Installation Instructions & Owner’s Operation Manual for Two to Eight Zone 2400 Series Fire Alarm Control Panels P/N 46000-1320, Rev. 1.
© Edwards This product has been designed to meet the requirements of NFPA Standard 72, 1990 Edition; Underwriters Laboratory, Inc., Standard 864, May 2, 1991 Edition; and Underwriters Laboratory of Canada, Inc. Standard ULC S527. Installation in accordance with this manual, applicable codes, and the instructions of the Authority Having Jurisdiction is mandatory. FCC WARNING: This equipment can generate and radiate radio frequency energy.
1. 2. 3. 5. 6. 7. 8. 9. FCC Information The dialer complies with Part 68 of the FCC rules. The Dialer’ FCC registration number and the Ringer Equivalence Number (REN) are on the back of the dialer. This information must be provided to the telephone company, if requested. An FCC compliant telephone cord and modular plug cord is supplied with the dialer.
FOR TECHNICAL ASSISTANCE PLEASE CALL YOUR LOCAL REPRESENTATIVE LISTED ON THE FOLLOWING PAGE. Effectivity Page for P/N 46000-1320, Edwards 2400 Manual Revision 0.0 0.1 0.2 1.0 1.3 1.4 1.5 1.6 Description Initial Release Editorial Corrections Add 2400-ADM, 2400 -ADS, & 2400-RTU Module Information Renamed Table 2.1 to Table 1.1. Add Table 1.2. Correct Cat. # 2245 to 2445. Revise part numbers; Delete Table 5.9; Add Table 10.
Table of Contents 1.0 DESCRIPTION ................................................................................................. 1-4 1.1 Components .....................................................................................................2 2.0 APPLICATION ......................................................................................................5 2.1 Fire Alarm System Limitations..........................................................................5 3.
8.0 PREVENTIVE MAINTENANCE ............................................................... 29-32 8.1 8.2 8.3 8.4 Preventive Maintenance Schedule ................................................................ 29 Testing Procedures for the Dialer Module ..................................................... 31 Testing Procedures for Compatible 2-Wire Smoke Detectors ....................... 31 Replacement Parts ........................................................................................ 32 9.
List of Tables, Figures, & Illustrations Table 1.1 Table 1.2 Table 3.1 Table 4.1 Table 5.1 Table 5.2 Table 5.3 Table 5.4 Table 5.5 Table 5.6 Table 5.7 Table 5.8 Table 6.1 Table 6.2 Table 6.3 Table 7.1 Table 7.2 Table 7.3 Table 8.1 Table 8.2 Table 9.1 Table 9.2 Table 9.3 Table 9.4 Table 9.5 Table 9.6 Table 9.7 Table 9.8 Table 9.9 Table 9.10 Table 10.1 Table 10.2 Table 10.3 Table 10.4 Table 10.5 Table 10.6 Table 10.7 Table 10.8 Table 10.9 Table 10.10 Base Panel Capacity.......................................
Table 10.11 Table 10.12 Table 10.13 Table 10.14 ULC Device & Panel Compatibility - Initiating Devices............................ 50 ULC Compatible Signaling Appliances ................................................... 51 ULC Compatible Accessories ................................................................. 51 Mixed Ion/Photo Detector Maximum Devices per Circuit........................ 52 Figure 3.1 Figure 3.2 Figure 3.3 Unsustained Alarm Operation ................................................
Fire Alarm Control Panel Two Zone, Three Expansion Space Panel, Cat. # 2412(R) Four Zone, Two Expansion Space Panel, Cat. # 2414(R) Eight Zone, Six Expansion Space Panel, Cat. # 2418(R) 1.0 DESCRIPTION The 2412, 2414, & 2418 Fire Alarm Control Panels are protective signaling systems which feature modular construction and installer programmable microprocessor technology. m Panel Supervisory Features include: continuous internal testing; a CPU watchdog timer; and module placement supervision.
1.1 Components 2412 Two Zone Base Panel w/3 Option Module Expansion Spaces, Gray Enclosure (Cat.# 2412) Two Zone Base Panel w/3 Option Module Expansion Spaces, Red Enclosure (Cat.# 2412-R) This panel provides two Class B (Style B) Initiating Device Circuits (IDCs) and two Class B (Style Y) Indicating Appliance Circuits (IACs). There is space for three option modules. Option modules include a Relay/City-Tie, Two Zone Initiating Device, a Dialer Module, and Remote Annunciator Driver Modules.
