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Home My WebLink About1300 E 26 Pl 90-407 (Fire Alarm)EQUALIZER SYSTEMS & SERVICES, INC. ELECTRONIC SECURITY DIVISION 1998 North County Road 427, Suite #9 Longwood, Florida 32750-3599 407) 331-5225 FAX (407) 331-3606 TRANSMITTAL To City of Sanford DATE 27 September 1990 PROJECT JETT-AIRE SUBJECTFIRE ALARM SYSTEM (Combination) We are sending you herewith ( X).under separate cover ( ) the following documents on this project: COPIES DWG # DATED 5) 5) 5) 5) 5) 5). TITLE OR DESCRIPTION BY Radionics Equipment ESL Smoke Detectors Wheelock Horn/Strobes Symbol List & One -line Diagram Panel Wiring Diagrams Building' Physical Layouts These documents are being submitted to You: For your use. ( ) Please sign and return. For estimating purposes. (X ) For your approval, return (2) copies. Approved. ( ) Remarks: Approved as noted. For Received By Date Transmitted By ,-f (Equalizer Systems & Services, Inc.) Dick Byrne ' i t. EQUALIZER SYSTEMS & SERVICE' ELECTRONIC SECURITY DIVI 1998 North County Road 427, Sui Longwood, Florida 32750-35 407) 331-5225 FAX (407) SUBJECT: JETT-AIRE of CENTRAL FLORIDA 1300 East 26th Place Central Florida Regional Airport Sanford, Florida PROPOSED FIRE ALARM SYSTEM SYMBOL LIST &.1 F-71 FIRE ALARM CONTROL PANEL Q FIRE ALARM ANNUNCIATOR & KEYPAD SO SMOKE DETECTOR D DUCT SMOKE DETECTOR F MANUAL PULL STATION 2J COMBINATION HORN/STROBE SEE PHYSICAL LAYOUT ON BUILDING DRAWING INCLUDED WITH THIS SUBMITTAL. Florida State Certification Alarm I Contractor #EF0000047 E-8112-030-220 16-.2 Battery Standby Calculations for Fire Alarm Applications The "8112 Communicator Standby Battery and Current Rating Chart" provides guidelines for calculating the system's current requirements and outlines standby power requirements for the various standards. 16.2.1 Central Station (NFPA 71) Systems require 24 hours of standby battery capacity. Two batteries may be required in the D8112 system to meet the basic standby requirements for an NFPA 71 installation. To verify compliance with NFPA 71 you only'need to add the current values listed in column B AC Power Off) and confirm that this total does not exceed 225 mA (one battery) or 450 mA (two batteries). An alternate means of verifying compliance with standby battery requirements for NFPA 71 systems is to use the formula shown below to determine the ampere hour (A.H.) requirements of the system as related to the ampere hour capacity of the batteries. Note that the formula includes a 10% contingency factor. This factor makes allowance for depletion of battery capacity with age. FORMULA FOR NFPA 71 AMPERE HOUR CALCULATION: x 24) + 10% = Column B Hours Contingency Total A.H. Total Factor Total A.H. requirements must not exceed A.H. capacity of batteries: One D126 Battery = 6 A.H. Two D126 Batteries' = 12 A.H. 16.2.2 NFPA 72A Local Systems require 24 hours of standby plus 5 minutes of alarm operation at the end of the 24 hour period. Two batteries must be installed in the D8112 system to meet the basic standby requirements for an NFPA 72A installation. You must use battery ampere hour (A.H.) calculations to verify compliance with NFPA 72A. The following formula includes the calculation for 5 minutes of alarm operation at the end of the 24 hour period, as well as a 10% contingency factor which allows for depletion of battery capacity with age. FORMULA FOR NFPA 72A AMPERE HOUR CALCULATION 494 x 24 ) + ( 1885 x 1/12 ) + 10% = (15,055)= 15.06 Column B Hours Column C (5 min.) Contingency Total A.H. Total Total Factor Total A.H. requirements must not exceed A.H. capacity of batteries:-t3 f fQ, 3) D126 = 18 A.H. 16.2.3 NFPA 72C Remote Station Systems require 60 hours of standby plus 5 minutes of alarm operation at the end of the 60 hour period. A D8132 Battery Charger Module with additional batteries installed in a separate D8109 or D8108A enclosure may be required in the D8112 system to meet the basic standby requirements for an NFPA 72C installation. You must use battery ampere hour (A.H.) calculations to verify compliance with NFPA 72C. The following formula includes the calculation for 5 minutes of alarm operation at the end of the 60 hour period, as well as a 10% contingency factor which allows for depletion of battery capacity with age. . FORMULA FOR NFPA 72C AMPERE HOUR CALCULATION x 60 ) +. ( x 1/12 ) + 100/0 = Column B Hours Column C (5 min.) Contingency Total A.H. Total Total Factor Total A.H. requirements must not exceed A.H. capacity of batteries Two D 126 Batteries ' = 12 A.H. 16.2.4 Household Fire Warning (NFPA 74) Systems require 24 hours of standby plus 4 minutes of alarm operation at the end of the 24 hour period. You must use battery ampere hour (A.H.) calculations to verify compliance with NFPA 74. The following formula includes the calculation for 4 minutes of alarm operation at the end of the 24 hour period,.as well as a 100/o contingency factor which allows for depletion of battery capacity with age. FORMULA FOR NFPA 74 AMPERE HOUR CALCULATION x 24) +( x1/15) +10% = Column B Hours Column C (4 min.) Contingency Total A.H. Total Total Factor Total A.H. requirements must not exceed A.H. capacity of the battery: One D126 Battery = 6 A.H. Two D126 Batteries ' = 12 A.H. When connecting two batteries, use EITHER the D122 Dual Battery Wring Harness OR the D8132 Battery Charger Module. D8112Operationilnstallation Manual 74-02796-000-G 2/89 Page 22 © 1986 - 1989 Radionics, Inc. i E-8112-030-240 D8112 Communicator Standby Battery and Current Rating Chart AC Power On AC Power Off In Alarm Normal Current Minimum Current Maximum Current Accessory Quan- Each Total Each Total Each Total Model tity Unit System Unit System Unit System Used A B C D8112 1 150 x Quan.= 150 150 x Quan. _150_ 250 x Quan. = 25 _ D125 1 20 x Quan. = 19 x Quan. = 19 123 x Quan. = 123 D127 13 x Quan. = 12 x Quan. = 45 x Quan. _ D128 1 14 x Quan. = 14 x Quan. = 14 45 x Quan. = 45 D129 25 x Quan. = 25 x Quan. = 26 x Quan. _ D192 1 18 x Quan. = 17 x Quan. = 17 75 x Quan. = 75 D360 30 x Quan. = 26 x Quan. = 107 x Quan. _ D1252 2 104 x Quan.= 106 x Quan. = 212, 206 x Quan. = 412 D8114 14 x Quan. = 13 x Quan. = 14 x Quan. _ D8125 48 x Quan. = 47 x Quan. = 48 x Quan. _ D8126U 3 x Quan.= 3 x Quan. = 4 x Quan. _ D8128 27 x Quan. = 27 x Quan. = 46 x Quan. = D8129 5 x Quan.= 5 x Quan. = 5 x Quan. + 25 x # relays= D8130 5 x Quan.= 5 x Quan. = 54 x Quan. = D8131 24 x Quan. = 22 x Quan. = 36 x Quan. = M801, 2, 3 1— 0 x Quan.=_0 0 x Quan. _ 0 60 x Quan. = 60 M806 0 x Quan.=_0 0 x Quan. _ 0 100 x Quan. _ Ratings of other devices in the system which are not shown above: ESL609U01 1 .5x Quan. - 5 x Quan. _ .5 40 x Quan. = 40 ESL425C 12 .5x Quan. - 5 x Quan. = 6 40 x Quan. = 480 EH-EL2-R 5 0 x Quan. = 0 x Quan. = 0 50 x Quan. = 250 D5545 3 25 x Quan. - 25 x Quan. = 75 50 x Quan. = 150 Column A Column B Column C Total - Total = 493.5 Total =1885 If the Column C total exceeds 1400 mA, a D8132 is required in the system to provide an additional 1400 mA. In all cases the Total of each column above must not exceed the Limit for System Class shown below: Household Burglary 4 Hour Standby One Battery Limit = 1000 Limit = 1000 Limit = 1000 Two Batteries Limit = 1000 Limit = 1000 Limit = 2000 Commercial Burglary 4 Hour Standby One Battery Limit = 1000 Limit = 1000 Limit = 1000 Two Batteries Limit = 1000 Limit = 1000 Limit = 2000 Central Station Signaling Systems [(Fire) NFPA 71] 24 Hour Standby One Battery Limit = 1000 Limit = 225 Limit = 1400 (without D8132) Two Batteries Limit = 1000 Limit = 450 Limit = 1400 (without D8132) Local Protective Signaling Systems [(Fire) NFPA 72A] 24 Hour Standby Plus 5 Minutes of Alarm Operation See Formula for NFPA 72A Ampere Hour Calculation. Remote Station Fire Systems [(Fire) NFPA 72C] 60 Hour Standby Plus 5 Minutes of Alarm Operation See Formula for NFPA 72C Ampere Hour Calculation. Household Fire Warning Equipment (NFPA 74) 24 Hour Standby Plus 4 Minutes of Alarm Operation SeeFormula for NFPA 74 Ampere Hour Calculation. NOTE: ALL CURRENTS IN CHART ABOVE ARE IN MILLIAMPERES. (1 AMPERE =1000 MILLIAMPERES) 74-02796-000-G 2/89 D8112 Operation/Installation Manual Page 24 1986 - 1989 Radionics, Inc. A o t -4Vt0 g N 2nd Battery Requires D 1640 Transformer D122 Dual Battery Harness. 16 VAC 40 VA H 60 HZ r°t26 i o126 IBattery Battery, 12v 1 2v 6 AN-, 6 AH 6 D192 3 1 5 Listed Audible 2 4 i 2!1 Signaling Devices + Rated At 10.2 To e t N 14 VDC i Do Not Use Vibrating cb Type Homs) b v tqi N i EOL Device 15-031301001 t= POWER LIMITED - OS =SUPERVISED rDbiONOTE: All Input/Output Connections Inherently Low Voltage Power Limited. tD 00 tDtUn OC1' n 60 N 0 ARMING STATIONS R6d D360 D1252 CD Note: May require Rocla s yal D8004 enclosure OMEGALARM D8112 ern or 1 l bs• O 1 I` O n w "" a Qs For Zonex applications see O "..,... W..., - 0 ..... - .- :•,......, ._..- ,o. » s oc07- 00 Alternate Conn.O ( Optional) Q (Not Used) Q © 0 s _ G ( Optional) O ( Optional) D 25 0 .,... ., ._. .. .e.. , 1tTelco "" `-"""" Maximum of ten 2-wire smoke Jack o' detectors, UL listed as compatible with the D125. See "Optional h`iFFF"' h iNNN "`iiiFFF"' `ihh i Compatible Equipment.' 80@ 808-808 800 A e, 6 ( D oe, ., . D125 OO s s sssss3ZoneA B + tG - - - - ,; EOL Device A Typical Initiating =-- ---- -- PN15-03130-000 0 Devices Are Door 4 or 6 n Contacts NO/ NC, NO 2 Zone B a + Floor Mats, Motion o Sensors,Glass NC 1 10 6 8 Qs Z Break Detectors, etc. D129 D129 or D125 I n n s r Typical Initiating devices Include, w D105 BL EOL B L l I 2 LOOP B heat detectors, or any other For Typical Burglar s ( .• 3 :t listed type of fire alarm o w ° Alarm Applications) rll 1J (_ © 4 Initiating device w/N-O. contacts. 0 11 12 13 a D129 Provides optional waterflow alarm retard feature. Not sultable for 2-wire smoke detectors. NOTE: Use zero retard LOOP A except for waterflow. wf f9 all, J3 s w2 D728 J2 O O Secondary PH To J26 Q Line D`105 FL or" EOL Device Q Q J4 J1 Primary PH Line On D8112 Suitable for valve tamper Control and other ty pes of extinguishing Unit system supervision. I la I0Na, 4cD O00 i663 . co I Omegalarm D8112 System Chart AnOmegalarmD8112Control/Communicatorisrequired in Arming Stations Circuit Smoke o all applications listed on this chart. Modules Detectors m o o, Optional The D8004 Transformer Enclosure may be required b the 1' q Y L co o N 0 Miscellaneous Modules 2- 4- localAuthorityHavingJurisdiction. D360 D1252 Command Zonex wire wire a) o oo- o co mn o cm QcW o Equipment Requirements Suitable for use in NFPA Pro Min. Bat. Application: PPStan gram Standby Enclo Center Center D125 D129 8125/ 4) Any 12VDC p rn o N o all applications) Bard 1) Hours (2) sure 8126 Model D127 D128 D192 c Household Burglary 1 4 D8103 or D8109 or Choice Required OP NA OP NA NA SP SP SP OP o o o0 0 Household Fire 74 2 m nute alarmChoice Required Choice.Required Rehoii Choice NA SP SP NA 85 dBA Listed AudibleDevicesHousehold Fire/Bur Combination g74 3 24 hrs + 4 Choice Required Choice Required Choice SP SP SP NA 85 dBA Listed minute alarm D8108 Reguired Fire Audible Devices v °i O orn , o 0 CentralStationBurglary (Grade C) 4 4 Choice Required OP NA OP NA NA SP SP SP OP For Grade B: D8108A 8 Listed Bell Housingo o Central Station Fire 71 5 24 D8109 OP OP Choice Required OP OP NA R SP FNA ire8 $ o 5 v co Comb. Local &Central Sta. Fire 771 2A6 tar5 OP R Choice Required OP OP NA R R Listed Audible Device(s minuhrsFireo4 v 2 CentralStationFire/Burg. Comb. 71 7 24 OP OP Choice Required OP OP SP R SP NA or Fire 5 a Comb. Local 8 Central Sta. Fire/Burg. 