PN: 53040:A ECN 07-072 Deluge • Preaction Control MRP-2001 & MRP-2001E Installation, Operation and Programming Manual Document 4/16/07 #53040 Revision: A
Fire Alarm System Limitations While a fire alarm system may lower insurance rates, it is not a substitute for fire insurance! An automatic fire alarm system–typically made up of smoke detectors, heat detectors, manual pull stations, audible warning devices, and a fire alarm control panel with remote notification capability–can provide early warning of a developing fire. Such a system, however, does not assure protection against property damage or loss of life resulting from a fire.
Installation Precautions Adherence to the following will aid in problem-free installation with long-term reliability: WARNING - Several different sources of power can be connected to the fire alarm control panel. Disconnect all sources of power before servicing. Control unit and associated equipment may be damaged by removing and/or inserting cards, modules, or interconnecting cables while the unit is energized.
Table of Contents Table of Contents SECTION 1: Product Description .........................................................................................................................11 1.1: Product Features ..........................................................................................................................................11 1.2: Specifications ........................................................................................................................................
Table of Contents 3.2: Initial Power-up ...........................................................................................................................................47 3.3: Programming Screens Description..............................................................................................................47 3.4: Programming and Passwords ......................................................................................................................48 3.
Table of Contents 4.1.4: Reset ..................................................................................................................................................85 4.2: Indicators .....................................................................................................................................................86 4.3: Normal Operation........................................................................................................................................86 4.
Table of Contents B.6: Template 12: Single Hazard - 2 Zones Cross-Zoned With All Active ....................................................114 B.7: Template 13: Single Hazard - Dual Zone .................................................................................................115 APPENDIX C: NFPA Standard-Specific Requirements ...................................................................................116 C.1: NFPA 72 Auxiliary Fire Alarm System ..............................................
Notes 8 MRP-2001 & MRP-2001E PN 53040:A 4/16/2007
It is imperative that the installer understand the requirements of the Authority Having Jurisdiction (AHJ) and be familiar with the standards set forth by the following regulatory agencies: • Underwriters Laboratories Standards • NFPA 72 National Fire Alarm Code • CAN/ULC - S527-99 Standard for Control Units for Fire Alarm Systems Before proceeding, the installer should be familiar with the following documents.
+ polarized strobe 4 3 Power Supply Connector J15 2 Nonresettable or Resettable Power 1 Jumper selectable by JP31, 24 VDC filtered, power-limited, Class 2 (0.500 amps maximum) Supervise with a power supervision relay EOLR-1. NonresettablePower suitable for powering annunciators, Resettable Power suitable for powering smoke detectors. Configure TB9, Terminals 1 & 2 as Resettable or Nonresettable Power. • Resettable Power - jumper JP31 pins 2 & 3.
Product Features Product Description Product Description SECTION 1 The MRP-2001 is a six zone FACP for single and dual hazard deluge and preaction applications. The FACP provides reliable fire detection, signaling and protection for commercial, industrial and institutional buildings requiring water-based releasing.
Product Description Product Features • Control Buttons ACK (Acknowledge) Alarm Silence System Reset/Lamp Test Drill • Indicators Fire Alarm Supervisory Trouble AC Power Alarm Silence Discharge • Piezo sounder for alarm, trouble and supervisory • 24 volt operation • Low AC voltage sense • Outputs Programmable for: Releasing Solenoids NACs programmable for: Silence Inhibit Auto-Silence Strobe Synchronization (System Sensor, Wheelock, Gentex, Faraday, Amseco) Selective Silen
Specifications Product Description 1.2 Specifications AC Power MRP-2001: 120 VAC, 60 Hz, 3.66 amps MRP-2001E: 240 VAC, 50 Hz, 2.085 amps Wire size: minimum #14 AWG (2.0 mm2) with 600V insulation Supervised, nonpower-limited Battery (sealed lead acid only) - J12 Maximum Charging Circuit - Normal Flat Charge: 27.6 VDC @ 1.4 amp Supervised, nonpower-limited Maximum Charger Capacity: 26 Amp Hour battery (two 18 Amp Hour batteries can be housed in the FACP cabinet.
Product Description Controls and Indicators Special Application Resettable or Nonresettable Power - TB9 Operating Voltage: Nominal 24 VDC Maximum Available Current: 500 mA (see note 1) Power-limited Circuitry Jumper selectable by JP31 for resettable or nonresettable power: Jumper pins 1 & 2 on JP31 for nonresettable power Jumper pins 2 & 3 on JP31 for resettable power Refer to the Device Compatibility Document for compatible listed devices 1.
Components Product Description Local Piezo Sounder A piezo sounder provides separate and distinct pulse rates for alarm, trouble and supervisory conditions.
Product Description Optional Modules and Accessories 1.5 Optional Modules and Accessories CAC-5X Class A Converter Module The CAC-5X Module can be used to convert the Style B (Class B) Initiating Device Circuits to Style D (Class A) and Style Y (Class B) Output Circuits to Style Z (Class A). The modules connect to J2 and J7 on the FACP main circuit board. Note that two Class A Converter modules are required to convert all six Output Circuits and four Initiating Device Circuits.
Backbox Mounting SECTION 2 Installation Installation The cabinet can be surface mounted or semi-flush mounted. The door is removable during the installation period by opening and lifting it off the hinges. The cabinet mounts using two key slots at the top of the backbox and two additional securing holes located at the bottom. Carefully unpack the system and check for shipping damage.
Installation Backbox Mounting Semi-Flush Mounting Do not recess box more than 3.875” into wall to avoid covering venting holes on top of box. Hinge Slot for optional Dress Panel Mounting slots for optional Trim Ring Semi-Flush mounting hole 9050UDencl.cdr Hinge Slot for optional Dress Panel Figure 2.
Installation 9050udcab.cdr Backbox Mounting Figure 2.
Installation Operating Power 2.2 Operating Power WARNING: Several different sources of power can be connected to this panel. Disconnect all sources of power before servicing. The panel and associated equipment may be damaged by removing and/or inserting cards, modules or interconnecting cables while this unit is energized. Primary Power Source (AC) and Earth Ground Connections AC power connections are made inside the control panel cabinet. The primary power source for the panel is 120 VAC, 60 Hz, 3.
Input Circuits Installation 2.3 Input Circuits The MRP-2001 has six programmable IDCs (Initiating Device Circuits). Each circuit is compatible with System Sensor’s i3 smoke detectors which generate a maintenance signal when the detector becomes dirty and a separate supervisory ‘freeze’ signal when ambient temperature falls below the detector rating of approximately 45oF. The maximum loop resistance limit for each IDC is 100 ohms. The maximum number of detectors per zone is 25.