2400-2IDC Two Zone Initiating Device Circuit Module (P/N 240457) This module provides two additional Class B (Style B) Initiating Device Circuits. Each circuit is provided with an ENABLE/DISABLE switch and a tri-color LED. The module requires one option module expansion space.
2400-ADS Four Circuit Annunciator Driver Slave Module (P/N 240463) The Four Circuit Remote Annunciator Driver Slave Module is used to supervise and operate the connection to four additional alarm zone LEDs on a conventional zone annunciator. The -ADS is automatically configured for IDC zones 5 to 8. The Remote Annunciator Driver Slave Module mounts on the 2400-ADM Master, module and does NOT require any expansion module space.
2.0 APPLICATION The 2412, 2414, and 2418 panels are suitable for small to medium size buildings, requiring from two to eight Initiating Device Circuits (IDCs), and two Indicating Appliance Circuits (IACs). 2.1 Fire Alarm System Limitations Fire Alarm Systems provide the occupants of a facility with early warning of smoke and fire conditions. Fire alarm systems use a variety of components to meet the requirements of each installation.
When an IDC is programmed as a waterflow zone, the IACs DO NOT respond to the ALARM SILENCE switch or automatic alarm silence until the waterflow device is no longer active. Both an alarm initiating device and a supervisory contact may co-exist on the same circuit by putting a 1.1KΩ in series with the supervisory contact. When the waterflow with retard option is programmed, a special algorithm samples the circuit repeatedly.
Figure 3.1 - Unsustained Alarm Operation Figure 3.
3.2 Indicating Appliance Circuits (IACs) Two supervised Indicating Appliance Circuits (IACs) operate using compatible 24 VDC (nominal) polarized signaling appliances. Each circuit is rated at nominal 24 VDC @ 2.5 Amps, with a total of 4.0 Amps available for both circuits. An IAC may be programmed as either silenceable or non-silenceable. Signal rate selection is independently programmable for each IAC as shown in Figure 3.3. Refer to the Appendix for compatible Indicating Appliances. Figure 3.
4.0 INSTALLATION 4.1 Codes and Standards Install this panel in accordance with all applicable codes and standards to the satisfaction of the Authority Having Jurisdiction (AHJ). A partial list of codes and standards appears in the Appendix. US Installations: For Class B (Style B/Y) circuits, the End-Of-Line resistor is installed on the last device. Canadian Installations: For Class B (Style B/Y) circuits, purchase End-Of-Line resistor plates separately from your Distributor.
4.4 Installation Instructions Mounting the Backbox Install backbox per drawings Control Panel INSTALLATION 1 and Control Panel INSTALLATION 2. If a 2400- BATBOX Battery Cabinet is required, refer to the CONTROL PANEL APPLICATIONS 2 drawing for information. Utility or Primary Power Circuit NOTE Install primary power conduit on lower left side or left bottom of backbox. The panel requires a dedicated 120 VAC, 15A, 50/60 Hz branch circuit. Label the circuit breaker "Fire Alarm Control Panel.
Base Panel Assembly CAUTION The electronic components used in this system are sensitive to static electricity. Always discharge any static buildup on your body by touching the panel enclosure before handling any electronic components. WARNING The System Power Supply (the printed circuit board on the back of the Base Panel Assembly) handles 170 VDC when powered. DO NOT handle this board with power on. 1. Remove the Base Panel Assembly from its anti-static carton. 2.
1. Refer to the CONTROL PANEL INSTALLATION 1 or CONTROL PANEL INSTALLATION 2 drawings. If a 2400-BATBOX Battery Cabinet is required, refer to the CONTROL PANEL APPLICATIONS 2 drawing for information. 2. Lift wiring up and away from the backbox, and install the Base Panel Assembly using the four quick fasteners. Do not connect control circuit wiring at this time. 3. Install the panel door and make the ground connection (green wire) from the power supply to the middle door mounting stud.
3. Fill-in the Panel Configuration & Programming Worksheets (located in the Appendix) and program the panel for the desired operation. Save the Panel Configuration Worksheets for future reference. 4. Remove, label, and re-insert the IDC, Relay/City-Tie, and Anunciator Driver Module insert cards. Use the Panel Configuration Worksheets in this manual to assist in labeling. Reverse the Base Panel insert card to display Fire Alarm Control functions. Panel Function Testing 1.
The telephone jacks must be installed by an authorized representative of the telephone company. Phone lines must be loop start on the public switched network. PBX, ground start, and party lines are not acceptable 5. Using the supplied 7Ft. (2.13 M) phone jack extension cables, connect J1 & J2 to the RJ31X, or RJ38X (CA31A or CA38A in Canada) telephone jacks. A protective grommet is supplied for the enclosure knockout.
