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Det-Tronics Eagle Quantum Premier Safety System Controller Instructions Manual

Fire and gas alarm control system and automatic releasing for pre-action and deluge systems
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Instructions
Eagle Quantum Premier
®
Fire and Gas Alarm Control System and Automatic
Releasing for Pre-Action and Deluge Systems
21.1
Rev: 09/19
95-8533

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Summary of Contents for Det-Tronics Eagle Quantum Premier Safety System Controller

  • Page 1 Instructions Eagle Quantum Premier ® Fire and Gas Alarm Control System and Automatic Releasing for Pre-Action and Deluge Systems 21.1 Rev: 09/19 95-8533...

  • Page 2: Table Of Contents

    Table of Contents Section 1 - Safety Pre-Action System Solutions ........2-17 EQ3900RPS Explosion-Proof Power Supply ..... 2-17 ALERT MESSAGES ............1-1 EQ3780HSDM High Speed Deluge Module ......2-17 Section 2 - Introduction Section 3 - Installation SYSTEM DESCRIPTION ..........2-1 Communications Loop ...........
  • Page 3 Startup Procedure for Controller ........4-19 EQ22xxDCU Digital Communication Unit used with Startup Procedure for EDIO Module ......4-19 Det-Tronics H2S/O2 Sensors or other Two-Wire 4-20 mA Devices ............3-43 Startup Procedure for DCIO Module ......4-20 Assembly and Wiring Procedure ....... 3-43 Relay Module Startup ...........
  • Page 4 Table of Contents – Continued Section 5 - Maintenance Section 6 - Specifications EQ3XXX Controller ............6-1 ROUTINE MAINTENANCE .......... 5-1 EQ3LTM LON Termination Module ........6-3 Batteries ................. 5-1 EQ3730EDIO Enhanced Discrete I/O Module ....6-3 Manual Check of Output Devices ........5-1 EQ3700 DCIO Module ............
  • Page 5 Equipment Safety Symbols Symbol Description Direct current Alternating current Both direct and alternating current Three-phase alternating current Earth (ground) current Protective conductor terminal Frame or chassis terminal On (power) O (power) Equipment protected throughout by double insulation or reinforced insulation Caution, possibility of electric shock Caution, hot surface Caution*...

  • Page 6: Section 1 Safety

    Instructions ® Eagle Quantum Premier Fire and Gas Alarm Control System and Automatic Releasing for Pre-Action and Deluge Systems Section 1 CAUTION Safety 1. Be sure to read and understand the entire instruction manual before installing or ALERT MESSAGES operating the Eagle Quantum Premier ®...

  • Page 7: Section 2 Introduction

    Controller. ® The Eagle Quantum Premier system is easily modified to accommodate design changes In addition to Det-Tronics advanced flame or plant expansions. This can involve adding ® and gas detectors, Eagle Quantum Premier LON sections, repositioning LON sections, or offers the capability of incorporating third party removing LON sections from the loop.

  • Page 8: Lon Communication Heartbeat

    GAS DETECTION FIRE DETECTION CONFIGURABLE INPUTS AND OUTPUTS COMBUSTIBLE, TOXIC, OR CONTACT OTHER 4-20 MA INPUT CLOSURE CONFIGURABLE DRY CONTACT INPUTS DEVICES OUTPUT POINTS DIGITAL INITIATING X3301 X3302 UVHT/C7050 UVIR DEVICE COMMUNICATION 8 CHANNEL DCIO MODULE DETECTOR DETECTOR DETECTOR DETECTOR DETECTOR DETECTOR UNITS...

  • Page 9: Theory Of Operation

    Table 2-1—Controller Based Faults Table 2-2—Field Device Based Faults Controller Faults Trouble LON Fault Trouble Field Device Faults Trouble Trouble Shown on Text Relay Shown on Text Display Relay Display 290 Volt Fault Controller Fault AC Failed Device Offline Battery Fault Extra LON Device Beam Block Invalid Config...

  • Page 10: Controller Logs

    Table 2-3—Eagle Quantum Premier® Status Update Rates # of Input – Input – Input – Controller Type Devices No Exception With Exception With Exception U-Series PIRECL (UV & UVIR) DCIO, EDIO, HSDM Relay Module ASM/ASH Module X-Series LS2000 1 to 100 1 Second 1 Second 1 Second...

  • Page 11: Communication Network Fault Operation

    The LON fault isolation routine is disabled and NODE 4 NODE 5 the LON fault isolation relays are closed when NODE 3 NODE 6 the LON fault timeout period has elapsed. The LON fault isolation routine will be enabled NODE 2 NODE 7 when the device again receives a heartbeat.

  • Page 12: Major Component Descriptions

    MAJOR COMPONENT DESCRIPTIONS ETHERNET OR ETHERNET RS-232 OR MODBUS SERIAL LINK RS-485 DCS/PLC/HMI The system has three main component groups – the System Controller, LON (Local Operating CONTROLLER A Network), and Intelligent Field Devices. LON ADDRESS 1 CONFIGURATION SOFTWARE HIGH SPEED SYSTEM CONTROLLER RS-232 SERIAL LINK...

  • Page 13: Ethernet Interface Board

    Table 2-4—Ports on Ethernet Interface Board Serial Interface Board The Serial Interface Board supports up to Port Name Comm Function four additional serial ports. See Table 2-5. Modbus (Master/ For a redundant controller configuration, the Slave) Ground Serial Port 2 RS-485 Fault Monitored, board is required in both controllers.

  • Page 14: Controller-To-Controller Communication

    Controller-to-Controller Communication (SLC485) The EQP controllers can be configured to communicate with up to 12 controllers via RS-485 communication. The controller-to- controller scheme provides the ability to meet NFPA 72® SLC requirements with the following primary features: • Modular trouble and alarm configuration Figure 2-8—Eagle Quantum Premier®...

  • Page 15: Eq21Xxps Series Power Supplies And Eq2100Psm Power Supply Monitor

    Detector Manual Number X3301 95-8704 X3301A 95-8527 & 95-8534 X3302 95-8576 X5200 95-8546 X2200 95-8549 X9800 95-8554 UVHT 95-8570 Figure 2-9—Ground Fault Monitor Table 2-8—Flame Detector Instruction Manuals NOTES in ordinary and marine applications. Refer to Section 3 of this manual for complete A network extender is required for information.

  • Page 16: Model Hd Heat Detector

    The EDIO module can be mounted directly to a panel, or it can be DIN rail mounted. System U5015 Explosion Proof Smoke Detector status can be determined using the trouble- shooting procedures, Eagle Quantum Safety Det-Tronics SmokeWatch U5015 System Software (S ³...