Installation Input Circuits Combination Waterflow/Supervisory Zone A combination Waterflow/Supervisory circuit allows an FACP to distinguish between an Alarm switch (waterflow device) and a Supervisory switch (tamper) installed on the same circuit. Any circuit can be programmed as a Combo Type zone. The following figure illustrates the wiring of Zone 2 as a Style B (Class B) Waterflow/Supervisory circuit. Class B Initiating Device Circuits (supervised and power-limited) 4.
Output Circuits Installation 2.4 Output Circuits 2.4.1 Outputs/Notification Appliance/Releasing Circuits Each of the four Style Y (Class B) Notification Appliance Circuits can output a maximum of 3.0 amps of current. Total current drawn from these as well as other DC power outputs cannot exceed 7.0 amps (refer to battery calculations section). Each circuit is supervised, power-limited and provides special application power.
Installation Output Circuits 2.4.2 Special Application DC Power Output Connections Special Application Resettable and Nonresettable 24 VDC power is available on the MRP-2001 control panel.
Power-limited Wiring Requirements Installation 2.5 Power-limited Wiring Requirements Power-limited and nonpower-limited circuit wiring must remain separated in the cabinet. All power-limited circuit wiring must remain at least 0.25” (6.35 mm) away from any nonpowerlimited circuit wiring. Furthermore, all power-limited and nonpower-limited circuit wiring must enter and exit the cabinet through different knockouts and/or conduits. A typical wiring diagram is illustrated below.
Installation Installation of Optional Modules 2.6 Installation of Optional Modules CAUTION: Remove all power (AC and DC) before installing or removing modules or wiring. 2.6.1 CAC-5X Class A Converter Module 2.6.1.1 Installation The CAC-5X Module can be used to convert five Style B (Class B) Initiating Device Circuits to Style D (Class A) and the two Style Y (Class B) Notification Appliance Circuits to Style Z (Class A).
Installation of Optional Modules Installation 2.6.1.2 Wiring NACs and IDCs for Class A Wire the Style Z (Class A) Notification Appliance Circuits using TB5 of the FACP main circuit board and TB2 of the CAC-5X module. Wire the Style D (Class A) Initiating Device Circuits using TB4 of the FACP main circuit board and TB1 of the CAC-5X. Note that the wiring will be identical when using TB7 NAC and TB6 IDC of the FACP. Make certain to observe polarity when connecting the devices to the circuits.
Installation Installation of Optional Modules 2.6.2 4XTMF Municipal Box Transmitter Option Module The 4XTMF module can be plugged into connectors J4 and J5 on the main circuit board. The following steps must be followed when installing the 4XTMF module: 1. Remove all power (AC and DC) from the FACP before installing the modules 2. Cut jumper JP30 on the main circuit board to allow the control panel to supervise the placement of the 4XTMF option module 3.
Installation of Optional Modules Installation 2.6.2.1 4XTMF Transmitter Module Installation The 4XTMF provides a supervised output for a local energy municipal box transmitter in addition to alarm and trouble reverse polarity. A jumper option allows the reverse polarity circuit to open with a system trouble condition if no alarm condition exists. A disable switch allows disabling of the transmitter output during testing to prevent accidental calling of the monitoring service.
Installation ANN-BUS Devices 2.7 ANN-BUS Devices WARNING! Disconnect all sources of power (AC and DC) before installing or removing any modules or wiring. A variety of optional devices can be connected to the FACP ANN-BUS communication circuit.
ANN-BUS Devices Installation After calculating the total worst case current draw, Table 2.1 specifies the maximum distance the modules can be located from the FACP on a single wire run. The table ensures 6.0 volts of line drop maximum. In general, the wire length is limited by resistance, but for heavier wire gauges, capacitance is the limiting factor. These cases are marked in the chart with an asterisk (*). Maximum length can never be more than 6,000 feet (1,800 m), regardless of gauge used.
Installation ANN-BUS Devices Wiring Distance Calculation Example: Suppose a system is configured with the following ANN-BUS modules: • 2 ANN-80 Remote LCD Annunciators • 1 ANN-S/PG Serial/Parallel Printer Interface Module • 1 ANN-I/O LED Driver Module The total worst case current is calculated as follows: ANN-80 Current Draw = 2 X 0.040 amps = 0.080 amps ANN-S/PG Current Draw = 1 X.0.040 amps = 0.040 amps ANN-I/O Current Draw = 1 X.0.200 amps = 0.200 amps Total Worst Case Current Draw = 0.
ANN-BUS Devices Installation 2.7.1.3 Powering ANN-BUS Devices from Auxiliary Power Supply Figure 2.16 illustrates the powering of ANN-BUS devices from an auxiliary power supply such as the FCPS-24FS6/8, when the maximum number of ANN-BUS devices exceeds the ANNBUS power requirements. Cut Ground Fault Detection jumper JP1 (FACP monitors for ground faults) TB3 FACP ANN-BUS -24 VDC ANN-80 +24 VDC ann80toFCPSrp2001.cdr ANN-BUS and power wiring are supervised and power-limited FCPS-24FS6/8 Figure 2.
Installation ANN-BUS Devices 2.7.3 ANN-80 Remote LCD Annunciator The ANN-80 LCD Annunciator is a compact, 80 character, backlit LCD remote fire annunciator which mimics the FACP display. It also provides system status indicators for AC Power, Alarm, Trouble, Supervisory and Alarm Silenced conditions. Communication between the ANN-80 and FACP is accomplished over a two wire serial interface employing the ANN-BUS communication format.
ANN-BUS Devices Installation 2.7.5.3 Wiring ANN-80 to FACP The following steps can be used as a guide to wire the annunciator. Make certain all power has been removed from the FACP prior to annunciator installation. 1. Route wires from hole in backplate, through wiring channel and then to ANN-80 terminal block TB1 wiring channel wires TB1 2. Remove appropriate amount of wire insulation 3. Connect the wiring from the FACP ANN-BUS to annunciator TB1 terminals 3 (A) & 4 (B).
Installation ANN-BUS Devices FACP TB3 4 3 2 1 ann80 torp2001.cdr ANN-BUS and power wiring are supervised and power-limited ANN-80 Figure 2.17 ANN-80 Wiring to FACP The following table shows the ANN-80 connections to the FACP.