2400-ADM & 2400-ADS Field Wiring Connections 1. Refer to the REMOTE ANUNCIATOR drawing for wiring details. 2. Dress all wires to allow "hinging" the Base Panel Assembly on the left by dressing your connections from right to left. This allows you to rotate the Base Panel Assembly out of the enclosure for access to system modules, facilitating additions or changes. 3. Leaving the system powered up, connect the (+)24 VDC wire from the annunciator to the (+) Auxiliary Power terminal. 4.
5.0 PROGRAMMING Panel Configuration Worksheets may be found at the end of this manual. These worksheets should be filled out prior to programming the panel, and saved with this manual should further programming be required at a later date. Refer to the PANEL PROGRAMMING drawing during the programming process. The reverse side of the base panel identification labels are programming templates. Remove, reverse, and re-insert the template labels as a programming aid. Dialer programming is covered in section 5.
Table 5.2 - Programming Step Indications Program Step Module Placement & Verification Initiating Device Circuits (IDC) Indicating Appliance Circuits (IAC) Timer Settings Auxiliary Power Setting Power LED Flash Phase 1= 2= 3= 4= 5= YPAUSE Y PAUSE Y... YY PAUSE YY PAUSE YY.. YYY PAUSE YYY PAUSE YYY.. YYYY PAUSE YYYY PAUSE YYYY.. YYYYY PAUSE YYYYY PAUSE YYYYY.. To modify the panel default settings shown in Table 5.1, enter the programming mode as follows: 1.
2. Use the TROUBLE SILENCE switch to step through the various IDC zone types, until the desired IDC type code is displayed by the LEDs. 3. Select the IAC circuit to be operated by this zone by pressing the ALARM SILENCE switch until the desired configuration is reached. Signal circuits selected for activation by the IDC are indicated by the respective IAC’s Trouble LED illuminating. 4. To program the next Initiating Device Circuit, press the RESET switch and repeat steps 2 and 3 above. 5.
5.3 Configuring System Timers 1. The configure System Timers step is indicated by the 4-phase flashing green Power LED. The status of the panel’s Alarm Silence Inhibit Timer is indicated by the zone disabled LED as shown in Table 5.6. Table 5.6 - Alarm Silence Inhibit Timer Status Alarm Silence Inhibit Timer Setting Disabled 1 Minute 2 Minutes 3 Minutes Zone Disabled LED OFF PAUSE PAUSE .. PAUSE PAUSE ... PAUSE PAUSE Y YY YYY Y YY YYY YY YY YYY... 2.
5.5 Returning to Panel Default Settings To restore the panel to system default settings, before exiting the programming mode, press the TROUBLE SILENCE and RESET switches simultaneously for one second. This will return all parameters to default settings (Table 5.1), and return the panel to the beginning of the programming sequence. 5.
9 10 11 D Enter the daily supervisory message delay time. The module sends a supervisory message to the CMS once every 24 hours to verify the communications path and message receipt. The delay is used to set the time the daily message is transmitted based on a delay from the time the panel is powered up. EXAMPLE: If the CMS requires the daily supervisory message to be sent at 0300 (3 AM) and the current time is 1400 (2 PM), set the delay for 13 hours, power down, then power up.
6.0 OPERATION Table 6.1 - Panel Indicators Indicator Zone Disabled LED Power LED Zone Alarm (Red) LED Zone Trouble (Amber) LED Alarm Silenced LED Alarm LED System Trouble LED Signal Trouble, Ckt #1 LED Signal Trouble, Ckt #2 LED Ground Fault LED Function YY PAUSE YY PAUSE YY... - One or more zones disabled YYY PAUSE YYY PAUSE YYY... - Audible test mode YYYY PAUSE YYYY PAUSE YYYY...
Reset Mode When the facility is safe to re-enter, the panel may be Reset. Manual stations and other manually restorable devices must be returned to their normal condition. Non-restorable devices which have been activated by the fire must be replaced. In the event replacement is not immediately feasible, disable the affected zone using its disable switch. Pressing the RESET switch automatically resets the smoke detectors and returns the panel to the normal (trouble mode if zones have been disabled) mode.
Supervisory Mode When the panel is in the Supervisory Mode, a portion of the building fire protection system (not the panel) is in an abnormal condition and its proper operation is affected. If an alarm occurs while in the supervisory mode, the panel will enter the alarm mode and sound an alarm. If a supervisory condition is detected while in the trouble mode, the panel enters the supervisory mode.
