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UTC Fire and Security DET-TRONICS 95-8533 Instructions Manual

Eagle quantum premier fire and gas detection/releasing system
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Instructions
95-8533
Eagle Quantum Premier
®
Fire and Gas Detection/Releasing System
7.1
9/09
95-8533

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Summary of Contents for UTC Fire and Security DET-TRONICS 95-8533

  • Page 1 Instructions 95-8533 Eagle Quantum Premier ® Fire and Gas Detection/Releasing System 9/09 95-8533...

  • Page 2: Table Of Contents

    Table of Contents Section 1 - Safety Section 3 - Installation Alert MessAges ..............1-1 sAFetY sYsteM DesIgN reQUIreMeNts ....3-1 Identifying the Area of Protection ........3-1 Identifying Wiring, Network (lON), and system Power Section 2 - Introduction requirements ............3-1 sYsteM DesCrIPtION ............
  • Page 3 Table of Contents – Continued eQ300X CONtrOller INstAllAtION ......3-13 ANAlOg INPUt MODUle INstAllAtION ....... 3-38 enclosure requirements ..........3-13 Mounting ..............3-38 Mounting ..............3-13 Wiring ................3-38 serial Interface Board ..........3-13 Configuration ............... 3-39 Wiring ................3-14 INtellIgeNt PrOteCtION MODUle INstAllAtION ..3-40 Power Wiring ............
  • Page 4 Table of Contents – Continued Section 4 - Operation eQ21XXPsM POWer sUPPlY MONItOr ....... 4-18 sYsteM CONtrOller ............4-1 eQ2220gFM grOUND FAUlt MONItOr ......4-18 Pushbuttons ..............4-1 eQ22XXIDC serIes INItIAtINg DevICe CIrCUIt ..4-19 Controller status Indicators ........... 4-2 eQ22XXDCU AND eQ22XXDCUeX DIgItAl text Display ..............
  • Page 5 Table of Contents – Continued Section 5 - Maintenance Section 6 - Specifications eQ300X Controller ............... 6-1 rOUtINe MAINteNANCe ..........5-1 lON termination Module ............6-2 Batteries ................ 5-1 eQ3730eDIO enhanced Discrete I/O Module ..... 6-3 Manual Check of Output Devices ........5-1 eQ3700 DCIO Module ............

  • Page 6: Section 1 - Safety

    INsTRUCTIONs Eagle Quantum Premier ® Fire and Gas Detection/ Releasing System Section 1 WARNING! Safety The hazardous area must be de-classified prior to removing a junction box cover or opening a detector assembly with power applied. Alert MeSSAgeS The following Alert Messages, DANGER, WARNING, CAUTION! CAUTION, and IMPORTANT are used throughout this 1.

  • Page 7: Section 2 - Introduction

    Section 2 For complete system integration, the Controller has the capability to communicate with other systems Introduction such as PLCs and DCSs. Different communication protocols are supported, allowing the Controller to communicate with other systems either directly or SyStem DeScrIptIon through communication gateways.

  • Page 8: Lon Communication Heartbeat

    GAS DETECTION FIRE DETECTION CONFIGURABLE INPUTS AND OUTPUTS COMBUSTIBLE, TOXIC, CONTACT POINTWATCH OR CLOSURE CONFIGURABLE DRY CONTACT INPUTS OTHER 4-20 MA INPUT DEVICES OUTPUT POINTS INITIATING DIGITAL X3301 X3302 UVHT/C7050 UV/IR DEVICE COMMUNICATION 8 CHANNEL DCIO MODULE DETECTOR DETECTOR DETECTOR DETECTOR DETECTOR DETECTOR...
  • Page 9 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 Display Relay shown on text Display Relay Controller Fault 290 Volt Fault Device Offline AC Failed Extra LON Device Battery Fault Invalid Config Beam Block...

  • Page 10: Controller Logs

    CommuniCation nEtWoRK FauLt opERation note All fault and alarm conditions are latched on the During normal operation, the Controller is continuously Controller. to reset the Controller, conditions broadcasting a heartbeat around the communication indicated on the text display must currently be in loop as shown in Figure 2-2.

  • Page 11: Multiple Wiring Faults

    • 8 programmable unsupervised relay outputs WIRING FAULTS NODE 4 NODE 5 • RS-485 Modbus RTU communication interface that NODE 3 NODE 6 supports coils, discrete inputs, and holding registers NODE 2 PATH A PATH B NODE 7 • Optional ControlNet communication board that CONTROLLER TRONICS supports redundant communication channels.

  • Page 12: Local Operating Network (Lon)

    During normal operation one controller acts as the Controller-to-Controller Communication (sLC485) “Master” while the other acts as the “Hot Standby”. The EQP controllers can be configured to communicate with up to 12 controllers via RS-485 Terminology used for redundancy: communication. The controller-to-controller scheme provides the ability to meet NFPA 72 SLC requirements master controller This is the normal mode for...

  • Page 13: Eq21Xxps Series Power Supplies And Eq2100Psm Power Supply Monitor

    EQ2220GFm Ground Fault monitor The EQ2220GFM Ground Fault Monitor (see Figure 2-8) provides ground fault monitoring in a system that includes a floating 24 Vdc power source. The device detects ground fault conditions on +/– power and all secondary I/O circuits. A positive or negative ground fault condition is indicated immediately by local LEDs, and by a relay contact after a 10 second time delay.

  • Page 14: Eq3700 8 Channel Dcio Module

    EQ3730EDio Enhanced Discrete input/output module EQ3700 8 Channel DCio module The 8 Channel EDIO Module (see Figure 2-9) expands The 8 Channel Discrete Input/Output (DCIO) Module the Input and Output capability of the Eagle Quantum (see Figure 2-10) consists of eight individually Premier System.

  • Page 15: Eq3720 8 Channel Relay Module

    EQ3720 8 Channel Relay module EQ3710aim analog input module The 8 Channel Relay Module (see Figure 2-11) The 8 Channel Analog Input Module (see Figure 2-12) consists of eight individually configured output provides a means of connecting devices with a channels.

  • Page 16: Eq3740Ipm Intelligent Protection Module

    EQ3740ipm intelligent protection module EQ25xxaRm agent Release module The IPM (see Figure 2-13) is designed to provide The EQ25xxARM Series Agent Release Module (ARM) continuous and automated local area fire protection, (see Figure 2-14) provides agent release or deluge while monitoring system operation through continuous pre-action capability.

