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A AL400UL -ADA - Fire Alarm Indicating Circuit Power Supply / Charger Secondary Power Source Calculations Standby Load Required Standby Time in Hours Current (Amps) X (24 or 60 Hours) _ • [O66] (24] • Alarm Load Required Alarm Time in Hours Current (Amps) X (i.e. 5 min. = 0.084 hours) = • O89 l� oe] [ ] Add Standby and Alarm Load for Required Ampere Hours = /. 529 • Multiply by the Derating Factor of 1.2 = Total Ampere Hours (AH) Required = I. 84 A 7 i BAITS g - P24 1 5`" Z - s 5 • • T- 472362/I Appendix D FORM A 12 -93 r SYSTEM ALARM AND STANDBY LOAD A B AxB C AxC 0 (AXC)xD ALARM TOTAL STANDBY STANDBY STANDBY AMP DEVICE QTY CURRENT CURRENT CURRENT CURRENT TIME( HOURS (mA) (mA) (mA) (mA) (Hours) (mA) CU -1 CONTROL UNIT 1 85 85 85 85 Z 4 Z 04 0 CU -2 CARD CONMAl1NUCATOR I 95 ti's (2) 6,5 2 4- is c>0 CU -3 OPERATING PANEL 1 65 65 32 732_ 2_ 4 --) 6 , CU -4 RELAY 1 40 ( CU -5 RELAY 2 40 '(3) CU -6 RELAY 3 40 ( CU -7 BELL (5) 0.25 CU -8 WATCHDOG 20 MOOULEt) 20 CU-9 GATEWAY 0 ---- - --- --- (6) ) D S ________ • CU -10 GATEWAY 1 (6) • CU-11 GATEWAY 2 _-- _ ------- (6) (6) CU 12 GATEWAY 3 CU-13 GATEWAY 4 __________ ( >.b --_ CU-14 GATEWAY 5 ______ —__ (6) CU -15 GATEWAY 6 (6) CU-16 GATEWAY 7 --------- ( - CU -17 TOTAL Cu 7 ,1 ALARM L OAD 3 2 3 CU -18 ` 0 E4 _ - �3 O TOTAL (B A T E HOURS (BATTERY) •U t NOTES: 1. Standby time = length of time that device will draw standby current from battery. Standby time uired for BA = 4 hours for mercantile applications and 72 hours for bank safe and vault applications. Standby time required for FA =24 hours. Use hours for any BA device that will be load shed after 4 hones. 2. Cartrrrrracator card standby current dialer = 65mA, AC = 95mA. 3. Relay standby current BA = 40mA; F HUA or v 9 U S i AN �$ ( 2_4 H r �l supervisory = OmA 4. Watchdog module required if not using a communicator card. a G 2 —) 5. Total standby current for bell is same value as Total Current Alarm (AxB). 6. Enter value of current from Line PG-17 of Form B or Line SG -17 of Form C, as is applicable. l]C m i .z Figure 1 Form A, System Alarm and Standby Load C . 0 9 N (..:.)12_, z 4 I-1 C- S D6 { ) C Ae_ A`iceM .* , G / - - 1 A -11 ') A , t3 A -71- 1 T- 472362/I 12 -93 a Appendix 0 FORM C x SIM GATEWAY ALARM AND STANDBY LOAD 72 POINTS MAX. GATEWAY NO. A B AxB C AxC 0 (A x C) x 0 ALARM TOTAL STANDBY STANDBY STANDBY AMP DEVICE OTT CURRENT CURRENT CURRENT CURRENT TIME( HOURS (mA) (mA) (mA) ( (Hours) (mA) SG -1 SIM DOOR CONTACT 1 & 1 / 2_4 4 4 SG-2 SIM PBtMOTION `l 5 35 1 - 1 24 1 6 g SG -3 J MDT N L 8 2 4- 9 2 4 24 `I 6 , 1-1£AT 11F71" CTC. SG -4 SIM SMOKE DETECTOR 1 S ` 3 t I ' 2 A 24 SG -5 SIM HOLDUP BUTTON 1 1 4- SG -6 SIM FA PULL STATION `) 1 1 7 2 4- 72 SG -7 s4m 144 Z ` t a 7 4. 1 6 (to 7 SG-8 �1M 2 -4 - 72 TOTA SIM SE ALARNSORS M LOAD (TOTAL MUST NOT EXCEED 128mA) OF SG -9 HORN /STROBE . (5) (5) 0.1 SG -10 SOUNDER 472307 10 10 0.1 SG-11 POWERED SENSORS (3) i SG -12 RELAY iYi >iY SG -13 • SG -14 -- SG-1S TOTAL ALARM LOAD ON GATEWAY TRUNK : (I SG -16 SIM GATEWAY 1 50 50 50 50 (2) ':1 SG -17 TOTAL GATEWAY ALARM CURRENT (GATEWAY LOAD ON 485 BUS) I SG-18 TOTAL AMP HOURS (GATEWAY STANDBY LOAD) /' ---1 Notes: � 1. Standby time = length of time that device will draw standby current from battery. Standby time required for BA = 4 hours for mercantile applications and 72 hours for bank safe and vault applications. Standby required for FA = 24 hours. 2. Enter 24 hours if system includes FA; enter 72 hours if system is used for bank safe and vault appfoatons. 3. Enter 4 hours if point will be load shed after 4 hours or if system go= include FA. Enter 72 for bank applications. For all other applications, enter 24. 4. SIM connected to external contact, powered sensor, self - powered sensor, output SIM or Horn Strobe. 5. 190 mA for bell mode with strobe; 260 mA for horn mode with strobe. - ,` i!} Figure 3 . ;. :,;I Form C, SIM Gateway Alarm and Standby Load 08 ADT i • 71956790S6 10/19.98 MON 16:00 FAX 7185679056 - ALTRONIX CORP. I] 002 AL400UL -ADA - Fire Alarm Indicating .Circuit Altron ix Power Supply/Charger Overview: The Altronix AL400UL -ADA Fire Alarm Indicating Circuit Power Supply /Charger is specifically designed to interface between the FACP and indicating devices to supply the additional power needed for a Fire Alarm System to conform to ADA regulations. For both retrofit and new installations, the model AL400UL -ADA Fire Alarm Indicating Circuit Power Supply will save time and expense, while efficiently providing the power needed to drive additional horns, strobes and bells required under the ADA. This unit allows compatibility between 12VDC fire alarm control panels and 24VDC ADA strobes and other signaling devices. The AL400UL -ADA comes complete with enclosure, transformer and ample room for standby batteries: On -board supervisory relays are incorporated for remote status reporting and trouble indications at the fire panel. Specifications: • UL listed fire protective signaling (UL864) • NYC Department of Buildings Approved (MEA) 120- 93 -)✓ • California State Fire Marshal Approved (CSFM) " ' , • NFPA 72 compliant e w 4 .A+s�snaR • CSA approved (Canada) • 12 VDC or 24 VDC (field selectable) power limited output • Input 115 VAC 50 / 60 Hz. 1.45 AMP -r • 4 AMP continuous supply current @ 12 VDC or 24 VDC ,a i,• • Unit is compatible with Class B indicating circuits �� • Compatible with 12 or 24 VDC fire panels l "f • Filtered and electronically regulated output «' • Signaling device loop supervision • Built -in charger for sealed lead acid or gel type batteries • Automatic switchover to stand -by battery when AC Fails • Thermal and short circuit protection with auto reset • AC input and DC output LED indicators y MEA • AC fail supervision (form " C ' contact) I is • Battery presence and low battery supervision (form "C" contact) • Unit is complete with power supply, red enclosure, cam lock and open frame transformer • Battery leads supplied Enclosure dimensions: 15.5 "H x 12.5 "W x 4.5 "D Power Supply Output Specifications: Output Switch Position Load DC 12VDC SW i & SW2 ON SW3 & SW4 OFF SW5 & SW6 CLOSED 4.0 AMPS 24VDC SW1 & SW2 OFF SW3 & SW4 ON SW5 & SW6 OPEN 4.0 AMPS Stand -by Specifications: Stand-by 24 hr. of Stand -by & 60.hr, of Stand -by & Batteries 15 mins. of Alarm 5 mins. of Alarm 12V / 7 AH Battery Stand -by = 60 mA Stand -by = 60 mA Alarm = 4.0 AMPS Alarm = 4.0 AMPS 24V / 7 AH Battery Stand -by = 60 mA Stand - by = 60 mA (Two 12VDC / 7 AH Batteries wired in series) Alarm = 4 :O AMPS ' Alarm = 4.0 AMPS Note: Current draw from FACP is 5 mA in alarm condition. 7185679056 10/19/98 MON 16:00 FAX 7185679056 ALTRONIX CORP. x.