Honeywell Gamewell IdentiFlex 602 Installation And Operation Manual

Analog/addressable fire alarm control panel

Hide thumbs

Table Of Contents

Table of Contents

Quick Links

Download this manual

IdentiFlex 602

Analog/Addressable

Fire Alarm Control Panel

Installation and Operation Manual

Document GW72214

09/18/09

Rev:

P/N GW72214:D1

ECN 09-503

Table of Contents

Need help?

Do you have a question about the Gamewell IdentiFlex 602 and is the answer not in the manual?

Questions and answers

Summary of Contents for Honeywell Gamewell IdentiFlex 602

Page 1 ® IdentiFlex 602 Analog/Addressable Fire Alarm Control Panel Installation and Operation Manual Document GW72214 09/18/09 Rev: P/N GW72214:D1 ECN 09-503...
Page 2: Important Limitations
Important Limitations Smoke detectors cannot be expected to provide adequate warning of fires caused by arson, children playing with While a fire alarm system may lower insurance rates, matches (especially in bedrooms), smoking in bed, and it is not a substitute for fire insurance! violent explosions (caused by escaping gas, improper storage of flammable materials, etc.).
Page 3: Installation Precautions
Communications du Canada. Gamewell-FCI®, SmartScan®, and E3 Series® are registered trademarks of Honeywell International Inc. Echelon® is a registered trademark and LonWorks™ is a trademark of Echelon Corporation. ARCNET® is a registered trademark of Datapoint Corporation. Microsoft® and Windows® are registered trademarks of the Microsoft Corporation.
Page 4: Software Downloads
• Your suggestion for how to correct/improve documentation Send email messages to: FireSystems.TechPubs@honeywell.com Please note this email address is for documentation feedback only. If you have any technical issues, please contact Technical Services IF602 Installation and Operation Manual — P/N GW72214:D1 09/18/09...
Page 5: Table Of Contents
Table of Contents Table of Contents Section 1 System Description ....................7 1.1: General................................8 1.1.1: System Overview..........................8 1.2: System Modular Construction ........................9 Section 2 System Operation ....................11 2.1: Operator Controls ............................12 2.2: Indicators ..............................14 2.3: System Operating Conditions ........................15 2.4: Operating Procedures...........................16 Section 3 Installation ......................
Page 6 Table of Contents 6.3.13: Erroneous Messages ........................114 6.3.14: Open/Short .............................115 6.3.15: CBE (Control By Event)........................115 6.3.16: Notification Appliance Circuit ......................115 6.3.17: City Tie ............................115 6.4: System Event Messages ..........................116 6.4.1: System Setup Messages Description ....................116 6.4.2: Control Messages Description ......................116 6.4.3: Fire Alarm Message Description .....................116 6.4.4: Supervisory Message Description ....................116 6.4.5: Generic Message..........................116...
Page 7: Section 1 System Description
System Description Section 1 System Description ___________________________________________________________________ IF602 System Description IF602 Installation and Operation Manual — P/N GW72214:D1 09/18/09...
Page 8: General
System Description General 1.1 General The IdentiFlex 602 Fire Alarm Control Panel (FACP) is a general-purpose fire alarm control panel that supports up to 252 analog addressable devices in any combination. 1.1.1 System Overview IF602 The Gamewell-FCI IF602 is a microprocessor based fire alarm control Control Panel panel.
Page 9: System Modular Construction
System Modular Construction System Description 1.2 System Modular Construction IF602 Modules The IF602 consists of three modules; the Operators Display Module, the System Module, and an 8.0 amp, 24 VDC, regulated power supply. Operators The Operators Display Module (ODM) is the main user interface to the Display IF602 System.
Page 10 System Description System Modular Construction Addressable The IF602 System is designed to operate with Gamewell-FCI approved Input Devices compatible analog sensors (ionization, photo electronic) and with the Series-95 Addressable Input Devices. These input devices are available either as a single Point Identification Device (PID-95) or as a Manual Pull Station (MS 95).
Page 11: Section 2 System Operation
System Operation Section 2 System Operation ___________________________________________________________________ IF602 System Operation IF602 Installation and Operation Manual — P/N GW72214:D1 09/18/09...
Page 12: Operator Controls
System Operation Operator Controls Operator Display Module-Functional Description Figure 2.1 2.1 Operator Controls NOTE: THE "ENABLE" KEY SWITCH MUST BE OPERATED BEFORE ANY OF THE PUSH BUTTON SWITCHES WILL OPERATE The "Acknowledge" switch (ACK) silences the panel sounder and returns to normal any signal circuit or relay programmed to return to normal, when the "ACK"...
Page 13 Operator Controls System Operation WARNING: DO NOT RESET THE SYSTEM UNTIL AUTHORIZED BY THE AUTHORITY HAVING JURISDICTION. RESET The "Reset" switch (RESET) restores all internal circuits to their idle state; power is temporarily removed from the S+ S- terminals that removes power from any conventional initiating devices for a period of four (4) seconds.
Page 14: Indicators
System Operation Indicators 2.2 Indicators The "ACK" LED (red) will flash to indicate the next action is to press the "ACK" switch. RESET The "Reset" LEDs (red) will flash when the RESET switch is available for use. SIGNAL The "Signal Silence" LED (red) will flash to indicate that the SIGNAL SILENCE SILENCE switch is active.