ANN-BUS Devices Installation 2.7.6 ANN-S/PG Serial/Parallel Printer Interface Installation The ANN-S/PG Serial/Parallel Interface module allows the ancillary connection of a serial or parallel printer to the FACP for a real-time log of system events, detector status reports and event history. Note that either a serial or parallel printer may be installed, not both. Proceed with the installation as described in the following: 1. Ensure that all power (AC and DC) has been removed from the FACP. 2.
Installation ANN-BUS Devices 2.7.6.2.1 Connecting PRN-6 Printer Remote printers require a primary AC power source. If required for the fire alarm system configuration (for example, a Proprietary Fire Alarm System), a remote printer requires a secondary power source (battery backup). Since a secondary power source is not provided as a standard feature, a separate UL-listed Uninterruptible Power Supply (UPS) should be used.
ANN-BUS Devices Installation 2.7.7 ANN-I/O LED Driver Module The ANN-I/O is an LED driver module that can be used in a wide variety of applications, including as an interface with most customized graphic annunciators. The ANN-I/O can drive up to 40 LEDs. The following sections describe hardware installation. Refer to the section titled "ANNBUS" on page 71 for programming information. 2.7.7.1 ANN-I/O Board Layout Figure 2.
Installation ANN-BUS Devices TB3 FACP ANN-I/O Module ann-IOtorp2001.cdr 2.7.7.3 ANN-I/O Connection to FACP The ANN-I/O connects to the FACP via the ANN-BUS as illustrated in Figure 2.20. After the ANN-I/O is connected to the panel, it must be added to the system via FACP programming. ANN-BUS and power wiring are supervised and power-limited Figure 2.
ANN-BUS Devices Installation 2.7.7.4 ANN-I/O Module LED Wiring There are four 12-pin connectors on the ANN-I/O module for connecting LEDs. Each set of 10 LEDs get their power from Pin 11 of the corresponding connector. Internal resistors are sized so that there is approximately 10 mA of current for each LED. No series resistors are required. LED outputs are mapped to output circuits. Refer to the section titled "ANN-I/O LED Zone Assignments" on page 75 of this manual.
Installation ANN-BUS Devices 2.7.8.1 ANN-LED Board Layout Figure 2.22 illustrates the ANN-LED board showing locations of screw terminals for connection to the FACP and the DIP switches for selecting the ANN-BUS ID number. ANN-BUS (ID#) Address DIP switch ANN-BUS Connector Figure 2.22 ANN-LED Board Layout 2.7.8.2 Specifications • Max. ANN-BUS Voltage: 24 VDC • Max.
ANN-BUS Devices Installation 2.7.8.4 ANN-LED Connection to FACP Figure 2.23 illustrates the ANN-LED board showing locations of screw terminals for connection to the FACP and the DIP switches for selecting the ANN-BUS ID number. FACP ANN-LED -24 VDC +24 VDC ANN-BUS Figure 2.
Installation ANN-BUS Devices 2.7.9 ANN-RLY Relay Module The ANN-RLY relay module provides 10 programmable Form-C relays when used with a compatible FACP. 2.7.9.1 ANN-RLY Board Layout Figure 2.22 illustrates the ANN-RLY board showing locations of screw terminals for connection to the FACP and the DIP switches for selecting the ANN-BUS ID number. ANN-BUS (ID#) Address DIP switch ANN-BUS Connector Figure 2.24 ANN-RLY Board Layout 2.7.9.2 Specifications • Operating Voltage: 24 VDC • Max.
ANN-BUS Devices Installation 2.7.9.4 ANN-RLY Connection to FACP Figure 2.23 illustrates the ANN-RLY board showing locations of screw terminals for connection to the FACP and the DIP switches for selecting the ANN-BUS ID number. FACP ANN-RLY -24 VDC +24 VDC ANN-BUS Figure 2.
Programming User Programming Programming SECTION 3 NOTICE TO USERS, INSTALLERS, AUTHORITIES HAVING JURISDICTION AND OTHER INVOLVED PARTIES This product incorporates field-programmable software. In order for the product to comply with the requirements in the Standard for Control Units and Accessories for Fire Alarm Systems, UL 864, certain programming features or options must be limited to specific values or not used at all as indicated below.
Initial Power-up Programming Pressing 2 will select user Programming Mode which may only be accomplished by an authorized person. After pressing 2, a screen will prompt for a password. After entering the correct password, the user may select from a list of programming options. Exit Programming and Read Status Mode The programmer can exit any mode by repeatedly pressing the keypad ESC (Escape) key until the display reads System All Normal.
Programming Programming and Passwords 3.4 Programming and Passwords See Page There are two factory set programming passwords which will access the Programming screens as indicated in the following examples. From either of the screens, access to specific system and device features or programming may be obtained. All user programming entries are stored in nonvolatile memory. The factory set passwords can be changed by the user as described in "Password Change" on page 80.
Master Programming Level Programming 3.5 Master Programming Level When the Master Program Level password is entered, the control panel will enter user Programming mode. In this mode, the piezo sounder remains off, the trouble relay is activated and the system Trouble indicator flashes until Programming mode is exited.
Programming Master Programming Level 3.5.1 FACP CONFIG (Application Templates) For a detailed description of each Template, refer to "FACP Configuration Templates" on page 108. The FACP Configuration option allows the user to program the FACP with one of seven factory preprogrammed templates or one custom template which can be programmed by the user. The templates have been provided to allow the user to quickly program the panel with typical jobsite configurations.
Master Programming Level Programming To change the programming for the displayed zone, press the keyboard ‘down’ arrow key to view the Edit Zone screens. The following examples show the editing of Input Zone 1: INPUT ZONE 1 1=ENABLED YES 2=TYPE PULL STATION 3=OUTPUT CIRCUIT MAP Edit Input Zone Screen #2 INPUT ZONE 1 1=NOUN/ADJECTIVE 2=DESCRIPTION ******************** Edit Input Zone Screen #3 Enable/Disable Zone To Enable or Disable the zone, press the 1 key while viewing the Edit Input Zone Screen #2.
Programming Master Programming Level Pressing the down arrow key displays additional zone types as indicated in the following table. Table 3.
Master Programming Level Programming Output Circuit MAP Output Mapping (per input zone) allows the programmer/operator to assign the Output Circuits that will be activated when a particular Input Zone or cross-zoned releasing group goes active. Pressing 3 for Output Circuit Map while viewing Edit Input Zone Screen #2 will display screens which show the Output Circuits programmed to activate when the selected Input Zone (or cross-zoned releasing group) is activated.