-1003 • Operation: The AL400UL -ADA Fire Alarm Indicating Circuit tzo vac, Power Supply /Charger, is intended for use with fire 50180 Wz Inpul, 1A5A alarm control panels (FACP) to provide the increased Black wnite power necessary to operate the additional indicating p - -- - Lead Lead devices due to the new ADA requirements. In a non - '� 0 0 1� r alarm condition, the FACP indicating circuit signal Q 1 • ;<> passes through the AL400UL -ADA, thus maintaining II E Green circuit supervision. - 0 D. U D i' , lead In an alarm condition, the FACP indicating output I (�1 " ®• voltage reverses polarity triggering the O I 6)- AL400UL -ADA. This causes the AL400UL -ADA to °' XF M • supply power to the indicating devices connected to its its output. Multiple AL400UL -ADA units may be interconnected - along this circuit to accommodate more indicating devices (see Fig. 2). Installation Instructions: The AL400UL -ADA should be installed in accor- Neg PO5 ( -) lam) dance with article 760 of The National Electrical Code OR NFPA 72 as well as all applicable Local Codes. Battery See Terminal Identification Chart on page 4 for a description of each terminal function. 1. Mount AL400UL -ADA in desired location - 2. Connect the black and white transformer leads of F l AL400UL -ADA to a separate unswitched A.C. circuit (115 VAC, 50 /60Hz) dedicated to the Fire Alarm System (see Fig. 1). • 3. Set the AL400UL -ADA to the desired DC output voltage by setting the switches to the appropriate positions (see power supply output specification table) Note: It is .good operating practice to measure and verify output voltage before connecting devices to ensure proper operation of equipment (voltage should be measured in alarm condition). 4. Connect the indicating circuit output from the FACP (12 or 24VDC) to the terminals marked [- IN +] (see Fig. 2) observing the correct polarity. Note: Polarity indicated at the (+ IN -) terminals are in alarm condition. 5. Connect the indicating devices to be powered by the AL400UL -ADA to the terminals marked [+ OUT -] (see Fig. 2) and install the FACP's EOL resistor after the last indicating device on the circuit. The total current draw of the indicating devices should not exceed 4 AMPS per power supply. 6. To report A.C. and Battery trouble conditions, connect the AL400UL -ADA (see Fig. 3) to the FACP using the appropriate trouble relay contacts (C, NO or NC). During normal operation both relays are energized. 7. Connect the stand -by batteries to the terminals marked [+ BAT -] (see Fig. 3) carefully observing proper polarity. For 24VDC operation connect two 12VDC batteries in series. Notes: A. The AL400UL -ADA can be triggered by a 12VDC or 24VDC FACP and provide 12VDC or 24VDC output (as set by appropriate switches). B. The AL400UL -ADA is compatible with style Y (class B) indicating circuits only. I ' Maintenance: Unit should be tested at least once a year for the proper operation as follows: Output Voltage Test: Under normal load conditions, the DC output voltage should be checked for proper volt- age level (see power supply output specifications chart). _ Y Battery Test: Under normal load conditions check that the battery is fully charged, check specified voltage both Altronix is not responsible for any typographical enors. Product specifications are subject to change without notice. • • . 7185679056 10;19•:98 MON 16:01 FAX 7185679056 ALTRONIX CORP. . 004. at battery terminal and at the board terminals marked - BAT + to insure there is no break in the battery connec- _ tion wires. - Note: Maximum charging current under discharges is 0.40 AMPS. Note: Expected battery life is 5 years, however it is recommended.changing batteries in 4 years or less if needed - LED Diagnostics: RED (DC) GREEN (AC) POWER SUPPLY STATUS ON ON Normal function ON OFF Battery backup is powering output OFF ON No DC output OFF OFF System off. No battery. AL400UL -ADA: Typical Application Diagram: Fig. 2 + — + + + AL400U1 ADA 0 Fire o A L40001-ADA o z P ower o Alorm c owe AS 1 z Pr c 0 AS i c 1 Control SuPPIY -1 Supply -i Pond Indicating Circuit (EOL Value is (FRCP) Output * dependent on 120 VAC 1 20 VAC fACP) 50 / 60 Hz Input, SO / 60 Hz Input, 1.45 AMP 1.45 AMP Tb FACP To To Trouble Indicating Indicating Zone(s) on Output Devices FACP Fig. 3 AA.LA 1 fll --°--- ..a." 0000 \Vl (000e00 o t U . 13 11111 0 0 II I el .. • soak= . .7I =� T :: r3:: • :: . Battery 0 I I I 1 0 0 I I / 1 ® - _ .. - 0 'IF 0! � • ...A uaau. AL400ULADA 7185679056 .10; 19 .98 flu\ 16:01 FAX 7185679056 ALTRONIX CORP. ..al005 Terminal Identification: Terminal Function/Description Identification 4 . IN - These terminals connect to the 12 or 24VDC FACP indicating circuit output. In a non -alarm condition the FACP supervisory signal is passed through to the + OUT - terminals. + OUT - This is a 12 or 24VDC indicating circuit output. When triggered by the FACP (caused by polarity reversal) it will provide 12 or 24VDC output to the signaling devices with the polarity as indicated. An EOL device supplied by the FACP manufacturer should be installed after last signaling device on this output loop. AC FAIL Form "C" dry contacts used to signal the loss of AC. with AC present terminals NO, C, NC NO and C are open, NC and C are closed. When loss of AC occurs terminals NO and C close, NC and C are open. Low Battery Form "C" dry contacts used to signal low battery voltage or loss of battery voltage. NO, C. NC Under normal conditions, terminals NO and C are open, NC and C are closed. In trouble condition NO and C are closed, and NC and C are open. - BAT + Stand - battery input (leads provided). Use two 12VDC batteries wired in series. for 24VDC operation. Enclosure specifications: , j t 4.5- , .15/ AL40OUL ADA 1 us I Enclosure dimensions: 15.5"11 x 12.5 "W x 4.5 "D .20 Note: Knockouts should be 0-1 punched from inside enclosure. 9 . I - . 