Ansul AUTOPULSE IQ-301 Installation, Operation And Maintenance Manual
  1. Manuals
  2. Brands
  3. Ansul Manuals
  4. Fire Alarms
  5. AUTOPULSE IQ-301
  6. Installation, operation and maintenance manual
Ansul AUTOPULSE IQ-301 Installation, Operation And Maintenance Manual

Ansul AUTOPULSE IQ-301 Installation, Operation And Maintenance Manual

Hide thumbs
Table of Contents

Advertisement

Quick Links

ANSUL
INSTALLATION
OPERATION AND
MAINTENANCE
MANUAL
AUTOPULSE
ANALOG
ADDRESSABLE
ALARM/RELEASE
CONTROL SYSTEM
Document 50036
10/29/2001
PN 50036:F
IQ-301
®
F
Rev:
ECN 01-529

Advertisement

Table of Contents
loading
Need help?

Need help?

Do you have a question about the AUTOPULSE IQ-301 and is the answer not in the manual?

Questions and answers

Subscribe to Our Youtube Channel

Related Manuals for Ansul AUTOPULSE IQ-301

Summary of Contents for Ansul AUTOPULSE IQ-301

  • Page 1 ANSUL INSTALLATION AUTOPULSE IQ-301 ®  OPERATION AND ANALOG MAINTENANCE ADDRESSABLE MANUAL ALARM/RELEASE CONTROL SYSTEM Document 50036 10/29/2001 Rev: PN 50036:F ECN 01-529...
  • Page 2 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 Heat detectors do not sense particles of combustion and smoke detectors, heat detectors, manual pull stations, audible alarm only when heat on their sensors increases at a predeter- warning devices, and a fire alarm control with remote notifica- mined rate or reaches a predetermined level.
  • Page 3 Installation Precautions Adherence to the following will aid in problem-free installation with long-term reliability: WARNING - Several different sources of power can be Like all solid state electronic devices, this system may connected to the fire alarm control panel. Disconnect all operate erratically or can be damaged when subjected to light- sources of power before servicing.

  • Page 4: Table Of Contents

    1.5.4 Field Charger/Power Supply - FCPS-24 (Notifier) ..................20 1.5.5 Battery Charger - CHG-120 (Notifier) ......................20 1.5.6 Liquid Crystal Display - Ansul LCD-80 ......................20 1.5.7 Option Module: Transmitter Module - 4XTM (Notifier) ................20 1.5.8 Option Module: Relay/Transmitter Module - RTM-8 (Notifier) ..............20 1.5.9 Meter Module (Notifier) ..........................20...
  • Page 5 2.4.2 Battery Power Connection (J3) ........................34 2.4.3 Expansion Power Supplies – AVPS-24 or APS-6R (Optional) ...............34 2.5 DC Output Power Connections (TB1) ....................35 2.6 Output Circuits (TB2) .......................... 35 2.6.1 Notification Appliance Circuits ........................35 2.6.2 Releasing Circuits ............................36 2.7 Standard Relays (TB3) ......................... 36 2.8 EIA-232 Devices –...
  • Page 6 4.2 The Membrane Panel ......................... 102 4.2.1 Overview ................................102 4.2.2 How to Use the Programming Keypad ......................102 4.2.3 How to Use the Enter Key and Cursor Keys ....................103 4.2.4 How to Use the Operator Keys ........................103 4.2.5 How to Read System Status LED Indicators ....................105 4.3 How to Operate the Control Panel ....................
  • Page 7 Appendix C Annunciators.................. 140 C.1 LCD-80 Display ..........................140 C.1.1 ACS Mode ..............................140 C.1.2 Terminal Mode ..............................140 C.2 Terminal Mode (LCD-80) Annunciation Interface (TB5 on CPU) ..........140 C.3 ACS Annunciation Interface (TB5 on CPU) ................... 141 C.3.1 Supported Modules ............................141 C.4 Annunciator Capacity ........................
  • Page 8 G.3.3 Self-Optimizing Pre-Alarm Function ......................165 G.3.4 Audible Warning Applications for AWACS™ .....................166 Appendix H Special Zones................. 167 H.1 Overview ............................. 167 H.2 Presignal and Positive Alarm Sequence (PAS)................167 H.2.1 Presignal ................................167 H.2.2 Positive Alarm Sequence (PAS) ........................167 H.3 Time Control ............................168 H.4 NAC Code Types ..........................
  • Page 9 N.3 Mounting the CHG-120 ........................191 N.3.1 Mounting the Charger into a CAB-X3 Series Cabinet .................191 N.3.2 Mounting the Charger into a BB-55 Battery Box ..................192 N.4 Connecting the CHG-120 ........................194 N.4.1 Connecting a CHG-120 to the IQ-301 ......................194 IQ-301 PN 50036:F 10/29/2001...