  • Page 17: Eq3720 8 Channel Relay Module

    the type of supervision, an input channel is also EQ3720 8 Channel Relay Module configured to generate the appropriate static The 8 Channel Relay Module (see Figure 2-12) logic alarm message to the controller. consists of eight individually configured output channels.

  • Page 18: Eq3710Aim Analog Input Module

    EQ3710AIM Analog Input Module EQ3770 Explosion-Proof I/O (EIO) Module The 8 Channel Analog Input Module (see This module includes on EDIO/HSDM/AIM/RM/ Figure 2-13) provides a means of connecting DCIO module in an explosion-proof enclosure devices with a calibrated 4–20 mA output (see Figure 2-14).

  • Page 19: Eq3760Asm Addressable Smoke And Heat Module

    EQ3760ASM Addressable Smoke & Heat Module The EQ3760ASM Addressable Smoke & Heat Module (see Figure 2-15) is an interface device designed to provide continuous and automated fire protection for the EQP system. The EQ3760ASM is located directly on the LON of the EQP system, with a loop of up to 100 addressable devices tied into the EQ3760ASM.

  • Page 20: Eq22Xxarm Agent Release Module

    The EQP Controller continuously monitors the The device can monitor and control two output status of the ASH module, as well as the status devices (24 Vdc rated) that are programmed of each device connected to the ASH module. and energized together. The release circuits ASH module alarm and fault status conditions are compatible with a variety of solenoid or are logged in the EQP controller.

  • Page 21: Eq22Xxsam Signal Audible Module

    NFPA 72®:2010 or earlier. NOTE Input types (e.g. fire alarm, trouble, and gas alarms) are configurable through ³ Det-Tronics Safety System Software (S NOTE Special Condition of Use: For use in systems installed in compliance with NFPA 72®:2010 or earlier.

  • Page 22: Ud10 Dcu Emulator

    The EQ22xxDCUEX is a specialized version information, refer to form number 95-8656. of the DCU that contains a transmitter for connection to a Det-Tronics Model CGS catalytic combustible gas sensor. Refer to the EQ22xxDCU Specification Data sheet (form number 90-1118) for additional information.

  • Page 23: Pirecl Pointwatch Eclipse

    EQ3780HSDM High Speed Deluge Module information, refer to form number 95-8526. The EQ3780HSDM High Speed Deluge Module (HSDM) is specifically designed NOTE to expand the capability of the Det-Tronics The low alarm range for the EQP PIRECL Eagle Quantum Premier ® (EQP) System by is 5–40% LFL (the standard PIRECL is...

  • Page 24: Section 3 Installation

    Section 3 CAUTION Installation Any deviation from the manufacturer’s NOTE recommended wiring practices can compromise system operation and For specific information regarding effectiveness. ALWAYS consult the factory systems meeting EN54 standards, refer if different wire types or methods are to the EQ5400 Series operation manual being considered.
  • Page 25 The Eagle Quantum Premier® system utilizes a In order to calculate the power supply voltage power supply that provides an isolated 24 Vdc for the end device, calculate the voltage drops battery backed-up power to the fire protection that occur due to each wire segment between devices as described in NFPA 72®.

  • Page 26: Determining Power Requirements

    Determining Power Requirements Tables 3-1 and 3-2 are provided for calculating the total current requirements for those parts of the system requiring battery backup. Table 3–1—Standby Current Requirements at 24 Vdc Number of Standby Device Type Total Current for Device Type Devices Current EQP Controller...
  • Page 27 Table 3-2—Alarm Current Requirements at 24 Vdc Number of Device Type Alarm Current Total Current for Device Type Devices EQP Controller 0.430 EQ3LTM Module 0.001 EDIO 8 Inputs 0.130 EDIO 8 Outputs 0.075 HSDM Module 0.100 DCIO 8 Inputs 0.130 DCIO 8 Outputs 0.075 Relay Module...

  • Page 28: Eq211Xps, Eq213Xps And Eq217Xps

    Table 3-3A—EQ21xxPS Power Supply Specifications Characteristic Power Supply EQ2110PS/EQ2111PS EQ2130PS/EQ2131PS EQ2175PS/EQ2176PS Input Voltage 120 vac 120/208/240 vac 120/208/240 vac Input Current 4 Amps 11/6/6 Amps 24/15/12 Amps Input Frequency 60 Hz – EQ2110PS 60 Hz – EQ2130PS 60 Hz – EQ2175PS Input Frequency 50 Hz –...

  • Page 29: Eqp2410Ps(-P) Converter

    Table 3-4—Backup Battery Requirements for Automatic Release of Extinguishing Systems Except Deluge Standby Current Standby Time* Standby Amp Hours 24 Hours Alarm Current 5 Minute Alarm Time* Alarm Amp Hours 0.083 Hours Sum of Standby and Alarm Amp Hours Multiply by 1.2 (20% Safety Factor) T0014B Total Battery Amp Hour Requirement * FM MINIMUM REQUIREMENT FOR EXTINGUISHING SYSTEMS...

  • Page 30: Shield Grounding

    Table 3-3B – EQP2XX0PS Power Supply and Converter Specifications Characteristic EQP2120PS(-B) EQP2410PS(-P) Power Supply Converter Input Frequency 60/50 Input Voltage 120/220 Vac 24 Vdc Input Current, Max. 6.6 / 3.6 Iac 15.7 Idc Output Voltage Range 24.5 … 28.0 Vdc 24.5 …...

  • Page 31: Ground Fault Monitor (Gfm) Installation

    Many devices contain semiconductors that are susceptible to damage by – – electrostatic discharge. NOTE RELAY For more information on proper handling, refer to Det-Tronics Service Memo form SPARE 75-1005. COMMON EARTH GROUND FAULT MONITOR GROUND (GFM) INSTALLATION NOTE: RELAY CONTACTS ARE SHOWN IN THE REST STATE, NO POWER APPLIED.
  • Page 32 LON Cable NPLFA Maximum Length** Voltage WARNING (Manufactured and Part No.)* Feet Meters Belden 3073F (Tray Rated) 6,500 2,000 600 V Be sure that the selected cable meets all job specifications and is rated for the Rockbestos Gardex Fieldbus 1 Shield Pair, 16 AWG, installation per local and national codes Type TC, p/n FB02016-001 6,500...
  • Page 33 EQ3XXX CONTROLLER NOTE INSTALLATION The recommended lubricant is a silicone free grease, available from Det-Tronics. The following paragraphs describe how to properly install and configure the EQ3XXX 7. Place the cover on the enclosure. Tighten Controller. only until snug. Do not over tighten.