0 • t i 1.21 ell ! - MEMBER Altronix Corp. 140 58th Street. Brooklyn, New York 11220 USA, 718 - 567 -8181, fax: 7) 8- 567 -9056 I website: www.altronix.com, e-mail: info @altronix.COm, Lifetime Warranty. Made in U.S.A. a , 2198 1 I1 / TO REPORT LOW - BATTERY. NO BA! 1:1rRY.OR BLOWN BATTERY FUSE, CONNECT CORRESPONDING WIRING TO . . TERMINALS MARKED "LOW BAT". NOTE: DURING NORMAL OPERATION BOTH TROUBLE REPORTING RELAYS ARE ENERGIZED. . MAINTENANCE: • TESTING: UNIT SHOULD BE TESTED AT LEAST ONCE A YEAR FOR THE PROPER OPERATION AS FOLLOWS: OUTPUT VOLTAGE TEST: UNDER NORMAL LOAD CONDITIONS. THE DC OUTPUT VOLTAGE SHOULD BE CHECKED FOR PROPER VOLTAGE LEVELS (SEE SPECIFICATION TABLE), AND ADJUSTED IF NEEDED WITH ON BOARD TRIMPOT FOR A FEW TENTHS OF A VOLT VARIATION. . BATTERY TEST: UNDER NORMAL LOAD CONDITIONS CHECK THAT THE BATTERY IS FULLY CHARGED. CHECK THE VOLTAGE AT THE BATTERY TERMINAL AND AT THE BOARD TERMINAL MARKED "BAT" TO INSURE THERE IS NO BREAK IN THE BATTERY CONNECTION WIRES. NOTE: MAXIMUM CHARGING CURRENT UNDER DISCHARGE IS 1.40 AMPS. NOTE: BATTERY LIFE IS FIVE YEARS. HOWEVER IT IS RECOMMENDED CHANGING BATTERIES IN FOUR YEARS OR LESS IF NEEDED. POWERSONIC 12V /7.OAH OR 24V /7.OAH (TWO 12V /7.OAH BATTERIES IN SERIES)AS PER • APPLICATION ARE RECOMMENDED. NOTE: WITH NO AC PRESENT AND BATTERY WIRES CONNECTED. THE DC OUTPUT WILL READ APPROXIMATELY I VOLT LOWER THAN THE ACTUAL BATTERY VOLTAGE. FUSE: FACTORY AUTHORIZED BATTERY FUSE M3 I W05 250VAC /6 AMPS. IF THIS IS BLOWN BATTERY VOLTAGE WILL NOT APPEAR ON DC OUTPUT TERMINALS (SEE LED DIAGNOSTIC TABLE). RETURN UNIT FOR REPLACEMENT OF FUSE. LED DIAGNOSTIC TABLE RED (DC1 GREEN (AC1 DESCRIPTION ON ON NORMAL FUNCTION ON OFF BATTERY BACKUP IS POWERING OUTPUT OFF ON NO BATTERY, BLOWN FUSE. DEFECTIVE SUPPLY OFF OFF SYSTEM OFF NOTE: POLARIZED INDICATING DEVICES • SHOULD NOT EXCEED OUTPUT SPECIFICATIONS ' OF SELECTED POWER MODULE AL4000L -ADA FACP ) e A _ _ _ _ EIW () < Q I ND. IN w IND. I ND. IN J IND. O FIRE • INDICATING 1 CC J ALARM CIRCUIT _ p ° o O CONTROL OUTPUT v D. 0 PANEL v a 2 Q TO TO AC AC Q FILTER INK • 11111 ADVANCED ELECTRONIC TECHNOLOGY . • Rev. 2/95 ® ALTRONIX CORPORATION 140 58th Street, Brooklyn, NY 11220 • (718) 567 -8181 AL400UL -ADA POWER MODULE INSTALLATION AND OPERATING INSTRUCTION • OPERATION: THE AL400UL -ADA POWER LIMITED POWER SUPPLY, IS INTENDED FOR USE WITH FIRE ALARM CONTROL PANELS (FACP) TO PROVIDE THE INCREASED POWER NECESSARY TO OPERATE THE ADDITIONAL INDICATING DEVICES DUE TO THE NEW ADA REQUIREMENTS. IN A NON -ALARM CONDITION THE FACP INDICATING CIRCUIT PASSES THROUGH THE AL400UL -ADA, THUS MAINTAINING CIRCUIT SUPERVISION. WHEN AN ALARM CONDITION IS INITIATED, THE FACP INDICATING OUTPUT VOLTAGE REVERSES POLARITY AND TRIGGERS THE AL400UL -ADA. THIS CAUSES THE AL400UL -ADA TO POWER ALL INDICATING DEVICES THAT ARE INSTALLED ALONG IT'S INDICATING CIRCUIT. MULTIPLE AL400UL -ADA UNITS MAYBE INTERCONNECTED ALONG THIS CIRCUIT TO ACCOMMODATE MORE INDICATING DEVICES PROVIDED MAXIMUM LOAD REQUIREMENTS ARE NOT EXCEEDED (SEE HOOK -UP DIAGRAM AND WIRING PROCEDURE). SPECIFICATION: MEETS UL 864, NFPA 71,72 $WITCH POSITION OUTPUT VDC LOAD IDC 24V 24.0 VDC 4.0 AMPS SW5 & SW6 OPEN 12V 12.0 VDC 4.0 AMPS SW5 & SW6 CLOSED STANDBY: 60 HOUR STAND -BY IN NON - ALARMED CONDITION • PLUS 5 MINUTES OF ALARM AT 4.0 AMPS MAXIMUM NON -ALARM CONDITION STANDBY CURRENT: 60.0 ma DC. TRIGGER CURRENT 0.0 AMPS. ALARM CONDITION TRIGGER CURRENT: 5 ma INSTALLATION PROCEDURE: THE AL400UL -ADA SHOULD BE INSTALLED IN ACCORDANCE WITH THE NATIONAL ELECTRICAL CODE, NFPA 71 OR NFPA 72 AND IN ACCORDANCE WITH ANY LOCAL REGULATIONS. WIRING PROCEDURE: (SEE HOOK -UP DIAGRAM) • CONNECT FACP INDICATING CIRCUIT OUTPUT TO AL400UL -ADA TERMINALS MARKED "IND.IN" (TAKE CARE TO OBSERVE POLARITY) • CONNECT INDICATING DEVICES TO TERMINALS MARKED "IND.OUT ". • NOTE: INDICATING DEVICES MAY NOT EXCEED POWER OUTPUT SPECIFICATIONS AS STATED IN SPECIFICATION TABLES. (SEE SPECIFICATION TABLES). • MULTIPLE UNITS MAY BE INSTALLED ALONG INDICATING DEVICE CIRCUIT AS ILLUSTRATED IN DIAGRAM TO EXTEND POWER OUTPUT CAPABILITY. • NOTE: AL400UL -ADA CAN ACCEPT 12VDC OR 24VDC FROM FACP AND MAY SUPPLY 12VDC OR 24VDC TO LOAD, AS PER LOAD NEED, REGARDLESS OF FACP OUTPUT. SEE WIRING DIAGRAM FOR PROPER HOOKUP. PRODUCT OPERATES ONLY WITH STYLE "Y" (CLASS B) INDICATING CIRCUITS. • WIRES: USE 18 AWG FOR ALL POWER CONNECTIONS-(BATTERY, IND. OUT. IND:IN,DC ). USE 22 AWG TO 18 AWG FOR SIGNALING TERMINALS (AC & LOW.BAT SUPERVISION). • . NOTE: TAKE CARE TO KEEP POWER LIMITED WIRING (IND.OUT, IND.IN, DC, BAT AND AC SUPERVISION) SEPARATED FROM POWER NON LIMITED WIRING (I 15VAC/60HZ,BATTERY. WIRES). AL400UL -ADA POWER SUPERVISION: TO REPORT LOSS OF AC, CONNECT CORRESPONDING WIRING TO TERMINALS MARKED "AC FAIL ". • .•!- STALLATION AND MAINTENANCE INSTRUCTION'S ectrAlert Horns, and SYSTEM S p ,Strobes, an Horn /Strobes SENSOR' For use with the following models: A Division of Pittway Horns: 12/24 volt: H12/24, HC12/24 3825 Ohio Avenue, St. Charles, Illinois 60174 Strobes: 12 volt: 51215. S121575 1- 800- SENSOR2, FAX: 630 - 377 -6495 24 volt: S2415, S241575, S2475, S24110 Combo: 12 volt: P1215, P121575 24 volt: P2415, P24 P2475, P24110 For ULC models add suffx A. available in 24 -volt models only. Add suffix "W" for white models. Add suffix "K" for weathe SPECTIAle proof /outdoor models. 241575. 2475. 24110. 1112/24. HCl2 /24 units only. Add suffix "F" for FUEGO models, 241575 units only. Specifications Voltage Range: DC or Full -Wave Rectified (The HC12/24 is the only SpectrAlert product that will operate on a coded power supply.) Horn: 10.5 to 30 Volts; H12/24A and H12 /24WA (ULC) 20 to 30 volts Strobes & Horn /Strobes: 12 -volt models - 10.5 to 17 volts; 24 -wit models - 20 to 30 volts (with MDL module): 12 -volt models - 11 to 17 volts; 24 -volt models - 21 to 30 volts CAUTION: Horn and combo units will only operate on walk tests with on -time durations of 4 sec. or greater. Flash Rate: I Flash Per Second Operating Temperature: 32' F to 120' F (0' C to 49' C) K Series: Weatherproof, 32' F to 150' F (0' C to 66' C), horn and horn /strobe combination units, Rainproof per 111.50 (NEMA 3R) Outdoor, -40' F to 158' F ( -40' C to 70' C), strobe only units, UL 1638 indoor /outdoor listed, UL1971 indoor listed S24110 rated 60 candela Q -40' C, S2475 and 5241575 rated 41 candela Q -40' C Light Output: Models with 15 only in the model number are listed at IS candela Models with 1575 are listed at 15 candela per UL 1971 but will provide 75 candela on axis (straight ahead) Models with 75 are listed at 75 candela Models with 110 are listed at 110 candela Sound Output: Sound output levels are established at Underwriters Laboratories in their reverberant room. Always use the sound out- put specified as UL Reverberant Room when comparing products. Listings: UL S4011 (Horns and Horn /Strobes), UL S5512 (Strobes), ULC CS548 (Horns), ULC CS549 (Strobes and Horn /Strobes), Factory Mutual, CSFM, MEA. HC12/24 and K Series models are UL listed only, as of 10/31/97. Call for latest listing. General Description Power Supply Considerations The SpectrAlert series notification appliances are designed to meet the Panels typically supply DC filtered voltage or FWR (full -wave rectified) requirements of most agencies governing these devices, including: voltage. The system design engineer must calculate the number of units NFPA, The National Fire Alarm