  • Page 10: About This Manual

    About This Manual Scope of this Manual About This Manual Scope of this Manual This manual contains the following: Section 1 “System Overview” provides a description of the control panel and system components, a list of related system documentation, electrical specifications, and cabinet dimensions.
  • Page 11 Notes, Cautions, and Warnings About This Manual Appendix M “CBE Programming” provides information and programming examples to set up the fire alarm system to use Control-by-Event. Appendix N “External Battery Charger” provides information and wiring diagrams for setting up an external battery charger for use with the panel. Notes, Cautions, and Warnings This manual contains notes, cautions, and warnings to alert the reader to as follows: •...
  • Page 12 About This Manual Supplemental Information Supplemental Information Table 3 contains a list of documents that contain additional information on the AUTOPULSE IQ-301: For information on Refer to Part Number Compatible Devices Device Compatibility Document 50054 Off-line programming and installation Veri•Fire Medium Systems CD...
  • Page 13 NEC Article 300 Wiring Methods • NEC Article 760 Fire Alarm Systems • Applicable Local and State Building Codes • Requirements of the Local Authority Having Jurisdiction • Ansul Device Compatibility Document • ADA Americans with Disabilities Act IQ-301 PN 50036:F 10/29/2001...

  • Page 14: Section 1 System Overview

    Section 1 System Overview 1.1 General Description The AUTOPULSE IQ-301 is a compact, cost-effective, intelligent fire alarm control panel with an extensive list of powerful features. The power supply and all electronics are contained on a single circuit board, providing a complete fire control system for most applications.

  • Page 15: Components

    Components System Overview Signaling Line Circuit (SLC) up to 198 devices Monitor Control LCD-80 Remote Display/Control FSP-751 FSI-751 FST-751 NBG-12LX Module Module (up to 32 devices) XP Transponder EIA-485 EIA-485 Annunciator control points Up to 68 fully programmable output circuits ACM-8R ACM/AEM-16AT annunciator LDM-32 custom graphics...

  • Page 16: Panel Sounder

    System Overview Components System Status Indicator LEDs Figure 2 shows the location of the control panel system status indicator LEDs. • AC Power (green) • System Alarm (red) • Pre-Alarm Warning (yellow) • Supervisory/Security (yellow) • Alarm Silence (yellow) • System Trouble (yellow) For descriptions of each System Status LED Indicator, refer to Section 4 “Operation”.

  • Page 17: Main Assemblies

    Main Assemblies System Overview 1.4 Main Assemblies The AUTOPULSE IQ-301 main assemblies include the CPU board, the cabinet for enclosing the control panel, the transformer assembly, and the batteries. 1.4.1 CPU Board The control panel circuit board contains the system’s central processing unit (CPU), power supply, and other primary components.

  • Page 18: Cabinet

    System Overview Main Assemblies 1.4.2 Cabinet The CPU board mounts in a compact (16.125" x 14.5" x 5.5") cabinet with a front dress plate. The cabinet provides space for two batteries (up to 12 AH). ANALOG FIR E PANEL ALL SYSTEM S NORMAL 11:00 10/1/01 1.4.3 LCD Display...

  • Page 19: Optional Devices & Option Modules

    Optional Devices & Option Modules System Overview 1.5 Optional Devices & Option Modules Several optional components can be installed within this fire alarm control system, including external devices and “option modules” that plug directly into the CPU. The CPU board includes an option module slot located on the right side of the board. When an option module is installed, jumper JP5 (Figure 3 on page 17) must be cut.

  • Page 20: Field Charger/Power Supply - Fcps-24 (Notifier)

    A single assembly containing both meters mounts in the lower-left corner of the AUTOPULSE IQ-301 cabinet as shown in Figure 3 on page 17. IQ-301 PN 50036:F 10/29/2001...

