UTC Fire and Security Det-Tronics FDRS Instructions Manual Download Page 6

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1.3

95-8574

SPECIFICATIONS

A partial list of system specifications is provided here.

For detailed specifications, refer to the applicable

manual for the device or contact the factory.

POweR SUPPly/BAtteRy ChARgeR—

Input: 120 volts ac, 60 Hz.

Output: 18 to 36 vdc (24 vdc, nominal), 10 amperes.

Refer to Table 1 for specifications of the EQ21XXPS

Series power supplies.

NOTe

Although components are rated 18 to 38 vdc,
the system output voltage has been rated at 18
to 36 vdc for maintaining ground fault monitoring
capabilities.

RelAy COntACt RAtIngS—

28 vdc or 120 vac at 5 amperes.

CeRtIFICAtIOn—

FM Approved per ANSI/NFPA 72-1996, National Fire

Alarm Code. Reference Figure 5 for FM Approval system

details. (Reference the specific product manuals for

detailed specifications.)

CURRent ReqUIReMentS—

Use Tables 2 and 3 to determine current requirements

at +24 vdc.

BACk-UP BAtteRy ReqUIReMentS—

Use Table 4 or Table 5 to determine the backup battery

amp hour requirement.

enClOSURe DIMenSIOnS—

See specific System Drawings for mounting

dimensions.

INSTALLATION

A set of System Drawings is supplied with each

system and is specific to that system. These

drawings detail system wiring, terminal assignments,

enclosure dimensions, standard symbols and wiring

specifications. Refer to these drawings when installing

the system. Dashed lines within the System Drawings

indicate wiring that must be completed in the field.

Installation of the Flame Detection/Releasing System

involves:

1. Mounting the enclosure that contains the prewired

system - mounting dimensions are included in the

System Drawings - Enclosure Mechanical Layout

sheet.

2. Installing and wiring the detector - system wiring

details are included in the System Drawings -

Detector Field Wiring sheet. Refer to the appropriate

Instruction Manual for detailed instructions on

locating, mounting and wiring the detectors:

X2200 UV Flame Detector with Pulse Output

95-8552

X9800 IR Flame Detector with Pulse Output

95-8555

X5200 UV/IR Flame Detector with Pulse Output 95-8547

X3301 IR Flame Detector with Pulse Output

95-8528

3. Installing and/or wiring other field devices (manual

pull stations, valves, annunciating/indicating/alarm

response devices, fire panels, etc.) - wiring details

are included in the System Drawings - UV System

R7404/R7494, R6006, R1425 Wiring sheets.

Characteristic

Power Supply

eq2110PS

(A36DAn-10A-24V-A1)

eq2130PS

(A36DAn-30A-24V-ABD1)

eq2175PS

(A36DAn-75A-24V-ABD1)

Input Voltage

120 vac

120/208/240 vac

Input Current

4 Amps

11/5/6 Amps

26/13/15 Amps

Input Frequency

60 hz

60 or 50 hz

Output Voltage Rating

24 vdc

Output Current Rating

10 Amps

30 Amps

75 Amps

Maximum Alarm Current

10 Amps

30 Amps

75 Amps

Maximum Standby Current

3.33 Amps

10 Amps

25 Amps

Battery Recharge Current

6.67 Amps

20 Amps

50 Amps

Maximum Battery Capacity

100 Amphours

300 Amphours

750 Amphours

Maximum Deluge Standby Current

1 Amp

3 Amps

7.5 Amp

table 1—Specifications of eq21xxPS Series Power Supplies

Summary of Contents for Det-Tronics FDRS

Page 1: ...elay and detonation output devices into a single system Figure 5 In addition to the Det Tronics flame detectors the FDRS accepts inputs from devices such as heat and smoke sensors and manual trip stations The FDRS provides alarm and fault relay outputs a detonator output that provides high speed output for direct connection to a deluge valve and extinguishing agent release signals for connection t...

Page 2: ...hen used as a field replacement all operating features of the current controller are retained in addition to gaining the advanced features of the X Series detector In typical applications the four wire X Series detector can utilize all existing system wiring X Series Flame Detectors include the following X3301 Multispectrum IR Detector See Figure 1A X2200 UV Detector See Figure 1B X9800 IR Detecto...