Code, UL, ULC, FM, CSFM, MEA. Also, used in a zone based on the type of panel supply. Be certain the sum of check with your local Authority Having Jurisdiction for other codes or all the device currents do not exceed the current capability of the panel. standards that may apply. Calculations are based on using the device current found in the subse- quent charts and must be the current specified for the type of panel The SpectrAlert series can be installed in systems using 12- or 24 -volt power supply used. panels having DC or full -wave rectified (FWR) power supplies. The series can also be installed in systems requiring synchronization Wire Sizes (module MDL required) or systems that do not require synchronization The designer must be sure that the last device on the circuit has sufficient (no module required). voltage to operate the device within its rated voltage. When calculating the voltage available to the last device, it is necessary to consider the volt - NOTICE: This manual should be left with the owner /user of this equip- age drop due to the resistance of the wire. The thicker the wire. the less torn(. 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" Fire Alarm System Considerations on the end of the supply circuit (simulates "worst case "). Temporal and Non - Temporal Coded Signals: The Ainetican National Standards Institute and the National Fire Alarm Typical wire size resistance: I'sic Iequue that all horns used fur building evacuation installed after July 18 AWG solid: Approximately 8 ohms /1,000 ft. I. 1996, must produce Temporal Coded Signals. 16 AWG solid: Approximately 5 ohms /1.000 ft. 14 AWG solid: Approximately 3 ohms /I,000 ft. signals other than those used for evacuations purposes do not have to pro- 12 AWG solid: Approximately 2 oluns /1.000 ft. Jrue the Temporal Coded Signal. l'eniporal coding is accomplished by inter - rulanig a steady sound in the following manner: Example: Assume. yotj-.h ,e..10 devices on a zone and each requires 50 ntA average and 2000 H. of 14 AWG wiling (total length ° outgoing + re- 1/2 Sec 1/2 Sec 1/2 Sec 1/2 Sec. 1/2 Sac 1 Sec. Repeats turn). The voltage at the end of the loop is 0.050 amps per device x 10 On Ott On Ott On Oft devices x 3 ohms /1,000 ft. x 200(1 It = 3 volts drop. D900 -13 -00 I 156- 982 -07 ,w •• Strobe Only: AVERAGE CURRENT (mA) PEAK CURRENT (mA) IN RUSH CURRENT (mA) 12Y Msisle_st :(4Y Mode a 12V Modell 12V Mode a 10.5V 12V 17V 20V 24V 30V 10.5V 12V 17V 20V 24V 30V 10. 12V 17V 20V 24V 30V Candela DC FWR DC FwR DC FWR DC FWR DC FWn DC FWR DC MR DC FWR DC FAR DC FWR DC FAN DC FWR DC MR DC FWR DC FWR DC FAR DC FWR DC FWR 15 133 159 114 157 81 128 59 120 53 80 46 79 460 460 450 460 420 480 150 270 150 270 140 250 80 108 92 124 140 190 170 230 220 280 270 370 15/75 *68 182 142 171 99 150 76 92 66 93 58 132 490 520 490 520 460 480 170 270 170 270 160 270 76 104 88 126 160 185 170 230 210 270 270 360 75 NA NA NA NA NA NA 145 170 123 159 102 141 NA NA NA NA NA NA 350 440 340 460 330 480 NA NA NA NA NA NA 190 240 230 280 290 380 110 NA NA NA NA NA NA 169 220 140 191 115 174 NA NA NA NA NA NA 460 560 450 570 420 620 NA NA NA NA NA NA 190 230 220 290 290 370 Horn Only: AVERAGE CURRENT (mA) 12V Moda.a 4V Mode I High/Low Temp 10.5V 12V 17V 20V 24V 30V Tone Volume /Non DC FAR DC FAR DC FWR DC FWR DC FWR DC FWR Electro- High Tent 10 11 10 10 14 14 19 21 25 18 29 26 mech. Non 10 18 10 19 14 25 17 29 23 34 30 42 Low Temp NA NA NA NA NA NA 11 12 13 13 17 15 Non NA NA NA NA NA NA 12 16 14 19 17 24 3000 Hz High Temp 11 13 11 11 16 16 24 26 28 23 37 33 Interrupt. Non 11 17 11 21 14 28 19 34 27 39 35 45 Low Temp NA NA NA N. NA NA 14 14 17 15 21 19 Non NA NA NA NA NA NA 13 18 16 21 22 25 Horn /Strobe 15 cd: E-- Horn /Strobe 75 cd: • AVERAGE CURRENT (mA) E 12V Mode a t,4Y Mode a I �2V ModeAVla RAGE CURRENT (mA) I �4V Mode {a High/Low Temp 10.5V 12V 17V 20V 24V 30V High/Low Temp 10.3V 12V I 17V 20V 21V I 30V /Non R FW Tone Volume on DC FWR DC FWR DC FA DC R DC FWR DC FWR Tone Volume /Non R A on DC FWR DC FWR DC FW DC FR DC FWR h DC Fw Electro- High Temp 143 170 124 187 95 142 78 101 78 98 75 141 Electro- High Temp NA NA NA NA NA NA 164 191 148 167 131 167 mech. Non 143 170 124 167 95 142 69 98 76 100 _ 78 138 mech. Non NA NA NA NA NA NA 163 188 146 169 132 169 Low Temp NA NA NA NA NA NA 70 92 66 93 63 132 Low Temp NA NA NA NA NA NA 158 182 136 182 119 156 Non NA NA NA NA NA NA 71 92 87 93 63 132 Non NA NA NA NA NA NA 157 182 137 )62 119 157 3000 Hz High Temp 144 172 125 188 97 144 83 106 81 103 83,146 3000 Hz High Temp NA NA NA NA NA NA 169 196 151 172 139 174 Interrupt. Non 144 173 125 168 95 146 78 102 80 108 81 142 Interrupt. Non NA NA NA NA NA NA 164 192 150 175 137 177 Low Temp NA NA NA NA NA NA 73 94 70 95 67 134 Low Temp NA NA NA NA NA NA 159 184 140 164 123 160 Non NA _ NA NA NA NA NA_ 72_ 92 69. 94 68 132 Non NA NA NA NA NA NA 158 1881 139 1631 124 162 Horn /Strobe 1575 cd: `— Horn /Strobe 110 cd: AVERAGE CURRENT (mA) AVERAGE CURRENT (mA) 12V Mode a 24V Mode a 12Y Mode a 4V Modei High/Low Temp 10.5V 12V 17V 20V 24V 30V High/Low Temp 10.5V 12V 17V 20V 24V 30V Tone Volume /Non DC FWR DC FWR DC FWR DC FAR DC FwA DC FWR Tone Volume /Non DC FWR DC FWR DC FWR DC FWR DC FWR DC FWR Electro- High Temp 178 193 152 181 113 164 95,113 91 111 87 153 Electro- High Temp NA NA NA NA NA NA 188 241 185 209 144 200 mech. Non 178 193 152 181 113 164 93 110 89 113 88 150 meth. Non NA NA NA NA NA NA 188 238 183 211 145 202 Low Temp NA NA NA NA NA NA 87 104 79 106 75 144 Low Temp NA NA NA NA NA NA 180 232 153 204 132 189 Non NA NA NA NA NA NA 88 104 80 108 75 144 Non NA NA NA NA NA NA 181 232 154 204 132 190 3000 Hz High Temp 179 195 152 183 115 166 100 118 94 118 95 158 3000 Hz High Temp NA NA NA NA NA NA 193 246 168 214 152 207 Interrupt. Non 179 198 152 183 113 168 95 114 93 119 93 154 Interrupt. Non NA NA NA NA NA NA 188 242 187 217 150 210 Low Temp NA NA NA NA NA NA 90 108 83 108 79 146 Low Temp NA NA NA NA NA NA 183 234 157 206 136 193 Non NA _ NA NA NA _ NA _ NA _ 89 104 82 107 80 144 Non NA NA _ NA , NA _ NA _ NA_ 182. 232. 158_ 205 137 195 Sound Output Guide UL Reverberant Room dBAO volts DC Anecholc dBA 010 ft. /volts DC 10.1 12 12 24 24 14 12. 12 12 2.4 24 ,12 Temporal Low Volume Electromechanical NA NA NA 75 75 79 NA NA NA 94 96 98 3000 Hz Interrupted NA NA NA 75 79 79 NA NA NA 94 96 98 . High Volume Electromechanical 75 75 79 82 82 82 94 95 98 100 101 102 3000 Hz Interrupted 75 75 79 . 