  • Page 17: Eq25Xxsam Signal Audible Module

    Table 2-6—Solenoid Compatibility with Agent Release Module for Deluge and Pre-Action Applications Fm Group Device ASCO T8210A107 ASCO 8210G207 Skinner 73218BN4UNLVNOC111C2 Skinner 73212BN4TNLVNOC322C2 Skinner 71395SN2ENJ1NOH111C2 Viking HV-274-0601 Figure 2-14—Agent Release Module Table 2-7—Maximum Wiring Length for FM Approved Solenoids for Deluge and Pre-Action Applications solenoids maximum Wire Length in Feet (meters) Fm solenoid Group...

  • Page 18: Eq22Xxidc Series Initiating Device Circuit

    EQ22xxiDC series initiating Device Circuit (iDC) EQ22xxDCu and EQ22xxDCuEX Digital Communication units There are three IDC models available (see Figure 2-16): The EQ22xxDCU Digital Communication Unit (DCU) is The EQ22xxiDC allows discrete inputs from smoke/ an analog signal input device that accepts a 4 to 20 heat detectors, manual call stations or other contact milliampere signal.

  • Page 19: Section 3 - Installation

    Section 3 CAUTION! Installation Any d evi ati on from the manufacturer ’s recommended wiring practices can compromise system operation and effectiveness. ALWAYS SAFETY SYSTEM DESIGN consult the factory if different wire types or REQUIREMENTS methods are being considered. Many factors need to be considered when NOTe determining proper EQP System design.
  • Page 20 The Eagle Quantum Premier system utilizes a power In order to calculate the power supply voltage for the supply that provides an isolated 24 vdc battery end device, calculate the voltage drops that occur backed-up power to the fire protection devices as due to each wire segment between the devices.

  • Page 21: 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 Device Type Number of Devices Standby Current Total Current for Device Type EQP Controller 0.360 EDIO Module...
  • Page 22 Table 3-2—Alarm Current Requirements at 24 vdc Device Type Number of Devices Alarm Current Total Current for Device Type EQP Controller 0.430 EDIO 8 Inputs 0.130 EDIO 8 Outputs 0.075 DCIO 8 Inputs 0.130 DCIO 8 Outputs 0.075 Relay Module 0.120 Power Supply Monitor 0.060...

  • Page 23: Eq211Xps, Eq213Xps And Eq217Xps Power Supplies

    Table 3-3A—EQ21xxPS Power Supply Specifications Power Supply Characteristic 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 24: Determining Power Requirements

    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 1.1 (10% Safety Factor) T0014A Total Battery Amp Hour Requirement * FM MINIMUM REQUIREMENT FOR EXTINGUISHING SYSTEMS...

  • Page 25: Shield Grounding

    Shield Grounding CAUTION! Two shield ground terminals are provided inside the ALWAYS discharge static charges from hands junction box of each device, and also at the System before handling electronic devices or touching Controller. Connect shield ends to the terminals device terminals.

  • Page 26: Network And Network Extender Installation

    NETWORK AND NETWORK Table 3-7—LON Maximum Cable Lengths EXTENDER INSTALLATION LON Cable Maximum Length** (Manufacturer and Part No.)* Feet Meters Mounting Belden 8719 6,500 2,000 The device should be securely mounted to a vibration Belden 3073F (Tray Rated) 6,500 2,000 free surface.
  • Page 27 Table 3-8—Maximum Wiring Length from Nominal 24 vdc Power Source to Network Extender (Maximum wire lengths are IMPORTANT! based upon the cable’s physical and electrical characteristics.) D e t - Tr o n i c s recommends the use of shielded cable (required by CeNeLeC) to Maximum Wiring Distance Wire Size...

  • Page 28: Initiating Device Circuit (Idc) Installation

    SHIELD COM 1 SHIELD – 24 VDC – SHIELD A1870 Figure 3-4—IDC Terminal Wiring Board Mounted in Six-Port Junction Box COM 2 Wiring SHIELD 1. Remove the cover from the device junction box. A1947 2. Connect external system wiring to the appropriate terminals on the terminal block.

  • Page 29: Eq22Xxidcgf Series Initiating Device Circuit Ground Fault

    Mounting NOTe The recommended lubricant is a silicone free The device should be securely mounted to a vibration grease, available from Det-Tronics. free surface. (See “Specifications” in this manual for device dimensions.) 6. Set the node address for the device. (See “Setting Device Network Addresses”...

  • Page 30: Eq22Xxidcsc Series Initiating Device Circuit Short Circuit

    Wiring WARNING! If the installation uses catalytic type combustible CAUTION! gas sensors, it is imperative that lubricants The enclosure should be electrically connected containing silicone not be used, since they will to earth ground. cause irreversible damage to the sensor. 5.

  • Page 31: Eq300X Controller Installation

    NOTe MANUAL PULL STATION OR OTHER CONTACT DEVICE For any selected enclosure, the enclosure must IDCSC conform to all applicable regulations and requirements. EOL (10K) CIRCUIT 1 3.3 K – NOTe The Trouble signal must be located in an area where it is likely to be heard.

  • Page 32: Wiring

    WIRING Electrical Connections Figure 3-8 shows the location of wiring connectors on Power Wiring the Controller module. Figure 3-9 identifies individual terminals. CAUTION! Connector P1, Terminals 1 to 4 — Input voltage at the Controller must be 18 vdc minimum to ensure proper operation. 24 vdc Input Power Connect the power supply to terminals 1 and 2 of the It is important to consider both the wire gauge and the...
  • Page 33 SHIELD – COM 1 24 VDC INPUT POWER INPUT, + – SHIELD COM 2 RESET 1– COMMON, – ACKNOWLEDGE 2– RS-485 PORT 1 DIGITAL INPUTS 1 TO 4 A2117 SILENCE 3– Figure 3-10—Unsupervised Input Wiring RS-232 N / A CONFIG 4–...
  • Page 34 Connector P2, Terminals 5 to12 — NOTe Unsupervised Digital Input Channels 1 to 4 Refer to Figure 3-12 for location of termination jumpers. Connector P3, Terminals 13 to 20 — Unsupervised Digital Input Channels 5 to 8 Jumper P25 – LON COM 1 Termination See Figure 3-10 for example.
  • Page 35 PORT 4 PORT 3 PORT 2 RS-232 Transmit LED (Amber) RS-232 Receive LED (Green) P29: RS-485 Ground Fault MonitorJumper RS-485 Transmit LED (Amber) RS-232 Transmit LED (Amber) RS-485 Receive LED (Green) P28: RS-485 Termination Jumper RS-232 Receive LED (Green) TRONICS ®...

