40VA Wire-in Transformer Up to 200 individually supervised notification circuits 1 -325 120 VAC Terminal Strip • Up to 242 graphic annunciator outputs 2 -356 RJ Phone Cords • Up to 202 programmable Form C relays Zone Expansion • 200 user codes with nine authority levels The basic XR20OF package provides you with six Class B a Multiple 867 LX-BusTM Notification Modules for zoned powered zones for supervising waterflow switches, smoke annunciation of alarms and heat detectors, pull stations, and other fire initiating • Large red enclosure holds up to three 7.0 Ah batteries devices.An additional 28 zones are available on the keypad and wire-in transformer data bus and up to 200 zones can be added using the 462N, • Plain English system test by user 462P,or 481 Expansion Interface Cards and 711,711 E,714, a Plain English User Menu of system functions and 715 Zone Expander Modules. • Type 1 and Type 2 central station reporting The XR200 panel supports a total of 242 fire zones.Each zone a Dual line digital dialer with supplementary data network is programmable for a variety of fire protection applications. reporting to DMP SCS-1 Security Receiver Fire Zone Programming • Alternate reporting to two UL listed SCS-1 Receivers You can program zonesforfire,fireverify,fire retard,presignal, • Pager DirectTM alphanumeric and numeric paging cross zoning, or fire supervisory.This flexibility allows you to • Secure-ComTM Cellular reporting with Cell-MiserTM match individual zone characteristics to the particular needs of a Contact ID and Modem Ile reporting to non-DMP any area in the fire installation. receivers • Serviceman's Passcode restricts system access to Upload/Download Programming authorized persons only with central station verification You can program the XR200 through any alphanumeric keypad a No external programmer required or remotely using the DMP Remote AccessTM for WindowsTM program. Remote Access also allows you to retrieve the • Internal Programmer accessable from any keypad panel's program and memory log at any time. • Cross zoning between any zones to reduce false alarms • Swinger bypass option on all zones Listings and Approvals • Eight supervised keypad addresses with 32 zones Underwriters Laboratories- S3598 • 4-wire keypad and zone expander bus wiring Central Station Signaling • Codeless system reset using optional proximity reader Local Protective Signaling Remote Station Protective Signaling • 200 event history can be viewed from keypad, printed, or Proprietary Protective Signaling retrieved remotely using DMP Remote AccessTM California State Fire Marshal -7165 1157:105 • 1.5 Amps alarm bell output New York City MEA- 168-93-E Vol. 3 • 1 Amp auxiliary output • Inherent power limited circuits • Automatic or deferred test reports NEW 2841 E.Industrial Drive Springfield,MO 65802-6310 800-641-4282 Digital Monitoring Produce■ LT-0353(3/97) Communication Panel Specalications The XR200 panel's communication features include standard Primary Power 16.5 VAC 40VA transformer digital dialer, UL AA multiplex, Modem Ile, and Contact ID Secondary Power 12 VDC 7.0 Ah battery(supports 4 batteries) reporting to one or two UL listed receivers. Auxiliary Power 1 Amp at 12 VDC(with or without battery) Industry's only digital communication format Alarm Output 1.5 Amps at 12 VDC(with or without battery) The XR20OF panel uses the IBM®SDLC format to send alarm XR20OF XR200 panel in red Model 350 Enclosure and system reports to the central station in super-fast digital 14.25"H x 17.0"W x 3.0"D-10 Ibs w/panel data.Typical on-line times are under six seconds compared to Enclosures 20 gauge cold rolled steel over 30 seconds with other formats. Contact ID Zone Expansion Modules This format allows you to send alarm and system reports to any Ademco,FBI I,or Sur-Gard/DSC central station receiver. Model Description 711/711 E Single Class B Zone Expander Dual Reporting 714 Zone Expander Module-4 Class B zones You Can Send reports to one or two DMP SCS-1 Receivers 715 Zone Expander Module-12 VDC powered zones -and i i—ni4hnr rnrnivnr no o horFn in fnr uihcn fhc nfhcr rannnt be contacted. 716 Relay Output Expander-4 Form C(SPDT)and 4 annunciator outputs(open collector) 200 Addressable Notification Circuits 717 Graphic Annunciator Module-20 annunciator outputs 460 Interface Card Adaptor Board/accepts up to five cards The XR20OF panel supports up to 200 of the DMP 867 462N Data Network Interface Card with LX-BusTM Addressable Style W Notification Circuit Modules for complete 462P Printer Interface Card with LX-BusTM individual annunciation of protected areas. Each 867 can be set to a unique Supervisory address and Bell Relay address 481 LX-BusTM Expansion Interface Card for zoned annunciation.The 867 can switch up to 5 Amps of Steady, Pulsed, Temporal, or Calif. Schools alarm power Panel Accessories using an auxiliary power supply supervised by the 867. Model Description 305 Plug-in Relay Built-in Programmer 320 16.5 VAC 40VA wire-in transformer The XR200 contains its programming information in an on 322 16.5 VAC 100VA wire-in transformer board processor and does not require an external programmer. 367 12 VDC 7.0 Ah lead-acid battery Installers and service technicians can program and test the system from any keypad connected to the system. 370RJ Lightning Suppressor with dual RJ jacks 430 10 Conductor Output Harness Local Printer 491 Load Save Module-holds two full programs The 462P Printer Interface Card allows you to connect a local 865 Style Y or Z Notification Circuit Module serial printer to the XR20OF for real time printing or periodic 866 Style W, Notification Circuit Module printing of stored system events. 867 Style W, LX-BusTM Notification Circuit Module 869 Dual Style D Initiating Circuit Module Outputs SLK-835 DMP/Hochiki 8 to 35 VDC Photoelectric Smoke The XR20OF package can provide two SPDT relay outputs Detector head with built-in Alarm/Status LED and eight 12 VDC 50mA annunciator outputs by adding an HSB-200 2-wire Smoke Detector Base optional Model 430 Wire Harness and two Model 305 Plug-in Output Relays to the panel.Each relay is rated for 1 Amp at 30 Additional security options VDC or 500mA at 120 VAC. For combination fire/security systems where allowed by AHJ. Model 716 Output Expander Modules can also be added to . Eight on-board fully programmable burglary zones increase the panel's relay capacity to 202 auxiliary Form C . Easy EntryTM access control keypad compatible relays and 242 open collector outputs. Individual outputs can be activated by zone activity,manually through the keypad,or • Multiple schedule types for arming, disarming, and user by one of up to 50 programmable schedules. control for up to 20 individually reporting areas • Up to 200 zones can be 900 MHz wireless devices 200 User Codes • Area, All/Perimeter, and Home/Sleep/Away arming modes You can assign up to 200 customized user codes in the • Common Area and Bank, Safe, and Vault area options XR20OF panel allowing you to select the system functions and • Codeless user arming and disarming keypad displays each user can access. You can also select . Optional 2-way voice with central station communication standard DMP authority level programming that provides nine fixed levels of access to the system. • Wide range of vacuum fluorescent and LCD keypad styles Digital Monitoring Products 2841 E. Industrial Drive Springfield, MO 65802-6310 800-641-4282 INSULLATION 69ongoSecurimcommand LCO KeypadS Description The 690 and 790 Security Command LCD Keypads provide three Whhenellow,-Zone 4 2-button Panic keys, an AC power LED, an Armed LED, 32 <:y White/Orange-Zone 3 character display, backlit keyboard with easy to read lettering, The 790 keypad t, Whlte/Red- zone 2 and an integral speaker.The 790 additionally provides four fully comes with a single White/Brown- zone 1 programmable Class B protection zones you can program for a 12-wire harness that kv?— Block-Ground variety of burglary and fire applications. plugs into the back _, Green-Receive Data of the keypad. Yellow-Send Data The 690F and 79OF Security Command LCD keypads do not Rea-Auxiliary Power provide an Armed LED. These keypads may be installed in fire only applications. -- (c+ Installing the keypad Figure 3:790 keypad harness wiring The 690/790 keypads use the same plastic housing and are designed to easily install on any 4 square box,3-gang switch box, 2-Button Panic Keys 695 and 696 backbox,or flat surface.The diagram below shows The Panic key function of the keypads allows users to send Panic, the mounting hole locations on the base of the keypad housing. Emergency,or Fire reports to the central station.The user must press and hold the two SELECT keys for two seconds until a beep Surface and backbox from the keypad is heard.At the beep,the panel sends an alarm u Z monting holes. report to the central station with the following zone numbers: 19=Panic,29= non-medical ToprowSFlECTlaeys Wire harness Emergency, } / J3-gang entrances. and 39=Fire.The Panic ke P °' Emerpercy Fve y Figure 4: Panic key label placement Combined 4 square an functionmustbe switch box mounting programmed if the Panic keys are to be used.See the back of this page for programming instructions.Install the supplied icon label below the top row of Select keys. Internal Speaker Operation Surface mounting holes. The 690 and 790 keypad speaker emits standard