Test Mode The Test Mode is used to verify the operation of the panel, alarm initiating devices, and the integrity of field wiring. WARNING Fire detection capability on the zone(s) under test is NOT functional in the Test Mode. The panel will leave the test mode, enter the alarm mode, and sound an alarm if a zone not selected for testing detects an alarm. The panel will leave the test mode and enter the supervisory mode if a zone not selected for testing detects a supervisory condition.
NOTE When verifying the operation of strobe lights using the Test Mode, the strobe lights may not receive enough energy to successfully charge. Use independent test methods such as Drill Mode to verify strobe lights and field wiring. NOTE Before exiting Test Mode, be sure to Enable the zone(s) that were Disabled for testing. CAUTION If there is no activity on the system for 30 minutes, the system will exit the Test Mode and the Disabled zone(s) will remain Disabled.
7.0 TROUBLESHOOTING CAUTION Disconnect AC and battery power before installing or removing modules. WARNING Lethal voltages from other equipment may be present within the panel even with the alarm system AC power source disconnected. Table 7.
Table 7.3 - Dialer Module LED Trouble Codes Condition Trouble ( PAUSE PAUSE ...AMBER) Disabled ( PAUSE PAUSE ... AMBER) Possible Cause 1. Retry count exceeded, unable to communicate. 2. Phone line open or shorted. 1. Disable switch activated. (dialer will automatically re-enable in 24 Hrs. and transmit current status) 2. Dialer not completely programmed. 3. In programming mode.
8.0 PREVENTIVE MAINTENANCE Before commencing testing, notify all areas where the alarm sounds and off premise locations that receive alarm and trouble transmissions that testing is in progress. m Records of all testing and maintenance shall be kept on the protected premises for a period of at least five (5) years. m Required Tools: Slotted Screwdriver, Insulated Digital Multimeter. 1.1KΩ, 1 W resistor 12" (30.
Table 8.
8.2 Testing Procedures for the DL1 Dialer Module Every Six months (or as required by the Authority Having Jurisdiction): • • • • Verify that the dialer module is connected to two separate phone lines. Activate an alarm initiating device and verify the alarm is received at the Central Monitoring Station (CMS). Restore System to normal.
At the conclusion of testing, notify all locations previously contacted that testing is complete. 8.4 Replacement Parts Table 8.2 - Related/Spare Parts Part ID 12V6A5 6V8A 12V10A 46288-0017 46071-0409 EOL-P1 46229-0107 46097-0110 46063-1065 46063-1066 46063-1067 46063-1068 46063-1069 46063-1070 46166-0144 46262-0007 46073-0138 46073-0139 Description 12 V, 6.5 AH Battery (2 required) 6 V, 8.
9.0 SPECIFICATIONS Table 9.
Table 9.1 - Specifications Base Panel Assemblies Environment Relative Humidity Operating Temperature 85% @ 86°F (30°C) 32°F to 120°F (0°C to 49°C) Table 9.2 - Specifications 2400-BPA Base Panel Class A (Style D/Z) Converter Module (P/N 46199-1072) Expansion Space IDC Wiring IAC Wiring Weight None Converts two Style B Circuits into two Style D Circuits Converts two Style Y Circuits into two Style Z Circuits 0.4 lbs (0.18 Kg) Table 9.
Table 9.6 - Specifications 2400-ADM Annunciator Driver Master Module (P/N 240461) Expansion Space Circuit Rating Weight 1 30 V @ 15 mA Max. 0.4 lbs (0.18 Kg) Table 9.7 - Specifications 2400-ADS Annunciator Driver Slave Module (P/N 240463) Expansion Space Circuit Rating Weight 0 30 V @ 15 mA Max. 0.3 lbs (0.14 Kg) Table 9.8 - Specifications Remote Annunciators Wiring Power 22 AWG, Min.
Table 9.10- Specifications DL1 Dialer Module Expansion Space Phone Line: Wall Connector Line Supervision Communications Protocol Telephone Numbers FCC Registration Number Dialing Retries AC Power Failure Delay Clock Accuracy Compliance Programming Phone Weight Event Condition Zone 1 Zone 2 Zone 3 Zone 4 Zone 5 1 Two Loop Start lines on Public switched telephone network, Pulse or DTMF dialing. Standard RJ-31X jack Trouble when line voltage < 10 V & line current < 5 mA.
10.0 APPENDICES 10.1 Appendix 1 - Battery Calculations 10.1.1 Battery Tables Maximum battery size is 8.0 AH. Maximum battery size with optional 2400-BATBOX(R) Battery Cabinet is 10 AH. Refer to Replacement Parts Section for part numbers. The battery tables allow quick battery selection. Three battery tables are provided for the three most common Supervisory and Alarm Time combinations. For instructions on using the battery tables, refer to the section entitled Using the Battery Tables. Table 10.