82 85 85 94 95 98 100 101 102 Non - Low Volume Electromechanical NA NA. NA 79 82 85 NA NA NA 94 96 98 Temporal 3000 Hz Interrupted NA NA N/ 82 82 85 NA NA NA 94 96 98 High Volume Electromechanical 79 79 85 85 88 88 94 95 98 100 101 102 3000 Hz Interrupted 79 82 85 88 88 90 93 95 98 100 101 102 The same number of devices using 12 AWG wire will produce only Temp /Non -Temp: 2 volts drop. The same devices using 18 AWG wire will produce 8 Temporal coding or Non - Temporal coding can be selected us- volts drop.Consult your panel manufacturer's specifications, as ing the jumper plugs located on the printed circuit board. well as SpectrAlert's operating voltage range to determine accept- With the jumper offset, the tone pattern is the Temporal Coded able voltage drop. Signal. With the jumper in place, the Non - Temporal code (continuous) tone is active. Horn Selections Horns are factory set for high volume, temporal code, and electrome- High /Low Volume: chanical tone. High or low volume may be selected using the jumper plugs 'Ibnes: located on the printed circuit board. With the jumper in place, Two tones may be selected using the jumper plugs located on the sound output level is the high level. With the jumper off - the printed circuit board. With the jumper offset, the tone is the set,'t sound output level is the low level. The low volume Electromechanical sound. With the jumper in place, the tone is setting must NOT be used when the device is powered from a a 3 kHz sound. 12 -volt panel. NOTE: Always power down devices before setting jumpers. D900.13.00 2 156- 982 -07 System Operation: Non-Synchronized Devices Figure 1. Any combination of models powered by a 2-wire circuit: Figure 2. Any combination of models powered by a 4 -wire circuit to provide independent horn and strobe operation (Remove factory installed jumpers, see Figure 4): ( +1 HORN HORN/STROBE STROBE ONLY (+) ( +) ( +) ( +) (+) ( +) E H E O 1111 O / / O O R R L L N H H H 'c •o .M IB to ( +I S ( +1 ' S ( +) T ' T - E R R O O O L ( -) E ▪ / E H \ Figure 3: Horns and e!roboa powered in tandem: Figure 4: Horns and strobes powered Indepandentiy (Horn operated on coded power supply): __ - -. _._ ® HORNS FACTORY INSTALLED ISSII (- JUMPER WIRES REMOVED NMI TO NEXT ( -) M TO NEXT NOTE STROBES MUST (G ` ® BE POWERED CONTINUOUSLY DEVICE OR , HORN OR { (-) 111 ® FOR HORN OPERATION. EOL ( G ( , ) (4) /�� Ea H ® iii FROM: TO NEXT ( % a STROBES FROM: FACP, MODULE STROBE OR S < 1 . ( - FACP MODULE (+) DEVICE PREVIOUS EOL l < s , (q DEVICE VIDUa FACTORY INSTALLED ( -) 1 N JUMPERS 11 F 4 1 Omsk Mot n a of c�ellnselbn. 1 f D O NOT'AI: rlppod metro •r loodo to oM and ovNah o hawlnp. DO NOT bop ,.Ina. I ®WARNING I The Limitations of Horn /Strobes The horn and /or strobe will not work without power. The hom /strobe uses an extremely reliable xenon flash tube. It flashes at least once every gets its power from the fire /security panel monitoring the alarm system. If second. The strobe must not be installed in direct sunlight or areas of high power is cut off for any reason, the horn /strobe will not provide the de- light intensity (over 60 foot candles) where the visual flash might be disre- sired audio or visual warning. garded or not seen. The strobe may not be seen by the visually impaired. The horn may not be heard. The loudness of the horn meets (or exceeds) The signal strobe may cause seizures. Individuals who have positive current Underwriters Laboratories' standards. However, the horn may not photic response to visual stimuli with seizures, such as persons with epi- alert a sound sleeper or one who has recently used drugs or has been lepsy, should avoid prolonged exposure to environments in which strobe drinking alcoholic beverages. The horn may not be heard if it is placed on signals, including this strobe, are activated. a different floor from the person in hazard or if placed too far away to be heard over the ambient noise such as traffic, air conditioners, machinery The signal strobe cannot operate from coded power supplies. Coded or music appliances that may prevent alert persons from hearing the power supplies produce interrupted power. The strobe must have an unin- alarm. The horn may not be heard by persons who are hearing impaired. terrupted source of power in order to operate correctly. System Sensor rec- ommends that the horn and signal strobe always be used in combination The signal strobe may not be seen. The electronic visual warning signal so that the risks from any of the above limitations are minimized. Three -Year limited Warranty System Sensor warrants its enclosed horn. strobe, or horn /strobe to be to: System Sensor, Repair Department, RA a , 3825 Ohio Av- free from defects in materials and workmanship under normal use and enue, St. Charles, IL 60174. Please include a note describing the malfunc- service for a period of three years from date of manufacture. System Sen- tion and suspected cause of failure. The Company shall not be obligated to sor makes no other express warranty for this horn, strobe, or horn /strobe. repair or replace units which are found to be defective because of damage, No agent, representative, dealer, or employee of the Company has the au- unreasonable use, modifications, or alterations occurring after the date of thority to increase or alter the obligations or limitations of this Warranty. manufacture. In no case.shall the Company be liable for any consequential The Company's obligation of this Warranty shall be limited to the repair or or incidental damages for beach'of this or any other Warranty, expressed replacement of any part of the horn, strobe, or horn /strobe which is found or implied whatsoever, even if the loss or damage is caused by the to be defective in materials or workmanship under normal use and service Company's negligence or fault. Some states do not allow the exclusion or during the three year period commencing with the date of manufacture. limitation of incidental or consequential damages, so the above limitation After phoning System Sensor's toll free number 800- SENSOR2 (736 -7672) or exclusion may not apply to you. This Warranty gives you specific legal for a Return Authorization number, send defective units postage prepaid rights, and you may also have other rights which vary from state to state. D900 -13 -00 3 156- 982 -07 Mounting Diagrams: Screw types used for mounting: A — #8 x 1 -1/4 plastite B — 6 -32 x 1 -3/8 oval head C — 6 -32 x 1 -5/16 pan head D - #6 plastite Strobe or Horn /Strobe with small footprint mounting plate: E — 8 -32 x 3/4 flat head S -MP 2-INCH BACK BOX P . ' r Horn surface mount: BBS 4 INCH BACK BOX = =� E = ` O O 10, LOCKING RIB 0 SLOT 0 t'� ICCKIN RIB A I. Screw plate to back box with screws C. _ ' 1 10 = j 3. Complete f eld wiring tabs m unit. � 4. Insert locking rib on unit into slot on plate. y W , 5. Push into plate. . 