tones for key Figure 1: Base mounting locations presses, entry delay, and system alerts. When used with the Removing the Base XR200 Command Processor Panel, the speaker also provides The keypad housing is made up distinct burglary,fire,zone monitor, and prewarn tones. of two parts: the front, which Keyboard Backlighting contains the circuit board and The keyboard on the 690/790 lights anytime other components, and the a key is pressed or the speaker sounds. base. To remove the base, insert a flat During an alarm condition, the keyboard screwdriver into one of the openings on the also illuminates in Red visually alert bottom and gently twist it while pulling the -� persons in n,site. The Red backlighting is halves apart. Repeat with the other opening. turned off when all areas in the system are Harness Wiring disarmed orwhen the Sensor Reset function The 690 keypad is supplied with a single 4-wire harness for is used. connection to the panel's keypad data bus wiring. The harness The keypad backlighting dims to medium brightness whenever color code is shown below: the speaker is on. Power Requirements The 690 keypad Black-Ground Both keypads operate on 8.0 to 16 VDC. The 690 draws up to comes with a single l - elb -Receivees-sand Dataa G 95mA in alarm or normal mode.The 790 draws up to 100mA in Ra 4-wire harness that redod-Auxiliary Power alarm or normal mode. plugs Into the back 4* of the keypad. - •GWL-) End User Options Figure 2:690 keypad harness wiring The 690/790 keypads provide three adjustments to the keypad that can be made by the end user. Below is a description the The 790 keypad Is supplied with a single 12-wire harness.Four of options and instructions on their operation.. the wires allow you to connect the keypad to the panel's keypad To access the User Options portion of the keypad,press and hold data bus wiring and the remaining eight are the four zone inputs. the ARROW and COMMAND keys for two seconds.The keypad The harness color code is shown in Figure 3. display changes to SET BRIGHTNESS. You can install individual keypads on wire runs of up to 500'using 22 gauge wire or up to 1,000'using 18 gauge wire. slow 2841 E.Industrial Drive Springfield,MO 65502-8310 800-841-4282 0491te4 MonFtor4ng Fi od-to LT-0283(7/98) { � I Backlighting brightness Change the L _cult Keypad Message This option allows the user to set the brightness level of the You can enter a custom message of up to 16 characters that keypad's Liquid Crystal Display(LCD), AC LED, and the Green appears on the top line of the keypad display whenever that line keyboard backlighting. is not being used for any other purpose. Press any SELECT key NOTE:If the brightness level is lowered, it will temporarily revert to clear the current display and use the data entry keys to enter a back to maximum intensity whenever a key is pressed.If no keys new custom display.See the Command ProcessorTM programming have been pressed, and the speaker has not sounded for 30 guide for instructions on entering alpha characters. seconds,the user selected brightness level is restored. Arm the 2-button Panic Keys At the SET BRIGHTNESS display, use the left SELECT key to This option allows you to enable or disable the top row of SELECT lower the keypad brightness. Use the right SELECT key to keys as 2-button Panic keys.To enable or disable a Panic,press increase the brightness. Press COMMAND to go to SET TONE. the SELECT key under the appropriate display: PN(Panic), EM Internal speaker tone (Emergency),and FI(Fire).Once the panic is enabled,an asterisk appears next to the description. Refer to the 2-Button Panic This option allows the user to set the tone of the keypad's internal Keys section on the front of this document. speaker.At the SET TONE display,use the top left SELECT key to make the tone lower. Use the right SELECT key to make the Zone 2 Soft-ShuntTM tone higher. Press COMMAND to go to SET VOLUME LEVEL. This option is intended for DMP 693,791,and 793 Easy EntryTm Volume level Keypads. Leave the option set to NO. This option allows the user to set the volume level of the keypad's Zone 3 Request to Exit internal speaker for normal operation. During alarm,trouble,and This option is intended for DMP 693,791,and 793 Easy EntryTM prewam conditions,the volume is always at maximum level. Keypads. Leave the option set to NO. At SET VOLUME LEVEL, use the left SELECT key to lower the keypad volume. Use the right SELECT key to raise the volume. 4-Digit Entry Cards Pressthe ARROW keytoexitthe User Options function.Afterthe This option is intended for DMP 693,791,and 793 Easy EntryTM volume is set,the keypad model number is displayed. Keypads. Leave the option set to NO. Installer Options Keypad Diagnostics (KPD DIAG) This option allows you to: The 690 and 790 keypads also contain an Options and Diagnostic . check the display segments program that allows youto configure and testthe keypad operation. . check the keyboard backlighting How to get in • test individual keys You can only access the Installer Options function through the Press the SELECT key under KPD DIAG.The keypad lights User Options function. After holding down the ARROW and all segments of the display and illuminates the keyboard in Green. COMMAND keys for two seconds and getting the SET A few seconds later the keypad turns off the display and illuminates BRIGHTNESS display, enter the code 3577 (INST) and press the keyboard in Red.The keypad then alternates between these COMMAND. The display now changes to KPD OPT (keypad two states for approximately two minutes. options) KPD DIAG(keypad diagnostics)and STOP. Press COMMAND at any time to continue.The display changes Keypad Options(KPD OPT) to PRESS KEY TO TEST.This option allows you to test each key This option allows you to: on the keyboard to ensure it's operating properly.Press and hold each keyforabouttwo seconds.The numberof the key being held • set the keypad address appears in the display.Verify it's the correct number before testing • select supervised or unsupervised mode the next key. • change the keypad display message • individually enable the 2-button Panic keys Zone test (790 keypad only) To enter,press the left SELECT key under KPD OPT.The display This option allows the keypad to display the current electrical changes to CURRENT KEYPAD ADDRESS: ##. status of the 790 keypad's four protection zones. The status is shown as either OPEN, SHRT,or OKAY. Set the keypad address You can set the keypad address from 00 to 16.The factory default INPUT WIEGAND address is set at 01.To change the current address, press any This option works on DMP Model 693,791,and 793 Easy EntryTM SELECT key to delete the old address and then press the Keypads only. appropriate number keys on the keyboard. It's not necessary to Exiting the Installer Options enter a leading zero for addresses 01 to 09. 9 p When done, press the COMMAND key once to return to the Select Supervised or Unsupervised Mode Installer Options screen. Press the SELECT key under STOP to You can configure the keypad for either supervised or unsupervised exit the Installer Options function. operation. Supervised keypads cannot share addresses with other keypads. Unsupervised keypads can operate with other unsupervised keypads sharing the same address.Zones cannot be used on unsupervised keypads.To change the current setting, press the SELECT key under SUP or UNSUP. An asterisk appears next to the selected option. Digital Monitoring Products PP41 F. It,401411041 nrlVo Dnringfield. MO 0n(.IO2-n310 00Q1 141-4PAP i INSTALLATION I t t l I5-12 Power Supplies t Description The DMP Models 504-24, 504-24LX, 505-12, and 505-12LX are power limited, switching power supplies that meet UL, CSFM, NFPA, and FCC compliance standards. Models 504-24 and 504-24LX are rated for 24 VDC @ 4 Amps maximum, and Models 505-12 and 505-12LX are rated for 12 VDC @ 5 Amps maximum. Each power supply includes a transformer, battery leads and is mounted in a red enclosure. Each power supply provides connections for AC input, DC output, and a standby battery.Also included are a low AC input LED indicator,a low standby battery LED indicator,AC trouble and battery trouble relays,and on-board transient protection for the AC input and the DC output.Also,the 504-24LX and 505-12LX each include Model 867 Style W Notification Modules. Installation Mounting the enclosure The metal enclosure for the power supplies must be mounted in a secure,dry location to protect the unit from damage due to tampering or the elements. It is not necessary to remove the PC board or transformer when installing the enclosure. Mounting Optional NAC modules The power supply enclosure can accommodate the addition of two NAC modules for powering various UL listed notification appliances.The DMP Model 865 conventional class A NAC module,the Model 866 conventional class B NAC module, or the Model 867 LX-Bus NAC module can be used.Any of the modules can be installed inside the enclosure using the three hole mounting configuration. Plastic standoffs are provided with each module that attach to the enclosure. See Figure 1. To earth _l Input 120 VAC 60 Hz ground O 1.5 Amps unswitched Panel SPECIFICATIONS — Top lmounling — —1 Model 504-24&504-24LX 1 — I 24 VDC power supply I Optional DMP I I 1 0 1 1 0 1 4 Amp max.See specifications. 