Page 1 FX-64 and FX-1000 Technical Reference Manual P/N 3102352-EN • REV 005 • ISS 28DEC18...
Page 2 United Technologies Corporation, except where specifically permitted under US and international copyright law. Trademarks and The FX-64 and FX-1000 name and Kidde logo are trademarks of United patents Technologies Corporation. Other trade names used in this document may be trademarks or registered trademarks of the manufacturers or vendors of the respective products.
Page 3: Table Of Contents
Clearing the event history log 63 Updating the firmware 63 Restarting the panel 64 Enabling RS-232 communication 64 Auto programming the panel 65 Performing incremental programming 71 Adding and removing devices from programmed systems 74 Advanced programming 78 FX-64 and FX-1000 Technical Reference Manual...
Page 4 Chapter 3 System operation 119 Operation overview 121 LCD display screen 122 System LEDs 126 LED display expander LEDs 127 Control buttons 128 Component descriptions 133 Events with event messages 134 Event ID numbers and descriptions 137 Viewing event details 142 Resetting the panel 142 Silencing panel and annunciator buzzers 143 Silencing notification appliances 143...
Page 5 Chapter 5 Diagnostics, maintenance, and testing 169 Preventive maintenance schedule 170 Fast Ground Check 170 Recalibrate device 170 Flash Device LED 171 Loop comm check 171 Control panel testing 172 Electronic testing of a device (test fire) 173 SA-DACT testing 174 Conducting a lamp test 175 Starting and stopping a walk test 175 Using HyperTerminal 177...
Page 6: Important Information
Important information Limitation of liability This product has been designed to meet the requirements of NFPA 72 National Fire Alarm and Signaling Code, NFPA 720 Standard for the Installation of Carbon Monoxide (CO) Detection and Warning Equipment, UL 864 Standard for Control Units and Accessories for Fire Alarm Systems, and ULC-S527 Standard for Control Units for Fire Alarm Systems.
Page 7 equipment attached to the same phone line. Series installation of an RJ-31X jack is depicted in the wiring diagram. If you have any questions concerning these instructions, you should consult your telephone company or a qualified installer. Testing When programming emergency numbers or making test calls to emergency numbers, remain on the line and briefly explain to the dispatcher the reason for the call.
Page 8 • The dialer contains no user serviceable parts. In case of defects, return the dialer for repair. • You may not connect the dialer to a public coin phone or a party line service provided by the telephone company. Industry Canada information The Industry Canada label identifies certified equipment.
Page 9: Minimum System Requirements
Minimum system requirements The table below lists the minimum hardware requirements for each type of system for which the control panel is listed. Table 1: Minimum hardware requirements for applications System Equipment needed Protected Premises (Local) Fire Alarm System Control panel Appropriately sized batteries Auxiliary Fire Alarm System, Local Energy Type Control panel...
Page 10 7. Review Chapter 1 “Installation and wiring” starting on page 1. 8. Check the field wiring for opens, grounds, and shorts before connecting. 9. Connect AC power and ground wiring. See “AC power wiring” on page 6. The panel cannot be started on batteries only.
Page 11: Installation And Wiring
Chapter 1 Installation and wiring Summary This chapter covers all control panel wiring, such as AC power, NACs, device loops, and battery wiring. Content Panel backbox installation 2 Panel electronics installation 4 Panel backbox wire routing 5 AC power wiring 6 Panel transformer wiring 7 Battery wiring (TB8) 8 Notification appliance circuit wiring (TB2) 10...
Page 12: Panel Backbox Installation
Chapter 1: Installation and wiring Panel backbox installation Note: Observe all applicable codes and standards, as well as AHJ and owner guidance when selecting a location for the panel installation. The panel backbox can be surface mounted or semiflush mounted. To surface mount the panel backbox: 1.
Page 13 Chapter 1: Installation and wiring Figure 1: Surface and semiflush mounting details (1) Surface mount (3) Trim skirt (2) Semiflush mount Figure 2: Panel backbox, backbox with door, and backbox with door and trim ring attached (1) Surface mounting holes (3) Backbox with door attached (2) Semiflush mounting holes (4) Backbox with door and trim ring attached...
Page 14: Panel Electronics Installation
Chapter 1: Installation and wiring Table 2: Backbox and backbox with door dimensions (in. and cm) Model D1 [1] D5 [1] FX-64 21.50 3.85 15.50 14.25 10.25 21.7 (54.6) (9.8) (19) (39.4) (36.2) (26.0) (9.9) (55.1) (6.8) FX-1000 28.0 3.85 22.0...
Page 15: Panel Backbox Wire Routing
Chapter 1: Installation and wiring Figure 3: Panel electronics installation Panel backbox wire routing Using the diagram below, keep power-limited wiring in the shaded area and nonpower-limited wiring in the unshaded area at all times. P/N 3102352-EN • REV 005 • ISS 28DEC18...
Page 16: Ac Power Wiring
AC power wiring Circuit specifications • FX-64 panel: 120 V, 60 Hz, 1.3 A or 230 V, 50/60 Hz, 0.62 A from dedicated branch supply • FX-1000 panel: 120 V, 60 Hz, 2.0 A or 230 V, 50/60 Hz, 0.97 A from dedicated branch supply...
Page 17: Panel Transformer Wiring
Incoming power circuit specifications • FX-64 panel: 120 V, 60 Hz, 1.3 A or 230 V, 50/60 Hz, 0.62 A from dedicated branch supply • FX-1000 panel: 120 V, 60 Hz, 2.0 A or 230 V, 50/60 Hz, 0.97 A from dedicated branch supply...
Page 18: Battery Wiring (Tb8)
The table below lists the batteries that can be installed in the control panel cabinets. Up to two 11 Ah batteries will fit in the FX-64 control panel cabinet and two 18 Ah batteries will fit in the FX-1000 point control panel cabinet. If larger batteries are required, you must use an approved battery cabinet.
Page 19 Chapter 1: Installation and wiring Table 3: Batteries for FX-64 and FX-1000 panels Model Rating 12V4A 12 volts, 4.5 Ah 12V6A5 12 volts, 7.2 Ah 12V10A 12 volts, 11 Ah 12V17A 12 volts, 18 Ah 12V24A 12 volts, 26 Ah...
Page 20: Notification Appliance Circuit Wiring (Tb2)
Notes • On the FX-64 panel, Class A wiring is available only when the optional SA-CLA expansion card is installed. Refer to the SA-CLA Class A Interface Card Installation Sheet (P/N 3101094-EN) and to the topic “SA-CLA wiring” on page 26.
Page 21 Chapter 1: Installation and wiring Figure 10: NAC wiring location Figure 11: FX-64 panel Class B NAC wiring NAC1– – – NAC1+ EOLR NAC2– – – NAC2+ Figure 12: FX-1000 panel Class B NAC wiring NAC1– – – NAC1+ EOLR –...
Page 22: Addressable Device Loop Wiring
For FX-64 Class A NAC wiring, see “SA-CLA wiring” on page 26. Addressable device loop wiring The FX-64 and FX-1000 control panels have addressable device circuits that you can use with addressable detectors and modules (Table 4). The FX-64 supports up to 64 detectors or modules.
Page 23 Chapter 1: Installation and wiring Note: For a complete list of devices that can be connected to this circuit, refer to FX-64 and FX-1000 Series Compatibility List (P/N 3102355-EN). Caution: The FX-2WIRE module cannot be used on a device loop with isolator modules or isolator bases.
Page 24 Chapter 1: Installation and wiring Figure 14: Device loop wiring location Figure 15: Class B wiring (1) Loop card (2) Loop device Figure 16: Class A wiring [1] (1) Loop card (2) Loop device P/N 3102352-EN • REV 005 • ISS 28DEC18...
Page 25 FX-1000 that support dual SLC cards and provide two installation locations. See Figure 20. Figure 18: Single SLC interface card LEDs (FX-64 and FX-1000 panels) (1) LED DS3: SLC fault: Solid ON to indicate an open (2) LED DS1: Device communication: Flashes to fault.
Page 26 Chapter 1: Installation and wiring Figure 19: Dual SLC interface card LEDs (FX-1000 panels only) (1) LED DS3: SLC fault: Solid ON to indicate an open (3) LED DS2: Device communication: Flashes to fault. Flashes to indicate a short fault. indicate normal device communications.
Page 27: Alarm, Trouble, And Supervisory Relay Wiring (Tb3)
Chapter 1: Installation and wiring Alarm, trouble, and supervisory relay wiring (TB3) The control unit provides three pre-programmed common event relays for alarm, supervisory, and trouble events. These relays are not field configurable. • The trouble relay changes over on any trouble event (common trouble) •...
Page 28: Remote Annunciator Wiring (Tb4)
• Class B or Class A Note: The FX-64 panel requires the SA-CLA card to support Class A and redundant Class B circuits. Refer to “SA-CLA wiring” on page 26, or to installation sheet P/N 3101094-EN. • Circuit voltage: 2.55 V peak-to-peak average •...
Page 29 Figure 24: Annunciator channel wiring (Class A) (1) Channel 1 (3) Annunciator (2) Channel 2 Note: To use the Class A option, you must install the SA-CLA module in the FX-64. Figure 25: Annunciator channel wiring (Class B) (1) Channel 1 (3) Annunciator (2) Channel 2...
Page 30: Auxiliary/Smoke Power Output Wiring
If you do not need resettable AUX power, you can configure the resettable AUX power output to supply continuous power. • For a complete list of devices that can be connected to this circuit, refer to the FX-64 and FX-1000 Series Compatibility List (P/N 3102355-EN). Circuit specifications •...