Programming Master Programming Level Pressing 1 while viewing the Noun/Adjective Screen will cause the following screen(s) to be displayed. Note that the keyboard down arrow key must be pressed to see all the Adjective screens. Press the number corresponding to the adjective that is to be used as a descriptor for the location of the detector currently being programmed. When an adjective has been selected, it will appear at the top of the display as indicated by the asterisks.
Master Programming Level Programming Pressing 2 while viewing the Noun/Adjective Screen will cause the following screen(s) to be displayed. Note that the keyboard down arrow key must be pressed to see all the Noun screens. Press the number corresponding to the noun that is to be used as a descriptor for the location of the detector currently being programmed. When a noun has been selected, it will appear at the top of the display as indicated by the asterisks.
Programming Master Programming Level A maximum of 20 characters (including spaces) can be entered. To enter alphanumeric characters from the keypad, repeatedly press the appropriate key until the desired character is displayed in the first position. For example, to enter the letter B, press the 2 (ABC) key three times to toggle through the characters 1, A and B. Press the right arrow key to move the cursor one position to the right and repeat the process to enter the next character.
Master Programming Level Programming 3.5.3 Output Circuits The options for the Output Circuits on the control panel main circuit board can be configured by pressing 2 while viewing Programming Screen #2.
Programming Master Programming Level 3.5.3.1 Enabled Pressing 1 while viewing Output Screen #1 will cause the display to change to Enabled No. This will prevent the selected main circuit board NAC from activating its devices. Each press of the 1 key will cause the display to toggle between Enabled Yes and Enabled No. Note that if a circuit is disabled, a trouble will be logged on the FACP until the circuit is enabled.
Master Programming Level Programming 3.5.3.2.2 Release Stage NAC If Release Stage NAC is selected as the Output Type, the following subscreen will be displayed: RELEASE STAGES 1=RELEASE 1 ONLY 2=RELEASE 2 ONLY An NAC can be used to signal the two stages of a release operation. This screen allows the programmer to select the NAC output that will indicate the release stages for Release Circuit 1 or Release Circuit 2. For a description of this feature, refer to "Release Stages" on page 91.
Programming Master Programming Level 3.5.3.4 Auto Silence The Auto Silence feature, when enabled, automatically silences all main circuit board silenceable notification appliances after a programmed length of time. To enable this feature and program the time delay before Auto Silence activation, press 2 while viewing Output Screen #2.
Master Programming Level Programming 3.5.3.6 Coding The Coding feature allows the programmer to select the type of output that the main circuit board outputs will generate when activated.
Programming Master Programming Level The programmer can select the notification appliance output coding by pressing the number corresponding to the desired output.
Master Programming Level Programming 3.5.4 Cross Input Zones An application may require that two or more input zones become active at the same time before a particular releasing output activates. This is referred to as cross-zoning. For example, an installer may want four particular zones to become active at the same time before a releasing circuit is activated.
Programming Master Programming Level In this example, since the cross-zoning for Release Circuit 1 (Zone 1) is being displayed, Yes is shown for Zone 1 which is cross-zoned with Zone 2. Zone 2 displays Yes since it is cross-zoned with Zone 1. The remaining zones display NO or N/A for no cross-zoning to Zone 1. By pressing the number key corresponding to the desired zone, the display for that zone will toggle between Yes and No indicating cross-zoning to Zone 1 or no cross-zoning to Zone 1. 3.5.
Master Programming Level Programming Pressing 3 for System Setup, while viewing Programming Screen #2, will cause the following screens to be displayed: SYSTEM SETUP 1=FUTURE USE 2=TIMERS 3=BANNER PROGRAMMING 1=CROSS INPUT ZONES 2=ON-BOARD RELAYS 3=SYSTEM SETUP System Setup Screen #1 Programming Screen #2 SYSTEM SETUP 1=TIME-DATE 2=TROUBLE REMIND 3=CHARGR DISABLE NO NO System Setup Screen #2 SYSTEM SETUP 1=ABORT TYPE 2=TIMERS 3=BANNER 3.5.6.
Programming Master Programming Level 3.5.6.1.1 Soak 1 or Soak 2 The factory default setting for Soak Time is 10 minutes. To select a Soak Time delay of 10 to 30 minutes, press 1 for Soak 1 (Release Circuit 1) or 2 for Soak 2 (Release Circuit 2) while viewing Timer Screen #1.
Master Programming Level Programming 3.5.6.1.3 AC Loss Delay The reporting of a loss of AC power can be delayed by programming the length of the desired delay. Press 1 while viewing Timer Screen #2 to display the following: AC LOSS DELAY RANGE 00-24 HOURS TIMER 1=AC LOSS DLAY 2 HR Timer Screen #2 SYSTEM SETUP 1=ABORT TYPE 2=TIMERS 3=BANNER System Setup Screen #1 AC Loss Delay Screen #1 A flashing cursor will appear in the lower left corner of the display. The factory default setting is 02 hours.
Programming Master Programming Level Pressing 2 while viewing the Select Banner Screen will display the following screen: USER BANNER-LINE 1 PRESS ENTER IF OK User Defined Banner Screen This screen allows the programmer to enter a custom banner. A flashing cursor will appear in the bottom left corner of the display. A maximum of 20 characters (including spaces) can be entered into the screen. After entering up to 20 characters in the screen, press Enter to store the entry.
Master Programming Level Programming 3.5.6.3.1 Time To change the time, press 1 while viewing the Time-Date Screen. The following screen will be displayed: ENTER TIME AS 12HRS : 10:00 1=AM 2=PM Time Screen A flashing cursor is located toward the top left of the display. Below the cursor is the current time. To change the time, enter the two-digit hours followed by the two-digit minutes. The cursor will move one position to the right each time a digit is entered.
Programming Master Programming Level 3.5.6.3.
Master Programming Level Programming 3.5.7 ANN-BUS Optional ANN-BUS devices available for the FACP include annunciators, relay modules and printer connection for acquiring hardcopy printouts of panel data. Pressing 1 while viewing Programming Screen #3 will cause the control panel to display the following screens.
Programming Master Programming Level 3.5.7.2 ANN-BUS Modules If an ANN-BUS module is installed, press 2 while viewing ANN-BUS screen #1 to select ANN-BUS addresses for the module(s). The following screen will be displayed. ANN-BUS MODULES 1=ADDR. 1 NONE 2=ADDR. 2 NONE 3=ADDR. 3 NONE On Board DACT Screen #1 Pressing the down arrow key will allow the programmer to view additional screens displaying Addresses 1 - 8.
Master Programming Level Programming 3.5.7.3 Auto-Configure The ANN-BUS Auto-Configure features allows the programmer to quickly bring all installed ANN-BUS modules online. The software will search for all ANN-BUS modules and automatically program the device type and address into the system.