0 1 865,866,or 867 1 NAC Module installation I I Model 505-12&505-12LX Panel Y I a l 0 1 12 VDC power supply nawM.q m I I I 1 hole I I 1 1 5 Amp max.See specifications. 1 0 j j 0 j SECONDARY(Battery)POWER SUPPLY I I I 1 1.5 Amps maximum charge current Use only sealed lead-acid rechargable batteries 1 ` r Replace every 3 to 5 years. LISTINGS _J UL1481 - Power Supplies for Fire Protective Signaling m } UL603- Power Supplies for Burglary Alarm Systems UL294- Power Supplies for Access Control System Units I I J6 I I ® NFPA 72 I I This equipment should be installed in accordance with the I I +DC. I I Standard NFPA 72 Fire-Protective Signaling Service I I (National Fire Protection Association,Batterymarch Park, 1 Quincy,MA 02269). I I AC and battery output For Access 1GRNI RED relay connections Control applications 1 POWER LIMITED I Ac I J2 0o J3 T Aar T Bin (UL 294)install the a" All circuits on the Model 504 comply with the requirements O J4 Model 307 Tamper for inherent power limitation and are Class 2 except the red I I Switch. battery wire. AC + AT W J c To trouble zone of control Ir m Factory Nc panel or 867 NAC module. Installed Battery wires c To trouble zone of control (included) panel or 867 NAC module. Mount as shown To tamper zone of control panel Figure 1 MD NEW 2841 E.Industrial Drive Springfield,MO, 65803-6310 www.dmpnet.com Digital Monitoring Products LT-0453(5/00) Wiring AC Connection The transformer must be connected to an unswitched 120 VAC 60 Hz power source with at least 1.5 Amps of available current. Connect the AC power to the flying leads of the transformer. Secure the green wire lead to earth ground. See Figure 1. Note: Use 18 AWG or larger for all power connections. Keep power limited wiring separate from non-power limited wiring(120VAC/60Hz input,battery wires).Minimum.25"spacing must be provided.The power supplies must be properly grounded before connecting any devices or applying power to the unit. Proper grounding protects against electrostatic discharge (ESD)that can damage components. Battery Connection (J3) Connect the black battery lead to the negative terminal of the battery. Connect the red RED + 12 VDC battery lead to the positive terminal of the battery. Observe polarity when connecting — Battery the battery. Series Connecting For 24 VDC operation,connect two DMP 12 VDC Model 367lead-acid batteries in series Strap + 12 VDC iminn the inchiripri I MP Rpripc( nnnprtinn Rtrnn Rpp Finiirp 2 -- � - - ------ --- -- --- --.. .------� -- --�- --- - �--- -- I — Note: Use sealed lead-acid batteries only and replace every 3 to 5 years. BILK Battery AC and Battery Trouble Relay Connections(J4) Figure 2 Connect AC TRBL and BATT TRBL supervisory relay outputs marked NC(normally closed)and C(common)to a zone input of a control panel as shown in Figure 1. Relays are form-C with the contacts rated at 500mA.The relay contacts switch to the NO (normally open) position to indicate a trouble. Condition 504-24 &504-24LX 505-12 & 505-12LX LED Status Condition AC Trouble Approx. 102 VAC Approx.102 VAC AC LED (GRN) ON AC Good Battery Trouble Below 23.6 VDC Below 11.8 VDC AC LED (GRN) OFF AC Bad Battery Restoral Above 25.0 VDC Above 12.5 VDC DC LED (RED) ON AC Good, Battery Good Battery Cutoff Below 20.4 VDC Below 10.2 VDC DC LED (RED) OFF AC Good, Battery Bad DC Output (J6) Connect devices that require power to output terminals marked - DC +. Note: Measure and verify output voltage before connecting devices to ensure proper operation of equipment. Specifications 504-24 & 504-24LX Power Supply 505-12 & 505-12LX Power Supply Input voltage/current 120 VAC @ 1.5 A Input voltage/current 120 VAC @ 1.5 A Output voltage/current 24 VDC @ 4 Amps Max. Output voltage/current 12 VDC @ 5 Amps Max. Charge current 1.5 Amps maximum Charge current 1.5 Amps maximum Enclosure material 20 gauge cold rolled steel, red Enclosure material 20 gauge cold rolled steel, red Enclosure dimensions I 15.5"W x 12"H x 4.5"D I Enclosure dimensions 15.5"W x 12"H x 4.5"D For UL 603 Power Supplies for Burglary Alarm Systems and UL294 Power Supplies for Access Control System applications: Model Voltage range 504-24 & 504-24LX 22.9 to 25.5 VDC 505-12 & 505-12LX 11.2 to 12.8 VDC For UL1481 Power Supplies for Fire Protective Signaling the following maximum battery standby Ampere hours apply for 24 hours of battery backup: Model Battery standby Output Voltage Output Current 504-24 & 504-24LX Max. 49.2 AH 24 VDC 1.75A standby, 4 Amp alarm 505-12 & 505-12LX Max. 38.5 AH 12 VDC 1.25A standby, 5 Amp alarm 504-241505-12 Installation 111IpBa1M0rttotingProducts www.dmpnet.com 2841 E.Industrial Drive Springfield,MO 65803-6310 2 NAC Module Connections r The following wiring diagrams illustrate how to connect the various DMP NAC modules to the power supplies. Notification Circuit Module DMP Model866 37mA at 12 VDC 10k Sz EOL Resistor y Style W DMP Model 308 The Power Supply and Indicating Circuit Module UL Listed,Notification trouble contact zone must be programmed as a Supervisory ,,. Appliances(See table below) Type zone and must be selected for display In the keypad status list. XR5,XR6,XR10,XR20,XR40, XR200,XR200-485/485B Each 866Indicating Circuit Module Command ProcessorTM panel In alarm draws up to 35mA from Its terminal 3 alarm Input. Style z Alarm output Panel zone � from panel B."AC Panel AUX — T,a T—kW UL Listed,Notification Panel GND Model 504-24 or Model 505-12 Appliances(See table below) Each 865 Notification Circuit Module �JJ In alarm draws up to 85mA from Its terminal 3 alarm Input. ------- Notification Clrcult Module DMP Model 865 8SMA at 12 VDC 14 J6 AC 8.n '— T. Model 504-24 or Model 505-12 Figure 3: 865 and 866 NAC Module Wiring LX-Bus Expansion Card 10k R EOLR DMP Models 462N, DMP Modal 308 462P,472,or 481 Model 867 NAC Module UL listed Ron In notification W11n z appliances e.n out. e.a 011- 4 0.11 Tru.ble 5 i e.n Tloua. P"M n Each LX-Bus'module must m m Noon.M be selected with Its own 14 JG Independent address from 00 to 99 A Supervisory zone AG I e■n.ry + - T—bla I T—bl. must be programmed Into the XR200 to properly supervise Model504-24 or Model505-12 each module Il To eddKloml - 967 nrodula. Figure 4:867 NAC Module Wiring 504-241505-12 Installation 2641 E.Industrial Drive Springfield,MO 65803-6310 www.dmpnet.com 0191101Moltltofinapfaducts 3 Notification Appliance Modult. ompatihility Chart DMP Model Description ) DMP Description Model 901 Piezoelectric Mini Horn 801 Piezoelectric Mini Horn 12VDC 904 Horn Appliance 802 Multitone Notification Appliance 12/24VDC 904WP Horn Appliance, Weather-proof 803 Horn Appliance 12/24VDC 906-6 Motor Bell 6" 806 Motor Bell 12VDC 906-10 Motor Bell 10" 921 S yna/Newayne 806hio I@VDQ ®R1WQW Remote A01010 1, Mu1144ndolk, Wdll MOW 822 Syria/Nmayna I111r04 Plata 1 RVIJO ell-ISO Ilernoto Strpbd, Aalling Mount, 1 Nod 823 Horn/Strobe Appliance 12VDC 921-15W Remote Strobe, Wall Mount, 15cd 831 Single Sync Module 12/24VDC 921-30C Remote Strobe, Ceiling Mount, 30cd 832 Dual Sync Module 12/24VDC 921-30W Remote Strobe, Wall Mount, 30cd Standhv Ratipru Pnwpr f!Alcnlatinne 921-75C Remote Strobe, Ceiling Mount,75cd The following calculation defines the total number of Amp.hours 921-75W Remote Strobe, Wall Mount, 75cd required.From this calculation,assemble the appropriate number 921-100C Remote Strobe, Ceiling Mount, 100cd of batteries that will just exceed the calculated total Amp/hour 921-110W Remote Strobe, Wall Mount, 110cd requirement. 921-1575W Remote Strobe, Wall Mount, 15/75cd 1. Add all standby current values including the power supply 922-MCW Remote Strobe, Multi-candela, Wall Mount operating current. 922-15W Remote Strobe, Retrofit Plate, 15cd 2. Multiply the total standby current by the number of standby 922-30W Remote Strobe, Retrofit Plate, 30cd hours needed. 922-75W Remote Strobe, Retrofit Plate, 75cd 3. Add all alarm current values and multiply by 0.25. 922-11oW Remote Strobe, Retrofit Plate, 110cd 4. Add the total alarm mA.hour with the total standby mA.hour 922-1575W Remote Strobe, Retrofit Plate, 15/75cd and then multiply this number by .001. 923-MCW Horn/Strobe, Multi-candela, Wall Mount Power supply operating current 200 mA 923-15W Horn/Strobe, Flush Mount, 15cd Other standby current + mA 923-30W Horn/Strobe, Flush Mount,30cd 923-75W Horn/Strobe, Flush Mount, 75cd 1. Total standby current = mA 923-110W Horn/Strobe, Flush Mount, 110cd No. of standby hours required X hr 923-1575W Horn/Strobe, Flush Mount, 15/75cd 2. Total standby (mA.hr required) = mA.hr 924-MCW Audible Strobe, Multi-candela, Wall Mount 3. Total alarm current = mA 924-15C Audible Strobe, Ceiling Mount, 15cd Total alarm current X .25 = mA.hr 924-15W Audible Strobe, Wall Mount, 15cd (.25 = 5 minute alarm) 924-30C Audible Strobe, Ceiling Mount, 30cd Total standby (required) + mA.hr 924-30W Audible Strobe, Wall Mount,30cd Total = mA.hr 924-75C Audible Strobe, Ceiling Mount, 75cd X .001 924-75W Audible Strobe, Wall Mount,75cd 4. Total required Amp.hrs 924-100C Audible Strobe, Ceiling Mount, 100cd = 924-110W Audible Strobe, Wall Mount, 110cd FCC Compliance 924-1575W Audible Strobe, Wall Mount, 15/75cd Note:This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications.Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense. Digital Monitoring Products 2841 E. Industrial Drive Springfield, MO 65802-6310 800-641-4282 INSTALLATION AND MAINTENANCit INSTRUCTIONS Spee� ��-+pert CeilingAount Series Strobes, and Horn/Strobes `�. ZIP=- A Division of Pittway 3825 Ohio Avenue,St.Charles,Illinois 60174 For use with the following models: 1-800-SENSOR2,FAX: 630-377-6495 Strobes: 24 volt: SC2415W,SC241575W,SC2430W,SC2475W,SC2495W,SC24115W,SC24177W Horn/Strobes: 24 volt: PC2415W,PC241575W PC2430W,PC2475W,PC2495W,PC241151v,PC24177W Remove suffix"W"For ivd models SPEC n :� kjWWr z:w Specifications Mechanical Input Terminals: 12 to 18 AWG (3.31 to 0,82 mml) Overall Dimensions: 6.8" diameter (f 73 mm) Operating Temperature: 32'F to 120'F (0'C to 49'C) Electrical Voltage Range: DC or Full-Wave Rectified 15 candela through 115 candela models Strobes&Horn/Strobes: 16 to 33 volts DC or Full Wave Rectified! (with MDL module): 17 to 33 volts DC or Full Wave Rectified 177 candela models only Strobes&Horn/Strobes: 16 to 33 volts DC;20 to 33 volts Full Wave Rectified (with MDL module): 17 to 33 volts DC; 21 to 33 volts Full Wave Rectified NOTE:Horn/Strobes units will operate on walk tests with on-time durations of 1 sec.or greater. Flash Rate: 1 Flash Per Second Light Output: Models with 15 only in the model number are listed at 15 candela. Models with 1575 are listed at 15 candela per UL 1971 but will provide 75 candela on axis (straight down). Models with 30, 75, 95, R 5, 177 are for that candela. Sound Output: Sound output levels are established at Underwriters Laboratories in their reverberant room. Always use the sound output specified as UL Reverberant Room when comparing products. Listings: UL S5512 Strobe, UL,S4011 (Combo) General Description used in a zone based on the type of panel supply. Be certain the sum or The SpectrAlert ceiling mount series notification appliances are designed all the device currents do not exceed the current capability of the panel. to meet the requirements of most agencies governing these devices, in- Calculations are based on using the device current found in the subse- cluding: NFPA, The National Fire Alarm Code, UL, FM, CSFM, MEA. quent charts and must be the current specified for the type of panel Also, check with your local Authority Having Jurisdiction for other power supply used. codes or standards that may apply. Wire Sizes The SpectrAlert ceiling mount series can be installed in systems using The designer must be sure that the last device on the circuit has sufficient 24-volt panels having DC or full-wave rectified (FWR) power supplies. voltage to operate the device within its rated voltage. When calculating The series can also be installed in systems requiring synchronization the voltage available to the last device,it is necessary to consider the volt- (module MDL required) or systems that do not require synchronization age drop due to the resistance of the wire. The thicker the wire, the less (no module required), the voltage drop.Generally,for purposes of determining the wire size nec- essary for the system, it is best to consider all of the devices as "lumped" NOTICE:This manual shall be left with the owner/user of this equipment. on the end of the supply circuit (simulates "worst case"). Fire Alarm System Considerations Typical wire size resistance: Temporal and Non-Temporal Coded Signals: 18 AWG solid: Approximately 8 ohms/1,000 ft. The American National Standards Institute and the National Fire Alarm 16 AWG solid: Approximately 5 ohms/1,000 ft. Code require that all horns used for building evacuation installed after July 14 AWG solid: Approximately 3 ohms/1,000 ft. 1, 1996,must produce Temporal Coded Signals, 12 AWG solid: Approximately 2 ohms/1,000 ft. Signals other than those used for evacuation purposes do not have to pro- Example: Assume you have 10 devices on a zone and each requires 50 duce the Temporal Coded Signal.Temporal coding is accomplished by inter- mA average and 2000 Ft. of 14 AWG wiring (total length=outgoing +re- rupting a steady sound in the following manner: turn). The voltage at the end of the loop is 0.050 amps per device x 10 devices x 3 ohms/1,000 ft.x 2000 ft=3 volts drop. 1—_: a•�!► The same number of devices using 12 AWG wire will produce only Vz Sec. 1/2 Sec. Yz Sec. '/t Sec. /z Sec. 1'ia Sec. Repeats 2 volts drop. The same devices using 18 AWG wire will produce 8 On Off On Off On off P g volts drop.Consult your panel manufacturer's specifications, as Power Supply Considerations well as SpectrAlert's operating voltage range to determine accept- Panels typically supply DC filtered voltage or FWR (full-wave rectified) able voltage drop. voltage. The system design engineer must calculate the number of units D900-22-00 i 156A 453-003 Figure JA:Current Draw Measurements(Average Mean Method) NOTE: The SC24177 and PC24177 strobes were only tested at the 20-33 Volt-fwr limits and 16-33 Volt DC limits, all other SC and PC strobes were only } tested at the 16-33 Volt-fwr/dc limits. Coll"Mount Strobe Only: Ceiring Mount Horn/5>ro4,,9S cd. Average Mean Current(mA) Peak Current(mA) In Rush Current(mA) Average Maas Current(mA) 24Y Mode.Is 24V Mo�9lft 7.4V M4Sf4L4 91Uitsbift+ri 16V 20V 24V I 33V 16V 120VJ 24V I 33V 16V 20V 24V 33V High/Low Temp 16V 24V ! 33V Candela DC FWR FWR DC FWR DC FWR DC FWIR'FWR FW DC RI DC FWR DC FA'R FWR I DC I FINK DC I FWR Tone_Y¢IUmO JI�O_ DC oWR oc rVVR I DC I rm 15 63 156 1 48 55 41 51 164 232 11 1701242 170 224 91 118 133 177 188 252 Electro- High T 781 80 71 69 70 94 15175 75 84 58 62 A7 174 172 58 r 1 8 228 91 15 134 179 182 237 r'ech• !_ 78 Sl1 1 !1 70 94 3D 95 81 68 79 55 73 238 298 226 318 218 298 94 116 137 179 1B4 244 Low T_em 71 fi9 62 74 59 7% 75 179 744 12 i4D 10i i26 d1B d36 398 4 2 384 466 99 118 133 177 1B6 238 Noll 7t 09 62 7A 59 77 95 223 198 i53 i73 122 163 540 562 534 560 51B 552 92 115 132 176 107 244 3000 Hz High Tem 81�_B3 75' 94 70 99 Interrupt. pion B1' 83 75' 94 76 99 115 290 232 191 230 156 212 G44 668 612 712 576 728 81 108 119 175 174 249 Low Tem 72 70'i6a 77 63 81 177 453 3:i8 291,300 20B 241 952 i092 9i2 TiO4 872 1184 79 148 17.8 170 171 7.34 N n 72 70 64 77 63 8] Ceilinq Mount Horn/Strobe 1575 cd: Ceiling Mount Dorn/Strobe 30 cd: Ceiffng Mount Hoen/Strome 75 cd: Average Mean Current(mA) AVemp Mean Current(mA) Average Mean Curront(mA) 24V Modals ;16f9i6 lfghlLow Temp 16V 24V 33V High/Low Temp 11iV 24V 33V High/Low Temp 16V 24Y 33V Tone ftume 1NQn DC I FWR Dr:I rWR Dc I FWR Tone Volume /Non oc r'wrt Dc P1WR M I rWA Tone Volu e I;qQn OC FWR OC!f-%" oC FWR Electro- High Tern 90 88 791 96 176 105 Eloctro- High Temp 110 105 91 1 1131 851 115 Electro- High Tom;) 194 166 150 174,1301 169 mech. Non 90 A8 791 96'76 105 mech. Non 110 105 91 113 85 116 mech. Non 194 168 ari•174!130 169 Low Tem 23 77 10 81 65 88 Low Tom 103 94 82 98 74 99 Low Tern 187 157 1411159 119 152 I Nun 83 77 70 81 55 88 Non 103 94 82 98 74 99 Non 18'/ 15% fa1�'551119 152 90ti0 He. High T m 93 91 83 101 82 110 3000 Hz High em 113 10B 95 118 91 ]21 3000 Hx NO To 101 1%1'1,S4 179 136 174 Interrupt. Non J84 9] 83 101 110 Interrupt N 113 108 95 118 91 121 Interrupt. NQ 1. ]7 154 17S 136 174 I Low Temp 78 72 84 69 92 Low TOM 104 95 84 101 78 103 Low Tetn� 18? 158 14, 1G2 i23 156 1 N n 7B 72 B4 69 9. Non 104 95 84 101 78 103 Non iA3 /58 143 1G? 123 156 Ceiling Mount Horn/Strobe 95 cd: Ceiling Mount Dorn/Strobe 115 cd: Ceiling)Mount i vrr./S2rabc 177 cd: 1 Average Mean Current(mA) Average Mean Current(mA) Average Mean Gurrenf(mP.)( r 24V Models 24V Models 24V 1lndols High/Low Tomp 16V 24V I 33V High/Low Temp 16V I 24V I 33V High/Low Temp 16V 20VI 24V j 33V ! no Volume /Non Dc FWR oc rwn DC i FWR Tone Volume lNon DC I FWR DC I FWR Dc I FWR Tone Volume lhlor. rx i Wx 'ecno- High Temp 238 222 176 201 151 206 Electra- High Temp 305J245205 264 185 255 Electro- High Temp468 367 3141 334 237 284 (rlech. Non 238 222 1'76 7p7 151 206 mech. Non 305 204 185 255 mech Non 4N3 M7 3141 4 237 284 1 Low Tam 231 211 167 192 140 189 Low Tem 298 249 174 236 Law Tem d81 34 395r319 226 267 Non 231 211 1c7 192 140 189 Non 298 249 1T4 238 Non I 354 319 220 267 Hz High Tern 241 225 180 212 157 211 3000Hz High Tem 30B '269 191 260 30MHz High T m 4%1 371 316 339,243 20flInterrupt. N 241 225 180 212 157 211 Interrupt, Non 30B 269 191 260Interrupt Nnn 471 371 31 9 213 289 Low Tcnl 232 212 169 19ri 144 193 Low Tem 299 252 178 242 Ltm T.;m 4A? 356 30'/ 32.21230 271 N n 232 212 169 195 144 193 Non 299 252 178 242 N 0. 462 3 307 322 230 271 ::gjure IB:Current)Draw Measurements(Average RMS Method) i`t1TE: The SC24177 and PC24177 strobes were only tested al the 20-33 Volt-fwr limits and 16-33 Volt DC limits, all other SC and PC strobes were only tested at the 16-33 Volt-fwr/dc limits. i,eiling Blount Strobe Only: Ceifi%Mount Horr:/S`rrobe'v 5 cd, Average RMS Current(mA) Average RMS Current(mA) 24Y.M0d41s 24V.Y.odefa 16V 20VI 24V 33V _ Tema i6V 24V 33V Volume 1 Tone V( mae [Non Dc'FWR,11C I FWR oC I F1vR Candela DC j FWR FWR_ DC I FWR DC JFWR 15_ 74 71 61 74 54 74 moch, High Tor ) 69 95 84 108 83 117 _15775 86 81 71 81 62 86 mech. Non 89 95 84 10e 83 117 30 112 103 90 98 78 99 Low TOn B2 84 75 93 72 100 Non 82 84 75 93 72 1I10 75 209 176 167 166 143 154 3000 Hz High Tome 92 98 88 113 au�'.22 95 269 242 213 208 180 204 Interrupt. N 92 98 BB 113 89 122 115 336 300 257 268 21B 248 Low To 83 85 7"7' 9G i 76 104 177 57.1 412 394 370 3151327 Non 83 85 77 6 76 t0a Ceilinu Mount Horn/Strobe 1575 cd: Ceilinry Mount Horn/Strobe 30 cd: Ceilino Mount Horn/Strobe 75 ad, Average RMS Current(mA) Average RMS Currant(mA) Average RMS Current(mA) ;AX24V Models EY1Q04 High/Low Temp 16V 24V 33V High/Low Temp 16Y 24V 33V High/Low Temp I 24V 33V Too Volume N DC FWFt oC FWR Dc Tone Volume /No Dc I rwx nc Irvin Dc 11 Tone Volume /Non oc rm nC FNR oc Fwx Electro- High ramp 10111 105 94 115 91 129 Elec!ro- High Tomp 127 127 1131 132 107 142 Eiflelr0• High Tarr 224 207.1 tA%202 172 197 mech. Non 101 105 04 115 91 129 mech. A' n 127 127 t13 132 107 142 mech. No11 224 202 19 202 172 197 Low Tam' 94 94 85 100 Bo 112 Low Temp 120 11G 104 117 96 125 Low lam 217 1-1 1B1;id7 161 160 Non 94 94 85 100 60 112 Non 120 116 104 117 96 12 Non 217 191 1611 107 161 180 3000 Hz Hf Tom 104 108 95 120 91 134 3NO Hz High Tem 130 130 117 137 113 14/ 3001 Hz High Tam 22•/ 205 194 207 178 202 Interrupt, n 104 108 98 120 97 134 Interrupt. 