Page 31: Sa-Dact Wiring
Chapter 1: Installation and wiring Figure 26: Auxiliary/smoke power wiring location Figure 27: Auxiliary/smoke power output terminals (1) Auxiliary/Smoke power output (3) Continuous (AUX 1) (2) Resettable (AUX 2) SA-DACT wiring The optional SA-DACT provides communications between the control panel and the central station over a telephone line system.
Page 32 Chapter 1: Installation and wiring Table 6: DACRs used with the SA-DACT Receiver Models Formats Ademco Contact ID FBII CP220 Contact ID Osborne-Hoffman OH2000 and OH2000E with an OH2000E-LC line card Contact ID installed (see note below) Bosch D6600 Contact ID Silent Knight 9500, 9800 Contact ID...
Page 33 Chapter 1: Installation and wiring Figure 29: SA-DACT wiring (1) TELCO Line 2 (7) Telephone protector (2) Tip (8) RJ-31X block (supplied by installer) (3) Ring (9) 8-position, 4-conductor modular cords (4) Protected premises punch down block (supplied by the customer) (5) PBX (10) LINE 1 (6) TELCO Line 1...
Page 34: Sa-232 Wiring
Chapter 1: Installation and wiring SA-232 wiring The optional SA-232 card can be wired to a printer to print system events or wired to a computer to read from and write to the panel using the configuration utility. Circuit specifications •...
Page 35 Chapter 1: Installation and wiring Figure 31: Printer wiring (1) Printer (4) RS-232 cable (2) DB-25 serial port on back of printer (5) To RS-232 card (3) DB-25 male Figure 32: DB-25 pin connections (1) Pin 1 (5) Pin 25 (2) Pin 2: TXD (red wire) (6) Pin 20: DTR (green wire) (3) Pin 3: RXD (white wire)
Page 36: Sa-Cla Wiring
(2) DB-9 COM port on back of computer (5) To RS-232 card (3) DB-9 female Note: A preassembled 9-pin-to-spade-lug cord (P/N 260097) can be ordered from a Kidde distributor. Figure 34: Pin designations on female DB-9 plug (back view) (1) Pin 2 RXD (3) Pin 5 COM...
Page 37 Chapter 1: Installation and wiring Circuit specifications • Operating current Standby: 3 mA Alarm: 60 mA max. • Max. resistance: 26 Ω • Max. capacitance: 0.35 µF • Max. current: 2.5 A per circuit • Ground fault impedance: 0 to 5 kΩ •...
Page 38: Sa-Eth Wiring
Chapter 1: Installation and wiring SA-ETH wiring The optional SA-ETH card provides a standard Ethernet network connection for connecting to a local network or connecting to a computer to read from or write to the panel using the configuration utility. The optional SA-ETH is required for TCP/IP communications between the panel and a computer operating the FireWorks software.
Page 39: Ctm Module Wiring
Chapter 1: Installation and wiring CTM module wiring The City Tie Module (CTM) is an interface between the control panel notification appliance circuit and a master box. It provides off-premises signal transmission for systems that must comply with NFPA requirements for Auxiliary Protective Systems. The CTM activates a local energy fire alarm box.
Page 40: Rpm Module Wiring
Chapter 1: Installation and wiring Figure 40: CTM module wiring (panel in alarm condition) (1) Alarm condition (5) Public fire alarm reporting system (2) 200 mA into a 14.5 Ω trip coil max. loop (6) 15 kΩ end-of-line resistor resistance = 25 Ω (7) CTM must be mounted in the same room (3) This circuit is nonpower-limited and is supervised as the panel...
Page 41 Chapter 1: Installation and wiring Figure 41: Alarm transmitted only (1) Control panel TB3 (3) From COM on RPM (black wire) (2) From ALRM on RPM (brown wire) (4) From +24 on RPM (red wire) Figure 42: Alarm and trouble transmitted on a single circuit (1) Control panel TB3 (4) From COM on RPM (black wire) (2) From TRBL on RPM (yellow wire)
Page 42 Chapter 1: Installation and wiring Figure 43: Alarm, supervisory, and trouble transmitted on separate circuits Control panel From TRBL on RPM (yellow wire) TRBL C From SUPV on RPM (orange wire) From ALRM on RPM (brown wire) From COM on RPM (black wire) 24VOUT From +24 on RPM (red wire) (1) Control panel TB3...
Page 43: Front Panel Programming
Chapter 2 Front panel programming Summary This chapter shows how to configure the system using the control buttons on the front panel. For information on programming the system using the optional Configuration Utility (CU), refer to the Help available in the CU. The panel user interface is the primary interface of the fire alarm system.
Page 44: Ul/Ulc Programming Requirements
Chapter 2: Front panel programming Dialer options 68 NET options 69 Auto programming procedure 69 Labeling devices 70 Labeling zones 70 Performing incremental programming 71 Incremental programming options 71 Incremental programming procedure 72 Labeling devices 73 Labeling zones 73 Adding and removing devices from programmed systems 74 Device programming options 74 Adding devices 76 Removing devices 77...
Page 45 Chapter 2: Front panel programming Programmable Possible settings Listing Permitted Permitted Panel default feature or option Agency (Y/N) settings Telephone line cut 1 to 120 seconds UL, ULC 10 to 120 seconds 120 seconds supervision duration Transmission test 0 to 240 hours 6 hours 6 hours frequency...
Page 46: Getting Started
Chapter 2: Front panel programming [5] CO detectors with a “CO alarm” device type must be programed using zones with bicolor LEDs (zones 13 through 16 and 29 through 32) and the zone type must be set to Supervisory. The panel Event Notification must be set to Zone.
Page 47 Chapter 2: Front panel programming Figure 44: Correlation group operation Correlation group (links input devices to output devices) Input devices (smoke Output devices and detector, pull station) by NAC devices (strobe, themselves or in a zone horn) Input Output device device Zone input...
Page 48: What Is In-Suite Signal Silence
Chapter 2: Front panel programming • Circuit one on all FX-IDCWS modules • All FX-NAC modules • All panel NACs • All zones configured as alarm The following inputs are not included in correlation group 001 during auto programming: • Relay and sounder bases with the Follow option set to Head.
Page 49: Programming Modes
Chapter 2: Front panel programming • Only the first alarm is silenced by in-suite signal silence. Any additional alarms sound as programmed and are not automatically silenced. • In-suite signal silence applies only to output devices and NACs that are configured as silenceable.
Page 50: Using The Programming Control Buttons
Chapter 2: Front panel programming device is removed, the panel signals a “trouble active” event and indicates on the LCD that there is an unconfigured device. The device can then be programmed and added to the database. This method is typically used to add just a few devices. See “Adding and removing devices from programmed systems”...
Page 51: Factory Default Settings
Chapter 2: Front panel programming Factory default settings The panel is shipped from the factory with default settings. You can accept or change these settings as needed. Note: Depending on panel equipment and programming, some of these settings may not be available.
Page 52 Chapter 2: Front panel programming • Event notification Trouble > Printer: Yes Disable > NET: Yes Trouble > Dialer: Acct 1 Disable > CID: 521 (NAC1), 522 (NAC2), 526 (NAC3), Trouble > NET (1-8): No 527 (NAC4) Trouble > CID: 321 (NAC1), Test >...
Page 53 Chapter 2: Front panel programming • Network (receiver) Enabled: No Event notification: Device Account ID: FFFF Hello time: 25 IP: 192.168.1.254 Timeout: 40 TCP/IP port: 9999 Receiver #: 2 Send restorals: Yes Line #: 2 Default loop configuration settings • Loop class: Class B •...
Page 54 Chapter 2: Front panel programming • Device Alt Operation: Yes Type (input device): Depends on type of device and Day sensitivity: Least marketplace Night sensitivity: Least Type (output device): Genesis with audible/visible Day prealarm %: Off silence Night prealarm %: Off Correlation group: 1 Base follow: Alarm Follow CO: No...
Page 55 Chapter 2: Front panel programming [1] Active3 is an activation from a COD device, or an activation from the secondary element of a dual element detector (single address), such as PCD, HCD, or PHCD. See “Device type descriptions” on page 47. Default contact ID event codes Contact ID codes are used to report events that take place in the fire alarm system to a central monitoring station (CMS) via a dialer or over a network.
Page 56 Chapter 2: Front panel programming Event Event Loop 4 initialization Loop 1 device 000 Loop 4 fault (disable) Loop 1 initialization Loop 4 fault (trouble) Loop 1 fault (disable) Loop 4 card fault (disable) Loop 1 fault (trouble) Loop 4 card fault (trouble) Loop 1 card fault (disable) Loop 4 Uncfgrd alarm (disable) Loop 1 card fault (trouble)
Page 57: Device Type Descriptions
Chapter 2: Front panel programming Event Event Net rcvr4 conf fault (trouble) Smoke active Net rcvr5 conf fault (disable) Smoke/Heat active Net rcvr5 conf fault (trouble) Supervisory active Net rcvr6 conf fault (disable) System startup Net rcvr6 conf fault (trouble System AC power (disable) Net rcvr7 conf fault (disable) System AC power (trouble)
Page 58 Chapter 2: Front panel programming Table 12: Detector device types Device type Description CO detectors (COD) Alarm For CO (carbon monoxide) detectors that trigger an active CO alarm event. Detectors with this device type remain active until the condition that activated them is restored and the control panel is reset.