  • Page 34: Mounting

    Eagle Quantum Premier® equipment installed (measured at the device) must be within in the enclosure. Contact Det-Tronics for further the range indicated for that device in the information.
  • Page 35 COMMON 21 INPUT, + N. O. 22 COMMON, – N. C. 23 – Figure 3-4—Unsupervised Input Wiring Figure 3-5—Unsupervised Relay Output When controller and power supplies are installed in separate NRTL cabinets, two opening the N.C. contact (terminals 45-47). power cables from two distribution circuits are The relay coil is de-energized in the trouble required, so that if one is lost, the controller condition.
  • Page 36 Jumper P26 – LON COM 2 Termination Software selectable baud rates are 2400, 4800, 9600,19200, 38400, 57600, and 115200. COM 2 Terminated (factory setting) Software selectable parity is None, Odd, and COM 2 Unterminated (Redundancy) Even. The controller uses 8 data bits with 1 stop bit.
  • Page 37 Connector P9, Terminals 57, 58 & 59 — 115200 (factory default is 115200). Software selectable parity is None, Odd, and Even. ³ Configuration Port Configuration data downloaded into the Port Pinout (3-position terminal block) controller configures the serial interface 57 — GND transmission baud rate and parity check for the 58 —...
  • Page 38 SHIELD COM 1 – 24 VDC INPUT POWER – SHIELD COM 2 RESET 1– ACKNOWLEDGE RS-485 2– PORT 1 DIGITAL INPUTS 1 TO 4 SILENCE 3– RS-232 INHIBIT ENABLE CONFIG 4– PORT ENTER 5– CANCEL SERIAL INTERFACE BOARD 6– DIGITAL INPUTS 5 TO 8 NEXT 7–...

  • Page 39: Controller To Controller Communication

    CONTROLLER TO CONTROLLER Connector P10, Terminals 60, 61 & 62, Port 2– RS-485 Modbus RTU Master/Slave COMMUNICATION Configuration data downloaded into the Controller to Controller Communication controller configures the serial interface (SLC485) with Signaling Line Circuit transmission baud rate, parity check for the Classification Class B or X, per NFPA serial port, and Modbus device address.
  • Page 40 PORT 4 PORT 3 PORT 2 RS-232 Transmit LED (Amber) RS-232 Receive LED (Green) P3: RS-485 Ground Fault MonitorJumper RS-485 Transmit LED (Amber) RS-232 Transmit LED (Amber) RS-485 Receive LED (Green) P25: RS-485 Termination Jumper RS-232 Receive LED (Green) TRONICS ®...
  • Page 41 Safety margin: 3.0 db max connection for Phoenix (multi mode). Max. Distance = 10 – (2 x 0.5) – 3.0 = 15 km For more information regarding selection and installation of fiber optic media, please contact Det-Tronics customer service. 95-8533 21.1 3-18...
  • Page 42 ADDITIONAL CONTROLLER(S) PORT 4 PORT 3 PORT 2 PORT 4 PORT 3 PORT 2 P3: RS-485 Ground Fault P3: RS- 485 Ground Fault Monitor Jumper, Position 1 & 2 Monitor Jumper, Position 1 & 2 P25: RS-485 Termination Jumper, P25: RS-485 Termination Jumper, Position 1 &...

  • Page 43: Configuration

    Subnet Mask 255.255.255.000 Software Defined Addresses NOTE ³ Det-Tronics Safety System Software (S is programmed with the addresses that Maximum Modbus update time per port are assigned to the controller when the is 250 mSec. configuration file is downloaded into the controller.
  • Page 44 EQP CONTROLLER No. 1 EQP CONTROLLER No. 3 SINGLE MODE FIBER OPTIC CABLE PORT 1 PORT 1 RS-485 RS-485 T– T– R+D+ R+D+ Moxa Moxa R–D– R–D– TCF-142-S TCF-142-S EQP CONTROLLER No. 2 EQP CONTROLLER No. 4 PORT 1 PORT 1 RS-485 RS-485 B2328...

  • Page 45: Eq3Xxx Redundant Controller Installation

    TROUBLE INPUT EQP CONTROLLER No. 1 TROUBLE INPUT EQP CONTROLLER No. 3 TO EQP SYSTEM TO EQP SYSTEM MULTI MODE FIBER OPTIC CABLE PORT 2 PORT 2 RS-485 RS-485 D(P) D(P) Phoenix Phoenix D(N) D(N) PSI-MOS- PSI-MOS- RS485W2/FO RS485W2/FO EQP CONTROLLER No. 2 EQP CONTROLLER No.

  • Page 46: High Speed Serial Link (Hssl)

    HIGH SPEED SERIAL LINK (HSSL) controller has the correct output information. Information coming from the PLC should be The redundant controllers are connected written to both Premier® Controllers. together by a dedicated high-speed serial link. This link is a pre-fabricated cable that has a Ethernet DLR custom connector for ease of use.

  • Page 47: Mounting

    MOUNTING 4. Connect external wiring to the appropriate points on Power Supply. Refer to Figure 3-18 Mount the power supply monitor in a Nationally for terminal block locations and Figures Recognized Test Laboratory (NRTL) labeled 3-17 and 3-18 for terminal identification. enclosure.

  • Page 48: Measuring Battery Voltage And Charging Current

    J1: POWER AND LON WIRING LON ADDRESS SWITCHES J3: AC INPUT TERMINAL NO. 1 TERMINAL J2-1 TO TERMINAL B TERMINAL J2-2 TO TERMINAL C SWITCH NO. 1 TERMINAL J2-3 TO TERMINAL C + – YELLOW LED RED LED TERMINAL NO. 1 GREEN LED C1949 0.0005 OHM SHUNT...

  • Page 49: Eqp2Xx0Ps(-X) Power Supplies And Redundancy Module Installation

    POWER SUPPLY MONITOR TERMINAL J1 Conduit (See Figure 3-55 for LON wiring) AC POWER AC MONITOR See Notes 1 & 3 CIRCUIT BREAKER (See Note 3) See Note 9 – – 24 VDC OUTPUT – POWER DIST CKT #1 See Note 5 –...
  • Page 50 1. Connect external wiring NOTE appropriate points on Power Supplies. Contacts are closed during normal operation. The circuit shall be wired to Refer Figure 3-19A terminal an input on the EQP system (EDIO or locations EQP21X0PS(-X). IDC). In Logic, the selected input must be inverted and used to activate an Refer Figure...
  • Page 51 NRTL DISTRIBUTION CABINET – PRMARY POWER 24 VDC – See Notes 1 & 2 OUTPUT EQP2120PS(-x) POWER SUPPLY – – 24 VDC – SECONDARY POWER OUTPUT See Notes 2 & 4 – – POWER DIST CKT #1 – POWER DIST CKT #2 EQP2410PS(–P) CONVERTER REDUNDANCY –...