Page 15: System Operating Conditions
System Operating Conditions System Operation 2.3 System Operating Conditions Default Mode When shipped, the IF602 system is initialized to a minimal "default" configuration as part of our system testing procedures. It is important that the system be re-initialized using the SmartStart feature upon installation. This will result in a customized default configuration.
Page 16: Operating Procedures
System Operation Operating Procedures Alarm IF602 will into ALARM state when AUTO Condition analog/addressable initiation device reports an alarm. By default, the (default) following actions will occur at the Operator Display Module. Refer to System Events Messages in the Appendix for a complete listing of message displays.
Page 17 Operating Procedures System Operation Acknowledging Any outputs programmed to return to the normal condition upon the Alarm pressing the "ACK" switch will return to normal at this time. Condition The red LED for RESET and SIGNAL SILENCE switches will flash. This "guided prompt"...
Page 18 System Operation Operating Procedures Alarm Alarm verification is used to reduce the occurrence of nuisance alarm Verification (transient smoke etc.). Careful consideration should be taken before enabling the Alarm Verification feature on any device. WARNING: ACTIVATING THE ALARM VERIFICATION FEATURE MAY DELAY THE REPORTING OF AN ACTUAL EMERGENCY.
Page 19 Operating Procedures System Operation Positive Alarm The panel can be programmed to use Positive Alarm Sequence (PAS) to Sequence minimize the chances of false alarms while the building is occupied. Careful consideration should be taken before enabling the PAS feature. WARNING: ACTIVATING THE PAS FEATURE MAY DELAY THE REPORTING OF AN ACTUAL EMERGENCY.
Page 20 System Operation Operating Procedures Supervisory A Supervisory Event occurs when an analog/addressable device Event Condition programmed as a supervisory device operates. The common "supervisory display" LED (yellow) lights. The alphanumeric display indicates the address of the supervisory device and logs it into the History Buffer to provide a time stamped record of the event's occurrence.
Page 21: Section 3 Installation
Installation Section 3 Installation ___________________________________________________________________ IF602 Installation IF602 Installation and Operation Manual — P/N GW72214:D1 09/18/09...
Page 22 Installation Notes IF602 Installation and Operation Manual — P/N GW72214:D1 09/18/09...
Page 23: If602 Installation
IF602 Installation Installation 3.1 IF602 Installation IF602 System The cabinet for the IF602-126R and the IF602-252R measures 12.5"H x 18.5"W x 4.5"D. A 6"H x 5"W x 4"D area, and is reserved for batteries. Housing Models IF602-126XL and IF602-252XL have a cabinet that measures 30"H x 22"W x 5.5"D.
Page 24: 1: Module Identification And Placement
Installation IF602 Installation 3.1.1 Module Identification and Placement Modular The IF 600 Series uses an addressing scheme that allows it to supervise Functions and monitor card types. In the IF602 System, this addressing scheme monitors specific pre-assigned functions such as "card" locations. The "card"...
Page 25: 2: Specifications
IF602 Installation Installation 3.1.1 Specifications Primary Input Voltage 120 VAC 50/60 Hz. 4 amps max. or Supervised, non power-limited 240 VAC 50/60 Hz. 2 amps max. Power Fail / Brownout Transfer Per UL 864 9th Edition Operating Temperature 0° to +49° C / 32° to 120° degrees F Humidity 93 +/-2% RH (non-condensing) Secondary Input Voltage...
Page 26 Installation IF602 Installation CPU Circuits The CPU circuits contain the system operating firmware and non-volatile memory. It provides all the system memory and processing functions as well (Located on the as providing the local/remote communications and supervision. Main Module) The LED controlled by the CPU circuit provides the following indications: LED1 "LIT"...
Page 27: System Specifications
System Specifications Installation 3.2 System Specifications System The specifications listed in the table below identify the interfacing circuits housed in the Master Module and the Operators Display Specifications Module. System Input Power 24VDC Quiescent Current 160 mA Alarm Current 226 mA plus NAC power plus 2 mA for master box or 22 mA for reverse polarity connections.
Page 28 Installation System Specifications NAC Output Circuit The IF602 Notification Appliance Circuit outputs can provide up to 3.0 amps (power-limited) of regulated 24 VDC each (the total panel output Wiring is limited to 7.5 amps). The outputs can be arranged as 4 Style Y (Class B), 2 Style Z (Class A) or 1 Style Z and 2 Style Y circuits.
Page 29: Analog Interface Specifications
System Specifications Installation Designation Description RS-232 Compatible Out Common (logic) ground RS-232 Compatible Input Earth Ground Description RS-232 Compatible Input Telephone RS-232 Compatible Output Jack J5 J6 Common (logic) ground Analog Interface Specifications Analog Addressable The IF602 contains one or two circuits that can monitor and control up Interface to 126 analog addressable devices (points) per line.
Page 30: Analog Circuit Wiring Requirements And Limitations
Installation System Specifications Analog Circuit Wiring Requirements and Limitations: Cable length per circuit - 4,000 feet maximum including all "T-tap” runs. Use unshielded twisted cable, even when in conduit. Unshielded twisted cable is required on all open wiring runs involving 1,000 Ft. or more.