72A 8 24 hrs larm OP R Choice Required OP OP SP R R NA Listed Audible Devices 71minuteD8108 U o c F- ; 6 Y L ut a) m 00 Or 2 c c OC) Local Fire 72A 11 m? nute ala m OP R Choice Required OP OP NA R R NA Listed Audible Device(s Electrically Actuated Transmitter 71 13 24 OP OP SP SP SP NA NA NA R NA Fire Remote Station Fire 72C 14 60 hrs + 5 minute alarm OP OP. Choice Required OP OP NA R SP NA D8132 Module piaBeReuiredLocal Fire &Bur Combination 972A 12 2424 hrs + 5 minutealarmD8108A OP R Choice Required qOP OP SP R R OP Listed Audible Devices 0 o- m Cov o "- N Listed Bell Housing N cq c' M NPolice Connected Burglary 9 4 D8108A Choice Required OP NA OP NA NA OP SP SP OP Listed Audible Devices co co co °o a) 00000 Listed Bell Housing( Local Burglary 10 4 D8108A Choice Required OP NA OP NA NA SP SP SP OP Listed Audible Devices ListedBellHousinSee wiring/ og g oo g o E i g S g 3) For Zonex Systems Note: This chart references components which have installation cb o M o oo v N c c o o d D8112G series control/communicator only been evaluated and listed by UL for electrical document CD vco N in m >1 o u) o o •2 co u o u2u v n n rnto D8125, D8126U/T not suitable for use detectorcompatibility. number o 0 0 o Z a 3 o 0 IT with 2-wire smoke ) 74-04274-Oo0 listed for n o c0 c 0 c o a v D8128 (not suitable for connection to fire instructions n rn N alarm initiating devices) 74-04416-000 Leutrvu R - Required OP - Optional NA - Not Acceptable in System Fre - Not Acceptable for Fire Zones SP - Special Applications (Not Normally required in this application) 1) The D8112 is programmed using an Omega/arm 5100 Bar Code Programmer. The 8112 System Compliance Verification Manual" provides guidelines to follow to program the unit for the given application. For Program Checklist, see S 112 System Compliance Verification Manual" P/N 74-04178-000. The manual also references a method that can be used by inspection authorities to verify that correct program entries have been made for the application - requirements for standby power can be determined from the Battery Chart in this manual: 4) Two -wire smoke detector devices must be evaluated for electrical compatibility with the D8112, and must be U.L. listed for use with the D8112. Contact the smoke detector manufacturer to determine if the detector is listed for that purpose. m Co r& E-8112-021-010 R A D I O N I C S Omegalarm D8112G2 Control/Communicator Fire Alarm Data Sheet UL Listings NFPA 71 Central Station Signaling Systems NFPA 72A Local Protective Signaling Systems NFPA 74 Household Fire Warning Equipment Approvals Factory Mutual California State Fire Marshal New York City Board of Standards and Appeals Standard Features Eight programmable zones 12 VDC, 2 Amp Alarm Power with three separate outputs 12 VDC, 1 AMP auxiliary power with two separate outputs Built-in digital communicator with telephone line monitor Real time clock and test timer Battery charging circuit Battery voltage supervision Automatic reset circuit breakers Onboard warning buzzer and diagnostic LEDs Automatic answer modem Lightning and RFI protection Power limited external circuits Programmable Features Central Station reporting format Two telephone numbers Automatic test reports Individual zone responses Custom annunciator text Walk test mode Fire Alarm test mode (Cmd 58) Local Logging of events Up to 70 passcodes Audible alarm output, steady or pulsed Silence option by zone Automatic silencing Description The D8112G2 Control/Commun- icator is an eight zone micropro- cessor based control panel with an integral digital communicator. Through programming and access- ory modules, the D8112G2 offers a degree of flexibility rarely found in other fire alarm control systems. The D8112G2 is U.L. listed as power limited, therefore (per Article 760 of the National Electrical Code ) U.L. listed fire cable can be used for ext- ernal circuits, rather than expensive conduit. This feature alone can effect substantial installation cost savings. All eight zones are individually programmable and may be used to monitor all types of fire alarm, sprinkler supervision, fixed extin- guishing systems, industrial process supervision, and burglar alarm devices. The eight master zones of the D8112G2 may be expanded to 134 individually annunciated zones or points of protection through the addition of an active multiplex zone expansion system ("ZONEX"). Zone Expansion: With the ZONEX system, alarm initiating devices or other sensors are connected to remotely located transponder modules (D8126U POPIT). Using a two wire circuit, the POPITs are in continuous two-way communication with an expansion module (D8125 POPEX) connected to the D8112. Each POPIT is individually programmed to report to a master zone on the D8112 allowing it to be connected at any point in the circuit without regard to a specific sequence. This format provides virtually unlimited flexibility and permits additions, deletions, and changes in types of sensing devices without requiring expensive circuit revisions. Annunciation: The D8112 can be mounted in any convenient location, since annunciation is provided remotely through the D1252 Alpha II Command Center. The compact low profile design of the Alpha II compliments any decor and can be installed at any convenient location in surface, flush mount, or desktop configurations. 75-04913-000-B 11/88 0 1987. 1988 Radionics. Inc. E-81 12-021-020 The Alpha I I's lighted display is equally effective in lighted or dark areas. It uses numbers, words, and symbols to more precisely define the source of an alarm or trouble condition. The Alpha II displays the status of the D8112, its master zones, and individual points of protection (POPITS). Individualized custom text can be programmed for each of the master zones and each POPIT. System Control: The Alpha II Command Center also provides audible alarm silencing, trouble buzzer silencing, smoke detector reset, system test, one -person (solo) Fire Alarm Test Mode (Command 58), and many other programmable features. Command 58 features: suppression of signals while in the test mode, a 2-second audible alarm for each successful detector test, automatic smoke detector reset, test count display at the Alpha 11, logging of test signals in the D8112's memory, and a printed record of the test (if a Local Security Printer is installed). Security and safety -sensitive control functions are allowed only by confidential code entries to prevent unauthorized operation. This type of system control offers a great advantage over conventional systems requiring use of a key for access to the control panel. Modules and Accessories Zonex (Zone Expansion) System D8125 POPEX (Point of Protection Expansion) D8126 POPIT (Point of Protection Identification Transponder) The D8125 POPEX Modules (maximum of 2) and the D8126U POPIT Modules (maximum of 126) are used in combination to expand the annunciated zones or points of protection to a total of 134. D58A Fire Alarm Kit Fire alarm annunciator conversion kit for the D1252 Command Center. D58B Fire Alarm Kit Fire Alarm annunciator conversion kit for the D360 Command Center. D122 Dual Battery Harness Wiring harness for parallel connected batteries with integral circuit breaker for overload protection. D125 Powered Loop Interface Module Dual class 'B' initiating circuit module with UL listed compatibility for ESL model 425CT two wire smoke detectors. Also suitable for connection of any other type of fire alarm initiating device. D128 Dual Phone Line Switcher Provides supervision of microprocessor for NFPA 71 and 72A applications and supports dual phone line supervision for NFPA 71 applications. D129 Dual Class A Initiating Circuit Module Provides two Class 'A' initiating circuits with optional non -instantly recycling retard for wet pipe sprinkler waterflow alarm applications. Also suitable for con- nection of any other type fire alarm initiating device. D192 Bell Circuit Supervision Module Provides a single Class B indicating circuit for polarized audible signal appliances and includes a supervised silence switch. D360 Command Center LED remote annunciator display with alarm/trouble silence and reset control features. D1252 Command Center Alpha -numeric remote annunciator. Includes alarm/ trouble silence, reset and status test control features. D5100 Bar Code Programmer Provides programming capability for D8112 and other Radionics products. Also serves as a diagnostic tool for troubleshooting. D8004 Transformer Enclosure Enclosure with duplex output for internal mounting of Class II transformer where required by code. D8114 Quad Serial Output Module Has four serial data outputs. Provides isolation between devices connected to the D8112's terminal 31. Eliminates possible interference caused by tampering with serial data wiring. D8122 Derived Channel S.T.U. Derived channel transmitterinterface. Can be used in conjunction with the D8112G2 oras a stand-alone for Central Station Protective Signaling (NFPA 71) applications. D8129 Octo-Relay Module Provides eight Form 'C' dry contact relay outputs for a variety of programmable responses to alarm, trouble and other system conditions. D8130 Release Module Provides two form 'C' dry contacts rated at 5 Amps each for magnetic door holders, elevator recall, HVAC control, etc. Includes supervised disable switch and Alarm/Disable indicating LEDs. D8131 Printer/CRT Interface Module Provides either RS232 or current loop output for printer and/or CRT for on -premises recording of D8112G2 system activities. D8132 Battery Charger Module Supports additional batteries of up to 30 Ampere hour capacity for extended standby interval. Provides 1.4 Amps output in addition to the D8112 available power output. Available power is distributed to support alarm output for audible signal appliances, Aux Power requirements, or shorter battery recharge ti mes. M801 (6"), M802 (8"), M803 (10"), Motor Driven Bells For commercial fire alarm applications. These bells draw 60 mA at 12 VDC. M806(10") Motor Driven Bell for household fire warning applications. Draws 100 mA at 12 VDC. D8103 Universal Enclosure meets requirements for NFPA 74 applications (color: gray). D8109 Fire Enclosure meets requirements for NFPA 71, 72A, and 74 applications (color: red). D8108A Attack Resistant Enclosure meets the requirements for NFPA 71, 72A, and 74 (color: gray) as well as U.L. Local Burglary requirements. RadionicsT, 1800 ABBOTT ST , P.O. BOX 80012, SALINAS, CA 93912-0012 F-1252-020-010 ti R A D I O N I IC S Omegalarm D1252 Alpha II Command Center Specifications Sheet Features Slim -Line designer styling compliments any decor Four programmable "one - touch" function keys Easy to read vacuum fluorescent display Displays complete system status in English format Programmable custom text for each zone User friendly response tones Initiate local system test and perimeter "watch" from keypad Keypad illuminates when touched Four-wire connection from control Multiple arming options and special alarm options The Omegalarm D1252 Alpha II Command Center presents a modern, new image to security system installations. The Alpha II is streamlined in appearance, and power packed with functionality. 