  • Page 52: Startup

    ENHANCED DISCRETE NOTE INPUT/OUTPUT (EDIO) For additional information, refer to the MODULE INSTALLATION power supply manufacturer’s documents provided with the support documentation received with the Eagle Quantum Premier® system. All electrical connections are made to the field wiring connectors furnished with the module. STARTUP Refer to Figure 3-21 for identification of module wiring terminals.
  • Page 53 Connector P3, Terminals 1 to 12 Connect external system wiring to the appropriate terminals on the terminal block. Terminals A,B & C Channels 1 to 4 Input / Output Terminals For Class B wiring, see Figure 3-25. For Class A wiring, see Figure 3-27.
  • Page 54 The input to the EDIO module consists of IMPORTANT normally open switches, with a 10 K ohm, 1/4 No more than 15 devices can be watt EOL resistor in parallel across the return connected per channel. channel, and a 3.3 K ohm, 1/4 watt resistor in series with each switch.
  • Page 55 Supervised Output— module. This type of output does not require the use of EOL resistors or diodes to supervise Notification Supervised for Open & Short Circuits the circuit. Connect external system wiring to the The output can be configured for latching, appropriate terminals on the terminal block.

  • Page 56: Configuration

    A tag number must include zone designation, which will be shown on the The DCIO can be panel or DIN rail mounted. controller's display when the point is in alarm. Det-Tronics S ³ Safety System Software is used for device configuration. The following shows...

  • Page 57: Wiring

    895630 1500 Cat # 81-895630-000 Kidde-Fenwal 890181 1500 Det-Tronics PN 00219-209 Ansul 570537 Macron 304.209.001 *Note: Alternate secondary power source when accept by Local AHJ, may increase permissible wire voltage drops. Actual secondary voltage must be determined. Voltage and current at solenoid must be known and used in the equation.
  • Page 58 EQ3700DCIO COMMON C CHANNEL 8 IN–/OUT+ B SHLD COM 2 SHLD + SUPPLY A LON FROM COM 2 B PREVIOUS DEVICE COMMON C COM 2 A CHANNEL 7 IN–/OUT+ B SHLD COM 1 SHLD LON TO + SUPPLY A COM 1 B NEXT DEVICE COM 1 A COMMON C...
  • Page 59 Input to the DCIO consists of one or more Connect external wiring to the appropriate normally open or normally closed switches. terminals on the DCIO terminal block. See Figure 3-38. Indication of short circuit fault is NOTE provided. An EOL resistor is not required. The input to the DCIO module consists of a NOTE normally open switch, with a 10 K ohm, 1/4...
  • Page 60 Each output channel is individually activated NOTE for response pattern: For solenoids, this wire length includes – continuous output both the wiring from the power supply to – 60 beats per minute the DCIO module and the wiring from the –...

  • Page 61: Configuration

    4 and 5. Shields are to be connected to terminals 3 and 6. ³ Det-Tronics S Safety System Software is used for device configuration. The following shows the minimum software/firmware releases: Controller Firmware ³...

  • Page 62: Configuration

    Be sure to observe polarity when wiring the identification. LON. 1 — "A" side of signaling circuit for COM 1 Det-Tronics S ³ Safety System Software is used 2 — "B" side of signaling circuit for COM 1 for device configuration. The following shows 4 —...

  • Page 63: Wiring

    The enclosure should be rated for the Power Connector — Terminals 1 to 6 temperature range of the location plus the 24 Vdc Power Input temperature rise of all equipment installed 1 — + inside the enclosure. The enclosure must be 2 —...

  • Page 64: Configuration

    COM Connector — Terminals 1 to 6 CONFIGURATION LON Terminals Setting Analog Input Module Be sure to observe polarity when wiring the Network Address LON. One unique network address must be assigned 1 — "A" side of signaling circuit for COM 1 to each analog input module.

  • Page 65: Gas Detector Location And Installation

    Det-Tronics S ³ Safety System Software is used 4. Devices should be pointed down to prevent for device configuration. The following tables the buildup of moisture or contaminants on show the minimum software/firmware releases: the filter. 5. Devices must be accessible for testing and For Gas Applications calibration.

  • Page 66: Eq22Xxdcu Digital Communication Unit Used With Det-Tronics H2S/O2 Sensors Or Other Two-Wire 4-20 Ma Devices

    Halogens compounds containing EQ22XXDCU DIGITAL COMMUNICATION halogen are materials of this nature and UNIT USED WITH DET-TRONICS others include: H2S/O2 SENSORS OR OTHER Examples: TWO-WIRE 4-20 MA DEVICES Chlorine Determine the best mounting locations for Bromine the detectors.
  • Page 67 A1571 COM 1 Figure 3-48—Printed Circuit Boards in Universal DCU A1726 See Figure 3-50 for an example of a Det-Tronics Figure 3-49—Wiring Configuration for DCU electrochemical sensor connected to a DCU. Attach the communication module to the H 2 S/TOXIC/O 2 standoffs as shown in Figure 3-48.

  • Page 68: Sensor Separation For Dcu With H2S And O2 Sensors

    Sensor Separation for DCU with H2S 2. A communication module mounted above the terminal wiring board using the standoffs and O2 Sensors provided. See Figure 3-48. Since the transmitter for the electrochemical sensor is already mounted within the sensor housing, simply mount the entire sensor Assembly and Wiring Procedure assembly to the sensor separation kit junction Attach the PointWatch/DuctWatch to the DCU...

  • Page 69: Eq22Xxdcuex Digital Communication Unit (Used With Det-Tronics Combustible Gas Sensors)

    EQ22XXDCUEX DIGITAL COMMUNICA- DCU TRANSMITTER BOARD 1 DCU TERMINAL BOARD (MIDDLE BOARD) TION UNIT (USED WITH DET-TRONICS POINTWATCH CALIBRATE COMBUSTIBLE GAS SENSORS) Mounting 4 TO 20 MA IN Determine the best mounting location for the – – device. Whenever practical, the device should...

  • Page 70: Sensor Separation With Dcuex

    Lubricate the box cover with a thin coat of silicone-free O-ring and the threads of the junction box grease (available from Det-Tronics). cover with a thin coat of silicone-free grease (available from Det-Tronics). 12. Replace the device cover.

  • Page 71: Alternate Method

    Alternate Method A plug with screw terminals is provided for connecting the cable to P2 on the transmitter If the transmitter board must be mounted board. Observe the wiring color code. Connect separate from the sensor (high temperature the shield to the ground terminal in the DCUEX applications, etc.), separate the sensor only, junction box.
  • Page 72 SINGLE SOLENOID DUAL SOLENOIDS CH 1 CH 2 CH 3 CH 4 CH 5 CH 6 CH 7 CH 8 RELAY 6 RELAY 7 RELAY 8 RELAY 5 DIGITAL INPUTS RELAY 1 RELAY 2 RELAY 3 RELAY 4 21.1 3-49 95-8533...