Programming Master Programming Level If the Parallel Port option is selected, the user has the option to supervise the printer and select an offline timer for the supervision by pressing 2 for Printer Supervision while viewing Print Options screen #1. Each press of the 2 key will cause the display to toggle between Printer Supv NO for no supervision and Printer Supv YES for printer supervision. Note that this option is not selectable if the Serial Port option has been selected.
Master Programming Level Programming 3.5.7.5 ANN-I/O LED Zone Assignments The information displayed by LEDs on every ANN-I/O module is not programmable and will therefore be as indicated in the following table.
Programming Master Programming Level 3.5.7.6 ANN-80 Options Pressing 2 while ANN-BUS screen #2 will display the following screen: ANN-80 OPTIONS 1=PIEZO ENABLE 2=LOCK ENABLE 3=ACK BTN ENABLE ANN-80 Options Screen #1 ANN-80 1=SIL BTN 2=RST BTN 3=DRL BTN OPTIONS ENABLE ENABLE ENABLE ANN-80 Options Screen #2 The Piezo Enable option allows the programmer to select whether the piezo sounder on any installed ANN-80 annunciator will ever sound.
Master Programming Level Programming 3.5.7.7 ANN-RLY Options Pressing 1 for ANN-RLY Options while viewing ANN-BUS Screen #3 will cause the following screen to be displayed: ANN-RLY OPTIONS 1=RELAY 1 IN ZONE 1 2=RELAY 2 IN ZONE 2 3=RELAY 3 IN ZONE 3 PROGRAMMING 1=ANN-RLY OPTIONS 2=ANN-LED OPTIONS ANN-BUS Screen #3 ANN-RLY Options Screen The ANN-RLY module provides ten Form-C relays which can be programmed for various functions. The initial screen displays Relays 1 through 3.
Programming Master Programming Level 3.5.8 History The History option allows an authorized user to view or erase events which have occurred in the control panel. Pressing 2 while viewing Programming Screen #3 will display the History options as shown in the following display: PROGRAMMING 1=ANN-BUS 2=HISTORY 3=WALKTEST HISTORY 1=VIEW EVENTS 2=ERASE HISTORY Programming Screen #3 History Screen 3.5.8.
Master Programming Level Programming 3.5.9 Walktest Walktest allows an individual to test the fire alarm system without the necessity to reset the control panel after each device activation.
Programming Master Programming Level 3.5.10 Clear Program Pressing 1 while viewing Programming Screen #4, will select the Clear Program option. The control panel will provide a warning to the user by prompting with the following display: PROGRAMMING 1=CLEAR PROGRAM 2=PASSWORD CHANGE Programming Screen #4 WARNING! SYSTEM CHANGE PROCEED? 1=YES 2=NO Pressing 1 for Yes will cause the control panel to carry out the selected clear option. Pressing 2 for No will prevent programming from being cleared. 3.5.
Maintenance Programming Level Programming 3.6 Maintenance Programming Level To access Maintenance Programming mode, press the Enter key. The LCD will display the following: 1=READ STATUS 2=PROGRAMMING To enter the Maintenance Programming mode, press 2.
Programming Maintenance Programming Level 3.6.1 Input Zones - Enable/Disable The Input Zones option allows the user to enable or disable desired zones. Pressing 1 for Input Zones, while viewing Maintenance Screen #1 will cause the following screens to be displayed: POINT PROGRAM 1=ZONE 1 2=ZONE 2 3=ZONE 3 PROGRAMMING 1=INPUT ZONES 2=HISTORY 3=WALKTEST Zone Select Screen Maintenance Screen #1 Pressing the down arrow key will display additional Zones 4 - 6.
Maintenance Programming Level Programming Pressing 1 while viewing the History screen will cause the following screen to be displayed: HISTORY 1=VIEW ALL 2=VIEW ALARMS 3=VIEW OTHER EVENTS To view all the events which have occurred in the control panel since the history file was last erased, press 1 while viewing the Events screen. To view only alarms which have occurred, press 2 while viewing the Events screen. To view events other than alarms, press 3.
Programming Maintenance Programming Level 3.6.4 Time-Date To program the time and date into the control panel, press 1 while viewing Maintenance Screen #2. The following display will appear: PROGRAMMING 1=TIME-DATE Maintenance Screen #2 TIME AND DATE 1=TIME 01:00A 2=DATE 01012006 3=CLOCK FORMAT 12HRS Time and Date Screen To change the time, press 1 to display the following screen: ENTER TIME AS 12HRS : 01:00 1=AM 2=PM Time Screen A flashing cursor will appear on the left side of the display.
Panel Control Buttons Operating Instructions Operating Instructions SECTION 4 Factory programmed Templates have been provided to facilitate the installation and configuration of the Fire Alarm Control Panel. The factory default programming for this panel is Template #7. Refer to "FACP Configuration Templates" on page 108 for a detailed description of the FACP operation for Template #7. 4.1 Panel Control Buttons 4.1.
Operating Instructions Indicators 4.2 Indicators The eight indicators, which are located on the front panel, operate as follows: AC Power This is a green indicator which illuminates if AC power is applied to the FACP. A loss of AC power will turn off this indicator. Fire Alarm This red indicator flashes when one or more alarms occur. It illuminates steady when the Acknowledge/Step or Alarm Silence key is pressed. The Fire Alarm indicator turns off when the Reset key is pressed.
Trouble Operation Operating Instructions Note: To ensure that the system is functioning properly, the FACP will perform a freeze check five minutes after the panel is reset, followed by a maintenance check. If there is no freeze or maintenance condition, the panel will continue to monitor for freeze conditions every hour and maintenance conditions every four hours. 4.
Operating Instructions Alarm Operation Pressing the Acknowledge/Step or Alarm Silence key will cause the pulsing piezo to silence and the system Trouble indicator to change from flashing to on steady. This block acknowledgment occurs regardless of the number of troubles, alarms and supervisory events active in the system. When the Acknowledge/Step key is pressed and at least one new alarm or trouble exists in the system, the ‘acknowledge’ message is sent to the printer and history file.
Supervisory Operation • Operating Instructions Fourth line in display: Time; the current time in this example is 10:00A which represents 10:00 AM Date; the current month, day and year in this example is 03 for March, 08 for the 8th day of the month and 06 for the year 2006 4.