75-04318-000-B 8/87 Command Control The Alpha II Command Center does more than just arm and disarm the D8112 security system. Just by combining the Command Bar with one or two other keys, the Alpha 11 gives you control over the entire D8112 security system. The D8112 Control/Communicator can be programmed for a wide variety of command functions executed from the Alpha II Command Center. The Command Bar on the. Alpha II can initiate: master arming, instant or delayed perimeter arming, selective zone shunting, force arming, local system test, a test report to the central station, and more. The Command Bar can be disabled at Command Centers in high -traffic areas to eliminate unauthorized use of the command functions. A passcode can be programmed so that only authorized personnel can use the Command Bar. Programmable Function Keys The Alpha II has four function keys that can be programmed to perform any system command function other than arming commands) with the touch of one key. "One - touch" entry is ideal for the more common commands such as sensor reset, system test, buzzer reset, or perimeter watch mode. These command functions can be programmed for limited access, allowing them to be used only by authorized personnel who have access codes. Non -authorized users trying to initiate a command function with these keys are denied access. Two programmable "alarm" keys can signal for medical attention or police, and the user can initiate a silent duress alarm when arming or disarming the system. o.I3I Inc. F-1252-020-020 English Language Display The Alpha II display is a 16- character English language read- out, giving the end -user instant identification of system status. No guesswork is involved. Program- mable displays for each protective zone (and each point of protection for ZONEX systems) give your company's installations that special customized touch. The display used by the Alpha II is a power conserving Vacuum Fluorescent Display (VFD). Any letter of the alphabet, numerals 0 through 9, and several punctuation marks can be displayed. Electronic Tones Response tones from the Alpha II Command Center are emitted from a micro -speaker capable of several distinctive tones: 1) a muted "beep" tone sounds for each key touch received by the Control/Communicator, 2) a prewarning "beeper' reminds the user to disarm the system during entry delay, 3) a short "chirp" tone sounds when the system is monitoring the perimeter of the building, to alert of perimeter activity, 4) a pulsing, high-pitched "bell' tone warns of fire, 5) a steady, high pitched "bell" tone warns of non -fire (burglary) conditions, and 6) a trouble buzzer indicates various system trouble conditions. Customize your installation with these Alpha II Accessories— D54B Brass Faceplate: Comes with a backbox for flushmount applications. D54C Stainless Steel Faceplate: Comes with a backbox for flushmount applications. D55 Desk Stand: Portable stand made of attractive smoked plexiglass holds the Alpha II at a comfortable angle for reading the display, and key entry. D56 Conduit Box: A surface mount backbox for applications requiring conduit protection for Alpha II wiring. D58A Fire Alarm Kit: Designed specifically for fire alarm applications, this kit includes distinctive red keypad faceplate overlays and reference guide cards which slip into the back of the Alpha IL D8114 Quad Serial Output Module: An accessory for the D8112 Control/Communicator, this module has four isolated "data out" terminals. With the D8114, up to 10 Alpha II Command Centers can be installed in the security system, with wire lengths of up to 1000 feet. I RadionicsM Installation Installing the Alpha II is simple, quick, and cost effective. A four - conductor cable is all that is required to connect the Alpha 11 Command Center to the control panel. Slide switches inside the Alpha II are used to enable certain response tones. Another switch is used to enable the Command Bar. Programming Many of the operating character- istics of the Alpha II Command Center are determined by program- ming in the D8112. The 8112:MAIN Product Handler is used to program passcodes, Arming Command options, custom text, etc. The 8112:AUX Product Handler is used to program Function Keys and to enable special commands for Access Control Systems, Relay Control, Local Fire Alarm Test, etc. Specifications Power: Nominal 12 VDC supplied by the Control/Communicator Current: Idle — 80 mA, armed or disarmed Maximum —180 mA , keypad lighted and warning tone .on., Wiring: A 4-conductor cable supplies data - in, data -out, +12 VDC, and common. 500 feet maximum cable run. A total maximum of 5 Alpha II Command Centers may be - connected to the D8112 Control Communicator. Dimensions: Base — height: 4.56", width: 8.15 Cover — height: 4.30", width: 8.12", depth: 0.816" Color: Warm gray Display: 16-character vacuum florescent display. Soft blue color. Environment: Operating Temp.— 00 to 500C 320 to 122°F) Non -condensing relative humidity- 5 to 85% @ 300C (86°F) 1800 ABBOTT ST., P.O. BOX 80012, SALINAS, CA 93912-0012 F-8132-030-010 D8132 Battery Charger Module Operation and Installation Instructions Description The D8132 Battery Charger Module, combined with external batteries, increases the standby time and provides additional power to the auxiliary output of D6112 and D8112 ControVCommunicators. In addition to the two 12V 6 Amp -hour batteries that can be installed with the Control/Communicator, two additional 12V 6 Amp - hour batteries (Radionics model #D126, Yuasa model #NP6-12) or two 12V 15 Amp -hour battteries (Yuasa model NP15-12) can be installed with the D8132. The D8132 is ideal for systems requiring extended battery standby time, such as U.L. Bank Safe and Vault applications, and systems requiring additional auxiliary current output, such as fire alarm applications. The D8132 is U.L. listed for use in Central Station, Household, and Local Fire and Burglary Alarm applications, Police Connection, and Electrically Actuated Transmitter applications. The D8132 can also be installed as a 12V 1 Amp stand-alone power supply. (For U.L. certificated applications, the D8132 must be installed with a D8112 or D6112 that is programmed for battery supervision.) A 16.5V 40 VA transformer (Radionics model D1640, supplied with the D8132) is required to power the module. A green LED on the D8132 lights to indicate the presence of AC power. (The yellow LED is for manufacturing test purposes only.) Provided with the D8132 are two cables, and two sets of lockwashers, nuts, screws, and terminal lugs. The cables connect the D8132 to the D1640 transformer, two batteries, and the Control/Communicator. The hardware is provided for connecting the battery cable to 12V 15 Amp -hour batteries this hardware is not used when connecting 12V 6 Amp -hour batteries). In addition to providing increased standby time and auxiliary power, the batteries also filter the AC power supply. The amount of ripple which appears on the Control/Communicator outputs is dependent on the condition of the batteries. Radionics does not recommend using the D8132 to power devices that are sensitive to excessive ripple. Determining Battery Requirements for D8112 Systems If the D8132 Module is to be connected to a D8112 Control/Communicator, refer to the "Installation Guide for U.L. Certificated Systems and Fire Alarm Applications" section in the D8112 Operation and Installation Manual to calculate the total battery Amp -hours required for your system. Use the table in Figure 1 to determine the auxiliary current available, based on the total battery Amp -hours and battery standby hours required. (72 hours standby time is required to meet U.L. Bank Safe and Vault specifications.) Figure 1 also shows corresponding battery recharge times. (The recharge time cannot exceed 48 hours for U.L. certificated applications.) The Amp -hours shown in Figure 1 represent the combinations of 6 Amp -hour and 15 Amp -hour batteries that can be installed in a D8132/138112 system. Once satisfactory recharge time, standby time, Amp -hour, and auxiliary current values are identified, determine the combination of batteries required for your application. (The D8112 can support a maximum of two 6 Amp -hour batteries, and the D8132 can support a maximum of two 15 Amp -hour batteries.) For example, a system which requires 21 Amp -hours can sustain a maximum auxiliary current load of 150 mA at 12 VDC for 60 hours, and requires 10 hours to fully recharge the batteries. One 15 Amp -hour battery and one 6 Amp - hour battery can be installed to meet the 21 Amp -hour requirement. NOTE: The figures which appear in the table are approximations. These figures will vary depending upon the condition of the batteries installed. D8112 MAX. CONT11d10USAUXILIARY CURRENT LOAD 8 BATTERY RECHARGE TWS TOTAL BATTERY AMP 24 STANDBY HOURS AUX CURRENT RECHARGE LOAD TIME 60 STANDBY HOURS AUX CURRENT RECHARGE LOAD TIME 72 STANDBY HOURS AUX CURRENT RECHARGE LOAD TIME 12 A-hr 300 mA 7 hrs WA WA WA WA 15 A-hr 430 mA 9 hrs 50 mA 7 hrs 10 mA 7 hrs 18 A-hr 5W mA 11 hm 100 mA 9 hrs 50 mA 9 hrs 21 A-hr 680 mA 14 hm 150 mA 10 his 90 mA 10 hrs 24 A-hr SW mA 17 hm 200 mA 12 hm 130 mA 12 hrs 27 A-hr 930 mA 21 hm 250 mA 14 hrs 180 mA 13 hrs 30 A-hr 1.05 A 26 hm 300 mA 16 hm 220 mA 15 hm 33 A-hr 1.18 A 32 hrs 350 mA 18 hrs 260 mA 17 hrs 36 A-hrF42 1.30 A 40 hm 400 mA 20 hm 300 mA 19 hrs A-hr 1.30. A 47 hm 500 mA 25 hrs 380 mA 23 hrs Finure 1 - BATTERY REQUIREMENT. D8112 SYSTEM 74-04777-000-A 9/87 C 1987 Radionics, Inc. F-8132-030-020 Determining Battery Requirements for D6112 Systems To determine the battery requirements for a D6112 system, complete the table in Figure 2. The total Amp -hour requirement for NFPA 74 systems can be calculated using the formula below. (The D6112 is not listed for commercialfire applications.) NOTE: The formula below can be modified for other applications. x 24) + ( x . 1/15) Column A Hrs Column B (4 min.) Total Total Accessory Quantity Model Used D6112 t D610 D620 D630 D640 D 127 IEI 725L ESL 425C or CT M801,2,3 M806 10% _ Contin- Total gency A.H. Factor In Alarm Maximum Current Each Total Unit System 250 x Ouan. = 250 65 x Quan. = 80 x Quan. = 90 x Quan. = 75 x Ouan. = 55 x Quan. = 6 x Quan. = 40 x Ouan. = 60 x Ouan. = 100 x Ouan. = Ratings of other devices in the system which are not shown above: x Quan. = _ x Quan. = x Quan. = _ x Quan. = Column A Column B Total = Total - AC Power Off Minimum Current Each Total Unit System 175 x Ouan. = 175 40 x Quan. = 50 x Ouan. = 60 x Ouan. = 60 x Quan. = 5 x Quan. = 2 x Quan. = 05 x Quan. = 0 x Quan. = 0 0 x Ouan. = 0 Figure 2: D6112 CURRENT RATING CHART Use the table in Figure 3 to determine the auxiliary current available for your application, based on the total battery Amp -hours and battery standby hours required. (72 hours of standby time are required to meet U.L. Bank Safe and Vault specifications.) Figure 2 also shows corresponding battery recharge times. (The recharge time cannot exceed 48 hours for U.L. certificated applications.) The Amp -hours shown in Figure 3 represent the combinations of 6 Amp -hour and 15 Amp -hour batteries that can be installed in a D8132/D6112 system. Once satisfactory recharge time, standby time, Amp -hour, and auxiliary current values are identified, determine the combination of batteries required for your application. (The D6112 can support a maximum of two 6 Amp -hour batteries, and the D8132 can support a maximum of two 15 Amp -hour batteries.) For example, a system which requires 21 Amp - hours can sustain a maximum auxiliary current load of 280 mA at 12 VDC for 60 hours , and requires 16 hours to fully recharge the batteries. One 15 Amp -hour battery and one 6 Amp -hour battery can be installed to meet the 21 Amp -hour requirement. NOTE: The figures which appear in the