Table 10.2 - 60 Hours Supervisory, 5 Minutes of Alarm Signal Circuit Alarm Current for 5 Minutes Aux. Circuit Current: 0-0.5 Amps for 5 Minutes Panel Current Load Signal Circuit Alarm Current (A) Aux. Sup # Current Zones 0 mA “ “ “ “ “ “ “ “ 25 mA “ “ “ 50 mA “ # Option Modules 0.5 1.0 1.5 2 2 2 2 4 4 4 8 0 1 2 3 0 1 2 0 4.5 6.5 6.5 8.0* 6.5 6.5 8.0* 8.0 4.5 6.5 6.5 8.0* 6.5 6.5 8.0* 8.0 4.5 6.5 6.5 8.0* 6.5 6.5 8.0* 8.0 2 2 2 4 4 0 1 2 0 1 6.5 8.0* 8.0* 8.0* 8.0* 6.5 8.0* 8.0* - 6.5 8.0* 8.
Table 10.3 - 24 Hours Supervisory, 30 Minutes of Alarm Signal Circuit Current for 30 Minutes Aux. Circuit Current: 0-0.5 Amps for 30 Minutes Panel Current Load Signal Circuit Alarm Current (A) Aux. Sup # Current Option Modules 0 mA “ 0 “ 1 “ 2 “ 3 “ 4 “ 5 “ 6 25 mA “ 0 “ 1 “ 2 “ 3 “ 4 “ 5 “ 6 50 mA “ 0 “ 1 “ 2 “ 3 “ 4 “ 5 “ 6 75 mA “ 0 “ 1 “ 2 “ 3 “ 4 “ 5 “ 6 100 mA “ 0 “ 1 “ 2 “ 3 “ 4 “ 5 “ 6 0.5 1.0 1.5 4.5 4.5 4.5 4.5 4.5 6.5 6.5 4.5 4.5 4.5 4.5 4.5 6.5 6.5 4.5 4.5 4.5 6.5 6.5 6.5 6.5 4.5 4.5 4.
Using the Battery Tables Having selected the proper table, you must know the number of option modules installed in the panel, any auxiliary current required, and when using Tables 10.2 and 10.3, the signal current required. Option modules are 2400-2IDC Two Zone Initiating Device Circuit Modules, 2400-RCT Relay/City-Tie Modules, and 2400-ADM Annunciator Driver Master Modules.
Battery Calculation Example #1 A panel with one (1) option module is to be installed in accordance with the Canadian National Building Code (NBC) requirement of 24 hours standby, 30 minutes alarm. The IAC requires 2.5 Amps, and there is no auxiliary power used. Calculate the minimum required battery capacity that will meet the requirements. Looking at Table 10.3, the intersection of the one (1) option module row and the 2.5 Amp IAC alarm current column within the “0 mA” area of the table occurs at 6.5.
Battery Calculation Example #2 A two zone panel with two (2) option modules requires 24 hours of standby, 5 minutes of alarm. The IAC requires 2.5 Amps. The 4-wire smoke detectors require 25 mA of auxiliary power. Calculate the minimum battery capacity that will meet these requirements. Looking at Table 10.1, the intersection of the two (2) option module row and the 25 mA supervisory current occurs at 4.5. This indicates that the required battery capacity is 4.5 AH. Two 12 V, 6.
10.1.2 Battery Calculation Worksheets If the panel parameters exceed the values in the battery calculation tables, or if detailed battery calculations are required, the battery calculation worksheets should be used. 1. Enter the quantity of each module installed in the "Quantity" column, next to the appropriate module description. 2. For each quantity entry, multiply the value in the "Quantity" column by the value in the "Supervisory" column, and enter the value in the "Total Supervisory" column. 3.
Battery Calculation Example #3 A panel with two (2) Two Zone Initiating Device Circuit Modules requires 24 hours standby, 5 minutes alarm. The Indicating Appliance Circuit requires 2.5 Amps. The remote trouble unit to be installed with the panel requires 15 mA in the Supervisory mode and 15 mA in the Alarm mode. Calculate the minimum required battery capacity that will meet these requirements.
Battery Calculation Example #4 A panel with a Two Zone Initiating Device Circuit Module is to be installed in accordance with the Canadian National Building Code (NBC) requirement of 24 hours standby, 30 minutes alarm. The Indicating Appliance Circuit requires 2.5 Amps, and there is no auxiliary power used. Calculate the minimum required battery capacity that will meet these requirements.