Page 31 System Specifications Installation Wiring Guides Table 3.4 provides general information regarding the wiring practices used in the installation of the IF602 panel. NOTIFICATION APPLIANCE CIRCUIT WIRE SIZES 24 VOLT DC WIRE SIZE and MAXIMUM DISTANCE TO LAST DEVICE RESISTANCE OHM/ Max.
Page 32: Initial System Startup
Installation Initial System Startup 3.3 Initial System Startup CAUTION: CONNECT AC POWER TO THE SYSTEM BEFORE CONNECTING BATTERY/STANDBY POWER SOURCE. Activate main power. The "Power ON" message (Figure I-1) is displayed. Power ON / Hardware Reset Please Wait ... Figure I-1 Wait the required 15 seconds.
Page 33: Section 4 System Test Mode
System Test Mode Section 4 System Test Mode ___________________________________________________________________ IF602 System Test Mode IF602 Installation and Operation Manual — P/N GW72214:D1 09/18/09...
Page 34 System Test Mode Notes IF602 Installation and Operation Manual — P/N GW72214:D1 09/18/09...
Page 35 System Test Mode Overview Walk Test, Bypass Mode, Detector/Device Test, and information displays can be selected at any time from the Password Protected, Access Level 3. Function Programming Menu by pressing one of the FN keys on the left or right arrow keys, and selecting the desired test as indicated on the LCD screen.
Page 36 System Test Mode Walk Test Prog Menu 1=Inputs 2=Inputs/Sig 3=Devices 4=Clear 0=Exit 1=Inputs Places all inputs in the Walk Test. 2=Inputs/Sig Places all Inputs and NACs in the Walk Test. 3=Devices Allows individual selection of Inputs and NACs to be placed in the Walk Test through the following procedures.
Page 37 System Test Mode 9A. Notification appliance circuits are numbered by their physical location in the system. Use the up/down arrows to select circuits sequentially or enter the circuit number with the alphanumeric keypad and press "Enter." NOTE: Notification Appliance Circuits 1 to 4 located on the Operators Display are Numbers 127 to 130, respectively.
Page 38: Bypass Menu
System Test Mode From the Function Programming Menu, press the [2] followed by the "Enter" key. Figure T7 is now displayed. The ByPass LED will flash at 60 PPM. Function Programming 1=Walk Test 2=Bypass 3=Input Test 4=Output Test 5=Display 6=Lamp Test 0=Exit >2 BYPASS MENU 1=Display Bypass 2=Program Bypass...
Page 39 System Test Mode Use the up/down arrow keys to select the circuit of the devices to be bypassed. NOTE: Use the right arrow key to place the cursor under the device address. Use the up/down arrow keys to select the device address. When the device address is selected, the device type, zone type, and Bypass status will be displayed automatically.
Page 40 System Test Mode ByPass Group Programming Select "ByPass Group Programming" [4] from the ByPass Menu. Figure T11 is now displayed. ByPass Group Programming 1=Assign Devices to ByPass Group 2=Activate/Deactivate ByPass Groups 3=Assign ByPass Group to Function Key 0=Exit Figure T11 From the ByPass Group Programming Menu, select [1] to Assign Devices to ByPass Group, then select either [1] for Inputs or [2] for Outputs.
Page 41: Input Test
System Test Mode Input Test The Input Test function allows the user to individually test the functionality of each input device, operation, and response. Device LED will light if selected for the Input Test. The LED will extinguish when the device is deselected. Function Programming 1=Walk Test 2=Bypass 3=Input Test 4=Output Test 5=Display...
Page 42: Input Device
System Test Mode Table T-1: DEVICE TEST TABLE Input Device Alarm / Shorted/ Display Trouble / No Pre-Alarm on Active Panel Description Feedback Background Dirty Ionization 0 – 9 10 – 40 41 - 44 Background Background Detector Opt. Photo Sensor 0 –...
Page 43 System Test Mode Display The Display Function allows the Operator to view or download the system configuration, dictionaries, operating information, and current sensor values. Function Programming 1=Walk Test 2=Bypass 3=Input Test 4=Output Test 5=Display 6=Lamp Test 0=Exit >5 Display 1=Config 2=Dict. 3=Events 4=Misc.
Page 44 System Test Mode Dict. The Dictionary Menu allows the Operator the selection to either view or download the System Dictionaries. Display 1=Config 2=Dict. 3=Events 4=Misc 5=Detectors 0=Exit >2 Display Dictionary Menu 1=Display 2=Download 0=Exit Display 1=Config 2=Dict. 3=Events 4=Misc 5=Detectors 0=Exit >3 Events The Events Menu allows the Operator to view the System Events Log.
Page 45 System Test Mode Pass The Passwords Menu is not available in this mode. It requires a Level 4 password to activate. This Function Is Only Accessible At Security Level 4 Display Menu (Misc.) 1=Pass 2=Codes 3=Tally 4=Ver 5=Ram 0=Exit >2 Codes The Codes Menu allows the Operator to view the programmed Codes.
Page 46 System Test Mode Display Menu (Misc.) 1=Pass 2=Codes 3=Tally 4=Ver 5=Ram 0=Exit >5 Mem/RAM The RAM Display shows the available Random Access Memory. XXXXX Bytes are Available Each Additional Device Requires 32 Bytes Press Any Key to Continue Display 1=Config 2=Dict. 3=Events 4=Misc 5=Detectors 0=Exit >5 Detectors...
Page 47: Section 5 Programming
Programming Section 5 Programming ___________________________________________________________________ IF602 Programming IF602 Installation and Operation Manual — P/N GW72214:D1 09/18/09...
Page 48 Programming Notes IF602 Installation and Operation Manual — P/N GW72214:D1 09/18/09...
Page 49: Programming Overview
Programming Overview Programming 5.1 Programming Overview The following is an overview of the menu numbers and menu names for the IdentiFlex 602 SS Programming Menu screens. 1 Circuit Programming Menu 1=Inputs 2=Outputs 3=Init 0=Exit 2 Control by Event Menu 3 Function Programming Menu 1=Walk Test 1=Display 2=Program...