table are approximations. These figures will vary depending upon the condition of the batteries installed. D6112 MAX. CONTINUOUS AUXILIARY CURRENT LOAD 3 BATTERY RECHARGE TIMES TOTAL BATTERY AMP HOLiS 24 STANDBY HOURS AUX CURRENT RECHARGE LOAD TIME 60 STANDBY HOURS AUX CURRENT RECHARGE LOAD TIME 72 STANDBY HOURS AUX CURRENT RECHARGE LOAD TIME 12 A-hr 430 mA 10 hnt 130 mA 8 We 90 mA a his 15 A-hr 550 mA 141TS 190 mA 11 his 130 mA 10 hrs 18 A-hr 880 mA 19 hrs 230 mA 13 his 180 mA 13 hrs 21 A-hr 800 mA 26 hrs 280 mA 16 hrs 220 mA 15 hrs 24 A-hr 930 mA 35 hrs 330 mA 19 hrs 260 mA 18 hrs 27 A-hr 1.05 A 48 hrs 380 mA 22 hrs 300 mA 21 hrs 30 A-hr 1.18 A NOTE 430 mA 25 hrs 340 mA 24 hrs 33 A-hr 1.30 A NOTE 490 mA 29 hrs 380 mA 27 hrs 38 A-hr 1.43 A NOTE 530 mA 33 hrs 430 mA 30 hrs 42 A-hr 1.68 A NOTE 630 mA 43 hrs 510 mA 38 hrs NOTE: The battery recharge time exceeds the 48 hour maximum specified by U.L. 74-04777-000-A 9/87 Figure 3: BATTERY REQUIREMENT, D6112 SYSTEM D8132 Operation/Installation Instructions Page 2 1987 Radionics, Inc. F-8132-030-030 Installation The D8132 Battery Charger Module and additional batteries are typically mounted inside a separate enclosure (such as the 3 MOUNTING D8103, the D8108A, or the D8109) adjacent to the SCREWS Control/Communicator enclosure. If two batteries are required in your system, connect both of them to the D8132. If three batteries are required, connect two batteries to the D8132, and one 6 Amp -hour battery to the ControVCommunicator. If four batteries are required, connect two batteries to the D8132 and two 6 Amp -hour batteries to the Control/Communicator (using the Radionics D122 Dual Battery Harness). D8132 MODULE Install the D8132 module in one of the vertical mounting locations (see Figure 4). The upper mounting location is recommended if two 12V 15 Amp -hour batteries will be installed. Fasten the module in place with the three mounting screws provided. The green AC power LED on the D8132 can be 2 MOUNTING LOCATIONS viewed if a knock -out is removed on the front door of the enclosure. Figure 4: INSTALLATION Wiring 1 Two cables are provided with the D8132 module for connections to the Control/Communicator and additional batteries. Connect the black wire of the four -pin connector cable (see Figure 5) to the Battery Negative terminal (D8112 terminal 4 or D6112 terminal 3). Connect the red wire to the Battery Positive terminal (D8112 terminal 5 or D6112 terminal 4). IMPORTANT: Do NOT short these wires! 2 Plug the four -pin connector cable into J1 on the D8132. 3 Connect the two gray wires to a separate 16.5V 40VA transformer (Radionics model D1640, supplied with the D8132). Do NOT connect the gray wires to D8112 or D61.12 terminals 1 and 2. 4 Connect the D1640 transformer to a 110-120VAC 60 Hz commercial power outlet that is not controlled by a switch. Do not share this transformer with any other devices. IMPORTANT: Connect the D8132 transformer and the Control/Communicator transformer to the same AC branch circuit. 5 Plug the six -pin connector cable into J2 on the D8132. 6 Connect a red wire to the positive terminal, and a black wire to the negative terminal of each auxiliary battery. (One or two auxiliary batteries can be installed.) 7 Program the Control/Communicator for battery supervision (see the D8112:MAIN or D6112:MAIN Program Entry Guide). AC BRANCH CIRCUIT D1640 (138112) or 01625 (D6112) TRANSFORMER D1640 TRANSFORMER CONTROL/ I I ' D8132 I MODULE I COMMUNICATOR I I I 1 I i GRAY J1 I 1 CLASS 2 I GRAY I 2 TRANSFORMER I I I et- BLACK I I J2 I IIRED I Positive RED BLACK`"" I ift t I RED BLACK I 22 t I I 1 t I I I I I I D126 12V 6 A-h BATTERIES 112V 6 A-h or 12V 15 A-h BATTERIES I NOTE The battery terminals for the Battery Negative Battery Positive ControVCommunicators are as follows: D8112: Terminal 4 Terminal 5 D6112: Terminal Terminal 74-04777-000-A 9/87 Figure 5: D8132 WIRING D8132Opera tion/Installation Instructions Page 3 1987 Radionics, Inc. F-8132-030-040 Using the D8132 with Batteries as a Stand -Alone Power Supply The D8132 module can operate as a 12V stand-alone power supply. Stand-alone operation does not have battery supervision or load shed, and therefore is not recommended for critical bads requiring supervision. The D8132 Module is not U.L. listed for "stand-alone" operation, and cannot be used in this configuration for certificated applications. The table in Figure 6 displays auxiliary current and battery recharge values for various battery Amp -hour combinations. (These values will vary depending upon the condition of the batteries installed.) MAXIMUM AUXIUARY CURRENT LOAD AND BATTERY RECHARGE TIMES TOTAL BATTERY AMP -HOURS 24 STANDBY HOURS AUX CURRENT RECHARGE LOAD TIME 80 STANDBY HOURS AUX CURRENT RECHAARGE LOAD TIME 72 STANDBY HOURS AUX CURRENT RECHARGE LOAD TIRE 8 xhr 250 mA 8 hrS 100 mA 5 hrS 80 mA 5 hm 12 A-hr 500 mA 12 hm 200 mA 10 hrS 170 mA 10 hrS 15 A-hr 830 mA 15 hm 250 mA 13 hM 210 mA 13 hrS 21 A-hr BBD mA 23 hrS 350 mA 18 hrs 290 mA 18 hrS 30 A-hr 1 1.25 A 38 hm SOD mA 25 hrs 420 mA 25 hrS Figure 6: STAND-ALONE POWER SUPPLY SPECIFICATIONS Install the D8132 Module as shown in Figure 7 for stand-alone power supply operation. O1a40 1 TRANSFORMER I Dela2 1 MODULE cgs RED DEVICESVI 1 12 1 J2 1 am RED 1 I BLACK 1 1 RED BLACK 1 1 I 1 1 1 1 I 1 112V S A -a or 12V 15 A -a BATTERIES I Figure 7: D8132 AS A STAND-ALONE POWER SUPPLY A form of battery supervision can be provided to a D8132 "stand-alone power supply" if a ControVCommunicator and the D8132 Module are connected to the same AC branch circuit (see Figure 8). The ControVCommunicator will indicate AC power failures and restorals which also affect the D8132. The stand-alone power supply standby time should be greater than the ControVCommunicator system standby time. This ensures that devices connected to the D8132 will be powered at least as long as devices connected to the ControVCommunicator. The stand-alone power supply and the ControVCommunicator must share a common ground. NOTE: The D8132 Module is not U.L. listed for operation in this configuration, and this configuration is not recommended for critical loads requiring supervision. AC BRANCH CDICUT 01040 (D0112) a D/s2e (D0112) TRANS ORMER L11CONTROL/ . COMMUNICATOR I 1 CLASS a 1 2 TR14FORkM BLACK 1 1 Siy pea" RED I I D/22 1 I 1 ; t I 0126 /2V a A•% BATTERIES 01640 TRANSFORMER 08132 1 S MODULE 1 a Jt I DEVICES RED .12 V J2 I am I RED 1 BLACK 1 I RED BLACK I 1 1 1 4 * I 1 ( 12V a A-ft or 12V 10 A-% BATTERIES _ J C *olCAwvmrk w - Shr6Alono Pm-- StalcM COMMON D NOTE: The battery terminals for the Co ntraWCommuniators are as foll ws: D8112: Terminal 4 Terminal 5 D8112- Torminei 3 Temrrrl 4 Figure 8: STAND-ALONE POWER SUPPLY WITH PARTIAL SUPERVISION 1800 ABBOTT ST., P O BOX 80012, SALINAS. CA 93912-0012Radionics A CUSTOMER SERVICE. (800) 538-5807. IN CA (800) 682-9865 F-0192-031-010 R' A D I ® N I C S D192A Sell Circuit Supervision Module Installation Instructions Description The D192A Bell Supervision Module is used with the Radionics D8112 Control/Communicator (equipped with a Command Center) to supervise the wiring from the D8112 to remote fire alarm indicating devices (in compliance with U.L. 864, NFPA 72A). The D192A powers the alarm indicating devices from either the panel alarm output or from an auxiliary power supply. This feature allows the system to support more indicating devices on longer wire runs. It also allows the use of 12 or 24 volt alarm indicating devices (requires the appropriate power supply). The wiring is supervised for open circuit, short circuit, or grounded circuit faults. The D192A Module is also used as a filter to stabilize the bell output voltage of the D8112 in the event that the battery power is interrupted. Several D192A Modules can be connected to the same zone of the D8112 however, if you want individual annunciation of each bell circuit, connect the D192A to a single point on a D8128 OctoPOPIT Module. The D192A Bell Circuit Supervision Module is designed to use only polarized (DC) indicating devices (see the Specification for Radionics fire bell model numbers). NOTE: Not all signaling devices are polarized and those used with the D192A Module must comply with the following parameters: Must be polarized (DC) equipment Must match the voltage rating of the alarm power supply Must not exceed the current rating of the alarm power supply Must not exceed 2 Amps per D192A Module Operation During normal operation the bell circuit is supervised for the following faults: opens, shorts, and grounds. If any of these conditions are detected, the D8112 Control/ Communicator indicates a TROUBLE condition both audibly and visually at the Command Center, and can be programmed to report to a Central Station. When the D8112 ControVCommunicator detects a fire alarm, the bell output circuit triggers the D192A to supply circuit power from the D8112 Alarm Output orthe optional Power Supply to the indicating devices. In a reporting system, if the bell circuit is faulted a TROUBLE report is sent; then if the Alarm Output activates a RESTORAL is sent. When the Alarm Output power is removed, if the circuit is still faulted, a TROUBLE is sent. Disconnect Switch The D192A Module has a toggle switch which is used to disconnect power to the fire alarm indicating devices while testing the alarm panel.' When the toggle switch is put in the SILENCE (OFF) mode, the D192A presents a short circuit to the zone input of the D8112 Control/Communicator, causing a trouble response. When the D192A Module is mounted in the D8112 enclosure, the toggle switch cannot be used without access to the interior of the enclosure. Programming Supervisory Zone: Program the D8112 zone code (protective zone supervising the D192A) with the four digit code: 4161. Program custom Alpha display text for the protective zone supervising the D192A (e.g.: BELL CKT). Trigger Output: Program the D8112 alarm output response, item #75 Pulse: Yes or No. Item #75 Pulse determines how zones with pulsed bell output zone codes respond to alarm conditions. When 75 Pulse is programmed Yes: Teminal6 Terminal? Pulse +12VDC Steady +12VDC When 75 Pulse is programmed No: Terminal Terminal? No Output Steady +12VDC NOTE: A D136 plug-in relay must be installed in D8112 socket K6 for terminal 7 operation. D192A Installation Instructions 74-05515-000-A 1/90 Page © 1989-1990 Radionics, Inc. F-0192-031-020 Installation For U.L. installations, the following conditions must be met: Both the D8112 and the power supply must be installed in the same room, not more than 20 feet apart. The interconnecting wiring between the D8112 and the power supply must be in conduit. 1. Mount the D192A Module(s) inside the Contrd/Com- municator enclosure, in any of the four 3-hole mount- ing positions on the inner right and top of the enclo- sure using the three mounting screws provided. 2. Depending on the power supply used, wire the D 192A according to Figures 1, 2 or 3. The power for both the power supply and the 3. D8112 shall be from the same dedicated branch circuit. The power supply fault conditions must be super- vised by a U.L. listed end -of -line relay, as shown in Figure 2. The plug-in transformers for both the power supply and the D8112 must be installed in the Model 8004 box that is mechanically secured in place. Multiple D192A Modules can be connected to the same zone. Install the 560 Q, 2 watt EOL resistor (part #15- 03130-005, included with the D192A Module) be- yond the last indicating device. Install the D105FL EOL resistor (part #15-03130-001) on the last D192A, as shown in Figures 1, 2 and 3. 