  • Page 36: Controller To Controller Communication

    ADDITIONAL CONTROLLER(S) PORT 4 PORT 3 PORT 2 PORT 4 PORT 3 PORT 2 P29: RS-485 Ground Fault P29: RS- 485 Ground Fault Monitor Jumper, Position 1 & 2 Monitor Jumper, Position 1 & 2 P28: RS-485 Termination Jumper, P28: RS-485 Termination Jumper, Position 1 &...
  • Page 37 The maximum distance of a particular optic link given Table 3-9—Approved Supported Media Converters for Fiber Optic Link the optical budget is calculated as: Manufacturer Model Number Description Fiber Length = [Optical budget] – [Link Loss] Moxa RS-485 to Single-mode TCF-142-S (www.moxa.com) Fiber Optical Converter...
  • Page 38 SINGLE MODE FIBER OPTIC CABLE T– T– R+D+ Moxa R+D+ Moxa EQP CONTROLLER No. 2 EQP CONTROLLER No. 1 TCF-142-S TCF-142-S R–D– R–D– PORT 2 PORT 2 RS-485 RS-485 SINGLE MODE FIBER OPTIC CABLE PORT 1 PORT 1 RS-485 RS-485 T–...

  • Page 39: Configuration

    Connector P12, Terminals 66, 67 & 68, Port 4– TERMINATION RS-232 Modbus RTU Master/Slave (Non-Isolated) CONTROLLER MODULE Configuration data downloaded into the controller COM 2 TO configures the serial interface transmission baud rate, FIELD COM 2 DEVICES parity check and MODBUS device address for the serial port.

  • Page 40: Configuration

    CONFIGURATION IMPORTANT! S3 Configuration Power supplies require unrestricted air flow for proper cooling. The S3 configuration software is used to configure the redundant controllers. A check box on the controller configuration screen must be enabled and MOUNTING downloaded to the controllers. Mount the power supply monitor in a Nationally Recognized Test Laborator y (NRTL) labeled IMPORTANT...
  • Page 41 J1: POWER AND LON WIRING LON ADDRESS SWITCHES J3: AC INPUT TERMINAL NO. 1 SWITCH NO. 1 YELLOW LED RED LED TERMINAL NO. 1 GREEN LED B1949 TERMINAL NO. 1 J2: CURRENT TEST POINTS ALARM CURRENT LEVEL SWITCH SETTINGS TERMINAL "C" ALARM LEVEL TERMINAL "B"...

  • Page 42: Startup

    POWER SUPPLY MONITOR AC MONITOR See Note 4 – AC POWER – 24 VDC See Notes 1 & 3 OUTPUT – POWER DIST CKT #1 – POWER DIST CKT #2 – POWER DIST CKT #3 – POWER DIST CKT #4 DC BREAKER AC BREAKER BATTERY...

  • Page 43: Eqp2120Ps(-B) Power Supply And Redundancy Module Installation

    To measure the battery charging current, connect a MOUNTING digital voltmeter to terminals 1 and 2 of terminal block Mount the power supply and Redundancy Module in a J2. The voltmeter will read 1 millivolt (0.001 volt) for each Nationally Recognized Test Laboratory (NRTL) labeled 2 amperes of current.

  • Page 44: Startup

    2. Connect the 24 VDC output to the Redundancy STARTUP Module. (Redundant “+” and “–” power supply Turn on the power supply and allow the voltage to terminals are connected internally.) stabilize. Verify the output voltage and adjust as needed. Refer to "EQP2120PS(–B) Power Supplies" in 3.
  • Page 45 ENHANCED DISCRETE INPUT/ Connector P2, Terminals 1 to 6 OUTPUT (EDIO) MODULE LON/SLC Signaling Circuit Terminals INSTALLATION Be sure to observe polarity when wiring the LON/SLC. 1 — "A" side of signaling circuit for COM 1 All electrical connections are made to the field wiring 2 —...
  • Page 46 Connector P4, Terminals 13 to 24 COMMON C Terminals A, B & C Channels 5 to 8 Input / Output Terminals Refer to individual wiring configurations for terminal IN– / OUT+ B descriptions. Only channel 1 is shown in each + SUPPLY A diagram.
  • Page 47 Two-Wire Smoke Detectors The EDIO supports 2-wire devices from Kidde-Fenwal and Apollo. Figure 3-31 shows the wiring for Apollo detectors connected to EDIO Channel 1 through terminals 1 and 2. Figure 3-32 shows the typical wiring for Kidde-Fenwal detectors connected to the EDIO through Channel 1 using terminals 1 and 2.
  • Page 48 Supervised Output— Notification Supervised for Open & Short Circuits COMMON C Connect external system wiring to the appropriate terminals on the terminal block. For Class B, Style Y RESISTOR wiring, refer to Figure 3-34. 10 K Ω IN– / OUT+ B For Class A, Style Z wiring, refer to Figure 3-35.

  • Page 49: Configuration

    The output can be configured for latching, continuous, Table 3-10—Maximum Wire Length for Releasing Applications supervisory, trouble or timed response. Maximum Wire Length in Feet Device 12 AWG 14 AWG 16 AWG 18 AWG To ensure adequate operating voltage for the output device, the maximum wiring length from the power 890181* source to the output device must not exceed the...

  • Page 50: Mounting

    8 CHANNEL DISCRETE INPUT/ WIRING OUTPUT (DCIO) MODULE All electrical connections are made to the field wiring INSTALLATION connectors furnished with the module. See Figure 3-38 below for terminal identification. The following paragraphs describe how to properly install and configure the 8 Channel DCIO Module. Power Connector, Terminals 1 to 6 24 vdc Power Input MOUNTING...
  • Page 51 EQ3700DCIO COMMON C IN–/OUT+ B CHANNEL 8 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 52 COMMON C COMMON C RESISTOR 10 K Ω RESISTOR 10 K Ω IN– / OUT+ B IN– / OUT+ B + SUPPLY A + SUPPLY A B2091 Figure 3-40—Supervised Input Configuration Figure 3-42—Supervised Output Configuration (Notification) NFPA - Class B, Style B NFPA - Class B, Style Y Supervised Input (IDC) Open Circuit Supervision Supervised Output Notification (Horns and Strobes)
  • Page 53 Supervised Output for Automatic Release Supervised Output for Deluge and Pre-action Supervised Output for Open Circuits Connect external wiring to the appropriate terminals Connect external wiring to the appropriate terminals on the DCIO terminal block. See Figure 3-43. Wire on the DCIO terminal block. See Figure 3-43. one or more releasing devices to the module output.