1. Mount skirt to back box with screws E. ��� 6. Secure unit to plate with screw D. 2. Complete field wiring. 3. Mount unit to skirt with screws A. Strobe or Horn /Strobe with universal mounting plate: NOTE: Horn and skirt may also mount to a 2 - inch box using E o 0 screws B instead of screws A. _ • 0 - direct mount: 0 � \ Ti ... __; I_\ e m e e _� 0.0 41110 1. Mount =_= 2. Complete plate field to wirinback g. box with screws E. ��� 3. Insert locking rib into slot on plate. `fie 4. Push into plate. 5. Secure unit to plate with screw D. 1. Break off four tabs from unit. 2. Complete field wiring. 3. Mount unit to back box with screws B. Strobe or Horn /Strobe surface mount: D E Horn with universal mounting plate: 4" back box D•MP 4 , 4 ,-1.:--lit - \ ail I . . ( jr-,_„--11 0 0 0 11111 • HMI' = % - . A r.--.—_ i ) )) 1. Mount skin to hack bo - w.tth sckeykv, L. `` — S 2. Complete field wiring. 1. Slip wires through plate. 3. Insert locking rib into slot on plate. 2. Complete field wiring. 4. Push into recessed area. 3. Mount unit to back box with screws B. 5. Secure unit to skirt with screw D. 0900 -13 -00 4 156 - 98207 c System Sensor 1997 • W ARNINGS, continued (. UNIT °E GENERAL SIGNAL G S 1 # P- 8475"50 -0I { 2. This device does not contain a built -in signal Alarm signals can only be E DW A R D S Issu generated by interconnection with separately installed signaling devices. SPECIFICATIONS AND PRECAUTIONARY INFORMATION 3. DANGER - This device will not operate without electrical power and FOR THE 280B furs often cause cutoffs of electrical power. This device does not contain a SERIES battery backup power supply. If the electrical circuit feeding the device is HEAT DETECTORS cut, or is not providing power for any reason, this device will not detect heat or provide any warning of a possible fire, nor will it provide any warning that it is not functioning. irm 4. DANGER - The rate -of -rise feature on the Heat Detector is subject to failure over time. The rate -of -rise feature should be tested by a qualified fire protection specialist annually to ensure that it is in working order. A plastic shield, part number P- 847567 -0017, is available to protect the fixed temper- ature element of the 281B and 282B series heat detectors during rate -of -rise (NOT A LIFE SAFETY DEVICE - USE FOR PROPERTY PROTECTION ONL' testing. The testing procedure for the rate -of -rise feature is specified in the _ • "Maintenance and Testing" section of instruction sheet P- 847550 -0820 sup- plied with this device. If a fire protection specialist is not available to con- duct this testing procedure, you should contact your Edwards representative READ THE INSTRUCTIONS SUPPLIED (P - 847550 - 0820) to arrange to have these important tests performed. BEFORE INSTALLING THIS DEVICE © Copyright 1988 Edwards Company, Inc., 195 Farmington Avenue, Farmington, CT 06032 SPECIFICATIONS TABLE WARNINGS Catalog Number (see note A) 281B 282B 283B 284B 1. This device does not protect life against fire and smoke. In most fires. hazardous levels of smoke, heat and toxic gases can build up before a heat Ill Temperature Rating 135 °F 194 °F 135 °F 194 °F at Feature(s) Fixed Temperature Fixed Temperature detector would operate. Independent studies indicate that heat detectors should only be used when property protection alone is involved. In cases and Rate -of -Rise Only UL Maximum Ambient where life safety is a factor, the use of smoke detectors is recommended. Temperature at Ceiling 100°F 150°F 100°F 150°F C•L Recommended Coverage The intended use of this Heat Detector is to provide one source of infonma- tion that is supplemental to smoke detection to increase the probability that 1 see note B) 2500 Square Feet an early warning will be provided so that property can be safeguarded. Heat IL Recommended Spacing 50 Feet detectors do not always detect fires because the fire,may be a slow smolder- . •1 1 Maximum Distance from ing low heat type (producing smoke) or because they may not be near where Wall - (see note C) 25 Feet the fire occurs, or because the heat of the fire may bypass them. This detec- :i • All detectors have one normally open contact rated as follows: 3.OA at 6 to tor will not detect oxygen levels, smoke, toxic gases, or flames. According - 125Vac, 1.0A at 6 to 24Vdc, 0.3A at 125Vdc, and 0.1A at 250Vdc. ly, this device should only be used as a part of a broadly based program of ' fire safety which would include a variety of sources of information on heat NOTE A - A catalog number ending with -PL indicates detector is supplied with re- and smoke levels, visual sighting of the fire, extinguishment systems, and versible plastic mounting plate. other safety measures. NOTE 13 - Maximum detector coverage has been determined by UL to provide detec- tion time equal to sprinkler devices spaced at 10 -ft intervals (100 square foot area) on If they are spaced in accordance with the directions in the "Specifications a smooth ceiling 15 ft 9 in high. Higher ceilings can adversely affect detection time. Table" they can contribute, within an overall fire safety program, to reduc- In some instances, earlier detection may be obtained by reducing the spacing between ing the risk of avoidable property losses. Under no circumstances should detectors. See the latest edition of the NFPA 72E, Automatic Fire Detectors. these devices be relied on as the sole measure to ensure fire safety. Danger NOTE C - Maximum distance shown is from any wall partition or ceiling projection will result if these devices are relied on to any degree for the protection of extending down more than 12 inches. human life. ... .. .... . .. ...... ..:•iii , ,.• .. , si.•....., '.< :,.:. • u \\ 1 TECHNICAL SPECIFICATIONS .tp F ocus® ocu so 200 Q uan t um The Next Generation ,, -. F ms s= ^.1 '1'h k ` .� g �� "'' 1 ... {{ i� > zi 5,=i # 3 "'- �"�w,a,��c=�„a�sS�: ��.�w> a.,mrM"�� ,.«,a�.«.