Page 50 Programming Programming Overview 5.1 PROGRAMMING OVERVIEW (Continued) 3 Function Programming Menu 4=Misc. 1=Pass (Note: Display pass codes) 2=Codes (Note: Display codes) 3=Tally 4=Ver. (Note: Display software version) 5=RAM (Note: Display available RAM) 0=EXit 5=Detectors 1=Download 0=Exit 0=Exit 6=Lamp Test 0=Exit 4 System Menu 1=Display 1=Configuration...
Page 51 Programming Overview Programming 4 System Menu (Continued) 2=Change Menu 2 1=City Select Master Box, Line Reversal, Chicago, dialer 2=Ann (Note: Ann. Supervision) 5=UDACT 6=Day Enable 7=Day/night (Note: Manual/Auto) 0=Exit 3=Change Menu 3 1=Prefix (Note: Alarm prefix) 2=Config (Note: Config file name) 3=Tally (Note: Tally verification) 4=Sil Inh...
Page 52: Introduction
Programming Introduction 5.2 Introduction "SmartStart"™ The SmartStart™ Automated Programming Process feature is available in the Gamewell-FCI IF 600 control panels. This initialization process uniquely configures the system parameters in memory. The system automatically ties its inputs to its outputs through the creation of the Control-By-Event tables. During power-up and after a hardware reset, the controller decides if the system has previously had a configuration in memory.
Page 53 Introduction Programming Programming Prompts (continued) Throughout the programming sequence, the user is prompted to enter data selections at the location of the flashing cursor. To select sub- menu options, use the following prompts: To Select a Field Use the right and left arrow keys to horizontally scroll and select the Option Option field.
Page 54: System Startup
Programming System Startup 5.3 System Startup This section is subdivided into two sections: • Initial System Startup • System Restart / Re-Configuration Instructions for a newly installed system, or a system in which the firmware has been changed, are detailed in the Initial System Startup section. Instructions for a "hardware reset" are detailed in the System Restart / Re-Configuration section.
Page 55: System Restart / Re-Configuration - Smartstart
System Restart / Re-Configuration - SmartStart Programming 5.4 System Restart / Re-Configuration - SmartStart WARNING: ALL PROGRAMMING DATA WILL BE LOST WHEN THE SYSTEM IS RECONFIGURED. THE SYSTEM WILL INITIALIZE THE SMARTSTART™ FEATURE AND WILL CONFIGURE A NEW DATABASE. Hardware Reset Complete a hardware reset by pressing S1 “RESET”, located at the bottom left of the Main Module.
Page 56: System Idle Display
Programming Password Entry - Access Levels Hardware Reset (Continued) After a 15 second delay, the system commences a hardware restart. Modules and devices are being read and will scroll up on the display, Figure 3B. Next the System RESET screen is shown, Figure 2A. Then, the "System Idle"...
Page 57: Password Entry
Password Entry - Access Levels Programming NOTE: System configuration (i.e. SmartStart™ ) defaults to Level 2 password access. When the password access level is changed, the system defaults to that level even when the system loses power. The system will not default to a Level 4. The four access level default settings are: Access Level 1 = Ack.
Page 58: Programming Mode
Programming Programming Mode 5.6 Programming Mode Main Display The Main Programming display shows the user an overview of the Programming Modes. The user is allowed to select from four categories. (Figure 6). Programming Mode 1=Ckt. Prog. 2=CBE 3=Function 4=System 0=Exit >...
Page 59: 1: Field Descriptions
Programming Mode Programming 5.6.1 Field Descriptions “Ckt”: xx" Indicates the circuit (analog line or conventional) address that has been selected. "Add: xxx" Shows the address of the analog device to be modified (1 - 126). "D_Type:xxx" Shows the type of device (from type code of addressed device). If the device type is a photo-electronic sensor, Figure 8A will be displayed.
Page 60: Device Selection
Programming Programming Mode Device Selection Use the left/right arrow keys to move the cursor flashing under the device address "Add:xxx," enter the address number, or use the up/down arrow keys to select the address of the device to be modified, then press “Enter.”...
Page 61 Programming Mode Programming Multisensor Device Programming The XP95-M has a nominal, fixed, sensitivity of 2.4%/ft., and compensation is accomplished within the sensor itself. When programming inputs, any device detected or programmed as an XP95-M will have the word “Multi” in the D_TYPE location, and will not have the SENS or COMP selections available.
Page 62 Programming Programming Mode Ckt:XX Add:xxx D_Type:xxx Z_Type: xxx I_Grp:x WD:### xxxxxx xxxxxxx xxxxxxxxx xxxxxxxxxxx xxxxxxxxxxx Figure 10 When the desired coded word is displayed, use the left/right arrow keys to select the next field. NOTE: It is not necessary to press "Enter" when the up/down arrow keys are used to change the parameter of a field.
Page 63 Programming Mode Programming Zone Type Table - P2 Display Panel Name Description Verification Automatically verifies the device. After a Reset/Stabilization delay, the panel monitors the device for 60 seconds. If no alarm exists during this period, the panel returns to Idle. Auto Automatic Places the panel into General Alarm.
Page 64 Programming Programming Mode Text Dictionary Table - P4 Fire Alarm Smoke Sensor 1st. Floor Room Number Alarm Heat Sensor 2nd. Floor Corridor Duct Sensor 3rd. Floor Elevator Lobby Sprinkler Water flow 4th. Floor Trouble Tamper switch 5th. Acknowledge Manual Station 6th.
Page 65 Programming Mode Programming Ckt:xxx D_Type:xxx Alr: XX Sig:xxxx Res:xxx Drl:x Sil:x Figure 11 When an analog addressable line is selected for programming from the Operators display, (see Figure 11B), the yellow LED of the selected circuit will light. Ckt:xxx Add:xxx D_Type:xxx Alr: XX O_Grp:xxx...