  • Page 73: System Configuration

    SYSTEM CONFIGURATION SETTING DEVICE NETWORK ADDRESSES Overview of Network Addresses Each device on the LON must be assigned a unique address. Addresses 1 to 4 are reserved for the controller. Valid addresses for field devices are from 5 to 250. Figure 3-56—Field Device Address Switches for ARM, SAM, DCU and IDC IMPORTANT...

  • Page 74: Rocker Switch Table

    Rocker Switch Table Node Rocker Switch Node Rocker Switch Address Address 21.1 3-51 95-8533...
  • Page 75 Rocker Switch Table Node Rocker Switch Node Rocker Switch Address Address 95-8533 21.1 3-52...

  • Page 76: Section 4 Operation

    Section 4 Enter chooses the menu item selected, and advances the menu to the next options list. Operation (See “Controller Menu Options“ in this section for additional information.) SYSTEM CONTROLLER NOTE PUSHBUTTONS Pressing Enter while alarms are actively The Controller has seven pushbuttons (located scrolling returns the display to the Main on the front panel) for user interface.

  • Page 77: Controller Status Indicators

    CONTROLLER STATUS INDICATORS CONTROLLER MENU OPTIONS System status is visually displayed on the The Controller is designed to display system Controller in two ways — through the use of status and device related information. a Text Display (see Figure 4-2), and through following paragraphs describe how to move colored LED’s (see Table 4-1).
  • Page 78 Marque Display Auto Scrolling Alarm Enter / Cancel Screen Display Current Time/Date (no active alarms) Display Alarms Screen Display Alarms Enter Next Display Alarms Prev Enter Fire Alarms Cancel Display Devices* Next Gas Alarms Reset Prev Trouble Pressing the ack Device Tagname Supervisory switch acknowledges...

  • Page 79: Alarm Type

    Pressing the NEXT or PREVIOUS pushbuttons Main Menu Main Menu allows cycling through devices. Pressing the > > Display Alarms Display Alarms CANCEL pushbutton will return the display to the Main Menu. Display Devices Display Devices Device Tagnames Device Tagnames DEVICE TAG NAMES displays device tag name information for all devices on the LON Moving within the Main Menu is done by using...
  • Page 80 SERIAL PORTS displays port information on Cntr Mode all available ports. Indicates whether the controller is in master or standby mode. Serial Ports Serial Ports Configuration Port Configuration Port My Config Serial Port 1 Serial Port 1 Indicates whether the controller is the primary Serial Port 2 Serial Port 2 or secondary controller.

  • Page 81: Controller Audible Alarm

    Lon Comm Table 4-2—EQP Controller Alarm Tone Patterns Redundant controllers exchange information Priority Controller Tone Tone Pattern across the LON network. This is primarily done Fire Alarm Temporal to prevent both controllers from becoming the Supervisory Supervisory master in the event that the HSSL fails. The fault is annunciated when a controller fails to receive Trouble Trouble...

  • Page 82: Controlnet Status Indicators (Optional)

    Table 4-3—Status of ControlNet LED Indicators A and B Cause Action No power None or power up. Steady red Faulted unit Cycle power. If fault persists, contact the factory. Alternating red/green Self-test None Alternating red/off Incorrect node configuration Check network address and other ControlNet configuration parameters.

  • Page 83: Sequence Of Events During A Configuration Data Download

    Table 4-5—Ethernet DLR Network Status LED Table 4-6—Ethernet DLR Link Status 1 and Link Status 2 LEDs LED State Description LED State Description No link, no activity. No power or no IP address. Green Link (100 Mbit/s) established. Green Online, one or more connections established (CIP Green, flickering Activity (100 Mbit/s)

  • Page 84: Controller Redundancy

    4. The controller that is connected with the NOTE primary end of the HSSL is identified as the Depending on the condition of the LON primary controller and is assigned address devices, faults may persist for a number of minutes. 5.
  • Page 85 Sequence of Events During a 5. The controller indicates “Device Download Active” until the LON devices have been Configuration Download successfully updated. WARNING Automatic Switchover The system is inactive and not executing logic/alarm functions during a program An automatic transfer will be initiated if the download (in both single and redundant master controller goes into an error (self controller configurations).

  • Page 86: Enhanced Discrete I/O Module

    ENHANCED DISCRETE I/O MODULE The EDIO Module (see Figure 4-6) has 18 LED STATUS INDICATOR LEDs status indicators, two for the device and two for each channel, located on the front panel. Refer to Tables 4-7 and 4-8 for a description of the LED indicators.

  • Page 87: Channel Dcio Module

    8 CHANNEL DCIO MODULE STATUS INDICATOR LEDs The DCIO Module (see Figure 4-7) has 18 LED status indicators, two for the device and two for each channel, located on the front panel. Refer to Tables 4-9 and 4-10 for a description of the LED indicators.

  • Page 88: Channel Relay Module

    8 CHANNEL RELAY MODULE STATUS INDICATOR LEDs The Relay Module (see Figure 4-8) has 18 LED status indicators, two for the device and two for each channel, located on the front panel. Refer to Tables 4-11 and 4-12 for a description of the LED indicators.

  • Page 89: Analog Input Module

    ANALOG INPUT MODULE STATUS INDICATOR LEDs The Analog Input Module (see Figure 4-9) has 18 LED status indicators, two for the device and two for each channel, located on the front panel. Refer to Tables 4-13 and 4-14 for a description of the LED indicators.

  • Page 90: Eq21Xxpsm Power Supply Monitor

    EQ21XXPSM POWER SUPPLY EQ2220GFM GROUND FAULT MONITOR MONITOR The power supply monitor (see Figure 4-10) The ground fault monitor (see Figure 4-11) has has three LEDs used to provide a visual three LEDs used to provide a visual indication indication of device status: of device status: + GND FLT LED –...

  • Page 91: Eq22Xxdcu And Eq22Xxdcuex Digital Communication Units

    EQ22XXDCU AND EQ24XXNE NETWORK EQ22XXDCUEX DIGITAL EXTENDER/EQ24XXPLR COMMUNICATION UNITS PHYSICAL LAYER REPEATER The DCUs have three LEDs to provide a visual The EQ24xxNE has three LEDs (one green, two indication of device status. They are visible amber) for indicating device status. through the window on the enclosure cover.