�.v S� .r, w, ., t��: ��s >�,.,. =. �:+,a• . x Introduction MAJOR FEATURES he Focus® 200 Quantum is a UL factured inside each security and fire ■ 255 Points Of Protection Listed burglar and fire alarm sys alarm device. Each of the 255 devices • High Security SIM Chip Devices tem which provides individual report as a unique point. Each device ■ DES Encrypted Communication point annunciation and programmable has its own factory generated identifi • 99 Passcodes customization features. cation number on a microchip hermeti- cally sealed inside the device. The • 16 Keypads The system monitors up to 255 points Focus® 200 Quantum polls each • ■ 255 access cards or codes of protection, including burglar alarm, fire alarm, holdup alarm, supervisory device and only accepts as genuine ■ Up to 8 access readers and other types of points. Burglar those devices answering with the prop- ■ 8 BA Groups Alarm protection can be divided into er identification number. Because the ID is sealed inside the device and • 255 User Privilege Levels eight separate groups, each with mul known only to the Focus® 200 ■ 500 Event Buffer tiple opening and closing schedules. The system is controlled by entering a Quantum, an extremely high degree of • Universal Communicator User ID Code on an English language internal line security is afforded, and ■ 4,000' RS - 485 Bus interactive keypad or by using a card device substitution is prohibited. or key reader. • Meets ADA Requirements By Design • UL Burglary and Fire Listed Focus® 200 Quantum provides 99 Specifically designed to help meet the • CSFM Listed individual User ID Codes and up to needs of Commercial, Banking, Retail 255 access cards or codes to main • ULC Listed and Industrial customers, the Focus tain a high degree of security and an 200 Quantum provides unparalleled audit trail of the most recent 500 features at a reasonable price. events. The 500 -event buffer can be Modular in nature, the Focus® 200 viewed on the keypad or output to a Quantum can cost - effectively meet the local printer, needs of a small branch bank with Unique to the Focus® 200 Quantum is fewer than 20 points of protection, or ADT's exclusive SIM sensor technolo expand to cover a 255 point factory or gy which utilizes a microchip manu large retail facility. ,.„ Technical Specifications Control Unit: PID Gateway Physical 13.75 "W x 16 "H x 4 "D Physical 9.25 "H x 5 "W x 2 "D, (35cm x 41.6cm x 10 cm) Operating Range 32 °F to 120 °F Operating Range 32 °F (0 °C) to 120 °F (49° C) Current Drain 50mA Electrical SIM Gateway • Primary Power 120V, 60Hz, Class II (Primary) 16.5V, 60Hz, 50VA or 82VA (Secondary) Physical 3.75 "H x 3.5 "W x 2 "D • Backup Battery 12VDC, 7AH Sealed lead -acid Operating Range 32° F to 120 °F (1 or 2 -6 wired in parallel for rating up to 42AH) Current Drain 60mA • Charge Voltage Fuse: 3.75A. Solid -State ACIU to Battery Resettable Physical 9.25 "H x 5 "W x 2 "D • Standby Time 4 Hour (7 AH Battery) 24 Hour (28 AH Battery) Operating Range 32 °F to 120 °F 80 Hour (42 AH Battery) Current Drain 60mA Communications ADT SIA Single or Dual line Dialer, Dedicated Telco, RS -232, Optional DES, Operating Panel SNA/SDLC Physical 8 "H x 3 "W x 1.5 "D RS -485 Bus Power 13.9 V nom., Max current 1A Color Off white body, gray front Auxiliary Relays SPDT, Contacts rated 2A RL -1 & RL -2 @24 VAC or 24 VDC Operating Range 32 °F to 120 °F Relay RL -3 Jumper selectable 12 VDC Current Drain 32mA inactive, 64mA active (Voltage output) @ 200mA or 22VDC @OmA rated 2A @24 VAC or 24 VDC Agency Listings Burglary UL Burglary Listed Cable Total RS -485 Bus: 4,000', Grades A and AA w/ appropriate Requirements Per Gateway Trunk: 1,000', communicator Per Device to Trunk: 100' Fire UL Fire Listed OPERATING PANEL MEgTwE ,nTEwE«E I "nau Focus zoo — J I i P". corvw SOR SIM CONTROL G^T "r — PR , m Ru TERMINAL ( m mo E ` _ L2 e nure I ux 1 I aT az« SRAM MICROPROCESSOR GATEWAY CONTROL CIRCUTS TRIM GATEWAY KM m E KZ m Ma an WEL KEY VAULT FLOOR _ .s "uSainn nwuv SWITCH TEST wmru wT vT -- z eEV m u ms yz " TEST DETECTOR CLOSVEPPL GATIWAy TRUNK \ DATIY BUILT IN MOTION LIGHT DOOR OFECTOP PULL BOY CONTROL 570BE ACCESS ° ° L4465 -01 (6- 97/20M) ° "r © 1997 ADT Security Services, Inc ESL 429/428CAD and CTAD Addressable Self- Diagnostic Photoelectric Smoke ; < f,: - -; Detectors 'a nst i LIS TED 429 > I % . ' 3� =f m e w. a , • - allat on Inst ruction s , /� tr - Part Number 12839 Rev A 428 a .; GENERAL DESCRIPTION ° "' The ESL 429/428CAD & CTAD low- profile, self- diagnostic, addressable *`k smoke detectors work on the light scattering principle. These models are = .,`, ,,, to be used with the ADT Focus 200 Fire Alarm Control Panel. A pulsed : y'i''. --' , - '. =� ,:',7 ' . infrared light- emitting diode serves as the light source, and a high - speed y 0.. r -,, .w photo -diode as the sensing element. This design has superior protection against false alarms caused by dust, insects, RF and ambient - light. Smoke Detector Placement and Spacing Self- Diagnostics Includes Automatic Sensitivity Testing In general ceiling mounted smoke detectors should be located near the The 429/428CAD & CTAD continually monitors its own sensitivity and center of the room or hall whenever possible, or more than 4 inches (100 operational status. Upon power -up and once every 24 hours the detector mm) from any wall. When the detector is wall mounted, the top of the performs a full diagnostic test that includes dynamically testing the detector should be 4 to 12 inches (100 -300 mm) from the ceiling (see sensing chamber and internal electronics. If a detector fails internal Diagram 3). Refer to NFPA 72 for further mounting instructions. diagnostics, the alarm LED will flash once every second, the detector will continue to operate, and the Fire Alarm Control Panel will be sent a When more than one detector is required, spacing of 30 feet (9.1 meters) trouble signal indicating that the detector needs immediate servicing. If may be used as a guide on smooth ceilings (as defined in NFPA 72). the detector is outside its ULC Listed sensitivity range, the alarm LED will Other spacing may be used depending on ceiling height, high air flash once every second and the Fire Alarm Control Panel will be sent a movement, and other conditions or response requirements. diagnostic signal indicating that the detector needs to be cleaned. Diagram 3 4 in. ► (100 mm) INSTALLATION ceiling The 429/428CAD & CTAD detectors mount to standard single -gang 'r ,I. electrical boxes, four -inch octagonal or four -inch square electrical boxes, 4 in or on WIREMOLD No. 5739 fixture boxes. acceptable here (100 mm) 1 minimum First, pull wire through the electrical box and connect to the plug -in never.nere terminal block supplied, one wire per terminal (see Diagrams 1 and 2). 