Page 59 Chapter 2: Front panel programming Device type Description Heat + CO monitor For heat + CO detectors that trigger an active alarm event (fixed-temperature nonlatching heat) or a CO nonlatching monitor event. Detectors with this device type remain active until the condition that activated them is restored.
Page 60 Chapter 2: Front panel programming Device type Description Photoelectric smoke and CO detectors (PCD) Smoke Alarm + CO alarm For smoke + CO detectors that trigger an active alarm event (smoke or CO). Detectors with this device type remain active until the condition that activated them is restored and the control panel is reset.
Page 61 Chapter 2: Front panel programming Device type Description Smoke supervisory latching + For smoke + CO detectors that trigger a supervisory latching event (smoke) or a CO monitor nonlatching monitor nonlatching event (CO). Detectors with this device type remain active until the condition that activated them is restored.
Page 62 Chapter 2: Front panel programming Device type Description Photoelectric smoke detectors (PD) Smoke For smoke detectors and contact devices. All activations are immediately considered as alarms. The panel and detector cannot be restored to normal until the smoke condition has cleared and the control panel is reset. Smoke verified For smoke detectors and contact devices.
Page 63 Chapter 2: Front panel programming Device type Description Smoke verified + CO For smoke + CO detectors that trigger an alarm verify event first, and then trigger supervisory latching an active alarm event only after confirming the alarm condition (smoke) or trigger a supervisory latching event (CO).
Page 64 Chapter 2: Front panel programming Device type Description Remote signal silence For a remote switch that when activated, silences the signaling devices. Two-wire smoke detector activations are verified (delayed and confirmed) before activating an alarm. Four-wire smoke detectors and contact devices are not verified and are considered alarm immediately.
Page 65 Chapter 2: Front panel programming Table 16: Monitor device types Device type Description Monitor Monitoring of normally open switches for other functions (fire door position, etc.). Not approved for use under CAN/ULC-S527 in Canada. Table 17: Output device types Device type Description Continuous nonsilenceable For nonsilenceable strobes and notification appliances that generate a temporal...
Page 66: Displaying The Program Menu
Chapter 2: Front panel programming Device type Description Genesis-non-silence For Genesis and Enhanced Integrity horns and strobes. Genesis and Enhanced Integrity appliances maintain synchronization per UL 1971. For Genesis devices only, connected horns cannot be silenced and strobes on the same two-wire circuit flash until the panel is reset.
Page 67: Setting The Time And Date
Chapter 2: Front panel programming 3. Press Enter. Setting the time and date The first step in programming the panel is setting the time and date. You must do this before using either the Auto Program or Advanced Program command. To set the time and date: 1.
Page 68: Changing The Passwords
Chapter 2: Front panel programming 8. Set the Week End. (Values range from 1 to 5, where 5 corresponds to the last week of the month.) 9. Set the Weekday Start. (Values range from 1 to 7, where 1 corresponds to Sunday.) 10.
Page 69: Restoring The Factory Default Settings
Chapter 2: Front panel programming • The system automatically logs you off after four minutes of inactivity. To change the passwords: 1. Press the Menu button and choose Program. 2. Choose Password. 3. Enter a level two password. 4. Select the password to be changed: Level 1, Level 2, or Remote (Ann.). 5.
Page 70: Setting Up The Programmable Keys
Chapter 2: Front panel programming Setting up the programmable keys There are two control panel buttons that can be assigned to correlation groups in order to: • Disable a correlation group or members of a correlation group • Activate and restore the outputs in a correlation group •...
Page 71 Chapter 2: Front panel programming Function Option Behavior when user key is pressed Disable Members Disables all of the inputs and outputs, including NACs, and zones that belong to the correlation groups associated with the user key with an option of “Members.” Disable Group Disables the correlation groups associated with the user key with an...
Page 72 Chapter 2: Front panel programming 6. Choose a function to assign to the key. • None • Unlatch • Activate • Restore • Disable Note: To disable a programmed key, choose None. 7. If you chose Unlatch in step 6: •...
Page 73: Clearing The Event History Log
Chapter 2: Front panel programming Clearing the event history log The panel maintains a log of the most recent 1,000 system or user events. The event record contains the event time, the event type, the event state, and the event ID. The event time is the time and date of the event activation or restoration.
Page 74: Restarting The Panel
Chapter 2: Front panel programming Restarting the panel The Panel Restart command restarts (reboots) the panel without having to cycle AC power. To restart the panel: 1. Press the menu button and choose Program. 2. Choose Panel Restart. 3. Enter your level two password. 4.
Page 75: Auto Programming The Panel
Chapter 2: Front panel programming Auto programming the panel Auto programming detects and applies default settings to installed devices, NACs, remote annunciators, and expansion cards. You can control many aspects of the process by programming the options listed in: • “Auto programming options”...
Page 76 This option controls whether devices are automatically assigned to zones. The number of devices assigned to a zone is based on the type of panel: • FX-64 panel: Four devices per zone • FX-1000 panel: Sixteen devices per zone Yes: The system automatically finds all of the devices connected to the system and assigns them to a zone.
Page 77 Chapter 2: Front panel programming Option Description Follow This option controls the conditions that will activate relay or sounder detector bases. Select from the following values. Head: The base is controlled by the detector’s settings. • The base activates when the detector goes into alarm, unless the detector is set for alarm verification.
Page 78 Chapter 2: Front panel programming Dialer options Table 23 describes the options used to set up the dialer. Table 23: Auto programming — Dialer options [1] Option Description Account ID: Enter the four-digit ID code for account 1 Note, if you do not change the Account 1 default of FFFF, no events will be sent.) Primary receiver number: Enter the primary receiver’s phone number.
Page 79 Chapter 2: Front panel programming NET options Table 24 describes the network options used to set up the Ethernet card. Table 24: Auto programming — NET options Option Description Enter the six-digit code for the central monitoring station (CMS) account. Account ID Enter the IP address for the CMS.
Page 80 Chapter 2: Front panel programming option the cursor is on. Also, the options you select are preserved and will be displayed the next time you auto program. 6. When you have finished, press Enter. The panel begins auto programming and displays the number of devices on the system. If you have more than one loop, the device counts are per loop.
Page 81: Performing Incremental Programming
Chapter 2: Front panel programming 2. Enter a text label for the zone (two lines of 20 characters). The default label is “Zone XX.” 3. Press Enter to save the label and go to the next number of the zone. Note: Pressing the Enter button saves the current label, and then goes to the next zone number so that you can quickly go to each zone and label it.
Page 82 Chapter 2: Front panel programming Device option Description Example: When using a PCD (Smoke/CO) detector and assigning it the Follow "Head" option, the activation of the photoelectric element will cause the local sounder/relay base to activate automatically. However, if the CO element portion of the device activates without the activation of the photoelectric element, the sounder/relay base will not activate.
Page 83 Chapter 2: Front panel programming The panel begins incremental programming and displays the number of devices in the system. If the panel has two or more loops, the device counts for each loop are given separately. The system displays the number of old and new devices. 6.
Page 84: Adding And Removing Devices From Programmed Systems
Chapter 2: Front panel programming 5. Repeat steps 3 and 4 until all zones are labeled. 6. When you have finished labeling, move the cursor to the zone number, and then press the Cancel button to continue with the next incremental programming option. Adding and removing devices from programmed systems You can add an additional device or several devices to a system that has already been...
Page 85 Chapter 2: Front panel programming Device option Description Coder: Four-digit coded output that is played in response to alarm conditions (00-00-00-00 to 99-99-99-99). Dialer: • Acct 1 & 2: Event information is sent to both dialer accounts • Acct 1: Event information is sent to dialer account one •...
Page 86 Chapter 2: Front panel programming Device option Description • Devices with the base set to follow Head cannot be placed in correlation groups. When a device base is set to follow Head, the base is removed as an output from any correlation groups to which it belongs.
Page 87 Chapter 2: Front panel programming If you added a dual address device, both addresses for the device are displayed on the screen (e.g., 001/002). The first address listed is the device address you are programming. When you pick the second address to program, both addresses are still displayed but in reverse order (e.g., 002/001).
Page 88: Advanced Programming
Chapter 2: Front panel programming Advanced programming Overview Advanced programming lets you program the panel manually and apply custom settings. Most options have a factory default setting that you can accept or change. See “Factory default settings” on page 41. In advanced programming, you can custom program the loop configuration options (loops, devices, zones, etc.), panel configuration options (annunciators, dialer, network, printer, etc.), panel operation options (language, marketplace, AC fail delay, etc.), panel events, and loop...
Page 89 Chapter 2: Front panel programming • Key #1 • Key #2 • Standalone Op Advanced programming for panel and loop options is covered in the following topics in this chapter. Programming events Advanced programming lets you create custom responses to these types of events: •...
Page 90 Chapter 2: Front panel programming Option Description Loop 4 Fst Grp [1] [2] Select: 001 to 025 to combine loops 1 and 4 devices in the same fast groups — or — 151 to 175 to use separate fast groups for loop 4 devices. [1] Displayed in multiple loop systems only.
Page 91 Chapter 2: Front panel programming 2. Choose Advanced Program and enter the level 2 password. 3. Choose Correlation Groups and enter the correlation group number to be programmed. (Values range from 001 to 199.) 4. Choose: • Add/Remove Zone to add or remove a zone •...
Page 92 Chapter 2: Front panel programming Setting a correlation group’s activation count A correlation group’s activation count is the number of member activations that are required to activate the correlation group. The activation count is used to set up cross zoning. The following rules apply: •...