  • Page 54: Configuration

    Table 3-13—Maximum Wire Length for FM Approved Solenoids for Deluge and Pre-Action Applications Solenoids Maximum Wire Length in Feet (Meters) FM Solenoid Group Manufacturer Model 12 AWG 14 AWG 16 AWG 18 AWG ASCO T8210A107 183 (56) 115 (35) 72 (22) 46 (14) ASCO 8210G207...

  • Page 55: Configuration

    Power Connector, Terminals 1 to 6 Channel Connectors, Terminals 1 to 24 24 vdc Power Input Unsupervised Output Ancillary Applications 1 — + (Unrelated to Fire Detection/Protection) 2 — – Connect external wiring to the appropriate terminals 3 — Shield* on the relay module terminal block.

  • Page 56: Analog Input Module Installation

    ANALOG INPUT MODULE Power Connector — Terminals 1 to 6 INSTALLATION 24 vdc Power Input 1 — + MOUNTING 2 — – 3 — Shield* The Analog Input Module must be properly installed in 4 — + a suitable enclosure that is rated for the location. The 5 —...

  • Page 57: Configuration

    TRANSMITTER CHANNEL 1 CHANNEL 1 TRANSMITTER – COMMON C COMMON C 4-20 MA IN B 4-20 MA IN B + SUPPLY A + SUPPLY A A2235 A2236 Figure 3-47—Two-Wire Transmitter — Non-Isolated 4 to 20 mA Figure 3-49—Three-Wire Transmitter — Non-Isolated 4 to 20 mA Current Output (Sourcing) Current Output (Sourcing) TRANSMITTER...

  • Page 58: Intelligent Protection Module Installation

    INTELLIGENT PROTECTION LON Connector, Terminals 1 to 6 MODULE INSTALLATION LON/SLC Signaling Circuit Terminals Be sure to observe polarity when wiring the LON/SLC. WIRING shield connection — terminals 3 and 6. All electrical connections are made to the field wiring 1 —...
  • Page 59 Channels 1 to 3, Terminals 1 to 9 Channels 1 to 3 Inputs COMMON C Refer to individual wiring configurations for terminal descriptions. Only channel 1 is shown in each diagram. The information is typical for channels 1-3. IN– / OUT+ B Unsupervised Input Connect external system wiring to the appropriate + SUPPLY A...
  • Page 60 Channels 4 and 5, Terminals 10 to 15 Channel 6, Terminals 16 to 18 ZONE-1 and ZONE-2 Inputs Unsupervised Output The IPM supports 2-wire devices from Kidde-Fenwal Connect external system wiring to the appropriate and Apollo. Figure 3-55 shows the wiring for Apollo terminals on the terminal block.

  • Page 61: Configuration

    Supervised Output Notification Supervised for Open & Short Circuits COMMON C Connect external system wiring to the appropriate terminals on the terminal block. See Figure 3-58. RESISTOR 10 K Ω The output of the IPM supervises the notification circuit by IN–...

  • Page 62: Gas Detector Location And Installation

    Table 3-16—Maximum Wiring Length for FM Approved Solenoids for Deluge and Pre-Action Applications Solenoids Maximum Wire Length in Feet (Meters) FM Solenoid Group Manufacturer Model 12 AWG 14 AWG 16 AWG 18 AWG ASCO T8210A107 183 (56) 115 (35) 72 (22) 46 (14) ASCO 8210G207...

  • Page 63: Eq22Xxdcu Digital Communication Unit Used With Det-Tronics H2S/O2 Sensors Or Other Two-Wire 4-20 Ma Devices

    C. Materials that remove the catalytic metals from the EQ22XXDCU DIGITAL COMMUNICATION UNIT USED active element of the sensor. Some substances WITH DET-TRONICS H2S/O2 SENSORS OR OTHER react with the catalytic metal forming a volatile TWO-WIRE 4-20 MA DEvICES compound that can erode the metal from the Determine the best mounting locations for the surface of the sensor’s active element.

  • Page 64: Sensor Separation For Dcu With H2S And O2

    CAUTION! POINTWATCH CALIBRATE The sensor threads can be coated with an 4 TO 20 MA IN appropriate grease to ease installation. Also lubricate the cover threads. (See “Ordering – Information” for part number of recommended lubricant.) SENSOR POWER Connect the external wiring to the appropriate terminals on the DCU terminal wiring board.

  • Page 65: Eq22Xxdcu Digital Communication Unit Used With Pointwatch/Ductwatch

    EQ22XXDCU DIGITAL COMMUNICATION UNIT POINTWATCH USED WITH POINTWATCH/DUCTWATCH POINTWATCH CALIBRATE YELLOW Determine the best mounting location for the detector. Whenever practical, detectors should be placed 4 TO 20 MA IN WHITE where they are easily accessible for calibration. – BLACK WARNING! SENSOR POWER Do not apply power to the system with the cover...

  • Page 66: Eq22Xxdcuex Digital Communication Unit (Used With Det-Tronics Combustible Gas Sensors)

    EQ22XXDCUEX DIGITAL COMMUNICATION UNIT 7. Plug the sensor into P2 on the transmitter board. (USED WITH DET-TRONICS COMBUSTIBLE GAS 8. Mount the transmitter board to the terminal wiring SENSORS) board and attach with the standoffs. MOUNTING NOTe Determine the best mounting location for the device. Be sure to note the correct orientation of the Whenever practical, the device should be placed transmitter board.

  • Page 67: Sensor Separation With Dcuex

    Sensor Separation with DCUEX COMMUNICATION MODULE If the installation requires mounting the sensor in a different location than the DCUEX, observe the SWITCHES ON SAME SIDE following guidelines. (RIGHT) There are two (2) methods that can be used to separate the sensor from the DCUEX: TRANSMITTER BOARD Preferred Method TERMINAL WIRING BOARD...
  • Page 68 Table 3-18—Maximum Separation Distances — Combustible Gas Sensor to DCU (Alternate Method) Maximum Separation Distance Wire Size Feet Meters 18 AWG (1.0 mm 2 )* 16 AWG (1.5 mm 2 )* 14 AWG (2.5 mm 2 )* 12 AWG (4.0 mm 2 )* *Approximate Metric Equivalent.

  • Page 69: Eq25Xxarm Series Agent Release Module

    EQ25XXARM SERIES AGENT RELEASE MODULE Terminals 5 to 10 — LO N s i g n a l i n g c i r c u i t terminals Mounting NOTe The device should be securely mounted to a vibration Be sure to observe polarity when wiring the free surface.
  • Page 70 Table 3-20—Maximum Wiring Length for FM Approved Solenoids for Deluge and Pre-Action Applications Solenoids Maximum Wire Length in Feet (Meters) FM Solenoid Group Manufacturer Model 12 AWG 14 AWG 16 AWG 18 AWG ASCO T8210A107 183 (56) 115 (35) 72 (22) 46 (14) ASCO 8210G207...