Page 66 Programming Programming Mode Field Descriptions for Notification Appliance Circuits and Signaling Line Circuits “Ckt:xxx” Indicates the notification appliance circuit memory address. “Add:xxx” Address of the Analog Relay Module. “D_Type:Sig” Shows the type of output circuit. “ALR:x” Indicates to what alarm level the circuit will be operated in the event that “and”...
Page 67 Programming Mode Programming Notification Appliance Circuit Types Output Circuit Type A. STEADY DC Steady DC type notification appliance circuit is the System Default. When operated, any notification appliance circuits programmed for Steady DC will provide a 24VDC uninterrupted output. B. MARCHTIME 60 Marchtime 60 circuits, when operated, will provide a 24 VDC output on the selected circuits at 60 pulses per minute rate with duration of 50% On and 50% Off cycle.
Page 68 Programming Programming Mode Signal Circuit Restore A. Restore On - ACKNOWLEDGE For use with signaling and functions that are not required for the detection and notification of a fire. Any active output point programmed to restore on ACKNOWLEDGE will return to Idle whenever the Acknowledge switch is pressed. All output points that were returned to Idle will reactivate upon a subsequent alarm that is programmed to activate those output points.
Page 69 Programming Mode Programming Special Notification Appliance Circuit Functions A. SIGNAL SILENCE INHIBIT Silence Inhibit will prevent the operation of the Signal Silence function for a programmable period ranging from 30 seconds to 5 minutes from the time the panel detects the first alarm. If the panel is programmed for Silence Inhibit, any activation of the Signal Silence Switch will be ignored, allowing the output notification appliance circuit to be active, until the programmed delay has elapsed.
Page 70: Control By Event
Programming Control By Event Initializing a Initializes an individual circuit. Allows the user to add new devices Signaling Line (sensors) or remove devices in the specific circuit selected. All other circuit information previously entered (used in the Control By Event data base Circuit programming) is protected and cannot be altered or damaged.
Page 71 Control By Event Programming CBE Programming Control-by-Event "CBE" programming is dedicated to system wide ALARM functions. Select "CBE" (#2) from the main "Programming Mode" menu to change or assign the input group assignment with the associated output group. To select "logical" Group Inputs Select "CBE"...
Page 72 Programming Control By Event To assign a "logical" Output Group Press "Enter." Figure 15 displays. Enter Output Group: XXX Figure 15 Use the numeric keys to enter the desired output group number or press the signal circuit switch. The assigned output group number now is displayed in the op left as shown in Figure 15A.
Page 73 Control By Event Programming Enter all desired output group numbers. The assigned output group number is displayed in the top left of the screen. As the next output group number is entered, group numbers are sequentially arranged (in ascending order). Enter up to 256 group output numbers, (see Figure 15B).
Page 74: Function Programming
Programming Function Programming 5.8 Function Programming See System Test IF602 Installation and Operation Manual — P/N GW72214:D1 09/18/09...
Page 75: System Programming
System Programming Programming 5.9 System Programming Programming System Programming menus may be accessed if the proper programming password is entered at the “ENTER PASSWORD:” prompt. Programming may also be performed from a laptop computer connected to the RS-232 compatible port on the CPU of the control panel. Refer to the end of this section for instructions.
Page 76 Programming System Programming Display Config The System Module Configuration is displayed when option 1 is selected from the Configuration Menu. This display shows the modules that are present in each card location, their associated card type, code and a description of the card. The modules displayed are retrieved from the system configuration memory and are not a real time scan of the actual cards present (refer to the System Test Menu for a real time display).
Page 77: System Configuration
System Programming Programming Card ID # Each type of card is assigned a unique 8-bit code that the card transmits to the CPU when it is polled. In operation, each card is periodically polled and returns its type code. The CPU detects if the card is functioning correctly, for a card type at that location.
Page 78 Programming System Programming Download Selecting Download from the Display Configuration Menu will prompt the Configuration system to transmit the complete system configuration file to the RS-232 port. When this is selected, the system prompts the user to perform several steps. These steps are the actions required to receive an ASCII file when using the PROCOMM communications software.
Page 79 System Programming Programming Display Dict. This display option allows the user to view the contents of word Menu dictionaries 1 - 5. Dictionaries 1 - 4 may contain up to 128 entries and Dictionary 5 may contain up to 1024 entries. By selecting this option, the contents of all 5 user dictionaries are output to the laptop/computer screen.
Page 80 Programming System Programming HYPERTERM Select the Transfer pull down menu, select Capture Text, enter the file name and the path from which to download the file, and click Start. When the download is complete, select the Transfer pull down menu, select Capture Text, select Stop, and then press “Enter”...
Page 81: Display Pass