Operating Instructions 2nd-Shot Water Switch 4.9 2nd-Shot Water Switch Following an initial waterflow release, an input circuit with the nonlatching Type Code of 2nd-Shot Water Switch, when activated, will cause another waterflow release to occur immediately. If a manual switch is connected to the circuit, an operator has the option to perform any number of additional waterflow releases following an initial release. 4.
Release Stages Operating Instructions 4.13 Release Stages Outputs programmed as Release Stage NACs indicate the two stages of a release operation: the activation of an output programmed as a Releasing Circuit will cause the programmed indicating NAC output to turn on steady upon completion of the release, the programmed indicating NAC output will pulse at a 20 pulse-per-minute rate 4.14 Special System Timers 4.14.
Operating Instructions Read Status Alarm/Shorted Condition When in audible Walktest, the panel responds to each new alarm and activates its programmed control outputs for four seconds, if those outputs have been programmed for silenceable activation. It also stores each alarm in the walktest history file which can be sent to an optional printer. The stored display will be the same as if the device actually activated except the colon (:) in the time stamp is replaced with an asterisk (*).
Read Status Operating Instructions 4.16.1 FACP Configuration Pressing 1 while viewing Read Status Screen #1 will display the type of configuration programmed into the FACP (refer to "FACP CONFIG (Application Templates)" on page 50). As an example, if Template 7 was programmed as the FACP configuration, the following screen will be displayed: READ FACP CONFIG TEMPLATE 7 SINGLE HAZARD X-ZONE MAN REL SW 4.16.
Operating Instructions Read Status 4.16.
Read Status Operating Instructions 4.16.5 On-Board Relays Pressing 2 while viewing Read Status Screen #2 will display the following screen: ON-BOARD RELAYS RELAY 1 ALARM RELAY 2 TROUBLE RELAY 3 SUPERVSRY This screen allows the operator to view the programmed option for each relay. 4.16.
Operating Instructions Read Status 4.16.7 Timers Pressing 1 while Read Status Screen #3 will display the following screens: READ STATUS 1=TIMERS 2=DAYLIGHT SAVINGS 3=HISTORY TIMERS SOAK 1 10 MIN SOAK 2 10 MIN WATERFLOW DELAY 0 S Read Status Screen #3 TIMERS AC LOSS DELAY 2 HR These screens allow the operator to view the various timer settings. 4.16.
Read Status Operating Instructions 4.16.9 History Pressing 3 while viewing Read Status Screen #3 will display the following screens: HISTORY 1=VIEW ALL 2=VIEW ALARMS 3=VIEW OTHER EVENTS The operator can view all events which have been stored in the history file, only alarms or other events, such as troubles or supervisories, by pressing the corresponding number key. 4.16.10 PRINT READ STATUS 1=PRINT 2=ANN-BUS To print control panel data, press 1 while viewing Read Status Screen #4.
Operating Instructions Read Status 4.16.11 ANN-BUS Pressing 2 while viewing Read Status Screen #4 will display the settings for the ANN-BUS options as shown in the following screens: ANN-BUS BUS ENABLED NO 1=BUS MODULES 2=ANN-S/PG OPTIONS ANN-BUS Screen #1 ANN-BUS 1=ANN-80 OPTION 2=ANN-RLY OPTIONS ANN-BUS Screen #2 ANN-BUS Screen #1 indicates whether the ANN-BUS is enabled (Yes/No).
Overview Power Supply Calculations Power Supply Calculations SECTION 5 5.1 Overview This section contains instructions and tables for calculating power supply currents in alarm and standby conditions. This is a four-step process, consisting of the following: 1. Calculating the total amount of AC branch circuit current required to operate the system 2. Calculating the power supply load current for non-fire and fire alarm conditions and calculating the secondary (battery) load 3.
Power Supply Calculations 5.3 Calculating the System Current Draw Calculating the System Current Draw 5.3.1 Overview The control panel must be able to power all internal and external devices continuously during the non-fire alarm condition. To calculate the non-fire alarm load on the system power supply when primary power is applied, use Calculation Column 1 in Table 5-3 on page 101. The control panel must support a larger load current during a fire alarm condition.
Calculating the System Current Draw Power Supply Calculations Table 5-3 contains three columns for calculating current draws. For each column, calculate the current and enter the total (in amperes) in the bottom row. When finished, copy the totals from Calculation Column 2 and Calculation Column 3 to Table 5-4 on page 102. TABLE 5-3:System Current Draw Calculations Device Type Calculation Column 1 Primary, Non-Fire Alarm Current (amps) Qty Main Circuit Board X[current draw]= 1 X[0.
Power Supply Calculations 5.4 Calculating the Battery Size Calculating the Battery Size Use Table 5-4 to calculate the total Standby and Alarm load in ampere hours (AH). This total load determines the battery size (in AH), required to support the control panel under the loss of AC power. Complete Table 5-4 as follows: 1. Enter the totals from Table 5-3 on page 101, Calculation Columns 2 and 3 where shown 2. Enter the NFPA Standby and Alarm times (refer to ‘NFPA Requirements’ below) 3.
Input-to-Output Circuit Mapping and Cross-Zone Operation APPENDIX A Circuit Mapping and Cross-Zoning Circuit Mapping and Cross-Zoning A.1 Input-to-Output Circuit Mapping and Cross-Zone Operation The flexible cross-zoning and input-to-output (I/O) mapping capability of this fire panel provides a powerful toolset to accommodate many site-specific configurations. To simplify initial setup, preconfigured application templates that employ cross-zoning and I/O mapping are included from the factory.
Circuit Mapping and Cross-Zoning Input-to-Output Circuit Mapping and Cross-Zone Operation A.1.1 Mapping Input Zones to Output Circuits for Direct Activation Using the INPUT ZONES menus, you can assign any input zone to directly activate (without crosszoning) any of the four output circuits provided they are assigned matching operational types (see the OUTPUT CIRCUIT MAP menu within the INPUT ZONES menus).
Input-to-Output Circuit Mapping and Cross-Zone Operation Circuit Mapping and Cross-Zoning A.1.2 Mapping Input Zones to Release Circuits for Cross Zone Activation Using the OUTPUT CIRCUITS menus, this fire panel will allow you to assign a release circuit type of operation to any two of the four output circuits. Up to two releasing circuits (or hazards), called RELEASE 1 and RELEASE 2, may be created. Input zones may be assigned in various ways to activate either one or both of the release circuits.
Circuit Mapping and Cross-Zoning Input-to-Output Circuit Mapping and Cross-Zone Operation Example 4: A dual hazard, cross-zoned application using four input zones and two releasing output circuits. Input Zones 1 and 2 are cross-zoned to activate Output Circuit 2, which is programmed as RELEASE 1. Input Zones 3 and 4 are cross-zoned to activate Output Circuit 3, which is programmed as a RELEASE 2. • • • • • Output Circuit 1 is programmed as alarm NAC using the OUTPUT CIRCUITS menus.