  • Page 71: Supervised Output For Deluge And Pre-Action

    Supervised Output for Deluge and Pre-action Connect external wiring to the appropriate terminals on the terminal block. See Figure 3-67. Wire one or more releasing devices to the module output. The output of the Agent Release Module supervises the releasing circuit via the coil of the releasing solenoid.

  • Page 72: Jumpers

    Terminals 1 to 4 — Output terminals Connect the first output 10K EOL OUTPUT 1 – device between terminals 1 and 2, and the second between terminals 3 and 4. 10K EOL OUTPUT 2 – NOTe Polarity shown in Figure 3-69 is for monitoring condition;...

  • Page 73: System Configuration

    SYSTEM CONFIGURATION SETTING DEvICE NETWORK DEvICES BINARY VALUE 16 32 64 128 Overview of Network Addresses NODE ADDRESS EQUALS THE ADDED VALUE OPEN = OFF Each device on the LON must be assigned a unique OF ALL CLOSED ROCKER SWITCHES CLOSED = ON address.
  • Page 74 SINGLE SOLENOID DUAL SOLENOIDS CH 1 CH 2 CH 3 CH 4 CH 5 CH 6 CH 7 CH 8 RELAY 5 RELAY 6 RELAY 7 RELAY 8 DIGITAL INPUTS RELAY 1 RELAY 2 RELAY 3 RELAY 4 3-56 95-8533...

  • Page 75: Section 4 - Operation

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

  • Page 76: Controller Status Indicators

    CONTROLLER STATUS INDICATORS CONTROLLER MENU OPTIONS System status is visually displayed on the Controller The Controller is designed to display system status in two ways — through the use of a Text Display (see and device related information. The following Figure 4-2), and through colored LED’s (see Table paragraphs describe how to move around within the 4-1).
  • Page 77 Marque Display Auto Scrolling Alarm Enter / Cancel Screen Display Current Time/Date (no active alarms) Display Alarms Display Alarms Screen Enter Next Prev Enter Alarm Types Cancel Display Devices* Next Fire Reset Prev Supervisory Pressing the ack Device Tagname Trouble switch acknowledges Add: xxx Device Type Low Gas...
  • Page 78 Pressing the NEXT or PREVIOUS pushbuttons allows Main Menu cycling through devices. Pressing the CANCEL pushbutton will return the display to the Main Menu. >Display Alarms Display Devices DEVICE TAG NAMES displays device tag name Device Tagnames information for all devices on the LON loop. Device Tagnames Moving within the Main Menu is done by using the NEXT or PREVIOUS pushbuttons located on the...
  • Page 79 SERIAL PORTS displays port information on all Cntr Mode available ports. Indicates whether the controller is in master or standby mode. Serial Ports My Config Configuration Port Indicates whether the controller is the primary or Serial Port 1 secondary controller. Serial Port 2 Redun Mem Displays how long it takes to transfer the local and...

  • Page 80: Controller Audible Alarm

    Lon Comm Config Redundant controllers exchange information across This fault is annunciated when a controller has not the LON network. This is primarily done to prevent been configured or the configuration information has both controllers from becoming the master in the been corrupted.

  • Page 81: Controlnet Status Indicators (Optional)

    SEQUENCE OF EVENTS DURING A 0.5 SEC 0.5 SEC 1.5 SEC CONFIGURATION DATA DOWNLOAD FIRE During a configuration download, the controller ALARM receives configuration data that is stored into flash memory. During the download process, the controller 0.1 SEC 0.1 SEC halts normal operation and resets a number of 2.0 SEC controller functions.
  • Page 82 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: Controller Redundancy

    CONTROLLER REDUNDANCY 6. If there are no faults present, the primary controller defaults to the master controller and the secondary controller defaults to the standby Pushbuttons controller. The pushbuttons are active on the master controller and inactive on the standby controller. 7.
  • Page 84 Sequence of Events During a Configuration Automatic Switchover Download An automatic transfer will be initiated if the master controller goes into an error (self detected internal warning controller failure, program flow error in the controller, the system is inactive and not executing logic/ user logic checksum error or application checksum alarm functions during a program download (in error).

  • Page 85: Enhanced Discrete I/O Module

    ENHANCED DISCRETE I/O MODULE STATUS INDICATOR LEDs The EDIO Module (see Figure 4-5) has 18 LED status indicators, two for the device and two for each channel, located on the front panel. Refer to Tables 4-4 and 4-5 for a description of the LED indicators. POWER-UP SEQUENCE Set the module address switch prior to applying power.

  • Page 86: Channel Dcio Module

    8 CHANNEL DCIO MODULE STATUS INDICATOR LEDs The DCIO Module (see Figure 4-6) has 18 LED status indicators, two for the device and two for each channel, located on the front panel. Refer to Tables 4-6 and 4-7 for a description of the LED indicators. POWER-UP SEQUENCE Set the module address switch prior to applying power.

  • Page 87: Channel Relay Module

    8 CHANNEL RELAY MODULE STATUS INDICATOR LEDs The Relay 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 4-8 and 4-9 for a description of the LED indicators. POWER-UP SEQUENCE Set the module address switch prior to applying power.

  • Page 88: Analog Input Module

    ANALOG INPUT MODULE STATUS INDICATOR LEDs The Analog Input 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 4-10 and 4-11 for a description of the LED indicators. POWER-UP SEQUENCE Set the module address switch prior to applying power.

  • Page 89: Intelligent Protection Module

    INTELLIGENT PROTECTION MODULE Table 4-12—Intelligent Protection Module - Device Status Indicators Device Status The Intelligent Protection Module (see Figure 4-9) has 18 LED status indicators, two for the device and two Green On when power is present. for each channel, located on the front panel. Refer to Amber When On steady indicates device is disabled or Tables 4-12 and 4-13 for a description of the LED...

  • Page 90: Embedded Logic - S3 Configurable Options

    Manual Release Action – Delayed or Not Delayed: Note A software selection allows the Manual Release input once a release sequence has been initiated of the module, channel 2, to be delayed or not within the embedded logic, the sequence will delayed.

  • Page 91: Embedded Logic - Operation

    EMBEDDED LOGIC – OPERATION Manual Alarm Condition – Two Zone Mode (cross zoned): Supervisory Condition: The supervisory input on channel 3 has no embedded logic function and is Upon receipt of a manual alarm from Channel 2: passed on as information only to the EQP Controller where it is displayed as a supervisory fault.