  • Page 21: Trim Ring

    Intelligent Detectors (Notifier) System Overview 1.5.10 Trim Ring The TR-4XG gray trim ring and the TR-4XR red trim ring are available for semi-flush mounting of the control panel cabinet. See Figure 7 on page 29 for an illustration of the trim ring installed.

  • Page 22: Addressable Modules (Notifier)

    System Overview Addressable Modules (Notifier) • FST-751. Intelligent thermistor sensing circuit for fast response. Designed to provide open area protection with 50 foot spacing capability. The FST-751R incorporates a thermal rate of rise of 15°F (9.4°C). • FSD-751P. Photoelectric Duct Detector. The FST-751 FSD-751RP includes an alarm relay.
  • Page 23 Addressable Modules (Notifier) System Overview Monitor Modules: FMM-1, FZM-1, FMM-101. Addressable modules used to monitor conventional initiating devices. Use the FMM-1 for normally open contact alarm initiating devices, such as manual pull stations, four-wire TENS TENS smoke detectors, heat detectors, waterflow, security contacts, ONES ONES ADDRESS...

  • Page 24: End-Of-Line Devices

    (TB5) on the CPU. For detailed wiring requirements, refer to the appropriate annunciator manuals. 1.9.2 Annunciator Control Module-8R (ACM-8R) The ACM-8R provides the AUTOPULSE IQ-301 with a mappable relay control module. ACM-8R relays can be selected for mapping anywhere in the system memory map (in groups of eight).

  • Page 25: Annunciator Control System (Acs)

    Annunciation Modules (Notifier) System Overview • Relay Expander Module (LDM-R32) – Provides the LDM-32 or LDM-E32 with 32 dry Form-A (normally open) contacts. 1.9.4 Annunciator Control System (ACS) The ACS series annunciator and control system provides the control panel with up to 32 remote annunciators, each with a capacity of 64 points.

  • Page 26: Peripheral Devices (Tb4)

    (alarm, trouble) and status changes within the system. • Time-stamps the printout with the current time-of-day and date. Note: Time stamping is a function of the AUTOPULSE IQ-301 panel. 1.10.3 Keltron Remote Printer (Model VS4095) The VS4095 is a two-color (red and black), 40-column, 24 VDC printer that can print up to 50 messages in 90 seconds.

  • Page 27: Specifications

    1.11 Specifications This section contains electrical specifications for the control panel. 1.11.1 Primary AC Power (TB7) Primary AC connections are made through TB7 on the AUTOPULSE IQ-301. Wire size: minimum 14 AWG with 600 VAC insulation. • IQ-301. 120 VAC, 50/60 Hz, 3.0 A •...

  • Page 28: Relays (Tb3)

    System Overview Cabinet Dimensions 1.11.5 Relays (TB3) Relays for Alarm, Trouble, Security, and Supervisory are available on terminal TB3 for power-limited circuits only. Contact ratings for relays through TB3 are: • 2.0 A at 30 VDC (resistive), 0.5 A at 30 VAC (resistive) •...

  • Page 29: Semi-Flush Mount

    Cabinet Dimensions System Overview 1.12.2 Semi-flush Mount Figure 7 shows dimensions for semi-flush mounting of the AUTOPULSE IQ-301 cabinet using a TR-4XG or TR-4XR Trim Ring. Trim Ring = 17.62" 1.5" (3.8 cm) typical (44.7548 cm) for 4" (10.16 cm) wall Trim Ring = 19.12"...

  • Page 30: Section 2 Installation

    Installation Preparing for Installation Section 2 Installation 2.1 Preparing for Installation 2.1.1 Unpacking the System Carefully unpack the system and inspect for shipping damage. Select a location for the control panel in a clean, dry, vibration-free area with moderate temperature. 2.1.2 Installation Notes Before installing the fire alarm system, read the following: •...

  • Page 31: Installation Checklist

    CAUTION: Make sure to install system components in the precise order in the checklist. Failure to do so can damage the control panel and other system components Table 6 contains an installation checklist for installing, wiring, and testing an AUTOPULSE IQ-301 system: Task Refer to Mount the cabinet backbox to the wall.