560 n 2 W EOL 560 n 2 W EOL 1. NO EXTERNAL AUXILIARY POWER SUPPLY. 15-63130-005) 15-03130-005) 2. MAXIMUM ALARM OUTPUT IS 1.4 AMP MINUS AUXILIARY POWER DRAW. 3. 2.0 MAXIMUM AMP DRAW FOR EACH INDICATING DEVICE CIRCUIT. POLARIZED ALARMC+ INDICATING DEVICES I PL S CRT PL S I I air PL S OQ I PL S 1 cou 0 wTR P I I I N INI I pARM TERMINUAL P L RRp I ZON 4 P S TERMINAL ZOPNE L S ZONE I 1 K n EOL RESISTOR I commoN 4 P s I cou L S cam D105FL) I AUXILIA I OWWER 3 P S L SPWRAUX I I j D8112 FIRST LAST j I D192A D192A I L---------------------------------------------------1 PL = POWER LIMITED O = SUPERVISED ENCLOSURE FIGURE 1: CONNECTION WITH NO EXTERNAL POWER SUPPLY D192A Installation Instructions 74-05515-000-A 1 /90 Page 2 01989-1990 Radionics, Inc. F-0192-03 1-030 I 12/24 VOLT EXTERNAL AUXILIARY POWER SUPPLY. MAXIMUM ALARM OUTPUT = THE RATING OF THE POWER SUPPLY. 2.0 MAXIMUM AMP DRAW FOR EACH INDICATING DEVICE CIRCUIT. r---------------------=-------- TYPICAL: I NORMALLY OPEN I DRY CONTACT RELAY U.L LISTED I I (Supervision of power 12124 VDCIsupplyfoultcondition.) POWER SUPPLYi I POWER SUPPLY I SUPERVISION I I MODULE t - 12/24 VOLT I BATTERY 1 CONDUIT-11 i-- --------------------- Ci T I car PL corn 1 q,R 560 O 2 W EOL 015-03130-005) 560 02 W EOL 015-03130-005) 1 K Q EOL RESISTOR Di05FL) AUXIL _ POWER PAREI 1 1 I D8112 FIRST LAST D192A D192A L--------------------------------------------------- I POWERLIMITED OS SUPERVISED — — — ENCLOSURE FIGURE 2: CONNECTION WITH 12V OR 24V.EXTERNAL POWER SUPPLY 1. 12/24 VOLT EXTERNAL AUXILIARY POWER SUPPLY. 2. MAXIMUM ALARM OUTPUT = THE RATING OF THE POWER SUPPLY. 3. 2.0 MAXIMUM AMP DRAW FOR EACH INDICATING DEVICE CIRCUIT. 560 n 2 W EOL 415- 03130-005) 560 n 2 W EOL 415- 03130-005) i OD18101014 1 D8132 1 I OPOLARIZED ALARM INDICATING — I O 0 12 VOLT I I I I DEVICES CONDUITS......... BATTERY cicr PL S cia PL S 5 1 I D8o04 P cKr PL S cla PL S 1 I caw cou I 16. 5 VAC 40 VA 1 In TRANSFORLIER 2 E 77 PNRiIN 1 PL PLTERMINAL I1I z I PL S PL S IINE TERtIN1 K a EOL RESISTOR COMLION 4 S cow PL S CON I (D105FL) AMwE& Y 3 P S PWR PL S 1 a I 1 IN IN I I BATTERY POSITIVEFIRST I LAST I D8112 D192A L--------------------------------------- D192A I I POWER LIMITED SO - SUPERVISED ENCLOSURE FIGURE 3: CONNECTION WITH D8132 D192A Installation. Instructions 74- 05515-000-A 1/90 Page ©1989-1990Radionics,Inc. F-0192-031-040 Specifications D192A Operating Voltage: 12 VDC supplied by D8112 ControUCommunicator, Auxiliary Power and/or External Power Supply Alarm Output Voltage: 12VDC supplied by D8112 ControUCommunicator, Alarm Power Supply 12VDC or 24 VDC supplied by Auxiliary Power Supply Module is rated at 2.0 Amps at 12 or 24 VDC D192A Module Current: Idle: 15 mA Alarm: 50 mA Maximum rating of module alarm circuit is 2.0 Amps NOTE: Power draw will come from an external power supply if one is used (see Figure 2). Dimensions: 5"Lx3"W Bell Circuit End -of -Line Resistor: Radionics part number 15-03130-005: 560 Q, 2W Radionics Indicating Devices: Radionics M801 Motor Bell (four -wire, 6" gong): 60mAat12VDC Radionics M802 Motor Bell (four -wire, 8" gong): 60mAat12VDC Radionics M803 Motor Bell (four -wire, 10" gong): 60 mA at 12 VDC Contact Rating of D136 Relay in D8112 Control/ Communicator: 2 Amps max at 12 VDC Power Supplies: Only the following power suplies can be used for U.L. installations: AlanrnSAF: 24V, 4A AS-PS5-BFS-24-UL 12V, 4A AS-PS5-BFS-12-UL Alarm-Saf power supplies provide a voltage output to indicate trouble. Installation requires U.L. listed relay device to provide dry contact connection to the Radionics control unit's supervisory zone. BRK Models A77-716-01 (9.0 t-18.5 VDC) & A77-716-02 19.0 to 31.5 VDC) or equivalent devices may be used. 1800 ABBOTT ST., P.O. BOX 80012, SALINAS, CA 93912-0012 Radionics TECHNICAL SUPPORT: (800) 538-5807 F-0122-030-01 R A D I O NI C S megalarrn D122 Dual Battery Harness Installation Sheet Description The Model D122 Dual Battery Harness protects the installer when connecting two batteries, in parallel, to the D8112 Control/Communicator. Although the D8112 Control/ Communicator is internally protected, dangerous current overloads can result with just one of the two batteries reversed. This amount of current can be extremely hazardous to human safety. The Dual Battery Harness eliminates the hazards of series connected batteries by utilizing a thermal circuit breaker to govern the circuit. The positive side (red wire) of the harness is in series with the circuit breaker. It breaks the electrical circuit of the second battery when the thermal rating is exceeded. This prevents the battery circuit from creating a potentially harmful current overload condition. Installation When installing two batteries, follow the steps listed below 1. Connect the battery leads and the harness leads (stripped ends) to the control/communicator terminals. OBSERVE POLARITY! Terminal 4 for negative (black wires), and terminal 5for positive (red wires). Always connect the leads to the control/communicator before connecting the batteries! 2. Connect battery A to the battery wires, observing polarity. The battery circuit is now protected by an internal circuit breaker contained in the D8112 Control/Communicator. 3. Connect battery B to the battery harness slip-on spade connectors, observing polarity. The circuit for this battery is protected by the circuit breaker contained in the harness. 4. Both batteries are now properly connected. TERMINAL 4 NEGATIVE (BLACK LEA TERMINAL 5 POSITIVE (RED LEADS) BATTERY A BATTERY B MODEL D122 DUAL BATTERY HARNESS 74-03178-000 Rev. B 11/86 Radionics 1800 ABBOTT ST., P.O. BOX 80012, SALINAS, CA 93912-0012 CUSTOMER SERVICE: (800) 538-5807, IN CA (800) 682-9865 F-0128-030-010 R A D I N I C S D128 Dual Phone Line Switcher Operation and Installation Instructions Description The Omegalarm D8112 Control/Communicator uses the Model D128 Dual Phone Line Switcher to transmit over a second phone line when the primary phone line is determined to be inoperable. The D128 module allows the D8112 to periodically test the phone lines for usage and integrity and to report to the central station (via the working phone line) when a phone line is faulty. As the D128 switches between telephone lines during testing, a slight clicking sound will be emitted from the D128. This sound is generated from the relays switching the phone lines. The D128 is protected from high voltage transients on the phone lines by gas discharge tubes. Operation The D128 always uses the primary phone line to initiate calls (except in Automatic Test Reports, see 8112 Program Entry Guide for details). If the primary line is used for two attempted calls and fails to reach the central station; or if the primary line is detected by the D8112 to be faulty, the D8112 switches to the second line and adds to the original report a telephone line trouble report. The primary line reports as ZONE B and the secondary line reports as ZONE C. Program Execution Failure Annunciation The D128 module has a circuit that monitors the D8112 Control/Communicator's CPU (Central Processing Unit). If the D8112's CPU fails to execute its program correctly, the D128 will sound an audible trouble signal. This signal cannot be reset while the CPU is failed. This is called the "watchdog" feature and is required for all commercial fire alarm installations including those without signaling connections such as the NFPA 72A Local. Status LEDs Four LEDs mounted on the front edge of the D128 module display primary phone line failure, secondary phone line failure, failure to communicate, and AC power status. The D8112 mustbe programmed to drive the LEDdisplayof the D128 module. See program item #14 PhLite. When programmed and operating normally, only the green AC power status LED should be lighted. Phone Line Failure LED An amber phone line status LED lights on the D128 module when the D8112 Control/Communicator detects less than 25VDC or 10mAof current across tip and ring of the telephone line. The D8112 monitors the faulty telephone line for a programmable interval program item #11 PhSupv) before indicating a trouble condition. Failure to Communicate LED An amber LED lights when the D8112 Control/Communicator has attempted ten times to communicate with the central station, but has failed. The LED is cleared by entering the arm/disarm passcode into the D8112 Control/Communicator Command Center. AC Power Status LED The green AC power status LED is lit when the D8112 Control/Communicator is running onAC power. When the D8112 is not running on AC power the LED is not lit. Phone Cord Supervision The three phone cords used to connect the D128 module to the D8112 Control/Communicator and to the telephone system can be supervised for proper connection when using RJ38X Telephone Jacks. With the RJ38X jacks and the phone cords installed, terminal 10 of the D8112 Control is a continuity reference which can be wired in series with a 1000 ohm resistor and connected to a protective zone input. When any of the three phone cords are removed from the jacks, the protective zone is faulted (opened). The protective zone used for phone cord supervision should be programmed with a zone code as follows: 3163 Buzz on phone cord fault, priority zone 3161 Buzz on phone cord fault, non -priority zone SD I ENE It I- OUT VUIOC. swnc Neo a pow D 0 co.MON oao EEC E vE. roNEs 8 eE ,"OR 1000 OHM RESISTOR 74-03151-000-B 3/89 1— SN11FE- SEIEcI B GROUND START rEEco cono Nra .. oo on, 11 13 1C 16 ll 19 20 22 •ccESS, Moaei No TV oaei No l6 CONNEC IN Figure 1: PHONE CORD SUPERVISION 1987-1989 Radionics, Inc. F-0128-030-020 D8112 Programming Checklist 1. Program item #11 PhSupv with an entry from 10 to 150 for 8112 telephone line supervision. 2. Program item #13 2Line YES when using the D128 Module. 3. Program item #14 PhLite YES to use D128 status LED's. 4. Program item #15 PhT/R YES to report phone line trouble and restoral. CONNECT TO 0 _ TO 8112 8112 ACCESSORY CONNECTOR ORN TERMINAL 1 J26) VIA RIBBON CABLE O PHONE JACK O BLK - TO 8112 TO PRIMARY TERMINAL 4 RJ38X AC PHONEJACK POWER LED TO SECONDARY RJ38X PRI FAIL LED PHONE JACK I SEC FAIL TO 8112 O LED PHONE JACK Comm FAIL FAIL LED p FIGURE 2: D128 MODULE PHONE CORD CONNECTIONS AND WIRING Installation Checklist 1. The Model D128 Dual Phone Line Switcher mounts inside the D8112 universal enclosure on the lower right hand side. Fasten the module to the inside of the enclosure with the screws provided. 2. The D128 has two flying leads. Connect the green lead to either Terminal 1 or Terminal 2 on the D8112 for AC power. 3. Connect the black lead on the D128 to Terminal 4 on the D8112. This provides transient protection for the two incoming phone lines. This is also ground reference for the AC LED. 4. Connect the ribbon cable to the connecting jack (J-4) on the D128 and to the D8112 accessory connector jack (J-26) on the lower right side of the D8112 faceplate. The cable only fits one way. 5. Connect the primary phone line to the J-1 phone jack on the D128 module. 6. Plug the secondary phone line into the J-2 jack on the D128. 7. Plug the short (2 ft.) phone connector cord (provided with the D128 package) into J-3 on the D128 and into the telephone cord connector jack on the lower left corner of the D8112 faceplate. Specifications Current Required: Idle (average): 14 mA Maximum (average): 45 mA Power: Supplied by the D8112 Control/Communicator. Status Indicators: LEDs indicate AC power, primary phone line failure, secondary phone line failure, failure to communicate. Program Execution Failure Sounder annunciates CPU failure. Wiring Connections: 3 eight -conductor phone jack connection blocks. 