  • Page 92: Eq21Xxpsm Power Supply Monitor

    EQ21xxPSM POWER SUPPLY MONITOR EQ2220GFM GROUND FAULT MONITOR The power supply monitor (see Figure 4-10) has three The ground fault monitor (see Figure 4-11) has three LEDs used to provide a visual indication of device LEDs used to provide a visual indication of device status: status: + GND FLT LED...

  • Page 93: Eq22Xxidc Series Initiating Device Circuit

    EQ22xxIDC SERIES INITIATING EQ22xxDCU AND EQ22xxDCUEX DEVICE CIRCUIT (IDC) DIGITAL COMMUNICATION UNITS The IDC has three LEDs (located at the center of the The DCUs have three LEDs to provide a visual IDC communication module circuit board) to provide indication of device status. They are visible through a visual indication of device status.

  • Page 94: Eq25Xxarm Agent Release Module

    EQ25xxARM AGENT RELEASE MODULE EQ25xxSAM SIGNAL AUDIBLE MODULE The EQ25xxARM has three LEDs to indicate device The EQ25xxSAM has three LEDs to indicate device status. They are located at the center of the circuit status. They are located at the center of the circuit board.

  • Page 95: System Startup

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

  • Page 96: General Start-Up Procedures

    Ground Fault Monitor GENERAL START-UP PROCEDURES 1. Output loads that are controlled by the system Verify earth ground connections as specified in the should be secured (remove power from all output wiring instructions. devices) to prevent actuation. Check power distribution to ensure that all devices are receiving power.

  • Page 97: Startup Procedure For Controller

    START-UP PROCEDURE FOR CONTROLLER STARTUP PROCEDURE for EDIO MODULE The Controller is powered-up when the Power Supply Configuration is turned on. When the Power Supply has been powered-up, verify power at the Controller by verifying The EDIO Module is an eight-channel device. Each that the Green LED indicator is on.

  • Page 98: Startup Procedure For Dcio Module

    EDIO Startup STARTUP PROCEDURE for DCIO MODULE 1. The Power-on LED should be illuminated. The Configuration Fault LED should blink once on power up, then remain off. The DCIO Module is an eight-channel device. Each channel is capable of being configured as an input or 2.
  • Page 99 DCIO Startup Relay Module Startup 1. The Power-on LED should be illuminated. The 1. The Power-on LED should be illuminated. The Fault LED should blink once on power up, then Fault LED should blink once on power up, then remain off. remain off.

  • Page 100: Section 5 - Maintenance

    Section 5 Failure to properly maintain it can allow water to enter the enclosure and cause premature failure. A coating Maintenance of lubricant should also be applied to the threads on the cover before re-assembling the enclosure. This will both lubricate the cover threads and help prevent ROUTINE MAINTENANCE moisture from entering the enclosure.

  • Page 101: Calibration And Adjustments

    CALIBRATION AND ADJUSTMENTS To ensure optimum performance, calibration must be performed on a regularly scheduled basis. Since each application is different, the length of time between regularly scheduled recalibrations can vary from one installation to the next. In general, the more frequently a system is checked, the greater the reliability.

  • Page 102: Sensor Replacement

    11. Remove the span gas, and return the analog input 13. The calibration is complete. (The calibrate LED to normal. turns off.) 12. Activate the reed switch. (The red LED blinks for NOTE 3 seconds while the reed switch is closed) Pressing the Sensor Replacement Switch aborts calibration and starts over.

  • Page 103: Initial Installation And Sensor Replacement

    10. The calibration is complete. (The calibrate LED 8. Activate the reed switch for 4 seconds. (The red turns off.) LED flashes for 3 seconds while the switch is activated.) The communication module records the uncalibrated value in position one of the NOTE calibration log and calibrates the zero value.

  • Page 104: Calibration Algorithm D For Universal Dcus With O2 Sensor

    4. The communication module waits 3 seconds. NOTE Pressing the Sensor Replacement Switch 5. The communication module records the prevents the communication module from uncalibrated value in the calibration log and generating a fault signal when the input drops to calibrates the span value.

  • Page 105: Calibration Algorithm Gfor Dcus With Pointwatch Or Ductwatch

    CALIBRATION ALGORITHM G NOTE FOR DCUs wITH POINTwATCH OR DUCTwATCH Allow at least 10 minutes for the sensor to warm Routine Calibration NOTE 1. Apply the zero gas. Pressing the Sensor Replacement Switch prevents the communication module from 2. Activate the reed switch for at least 4 seconds. generating a fault signal when the input drops to (The red LED flashes for 3 seconds while the zero.
  • Page 106 Table 5-1—System Controller Troubleshooting Guide Symptom Possible Cause Corrective Action Controller Power LED/ No Power to Input. - Measure input voltage (18 to 32 VDC). Text Display OFF. - Check that P1 is fully inserted. If voltage is present and P1 is fully inserted, replace controller.

  • Page 107: Replacement Parts

    REPLACEMENT PARTS ORDERING INFORMATION Eagle Quantum Premier devices are not designed to When ordering, please specify: be repaired in the field. If a problem should develop, first carefully check for proper wiring, programming POwER SUPPLIES and calibration. If it is determined that the problem is Part Number Description caused by an electronic defect, the device must be...
  • Page 108 Controller Matrix DCIO Matrix MODEL DESCRIPTION MODEL DESCRIPTION EQ3001 Eagle Quantum Premier Controller EQ3700 8 Channel Discrete Input/Output Module TYPE MOUNTING OPTION TYPE MOUNTING OPTION Din Rail Din Rail Panel Panel TYPE COM Board 1 TYPE APPROVAL AGENCY None FM & CSA ControlNet FM/CSA/ATEX*/CE TYPE COM Board 2...
  • Page 109 COMBUSTIBLE GAS SENSORS CALIBRATION KITS FOR CATALYTIC COMBUSTIBLE GAS SENSORS Table 5-3—Combustible Gas Sensors Part Number 225130-001 Methane (50% LFL) Part Number OS Number Replaces Threads Wire Length 225130-002 Ethane (50% LFL) 225130-003 Ethylene (50% LFL) 006824-001 225006-004 3/4 inch 6 inch CGSS1A6C2R1X 225957-002...

  • Page 110: Section 6 - Specifications

    Section 6 UNSUPErVISEd OUTPUTS— Dry Contact Rating: 1 ampere at 30 vdc maximum. Specifications SPDT normally open/normally closed contact, Configurable for normally energized or de-energized (de-energized is the default mode). note For USCG Approved System specifications, refer UNSUPErVISEd INPUTS— to Appendix D. Two State input (on/off).