130 130 117 137 173 147 Interrupt. 227 201". f94 207 178 202 Low T 95 95 67 103 84 1116 Low Tom 121 117 106 120 100 129 Low T 1 218 192 183!190 165 184 N n 95 95 87 103 84 11 Non 121 117 10 120 100 129 N 18 192 f&1 1 1 1 Cefflniq Mount Horns/S-dobe 95 cd: Ceiling Mount Horn/Strobe 115 cd: Ceilir.3 Matrnt 177 cd: Average RMS Current(mA)' Average RMS Currant(mA) Average RMS Current(mA) 24 29Y1lfad9 Hlgh/Low Temp 16V I 24V 33V HIghlLow Temp i6V 24V 33V High/Low Temp 16\/I20V 24V 33V Tons_VOIUmO /Non Dc I FM UC MR tx: FWR Tone OIUr110 )Non DC I FWR oC 11 tic r1WR Tone Volume JNon DC PIVR UC MR DG I FW Electro- High Tom 284 266 23r 242 209 247 Electro- High TOIIn�1_ 3511 324 280 302 247 291 Electro- High _rem 536 441 4171 404 344 370 mech. Non 1284 266 236 242 209 247 mech. Non 351,324 28p 302 247 291 mech. Non 5% 441 41; 404 344 370 Low Tam 277 255 22 227 198 230 Low Tomes_ 344 313 271 287 236 274 Low Tem 5J_9 428.469 389 333 363 Non 27J '1.5 227 227 19A 230 Nat 344 313 271 287 236 274 Nan 529 428 408 369 333 353 I"Hx High em Yd'f 209 24 247 21SI 252 3000 Hz High Torte_ 35A 327 2A4 307 2 296 3000 Hz High -rem 539 44 421t 7i09 350 3!5 Interrupt. No 287 289 2401 247 216 202 Interrupt. Von 3ryi 327 284 3D7 253 298 Interrupt Non 539 445'421'A09 350 37fi Low TOrr1 278 25817. 230 7.02E 234� Low Tomes•345 314 2 290 240 2%B Low "rem 1 530 410 419 392 337 357 Non 278 258 220 230 2n5: 234 N n 345 314 290 240 278 Non 530430.411 -9 337 357 2 156-1453-003 i i Figure C.Sound Pressure Measurements Figure ID:Posi''d oning for S1Ylar3�a.� .a IBC.Ui t �i Sound Output Guide Sound pressure NOTE:For maximum brightness, unit must be mounted with ri dSA Q10 at./molts DC flash angles as shown. ¢ M ZI 3i Temporal Low Volume Electromechanical 75 75 79 r 3000 Hz Interrupted 75 75 79 High Volume Electromechanical 79 82 82 3000 Hz Interru ted 79 82 82 Non- Low Volume Electromechanical 75 82 82 Temporal 3000 Hz interr!ipted 79 82 85 High Volume Electromechanical 82 85 85 \ 3000 Hz Interrupted 82 85 85 HoPre The horns on SpectAleri horn/strobe combo units are factory set for high Volume, temporal rode, and electromechanical tone. Tones: Electromechanical or 3kHz tones may be field-selected using the dipswitch selector (See Figs. 213 and 3i3 for dipswitch location). NO E: When powered from FWR supply, tones will be modulated(turned on and off? by 120Hz causing the Tones to sound Figure 3A.Any o ozabination of ra o—&Na by.1 4-GjC,ae circvi. diferent from DC power. to provide independent horn and stao'a �;;,wnQve Temp/Non-Temp: Vaetory innstailiee6jumpers,see RLl ure � e: Temporal coding or Non-Temporal coding can also he field-se- NOTE:Strobes must be powered continuously for horn operation. lected using the dipswitch. High/Low Volume: High or low volume may also be.Field-selected using the (+) dipswitch. IN O G N V System Operation:Non-SynchronizedDevices Figure 2A.Arlie'combination of modea9s powered by a 2-wire circuit: o :o NOTE: Supply power must be continous for proper operation. }6 rM ,a :s +� HORN HORN/STROBE STROBE ONLY H :O ;0 �� R T t' T �' R R O O R O O l B B S Figure 26:Horns and strobes powered in tandem: NOTE: Supply power must be continuous for proper operation. Figure:��'Horns and strobes pu�er�;:�Enae;����o��]c:w��.t;d�orn operated on coded power suppCys,: CP,MODULE OR PREFROM VIOUS DEVICE NOTE: Strobes must be powered continuously;or horrl opc;.ation. FACTORY INSTALLED �~ HORNS STROBES \ SHORTING BAR FACTORYINSTALLED + JUMPER REMOVED STROBE+ f SrROBE r HORN+ +i 41 �111 HORN+ ISTROBE- l}STROBE- DIP HORN- El �HOFN- SWITCH � Brink wlro ac shown',`or + �, suparvlslon e.con^ec:l�n. + �� leaf s�o exl'wstr,p�.�i wire l tl beyond swi;zh TO NEXT TO NEXT housing.DO NO"i loop wlrcy TO NEXT DEVICE HORN STROBE OR EOL OR EOL OR EOL D900-22-00 3 156-1453-003 i ._... ... . .----•--._. 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(see note below) OPERATION Rate-of-Rise (applicable models only): A temperature increase of 150F NOTE: or more per minute closes contacts in the detector.When the rate-of-rise ele- REFER TO WIRING DIAGRAMS PROVIDED WITH ment alone has been activated,the detector is self-restoring. CONTROL PANEL FOR; Fixed Temperature (all models): If the temperature of the center disk (1) PROPER PANEL CONNECTIONS, AND rises to the detector's rated temperature (135°F or 194°F), contacts in the (2) PROPER END-OF-LINE RESISTOR VALUE. detector close. When actuated by the fixed temperature element, the detec- tor is nonrestorable and must be replaced.The need for replacement is indi- Figure 3.Installation wiring connections to detector, cated when the center disk has fallen free. Two of four surface mounting holes •�Sidewell section (A to B): re- 1. move for electrical box mounting Alignment ° 4 -t ' �. Alignment ,1 snow avow {' , f, 1 1 Two of four One of two 3-1/2" mounting 2-3/4" locking fingers holes �, / ) g ;�� Sidewell section (C to D) Four legs: : \\j� �"�r.i-t" i,•'.``.. Four le s: r` _• remove for electrical boxbend mounting • One of two snap-outs for surface mounting �/ One of two `c for entrance of I / cx- locking Two of four ekctrical \ posed installation fingers box mounting holes wiring Electrical box mounting Surface mounting Electrical box mounting Surface mounting 3-1/2" or 4" One of two Na 3-1/2" or 4" F One of two Na Octagonal box /// \ wood screws Octagonal box wood screws (not supplied)—r` i (not supplied) (not supplied)—� (not supplied) Mounting platen t Mounting plate Mounting plate 1� legs txnl up 90 Maunlin¢ (' i:s pla well xte: side• —{L foremovedd for / Rectangular slot electrical box for detector removal mounting Rectangular slot Detector (refer to step 4) Detector _ --_ for detector removal (refer to step 4) Center disk CnLLcr disk Figure 1. Detector installation usung metal mounting plate. Figure 2.Detector installation using plastic mounting plate. INSTALLATION Surfaee Mounting 1. Select location for detector on ceiling. . not locate in direct path of a. Using met, .ale: See Figure 1. Using pliers, bend the four mounting hat or cold air flow. Refer to the Specifications and Precautionary Informs- plate legs up 90°F as shown. Position the plate with the legs against the tion sheet for recommended maximum spacing. Earlier warning may be mounting surface mid fasten the plate to the surface by installing two #9 obtained by reducing the spacing between detectors. Exposed circuit woad screws (not supplied) or other suitable fasteners through either the wiring may be used when the heat detector is installed en a power limited btraer or outs Pair of mounting bales in the plate. alarm initiating circuit which meets the requirements given in the latest edi- tion of the National Electrical Code (NFPA 70). Article 760. Part C. b. Usin"aatic_.pinte: See Figure 2. When using exposed installation Exposed circuit wiring must use power-bruited cables meeting these wiring.remove either or both sn"s for wire entrance from the plate,as requim tents. required.With the side of the plate marked"For Surface Mounting"facing 2. The detector may be mounted either to an electrical box or suaface out, listen the plate to the surface by installing two g8 wood screws (not moumlo d using the supplied metal or optional plastic mounting plats Install supplied)or other suitable fasteners through either the inner or outer pair of surface the plate using one of the following applicable mount ring procedu s. mottmting holes in the plate. Electrical Box Mounting 3. Route the installation wiring either through the center hole in the mount- ing plate when the wiring is concealed,or through the openings in the side a. Using mctal_platc:See Figure 1.install a standard 3-1/2 or 4 inch octago- of the plate when the wining is exposed. Connect the wiring to the detec- nal electrical box (not supplied). With either side of the plate facing out, for as shown in Figure 3. align appropriate pair of mounting holes in the plate with the electrical boor screws and install the plate an the box. 4. To install the detector_ Align the arrows an the mounting plate and on b. Using plastic plate: See Figure 2 Insirt0 a standard 3 Irl or 4 Inch the detector base,seat the detector on the plate and 1um the detector clock- octagonal electrical box(rat supplied). Remove the two sidewall sections, wise mail it locks in place. located between points A to B and C to D. from the plate as indicated. To remove the detector. Insert the tip of a screwdriver into the rectangular With the side of the plate marked "FUR FLUSH M0UKF1NG"facing art, slat in the side of the detector base (see applicable mounting illustration align appropriate pair of electrical box