  • Page 32: Backbox Mounting

    Installation Backbox Mounting 2.3 Backbox Mounting Figure 8 shows the dimensions of the cabinet backbox: 1.0" (2.54 cm) 12.5" (31.75 cm) 14.5" (36.83 cm) 0.5" (1.27 cm) 9.5" 16.0" (23.495 cm) (40.64 cm) Figure 8 Backbox Dimensions Remove the CPU board assembly by unscrewing the four screws in the corners of the board.

  • Page 33: Ac And Dc Power Connections

    2.4.1 AC Power Connections (TB7) Primary power required for the AUTOPULSE IQ-301 is 120 VAC, 50/60 Hz, 3 A and primary power required for the IQ-301E is 220/240 VAC, 50/60 Hz, 1.5 A. Overcurrent protection for this circuit must comply with Article 760 of the National Electrical Code (NEC) and/or local codes.

  • Page 34: Battery Power Connection (J3)

    Installation AC and DC Power Connections 2.4.2 Battery Power Connection (J3) WARNING: Battery contains sulfuric acid which can cause severe burns to the skin and eyes, and can destroy fabrics. If contact is made with sulfuric acid, immediately flush skin or eyes with water for 15 minutes and seek immediate medical attention.

  • Page 35: Dc Output Power Connections (Tb1)

    DC Output Power Connections (TB1) Installation 2.5 DC Output Power Connections (TB1) Figure 11 shows the outputs for DC voltage connections from TB1 on the CPU: Note: All DC power outputs are power-limited. Non-resettable Power 24 VDC Four-wire Smoke Detector filtered, regulated, non-resettable Power 24 VDC filtered, power can be drawn from TB1...

  • Page 36: Releasing Circuits

    Installation Standard Relays (TB3) 2.6.2 Releasing Circuits Any or all of these circuits may be used as a releasing circuit by programming it for RELEASE CKT. For information on programming releasing circuits, refer to “How to Program a Panel Circuit” on page 84 and Appendix D “Releasing Applications”. Note: Notification circuit polarity 4.7K, 1/2-Watt (PN 71252 UL-listed) shown in alarm state.

  • Page 37: Devices - Remote Printers And Crts (Tb4)

    EIA-232 Devices – Remote Printers and CRTs (TB4) Installation 2.8 EIA-232 Devices – Remote Printers and CRTs (TB4) 2.8.1 Overview The PRN remote printer provides a hardcopy printout of all status changes within the system and time-stamps the printout with the current time and date from the panel. The PRN provides 80 columns of data on standard 9-inch by 11-inch (22.86 cm by 27.94 cm) tractor-feed paper.

  • Page 38: Keltron Printer

    Installation EIA-232 Devices – Remote Printers and CRTs (TB4) Connection between the control panel and the PRN is via an EIA-232 interface. A custom cable must be assembled for connection to the printer's EIA-232 port. DB-25 Connections: Connect TX (Pin 3) to TB4 terminal 1 Connect REF (Pin 7) to TB4 terminal 2 Connect RX (Pin 2) to TB4 terminal 3 Note: When using a DB-25 for Upload/Download connect a...

  • Page 39: Crt Connections

    EIA-232 Devices – Remote Printers and CRTs (TB4) Installation suitable for EIA-232 applications. Typically, 50 feet (15.24 m) is the maximum recommended wiring distance between printer and control panel. The printer communicates using the following protocol: Baud rate 2400 Parity Even Data Bits Seven...
  • Page 40 Installation EIA-232 Devices – Remote Printers and CRTs (TB4) Figure 17 shows typical connections for daisy chaining multiple CRTs, printers, or both. (Refer to CRT configuration in Appendix I.) Twisted Pair To TB4-2 To TB4-1 To TB4-3 To AUX Port of CRT To EIA Port of CRT with keyboard To EIA Port of next...

  • Page 41: Wiring A Signaling Line Circuit (Slc)

    Wiring a Signaling Line Circuit (SLC) Installation 2.9 Wiring a Signaling Line Circuit (SLC) 2.9.1 Overview of SLC Wiring Communication between the control panel and intelligent and addressable initiating, monitor, and control devices takes place through a Signaling Line Circuit (SLC). You can wire an SLC to meet the requirements of NFPA Style 4, Style 6, or Style 7 circuits.