Input-to-Output Circuit Mapping and Cross-Zone Operation Circuit Mapping and Cross-Zoning A.1.3 Complex Examples of Cross Zoning and I/O Mapping for Release Circuits Following are some complex examples of cross-zoning for more demanding applications that are possible with this fire panel. Input zone entries in a single cross-zone group are effectively AND’ed together while the cross-zone groups are effectively OR’ed together.
FACP Configuration Templates APPENDIX B Input-to-Output Circuit Mapping and Cross-Zone Operation FACP Configuration Templates The MRP-2001/E has been provided with preprogrammed templates which allow the user to quickly configure the FACP [refer to "FACP CONFIG (Application Templates)" on page 50]. The user also has the option to reprogram selected portions of the template for customized applications. The following pages of this appendix describe the programming for each of the templates.
Template 7: Single Hazard - 3 Zone FACP Configuration Templates B.1 Template 7: Single Hazard - 3 Zone TEMPLATE 7: SINGLE HAZARD - 3 ZONE INPUT ZONES 1 2 3 2-WIRE SMOKE FIRE WATERFLOW OUTPUT CIRCUITS #1 ALARM NAC #2 WATERFLOW NAC #3 RELEASE SOLENOID 1 #4 SUPV. BELL NAC X X X X 4 MANUAL RELEASE X 5 PULL STATION X X X 6 SUPV. X X Table Legend: X = direct correlation between Input Zone and Output Circuit (input zone activation will turn on corresponding output circuit).
FACP Configuration Templates Template 8: Single Hazard - Cross-Zone With Manual Release B.2 Template 8: Single Hazard - Cross-Zone With Manual Release OUTPUT CIRCUITS #1 ALARM NAC #2 WATERFLOW NAC #3 RELEASE SOLENOID 1 #4 SUPV. BELL NAC TEMPLATE 8: CROSS-ZONE WITH MANUAL RELEASE SWITCH INPUT ZONES 1 2 3 4 2-WIRE SMOKE FIRE WATERFLOW MANUAL RELEASE X X X X C1 C1 X 5 PULL STATION X 6 SUPV.
Template 9: Dual Hazard - Combined Release FACP Configuration Templates B.3 Template 9: Dual Hazard - Combined Release OUTPUT CIRCUITS #1 ALARM NAC #2 SUPV BELL NAC #3 RELEASE SOLENOID 1 #4 RELEASE SOLENOID 2 TEMPLATE 9: DUAL HAZARD - COMBINED RELEASE INPUT ZONES 1 2 3 4 2-WIRE SMOKE FIRE WATERFLOW MANUAL RELEASE X X X X 5 PULL STATION X 6 SUPV.
FACP Configuration Templates Template 10: Dual Hazard - Split Release B.4 Template 10: Dual Hazard - Split Release TEMPLATE 10: DUAL HAZARD - SPLIT RELEASE INPUT ZONES 1 2 3 4 2-WIRE SMOKE FIRE WATERFLOW SUPV. OUTPUT CIRCUITS #1 ALARM NAC #2 SUPV BELL NAC #3 RELEASE SOLENOID 1 #4 RELEASE SOLENOID 2 X X X 5 MANUAL RELEASE X 6 PULL STATION X X X X X X X X Table Legend: X = direct correlation between Input Zone and Output Circuit (input zone activation will turn on corresponding output circuit).
Template 11: Single Hazard - 3 Zones and Low Pressure FACP Configuration Templates B.5 Template 11: Single Hazard - 3 Zones and Low Pressure OUTPUT CIRCUITS #1 ALARM NAC #2 WATERFLOW NAC #3 SUPV. BELL NAC #4 RELEASE SOLENOID 1 TEMPLATE 11: SINGLE HAZARD - 3 ZONES AND LOW PRESSURE INPUT ZONES 1 2 3 4 2-WIRE SMOKE FIRE WATERFLOW MANUAL RELEASE X X X X 5 PULL STATION X 6 LOW PRESS.
FACP Configuration Templates Template 12: Single Hazard - 2 Zones Cross-Zoned With All Active B.6 Template 12: Single Hazard - 2 Zones Cross-Zoned With All Active TEMPLATE 12: SINGLE HAZARD - 2 ZONES CROSS-ZONES WITH ALL ACTIVE INPUT ZONES 1 2 3 4 5 OUTPUT CIRCUITS 2-WIRE SMOKE FIRE WATERFLOW MANUAL PULL RELEASE STATION #1 ALARM NAC X X X X #2 WATERFLOW NAC X #3 SUPV. BELL NAC #4 RELEASE SOLENOID 1 C1 C1 X X 6 LOW PRESS.
Template 13: Single Hazard - Dual Zone FACP Configuration Templates B.7 Template 13: Single Hazard - Dual Zone OUTPUT CIRCUITS #1 ALARM NAC #2 WATERFLOW NAC #3 RELEASE SOLENOID 1 #4 WATERFLOW NAC TEMPLATE 13: SINGLE HAZARD - DUAL ZONE INPUT ZONES 1 2 3 4 2-WIRE SMOKE FIRE LOW WATERFLOW PRESS. X X X X X X X 5 PULL STATION X 6 MANUAL RELEASE X X X Table Legend: X = direct correlation between Input Zone and Output Circuit (input zone activation will turn on corresponding output circuit).
NFPA Standard-Specific Requirements Template 13: Single Hazard - Dual Zone NFPA Standard-Specific Requirements APPENDIX C This panel has been designed for use in commercial, industrial and institutional applications and meets the requirements for service under the National Fire Protection Association (NFPA) Standards outlined in this Appendix.
Template 13: Single Hazard - Dual Zone NFPA Standard-Specific Requirements The following figure illustrates an example of Central Station/Remote Station Reporting using a 411UD. The relay contacts from the MRP-2001/E may be used to trip any dialer UL-listed for Central Station/Remote Station Reporting Services. 411UD Channel1 Channel 2 Channel 3 Channel 4 (2.
NFPA Standard-Specific Requirements Template 13: Single Hazard - Dual Zone Alarm Trouble Supervisory 411UD FACP TB2-1 TB8-1 TB2-2 TB8-3 TB2-3 TB8-4 TB2-4 TB8-6 TB2-5 TB8-7 TB2-6 TB8-9 Table C.1 411-UD Connections to FACP Notes: 1. Reference the 411UD Manual for additional information 2. All connections between the control panel and the 411UD must be in conduit, less than 20 ft. (610 cm) in length in the same room. 3.