  • Page 92: System Startup

    Redundant Controller SYSTEM STARTUP The I/O and LON wiring is correctly installed, PRE-OPERATION CHECKS observing polarity. All cable shields are General properly terminated and insulated. Insulate all shields to prevent shorts to device Power wiring is installed and power source is housing or to any other conductor.

  • Page 93: General Start-Up Procedures

    Verify correct address setting. Check for correct installation of EOL resistors. 5. Program the system for the desired operation using Det-Tronics Safety System Software (S ³ ). Download configuration data ARMs to all devices.

  • Page 94: Startup Procedure For Controller

    To verify that the Controller is powered-up and operating properly, ensure that: NOTE The module is configured using Det-Tronics 1. When power is first applied, all LEDs are on. Safety System Software. The ACK LED flashes while the memory test is running.

  • Page 95: Startup Procedure For Dcio Module

    NOTE matrix. The module is configured using 3. The output circuits should indicate the Det-Tronics Safety System Software. proper state for the programmed device (channel active LED illuminates when the Activation Time circuit is active). Check the power supply and Timers are made available for output circuits associated wiring.

  • Page 96: Relay Module Startup

    DCIO Startup Relay Module Startup 1. The Power-on LED should be illuminated. 1. The Power-on LED should be illuminated. The Fault LED should blink once on power The Fault LED should blink once on power up, then remain off. up, then remain off. 2.

  • Page 97: Section 5 Maintenance

    Section 5 should be opened periodically, and the O-ring inspected for breaks, cracks and dryness. Maintenance To test O-ring: remove it from the enclosure and stretch it slightly. If cracks are visible, replace NOTE it. If it feels dry, a thin coating of lubricant Refer to the Eagle Quantum Premier®...

  • Page 98: Calibration And Adjustments

    CALIBRATION ALGORITHM A IMPORTANT FOR MANUAL CALIBRATION OF 4–20 mA devices not manufactured by UNIVERSAL DCU Det-Tronics must be pre-calibrated. To Normal Calibration ensure adequate protection, calibration must be performed on a regularly 1. Activate the reed switch. (The red LED scheduled basis.

  • Page 99: Sensor Replacement

    11. Remove the span gas, and return the 11. Remove the span gas and return the analog input to normal. analog input to normal. 12. Activate the reed switch. (The red LED 12. Activate the reed switch. (The red LED blinks for three seconds while the reed flashes for three seconds while the switch switch is closed)

  • Page 100: Initial Installation And Sensor Replacement - Combustible Gas

    7. The calibrate LED stays on steady. 5. Connect a volt meter to the test points on the transmitter board. Connect the “+” lead 8. Remove the calibration gas. to TP1 (red). Connect the “–” lead to TP2 9. The communication module waits until the (black).

  • Page 101: Sensor Replacement - Toxic Gas

    Sensor Replacement — Toxic Gas 9. Remove the calibration gas and replace the DCU enclosure cover. NOTE 10. The communication module waits until the When replacing a sensor, compare analog value drops below 4% full scale. part numbers to be sure the correct The calibration is complete.

  • Page 102: Calibration Algorithm Gfor Dcus With Pointwatch Or Ductwatch

    4. Activate the reed switch. (The red LED 7. The calibrate LED stays on steady. flashes for three seconds while the switch 8. Remove the calibration gas. is closed.) 9. The communication module waits until the 5. The communication module records sensor input drops below 4% full scale.

  • Page 103: Device Calibration Logs And Records

    DEVICE CALIBRATION LOGS check for proper wiring, programming and calibration. If it is determined that the problem AND RECORDS is caused by an electronic defect, the device The DCU keeps a calibration log in non-volatile must be returned to the factory for repair. memory that can be used by the operator to evaluate the remaining life of some sensors.
  • Page 104 Table 5-2—System Controller Troubleshooting Guide Symptom Possible Cause Corrective Action Controller Power No Power to Input. – Measure input voltage (18 to 30 Vdc). LED/ – Check that P1 is fully inserted. Text Display OFF If voltage is present and P1 is fully inserted, replace controller.

  • Page 105: Ordering Information

    ORDERING INFORMATION LON DEVICES Part Number Description When ordering, please specify: 006607-xxx EQ22xxDCU Digital Refer to the appropriate model matrix in Communication Unit (specify Appendix G for the following devices: gas) 006941-xxx EQ24xxNE Network Extender EQ3XXX EQP Controller EQ3700DCIO Discrete Input/Output Module 009183-xxx EQ24XXPLR Physical Layer Repeater...

  • Page 106: Section 6 Specifications

    Section 6 SERIAL INTERFACE BOARD— Specifications RS-485 Communication: Modbus master/ slave capability, ground fault monitored. NOTE Digital communication, transformer isolated F o r U S C G A p p r o v e d S y s t e m (up to 230 kbps).
  • Page 107 CERTIFICATION— 10.75 2.45 (27.3) (6.22) FM / CSA: Class I, Div. 2, Groups A, B, C, D (T4). (17.78) Class I, Zone 2, Group IIC (T4). TRONICS Tamb = –40°C to +80°C. ® ® APPROVED EAGLE QUANTUM PREMIER 5.95 Performance verified. Safety System Controller (15.1) Refer to Appendix A for FM Approval details,...

  • Page 108: Eq3Ltm Lon Termination Module

    EQ3LTM LON TERMINATION EQ3730EDIO ENHANCED MODULE DISCRETE INPUT/OUTPUT MODULE INPUT VOLTAGE— 24 Vdc nominal, 18 to 30 Vdc. 10% overvoltage POWER REQUIREMENTS— will not cause damage to the equipment. Module Power Consumption: 3 watts nominal, 11 watts maximum. INPUT POWER— 1 watt maximum.

  • Page 109: Input, Types

    1.35 (3.4) (6.4) 5.02 (12.7) (11.3) (11.3) (13.2) 1.66 (13.2) (4.2) A2449 (4.8) PANEL MOUNTING DIMENSIONS DIN RAIL MOUNTING DIMENSIONS Figure 6-3—Dimensions of the EDIO / DCIO / Relay Module / AIM in Inches (Centimeters) IECEx: IECEx ULD 10.0004X. For Class A wiring on inputs, configure adjacent Ex nA nC IIC T4 GC.
  • Page 110 SUPERVISED OUTPUT RATING-SIGNAL- NOTE ING CIRCUIT EDIO SIL has the capability of monitoring MAXIMUM OUTPUT CURRENT solenoid circuits for shorts. The minimum (Per Channel)— solenoid inductance for correct operation 2 amperes at 30 Vdc maximum. is 100 mH. See Table 3-10 for a list of Automatic short circuit protection provided.
  • Page 111 ATEX/EMC Directive Compliant. MAXIMUM OUTPUT CURRENT— 2 amperes maximum, 15 Amp inrush. Automatic short circuit protection provided. ATEX: II 3 G. ® APPROVED SUPERVISORY CURRENT— Ex nA nC IIC T4 Gc. Reverse current monitored at 3.0 mA, ± 2.0 ® DEMKO 02 ATEX 133864X.