mounting holes in the plate with the for location of slat), lift the locking finger of the mounting plate, and turn electrical box screws and install the plate an the boar. the detector counterclockwise until it can be withdrawn from the plate. MAINTENANCE AND TESTING motion sheet supplied with this device for additional details). The requirements for maintenance and testing of heat detectors are covered The rate-of-rise test should be conducted by a qualified fire protection ape- in the latest edition of NFPA 72E,Chapter 8 (Inspections, Tests and Main- ciatist using a 1,000-watt heat gun (or hair dryer). Under normal ambient tnnance). The standard requires that: conditions with an air velocity at the detector of 400 feet per minute, or 1. For initial installation: all restorable heat detectors (rate-of-rise fea- less, the detector's contacts should close within 10 seconds when the heat tune)be tested immediately after installation. gun nozzle is located approximately 6 inches from the detector. For every additional 400 feet per minute of air velocity,the heat gun to detector 9pac- 2. For periodic testing: ing should be reduced by one inch (e.g. 400-800 FPM, S inches; 800- a. For restorable heat detectors(rate-of-rise feature) one or more detectors 1,200 FPM,4 inches,etc.). on each initiating circuit be tested at least semiannually. Different detec- Caution must be taken to prevent operating the notimstorable fixed temper- tors should be selected for each test so that all detectors are tested within ature element(center disk)during this test. If the fixed temperature element five years. operates,the detector must be replaced. b. For nonicstornble heat_detecto_r3 (fixed temperature element on all mod- els), offer the fifteenth year at least two detectors out of every hundred, or fraction thereof,be removed every five years and sent to n testing laborato- ry for tests. These detectors must be replaced with new detectors since testing of the fixed temperature element destroys the detector. See the lat- est edition of NFPA 72E, Chapter 8 (Inspections,Tests and Maintenance ) for additional details. NFPA 72E notes that the authority having jurisdiction may accept a great- er or lesser frequency for periodic testing of heat detectors. in addition to the NFPA requirements for periodic testing of restorable heat detectors, it is recommended that the rate-of-rise feature of each model in the system be tested at least annually since this feature is subject to reduced sensitivity over time(see WARNING 4 in the Specifications and Precautionary infor- ®Copyright 1988 L ESL 429/449 & 428/448 'ERIES Self-Diagnostic Photoelectric Smoke Detectors f/ , • Installation Instructions Part Number 14153 California State Fire Marshal Approved MEA(New York City)Approved r„ P 0428/448 usna 429/449 GENERAL DESCRIPTION The ESL 429/449 and 428/448 Series low-profile,self-diagnostic,two- and four-wire smoke detectors work on the light scattering principle.A pulsed infrared light-emitting diode serves as the light source,and a high-speed photo-diode as the sensing element. This design has Plug-in terminal block superior protection against false alarms caused by dust,insects, RF Diagram 1 " and ambient-light. These Series of smoke detectors are especially suited for residential occupancies,including hotels,motels and dormitories,as well as other I .�A commercial and industrial fire-system applications. This Series is designed for 2-wire and 4-wire connection,respectively,to 6-24 V DC fire alarm control panels, LIL Listed for commercial or household fire protection. 429 So 428 Series Wiring Diagram Diagram 2 -- -- �/mod 429CST,429CSST 9CT, model 429CRT Two-Wire Compatibility power au'conllacls not used power The ESL 429 Series two-wire,smoke detectors first + + lest offer the widest range of two-wire compatibility detector detector 99 mm 09 in the industry. Refer to ESL's Compatibility Index for compatible control panel listings. COMPATIBLE LISTED CONTROL UNIT' lire alarm + — —a �_ Initiating END OF LINE circuit - _n DEVICE 449 & 448 Series Wiring Diagram Diagram 3 models 449&449 model 449&449' models 449 9 449 CRT,CSRT,CLT,CSLT CSRH lest AT,C, is CST,448T model449CSH' local nor, detector auHasry aontecls lstCldng heel sensor low Is ouSpul alarm heal sensor anontecMm conlacts 9rs1 power CLT.SCLT1 conlacts I�r conlacts power oonlaale power detector ~ j—� ++ r~ -4 ++ m 8 0 LISTED CONTROL UNIT rod POWER Power(* black SUPERVISION circuit — UNIT Are / } — b alarm !t k411akng circuit --� S '448CSH and 448CSRH are smoke alarms. Optional Features Smoke Detec+nr Placement and Spacing In general ceiliri )unted smoke detectors should be located near the This Series includes a wide range of options,as shown in the Product center of the room or hall whenever possible,or more than 4 inches(100 Selection Guide(Diagram 9)on back page. These options Include a mm)from any wall.When the detector is wall mounted,the top of the built in sounder, an auxiliary relay, an integral heat detector, and an isolated heat detector,to meet almost any application. Diagram 4 1—.1"-► n W tnml Self-Diagnostics Includes Automatic canine Sensitivity Testing T 4 In Each detector in the Series continually monitors its own sensitivity and -ccepteble hero J' It operational status. Once a day it performs a full diagnostic test that never hero + Includes dynamically testing the sensing chamber and internal elec- ( 12 In. tronics.If a detector drifts out of its UL Listed sensitivity range or fails top of detector _J �°m" internal diagnostics, the alarm LED will flash once every second to eccoplobl-hero indicate trouble.This meets NFPA 72 field sensitivity testing require- ments without the need for external meters. Bide wen NOTE: Connect to a power supply that will not automatically reset. NOTE, Since the self-diagnostics only indicate trouble after 27 hours, if the cl cease,aosest amente thewn erehe detector the men of the power supply Sutc=fn/:—IL. a. n nA L. tL. --If o—j"r 1­ it— r-Ud—:..V..I.....+:.. rt Otl, Note:Measurements shown are to the closest edge of the detector. indication will never be signaled. (The smoke detector will still signal I. alarm correctivl detector should be 4 to 12 inches(100-300 mm)from the ceiling(see INSTALLATION Diagram 4). Refer to NFPA 72 for further mounting instructions. This Series of detectors mount to standard single-gang electrical boxes,four-inch octagonal or four-inch square electrical boxes,or on When more thanonedetectorisrequired,spacingof30feet(9.1 meters) WIREMOLD No. 5739 fixture boxes. These detectors may also be may be used as a guide on smooth ceilings(as defined In NFPA 72). mounted directly to walls or ceilings where local codeourisdictions Other spacing may be used depending on ceiling height, high air permit, movement,and other conditions or response requirements. First, pull wire through the electrical box and connect to the plug-in Low Temperature Output Models (CLT,CSLT Models) terminal block supplied,one wire per terminal(see Diagrams 1,2 and These models have a separate relay output that will be energized when 3). Second, dress wiring neatly and snap the terminal block into the the ambient temperature around the detectors falls to approximately back of the detector. NoW The detector cover must be closed com- 43°F.Note;this detector continues to have the same operating rating tempera- p1plely,to4uprtort the circuit board_ 'le fn ft tht a terminal bloom ture range as standard models—32OF(0°C) to 120OF f500C). Run 6 Now,open the cover and mount the detector,using the mounting holes conductor fire wire from a combination burglar/fire alarm panel to smoke provided(see Diagram 5). detector.Connect low temperature relay contact to a separate non-fire zone on a combination burglar/fire alarm control panel.Warning:Do not All ESL smoke detectors are shipped with a plastic dust cover for use connect low temperature output relay to fire alarm zone. in areas where construction is on-going.Smoke detectors will not work with the dust cover in place.Remove the dust cover when installation Where NOT To Place Detectors is completed,prior to testing. One of the major causes of nuisance alarms is improper placement of detectors.Avoid locating detectors too close to kitchens orwood stoves, where smoke can be generated.Garages and furnace rooms are also --- poor locations, due to exhaust fumes. Placing detectors too close to Diagram 5 For Instructions on removal bathrooms can cause problems from steamy baths or showers.Also do _ of terminal block and not install detectors where normal ambient temperature can be over 1.85't�70 cm) ��-�) circuit board call technical 100eF(37.80C),such as attics.Refer to NFPA 72-for more information. services at 800-648-7424. Supervision of System Wiring 1 Power wiring in four-wire systems is required by NFPA 72 to be supervised.This is accomplished by installing a power supervision relay s t' q at the end of the detector power circuit. The contacts of the supervision (15.5 cm) are or test switch WiREMOLD mounting relay are wired in series with the system's alarm initiating circuit,and are Foover l+ = mounting closed when energized(see Diagram 3). A break in the detector power all�><ea circuit or a loss of power de-energizes the power supervision relay, opening the contacts and causing a trouble annunciation at the fire ingle gang 4' octagon alarm