1 sixteen -conductor ribbon cable connecting jack. 2 flying leads (green, black). RadionicsN 1800 ABBOTT ST., P.O. BOX 80012, SALINAS, CA 93912-0012 CUSTOMER SERVICE: (800) 538-5807 F-0125-030-010 R A D I O N I C S D125 Powered Loop Interface Module Operation and Installation Instructions Features Two separate powered protective loops Connect 10 smoke detectors per loop Connect 50 glass break detectors per loop Transmits individual loop trouble and alarm to Control/Communicator Command center or central station reset capability U.L. listed Description The Omegalarm D125 Powered Loop Interface is a module which interfaces a two -wire powered loop to a D8112 Control/Communicator protective zone. Two separate loops can be connected to the D125 module, each with an individual alarm/trouble output. These loops are powered with nominal 12 VDC to enable connection to two -wire detection devices. Any normally -open contact initiating device can be used with the D125 Powered Loop Interface. Operation The D8112 Control/Communicator's switched auxiliary voltage output (terminal 8) supplies power for the D125 Powered Loop Interface. The switched power supply allows all detectors connected to the D125 module to be reset by interrupting power. Power is interrupted for up to four seconds by entering Command 4 7 at an Omegalarm command center. See the Switched Aux Power section of the D8112 Control/Communicator Operation and Installation Manual for programming and detailed operation instructions. Installation The D125 module mounts in any D8112 enclosure (D8103, D8108A, or D8109) with three mounting screws. See Figure 1 for mounting locations. For wiring connections, see Figures 2 and 3. Specifications Operating Voltage: Nominal 12 VDC supplied by the D8112 Control/Communicator from the Switched Aux Power (D8112 terminal 8) NOTE: Do NOT install a fuse in series with D8112 terminal 8 and the D125. Terminal 8 is internally protected with a circuit breaker. Operating Current: Non -alarm (idle) 17 mA Alarm (maximum) 100 mA s FOUR ACCESSORY tt ? * LOCATIONS MOUNTING to ,{7 OMEGALARM 9112 o= RESERVE FOR 0128 MODULE frLL Figure 1: MOUNTING LOCATION 74-03123-000-B 9/87 0 1987 Radionics, Inc. F-0125-030-020 Wiring Loops The D125 Powered Loop Interface has two loop inputs, labeled: Loop A A+ LOOP (Terminal 9) A- LOOP (Terminal 7) Loop B B+ LOOP (Terminal 8) B- LOOP (Terminal 6) Each loop is powered with nominal 12 VDC and must have a 1.5 KO end -of -line resistor (part #D108F, with the unit) wired in parallel with the detectors to supervise the circuit. The D125 transmits an alarm (short circuit) to the D8112 when the high (+) and low (-) side of the loop are shorted together. The D125 transmits a trouble (open circuit) to the D8112 during the following conditions: a) The detection loop is opened. b) The D125 Interface module is not powered. c) Either the high (+) side of the loop or the low (-) side of the loop is shorted to ground. Program the control panel with zone codes which produce an alarm on a shorted loop and a trouble on an open loop. NOTE: Do NOT install smoke detectors and glass break detectors on the same loop. D125 TERMINAL BLOCK 8112 CONNECTIONS EARTH GROUND COMMON COMMON ZONE A (CONNECT TO ZONE INPUT) ZONE 8 (CONNECT TO ZONE INPUT) SWITCHED AUX POWER MUST BE PROGRAMMED AND HAVE RELAY IN SOCKET K8) E ONLY ONE WIRE TO 8112 COMMON IS REQUIRED Figure 2: MODULE WIRING D125 TERMINAL BLOCK POSITIVE TO ZONE A DETECTORS POSITIVE TO ZONE B DETECTORS NEGATIVE TO ZONE A DETECTORS NEGATIVE TO ZONE 8 DETECTORS OBSERVE POLARITY WHEN WIRING DETECTION LOOPS. DO NOT CROSS WIRE ZONE CONNECTIONS, I.E. ZONE A («) AND ZONE 8 (-) NOTE: 00 NOT MIX SMOKE DETECTORS AND GLASS BREAK DETECTORS ON THE SAME LOOP. A RESISTOR (PART •106n IS REOUIRED AT THE END OF EACH DETECTION LOOP. Figure 3: LOOP WIRING i I I 1800 ABBOTT ST P O BOX 80012. SALINAS. CA 93912-0012Raciionics` CUSTOMER SERVICE (800) 538-5807 kzz LISTED Approved PUSH THEN.` P-U L Lm \% DO,WN A CALIFORNIA STATE FIRE MARSHAL LISTED The Fire-Lite Model BG-10 non -coded, dual action, manual station is the very latest advancement in manual alarm stations. It's construction is of a space-age plastic, Lexan, which is virtually indestructable; the back plate is of 16 ga, steel. It will operate with or without a break glass tube. Switch Rated 3 Amps @ 125VAC. The BG-10 is available in the following models: BG-10 Standard unit, dual action, break glass or non -break glass, with terminal block. BG-10A As above but with an extra switch to provide annunciator contacts, n.o. BG-1 OT The standard unit with key test feature. BG-10P The standard unit set for pre -signal operation. BG-10L A standard unit with key locking feature instead of the normal Allen key type locking BG-1 OWP Standard unit, dual action with terminal block, weatherproof. BG-TR Trim Ring for BG-10 Series. The "A" option is available with the "T" or "L". However the "T" and "L" models may not be combined. Note: Can be mounted on single gang or 4" square box with BG-TR trim ring. SB-10 Surface back box for all BG-10 models. WP-10 Weatherproof surface back box for BG-10 WP. Switch Rated 3 Amps @ 125VAC. Fire I V® A La r c 12 Clintonville Road 1 V Northford, CT 06472-1001 IncorPoraTeD (203)484-7161 0 800-627-FIRE FAX (203) 484-71 18 v..; a f ' F I-R . k b 40USH P.U;LL. y DOWN. FIreUM ALarr J 1c° i.af• k THE SIGNAL SOURCE'"' Wheelock's new EH -Series Electronic Horns and EHS- Series Electronic Strobe Horns offer outstanding ad- vantages over conventional electromechanical horns in performance, packaging, and economical installa- tion. Standard broadband horn sound output is elec- tronically produced to provide up to 103 peak dB at 10 feet with only 25 milliamps of current. The solid state design minimizes concerns about in -rush current and RFI noise while providing high reliability and long op- erating life unmatched by conventional horn designs. The compact package styles incorporate durable, high -impact thermoplastic construction to provide at- tractive appearance and convenient installation to standard 4" backboxes. All models are available with factory attached strobes for visual signaling in unison with the audible alarm (EHS-Series) or independently EH-WS Series). Features Solid state construction for unmatched performance, dependability, and economy compared to conven- tional designs. Broadband horn sound output with 103 peak dB for high audibility. Low current draw (0.025 Amps at 24 VDC) to min- imize power supply and wiring costs. Wide input voltage range ensures system compati- bility and allows 24 VDC horns to work on 12 VDC also, using filtered or unfiltered voltage. Flush mounting to standard 4" backboxes without need for separate trimplate. Full range of attractive mounting options for indoor or outdoor installations. High impact thermoplastic design for durable service and low shipping costs. Strobe horn models with single input for fast tandem wiring or dual inputs for independent operation of horn and strobe. Screw terminal inputs for convenient in -out wiring. UL listed for Fire Protective Service. SERIES ELECTRONIC HORNS SERIES EH-E EHS-E ERIEa EH-D EHS-D Specifications The Alarm Signals shall be Wheelock EH/EHS Se- ries Electronic Horns and Strobe Horns. They shall be solid state construction and shall produce a broadband horn sound output of 96 dBA (103 peak dBA) at 10 feet in an anechoic chamber. Maximum current shall be 0.025 Amps at 24 VDC (0.050 Amps at 12 VDC) for horns and 0.050 Amps at 24 VDC 0.100 Amps at 12 VDC) for strobe horns. The strobes shall produce 12,000 peak candlepower at one flash per second. Mountings for surface, semi - flush, flush, and outdoor installation shall be pro- vided with screw terminals for in -out field wiring of up to #12 gauge wire. All models shall be UL Listed for Fire Protective Service. WHEELOCK, INC. - 273 BRANCHPORT AVENUE - LONG BRANCH, N. J. 07740 - (201) 222-6880 FAX: 201-222-8707 t dBA at 10 Feet MountingOptions Wiring Approvals12VDC24VDC OC Typical Peak Typical Peak 5 90 98 96 103 B. F Fig. 1 UL. CFM ULC, BSA 96 103 5 90 98 96 103 A, C, D, E 96 103 Model Input Voltage Input Current dBA at 10 Feet Peak Candle- Mounting Wiring ApprovalsNumber VDC) AMPS) Typical I Peak power Options EHS-DLI-W-VF-R 24 0.050 96 103 12,000 B, F EHS-DL2-W-VF-R 12 0.100 96 103 12,000FELCTRONICOBEHORNS Fig. 1 UL, CFM Single Input)I EHS-ELI-W-VF-R 24 0.050 96 103 12,000 A C, D, E EHS-EL2-W-VF-R 12 0.1- 96 103 12,000 Horn Strobe Model Input Input dBA at 10 Feet Input Input Peak Mounting Number Voltage Current Voltage Current Candle- 0 tions Wiring Approvals VOC) (AMPS) Typical Peak (VDC) (AMPS) power p EH-DLI-WS-24-VF-R 24 0.025 96 103 24 0.025 12,000 ELECTRONIC EH-DL2-WS-12-VF-R 12 0.050 96 103 12 0.050 12,000 B' F UL, CFMSTROBEHORNS EH-ELI-WS-24-VF-R 24 0.025 96 I L 0.025 12,000 Fig. 2 ULC' Dual Input) A, C, D, E EH-EL2 WS 12 VF-R 12 0.050 96 0.050 12,000 t Due to continuous development of our products, specifications and offerings are subject to change without notice See Note 5. in accordance with Wheelock, Inc. standard terms and conditions. NOTES: 1. Horn models with 12/24 input voltage can be used on 12 VDC or 24 VDC systems. All models are UL listed to operate over ±20% of nominal input voltage and can be used with filtered or unfiltered (full wave rectified) voltage. 2, dBA is measured in an anechoic chamber with fast meter response typical) and peak meter response (peak). 3. Standard strobe horns have white lens with red "Fire" lettering. Minimum light output is 1.5 candela. 4. Single input strobe horns are recommended for fast wiring when horn and strobe operate in unison on continuous alarm systems. Dual input strobe horns are recommended for coded alarm systems and for independent control of the horn and strobe. 