10.2 Appendix 2 - Compatible Devices ULI Compatibility Listings Compatible devices listed in this section are for use in the USA ONLY. Table 10.
Table 10.6 - ULI Device & Panel Compatibility - Initiating Devices Cat. # 2420 2430 2432B 2435P 6424 AI9850-4 AI9854-3 AI9854-1 Description UL Identifier Max.
Table 10.8 - ULI Compatible Accessories Cat. Number *MR-101/C *MR-101/T *MR-104/C *MR-104/T *MR-201/C *MR-201/T *MR-204/C *MR-204/T PAM-1 2400-RTU 2400-4ZA 2400-8ZA 2400-RTU4ZA 2400-RTU8ZA Description 1-SPDT Relay w/LED 1-SPDT Relay w/LED 4-SPDT Relay w/LEDs 4-SPDT Relay w/LEDs 1-DPDT Relay w/LED 1-DPDT Relay w/LED 4-DPDT Relay w/LEDs 4-DPDT Relay w/LEDs 1-SPDT w/LED, Adhesive Mt.
ULC Compatibility Listings Compatible devices listed in this section are for use in CANADA ONLY. Table 10.
Table 10.11 - ULC Device & Panel Compatibility - Initiating Devices Cat.
Table 10.12 - ULC Compatible Signaling Appliances Cat.# 2440S-15-R 2441S-15-R 2440S-15-W 2441S-15-W 2440S-30-R 2441S-30-R 2440S-30-W 2441S-30-W 2440S-60-R 2441S-60-R 2440S-60-W 2441S-60-W 2440S-15/75-R 2441S-15/75-R 2440S-15/75-W 2441S-15/75-W 2440S-110-R 2441S-110-R 2440S-110-W 2441S-110-W 2445-B 2445-R 2447H-W 2447H-R 2450-H-B 2450-H-R 2450-M-B 2450-M-R 2452HS-15-R 2452HS-15-W 2452HS-30-R 2452HS-30-W Description Cat.
Table 10.14 Mixed Ion/Photo Detector Maximum Devices per Circuit Refer to Compatibility Tables 10.4 & 10.
10.3 Appendix 3 - Glossary Alarm Silence/Reset Inhibit Timer - A panel option which prevents silencing Indicating Appliance Circuits or resetting the panel for a programmed period after the last alarm. Alarm Silence Timer - A panel option which automatically silences the Indicating Appliance Circuits (IACs) after a programmed time limit after the last alarm.
Non-Silenceable - An indicating appliance circuit (IAC) which remains active after initiation, independent of the alarm silence features. One-Man Test - Maintenance mode to test initiating and indicating circuits. Creating an alarm on the Initiating Device Circuit (IDC) under test causes both Indicating Appliance Circuit (IAC) to pulse out the zone number of the zone under test (i.e., three rings for zone 3).
10.
10.
Activate Remote Anunciator Activate IAC #2 (IAC #2 Trouble LED ACTIVE) Activate IAC #1 (IAC #1 Trouble LED ACTIVE) WATERFLOW with Retard (YPAUSEYPAUSEY... GREEN zone LED) WATERFLOW (Steady Green zone LED ) Normally-Open SUPERVISORY (Steady Amber zone LED) ALARM, Verified Detector ONLY (YY PAUSE YY PAUSE YY... RED zone LED) ALARM, Verified Detector & Dry Contact Devices (YPAUSEY PAUSEY...
Panel Configuration and Programming Worksheet Page 2 of 3 Project Name: _______________________________ IAC Programming Worksheet IAC Programming IAC #1 Class B Class A Silenceable (Signal Trouble Circuit #2 LED ON AND Alarm Silenced LED = Y PAUSE Y PAUSE Y...
Panel Configuration and Programming Worksheet Page 3 of 3 Project Name: _______________________________ Description Quantity Base Panel 2 Zone input module Relay Modules Style D IDC Converter Dialer Annunciator Master Remote Trouble Unit 1 x x x x x x Auxiliary Power (mA) Number of Detectors Signal Load (mA) Supervisory (mA) 55 16 16 0 12 10 10 Alarm 0 100 45 76 40 25 100 10 Total Alarm 100 0.