  • Page 112: Eq3720 Relay Module

    EQ3720 RELAY MODULE EQ3710AIM ANALOG INPUT MODULE POWER REQUIREMENTS— 3 watts nominal, 4 watts maximum. POWER REQUIREMENTS— 6 watts nominal, 8 watts maximum. INPUT VOLTAGE— 24 Vdc nominal, 18 to 30 Vdc. 10% overvoltage INPUT/OUTPUT VOLTAGE— will not cause damage to the equipment. 24 Vdc nominal, 18 to 30 Vdc.

  • Page 113: Hart Interface Module

    EQ21XXPS POWER Refer to Appendix D for USCG Approval details. SUPPLIES HART INTERFACE MODULE INPUT VOLTAGE— Selectable for 120, 208 or 240 vac input power, (HIM) ±10%. INPUT VOLTAGE— 24 vdc nominal, 18 to 30 Vdc. 10% overvoltage INPUT CURRENT— will not cause damage to the equipment.

  • Page 114: Eqp2Xx0Ps(-X) Power Supplies

    EQP2XX0PS(–X) POWER REDUNDANCY MODULE SUPPLIES QUINT–DIODE/40 INPUT VOLTAGE— TEMPERATURE RANGE— EQP2120PS(-B): Auto selectable for 120/220 Operating: –13°F to +131°F (–25°C to +55°C) Vac, –15%, +10%; 60/50 Hz, single phase; (All Applications) EQP2410PS(-P) Converter: 24 Vdc, –15%, Storage: –40°F to +185°F (–40°C to +85°C). +10%.

  • Page 115: Eq21Xxpsm Power Supply Monitor

    EQ2220GFM GROUND EQ21XXPSM POWER SUPPLY FAULT MONITOR MONITOR INPUT VOLTAGE— INPUT VOLTAGE— 24 Vdc nominal, 18 to 30 Vdc. 24 Vdc nominal, 18 to 30 Vdc. 10% overvoltage will not cause damage to the equipment. POWER CONSUMPTION— 2.0 watts maximum. INPUT POWER—...
  • Page 116 EQ22XXDCU AND CERTIFICATION— FM / CSA: Class I, Div. 2, Groups A, B, C, D (T4). EQ22XXDCUEX DIGITAL Class I, Zone 2, Group IIC (T4 ). COMMUNICATION UNIT ® APPROVED Refer to Appendix A for FM Approval details. INPUT VOLTAGE— Refer to Appendix B for CSA Approval details.

  • Page 117: Eq24Xxne Network Extender/Eq24Xxplr Physical Layer Repeater

    EQ24XXNE NETWORK CERTIFICATION— FM / CSA: Class I, Div. 1, Groups B, C, D. EXTENDER Class I, Zone 1, Group IIC. Class I, Div. 2, Groups A, B, C, D (T4). INPUT VOLTAGE— Class I, Zone 2, Group IIC (T4 ). ®...

  • Page 118: Eq3780Hsdm High Speed Deluge Module

    EQ3750 ASH ADDRESSABLE EQ21XXPS POWER SUPPLY SMOKE & HEAT MODULE The EQ21xxPS Rectifier / Power Supply has many inherent advantages such as voltage For complete information regarding the ASH regulation, high efficiency, high power factor Module, refer to instruction manual number and short circuit protection.

  • Page 119: Section 7 Ordering Information

    Section 7 Ordering Information CONTROLLER MODEL MATRIX MODEL DESCRIPTION EQ3001 EQP Controller - 246 Nodes EQ3016 EQP Controller - 16 Nodes TYPE MOUNTING OPTION Din Rail Panel Mount TYPE COM BOARD 1 None ControlNet Ethernet DLR TYPE COM BOARD 2 None Ethernet Port Expansion Serial Port Expansion...

  • Page 120: Model Description

    DCIO MODEL MATRIX MODEL DESCRIPTION EQ3700 8 Channel Discrete Input/Output (DCIO) Module TYPE MOUNTING OPTION DIN Rail Panel TYPE APPROVALS* FM/CSA/ATEX/IECEx *Type "APPROVALS" can use one or more letters to designate the approvals of the product. Some configurations are not available. Check with factory for additional information. AIM MODEL MATRIX MODEL DESCRIPTION...
  • Page 121 See description on page D-6 000523-010 000523-010 See description on page D-6 For other USCG Approved EQP System components, refer to Table D-1 or contact Det-Tronics Customer Service. Refer to Section 3 of this manual for determining power requirements. 95-8533...

  • Page 122: Gas Detection

    • National Fire Alarm Code performance verified per NFPA 72®-2013. Refer to Table A-1 for device and circuit supervision characteristics. • See section 2 "Field Devices Flame Detectors" for information regarding Det-Tronics approved flame detectors and associated manuals. Additional two second response time applied for system communication.
  • Page 123 EAGLE QUANTUM PREMIER® FIRE AND GAS ALARM CONTROL PANELS: Hazardous Locations: Non-Incendive Solutions (Class 1, Div 2): EQ3900N - See Manual 95-8559 Explosion Proof Solution (Class 1, Div 1): EQ3900E - See Manual 95-8763 EQ3900RPSE Remote Power Supply Enclosure - See Manual 95-8745 EQ3770EIO - Remote I/O Module Enclosure - See Manual 95-8761 Ordinary Locations: EQ3900G - See Manual 95-8641...
  • Page 124 Parker (Viking): 11591 NC, 11592 NC, 71395SN2#NJ1N0H111C2, 73218BN4TNLVN0C322C2, 73212BN4TNLVN0C322C2, and 73212BN4TN00N0C111C2 ASCO RedHat: R8210A107, 8210A107, 8210G207, HV274608 NC, HV2740607 NC Viking PN: 11601, 11602 Kidde-Fenwal: 897494, 895630, 890181 Cat #: 202-749-260563, 202-749-260563 Det-Tronics PN: 00219-209 Ansul: 570537 Macron: 304.209.001 21.1 95-8533...
  • Page 125 73212BN4TN00N0C111C2 ASCO RedHat: R8210A107, 8210A107, 8210G207, HV2740607 NC (Viking 11601), HV274608 NC (Viking 11602) Kidde-Fenwal: 897494 (Cat #: 202-749-260563), 895630 (Cat #:81- 895630-000), 890181 (Det-Tronics PN: 00219-209) Ansul: 570537 (Macron: 304.209.001) ASCO Redhat: EF8210G002 High Speed Deluge Module, Initiating Device Circuit (IDC): Class B (via Cascade Input Channel) Cascade (software configurable) 21.1...
  • Page 126 Figure A-1FM Drawing 21.1 95-8533...