5. Approvals: UL = Underwriters Laboratories, CFM = California Fire Marshal, ULC = Underwriters Laboratories of Canada (24 VDC, 0.050 A strobes), BSA = NYC Board of Standards and Appeals. Mounting Options All models shown with optional strobe. Backboxes and plates ordered separately.) Wiring A. SURFACE B. SURFACE C. SURFACE X% m DBB a SBB J! li APw ; DBBSERIESSERIESSERIES ' = EH-E EH-D EH-E EHS-E EHS-D EHS-E D. OUTDOOR E. SEMI -FLUSH F. FLUSH WBB 4" sq. 2' s" deep backbox SERIES \ r Y , SERIESSFPSERIES EH- E EHS E EH E EHS- E r EH -D EHS D 4' sq. t 11 2' deep backbox FIG. 1 STROeEI HORN t — Preced, nq Next Signal Signal or FACP v EOL FIG. 2 Preceamg Next Strobe Strobe a FACP or EOL Preceding Next Horn Horn or FACP or EOL WHEELOCK, INC. - 273 BRANCHPORT AVENUE - LONG BRANCH, N. J. 07740 - (201) 222-6880 FAX: 201-222-8707 S1400- Rev. 190 Printed in U.S.A. , NOW and into the Future IC SMOKE DETECTORS Area Type, DC Powered 7Wo Wire DESCRIPTION The 425C Series are two -wire photoelectronic smoke detectors operating on the light scattering concept. A pulsed infrared light emitting diode is used as the light source and a high speed photodiode as the sensing element. An alarm relay contact set (Form C SPDT) for auxiliary func- tions and/or an integral heat sensor (1350F, 50 ft.) are available as options. APPLICATION The 425C Series two -wire smoke detectors are suited for commercial, industrial, and institutional fire alarm systems. The detectors are intended for two -wire connection to compatible UL Listed fire alarm control units. All models are easily converted to non -latching operation. . Those equipped with auxiliary alarm contacts are also suitable for releasing service. INSTALLATION The 425C Series smoke detectors mount to standard single gang electrical boxes, 4" octagonal electrical boxes, and to WIREMOLD No. 5739 fixture boxes. All field wiring connections are made to a terminal block on the printed circuit board. This area is accessed by depressing the cover release tab and opening the hinged cover. System wiring easily fits through the opening in the back of the smoke detector. A field "knock out" area is provided for use when power -limited surface wiring is used. APPROVALS The smoke detector is for use in commercial fire protective signaling systems (NFPA 71, 72A, 72B, 72C, or 72D) and in household fire warning systems (NFPA 74). Listed by Underwriters Laboratories, Inc.; California State Fire Marshal approved (Listing #7257-447:104); Factory Mutual approved (J.I.01<789.AY); State of Maryland approved (Permit 1885); City of Cleveland approved (Docket S-5-88); New York City, Board of Standards and Appeals approved (Calendar No. 122-73-SA). Compatibility MODEL DESCRIPTION Identifier 425C smoke detector S10 425CT smoke detector with heat sensor 135°F) S10 smoke detector with form C alarm 425CR contact set S11 smoke detector with form C alarm 425CRT contact set and 1350F heat sensor S11 I 1 fPatented FEATURES UL 268 Listed Alarm confirmation Power/alarm indicator LED Low current consumption Functional test Tamper resistant hinged cover Integral heat sensor (optional) Auxiliary alarm contacts (optional) RFI and line transient protection ELECTRICAL SPECIFICATIONS — ALL MODELS Standby Voltage* 8.5-44 VDC Standby Current 50 NA Max. Equivalent Capacitance 0.001 NF Max. Alarm Voltage 33 VDC Max. Alarm Current 50 mA ±10% @a 24 VDC Alarm Current @a 10 VDC 40 mA Min. To insure reset, reduce detector voltage to 4.0 volts or less or current to 1 mA or less. Reset time: 1 second Max. Contact Rating- 425CR and 425CRT: 2A @a 30 VDC or 120 VAC resistive. VDC filtered; 10% Maximum Ripple PHOTOELECTRONIC SMOKE DETECTORS WIRING CONNECTIONS screw terminal enlargement for detail Model 425C Model 425CR or 425CT or 425CRT S11 I, S10 alarm alarm alarm 11 first circuit circuit contact last detector r detector 1 2 1 5 4 3 2 1 COMPATIBLE LISTED CONTROL UNIT' END -OF -LINE DEVICE ESL 1500 Series Control Unit with BMB, ZEM. Styles B or D wiring. Maximum line resistance = 100 ohms. Compatibility Identifier is C01. Compatible Detectors are Models 425C, CT; Compatibility Identifier S10; maximum 40 detectors.per circuit. Compatible Detectors are Models 425CR, CRT; Compatibility Identifier S11; maximum 40 detectors per circuit. Emergency operation [Style D (Class A)]: Return initiating circuit wiring to appropriate Control Unit terminals and connect the end of line devices per the Control Unit instructions. CAUTION: DO NOT use looped wire under screw terminals. These terminals are designed to prevent looping of unbroken wire around or under a terminal screw in a manner that would permit the looped wire to remain unbroken during installation. This would preclude supervision if the wire were to dislodge from the terminal. PRODUCT DATA SENSITIVITY 3.1 + 0.50%/Ft. OPERATING TEMPERATURE RANGE 320F to 120OF 0°C to 500C OPERATING HUMIDITY RANGE 0 to 95% RH DETECTOR SIZE diameter 6.1 in. 15.5 cm height 2.0 in. 5.0 cm weight 8.8 oz. 0.25 kg PACKAGING 20 detectors are packed in a carton 15 x 16 x 18 inches, 14 lb. 38 x 40.5 x 46 cm, 6.3 kg) SMOKE DETECTOR SPACING On smooth ceilings (as defined in NFPA 72E), spacing of 30 feet (9.1 meters) may be used as a guide. Other spacing may be used depending on ceiling height, high air movement, and other conditions or response requirements. NOW and into the future ELECTRO SIGNAL LAB, INC. 75 Terry Drive, Hingham, MA 02043 Sales 1-800-225-8632 Literature 1-800-648-7423 Inside Massachusetts 617-740-3800 SPECIFICATIONS The smoke detectors shall be model 425C ( ) and shall operate on the photoelectronic light -scattering principle. The detectors shall be listed by Underwriters Laboratories, Inc. The smoke detector shall contain an infrared LED light source and a light sensing photodiode. These components shall be positioned such that when smoke particles enter the sensing area, light from the LED reflects onto the photo - diode. When the amount of light reflected onto the photo - diode reaches the sensitivity setting, the smoke sampling rate shall increase to twice (2x) normal. The alarm signal shall be confirmed by requiring three (3) successive smoke sensings above the sensitivity setting. Detector alarm shall occur only after confirmation and will cause the normally flashing power indicator LED to light continuously and the alarm circuit to operate. The detectors shall be capable of latching or non -latching alarm functions. The detectors shall be non -polar and shall provide an easily operated functional field test. The detectors shall be equipped with an integral 1350F 57°C) (50 foot Rated) heat sensor (optional on models 425CT and 425CRT). The detectors shall be a single part with a hinged cover and include a concealed tamper -resistant latch. The detector shall include insect screens. All wiring terminations shall be to clamp -type screw terminals protected by a terminal block cover. The smoke detector shall mount to a standard single gang electrical box, a 4" octagonal electrical box, or WIREMOLD No. 5739 fixture box. Distributed by: Bulletin 2281-SS4 March 1989 Appearance and details subject to change without notice. 1600 SERIES FIRE DETECTORS Photoelectronic Smoke Detectors DESCRIPTION The ESL model 611U photoelectronic smoke detector head is a light - scattering optical sensor that provides excellent response to a wide range of fires with outstanding stability. A pulsed.infrared LED light source, and a high-speed photodiode sensing element are housed in an omni-directional sensing chamber which is protected by an insect screen. The chamber is not affected by ambient light. Normal sensing occurs eight (8) times per minute. This rate doubles when a signal exceeding the alarm threshold value is sensed. Two additional successive signals above the threshold level will initiate an alarm. When the detector is mounted to a universal base, standard features include a local visual alarm indicator and remote alarm indicator capability. Local functional testing is done using the magnet in the installation/ removal/test tool. Remote testing is possible through contact closure of the proper mounting base terminals. Model 611UT sensing heads feature a built-in heat sensor (1350F). Model 611UD is calibrated to a more sensitive alarm level. ELECTRICAL COMPATIBILITY ESL 600 Series detectors are system fire detectors. When used with models 601U and/or 602U mounting bases in two -wire operation, the detector and controls must have compatibility Listing with Underwriters Laboratories, Inc. For information on detector/control unit compatibility, see ESL Series 23XXTA technical bulletins. WARNING: System may not operate if the detector is not connected to the control unit initiating device circuit as specified in the detector or control unit literature. In four -wire operation using model 602U4 mounting base, the operat- ing voltage range of the detector should equal or exceed the sufficient current supplied to insure the operation of the detector(s). APPLICATION Models 611U, 611UT and 611UD are part of the 600 Series family of fire detectors and accessories. The common base/interchangeable sens- ing head configuration allows great flexibility in product application. ESL 600 Series fire detectors are suited for commercial, industrial, institutional, and residential fire alarm systems. The Model 611U and 611UT are intended for general area detection where life safety is the principal concern. The Model 611UD is suitable for general use where a more sensitive detection capability is desired and for installation in areas where a detector UL Listed for use in air velocities exceeding 300 feet per minute is required, such as often encountered in computer suites, the compartment beneath the raised floor of a data processing facility, and when installed directly inside the ductwork of an air handling system. The model 611UD is Listed in compliance with both UL 268 and UL 268A. INSTALLATION The 600 Series detector heads are installed by plugging the head into a universal mounting base and twisting the head clockwise to secure. Bases will mount directly to standard single -gang electrical boxes, 4" and 3.5" octagonal boxes, and to WIREMOLD 5738, 5738A, or 5739 fixture boxes or equivalent. Three (3) cut-out areas are available for use when power limited surface wiring is used. All wiring connections are made to screw terminals. An integral locking tab is provided for security in areas where detectors may be easily accessed. APPROVALS The smoke detector is for use in commercial fire protective signaling systems (NFPA 71, 72A, 72B, 72C, or 72D) and in household fire warning systems (NFPA 74). These detectors meet the requirements of NFPA Standard 72E, Automatic Fire Detectors. Listed by Underwriters Laboratories, Inc. (UL 268) and 611UD UL 268A); California State Fire Marshal approved (Listing #7257- 447:114); Factory Mutual approved (J.I.ON4AO.AY) and 611UD J.I.0Q7AI.AY); State of Maryland approved (Permit #1885) and 611UD Permit #1905); City of Cleveland approved (Docket S-5-88); New York City, Board of Standards and Appeals approved (Calendar No. 122-73-SA); Vermont Department of Labor approved. CFM MOV[D California State Fire Marshal Approved Patented FEATURES Solid state photoelectronic Alarm confirmation 3600 smoke entry Visual alarm indicator LED Local and remote test Low current consumption Models Listed to UL 268 and UL 268A Remote alarm indicator output Auxiliary alarm relay contacts (optional) Non -polar operation Removable, locking anti -tamper tab RFI and line transient protection Easy field cleaning and maintenance PHOTOELECTRONIC SMOKE DETECTORS and BASES Compatibility. MODEL DESCRIPTION Identifier 611U Photoelectronic smoke detector head S10 Photoelectronic smoke detector head 611UT with integral 1350F (570C) (50 ft.) heat sensor S10 Photoelectronic smoke detector head 611UD suitable for open area, air duct, or plenum applications S10 601U Universal base —two wire S00 Universal base with auxiliary relay 602U contacts —two wire S03 6021.14 1 Universal base —four wire ELECTRICAL SPECIFICATIONS — ALL MODELS Standby Voltage 8.5-44 VDC Standby Current 50 pA Max. Equivalent Capacitance 0.001 pF Max. Alarm Voltage 33 VDC Max. Alarm Current 50 mA ±10% @ 24 VDC Alarm Current @ 10 VDC 40 mA Min. To insure reset, reduce detector voltage to 4.0 volts or less, or current to 1 mA or less. Reset time: 1 second Max. VDC — filtered; 10% Maximum Ripple 1 600 SERIES FIRE DETECTORS WIRING CONNECTIONS TWO -WIRE OPERATION FOUR -WIRE OPERATION en W,yememr o. Oe ai BASE 602U4 BASE 601 U BASE 602U A I REMOTE6CONTINUIT/_° EDICEAAqRM WITCH` zP1_,.,1 e 1-p g PGWERrO HEn DE TLC7='R omoa,hie 3 5 ,J T " B K B OR ENC GF clue aia.m INRUTING r ^ U e . _ LINE GEvICE a - a ,emo, CIFICUR i 9 9 aia.m • ON SACK OF BASE alarm LED ` ...... LED ELECTRO SIGNAL LAB, INC. — UL FILE S2690 ESL 1500 Series Control Unit with BMB, ZEM. Styles B or D wiring. Maximum line resistance = 100 ohms. Compatibility Identifier is C01. Compatible Detectors are Models 611 U, 611 UD, 611 UT; Compatibility