12 in. Second, dress wiring neatly and snap the terminal block into the back of (300 mm) top of detector maximum the detector. Note: The detector cover must be closed completely, to acceptable here support the circuit board, while installing the terminal block. Now, open the cover and mount the detector, using the mounting holes provided (see Diagram 4). All ESL smoke detectors are shipped with a plastic dust cover for use in was wall areas where construction is on- going. Smoke detectors will not operate with the dust cover in place. Remove the dust cover when installation is measurements shown are to the completed, prior to testing. closest edge of the detector Diagram 1 Where NOT To Place Detectors * e" One of the major causes of nuisance alarms is improper placement of � detectors. Avoid locating detectors too close to kitchens or wood stoves, where smoke can be generated. Garages'and furnace rooms are poor �.' �/ � locations, due to exhaust fumes. Placing detectors too close to bath- Plug-in terminal block rooms can cause problems from steamy baths or showers. Do not install detectors where normal ambient temperature can be over 100 °F (37.8 °C), such as attics. Refer to NFPA 72 for more information. In all cases, 429/428CAD & CTAD Wiring Diagram detectors should be cleaned once a year, to prevent dust and dirt build - Diagram 2 up. See cleaning instructions. First model 429/428 model 429/428 • Detector CAD CTAD Testing the Installation loop Loop After all connections are complete and the wiring is checked' for errors, YL Y �L 8 YL V BL D apply power to the system. There should be no alarm. If an alarm is - - ++ - - + + reported, determine if a detector is in alarm or if there is a problem with LISTED 0 CONTROL e ©- mm ©6 Last Detector the wiring. UNIT . All smoke detectors shall be tested at least annually in accordance with BL+ S NFPA 72. Smoke detectors may be tested with ULC Listed canned smoke, a smoldering punk stick or a cotton wick. If ULC Listed canned YL • SS smoke is used, carefully follow manufacturer's directions to prevent damage to the detector. The detector samples for smoke about every 9 seconds, while flashing its - LED. If 'smoke is detected, the sampling increases to every 4.5 Diagram 6 To activate sensitivity level • . . seconds. Excessive smoke must be detected in three consecutive i test mode, hold magnet on samples for the alarm to sound. Therefore, when testing the detector with hinge side of detector for smoldering punks or cotton wicks, hold the smoke source near the smoke 1` more than 1 second. entry and gently direct smoke into the detector for 20 seconds or until an / alarm is indicated. BE SURE TO PROPERLY EXTINGUISH THE SMOKE ,/ SOURCE AFTER TESTING! This is a go/no-go test and is not a reliable �r magnet (for best results indication of the detector's sensitivity. Control unit alarm and all auxiliary p ff o sition magnet slightly functions should be verified for a complete test of each detector. The 429/428CAD & CTAD samples for heat every 4.5 seconds. Test the The alarm LED provides the following information: heat sensor by using a hot air gun. Aim the hot air gun at the heat sensor Approximate from 6 -10" away. The detector should go into alarm in less than 30 obscuration ( %/ft.) Blinks Indication seconds. Be careful not to melt the plastics. 429 428 MAINTENANCE, CLEANING and SENSITIVITY TESTING 1 Unserviceable hardware fault is detected This series of self- diagnostic smoke detectors is designed for easy field 4.35 3.05 2 The detector is not sensitive enough service and maintenance. If a detector drifts beyond its approved 3.85 2.75 3 sensitivity range for more than 24 hours, or fails internal diagnostic tests, 3.60 2.50 4 Detector is within sensitivity limits 3.10 2.15 5 the unit automatically indicates trouble. This meets NFPA 72 field 2.60 1.85 6 sensitivity testing requirements without the need for external meters. In 2.10 1.50 7 accordance with NFPA 72, smoke detector sensitivity should be checked 1.85 1.25 8 Detector is too sensitive within one year after installation and every alternate year thereafter. 1.35 0.90 9 The replaceable sensing chamber of the 400 series photoelectric After the sequence of blinks, if the sensitivity is found to be within limits detector unsnaps for easy field cleaning and service. Whenever the and if all other tests pass, the detector will go into alarm. If the detector status LED indicates cleaning is necessary, open the detector cover, is outside its ULC listed sensitivity range, the detector will not go into unsnap and throw away optical block chamber. Then thoroughly blow alarm, the alarm LED will flash once every second, and the Fire Alarm off the optical base and snap a new optical block chamber (part #211) Control Panel will be sent a diagnostic signal that the detector needs to back in place. NOTE: Be sure new optical block chamber is seated all be cleaned. If the detector fails internal diagnostics, the alarm LED will the way down. Close detector cover and verify sensitivity with the flash once every second the detector will continue to operate, and the Fire sensitivity level test (below). Alarm Control Panel will be sent a trouble signal indicating that the detector needs immediate servicing. Diagram 5 opt,ca,a� cover Data u Sensitivity ;_ '"-- tv 429 - minimum 3.1 + 0.50 % /Ft. _._.- 1 - maximum 3.1 - 1.0 % /Ft 428 - minimum 2.0 + 0.50 % /Ft. ii� . o�n,etio maximum 2.0 0.50 % /Ft. • II a H detector specifications fixed temp. - 135 °F, 50 ft. spacing - rate of rise - 15 °F /min. & > 105 °F (8.3 °C /min. & > 40.6 °C) Wrap Into efemaeon I \ \ Operating temperature range Operating humidity range 32 °F to 120 °F (0 °C to 50 °C) optical base 0 to 95% RH Field wiring size 14 -24 AWG Color white cover /white base Sensitivity Level Test Mode Detector size 6.1" (15.5 cm) D; 1.85" (4.69 cm) H To activate the sensitivity test mode hold a magnet near the integral reed Detector weight 8.8 oz. (0.25 kg) switch on the hinge side of the detector for more than one second (see Packaging 10 detectors are packaged in a carton. Diagram 6). The sensitivity test mode may also be activated from the Listing 429 - UL, 428 - ULC control panel (see control panel installation manual for details). . For instructions on removal of terminal block and circuit board call technical services at 800 - 648 -7424. Diagram 4 - Installation Diagram FLUSH MOUNTING ON 4" OCTAGON BOX 4" square or NOTE: Positive air pressure from wire test switch WIREMOLD mounting openings, conduit, mounting See Note (No. 5739) mounting boxes, irregular mounting all boxes ��Z�' '� surfaces, or plenums causing ' 9ir , �- i e _ single gang 4" 1 air movement through and away ,, 6 1" (15. cm) ii ;, . octagon from the detector may prevent _ mounting proper operation. Seal all - 1.85" (4.70 cm) o openings causing unwanted air o = \ flow using UL Listed expanding t cover release foam or Duxseal. - alarm and status LED SENTROL, INC. Sentrol reserves the right 12345 SW Leveton Dr., Tualatin, OR 97062' • - to change without tons without no otice. Tel.: 503.692.4052 Fax: 503.691.7566 J http: / /www.sentrol.com ©1996 Sentrol, Inc. J U.S. & Canada: 800.547.2556 Technical Service: 800.648.7424 E -2067 -1195 A PRODUCT OF S E N T R O L , INC FaxBack: 1.800.483.2495 12839 Rev A