control unit. mounting o ESL Models 204-6 V and 204-12/24 V are relays UL Listed for 4-wire power supervision. ESL Model 204-12/24 V CAN is a relay ULC Listed - elease for 4-wire power supervision. Models 449/448CTE, 449CSTE, and 449CSSTE are smoke detectors with a built-in end-of-line power NOTE:Positive air pressure from wire openings,conduit,mounting boxes, supervision relay,and can be used to supervise a circuit in place of a irregular mounting surfaces,or plenums causing air movement through power supervision relay. The 449CTE,449CSTE,and 449CSSTE will and away from the detector may prevent proper operation. Seal all also automatically send a trouble signal to the control panel whenever openings causing unwanted air flow using UL Listed expanding foam or the detector needs maintenance.Proceed with sensitivity testing on all Duxseai. detectors as outlined on next page. Testing the Installation without the need for extc )meters. In accordance with NFPA 72, After all connections are complete and the wiring!, ecked for errors, smoke detector sensitivity should be checked within one year after apply power to the system. There should be no alarm. If an alarm is installation and every alternate year thereafter,in commercial Installa- reported,determine if a detector is latched in alarm orif there is a problem tions,or every three years in residential sites. with the wiring. The replaceable sensing chamber of the 400 series photoelectric All smoke detectors shall be tested at least annually in accordance with detector unsnaps for easy field cleaning and service. Whenever the NFPA 72.The preferred method for functional testing is with Smoke!in status LED indicates cleaning is necessary,open the detector cover, a canm,available from ESL.Follow the instructions on the can carefully unsnap and throw away optical block chamber.Then thoroughly blow to ensure proper testing. Other brands of canned smoke are not off the optical base and snap a n2w optical block chamber(part#211) recommended due to potential for contamination. Other acceptable back in place.NOTE: Be sure new optical block chamber is seated all testing methods are;a smoldering punk stick or a cotton wick. the way down. Close detector cover and verify sensitivity with the The detector samples for smoke about every 9 seconds,while flashing sensitivity level test(below). its LED. If smoke is detected, the sampling increases to every 4.5 Sensitivity Level Test Mode seconds. Excessive smoke must be detected in three consecutive Each detector includes a sensitivity test mode that is activated by samples for the alarm to activate. Therefore,when testing the detector holding a magnet near the integral reed switch for more than one with smoldering punks or cotton wicks,hold the smoke source near the second(see Diagram 7).This initiates the self-diagnostic routine and smoke entry and gently direct smoke into the detector for 20 seconds provides visual indication if service is required.The alarm LED provides or until alarm is indicated.BE SURE TO PROPERLY EXTINGUISH THE the indication listed in Diagram 8. SMOKE SOURCE AFTER TESTING! After the sequence of blinks,if the sensitivity is found to be within limits This is a go/no-go test and is not a reliable indication of detector and if all other tests pass,the detector will go into alarm until reset by sensitivity. If it is successful, the LED will remain lit. To reset the the panel. If the sensitivity is not within limits, or an unserviceable detector, operate the system reset switch to remove power from the hardware fault has been detected,the alarm LED will continue to flash detectors. Control unit alarm and all auxiliary functions should be verified for a complete test of each detector. Diagram 7 To activate sensitivity level test mode,hold magnet on hinge side of Models with heat sensors sample for heat every 3 seconds.Test heat detector for more than 1 second. sensors by using a hot air gun. Aim at heat sensor from 6-10"away. / Detector should go into alarm in less than 30 seconds.Be careful not to melt plastics. �' � magnet(tor best results • �' pos�bon magnet slightly off center) Diagram 6 optical block cover once per second until the detector is reset by --- the panel.If sensitivity test indicates an unacceptable level,take action recommended above.If action does not result in acceptable sensitivity, replace unit. Indentation Approvals The smoke detector is for use in commercial fire protective signaling \ systems and in household fire warning systems.(NFPA 72). snap Into Indenletlon optical base 429/449 Series Listed by Underwriters Laboratories Inc.;California State Fire Marshal MAINTENANCE, CLEANING and approved (Listing#7272-0447-128); MEA approved[New York City] (Listing#MEA 64-94-E)Factory Mutual approved. SENSITIVITY TESTING This series of self-diagnostic smoke detectors is designed for easy field 449CLT/449CSLT Series service and maintenance. If a detector drifts beyond its approved Listed by Underwriters'Laboratories, Inc. sensitivity range for more than 24 hours, or fails internal diagnostic 428/448 Series tests,the unit automatically indicates trouble by flashing its LED every Listed by Underwriters'Laboratories of Canada(Listing#CS205). second. This meets NFPA 72 field sensitivity testing requirements Diagram 8 Approximate obscuration Blinks Indication Action 4291449 428/448 1 Unserviceable hardware fault is detected Reset unit and re-run sensitivity test,if indication remains the same, replace unit. 2.69 3.05 2 The detector is not sensitive enough Clean per instructions.Reset unit and re-run sensitivity test,if 2.46 2.75 3 _ indication remains the same,replace unit. 2.23 2.50 4 Detector is within sensitivity limits None 2.00 2.15 5 1.77 1.85 6 1.54 1.50 7 Detector Is too sensitive Check to be sure optical block cover is snapped down completely. 1.31 1.25 8 Clean per instructions. 1.08 0.90 9 i i Product Selection Guide M.,.1el Designator Wire Type Model Designator ! Diagram 9 Model Designator Desl nstor Power 9 Designator Listing Number Description 9 Series Deslgnato�Features - A 6/12 V DC _ 449 UL 2 Two-wire only �449CS TR 448 ULC 4 Four-wire only C - 12/24 V DC Wire Type Power Designator Features Description Designator Feature E End-ol-Line Power Built-In end-ol-line relay that also acts as a sensitivity status output.For foul wire only.Fail-safe relay trips upon loss of power or II Supervisory and Sensitivity smoke detector is outside the approved sensitivity tango for more than one day.End of line resistor is easily connected to terminal Status Relay with no extra wiring,or relay contacts can be connected to a separate trouble loop. H Isolated Fixed Temp.and Isolated fixed 135"F(57^C)and into of rise heat detector.Indepondanity,trips the LFn and alarm relay output.Smoke detector Rate of Rise Heal Detector activates inlomal sounder local alarm)and auxiliary relay,but does not latch.Approved as both single station smoke alarm and system heal deleclor.Ideal lot hotel,motel and dormitory rooms where smoking Is allowed, R Auxiliary Relay Used to activate other devices such as elevator recall,door hangars,etc.UL Listed for releasing services. S Built-In Sounder 85db built-In sounder aferms when smoke is detected or when power wiring polarity Is reversed. ss Built-in Sounder with 85db built-in sounder alarms when smoke Is detected or when power wiring polarity Is reversed.Also,chirps when unit goes outside Sensitivity Status Output the approved sensitivity range lot more than one day.Resetting detector will silence chirp for one day,until unity Is restored to proper sensitivity. T Integrated Fixed Temp.and Integrated fixed 135'F(57'C)lornperature and rate of rise head detector offers double protection.Elther heat doloctor or smoke Fiats of Rise Huai Dais iur daivi.iur carii trip and latch LED and n!Drm te!s,oufpuls. 1 Low-I 0rtlOW11J1`0 Output Nun laldrkry,luw turuNeiature output for temperatures below 43'F t 5"F('C), Electrical Specifications Max.Ripple Typ.Ave.Stby. Typ.Alarm Cur. Typ.Ave.Pol. Alarm Relay Other Relay Model 2-Wlre 4-Wire MIn.Volt. Max.Volt. (PK To PK) Cur.(12-24V) (12-24V) Rev.Cur. Contacts Contacts V uA (mA) mA A A 429AT,428AT 6.5 20 10% 70 see S09A - - - _429C,428C _•_ 8.5 33 10% 70 'see S 10A - - - - 429CT,428CT • B.5 33 10% 70 'see S 10A - - - _429C_R_T +_ 8.5 _ 33 10% 70 _ 2 429CST,428CST,429C,SST 8.5 _ 33 10% 70 'see 511 AJ 10 - 449C,448C- - - • 8.5 _ 33 10%_ 70 15 - 0.5 449CT.448CT + 8.5 33 _10%_ 70 15 - 0.5 - 449CRT • 8.5 33 10% 70 31 - 0.5 2 449CLT,448CLT _B.5 33 10% 70 15 - 0.5 449AT,446AT • 5.1 27 10% 70 15 - 0.5 449CST,448CST _•_ 8.5 33 10% 70 40 10 0.5 - 449CSRT _ • .5_8 _33 _I_0% 70 51 10 0.5 2 --449CSLT,448CSLT • 8.5 33 10% 70 40 10 0.5 449CSRH - -- 8.5 _ 33 -10% 70 51 10 0.6 2 _ 449cssT • 8.5 33 10% 70 40 10 0.5 - 4495STE,449CSSTE • 8.5 33 10% 23MA 51 33 0.5 2 440CTE,"BCTE • _ 8.5r33 10% 23mA 31 23 0.5 2 448CSH" _ 8.5 10% 70 51 10 0.5 - 448CSRM" • 8.5 10% 70 51 10 0.52 Power Lupealslon unit -204.6V(UL Listed) 5.1 33 mA O 6V DID - 0.5 14 mA®12V OC 204-12/24V(UL Listed) 8.5 - 2BmA®24V DC - 0.5 - -- 14mA0li VDC 204-12/24V CAN(ULC Listed) 8 5 33 - 28mA 0 24V DC - - 0.5 - '429 models draw up to a maximum of 60mA alarm current if not limited by panel. Product Data Sensitivity Heat detector specifications...fixed temperature- 135°F, 50 ft.spacing 428/448- minimum............... 2.0+0.50%/Ft. rate of rise- 150F/min.