Page 93 Chapter 2: Front panel programming To remove all members from a correlation group: 1. Press the Menu button and choose Programming. 2. Choose Advanced Program and enter the level 2 password. 3 Choose Loop Configuration. 4. Choose Correlation Groups. 5. Enter the number of the correlation group. (Values range from 001 to 199.) 6.
Page 94 Chapter 2: Front panel programming You can also configure Reset for a correlation group in two ways: • Reset Activate: When an event is added to a correlation group without a configured time delay, the output activates when the reset starts and restores when the reset ends. When an event is added with a configured time delay, the output activates only after the delay time is reached.
Page 95 Chapter 2: Front panel programming Programming in-suite signal silence In-suite signal silence is programmed using two separate menus: • Configure the elapse timer for in-suite signal silence by displaying the Program > Advanced Program > Panel Operation menu. • The function is enabled for individual correlation groups through the Program > Advanced Program >...
Page 96 Chapter 2: Front panel programming To address this requirement, FX-64 and FX-1000 systems provide 25 high priority correlation groups per loop that can activate all sounders simultaneously. These are: • For panels with one loop only, the fast correlation groups are Groups 001 to 025 •...
Page 97 Chapter 2: Front panel programming 7. Add the detector as an input and the sounder base as an output. Choose: Sensor to add the detector — or — Base to add the sounder base. 8. On the Status line, press Enter to select Included. This adds the device to the group. 9.
Page 98 Chapter 2: Front panel programming Option Description 1. Select an event type and set its notification options. 2. Repeat until all event types have been set. 3. When you have finished, choose Save. Printer: Yes or No. This controls whether event information is sent to the printer Coder: four-digit coded output that is played in response to alarm conditions (00-00-00-00 to 99-99-99-99) Dialer:...
Page 99 Chapter 2: Front panel programming Option Description Follow This option controls the conditions that will activate the relay or sounder detector base. Select from the following values. Head: The base is controlled by the detector’s settings: • The base activates when the detector goes into alarm, unless the detector is set for alarm verification.
Page 100 Chapter 2: Front panel programming For the FX-1000 panel, addresses 1 to 125 are detectors and addresses 201 to 325 are modules. Note: The device label occupies two lines just below the device number. 6. Program each device in the system using Table 28 on page 87. Note: If you chose a dual address device, both addresses for the device are displayed on the screen (e.g., 001/002).
Page 101 Chapter 2: Front panel programming 6. Choose Base Type and select either Relay or Sounder. 7. Choose Follow and select one of the types listed in Table 28 on page 87. 8. Choose Save. 9. Press the Menu button to exit menu mode, or continue programming. Programming relay modules and bases as latched output devices Latched outputs are relays that are configured to shut down air handlers and dampers during an alarm.
Page 102 Chapter 2: Front panel programming Type Description Relay nonsilence NC (latched) Relay NC Latch. For relay devices functioning as latched outputs that open when activated. Does not follow signal silence. To configure a relay module or base as a latched output: 1.
Page 103 Chapter 2: Front panel programming Selecting loop classes The loop class must be programmed Class A or Class B based on how the devices are wired on the loop). The default setting is Class B. To select a loop class: 1.
Page 104 Chapter 2: Front panel programming Note: Do not mix device and zone types. For example, do not place a nonlatching supervisory device in an alarm zone. When the supervisory device activates and an alarm event is initiated, the alarm event automatically clears when the device restores without having to reset the panel.
Page 105 Chapter 2: Front panel programming Panel programming The panel options to be configured include: • NAC circuits (“NACs”) • Printer • Annunciator class • IP address (“IP”) • Annunciator • Subnet mask (“MSK”) • Dialer and network (“CMS device”) • Gateway (“GWY”) Most options have a factory default setting that you can accept or change.
Page 106 Chapter 2: Front panel programming Option Description Genesis (nonsilenceable or with audible silence or with audible/visible silence): For Genesis horns and strobes and Enhanced Integrity strobes. Genesis and Enhanced Integrity appliances maintain synchronization per UL 1971. When using Genesis or Enhanced Integrity notification appliances, you must select one of the Genesis NAC types for proper system-wide strobe synchronization.
Page 107 Chapter 2: Front panel programming Option Description Correlation groups Enter the number of the correlation group. Press Enter to toggle the group’s status. • “Included” adds the item to the group. • “Excluded” removes the item from the group When you have finished, choose Exit. A correlation group is a collection of addressable input devices (detectors and input modules) and output devices (panel NACs, NAC modules, relay modules, sounder and relay bases).
Page 108 Chapter 2: Front panel programming Setting annunciator classes Program the annunciator’s wiring class (Class A or Class B). You must install the optional SA- CLA module if you have class annunciator wiring on the 64 point panel. Default: Class B To set the annunciator class: 1.
Page 109 Chapter 2: Front panel programming Option Description • Acct 1: Event information is sent to dialer account one • Acct 2: Event information is sent to dialer account two • None: Event information is not sent to the dialer CID: Contact ID event code (000 to 999) NET (1-8): Yes or No.
Page 110 Chapter 2: Front panel programming Option Description - Loop 1 device 000 - Reset - Loop 2 initializing - Reset/Sil inhibit - Loop 2 over limits - Panel silence - Loop 2 uncfgrd alarm - Program mode - Loop 2 device 000 - Signal silence - Loop 3 initializing - Date - Drill...
Page 111 Chapter 2: Front panel programming To program CMS devices: 1. Display the panel configuration options menu. See “Panel programming” on page 95. 2. Choose CMS Device. 3. Choose the device you want to program. 4. Program each device and option using Table 34 on page 99. For dialer options, see Table 35 below.
Page 112 Chapter 2: Front panel programming Option Description Secondary receiver number CID: Contact ID is the alarm format that the monitoring facility's Digital Alarm Communicator Receiver (DACR) will receive. See “Default contact ID event codes” on page 45. Set send restorals to: Yes: Sends off-normal event restorals to the monitoring facility DACR.
Page 113 Chapter 2: Front panel programming Option Description Rings to answer Set rings to answer to Off or 1 to 15 rings. Specifies how many rings before the dialer answers incoming calls. Ring type Set ring type to Any or Normal. Specifies the type of ring expected when an incoming call is received.
Page 114 Chapter 2: Front panel programming Notes • CID is the only format that can be transmitted to the CMS over an Ethernet network. • You must enter a different port number for each account. If you enter the same port number for multiple accounts, the panel will enable one account and disable all others.
Page 115 Chapter 2: Front panel programming Option Description Receiver number Specifies the CMS receiver number that receives system event messages. This number is part of the receiver message. Enter the CMS receiver number (0 to 9999) assigned to this panel by the CMS administrator.
Page 116 Chapter 2: Front panel programming 7. Choose Save (on the Printer menu). 8. Press the Menu button to exit menu mode, or continue programming. Ethernet card programming If you are using the optional Ethernet network card (SA-ETH), you must configure the IP address, subnet mask, and gateway so that it can communicate with the network.
Page 117 Chapter 2: Front panel programming Setting the Lock Remote Read function Lock remote read controls incoming TCP/IP communications when a network card is installed and it is connected to a LAN or WAN. It restricts telnet, ping, and CU read requests at the panel so that unwanted access to the panel is restricted, almost like a firewall.
Page 118 Chapter 2: Front panel programming Table 37: Panel operation options Option Description Language Select the desired display language: English, French, Portuguese, or Spanish. Marketplace Select the desired marketplace: US, CANADA, or Intl. (International) AC fail delay Set the AC fail delay time to: Off: Off-premises notification of an AC power failure is immediate.
Page 119 Chapter 2: Front panel programming Option Description Event notification Set event notification to: Zone: When a device is a member of a zone, only the zone information is sent to the LCD, LEDs, printer, and dialer. Note, device level reporting configuration is not available.
Page 120 Chapter 2: Front panel programming To program Panel Operation options: 1. Press the menu button and choose Program. 2. Choose Advanced Program. 3. Enter a level two password. 4. Choose Panel Operation. 5. Program the options using Table 37 on page 108. Not all options shown in the table will be displayed on all systems.
Page 121 Chapter 2: Front panel programming Panel event Printer Dialer NET (1-8) Common supervisory Acct 1 Common trouble None Common trouble for network dialer None Common trouble for telco dialer Acct 1 Date Acct 1 Dialer disable/remote disconnect Acct 1 Dialer line 1 fault (disable) None Dialer line 1 fault (trouble) Acct 1...
Page 122 Chapter 2: Front panel programming Panel event Printer Dialer NET (1-8) System wide AC power (disable) None System wide AC power (trouble) Acct 1 Test fire None Time Acct 1 Walk test Acct 1 To program panel events: 1. Press the Menu button and choose Program. 2.
Page 123 Chapter 2: Front panel programming Table 39: Default loop event settings Loop event Printer Dialer NET (1-8) Loop 1 initialization None Loop 1 fault (disable) None Loop 1 fault (trouble) Acct 1 Loop 1 card fault (disable) (e.g., line fault) None Loop 1 card fault (trouble) (e.g., line fault) Acct 1...
Page 124 Chapter 2: Front panel programming Loop event Printer Dialer NET (1-8) Loop 4 initialization None Loop 4 fault (disable) None Loop 4 fault (trouble) Acct 1 Loop 4 card fault (disable) (e.g., line fault) None Loop 4 card fault (trouble) (e.g., line fault) Acct 1 Loop 4 Uncfgrd alarm (disable) None...