CONTROL PANEL ASSEMBLY CONTROL PANEL DIMENSIONS BATTERY CONNECTION TOP VIEW TOP VIEW FINISHED WALL (SURFACE MOUNT) + + 1"(2.54 cm) COVER FINISHED WALL 15.75"(40.0 cm) (FLUSH MOUNT) BLACK RED TO CONTROL PANEL POWER SUPPLY FRONT VIEW 12" (30.5 cm) COVER CARD TS INSER / NDER EXPA RTER CONVE LE MODU 14" (35.6 cm) BATTERY SIDE VIEW 13.5" (34.3 cm) ALL KNOCKOUTS FOR 3/4" CONDUIT (1.9 cm) ION OPT E UL M OD BATTERY 15.5"(39.4 cm) SYSTEME UBL TRO T1 2.
CONTROL PANEL ASSEMBLY CONTROL PANEL DIMENSIONS TOP VIEW FINISHED WALL (SURFACE MOUNT) COVER FINISHED WALL (FLUSH MOUNT) 22"(55.9 cm) CARD TS INSER FRONT VIEW / NDER EXPA TER R CONVE LE MODU 13" (33 cm) COVER 15" (38.1 cm) SIDE VIEW 14.5" (36.8 cm) ALL KNOCKOUTS FOR 3/4" CONDUIT (1.9 cm) ION OPT E UL MOD BATTERY BATTERY BATTERY BATTERY SYSTEME UBL TRO T1 POW TO G NTIN MOU D STU OOR ON D 21.62"(54.9 cm) 2.75" (7 cm) 1"(2.
NOTES POWER LIMITED 1 2 SUPERVISED 3 SHOWN IN NORMAL CONDITION. 4 POWER LIMITED. (USE AUX. POWER OR LISTED FIRE PROTECTIVE SIGNAL TRANSFORMER.) 1 2 REFER TO INDICATING APPLIANCE CIRCUIT WIRING DETAILS MAX.OUTPUT BOTH CIRCUITS = 4.0 A. SUPERVISED FOR SHORT 24VDC @500mA + AUX 1 3 4 3 24VDC 1A, MAX. 4 24VDC 2.5A, MAX. 2 24VDC 2.5A, MAX.
MANUAL PULL STATION COMPATIBLE SMOKE DETECTOR + IN HEAT DETECTOR 4.7K EOL RESISTOR P/N 46229-0107 0R EOL-P1 MANUAL PULL STATION COMPATIBLE SMOKE DETECTOR + + IN OUT STYLE D/Z CONVERTER CAT. NO. 2400-BPA HEAT DETECTOR + OUT ADDITIONAL CIRCUITS WIRED SAME AS INP1. ADDITIONAL CIRCUITS WIRED SAME AS INP1. STYLE D IDC CONVERTER CAT. NO. IDCA + + SIG 1 + SIG 2 + + + INP 1 INP 2 + INP 1 INP 2 + SIG 1 NOTES 1. CONFIGURE ZONE AS ALARM OR HIGH IMPEDANCE VERIFIED ALARM ZONE. 2.
LOCAL ENERGY MASTER BOX SHUNT CONNECTION/ DRY CONTACT MASTER BOX WIRE JUMPER 2 3 (+) 1 + NC/O 3 C TB2 TB1 A + NC/O C B TB2 TB1 A B 1 2 3 4 5 6 7 8 MUNICIPAL CIRCUIT JP1 SET JUMPERS 1-5 AS SHOWN 1 2 3 4 5 6 7 8 A JP1 SET JUMPERS 1-5 AS SHOWN NOTES 1. 2 3 NOTES CONTACTS RATED 24 VDC/VAC @ 1 A. THE SHUNT CONNECTION IS RECOGNIZED ONLY AS A SUPPLEMENTARY SIGNALING UNIT AS PART OF A LOCAL CONTROL UNIT AND IS NOT RECOGNIZED AS AN AUXILIARY CONTROL UNIT CONNECTION PER NFPA 72.
INSTALLATION STEP 1 INSTALL DIALER MODULE IN PANEL. SEE PANEL INSTALLATION DRAWING. B INSTALL BUS INTERFACE BOARD ON BACK OF DIALER MODULE. C CONNECT RIBBON CABLE FROM MAIN CONTROL PANEL OR ADJECENT MODULE D SET PROGRAM SWITCH TO PROGRAM MODE (UP), AND PUSH RESET SWITCH. WAIT FOR POWER LED TO FLASH, THEN RETURN SWITCH TO NORMAL MODE (DOWN). Note: This process installs the dialer module in the panel’s database. The panel will remain in trouble until the dialer is properly wired and programmed.