  • Page 42: Slc Devices

    • Style 6, 7. 10,000 ft. (3048 m) (12 AWG) total twisted-pair. 2.9.3 Control Panel Capacity AUTOPULSE IQ-301 capacity includes up to 99 intelligent detectors and an additional Refer to the installation drawings supplied with each combination of up to 99 addressable pull stations, and monitor, control and relay loop device for rating and modules.

  • Page 43: Slc Performance

    Wiring a Signaling Line Circuit (SLC) Installation 2.9.4 SLC Performance SLC performance depends on the type of circuit: Style 4, Style 6, or Style 7. Table 11 lists the trouble conditions that result when a fault exists on an SLC. Fault in SLC Style 4 Style 6...

  • Page 44: Setting An Slc Address For A Module

    Installation Wiring a Signaling Line Circuit (SLC) Partial-Conduit Shield Termination Do not allow the shield drain wire to enter the system cabinet or the conduit. Connect the drain wire to the termination point of the conduit run. Shield Drain Wire If the length of conduit from the control panel cabinet exceeds 20 feet (6.096 m), terminate the...

  • Page 45: Wire Requirements For A Two-Wire Slc

    Wiring a Signaling Line Circuit (SLC) Installation 2.9.7 Wire Requirements for a Two-wire SLC Measuring Loop Resistance for a Two-wire SLC The total DC resistance from panel to branch end cannot exceed 40 ohms. Measure DC resistance as shown in Figure 23: SLC Out For detailed wiring Branch...

  • Page 46: Wire Requirements For A Four-Wire Slc

    Installation Wiring a Signaling Line Circuit (SLC) 2.9.8 Wire Requirements for a Four-wire SLC Measuring Loop Resistance for a Four-wire SLC The total DC resistance of the SLC pair cannot exceed 40 ohms. Measure DC resistance as shown in Figure 25. For detailed UL wiring requirements, refer to Appendix F. Disconnect the SLC Out and SLC Return at the control panel.
  • Page 47 Wiring a Signaling Line Circuit (SLC) Installation Figure 27 shows typical wiring of a supervised and power-limited two-wire SLC that meets NFPA 72 Style 4 requirements. CAUTION: Terminate shield drain wire according to the instructions in “SLC Shield Termination” on page 43. Note: ISO-X devices are not required to meet NFPA Style 4.
  • Page 48 Installation Wiring a Signaling Line Circuit (SLC) Figure 28 shows typical wiring for a supervised and power-limited four-wire SLC that meets NFPA 72 Style 6 requirements. CAUTION: Terminate shield drain wire according to the instructions in “SLC Shield Termination” on page 43. Note: ISO-X devices are not required to meet NFPA Style 4.

  • Page 49: Wiring An Isolator Module (Iso-X)

    Wiring a Signaling Line Circuit (SLC) Installation Style 7 Wiring Overview Figure 29 shows typical wiring of a four-wire SLC that meet NFPA Style 7 requirements. As shown in Figure 29, flanking each SLC device with a pair of ISO-X isolator modules protects each device from short circuit faults that may occur on other SLC devices.

  • Page 50: Wiring An Idc With Monitor Modules

    Installation Wiring a Signaling Line Circuit (SLC) SLC In (–) SLC In (+) SLC Out (–) SLC Out (+) Figure 30 ISO-X Module Terminal Connections Isolating a Branch of a Two-wire SLC A short circuit on the SLC Style 4 branch (connected to ISO-X terminals 3 and 4) causes the branch to be disconnected and isolated from the remainder of the SLC.
  • Page 51 Wiring a Signaling Line Circuit (SLC) Installation additional connection of 24 VDC filtered, low-noise and resettable power on FZM-1 Terminals 3 (–) and 4 (+). Rotary Switches IDC Return + SLC- IDC Return SLC+ IDC Out + TENS TENS 24 VDC (FZM-1 only) IDC Out 24 VDC + (FZM-1 only)
  • Page 52 Installation Wiring a Signaling Line Circuit (SLC) Wiring an NFPA Style B IDC with Standard Monitor Modules Figure 34 shows typical wiring using FMM-1 modules to wire a Style B IDC. Maximum IDC resistance is 20 ohms. Refer to Device Compatibility Document for detector and power supervision relays.
  • Page 53 Wiring a Signaling Line Circuit (SLC) Installation Wiring an NFPA Style B IDC with Two-wire Detector Modules Note: Figure 35 shows typical wiring for a supervised and power-limited NFPA Style B IDC using FZM-1 modules. Refer to Installation Document shipped with each two-wire detector monitor module for specific installation notes for this variety of module.
  • Page 54 Installation Wiring a Signaling Line Circuit (SLC) Wiring an NFPA Style D IDC with Standard Monitor Modules Figure 36 shows typical wiring for a supervised and power-limited NFPA Style D (Class A) IDC using monitor modules. Maximum IDC resistance is 20 ohms. Refer to the Device UL-listed power supervision Compatibility Document...
  • Page 55 Wiring a Signaling Line Circuit (SLC) Installation Wring an NFPA Style D IDC with FZM-1 Modules Note: Figure 37 shows typical wiring for a supervised and power-limited NFPA Style D (Class A) IDC using FZM-1 modules. Refer to Installation Document shipped with each two-wire detector monitor module for specific installation notes for this variety of module.