&> 1050F(8.30C/min.&>40.6°C) -maximum ..............2.0-0.50%/Ft. Low temp specifications.........43°F(°C) -F 5°F(°C) 429/449-minimum............... 2.0+0.37%/Ft. Auxiliary relay contacts ..........2A ® 28 V DC or 120 V AC (resistive) -maximum .............. 2.0-0.39%/Ft. Alarm contacts .......................500 mA CAD 36 V DC(resistive) Operating temp ....320F to 120T(0°C to 50°C) Detector size ..........................6.1 in.(15.5 cm)x D 1.85 in.(4.69 cm)x 8.8 oz.(0.25 kg)W Operating humidity range............. 0 to 95%RH Packaging ..............................10 detectors are packed in a carton Sounder specifications..............85 dB at 10 Ft. Self-diagnostic indication .......typically 27 hours after reset(do not connect to power Color............................. white cover/white base supply that resets every 24 hours) Field wiring size......................14-24 AWG 01999 Sentrol.Certain items in the Installation Instructions are protected under one or more of the following patents:5,546,074; 5,708,414;5,798,701;5,821,866;5,936,533. SENTROL Sentrol reserves the right to change specifications 12345 SW Leveton Dr.,Tualatin,OR 97062 without notice. Tel.: 503.692.4052 Fax: 503.691.7566 E S L N http://www.sentrol.com ®inns Sentrol U.S.&Canada: 800.547.2556 Technical Service: 800.648.7424 E-3914-0999 A PRODUCT OF SENTKOL FaxBack: 1.800.483.2495 14153 Rev.B • F i reli Ter Aga n is Switch Contact Rating A PITMAY COMPANY Al I switch contacts are rated for 0.25 A at 30 volts(AC or DC). Installation Surface mount the BG-12 pull station to a SB-10 surface backbox. . Semi-flush mount the BG-12 to a standard single gang,double-gang, or 4-inch(10.16cm)square electrical box. Mount the optional Trim Ring(BG-TR)if necessary when semi-flush mounting the unit. M C'T/V�4TE0+� The word'ACTIVATED' PUSH IN is displayed 1PULL ■ 1USH IN PULL on the pull station's pulled-down handle If, during mounting of the pull station, the door becomes de- tached, complete the following steps to reattach the door to the backplate. The door cannot be connected to the pull station if the unit is mounted to the backbox. Dual Action BG-12L 1. Position the door and backplate side by side in the full open position. (i.e. 180-degrees with respect to each other.) BG-12 Series Manual Pull Stations 2. With the backplate position fixed, move the door behind the backplate,as shown in the illustration below,part A. Document:50964 Revision:B ECN:98-461 08/04/99 3. Align the hinge posts and holes by bringing the door up to meet the backplate, paying particular attention to the `keying' that occurs when the door's post hole is aligned to the backplate's Description hinge post. Refer to the illustration,part B. The BG-12 Series Pull Stations are non-coded manual pull 4. With the two pieces aligned and`keyed'together,slide the holes stations which provide a Fire Alarm Control Panel (FACP) down onto the posts. Refer to the illustration,part C. with a single alarm initiating input signal. The BG-12 series 5. Holding the backplate, close the door slightly to lock the door includes both single-action and dual-action models equipped and backplate together. with either a hex or key lock/ reset. A single-action pull- . DOOR ATTACHMENT station is activated by a single pull-down of the alarm handle. _ The dual-action versions require pushing in the handle,then NI tlau� pulling the handle down for activation. The BG-12 series uq� o '' With the door and manual pull stations are UL listed and meet the ADA require- -- backplate aligned and ment of a 5-lb. maximum pull force to activate. Operating I keyed'together, slide instructions are molded into the handle along with Braille the holes down onto � 0 the posts. text. Molded terminal numbers can be found adjacent to the %�I- __0__ __ wiring terminals. I z - I HOLE POST BG-12 Series Models available: V --k ■ BG-12S—Single action with `pigtail' connections and a hex lock reset. Pigtail wires are provided for connection to the FACP Initiating Device Circuit(IDC). ■— BG-12—Dual action model with screw terminal connections POST {I,d n and a hex lock reset. ■-- BG-12L—Same as BG-12 except with a key lock reset. > ■ BG-12LSP—Same as BG-1 2L except with both English and I 0 h �— Spanish operating instructions. Closing the door slightly locks the door and backplate together. s From FACP+1_ _r+Totted AddresWe Device 'Pigtails' Black In/out(-) Anlout(+) KC BLACK uArdVIAr 4TEDd .. PUSH INt, PULL DOWNI RED i. "L Single Action BG-12S Dual Action BG-12L(Shown Activated) Single Action BG-12S Pigtails Dual Action BG-12, 121L, 12LSP Wiring WARNING! Do not loop wiring under any terminals. Break wire run to maintain IDC supervision. Wiring Instructions for the BG-12,BG-12L and BG-12LSP 1) If semi-flush mounting,proceed to step 4. 2) Mount the backbox before wiring to the pull station. 3) Before mounting the station,pull all necessary wiring through the backbox and optional BG-TR. 4) Remove the correct amount of wire insulation. The pull station backplate is molded with a strip gauge to measure the amount of insulation to be removed. 5) Connect the wiring from the fire alarm control panel's IDC,or any previous device on the IDC,to terminals 1 and 2 on the pull stations terminal strip. Connect the next device on the IDC or End-of-Line Resistor(ELR)to terminals 1 and 2. 6) Maintain consistent polarity with all connections throughout the IDC. Wiring Instructions I'ur the BG-12S — — — Follow instructions 1 through 3 above,and then proceed with steps 4 and 5 following: 4) Connect the field wiring from the FACP's IDC or the previous device on the IDC, to the pull station's pigtails. Connect the positive(+)IDC wire to a red pigtail,and the negative(-)IDC wire to a black pigtail. Next,connect the positive(+) wire going to the next device or an ELR to the remaining red positive(+)pigtail. Connect the negative(-)wire going to the next device or an ELR to the remaining black negative(-)pigtail. 5) Maintain consistent polarity with all connections throughout the IDC. Operation _To activate a single-action pull station,simply pull-down the handle. To activate dual-action stations,push-in, BG-12S/BG-12 then pull-down the handle. The word`ACTIVATED'appears after the handle is pulled down. The pull station remains in the activated position until reset. ])To reset the BG-12S and BC-12 hex lock pull stations,work the supplied 9/64-inch hex wrench into the lock until firmly seated and turn counterclockwise 1/4-turn. 'I To reset the BG-12L and BC-12LSP key lock stations, insert the key and turn counterclockwise 1/4-turn. 2)Open the door until the handle returns to the `NORMAL'position. 9lrvt-inch hex wrench 3)Close and lock the door. Closing the door automatically resets the switch to the `NORMAL'position. must be fully seated Note—Opening the pull station door will not activate or deactivate the alarm switch. to work properly WARNING Install the pull station in accordance with the supplied instructions, applicable NFPA standards,national and local Fire and Electrical codes and the requirements of the Authority Having Jurisdiction (AHJ). Conduct regular testing of the devices using the appropriate NFPA standards. Failure to follow these directions may result in failure of the device to report an alarm condition. Fire-Lite is not responsible for devices that have been improperly installed,tested or maintained. For ADA compliance, if the clear floor space only allows forward approach to an object,the maximum forward reach height allowed is 48-inches(I21.92cm). If the clear floor space allows parallel approach by a person in a wheelchair,the maximum side reach height allowed is 54-inches(137.16cm). Document 50964 Revision B ECN 98-461 08/04/99 OFF/C c- Cn p to April 7, 2003 TO: Dave Anderson Building Official City of Arlington Arlington, WA FR: Jim Tracy Code Consultant TRACY III ENTERPRIZES Woodinville, WA RE: Absolute Construction Mike Kin- Warehouse 1 SS02 67i1'Ave.NE Arlington, WA City Job No. 03-5412 PLAN REVIEW FIRE ALARM SYSTEM We have reviewed the plan and specifications submitted by Evergreen Security Inc. of Mukilteo, WA. The plan is approved subject to errors, omissions, field inspection and the following: 1. The standard fire alarm sound shall be the "temporal pattern". 2. The monitoring shall be done by a local monitoring company that has a UUFX listing. 3. Two phone lines shall be used for monitoring. 4. The specification sheet indicates that two remote annunciators are to be used however; the location is not shown on the plan. Please clarify. 5. The type, size of wire and number of conductors is not shown on the plan. Please clarify. 6. The plan shows a smoke detector in the sprinkler valve room. Provide a specification sheet for this device. 7. Prior to an acceptance test, the fire alarm wiring must be inspected and approved by a State of Washington Electrical Inspector. For acceptance test, contact Jim Tracy at 206-940-9622. CC Captain Tom Cooper Arlington Fire Department _ ��,�t z a O < W N z rY1 . v f �I ------------ 1 / I U) / I o 27 a cfCD / z O - / HVAC - o o / c I s El I m HVAC a I 0 a rrT 19 E �� R 7 T 1 ----- I I S. I I L__ 9 -- i I I 1 � I I I I I O D —m 1 ---------------- � I 0 m I w I I a r--------- -- i i i i i i i I I O G � S D O O O ____-___ ____ I I I 1 I I I �n i________ _____ I I I I N I I 0 I I 0 I I � D in C) n m o a n a p w rrf 6 w Q O z