NOTES 4ZA 1. IF NOT USING 4-WIRE SMOKE DETECTOR, CONFIGURE AUXILIARY POWER AS NON-RESETTABLE. 4ZA 2. REFER TO BATTERY CALCULATION SECTION FOR POWER REQUIREMENTS. + NC NO + 3. ALL WIRING POWER LIMITED. TB1 TB1 + 1 TB1 2 3 4 + + 1 4 CONTACTS SHOWN IN NORMAL CONDITION. 2 3 4 + 5 POSITIVE ANNUNCIATOR POWER WIRING: NO CONNECTION 6 7 6 9 7 18 AWG MIN.=7,500’ (2,300 M) MAX. 22 AWG MIN.=3,000’ (900 M) MAX. 9 6 LED ANNUNCIATOR WIRING: 22 AWG MIN.=7,500’ (2,300 M) MAX.
7 7 MR-101 (MR-104) SPDT CONTACTS 10 AMPS @ 115 VAC NC C MR-201 (MR-204) DPDT CONTACTS 10 AMPS @ 115 VAC NO NO ON C NC NO C NC ON 0 24 115 230 0 24 115 230 10 DOOR HOLDERS EDWARDS ULI LISTED 1500 SERIES DOOR HOLDERS 24 VAC @ .11 AMPS (9 DEVICES MAX.) + + + 5 + AUX 5 6 TROUBLE ALARM SIG1 + SIG2 + + INP1 + INP2 PGM MODE + AUX 6 TROUBLE ALARM SIG1 + SIG2 + + INP1 + INP2 PGM MODE + NC/O C CONTROL PANEL CONTROL PANEL 1. FAILSAFE WIRING SHOWN.
1 BATTERY CABINET DIMENSIONS TOP VIEW FINISHED WALL 6251B-003 BASE (U.S.) or 6251C-003 BASE (CAN.) (SURFACE MOUNT) COVER FINISHED WALL (FLUSH MOUNT) 22"(55.9 cm) IN TOP OUT + 24 VDC ALL KNOCKOUTS FOR 1/2 OR 3/4" CONDUIT (1.3 or 1.9 cm) FRONT VIEW + RELAY SHOWN IN ENERGIZED STATE 24 VDC 13" (33 cm) COVER 15" (38.1 cm) 14.5" (36.8 cm) BATTERY EOL RELAY P/N 6254A-003 MOUNTED IN A 4" SQ. BOX WITH 1 GANG PLASTER RING. ALARM SIDE VIEW BATTERY 4.7K EOL RESISTOR P/N 46229-0107 0R EOL-P1 21.
PROGRAMMING TEMPLATE ON REVERSE SIDE OF FRONT PANEL INSERT PGM MODE STEP 1 A ON A OFF B C X1 POWER POWER SYSTEM TROUBLE CIRCUIT 1 TROUBLE SILENCE ZONE DISABLED D POWER LED DISPLAYS 1-PHASE FLASH. D ALL ZONE TROUBLE (YELLOW) LEDs LIGHT WHEN MODULE IS RECOGNIZED BY PANEL PROCESSOR. CIRCUIT 2 ALARM SILENCED ENABLE DISABLE RESET ALARM POWER PRESSRESET TO ADVANCE TO NEXT STEP.
1 6 ALARM SILENCE POWER ALARM SILENCED ALARM SILENCE ALARM SILENCED ALARM SILENCE POWER 4 5 9 POWER = = O 10 SUPERVISORY CONDITION SYSTEM TROUBLE = OK AC VOLTS O SYSTEM TROUBLE OK AC VOLTS SYSTEM TROUBLE ACTIVE ZONE DISCONNECT = O OK IDC ZONE LED 11 AC VOLTS FIRE ALARM PANEL + RED 2 ZONE DISABLED SYSTEM RESET 6 ALARM SILENCE 9 10 ALARM ENABLE DISABLE POWER 3 TROUBLE BUZZER SILENCE 5 SYSTEM TROUBLE ZONE DISABLED TROUBLE SILENCE SYSTEM TROUBLE ALARM SILENCE 1 OFF
MODULE LED ENABLE DISCONNECT SWITCH DISABLE DIALER INSTALLED IN PANEL 1 = GREEN RED 4 2 ABC 5 GHI JKL 7 8 3 DEF 6 MNO 9 PRS TUV WXY * 0 # AUTOMATIC DIALING SENT CENTRAL MONITORING FIRE OK STATION ALARM ACK = FIRE ALARM SENT & ACKNOWLEDGED SENT CENTRAL SUPV. OK MONITORING STATION ALARM ACK = AMBER SUPERVISORY ALARM SENT & ACKNOWLEDGED AMBER SENT CENTRAL SUPV.