  • Page 56: Wiring A Notification Appliance Circuit (Nac) Or Control Circuit

    Installation Wiring a Signaling Line Circuit (SLC) 2.9.11 Wiring a Notification Appliance Circuit (NAC) or Control Circuit Control and Relay Module Overview The FCM-1 is an addressable module that controls a Notification Appliance Circuit (NAC). Use the FCM-1 to route 24 VDC NAC Power for NFPA Style Y (Class B) and NFPA Style Z (Class A) notification circuits.

  • Page 57: Slc Wiring With Control Modules

    Wiring a Signaling Line Circuit (SLC) Installation Installing a Relay Module Install a relay module by following the instructions below: Connect the SLC from the CPU to relay module terminals 1 (-) and 2 (+) as shown in Figure 39. Set the rotary switches on the relay module to the required SLC address.
  • Page 58 Installation Wiring a Signaling Line Circuit (SLC) Address for a Module” for instructions on addressing the modules. End-of-Line Resistor 47K, 1/2-watt UL-listed Power Supervision Relay PN SSD A2143-00 (Use an N-ELR in Canada) 24 VDC notification appliances To next device on SLC Control Module...

  • Page 59: Slc Wiring With An Intelligent Detector

    Wiring a Signaling Line Circuit (SLC) Installation Style Z NAC Figure 41 shows an NFPA Style Z NAC with notification appliances connected to a control module. Connect the NAC as follows: Refer to the Device Compatibility Document for Connect the SLC to control module terminals 1 (–) and 2 (+). compatible notification appliances.

  • Page 60: Slc Wiring With An Nbg-12Lx Addressable Manual Pull Station

    Installation Wiring a Signaling Line Circuit (SLC) address on the base and on the head. Install the intelligent detector head. Wiring an Intelligent Detector to an SLC Figure 42 shows typical wiring of a detector (wired to a RA400Z remote annunciator) connected to an SLC: Channel (+) Channel (+)

  • Page 61: Option Module Installation

    Option Module Installation Installation ADDRESS LOOP ONES TENS LOOP ADDRESS PRODUCT IDENTIFICATION LABEL NBG-12LX NBG-12LX (rear view) (front view) To next device on SLC loop CPU of Control Panel SLC (+) TB 6-3 SLC (–) TB 6-5 Figure 43 Typical SLC Wiring of an NBG-12LX Pull Station 2.10 Option Module Installation 2.10.1 Overview The control panel has an option module slot, using connectors J6, J7, and J8 on the...

  • Page 62: Installing A 4Xtm Module

    Installation Option Module Installation 2.10.2 Installing a 4XTM Module Install the 4XTM module onto the CPU board as follows: Insert the two nylon standoffs (provided) into the holes located on the right-side edge of the main circuit board. Carefully align the pins on the circuit board with the connector on the option board;...

  • Page 63: Installing An Rtm-8 Module

    Option Module Installation Installation 2.10.3 Installing an RTM-8 Module Install the RTM-8 module onto the CPU board as follows: Insert the two nylon standoffs (provided) into the holes located on the right-side edge of the main circuit board (Figure 46). CPU Board Insert screw here RTM-8 Module...
  • Page 64 Zone Relay Contact Ratings – 6 A @ 30 VDC or 300 VAC. Material: Silver Nickel. Refer to the power-limited label located on the AUTOPULSE IQ-301 cabinet door. Make a notation on the label for each circuit used as a nonpower-limited circuit.