Page 125 Chapter 2: Front panel programming Unconfigured alarm event programming You can assign the unconfigured alarm event to a correlation group and use it to turn on an output device. When assigned to a correlation group, every unconfigured alarm event turns on every output device in the correlation group.
Page 126 Chapter 2: Front panel programming 13. Press the Menu button to exit menu mode, or continue programming. Common trouble event programming The common trouble event can be assigned to a correlation group and turn on an output device. When the common trouble is assigned to a correlation group, every output device in the correlation group turns on.
Page 127 Chapter 2: Front panel programming • Acct 1: Event information is sent to dialer account one • Acct 2: Event information is sent to dialer account two • None: Event information is not sent to the dialer • NET (1-8): Yes or No. Controls whether event information is sent to the connected network •...
Page 128 Chapter 2: Front panel programming P/N 3102352-EN • REV 005 • ISS 28DEC18...
Page 129: System Operation
Chapter 3 System operation Summary This chapter covers the front panel display, operating the panel, and controlling devices, NACs, and zones. Content Operation overview 121 Front panel display 121 Control panel operations 121 LCD display screen 122 System normal display screen 122 System off-normal display screen 123 Event details display screens 124 System LEDs 126...
Page 130 Chapter 3: System operation Activating and restoring output devices 145 Unlatching latched output devices 146 Activating and restoring panel NACs 146 Activating and restoring sensor bypass 147 Activating and restoring gas accelerated response 148 Disabling and enabling devices 149 Disabling and enabling zones 150 Disabling and enabling panel events 151 Disabling and enabling loop events 152 Disabling and enabling panel NACs 154...
Page 131: Operation Overview
Chapter 3: System operation Operation overview Front panel display The front panel display is the user interface for the control panel. The display is comprised of the LCD, LED indicators, and control buttons that are used to operate and program the panel. Figure 47: Front panel display layout (1) LCD display (3) Control buttons...
Page 132: Lcd Display Screen
Chapter 3: System operation Off-normal mode The panel operates in off-normal mode any time an event is introduced into the system. When this happens, the panel: • Changes contact positions on appropriate common relays • Activates alarm outputs (for alarm events only) •...
Page 133: System Off-Normal Display Screen
Chapter 3: System operation Figure 48: LCD under normal conditions Time Date 00:00:00 01/01/07 Banner (Line 1) Banner (Line 2) Banner area System login indication 00:00:00 Login:2 System off-normal display screen During an off-normal event, such as an alarm, supervisory, monitor, trouble, prealarm, alarm verify, disablement, or test, the LCD screen changes to display important information about the event.
Page 134: Event Details Display Screens
Chapter 3: System operation Figure 49: LCD under off-normal conditions Active points Time Disabled points 00:00:00 A001 D001 Event Event type 001 Alarm Active number message Computer room closet Device Floor 1 label Event details display screens The off-normal events that take place in the system contain event information that is displayed on the LCD screen.
Page 135 Chapter 3: System operation Figure 52: Zone event details display screen Zone number Zone Lobby pull station Label Note: You can scroll through the list of all devices in the zone reporting an event: • Navigate to the desired active zone using the up arrow or down arrow buttons. •...
Page 136: System Leds
Chapter 3: System operation System LEDs LEDs indicate system events and system operation. Table 40: System LEDs Description Alarm Red LED. Flashes when there is an active alarm event on any loop. On steady once acknowledged. Trouble Yellow LED. Flashes when there’s a fault with a monitored circuit or system component or when a circuit is disabled.
Page 137: Led Display Expander Leds
Chapter 3: System operation LED display expander LEDs Note: For use with FX-1000 panels, only. The D16L-Fa LED Display Expander provides LED annunciation for up to 16 zones. The expander provides two LEDs for each zone. You can install two D16L-FA LED display expanders in the FX-1000 panel.
Page 138: Control Buttons
Chapter 3: System operation Control buttons Common control buttons Common control buttons on the front panel perform a variety of functions. Table 41 below identifies the common controls and describes their functions. Table 41: Common controls Button Description Remote Disconnect CMS devices (dialer and network card): Disables or enables the dialer and network CMS connection and purges all pending event transmission to the CMS.
Page 139: Buttons For Working With Menus And Entering Text
Chapter 3: System operation Buttons for working with menus and entering text Table 42 below describes the menu command buttons and the buttons on the alphanumeric keyboard. Use the alphanumeric keypad to enter passwords, create text labels, and enter device and group numbers.
Page 140 Chapter 3: System operation Button Description Down Arrow Scrolls forward to the next event (when the panel is in display mode) Moves the cursor down (when the panel is in menu mode) Enter Displays detailed information about the selected event (when the panel is in display mode) Opens a submenu or jumps to the Save function in the menu so you can quickly save your changes (when the panel is in menu mode)
Page 141: Programmable Buttons
Chapter 3: System operation Programmable buttons (Key #1 and Key #2) You can program the two unlabeled control buttons on the front panel to operate the LCD and perform the functions listed in Table 43 below. Operating the buttons requires a level 2 password.
Page 142: Programmable Button Function Priority
Chapter 3: System operation Alarm ON Used for manual evacuation in the Canadian Marketplace. Pressing the Alarm ON button places the control panel in the alarm condition, activates all drillable outputs which include all notification appliance circuits and all sounder bases, signals the central station with CID 115. The panel still responds to initiating device circuits that are activated while sounding a manual evacuation.
Page 143: Component Descriptions
Chapter 3: System operation Component descriptions The control panel contains the following components. Figure 55: Component layout 00:00:00 01/01/07 Item Description Transformer: Changes 120 or 230 volt AC supply voltage to 24 volt AC. Main AC wiring block and fuse holder: Provides connections for 120 or 230 volt AC (primary power) from dedicated service.
Page 144: Events With Event Messages
FX-1000 panel) Class A card connector (J2): Provides a connection for the optional Class A card (only on the FX-64 panel) Tie wrap mounts: Used to secure wires and to help maintain proper separation between power- limited and nonpower-limited conductors...
Page 145: Event Printout Examples
Chapter 3: System operation Event type Printer [1] Monitor type reporting CO monitor Gas CO active COMO ACT Zone monitor Monitor MON ACT Input monitor Monitor MON ACT Outputs are latched Outputs are latched Outputs are latched Prealarm reporting Prealarm PALM ACT Alarm verify reporting Alarm verify...
Page 146 Chapter 3: System operation Zone event ALRM ACT | 18:00:34 01/01/2007 Z:008 Zone 08 Where: ALRM ACT = Alarm event 18:00:34 01/01/2007 = Time and date the event took place Z:008 = Zone 08 Zone 08 = Label (could be the default label or a custom label) Device event ALRM ACT | 18:00:34 01/01/2007 L:1 D:124 Loop 1 Device 124...
Page 147: Event Id Numbers And Descriptions
Chapter 3: System operation Event ID numbers and descriptions Table 45: Event ID numbers and descriptions Event description Event description Loop 1 initialization: Loop 1 is Not used starting up Loop 2 over limits: There are too Loop 1 fault: A short or open was many devices on loop 2 detected on loop 1 affecting the Loop 2 device 000: A device on loop...
Page 148 Chapter 3: System operation Event description Event description Loop 4 card fault: The loop 4 card is Common trouble: A trouble event is not present or it is not working taking place on the control panel properly Ground fault: The panel detected a Loop 4 uncfgrd alarm: A device on ground fault loop 4 that is not programmed went...
Page 149 Chapter 3: System operation Event description Event description Self test fault: A fault was detected Net Comm Fault 06: while testing the panel’s internal Communications between the panel subsystems (memory, flash, code, and network receiver 06 failed etc.) Net Comm Fault 07: Internal fault: The control panel Communications between the panel detected an internal hardware or...
Page 150 Chapter 3: System operation Event description Event description Fw Dwnld in Progress: Firmware Zone 1 (active, trouble, disable, update is successfully initiated from prealarm, alarm verify, maintenance the panel and firmware update utility alert, or test was detected in zone1) Fw Download Aborted: Firmware Zone 2 (active, trouble, disable, update is aborted due to connectivity...
Page 151 Chapter 3: System operation Event description Event description Zone 14 (active, trouble, disable, Zone 24 (active, trouble, disable, prealarm, alarm verify, maintenance prealarm, alarm verify, maintenance alert, or test was detected in zone alert, or test was detected in zone Zone 15 (active, trouble, disable, Zone 25 (active, trouble, disable, prealarm, alarm verify, maintenance...
Page 152: Viewing Event Details
Chapter 3: System operation Viewing event details The off-normal events that take place in the system contain event information that is displayed on the LCD screen. Additional information is available on a secondary screen called the Event Details screen. To display the event details screen: 1.
Page 153: Silencing Panel And Annunciator Buzzers
Chapter 3: System operation • If the condition causing an “Alarm Active” condition has not cleared (smoke is still present in detector chamber, pull station was not reset, etc.) the panel remains in an alarm state after resetting and the NACs and other outputs do not reactivate. •...
Page 154: Silencing Nacs Automatically
Chapter 3: System operation When you silence the signals: • The Signal Silence LED lights to indicate that the notification appliances are off. • If Genesis horn/strobe or horn-only devices are used on NACs programmed for Genesis operation, Signal Silence silences the horns and strobes based on system programming. Pressing Signal Silence a second time while the panel is in an alarm state causes the signals to turn on again.
Page 155: Conducting A Lamp Test
Chapter 3: System operation Conducting a lamp test A lamp test lights all of the LEDs on the panel and the LED annunciator and tests the LCD so that you can verify proper operation. LEDs stay on for 15 seconds. To conduct a lamp test: 1.