Page 3: ...d provides a digital display of system status using a numerical code Other features include individual zone identification and voting capability as well as manual oi testing See Figure 2 Voting of 2 or more UV flame detectors is required for compliance to ANSI NFPA 72 to maintain ground fault monitoring integrity R7494 Controller The R7494 Controller is also used with all X Series Pulse Output Fla...

Page 4: ...T MODE 3 DIGITAL DISPLAY NORMALLY OFF TURNS ON TO INDICATE STATUS CHANGE AND RELAY AFFECTED 4 AMBER SYSTEM FAULT LED NORMALLY OFF ON TO INDICATE SYSTEM FAULT 5 GREEN POWER LED NORMALLY ON WHEN UNIT IS POWERED 6 RED FIRE RELAY LEDS NORMALLY OFF RELAY UN ENERGIZED BLINK WHEN RELAY ENERGIZED ON STEADY WHEN RELAY DE ENERGIZED 7 AMBER FAULT RELAY LED NORMALLY OFF RELAY ENERGIZED BLINKS WHEN RELAY DE EN...

Page 5: ...ack of the BFD Mounting Rack The R7404 R7494 R6006 and R1425 Modules fit into a mounting rack which is located within the system enclosure Two mounting rack types are available Q4004 Universal Mounting Cage standard rack holds all system modules up to six Q1020 Wall Mount Metal Enclosure standard rack inside IP55 rated enclosure provides added protection System Enclosure An enclosure is provided t...

Page 6: ...in the field Installation of the Flame Detection Releasing System involves 1 Mounting the enclosure that contains the prewired system mounting dimensions are included in the System Drawings Enclosure Mechanical Layout sheet 2 Installing and wiring the detector system wiring details are included in the System Drawings Detector Field Wiring sheet Refer to the appropriate Instruction Manual for detai...

Page 7: ...l Solenoid Load Valve Coil Total Signaling Load Total Alarm Current for System in Amperes Table 3 Alarm Current Requirements at 24 vdc Device Type No of Devices x Standby Current Total Current for Device Type X2200 x 0 104 X9800 x 0 087 X5200 x 0 116 X3301 x 0 167 R7404A B x 0 062 R7494 x 0 063 R6006 x 0 104 R1425 x 0 104 W2400 x 0 015 BFD x 0 160 Resistor Network Load x 0 012 Heat Sensor x Manual...

Page 8: ... R1425 Removal Replacement The R7404 R7494 R6006 and R1425 are not designed to be repaired in the field however field replacement can be accomplished by following the instructions below If a problem should develop first carefully check for proper wiring and switch settings If it is determined that the problem is caused by a defect in the module the device must be returned to the factory for repair...

Page 9: ... can be assigned A written statement describing the malfunction must accompany the returned device or component to expedite finding the cause of the failure thereby reducing the time and cost of the repair Pack the controller circuit boards using sufficient packing material in addition to an anti static bag or aluminum backed cardboard as protection from antistatic discharge Return all equipment t...

Page 10: ...NG DATE DATE ANGLE 1 0 0 0 00 0 00 0 000 01 005 CHECKED DRAWN REV DATE DATE ECO NO TOLERANCES ARE DESCRIPTION DETECTOR ELECTRONICS CORP 0 5 SIZE SCALE DRAWING NO MINNEAPOLIS MINNESOTA 55438 0 25 0 13 REV APPROVED DATE BATTERY FAILURE DETR CLARIFY 6458 C X9800 IR FLAME DETECTOR 007399 001 OR FAILURE RELAY BATTERY FAILURE DETECTOR ANSI NFPA 72 1999 CL 1 5 8 X2200 UV FLAME DETECTOR BFD 3 3 4 4 3 MODE...

Page 11: ...9 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 J2 J1 CONTROLLER INPUT MATRIX INPUT VOLTAGE TO DETONA TOR VOLTAGE TO DETONA TOR CONTROLLER INPUT MATRIX INPUT VOLTAGE TO DETONA TOR VOLTAGE TO DETONA TOR 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 6...

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