  • Page 127: Hazardous Locations

    APPENDIX B CSA INTERNATIONAL CERTIFICATION DESCRIPTION CLASS – 4818 04 – Signal Appliances – System – For Hazardous Locations CLASS – 4828 01 – Signal Appliances – Combustible Gas Detection Instruments for Hazardous Locations CLASS – 4828 02 – Signal Appliances – Toxic Gas Detection Instruments for Hazardous Locations HAZARDOUS LOCATIONS Eagle Quantum Premier®...
  • Page 128 Class I Division 1 Groups B, C & D, T6, TYPE 4X: EQ3770EIO Series Class I Division 2 Groups A, B, C & D T3A Class I Zone 2, IIC T3, TYPE 4X: EQ3900N Series Ordinary Locations : EQ3900G Series EQP System Gas Detector / Sensors Class 4828-01 &...
  • Page 129 Figure B-1 CSA Drawing 21.1 95-8533...
  • Page 130 EQ3780 HSDM Figure B-2 UL Drawing 21.1 95-8533...

  • Page 131: Special Conditions For Safe Use

    APPENDIX C ATEX AND IECEX CERTIFICATION ATEX AND IECEX CERTIFICATION DETAILS The Eagle Quantum Premier® Fire and Gas Detection / Releasing System was tested and certified to hazardous location and combustible gas performance standards. The ATEX/IECEx certified Eagle Quantum Premier® System field devices EQ22..., EQ24... and EQ25...
  • Page 132 PIRECL). 3. Controller Model EQ3XXX with UD10/DCU Emulator and CGS Conditioning Board, in combination with the Det-Tronics gas sensor Model CGS (tested as a gas detection system with methane applied to the CGS). 4. Controller Model EQ3XXX with OPECL or LS2000.
  • Page 133 Equipment type Series/Model Description EQ3XXXP N(C) N(S) W(T)-C, panel mount only; installed inside Rittal cabinet or equivalent NEMA 12 Det-Tronics EQ3XXX Controller enclosure in controlled environments; NEMA 4X enclosure for open area installations. Optional module used in the Controller Redundancy...
  • Page 134 Manufacturer Equipment type Series/Model Description Model GTXS N (M) W 4 (5) Transmitter with Model GTSH2S 20P (50P,100P) Sensor GT3000 Det-Tronics Toxic Gas Detector Model GTSO2 25V Sensor Model GTSCO 100P (500P) Sensor UD10 Universal Det-Tronics UD10A (S) 5N (5M) 25 (28) W 2...
  • Page 135 Table D-1— List of Approved Equipment (Continued) Equip. Manufacturer Equipment type Series/Model Description RA-911 Remote Remote indicator for use with Fenwal Heat Fenwal Indicator or Smoke detectors. Manual Fire Alarm MEDC (UK) Call Point PB Model PB-UL-4C-6C-4-DC-D-7-R call point Range Cooper CCH ETH 2416 Uses CCH EAJC26 conduit outlet box with cover,...

  • Page 136: System Specification

    IMPORTANT The EQP2120PS-B Power Supply providies EQP System devices with power from input supply 120 to 220 Vac. The EQP2120PS-B Power Supply is used in pairs where primary source of input supply is connected to one and the secondary source is connected to the other. Use of these power supplies may provide the source of the secondary supply.

  • Page 137: Power Requirement

    IMPORTANT To ensure symmetrical current distribution it is recommended that all cable connections from all power supply units/diode redundancy modules to the power distribution bus are the same length and have the same cross section. POWER REQUIREMENT— Refer to Section 6 of this manual and individual device manuals for details. NOTE The Power Supplies, Converter, and Diode Redundancy Module electrical specifications for EQP marine applications represent a reduction in the rating range with respect to that...
  • Page 138 NOTE SHCS # 10-24 SST screws are recommended for the Power Supply and Diode Redundancy Module panel mounting. NOTE Terminal End Brackets DEC P/N 000133-517 are recommended for use with EQ371(2)(3)0D (DIN rail mount) and EQ2220GFM Modules. POWER SUPPLY SUPERVISION— The EQP2120PS-B Power Supply and EQP2410PS-P Converter shall be monitored for Trouble.
  • Page 139 See description on page D-6 000523-010 See description on page D-6 For other USCG Approved EQP System components, refer to Table D-1 or contact Det-Tronics Customer Service. Refer to Section 3 of this manual for determining power requirements. USCG insignia marked on the controller and power supplies indicates USCG certification of a system made-up of components in Table D-1.
  • Page 140 Table D-2—Temperature and Humidity Ranges Temperature & RH Non-Condensing Installation Category Installation in Equip. Product consoles, Controlled housings, etc.; Weather exposed environment Non-weather areas (Salt mist) protected or cold locations EQ3XXX Controller 0°C to +55°C -25°C to +70°C -25°C to +70°C with or without 5-95%RH 5-95%RH...
  • Page 141 Table D-2—Temperature and Humidity Ranges (Continued) Temperature & RH Non-Condensing Installation Category Installation in Equip. Product consoles, Controlled housings, etc.; Weather exposed environment Non-weather areas (Salt mist) protected or cold locations 0°C to +55°C -25°C to +70°C -25°C to +70°C Sensor Termination Box 5-95%RH 5-95%RH...
  • Page 142 Table D-2—Temperature and Humidity Ranges (Continued) Temperature & RH Non-Condensing Installation Category Installation in Equip. Product consoles, Controlled housings, etc.; Weather exposed environment Non-weather areas (Salt mist) protected or cold locations 0°C to +55°C -25°C to +70°C -25°C to +70°C AST-4-1030 Strobe 5-95%RH 5-95%RH...
  • Page 143 95-8533 21.1 D-11...

  • Page 144: Appendix Ece Mark

    APPENDIX E CE MARK EMC DIRECTIVE 2004/108/EC DETAILS The Eagle Quantum Premier® Fire and Gas Detection/Releasing System was tested and found to be compliant with EN61000-6-2, EN61000-6-4, EN50130-4, and EN50270. The following considerations must be given for installation of the Eagle Quantum Premier® system. •...
  • Page 145 Specifications subject to change without notice. All trademarks are the property of their respective owners. © 2020 Detector Electronics Corporation. All rights reserved. Corporate Office Phone: +1 952.941.6665 6901 West 110 Street Toll-free: +1 800.765.3473 Minneapolis, MN 55438 USA Fax: 952.829.8750 www.det-tronics.com det-tronics@carrier.com...

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