Identifier S10; maximum 40 detectors per circuit. For remote alarm indication, use ESL Model 606U1. For remote test and alarm indication, use ESL Model 606U2. Emergency operation [Style D (Class A)]: Return initiating circuit wiring to appropriate control unit terminals and connect the end of line devices per the control unit instructions. OPERATIONAL DATA Dimension with 601 U, 602U or 602U4 base D = 4-3/4" 120 mm d H = 3-3/8" 86 mm h H d = 3" 76 mm h = 2-1/2" 63 mm Imo— D --+ Weight w/o base = 200 grams; 7 oz. OPERATING TEMPERATURE RANGE 320E-1200F,OOC-500C OPERATING HUMIDITY RANGE 5-95% RH OPERATING AIR VELOCITY (UII Listed) Models 611 U, 611 UT to 300 feet/minute (1.5 meters/sec.) Model 611 UD to 2000 feet/minute ( 10 meters/sec.) ALTITUDE RANGE Unlimited SENSITIVITY Models 611 U, 611 UT 3.1 ± 0.50%/ft. Model 611UD 1.5 ± 0.35%/ft. SPECIFICATIONS The smoke detector heads shall be model 611 U ( ) two- or four -wire photoelectronic detectors that operate on the light -scattering principle using a pulsed LED light source and a silicon photodiode sensing technology. The omni- directional sensing chamber shall be protected by an insect screen and be unaffected by ambient light. The detectors shall be Listed by Underwriters Laboratories, Inc. The detector shall include provision for operating a remote 6V LED alarm indicator and be capable of being tested from a remote test switch and also from a magnetically operated reed switch in the detector head. The test shall electron- ically simulate a smoke concentration not exceeding 0.9 dB/m (6.0%/ft.). The detector head shall mount to a model 601 U, 602U or model 602U4 universal twist lock base and be electrically interchangeable with detectors using different technologies. The mounting arrangement shall include a locking tab to deter unauthorized removal of the sensing head. If desired, the locking tab may be removed. The detectors shall be equipped with an integral 1350F 57°C) (50 ft. rated) heat sensor (optional on model 611 UT). ELECTRO SIGNAL LAB, INC. Distributed by: 75 Terry Drive, Hingham, MA 02043 Sales 1-800-225-8632 O Literature 1-800-648-7423 Inside Massachusetts 617-740-3800 Bulletin 2263-SS6 March 1989 Appearances and details subject to change without notice. The ESL 609 Series air duct -type smoke detectors consist of an ESL 600 Series photoelectrork or ionization smoke detector and the model 609U00 air duct -type smoke detector housing. The assembly's modular design accommodates a variety of function cards to provide easy selection of desired signaling and control functions. The function of air duct smoke detectors is to detect smoke for the primate purpose of controlling air movement by air conditioning and ventilating systems, in an attempt to prevent panic and damage from the distribution of smoke and gaseous products." (NFPA 72E) The interchangeable detector configuration allows great flexibility in product application. ESL 600 Series smoke detectors are suited for open air, air duct, or plenum applications. Uri Operational Data Dimensions: length 16.5 in. 42 cm width 5.5 in. 14 cm depth 4.0 in. 10 cm Integral sampling tubes extend the width by 5.5 inches and require two holes of 2 in. diameter for clearance. Weight: Maximum weight is 78.75 oz. - 2.23 kg. This duct detector assembly would include the 609U00 housing, 61 IUD detector, and 609U24 electrical function card assembly. Operating Temperature Range: 321 to 1201 0°C to 50°C Operating Humidity Range: 5 to 95% RH The air duct smoke detector is for use in commercial fire protective signaling systems (NFPA 71, 72A, 72B, 72C, or 72D), and in commercial air conditioning and ventilating systems (NFPA 90A) . Photoelectronic or Ionization detection Universal detector base Two- and four -wire versions 12 VDC, 24 VDC, 24 VAC,120 VAC, and 220 VAC versions Air flow monitor Local electronic test and alarm LED Remote alarm indication Remote test and reset UL 268A Listed California State Fire Marshal Approved Listing #3240-447:120) Operating Duct Air Velocitv Range: 300 to 4,000 feet per minute 611LJD Head) 300 to 2,000 feet per minute 612LID Head) Sensithity: Model 611UD 1.5 -- 0.35%/ft. Model 612UD 1.0 -- 0.2%/ft. Compatibility Identifier: Model 611UD S10 Model612LJD S10 1 How to Order Model Number Description Housing 609U00 Air Duct Detector Housing Air Duct Smoke Detectors 61 im Photoelectronic :W Duct Smoke Detector 612LID Ionization .fir Duct Smoke Detector Accessories 205A Lflet Sampling Tube Extension — 2 ft. (61 cm) 205B Inlet Sampling Tube Extension — 4 ft. (122 cm) 205C Inlet Sampling Tube Extension — 8 ft. (244 cm) 605A3 Air Duct Smoke Detector Magnetic Test Tool 606U1 Remote LED Indicator 606U2 Remote LED Indicator with Keyed Remote Test 606U3 Remote LED Indicator with Keyed Remote Test & Reset 62001022B Replacement :fir Flow Filter 66809084A Replacement Relay 204A Power Supervision Unit for 6 —18 VDC Systems 910-4 Power Supervision Unit for 220 VAC Systems 910-5 Power Supervision Unit for 120 VAC Systems 609URS Duct Detector Reset Switch (fits %4" opening) Packaged Assemblies Any function card can be assembled with the photoelectronic or the ionization detector in the duct detector housing to form an assembly. To purchase complete package assemblies order as in the following examples: 1. A Photoelectronic Duct Smoke Detector with a 609U23 Function Card is ordered as a 609001/U23 (consisting of: 609U00, 611 LD, K 609U23) 2. An Ionization Duct Smoke Detector with a 609U33 Function Card is ordered as a 609UO2/U33 (consisting of: 609000, 612U), R 609U33) Function Cards Model Number 2-Wire 4-Wire 10-30VDC 24VAC 20-30VDC 24VAC 120VAC 1A, 1C 2 am) 1A, 2C 2, 10 am) Supervisory Tble (1 am) Power LED Compatibility Identifier* 609U10 10-30VDC Soo 609U1 1 S02 609U12 S36 6o9U14 609U21 609U22 6o9U23 609U24 6o9U25 220 VAC 609U31 609U32 609U33 609U34 Compatibility Identifier refers to significant electrical characteristics required to establish compatibility with Fire Alarm Control Panels. 10 F'age 1 13 Aug 90 11:17:36 Monday ID4et.L 1 cat' : nmS=GNE_I7 STRUCTURES Da-t`t-- : 0 a / 1 3/90 Slz4Laet E1 of 7 O r d e r N o. 9 0 7 5 7 1 STANDARD REFERENCE DRAWINGS The following Standard Reference Drawings are required for the proper erection of the Metal Building System. General Information SG-20-1 thru SG-23-0 Fasteners- Rivets SG-30-1 thru SG-32-1 Receipt and Care of Materials/Standard Symbols SG-40-0 Washer Location W/A354 Bolts Section 1 Structural Systems S1-01-3 Eavestrut Connection Details S1-02-3 Girt and Purlin Connection Details Si-03-2 Flange and knee Brace Connection Details S1-06-3 X-tracing Connection Details Pages A & B S1-07-3 Fixed Base Column Connection Details S1-09-3 Diaphram Channel Details Section 2 Endwall Systems S2-03-3 BEF Misc. Connection Details S2-04-4 BEF Connection Details Exterior Framed Girts S2-05-3 BEF Rafter Details Exterior Framed Girts 1/2 thru 1: S2-08-4 LIF Connection Details Flush Framed Girts S2-09-5 LIF Connection Details 1/2 thru 1:12 Section 4 Roof System and Accessories S4-01-4 MRII Roof Panel Installation STD/UL90 S4-02-1 Translucent Panel Installation MRII S4-04-2 Continuous Ridg9e Vents MRII S4-06-6 Eave and Rake Trim Installation MRII S4-11-0 Trim Laps & Pop Rivet Locations Pages A B C Section 5 Wall Systems and Accessories S5-02-9 Wall Panel Installation MRII & Shadow A pages A & B S5-03-0 Corner & Jamb Trim Installation S5-04-6 Corner Conditions at Open/Paneled Wall Section 7 Open Wall Details S7-07-2 OFC-Partial Height at Low Sidewall Exterior Framed S7-14-1 OFC-Partial Height at Endwall Flush Framed DESIGN CERTIFICATION The structural design of the building system performed by manufacturer's engineer meets the specifications, including the design criteria, design loads, and serviceability requirements incorporated by dealer into the order documents. Manufacturer's engineer is not responsible for observation or inspection of erection of the building system, and is not acting as the prime design professional for the construction project integrating this building system. Information required to integrate the building system into the construction project is given in the Project Design Data. 4ris Erection package consists of the following pages: El i G rloo— — — SYSTEM DESCRIPTION CET GFS SET SFS OTHER SL0PEN 5 IN 12 111 IN 12 04 IN 12 OTHER SIZ.EN I 1 1 WIDTH 11,C) L E N G T H HEIGHT ZZ ROOF ,W,A,LLL FACIA SOFFIT LINER T Y P E IYI_6 1' FINISH P m 111 WARRANTY '&0 -2f[' WALL ACCESSORIES STANDARD DUALITY PERSONNEL DOOR (UNITE) 30TO 6010 SOLID (M), STD. DUTY CYL.(S) 3070 5070 SOLID (M), MED. DUTY CTL.(C) 3010 6070 THRESHOLD 30T0 60T0 VEATHERSTRIPPINC PREVIUM DUALITY PERSONNEL DOOR (BRONZE) 3070 5070 SOLID (M), MED. DUTY CTL.(C) 30F0 6070 SOLID (M), HVT. DUTY CYL.(M) 3070 5070 SOLID (M), RIM EXIT DEVICE () 3070 6070 SIDE VISION (SV). MED. DUTY CYL.(C) 30T0 SOTO SIDE VISION (SV), NET. DUTY CYL.(M) 3070 6070 SIDE VISION (SV), RIM EXIT DEVICE (P) DOOR LEAF CLOSURES JAMB REINFORCEMENTS HORIZONTAL SLIDE WINDOWS 3030 6030 STANDARD OUALI7Y (HS) 3030 5030 PREMIUM DUALITY, INSULATED (HSI) _ 3 FT. MULLION KITS JAMB REINFORCEMENTS FIXED CLASS WINDOW 20T0 SINGLE PANE (FC) 20FO INSULATED (FG1) T F1. MULLION KITS JAMB REINFORCEMENTS FIXED CLASS WINDOW 3 FT. X 3 FT. ADJUSTABLE, WHITE. JAMB REINFORCEMENTS FRAMED OPEBIBC! 1__ TOTAL OTT. 01ri-4 1w-W GUTTER INFORMATION G FAS7ENER6. 7 PER CUTTER SUPPORT IF REQUIRED TTER P PORT 51 EAVE ' ROOF PANEL RIM / INSIDE CLOSURE F STM R9. AT 12 IN.O.0 OUTSIDE CLOSURE IF SPECIFIED EAVESIRUT SIDEVALLPANEL D E T A I L A DESCRIPTION SFM TOP/LT SIDEVALL BTM/RT 9IDEVALI 9.IT9 OVERMAN$ EXTENSION GUTTER 9SUPPORT SYTi9N SUPPORTING Ir II SPACING ilf lLJ INSTALL (1) DOWNSPOUT AT EACH CORNER AND WITH A SPACING NOT T ) I EXCEED 4 J O ROOF ACCESSORIES EAVE CUTTER AND DOWNSPOUTS STANDARD (CS ) ® PREMIUM (CP ) DRILLING FASTENER SELF -TAPPING FASTENER SELF-TAPPINt• FAS7EMEI PANEL TO FRAMING PANEL 10 FRAMING TNAYSLL T L. MT PAWLTRIMTOfIVMIMaTRI1,iC:.RAMIYC S48FC S48Culyc:- d S2288F.aCC 0-`3' OMMM r la X 1 V/NA51ER 11 X I N/MASER FC. COLOR/FINISM FC, COL OR/FINISN N N I N/ 1 O.D. NASMER A NM i N0. LOCATION PART 10. LOCATION IAR1 M0, IOCAIIOI ar F SC-V TRNACMT,LOT.PNL SELF -DRILLING FASTENER PANEL TO TRIM TRIM TO TRIM SELF -TAPPING FASTENER PANEL TO TRIM TRIM TO TRIM SELF -TAPPING FASTENER PANEL TO FRAMING TRIM TO FRAMING S18FC S46FC S46FC Wr 1/4-FI4 N 3/4 N/NASMER IA X O/N V/NASER IA 13/N N/NASMER FC. COLOR/FI%TSM FC- COLCR/FINISH FC. COLOK/FINISN PART NO. LOCATION PART 10. I LOCATION PART .0. LOCATION F-DRILLING FASTENER SELF -DRILLING FASTENER SELF -TAPPING FASTE PANEL TO PANEL PANEL TO FRAMING PANEL TO PANELTRIMTOFRAMING S16FC SS210 FC S46FC r p I/4-114 X7/A WAASIER 12 11-1/A V/NASMER 11 T 7/4 N/WASMER FC. COLMFINISH FC. COLOR/FINISN FC. COLOR/FINISN T X0. lOCA110N I PART NO. I LOCAIION PART Q. LOCATION GENERAL NOTE! ALL EAVES EAVE OF AREA WALL 1, ROOF FASTENERS AND SEALANT SHALL BE INSTALLED IN ACCORDANCE WITH STANDARD DWC. /14-p1 _1. FOR A Z,-r(rLc. , G0 ROOFJACKS2.._VALL PANEL AND FASTENERS SMALL BE INSTALLED In ACCORDANCE WITH STANDARD DWG. SS-12-2 TYPE RJ, 512E UCai1 1/ 2AIN. OIA.X 1-I/1 A351 BOLTS RIVASXERS TYPE RJX, 412E EAVESTRUTS TO MAIN FRAME CONNECTIONS. T--"'__.^_ -.-. AlfAPUNGMINMMM r} iY'• 11" r .,1' t W.. ar,.t:4:N: - 1EA °Av,l`-tipi1,.:I a•Y'l T :l <. 1 y,. rt:l {t4ct....ibl M7`." f _ L L 0 DETA[ LER/ DATE DEALER ORDER NUMIEN SHEET No. q0-75" 1 E-zOF-7 TOP=CHECKER/ DATE DIM ENO CUSTOMER PROJECT O- AA i ya'I', y. IY•A ''ttwalJ..; I.F1 rl,' SPo boo E a Pfa e qo--qo7 lo,JDD-(qo