System Programming Programming Display Pass Displaying the passwords allows the user to view the 10 passwords that are assigned to the system. Each password has a user ID and a security or access level assigned to it. This screen also shows the security levels that are assigned to each of the function keys.
Page 82: Display Codes
Programming System Programming Display Codes Displaying the output codes will allow the user to view the notification codes that are assigned to each of the 256 input groups. This is followed by information on the timing of the codes, the number of rounds transmitted, and whether the system reverts to March Time coding or silences after the coding is completed.
Page 83 System Programming Programming Tally This menu displays the number of times that a sensor that is selected for Verification has operated without confirmation within the last 30 days. Display Menu (Misc.) 1=Pass 2=Codes 3=Tally 4=Ver 5=Ram 0=Exit >3 Press any Key To Continue Display Ver.
Page 84: 1: Change Menu 1
Programming System Programming Change Menu The System Change Menu allows the user to change various system parameters. 5.9.1 Change Menu 1 hange Menu 1=Menu 1 2=Menu 2 3=Menu 3 4=Menu 4 0=Exit > Change Menu 1=Menu 1 2=Menu 2 3=Menu 3 4=Menu 4 0=Exit >1 Change Menu 1...
Page 85: Change Pass
System Programming Programming Change Pass The Change Password Menu is used to change the password, user name and/or the access level associated with the passwords. When this is selected from Change Menu 1, the previously programmed password information is displayed, followed by a prompt requesting the password number to be changed.
Page 86: Change Code
Programming System Programming Change Code The code in the IF 600 Systems is assigned to the input groups. When a device within that group alarms, the code would be sounded on the notification appliance circuits that have been programmed as coded circuits.
Page 87 System Programming Programming Change Date To change the date and/or time in the IF 600 System, the Change Date Menu must be selected. This menu prompts the user with the information the system requires to enter a new time and date. Change Menu 1 1=Pass 2=Code 3=Date 4=Seq 5=Baud 6=Strobe Sync 7=ACC 0=Exit...
Page 88 Programming System Programming Change Seq The Change Sequence option allows the user to redefine the access levels associated with each of the sequence keys. Each of these keys is assigned an access level by default. The Acknowledge key is assigned to Level 1 access.
Page 89 System Programming Programming Baud Rate The baud rate is changed by setting DIP switch S2 on the Main Module to Switch Settings the desired speed (see Table below). Select this option to read the new setting. S2 - Settings Open Do Not Change Open Do Not Change...
Page 90: 2: Change Menu 2
Programming System Programming 5.9.2 Change Menu 2 Change Menu 1=Menu 1 2=Menu 2 3=Menu 3 4=Menu 4 0=Exit >2 Change Menu 2 1=City 2=Ann 5=UDACT 6=Day Enable 7=Day/Night 0=Exit Change City The City Tie Circuit is designed to operate in four modes of operation: •...
Page 91 System Programming Programming Change Menu 2 1=City 2=Ann 5=UDACT 6=Day Enable 7=Day/Night 0=Exit >2 Press Enter Key To Exit Press Any Other Key To Toggle Remote Annunciator is Detached Remote Annunciator is Attached UDACT The UDACT Enable option allows the communications between Enable the panel and a UDACT when it is installed.
Page 92: 3: Change Menu 3
Programming System Programming Change Day The Change Day Night option allows the selection of manual or Night Mode automatic termination of the Positive Alarm Sequence. Change Menu 2 1=City 2=Ann 5=UDACT 6=Day Enable 7=Day/Night 0=Exit >7 System In Manual Day Mode Press Enter Key To Exit Press Any Other Key To Toggle >1...
Page 93 System Programming Programming Change Prefix This option allows the user to change the Prefix for alarm events that occur. The default setting is FIRE Alarm. For example, if the panel were monitoring Gas sensors, the Prefix could be changed to GAS and therefore display GAS Alarm during alarm conditions.
Page 94: Change Auto Silence Delay
Programming System Programming Change The Change Sil Inh option allows the selection of the time-period in Silence Inhibit which the Silence is inhibited after an alarm signal. Delay Change Menu 3 1=Prefix 2=Config 3=Tally 4=Sil Inh 5=AutoSil 0=Exit >4 Sil Inh Delay Is Set To: 0 Min Enter New Signal Sil Delay (0-10) Delay=Entry (0-10) X 30 sec Change Auto...
Page 95: Change Config
System Programming Programming 5.9.4 Change Menu 4 Change Menu 1=Menu 1 2=Menu 2 3=Menu 3 4=Menu 4 0=Exit >4 Change Menu 4 1=Cfg 2=Water 3=Dict 5=I/O Grp Msg 0=Exit Change Config Changing system configuration requires previously downloaded system configuration file. This option is only available when programming through a PC attached to the serial port.
Page 96 Programming System Programming Change Water The Change Water option allows the selection of the delay time before a Water flow alarm is operated. Flow Delay Change Menu 4 1=Cfg 2=Water 3=Dict 5=I/O Grp Msg 0=Exit >2 Waterflow Zone Delay Is Set To: 30 sec Enter Waterflow Delay (5-90 sec): Change Changing the dictionary entries can be achieved by two means:...
Page 97 System Programming Programming To select word options from the control panel, refer to the following table. Prompt Description <a1> = first lower case letter of a word or key <a2> = second lower case letter of a word or key <a3>...
Page 98 Programming System Programming NOTE: When changes are made to any dictionaries, they are appended to the existing dictionary. Therefore, the entire number of added text may change when you exit the programming area. For example, if Dictionary 2 has twelve entries and you add an entry as number 15, when you enter the word, the dictionary is appended and your new entry becomes number 13.