  • Page 65: Section 3 Programming

    Programming Section 3 Programming 3.1 Overview The AUTOPULSE IQ-301 is an intelligent, field-programmable Fire Alarm Control Panel. Field-programming the control panel lets you customize the fire alarm system by selecting and setting program options for addressable SLC devices (intelligent detectors, monitor modules, relay modules, and control modules), NACs, and Panel Circuits.

  • Page 66: Getting Started

    Programming Getting Started 3.2 Getting Started 3.2.1 How to Access Programming Options To enter Program Change mode or Status Change mode, follow these steps: Press the key to enter programming mode and the LCD display shows the ENTER Programming Entry screen: 1=PROGRAMMING 2=READ@STATUS@ENTRY (BACKSPACE@TO@ABORT)

  • Page 67: How To Use The Programming Keypad

    Getting Started Programming 3.2.3 How to Use the Programming Keypad Programming A B C D E F keys (12) J K L G H I M N O P R S T U V W X Y - / . cursor keys (4) ENTER ENTER...

  • Page 68: Programming Shortcuts

    Programming Getting Started 3.2.4 Programming Shortcuts “Programming Shortcuts” on page 68 lists shortcuts that you can use when During programming, the control panel automatically programming the control panel. returns to normal operation after two minutes of inactivity. Do this To save a point’s Press the key.

  • Page 69: How To Avoid Programming Errors

    Getting Started Programming NAC (Notification Appliance Circuit) A circuit or path directly connected to a notification appliance. (Notification appliances include bells, strobes, and horns that produce an audible signal, visual signal, or both.) You can use an NAC for coding functions (March Time, California Code, Temporal, and Two Stage).

  • Page 70: Program Change Options

    Programming Program Change Options 3.3 Program Change Options 3.3.1 Overview This section covers the following Program Change options: Topic Refer to Clear programming “How to Clear a Program from Memory (0=clr)” on page 73 memory Autoprogram the control “How to Autoprogram the Control Panel (1=auto)” on page 73 panel Program a point for a: •...

  • Page 71: How To Enter Program Change

    How to Enter Program Change Programming 3.4 How to Enter Program Change To enter Program Change mode, follow these steps: Press the key to enter programming mode and the LCD display shows the ENTER Programming Entry screen: 1=PROGRAMMING 2=READ@STATUS@ENTRY (BACKSPACE@TO@ABORT) Figure 51 Programming Entry Screen Press the 1 key and the following screen appears in the LCD display: ENTER@PROG@OR@STATUS...

  • Page 72: Program Change Map

    Programming How to Enter Program Change 3.4.1 Program Change Map Figure 54 shows a map of the Program Change options. For each option (0-8) the map shows the main screen, a reference to the section, and a brief overview of the option. Programming Entry Screen 1=PROGRAMMING 2=READ@STATUS@ENTRY...

  • Page 73: How To Clear A Program From Memory (0=Clr)

    How to Enter Program Change Programming 3.4.2 How to Clear a Program from Memory (0= The Clear option erases all programming information from the CPU memory of the control panel. You typically use the Clear function to erase data from the control before autoprogramming the control panel for the first time or if you remove one or more Program Change devices from the system.
  • Page 74 Programming How to Enter Program Change Create a New Program for the Control Panel This section covers how to use the Autoprogram option to create a new program for the control panel. The control panel will identify all addressable detectors and modules connected to the SLC then display default program information for each installed device.
  • Page 75 How to Enter Program Change Programming When a New Device screen displays, you can take one of the following actions: You can Do this Accept default program Press the ENTER key to save the default program information in information for the memory for the device and display the next device.
  • Page 76 Programming How to Enter Program Change Default label for the device. To Type Code for the device which you can only edit edit, refer to “How to Edit or Delete using the Point Programming option. For details, a Point (2=point)” on page 78. refer to “How to Edit or Delete a Point (2=point)”...
  • Page 77 How to Enter Program Change Programming The Autoprogram Summary screen appears. You can verify removal of the detector from the program by noting the new count of detectors as shown in Figure 60. Note that the number of detectors DETECTORS decreases (from 11 to MODULES 10) to show the...