  • Page 111: Lon Termination Module

    LON TERMINATION MODULE 10.75 2.45 (27.3) (6.22) (17.78) TEmPErATUrE rANGE— Operating: –40°F to +185°F (–40°C to +85°C). TRONICS ® Storage: –-67°F to +185°F (–55°C to +85°C). EAGLE QUANTUM PREMIER 5.95 Safety System Controller (15.1) HUmIdITY rANGE— Eagle Quantum Premier Fire Alarm Trouble Inhibit Power...
  • Page 112 EQ3730EDIO ENHANCED DISCRETE dImENSIONS— INPUT/OUTPUT MODULE Refer to Figure 6-3. POwEr rEQUIrEmENTS— SHIPPING wEIGHT— 3 watts nominal, 7 watts maximum. 1 pound (0.45 kilograms). INPUT VOLTAGE— cErTIfIcATION— 24 Vdc nominal, 18 to 30 Vdc. 10% overvoltage will FM / CSA: Class I, Div.
  • Page 113 INPUT / INITIATING DEVICE CIRCUITS SUPERVISED OUTPUT RATING—SIGNALING TyPE, STyLE "y" UNSUPErVISEd INPUT— Two state input (on/off). mAXImUm OUTPUT cUrrENT (Per channel)— Normally open contact. 2 amperes at 30 Vdc maximum. Automatic short circuit protection provided. SUPErVISEd INPUT (Open circuit)— Instantaneous short circuit current <...
  • Page 114 EQ3700 DISCRETE IO (DCIO) CENELEC/CE: ATEX/EMC Directive Compliant. MODULE 0539 II 3 G ® EEx nC IIC T4 POwEr rEQUIrEmENTS— DEMKO 02 ATEX 133864U 3 watts nominal, 7 watts maximum. T4 (Tamb = –40°C to +85°C). Refer to Appendix C for CE Mark details. INPUT VOLTAGE—...

  • Page 115: Eq3720 Relay Module

    EQ3720 RELAY MODULE OUTPUT / NOTIFICATION / RELEASING CIRCUITS UNSUPErVISEd OUTPUT rATING— POwEr rEQUIrEmENTS— Short circuit protected: 2 amperes at 30 Vdc 3 watts nominal, 4 watts maximum. maximum. INPUT VOLTAGE— SUPErVISEd OUTPUT rATING—SIGNALING TYPE, 24 vdc nominal, 18 to 30 vdc. 10% overvoltage will cLASS b, STYLE "Y".

  • Page 116: Eq3710Aim Analog Input Module

    EQ3710AIM ANALOG INPUT MODULE HART INTERFACE MODULE (HIM) POwEr rEQUIrEmENTS— INPUT VOLTAGE— Module power consumption: 6 watts. 24 vdc nominal, 18 to 30 vdc. 10% overvoltage will When supplying power to three-wire transmitters: not cause damage to the equipment. Maximum current at power input: 7.4 amperes. Output current: 900 mA per channel maximum.

  • Page 117: Eq3740Ipm Intelligent Protection Module

    EQ3740IPM INTELLIGENT INPUT / INITIATING DEVICE CIRCUITS - CONTACT PROTECTION MODULE MONITOR TyPE - CHANNEL 1 - 3 note POwEr rEQUIrEmENTS— An input must be active for at least 750 3 watts nominal, 7 watts maximum. milliseconds in order to be recognized. INPUT VOLTAGE—...

  • Page 118: Eq21Xxps Power Supplies

    EQ21XXPS POWER SUPPLIES SUPERVISED OUTPUT RATING—SIGNALING TyPE, STyLE "y" - CHANNEL 6 INPUT VOLTAGE— mAXImUm OUTPUT cUrrENT— Selectable for 120, 208 or 240 vac input power, 2 amperes at 30 Vdc maximum, 15 Amp inrush. ±10%. Automatic short circuit protection provided. INPUT cUrrENT—...

  • Page 119: Eqp2120Ps(-B) Power Supplies

    EQP2120PS(–B) POWER SUPPLIES REDUNDANCY MODULE QUINT–DIODE/40 INPUT VOLTAGE— TEmPErATUrE rANGE— Auto-selectable for 120/220 vac input power, Operating: +32°F to +122°F (0°C to +50°C) –15, +10%. Marine Applications: +32°F to +131°F (0°C to +55°C) Storage: -40°F to +185°F (-40°C to +85°C). frEQUENcY rANGE—...
  • Page 120 EQ22xxIDC/IDCGF INITIATING cErTIfIcATION— DEVICE CIRCUIT FM / CSA: Class I, Div. 1, Groups B, C, D. Class I, Zone 1, Group IIC. INPUT VOLTAGE— Class II/III, Div. 1, Groups E, F, G. 24 vdc nominal, 18 to 30 vdc. 10% overvoltage will Class I, Div.

  • Page 121: Eq2220Gfm Ground Fault Monitor

    EQ2220GFM GROUND FAULT MONITOR EQ22XXDCU AND EQ22XXDCUEX DIGITAL COMMUNICATION UNIT INPUT VOLTAGE— 24 vdc nominal, 18 to 30 vdc. 10% overvoltage will INPUT VOLTAGE— not cause damage to the equipment. 24 vdc nominal, 18 to 30 vdc. 10% overvoltage will not cause damage to the equipment.

  • Page 122: Eq25Xxarm Agent Release Module

    EQ25xxARM AGENT RELEASE MODULE EQ25xxSAM SIGNAL AUDIBLE MODULE rELEASE OUTPUT rATING— OUTPUT rATING— 2 amperes at 30 vdc maximum. 2 amperes at 30 vdc maximum. SUPErVISOrY cUrrENT— rESPONSE TImE— 2.0 ma, ±1.0 ma each circuit. Output relay actuates in <0.1 second after acknowledging an alarm command message.

  • Page 123: Eq24Xxne Network Extender

    cErTIfIcATION— FM / CSA: Class I, Div. 1, Groups B, C, D. 0.28 4.66 (0.71) (11.8) Class I, Zone 1, Group IIC. 3.39 Class II/III, Div. 1, Groups E, F, G. (8.6) Class I, Div. 2, Groups A, B, C, D (T4A). Class I, Zone 2, Group IIC (T4 ).