Page 99: Dictionary File
System Programming Programming Dictionary File The Dictionary File format consists of the five dictionaries, each separated by two fore slashes (//) as delimiters. The first line of the Dictionary File would contain two fore slashes indicating that it is the beginning of the file and the next line received will be word #0 of dictionary #1.
Page 100 Programming System Programming NOTE: For Procomm only, the ASCII transfer setup must have the following parameters. Use the following table): ASCII Upload To Down Load 1) Echo locally ..... 1) Press PgUp 2) Expand blank lines 2) Choose 7 (ASCII) 3) Pace Character 3) Enter “Dict”...
Page 101: Test Lamps
System Programming Programming Test ID Selecting the Test ID option will continuously display the “real time” card readings from the system card locations. The card locations (0-39) should always equal the card type installed in that location. Test Menu 1=Input 2=Output 3=ID 4=Gnd 5=Lamp 6=Analog 0=Exit >3 00=0C 01=FF 02=FF 03=FF 04=01 05=02...
Page 102: Test Analog
Programming System Programming Test Menu 1=Input 2=Output 3=ID 4=Gnd 5=Lamp 6=Analog 0=Exit >5 Press Enter to continue Test Analog The Analog Test is designed to allow the user to control and obtain “real time” information about individual analog addressable devices. When analog is selected from the Test Menu, the system prompts the user to enter the channel of the card and device address.
Page 103: 5: Device Sensitivity
System Programming Programming Trouble / No Pre-Alarm Alarm / Display Panel Description Feedback Background Dirty on 1st Shorted Ionization Sensor 0 – 9 10 – 40 41 - 44 Background Background + 26 + 36 Opt. Photo Sensor 0 – 9 10 –...
Page 104: Computer/Laptop Programming Overview
Programming Computer/Laptop Programming Overview 5.10 Computer/Laptop Programming Overview Overview of This section describes the system communications via a computer. System Computer monitoring, general control functions, and system programming can be achieved from a computer terminal. All figures shown are displayed on the Programming computer screen.
Page 105 Computer/Laptop Programming Overview Programming 3. On the Connect To screen, select Direct to Com1 (or 2) and click on OK. Figure 5.6 Connect To Screen 4. Select Baud rate, (usually 2400) select Data bits = 8, select Parity = N, select Stop bits = 1, and Flow control = Xon / Xoff.
Page 106 Programming Computer/Laptop Programming Overview 5. Select the pull down File menu at the top of the screen. Select Properties. Select the Settings tab, set Emulation to VT-100. Figure 5.8 m Properties Screen 6. Select ASCII Setup, change the Line delay setting to 1 millisecond, change Character Delay setting to 100 milliseconds, Click on OK.
Page 107: System Monitoring And Control
System Monitoring and Control Programming 5.11 System Monitoring and Control Status Monitoring The computer can be used to monitor the status of the system. All status changes are transmitted from the J6 port of the Main Module. The data transmitted can provide detailed information on alarm, trouble, and system status changes.
Page 108 Programming System Monitoring and Control Notes IF602 Installation and Operation Manual — P/N GW72214:D1 09/18/09...
Page 109: Section 6 Appendix
Appendix Section 6 Appendix ___________________________________________________________________ IF602 Appendix IF602 Installation and Operation Manual — P/N GW72214:D1 09/18/09...
Page 110 Appendix Notes IF602 Installation and Operation Manual — P/N GW72214:D1 09/18/09...
Page 111: Slc Compatible Devices
SLC Compatible Devices Appendix 6.1 SLC Compatible Devices Table A-1 lists the SLC compatible devices. SLC COMPATIBLE DEVICES PART# / IDENTIFIER DESCRIPTION COMPATIBLE BASES / MOUNTING XP95-P Photo-Electric Analog Smoke XP95-B4, XP95-B6, XP95-B6LOW, Sensor XP95-B6R4, XP95-B6SNDR, XP95-B6EZ XP95-I Ionization Analog Smoke Sensor XP95-B4, XP95-B6, XP95-B6LOW,...
Page 112: Aux Power Compatible Devices
Appendix AUX Power Compatible Devices 6.2 AUX Power Compatible Devices Table A-2 lists the AUX power compatible devices. AUX POWER COMPATIBLE DEVICES Gamewell-FCI MANUFACTURER/SUPPLIER PART NUMBER DESCRIPTION XP95-B6R4 Relay Base Gamewell-FCI XP95-B6SNDR Sounder Base Gamewell-FCI 71393 Relay Base Air Products/Gamewell-FCI 17086SNDR Sounder Base Air Products/Gamewell-FCI...
Page 113: Troubleshooting Information
Troubleshooting Information Appendix 6.3 Troubleshooting Information 6.3.1 Battery Charger The battery charger circuit has several modes of operation. When the power is applied to the system, the battery voltage is checked to verify proper voltage. If the batteries are above 22VDC, the charger will immediately go into a high rate charge mode.
Page 114: 6: Initiating Circuits
Appendix Troubleshooting Information 6.3.6 Initiating Circuits Conventional initiating circuits require a 3.9K EOL resistor. The circuit reports a trouble condition when less than 3mA current is detected. 1st alarm condition is reported above 35 mA and 2nd alarm condition is reported above 70mA. 6.3.7 Signaling Line Circuits The analog addressable protocol used in the 600 Series Systems is “Series XP95”...
Page 115: 14: Open/Short
Troubleshooting Information Appendix 6.3.14 Open/Short This trouble indicates the circuit is either opened or shorted. Confirm the wiring is not shorted together (>20K???). If not shorted, this fault is also reported when the feed of a circuit is not connected to its associated return (e.g. L1 not connected to L1R). Check the terminal blocks for jumpers on a Class B circuit and the wire continuity on a Class A circuit.