Page 156: Unlatching Latched Output Devices
Chapter 3: System operation 7. Press Enter. 8. Press Cancel to return to the previous menu. — or — Press the Menu button to exit menu mode. Unlatching latched output devices Latched outputs are devices that are configured to shut down air handlers and dampers automatically when an alarm activates, and to keep them shut down until they are manually unlatched and restored.
Page 157: Activating And Restoring Sensor Bypass
Chapter 3: System operation 7. Press Cancel to return to the previous menu. — or — Press the Menu button to exit menu mode. Notes • Disabled devices must be manually enabled and then restored. See “Activating and restoring sensor bypass” below. •...
Page 158: Activating And Restoring Gas Accelerated Response
Chapter 3: System operation 3. Choose Activate/Restore. 4. Choose Sensor Bypass. 5. Select the device that you want to bypass. 6. Press Enter. 7. Press Cancel to return to the previous menu. — or — Press the Menu button to exit menu mode. Activating and restoring gas accelerated response Use the Activate Gas Accelerated Response option to turn on the accelerated response mode.
Page 159: Disabling And Enabling Devices
Chapter 3: System operation Disabling and enabling devices Disabling a device does not prevent it from activating, but it does prevent event messages originating at the device from being displayed, printed, or reported off-premises. Devices are typically disabled during maintenance. Remember to enable the device as soon as you have finished working with it.
Page 160: Disabling And Enabling Zones
Chapter 3: System operation — or — Press the Menu button to exit menu mode. Disabling and enabling zones Zones are typically disabled while maintenance is performed to prevent event messages originating from the zone from being displayed, printed, or reported off-premises. Disabling a zone does not prevent activations in the zone.
Page 161: Disabling And Enabling Panel Events
Chapter 3: System operation The zone is disabled. 8. Press Cancel to return to the previous menu. — or — Press the Menu button to exit menu mode. Disabling and enabling panel events Disabling a panel event prevents the messages that are sent when the event occurs from being displayed, printed, or reported off-premises.
Page 162: Disabling And Enabling Loop Events
Chapter 3: System operation To disable or enable a panel event: 1. Press the Menu button and choose Control. 2. Enter a level one password. 3. Choose Enable/Disable. 4. Choose Panel Event. 5. Enter the ID number of the event type to disable or enable. See “Event ID numbers and descriptions”...
Page 163 Chapter 3: System operation Table 47: Loop events that can be disabled Event Loop 1 fault Loop 2 fault Loop 3 fault Loop 4 fault Loop 1 card fault Loop 2 card fault Loop 3 card fault Loop 4 card fault Loop 1 unconfigured alarm Loop 2 unconfigured alarm Loop 3 unconfigured alarm...
Page 164: Disabling And Enabling Panel Nacs
Chapter 3: System operation Disabling and enabling panel NACs Disabling a panel NAC prevents activations from being displayed, printed, or reported off premises. This is typically done during maintenance. Remember to enable the NAC as soon as you have finished working. NACs that have been disabled are not restored when the panel is reset.
Page 165: Initiating A Fire Drill
Chapter 3: System operation • The disabled points indicator on the LCD decrements • The active points indicator on the LCD decrements To disable or enable the dialer and network card: 1. Press Remote Disconnect. 2. Enter a level one password. Initiating a fire drill Pressing Drill activates all audible and visible notification appliances according to the panel programming, but does not activate the alarm relay.
Page 166 Chapter 3: System operation • Walk test will not start if a Remote AC Fail Trouble or Local AC Power Trouble event is active. • Walk test affects mainboard NACs only. Any addressable device configured for NAC operation is not included in the walk test. When you enter walk test mode: •...
Page 167 Chapter 3: System operation To start a walk test: 1. Press the Menu button and choose Test. 2. Choose Walk Test Silent or Walk Test Audible. 3. Enter a level one password. 4. Choose either All Devices or Zone. 5. If you chose Zone, enter the zone ID for the zone to be tested. 6.
Page 168 Chapter 3: System operation P/N 3102352-EN • REV 005 • ISS 28DEC18...
Page 169: Reports
Chapter 4 Reports Summary This chapter describes how to create the panel’s available reports. Content Basic steps for viewing and printing reports 160 History report 160 Walk Test report 161 Device Maintenance report 162 System Status report 162 Correlation Groups report 163 Correlation Group Configuration report 163 Zone report 164 System Configuration report 164...
Page 170: Basic Steps For Viewing And Printing Reports
Chapter 4: Reports Basic steps for viewing and printing reports To view or print a report: 1. Press the Menu button and choose Reports. 2. Select the report that you want to run. 3. Supply values for the options requested. 4.
Page 171: Walk Test Report
Chapter 4: Reports There are three types of history reports you can generate: • All: Includes all events in the report • Alarm: Includes only alarm events in the report • Date forward: Lets you enter a starting date for the report. The report includes all events from that date forward.
Page 172: Device Maintenance Report
Chapter 4: Reports Device Maintenance report The panel provides a Device Maintenance report of all detectors in the system. The report can include: all detectors, all detectors over 20% dirty, or all detectors over 80% dirty. The report displays the device, along with its dirty percentage and sensitivity setting. Device Maintenance reports can be printed or viewed on the LCD.
Page 173: Correlation Groups Report
Chapter 4: Reports Supervisory Trouble Disable Other Correlation Groups report The panel provides a report for each correlation group in the system. The Correlation Group report shows all of the devices, zones, and NACs that are assigned to a correlation group. Correlation group reports can be printed or viewed on the LCD.
Page 174: Zone Report
Chapter 4: Reports Zone report The panel provides a Zone report that lists all of the devices that are in a selected zone. The report lists the devices by the device label. To view a zone report: 1. Press the Menu button and choose Reports. 2.
Page 175: Internal Status Report
Chapter 4: Reports Panel Operation Panel Configuration Loop/Zone Config Devices Event Config Dialer Config Internal Status report The panel provides an Internal Status report that displays the current values for AC voltage, battery voltage, and battery charge current. Internal Status reports can be printed or viewed on the LCD.
Page 176 Chapter 4: Reports The report can be used to identify devices with intermittent communication faults. A device appearing in this report is an indication that the wiring to the device is suspect. To investigate problem devices, inspect the wiring between the problem device and another device not in the report.
Page 177: Internal Fault Report
Chapter 4: Reports Internal Fault report The Internal Fault report displays information about an internal fault event (event ID 69) that has occurred in the system. The report contains information that is important for technical support when troubleshooting the internal fault event and should typically only be run when you are asked to do so by a technical support representative.
Page 178 Chapter 4: Reports P/N 3102352-EN • REV 005 • ISS 28DEC18...
Page 179: Diagnostics, Maintenance, And Testing
Chapter 5 Diagnostics, maintenance, and testing Summary This chapter provides diagnostics, preventive maintenance, and testing information. Content Preventive maintenance schedule 170 Fast Ground Check 170 Recalibrate device 170 Flash Device LED 171 Loop comm check 171 Control panel testing 172 Canadian tests for grounds, opens, and shorts 173 Electronic testing of a device (test fire) 173 SA-DACT testing 174...
Page 180: Preventive Maintenance Schedule
Chapter 5: Diagnostics, maintenance, and testing Preventive maintenance schedule Refer to the NFPA 72 section on Inspection, Testing, and Maintenance, the Canadian Electrical Code Part I, CAN/ULC-S524, or CAN/ULC-S536 for more information on required inspection and testing methods and frequencies for fire alarm systems and devices. For detector sensitivity and functionality testing, refer to the detector manufacturer’s installation instructions.
Page 181: Flash Device Led
Chapter 5: Diagnostics, maintenance, and testing 3. Choose Recalibrate Device. 4. Choose the loop the device is on. Note: If the panel only has one loop, the loop selection screen does not display. Go to the next step. 5. Choose the number of the device that you want to recalibrate. 6.
Page 182: Control Panel Testing
Chapter 5: Diagnostics, maintenance, and testing 2. Enter a level two password. 3. Choose Loop Comm Check. You can monitor the progress of the check on the Diagnostics screen. 4. Once the check is complete, choose “Continue” to go to the report Diagnostics screen, and then continue with the next step.
Page 183: Electronic Testing Of A Device (Test Fire)
Chapter 5: Diagnostics, maintenance, and testing Panel door key Sound level meter • A complete check of installed field wiring and devices should be made at regular intervals in accordance with NFPA 72, Canadian Electrical Code Part I, ULC-S524, and ULC-S536 requirements.
Page 184: Sa-Dact Testing
Chapter 5: Diagnostics, maintenance, and testing To test fire a device: 1. Press the Menu button and choose Test. 2. Choose Test Fire. 3. Enter a level one password. 4. Choose the loop the device is on. Note: If the panel only has one loop, the loop selection screen does not display. Go to the next step.
Page 185: Conducting A Lamp Test
Chapter 5: Diagnostics, maintenance, and testing Conducting a lamp test A lamp test lights all of the LEDs on the panel and the LED annunciator and tests the LCD so that you can verify proper operation. LEDs stay on for 15 seconds. To conduct a lamp test: 1.
Page 186 Chapter 5: Diagnostics, maintenance, and testing • All device activations are latched until walk test is ended or the panel is reset. When walk test is ended, it takes approximately eight seconds for the devices to restore. If the device being tested is in a zone and does not restore, the zone does not reset.