NFPA 72 Auxiliary Fire Alarm System NFPA Standard-Specific Requirements C.1 NFPA 72 Auxiliary Fire Alarm System All connections are power-limited and supervised. This application is not suitable for separate transmission of sprinkler supervisory or trouble conditions. Notes: 1. 3 ohms maximum loop resistance allowed for wiring from control panel to Municipal Box. 2. Cut JP30 on the MRP-2001/E main circuit board to supervise placement of 4XTMF module and circuit. 3.
NFPA Standard-Specific Requirements NFPA 72 Auxiliary Fire Alarm System NFPA 72 Remote Station Protective Signaling System Notes: 1. Cut Jumper JP30 on the MRP-2001/E main circuit board to supervise placement of the 4XTMF module. 2. Refer to "4XTMF Transmitter Module Installation" on page 29 for detailed information. RS82 Remote Station Receiver UL listed. Refer to Instruction Manual for Remote Station Receiver Model RS82. + - Polarity Shown is Normal Standby + Power-limited (Dummy load with a 4.
NFPA 72 Auxiliary Fire Alarm System NFPA Standard-Specific Requirements NFPA 72 Proprietary Protective Signaling Systems Fire Alarm Control Panel FACP Main Circuit Board Form-C Alarm contact programmed to activate on General Alarm. Form-C Trouble contact which will automatically activate on any Trouble condition. Form-C relay contact programmed to activate on Supervisory condition. Notes: 1. Connection between the FACP and the transmitter are supervised by the transmitter. 2.
NFPA Standard-Specific Requirements Central Station/Remote Station Transmitter: Connection to FACP Dry C.2 Central Station/Remote Station Transmitter: Connection to FACP Dry Contacts The dry contacts of the MRP-2001/E programmable relays can be used to trip a UL-864 Listed Central Station/Remote Station Transmitter. The FACP contacts must be supervised by the Central Station/Remote Station Transmitter module using End-of-Line Resistors (ELRs) with a value determined by the Transmitter manufacturer.
Central Station/Remote Station Transmitter: Connection to FACP Dry Contacts APPENDIX D FACP with Keltron FACP with Keltron The following figure illustrates the connections between the FACP and Keltron Reveiver/ Transmitter. CAUTION! For reasons of wiring diagram clarity, terminal designations of Keltron modules are not shown in actual order.
Testing & Maintenance APPENDIX E Testing Testing & Maintenance E.1 Testing E.1.1 Inspection Once installation has been completed, a careful visual inspection should be made before applying power to the system. Check the actual wiring hookup with the wiring diagrams. Insure that no pieces of wire have fallen into the circuitry. Check for missing or damaged parts. E.1.
Maintenance Testing & Maintenance Test i3 Series detectors as follows: Test Switch 1. An opening for the recessed test switch is located on the detector housing. 2. Insert a small screwdriver or allen wrench (0.18” max.) into the test switch opening; push and hold. 3. If the detector is within the listed sensitivity limits, the detector’s red LED should light within five seconds.
Testing & Maintenance 126 Maintenance MRP-2001 & MRP-2001E PN 53040:A 4/16/2007
Index Numerics 2nd-Shot Water Switch 52 4XTMF 120 A ABB-BUS wiring distance 30 AC Loss Delay 65, 67 AC power 20 AC power rating 13 AC power requirements 99 accessories 16 ACK see also Acknowledge 12 Acknowledge 12 Acknowledge/Step 14, 85 Adjective list 54 multiple entries 56 Alarm 88 alarm piezo pulse rate 15 alarm relay 11, 24 contact rating 13 Alarm Silence 12, 14, 85 ANN-BUS 98 auto-configure 73 aux.
Index Disable Release 46, 52 Disable/Enable 89 DP-51050LED Dress Panel 16 dress panel 12, 16 Drill 12, 14, 85 E earth ground 20 edit detector screens 51 Enable/Disable 82 zone 51 End-of-Line resistor IDC 13, 21, 22 NAC 13, 23 Enter key 48 Erase History 78 exiting programming 47, 48 Read Status 47, 48 F FACP configuration 50 fail-safe trouble relay 24 features 11 Form-C see also relay 11 freeze 21, 89 freeze signal see also smoke detector monitoring 11 H History 78, 97 erase 78 Maintenance Level 82 view even
Index N NAC 11, 13 Auto Silence 60 coded 90 current 23 End-of-Line resistor 13, 23 maximum current 13 programmable 12 synchronized 62 wiring 23 NFPA 72 Auxiliary Fire Alarm System 116, 119 NFPA 72 Central Station Service (Protected Premises Unit) or Remote Station Service 116 NFPA 72 Proprietary Fire Alarm System 116 NFPA 72 Proprietary Protective Signaling Systems 121 NFPA 72 Remote Station Protective Signaling System 120 NFPA Standard 116 nonpower-limited wiring 25 nonresettable power 11, 14, 24 current 2
Index Relays 64, 95 Release Circuit 58 Release Stage 91 Release Stage NAC 59 releasing circuit 13 releasing solenoid 12 releasing solenoids 11 remote LCD annunciator installation 34 programming 36, 76 specifications 34 wiring 35 remote station service 29 Remote Station Transmitter Connection to FACP Dry Contacts 122 Reset 12, 14, 85 resettable power 11, 13, 24 current 24 maximum current 13 reverse polarity circuit see also 4XTM 16 S Silence Inhibit 60 Silence Inhibit Timer 91 Silenceable Output 59 silenceab
Index UL requirements 25 Z Zone type 51 Zone Setup Maintenance Level 82 zone type inputs 52 MRP-2001 & MRP-2001E PN 53040:A 4/16/07 131
Testing & Maintenance 132 Maintenance MRP-2001 & MRP-2001E PN 53040:A 4/16/2007
Maintenance MRP-2001 & MRP-2001E PN 53040:A 4/16/2007 Testing & Maintenance 133
Testing & Maintenance 134 Maintenance MRP-2001 & MRP-2001E PN 53040:A 4/16/2007
Limited Warranty Honeywell International Inc. warrants products manufactured by it to be free from defects in materials and workmanship for eighteen (18) months from the date of manufacture, under normal use and service. Products are date stamped at time of manufacture. The sole and exclusive obligation of Honeywell International Inc. is to repair or replace, at its option, free of charge for parts and labor, any part that is defective in materials or workmanship under normal use and service.
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