  • Page 124: Combustible Gas Sensor

    COMBUSTIBLE GAS SENSOR Refer to the Combustible Gas Sensor Specification Data sheet, form 90-1041, for specifications. ELECTROCHEMICAL SENSORS Refer to the Electrochemical Gas Sensor Specification Data sheet, form 90-1079, for specifications. Electrochemical sensors available from Det-Tronics include Hydrogen Sulfide, Oxygen, Carbon Monoxide, Chlorine, Sulfur Dioxide, and Nitrogen Dioxide.

  • Page 125: Appendix A - Fm Approval Description

    APPENDIX A FM APProvAl DEscrIPtIoN hazardous locations • Refer to Figures A-1 and A-2 for System Classification details. • EQxxxxEM versions rated nonincendive for Class I, Div. 2, Groups A, B, C, D (T4A). fire detection & releasing • National Fire Alarm Code performance verified per ANSI/NFPA 72-2002. Refer to Table A-1 for supervision characteristics. • Refer to the Model X3301, X5200, X2200 and X9800 manuals (see Table 2-4) for further FM flame performance details. Additional 2 second response time applied for system communication.
  • Page 126 NOTE FM Approval allows the presence and operation of serial communications software in the Controller (MODBUS, Allen Bradley protocols, etc.); however, the communications functions are not included in the Approval. Table A-1—Circuit Classifications signaling Path nfPa 72 supervision Local Operating Network (LON) Signaling Line Circuit (SLC): Class A, Style 7 Power Distribution Module, Input Power Supervised.
  • Page 127 Table A-1—Circuit Classifications-Continued signaling Path nfPa 72 supervision Discrete I/O, Input (software configurable) Unsupervised per ANSI/NFPA 72, Cl. 1-5.8, Exception #7 & #8. Initiating Device Circuit (IDC): Class B, Style B Initiating Device Circuit (IDCSC): Class B, Style C Discrete I/O, Output (software configurable) Unsupervised per ANSI/NFPA 72, Cl.
  • Page 128 95-8533...
  • Page 129 95-8533...
  • Page 130 APPENDIX B CSA INtErNAtIoNAl CErtIfICAtIoN DESCrIPtIoN hazardous locations • Refer to Figures B-1 and B-2 for System Classification details. • EQxxxxEM versions rated Class I, Div. 2, Groups A, B, C, D (T4A). gas detection • Combustible Gas Performance verified for 0 to 100% LFL methane-in-air atmospheres per CSA C22.2 No. 152. Accuracy: ±3% LFL from 0 to 50% LFL, ±5% LFL from 51% to 100% LFL. For the Model PIRECL, refer to the PIRECL manual (form number 95-8526) for further CSA gas performance details.
  • Page 131 95-8533...
  • Page 132 95-8533...

  • Page 133: Appendix C - Ce Mark

    APPENDIX C CE mArk EMC DirECtivE The Eagle Quantum Premier Fire and Gas Detection/Releasing System was tested and found to be compliant with EN50081-2, EN50082-2, EN50130-4, and EN50270. The following considerations must be given for installation of the Eagle Quantum Premier system. • For shielded cable installed in conduit, attach the wire shields to the “shield” connections on the terminal blocks, or to the earth ground on the case.
  • Page 134 95-8533...
  • Page 135 APPENDIX D EAglE QuANtum PrEmIEr SyStEm mArINE APPlICAtIONS u.S. COASt guArD APPrOVAl NumbEr 161.002/49/0 Approved SyStem deScription Refer to Table D-1 for a complete list of USCG approved equipment. Table D-1— List of Approved Equipment equip. no. equipment type manufacturer Series/model description EQ3001P N(C) N(S) W(T)-C, panel mount only;...
  • Page 136 Table D-1— List of Approved Equipment (Continued) equip. no. equipment type manufacturer Series/model description THD-7052 Fenwal Uses 2-wire base 2WRLT. Heat Detector CPD-7054 Ionization Fenwal Uses 2-wire base 2WRLT. Type Smoke Detector PSD-7157 and PSD-7157D Fenwal Uses 2-wire base 2WRLT. Photoelectric Type Smoke Detectors MT-12/24-R Horn...
  • Page 137 QUINT-DIODE/40 REDUNDANCY MODULE number of units: 8 (2 Power Supplies can be connected to each module) max input voltage: 24.5….28.0 Vdc IMPORTANT The output voltage is adjustable. An even current distribution must be ensured by precisely setting all power supply units that are operated in parallel to the same output voltage ±10 mV. 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...
  • Page 138 OrDErINg INFOrmAtION poWer SuppLy, diode, controLLer, duct mount Kit dec part number model description Phoenix Contact 009929-001 EQP2120PS-B QUINT–PS-100-240AC/24DC/20 Panel Mount Phoenix Contact 009934-001 Diode Redundancy Module QUINT–DIODE/40 Panel Mount EQP System Controller, 007609-269 EQ3001PCSW-C panel mount 009931-001 Q900C1001 Duct Mount Kit, For other USCG Approved EQP System components, refer to Table D-1 or contact Det-Tronics Customer Service.
  • Page 139 Table D-2—Temperature and Humidity Ranges temperature & rH non-condensing installation category installation in consoles, equip. no. product controlled housings, etc.; Weather exposed areas environment non-weather (Salt mist) protected or cold locations EQ300X 0°C to +55°C / Controller 5-95%RH EQ3710AIM 0°C to +55°C / -25°C to +70°C / -25°C to +70°C / 5-95%RH Analog Input Module...
  • Page 140 Table D-2—Temperature and Humidity Ranges (Continued) temperature & rH non-condensing installation category installation in consoles, equip. no. product controlled housings, etc.; Weather exposed areas environment non-weather (Salt mist) protected or cold locations QUINT- DIODE/40Diode 0°C to +55°C / redundancy 5-95%RH module DAF Vertical Heat 0°C to +55°C /...
  • Page 141 95-8533...
  • Page 142 95-8533...
  • Page 143 APPENDIX E 95-8533...
  • Page 144 Rocker Switch Table Node Rocker Switch Node Rocker Switch Address Address 95-8533...
  • Page 145 Rocker Switch Table Node Rocker Switch Node Rocker Switch Address Address 95-8533...
  • Page 146 95-8533 Detector Electronics Corporation 6901 West 110th Street Minneapolis, MN 55438 USA T: 952.941.5665 or 800.765.3473 F: 952.829.8750 W: http://www.det-tronics.com X3301 Multispectrum PointWatch Eclipse ® Eagle Quantum Premier ® Eagle Logic Solver E: det-tronics@det-tronics.com IR Flame Detector IR Combustible Gas Detector Safety System Safety System Det-Tronics, the DET-TRONICS logo, Eagle Quantum Premier, and Eclipse are registered trademarks or trademarks of Detector Electronics...

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