Page 187: Using Hyperterminal
Chapter 5: Diagnostics, maintenance, and testing 5. Choose End to turn off the walk test. All of the devices that were activated in the test are restored at this time. 6. Press Cancel to return to the previous menu. — or — Press the Menu button to exit menu mode.
Page 188: Replacing A Device In Alarm
Chapter 5: Diagnostics, maintenance, and testing 5. On the File menu, click Save to save your connection settings. Capturing a report The history report provides useful information for troubleshooting system faults. You should always have this information available before calling technical support. To capture a report: 1.
Page 189: Appendix A Panel Specifications
Appendix A Panel specifications Summary This appendix lists all of the specifications for the control panel. Content Control panel specifications 180 P/N 3102352-EN • REV 005 • ISS 28DEC18...
Page 190: Control Panel Specifications
AUX 1 + AUX 2 alarm current over 500 mA) Output: 28.3 to 21.9 VDC, special application Note: For a complete list of devices that can be connected to this circuit, see the FX-64 and FX-1000 Series Compatibility List (P/N 3102355-EN). P/N 3102352-EN • REV 005 • ISS 28DEC18...
Page 191 Amp hour capacity: 26 Ah Standby operation: 24 hour or 60 hour Placement: Up to two 10 Ah batteries will fit in the FX-64 control panel cabinet and two 18 Ah batteries will fit in the FX-1000 control panel cabinet. If larger batteries are required, you must use an Edwards battery cabinet.
Page 192 Appendix A: Panel specifications P/N 3102352-EN • REV 005 • ISS 28DEC18...
Page 193: Appendix B Worksheets
Appendix B Worksheets Summary This appendix contains all of the worksheets needed to program the panel, calculate NAC requirements and battery requirements. Content Battery calculation worksheet 184 Notification appliance circuit calculations worksheet 188 Introduction 188 What you’ll need 188 Worksheet method 190 Equation method 191 Notification appliance voltage drop calculation worksheet 194 RZI16-2RS 24V IN riser maximum wire run calculation 196...
Page 194: Battery Calculation Worksheet
Appendix B: Worksheets Battery calculation worksheet Use this worksheet to determine the minimum amp hour capacity required for the panel’s standby battery. You can obtain operating current requirements for notification appliances from their respective installation sheets. Battery calculation worksheet Standby Alarm (Fire) current (mA) current (mA)
Page 195 1.25 = x 1.25 = (panel to (panel to battery standby battery current) alarm current) Totals (mA) (transfer totals to Battery Calculation Worksheet) [1] FX-64: 155 [2] FX-64: 204 FX-1000: 172 FX-1000: 267 P/N 3102352-EN • REV 005 • ISS 28DEC18...
Page 196 Appendix B: Worksheets Worksheet B: Auxiliary/smoke power current load Standby Alarm Qty x Standby Qty x Alarm Devices current (mA) current (mA) current (mA) current (mA) FX-2WIRE [1] RLCD(F) RLCD-C(F) RLED-C(F) LED24 RZI16-2 [2] Sounder base Total Aux Standby current = (cannot exceed 500mA) x 1.25 =...
Page 197 Appendix B: Worksheets Worksheet C: CO device current load For a system using CO devices, determine the total amount of CO signal current in milliamps required by all of the CO devices that derive power from the battery while the panel is in CO alarm mode. Use the alarm currents on the sounder base installation sheet for your calculations.
Page 198: Notification Appliance Circuit Calculations Worksheet
For either method, you’ll need some fixed or calculated operating values for your specific power supply. The fixed values are: • Source voltage = 20.4 V • Load factor for FX-64 panel = 0.20 V/A • Load factor for FX-1000 panel = 0.24 V/A • Power type = FWR The source voltage is the theoretical operating minimum for the power supply, and is calculated as 85% of 24 volts.
Page 199 Appendix B: Worksheets The power type reflects the type of power supplied to the NAC terminals at minimum voltage. The current draw of notification appliances can vary substantially with the type of power supplied: full-wave rectified (VFWR) or regulated and filtered DC (R&F). It is important to know the power type at minimum terminal voltage.
Page 200: Worksheet Method
Use this worksheet only if all the appliances are regulated. That is, they must have a minimum operating voltage of 16 V. For other appliances, use the “Equation method.” NAC cable length NAC1 NAC2 NAC3 NAC4 Total operating current [1] Load factor (FX-64 panel) × 0.20 0.20 0.20 0.20 Load factor (FX-1000 panel) 0.24 0.24...
Page 201: Equation Method
Appendix B: Worksheets Equation method Appliance operating voltage and current Regulated notification appliances have an operating range from 16 V to 33 V. Use 16 V as the minimum appliance voltage when using regulated notification appliances. When using special application notification appliances, refer to the installation sheets to determine the minimum appliance voltage required.
Page 202 Vs = source voltage Itot = total current (from above) K = load factor FX-64 panel: For the power supply, Vs is 20.4 V and K is 0.20 V/A. FX-1000 panel: For the power supply, Vs is 20.4 V and K is 0.24 V/A 3.
Page 203 = (1,000.0 ft.) / 2 = 500.0 ft. So the maximum wire run for this NAC would be 500 ft. (rounding down for safety). NAC maximum wire run quick reference tables Table 49: FX-64 panel Current 12 AWG 14 AWG...
Page 204: Notification Appliance Voltage Drop Calculation Worksheet
Appendix B: Worksheets Notification appliance voltage drop calculation worksheet Use the notification appliance voltage drop calculation worksheet to calculate the voltage drop of your NAC circuits over the distance of your wire. NAC 1 voltage drop calculations Circuit length Total circuit Wire resistance per Voltage current [2]...
Page 205 Appendix B: Worksheets [1] Use the manufacturer’s published wire resistance expressed in ohms per foot. For typical values, see Table 48 on page 191. [2] Use the Maximum operating current at worst-case VFWR from the installation or catalog sheet of each device.
Page 206: Rzi16-2Rs 24V In Riser Maximum Wire Run Calculation
Use the APS/BPS notification appliance circuit calculation in the Remote Booster Power Supply Manual (P/N 3100485-EN) to calculate maximum wire run distance for RZI16-2RS NAC circuits. RZI16-2RS 24V IN cable length FX-64 AUX1 FX-1000 AUX1 APS/BPS Maximum RZI16-2RS alarm current 0.85...
Page 207: Device Loop Maximum Wire Length Worksheet
Please contact your distributor for loop wire distances for devices on an end-loaded loop. Note: When using the tables to calculate a wire length for the FX-64 panel, do not exceed a total of 64 device addresses (any combination of detectors and modules).
Page 208 Appendix B: Worksheets Figure 56: Device circuit path diagram 10 ft (3 m) 200 ft (61 m) FACP 30 ft (9 m) 200 ft 100 ft (61 m) (30 m) 100 ft 1000 ft (30 m) (305 m) Table 52: Twisted shielded and nontwisted shielded (evenly distributed shielded) Number of Number of Maximum allowable wire distance using Twisted shielded and nontwisted...
Page 209 Appendix B: Worksheets Table 53: Twisted shielded and nontwisted shielded (end loaded shielded) Number of Number of Maximum allowable wire distance using Twisted shielded and nontwisted detectors modules (1 shielded wire pairs (end loaded shielded) or 2 18 AWG 16 AWG 14 AWG channel) 1 to 25...
Page 210 Appendix B: Worksheets Table 55: Twisted non-shielded and nontwisted non-shielded (end loaded non-shielded) Number of Number of Maximum allowable wire distance using Twisted non-shielded and detectors modules (1 nontwisted non-shielded wire pairs or 2 (end loaded non-shielded) channel) 18 AWG 16 AWG 14 AWG 1 to 25...
Page 211: Correlation Groups Worksheet
Appendix B: Worksheets Correlation groups worksheet The correlation groups worksheet is used to document the devices, zones, and NACs that are assigned to each group. Group Device Zone number numbers numbers numbers P/N 3102352-EN • REV 005 • ISS 28DEC18...
Page 212: Device Settings Worksheet
Appendix B: Worksheets Device settings worksheet The device settings worksheet is used to document the configuration and settings for each of the devices on the system. Note: For default settings, see “Factory default settings” on page 41. Type of device ☐...
Page 213 Appendix B: Worksheets ☐ Monitor latching ☐ Auto sync output Silenceable ☐ Heat + CO alarm ☐ Genesis-audible silence ☐ Auto sync output ☐ Heat + CO monitor latching ☐ Supervised nonsilenceable ☐ Unlatch outputs ☐ Heat + CO monitor nonlatching ☐ City tie ☐...
Page 214 Appendix B: Worksheets Active Print ☐ Yes ☐ No ☐ Yes ☐ No Dialer ☐ Acct 1 ☐ Acct 1 & 2 ☐ Acct 2 ☐ None Code (four-digit coded output) Trouble Print ☐ Yes ☐ No ☐ Yes ☐ No Dialer ☐...
Page 215: Loop Worksheet
Appendix B: Worksheets Test Print ☐ Yes ☐ No ☐ Yes ☐ No Dialer ☐ Acct 1 ☐ Acct 1 & 2 ☐ Acct 2 ☐ None Code (four-digit coded output) Loop worksheet The loop worksheet is used to document your loop settings. Note: For default settings, see “Factory default settings”...
Page 216: Panel Configuration Worksheet
Appendix B: Worksheets Panel configuration worksheet The panel configuration worksheet is used to document the configuration and settings of the system programming options. Note: For default settings, see “Factory default settings” on page 41. Class ☐ Class B ☐ Class A Type ☐...