Page 116: System Event Messages
Appendix System Event Messages 6.4 System Event Messages 6.4.1 System Setup Messages Description Message Description "Skip System I/O Assignments" System power up/Hardware Reset – w/o SmartStart Routine invoked. "Begin System I/O Assignments" Processing SmartStart Routine "Programming Mode Entered" Ignore any data from this point until “Exit Program Mode”...
Page 117: 7: Fault Message Description
System Event Messages Appendix 6.4.7 Fault Message Description Message Description "Alarm Tested in" Alarm Test message during Walk Test "A to D Malfunction" System Problem - Analog to Digital converter bad replace Bus Driver, Contact Technical Support "LCD Malfunction" System Problem – Replace LCD, Contact Technical Support "System In Walk Test"...
Page 118 Appendix System Event Messages 6.4.7 Fault Message Description (Continued) Message Description "I/O Not Detected @:" No devices detected on a circuit. "Password Accepted" System Valid password entered. "+5V Bad On" 5V power supply on a module bad – Verify proper module type, See Card ID Test "Aux.
Page 119: 8: Samples Messages Description
System Event Messages Appendix 6.4.8 Samples Messages Description Status: NORMAL 08/31/95 16:19 System Idle System normal Status:ALARM 1 st of l 08/31/95 16:21 Fire Alarm in Ckt:8 First Alarm with no user text Status:ALARM Total:2 08/31/95 16:21 Fire Alarm in Ckt:7 Second Alarm with no user text Status:ACK;...
Page 120 Appendix System Event Messages 6.4.8 Samples Messages Description (Continued) Status:ALARM I st of 1 08/31/95 16:25 Fire Alarm in Ckt:26 Dev: 16 Fire Alarm Heat Detector 1 st. Floor Room Number 1 Fire alarm circuit 26 device 16 Status:SIG SIL 08/31/95 16:25 Signals Deactivated Signals silenced Status:SIG SIL 08/31/95 16:25...
Page 121: Discovery Multi-Sensor Analog Addressable Detector 58000-750
Discovery Multi-Sensor Analog Addressable Detector 58000-750 Appendix 6.5 Discovery Multi-Sensor Analog Addressable Detector 58000-750 The Discovery Multisensor Detector includes both Photoelectronic and Thermal sensing elements integrated into a single head. The obscurity information from the Photoelectronic sensor is combined with the rate-of-rise information from the thermal sensor, by a custom microprocessor, into the data count that is sent to the FACP for processing.
Page 122 Appendix Discovery Multi-Sensor Analog Addressable Detector 58000-750 Table A-3 IdentiFlex 602 Battery Calculation Chart Normal Normal Alarm Module Current Alarm Current Total Total MAIN 0.160 0.226 + NAC Current +0.002 for NOTE master box or 0.022 for reverse polarity NOTE NOTE 1 SLC ANA.
Page 123: 3: Verification Zone Programming
Discovery Multi-Sensor Analog Addressable Detector 58000-750 Appendix 6.5.3 Verification Zone Programming Assigning an XP95-DM detector to a Verification zone allows the local operation when the smoke is detected by the optical element located in the head, and general alarm operation when heat is present.
Page 124 Appendix Discovery Multi-Sensor Analog Addressable Detector 58000-750 Notes IF602 Installation and Operation Manual — P/N GW72214:D1 09/18/09...
Page 125: Section 7 Drawings
Drawings Section 7 Drawings ___________________________________________________________________ IF602 Drawings IF602 Installation and Operation Manual — P/N GW72214:D1 09/18/09...
Page 126: Drawings
Drawings Drawings 7.1 Drawings Section 7 includes the following drawings that illustrate the IdentiFlex 602 panel. Drawing Description Figure C-M818-3 Assembly of IF602 Cabinet Figure 7-1 C-M818-4 Assembly of IF602 XL Cabinet Figure 7-2 B-W494 Wiring of IF602 System Figure 7-3 IF602 Installation and Operation Manual —...
Page 127 Drawings Drawings (4) NUT KEP #6 67197 (4) NUT KEP #8 67765 BACKLIGHT ADJUSTING POT FOR LCD (4) NUT KEP #6 67197 16/C RIBBON CABLE LABEL 72213 LOCK LABEL LABEL 68134 68670 69081 DISPLAY 31086 HIGH VOLTAGE 71990 BATTERY (NOT PART OF IF602 ORDER SEPARATELY) (2 REQUIRED) Figure 7.1 Drawing C-M818-3 - Assembly of the IF602 Cabinet...
Page 128 Drawings Drawings (4) NUT KEP #10 67896 BACKLIGHT ADJUSTING POT (4) SCREW #10 46921 FOR LCD (4) NUT KEP #6 67197 16/C RIBBON CABLE LABEL 72213 LABEL LABEL 68134 68670 DISPLAY 31086 HIGH VOLTAGE 71990 Figure 7.2 Drawing C-M818-4 Assembly of the IF602 XL Cabinet IF602 Installation and Operation Manual —...
Page 129 Drawings Drawings Figure 7.3 Drawing B-W494 Wiring of the IF602 System IF602 Installation and Operation Manual — P/N GW72214:D1 09/18/09...
Page 130 Drawings Drawings Notes IF602 Installation and Operation Manual — P/N GW72214:D1 09/18/09...
Page 131: Manufacturer Warranties And Limitation Of Liability
Manufacturer Warranties and Limitation of Liability Manufacturer Warranties. Subject to the limitations set forth herein, Manufacturer warrants that the Products manufactured by it in its Northford, Connecticut facility and sold by it to its authorized Distributors shall be free, under normal use and service, from defects in material and workmanship for a period of thirty six months (36) months from the date of manufacture (effective Jan.
Page 132 Gamewell-FCI 12 Clintonville Road Northford, CT 06472-1610 USA 203-484-7161 fax 203-484-7118 www.gamewell-fci.com...

This manual is also suitable for:

Gamewell identiflex if602-126rGamewell identiflex if602-252rGamewell identiflex if602-252xlGamewell fci identiflex 602ss

Honeywell Gamewell IdentiFlex 602 Installation And Operation Manual

Quick Links

Need help?

Questions and answers

Related Manuals for Honeywell Gamewell IdentiFlex 602

Summary of Contents for Honeywell Gamewell IdentiFlex 602

This manual is also suitable for:

Table of Contents