Page 217 Appendix B: Worksheets Annunciator Class ☐ Class B ☐ Class A Type ☐ Off ☐ LCD-C ☐ LCD ☐ LED ☐ Graphic Expanders ☐ None ☐ 1 or 2 Label Line 1 Label Line 2 Event notification Trouble Print ☐ Yes ☐...
Page 218 Appendix B: Worksheets Line 1 dialing ☐ Tone ☐ Pulse Line 1 cut Line 1 cut duration / supervision (10 – 120) Line 2 dialing ☐ Tone ☐ Pulse Line 2 cut Line 2 cut duration / supervision (10 – 120) Tone wait ☐...
Page 219: Panel Operation Worksheet
Appendix B: Worksheets Panel operation worksheet The panel operation worksheet is used to document the configuration and settings of your control panel programming options. Note: For default settings, see “Factory default settings” on page 41. Language ☐ English ☐ French ☐...
Page 220: Zone Settings Worksheet
Appendix B: Worksheets Zone settings worksheet The zone settings worksheet is used to document the configuration and settings for each of the zones on the system. Note: Print a copy of this worksheet for each zone in the system. Note: For default settings, see “Factory default settings”...
Page 221 Appendix B: Worksheets Prealarm Print ☐ Yes ☐ No NET (1-8) ☐ Yes ☐ No Dialer ☐ Acct 1 ☐ Acct 1 & 2 ☐ Acct 2 ☐ None Code (four-digit coded output) Alarm verify Print ☐ Yes ☐ No NET (1-8) ☐...
Page 222 Appendix B: Worksheets P/N 3102352-EN • REV 005 • ISS 28DEC18...
Page 223: Appendix C Applications
Appendix C Applications Summary This appendix has sounder base applications that can be used with compatible sounder bases. Content Local alarm signaling applications 214 What is local alarm signaling? 214 Programming sounder bases for a local alarm signaling application 215 Programming sounder bases for a T3T4 Fire Alarm/CO emergency signaling application per NFPA 720, UL 2017 216 Correlated zone and system alarm signaling applications 218...
Page 224: Local Alarm Signaling Applications
Appendix C: Applications Local alarm signaling applications What is local alarm signaling? In local alarm signaling applications, an audible detector base (sounder base) automatically sounds an alarm signal when its detector is activated. All other sounder bases on the same riser remain silent until their detectors are activated.
Page 225: Programming Sounder Bases For A Local Alarm Signaling Application
Appendix C: Applications Programming sounder bases for a local alarm signaling application Note: For PD, PHD, and PDD detectors configured as “Supervisory Non-latching” device type or for PCD detectors (smoke element) configured as “Smoke Supervisory Non-latching” device type, if the base is Relay/Sounder, then the follow type option cannot be configured as “Head.” The follow type in this case should be set to “Alarm.”...
Page 226: Programming Sounder Bases For A T3T4 Fire Alarm/Co Emergency Signaling Application Per Nfpa 720, Ul 2017
Appendix C: Applications Programming sounder bases for a T3T4 Fire Alarm/CO emergency signaling application per NFPA 720, UL 2017 Typical wiring for a T3T4 Fire/CO alarm application The 24 VDC riser that supplies power to the sounder bases is supervised using a FX-NAC Analog NAC Module.
Page 227 Appendix C: Applications • The FX-NAC is used to supervise the 24 VDC riser only. When using the FX-NAC as a riser supervision module, it cannot be used for notification appliances or included in a correlation group. • The following procedure must be done using the Configuration Utility (CU). To program the sounder base for T3T4 Fire/CO: 1.
Page 228: Correlated Zone And System Alarm Signaling Applications
Appendix C: Applications • CO alarm, CO supervisory, and CO monitor signals do not activate TC3 fire evacuation signals. Correlated zone and system alarm signaling applications Correlated signaling applications are those in which sounder bases are triggered by associated correlation groups. This includes zone alarm and system alarm signaling applications. Detectors are added to the input side, and polarity reversal modules are added to the output side of one or more correlation groups.
Page 229 Appendix C: Applications Typical wiring for zone alarm signaling The 24 VDC riser that supplies power to the sounder bases is supervised using a FX-NAC Analog NAC Module. Figure 59: Typical wiring for a zone alarm signaling application (1) First detector (sounder base) (7) AUX riser 24 VDC −...
Page 230: System Alarm Signaling Applications
Appendix C: Applications Message Line 1: Description of the installed detector location Message Line 2: ZONE_01 Base Type: Sounder Follow: None, Alarm, Alm + Vrfy, or Alm + PreAlm 3. Configure the RLY module as follows: Device Type: Relay Silence Message Line 1: ZONE_1 Message Line 2: SOUNDERS Note:...
Page 231 Appendix C: Applications a FX-NAC Analog NAC Module. The sounder bases, once activated, continue to sound an alarm signal until: • Smoke is cleared from the active detectors and the control panel is reset. • Signal Silence is pressed. • The control panel’s Auto Signal Silence timer expires, if programmed.
Page 232: Programming Sounder Bases For A Local Alarm Signaling Application
Appendix C: Applications Programming sounder bases for a local alarm signaling application Note: For PD, PHD, and PDD detectors configured as “Supervisory Non-latching” device type or for PCD detectors (smoke element) configured as “Smoke Supervisory Non-latching” device type, if the base is Relay/Sounder, then the follow type option cannot be configured as “Head.” The follow type in this case should be set to “Alarm.”...
Page 233: In-Suite Signal Silence Applications
Appendix C: Applications In-suite signal silence applications This section provides high level instructions for creating an in-suite signal silence application based on the use of correlation groups. Additional background material and detailed instructions are also available. See: • “What is in-suite signal silence?” on page 38 •...
Page 234 Appendix C: Applications • Audible devices not located within-suites or dwelling units Figure 61 on page 223 illustrates these requirements in a sample residential occupancy building with five floors. The illustration shows that: • Separate audible signal circuits are provided for each floor •...
Page 235 Appendix C: Applications Floor 2 Correlation Input Output No in-suite signal silence Floor 2 dwelling and hallway inputs Floor 2 dwelling and hallway audibles Floor 3 Correlation Input Output No in-suite signal silence Floor 3 dwelling and hallway inputs Floor 3 dwelling and hallway audibles Floor 4 Correlation Input Output...
Page 236 Appendix C: Applications Notes • Set the alarm activation count for this correlation to 1. • For this correlation only, enable in-suite signal silence. In-Suite Signal Silence Correlation Input Output Occupant and hallway inputs on all floors Occupant sounders on all floors How this application works This application silences the audible alarm signals inside dwelling units, except on the floor of the alarm.
Page 237: Index
Index auxiliary current, 180 fire alarm system, vii output wiring, 20 fail delay, 34, 108 failure delay, 41 power, 126 power wiring, 6 backbox voltage, 6, 107 installation, 2 account ID, 101 panel, vii ACK/Panel Silence, 128, 143 wire routing, 5 button, 128 backlight, 122 activating...
Page 238 Index Class B circuit specifications, 18 passwords, 41 cleaning detector, 170 programming options, 59 clearing history, 63 settings, 59 deleting devices, 77 device, 41, 99, 154 detector cleaning, 170 network transmitter, 103, 104 device coder, 95 activation, 145 comm retries report, 165 communication, 165 common trouble, 116 correlation groups, 80, 87...
Page 239 Index dirty percentage, 162 disable factory default settings, 41 devices, 149 fast ground check, 170 dialers, 154 fast group, 85 events, 151 fire drill, 155 LED, 126, 149, 154 firmware, 63 loop events, 152 firmware revision, 164 NACs, 154 firmware update utility, 63 network card, 154 flash device LED, 171 zones, 150...
Page 240 Index annunciators, 98 programming, 95 device, 87 restoring, 146 devices, 65, 70, 73 silencing, 144 NACs, 95 type, 95 zones, 65, 70, 73, 93 wiring, 10, 26 lamp test, 145, 175 wiring location, 11 button, 145 NET options, 69 Lamp Test button, 128 network, 41, 99, 104 language, 41, 108 cable, 28...
Page 241 Index passwords, 58 remote photo detector, 52 annunciator, 18, 98, 180 ping, 107 annunciator wiring, 26 power communications, 107 LED, 126 disconnect, 154 type, 188 disconnect LED, 126 power supply values, 188 drill, 53 power-limited wiring, 5 signal silence, 54 prealarm, 87 supervising station, vii preventive maintenance schedule, 170...
Page 242 Index subnet mask, 41, 106 24V IN maximum wire run calculation worksheet, suite signal silence, 41, 144 supervisory contact, 180 LED, 126 surface mount panel installation, 2 SA-232 swinger shutdown, 41, 99 terminals, 24 Symbol button, 130 wiring, 24 system SA-CLA wiring, 26 alarm signaling application, 218, 220 SA-DACT, 174...
Page 243 Index Up Arrow button, 128, 129 RPM module, 30 uploading, 64 SA-232, 24 user defined keys, 60 SA-DACT, 21 worksheet method, 190 worksheets battery calculation, 184 view correlation groups, 201 event details, 125, 142 device loop maximum wire length, 197 reports, 160 device settings, 202 voltage drop, 188...
Page 244 Index P/N 3102352-EN • REV 005 • ISS 28DEC18...

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Chapter 1 Installation and Wiring

Chapter 2 Front Panel Programming

Chapter 3 System Operation

Chapter 4 Reports

Chapter 5 Diagnostics, Maintenance, and Testing

Appendix B Worksheets

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