  • Page 78: How To Edit Or Delete A Point (2=Point)

    Programming How to Enter Program Change 3.4.4 How to Edit or Delete a Point (2= POINT Purpose A point is a detector or module connected to the SLC or a device connected to one of the four panel circuits. The Point Programming (Point) option lets you do the following: Program Change •...
  • Page 79 How to Enter Program Change Programming From the Point Programming screen, press the 1 key to display the Modify Point Selection screen or press the 2 key to display the Delete Point Selection screen (Figure 64). DELETE POINT.ENTER: POINT@PROG.ENTER: DETECTOR=*,AA,E DETECTOR=*,AA,E MODULE=#,AA,E MODULE=#,AA,E...
  • Page 80 Programming How to Enter Program Change How to Program an Intelligent Detector You can change program information for an addressable detector that is installed and programmed using the Autoprogram option. Figure 65 shows a sample display for a programmed detector. If editing the detector while using the Point: Modify option, you can modify all fields as shown in Figure 65.
  • Page 81 How to Enter Program Change Programming How to Program a Monitor Module Figure 66 shows a sample display of a typical monitor module Point: Modify screen. If editing the module while using the Point: Modify option, you can modify all fields as shown in Figure 65.
  • Page 82 Programming How to Enter Program Change Table 23 contains a list of monitor module Type Codes: Nonlatching Activate Type Code Special function when activated or Latching CBE? Monitor module used to monitor normally open latching MONITOR contact, shorting-type devices. (default) NBG-12LX addressable manual pull station latching PULL STATION...
  • Page 83 How to Enter Program Change Programming How to a Program a Control or Relay Module A sample display of a typical control module Modify Point screen appears in Figure 67. If editing the module while using the Modify Point option, you can modify all fields as shown in Figure 67.
  • Page 84 Programming How to Enter Program Change How to Program a Panel Circuit Panel circuit program functions and Type Codes are similar to control modules. Because the four Panel Circuits are always installed, the autoprogram feature does not display Panel Circuits. Figure 68 shows a sample edit screen for Panel Circuit point programming: Type Code (For explanations, Custom label for...

  • Page 85: How To Change A Programming Password (3=Passwd)

    How to Enter Program Change Programming DELETE POINT.ENTER: DETECTOR=*,AA,E MODULE=#,AA,E Figure 69 Delete Point Selection Screen From the Delete Point Selection screen, select a detector or module SLC address. If the Instead of reentering the next point number or if you do not selected point number is not installed, the control panel displays the next higher know the SLC address, you installed point.

  • Page 86: How To Change A System Message (4=Message)

    Programming How to Enter Program Change 3.4.6 How to Change a System Message (4= MESSAGE The Message Change screen lets you change the 40-character “All Systems Normal” message. Program Change From the Program Change screen (Figure 53 on page 71), select option 4 (Message) to display the Message Change screen (Figure 72).

  • Page 87: How To Edit A Special Zone (6=Spl Zones)

    How to Enter Program Change Programming 3.4.8 How to Edit a Special Zone (6= SPL ZONES Purpose of Special Zones (90-99) Special zones include ten special software zones that you can program to do the following:. Description Special Zone A software zone used to select Presignal options. Program Change 91-94 Four software zones used to control releasing applications.
  • Page 88 Programming How to Enter Program Change From the Special Zone Change screen (Figure 74), key in “90” to display the Presignal screen. Figure 75 shows a typical Presignal screen. PRG@SOFTWARE@ZONE PRESIGNAL@DELAY DELAY=180 PAS=YES Figure 75 Presignal Screen From the Presignal screen, you can change the delay time or the PAS selection. Refer to Appendix H for a detailed explanation of Presignal and PAS.

  • Page 89: How To Edit System Functions (7=Sys)

    How to Enter Program Change Programming For descriptions and options for Holiday Zones, refer to Appendix H “Special Zones”. Code Type (Zone 98) Software zone 98 (code type), lets you select one of four code types: March Time, Temporal, California, or Two Stage. Selection of coding only has an effect if one or more Notification Appliance Circuits call out zone 98.
  • Page 90 Programming How to Enter Program Change " AUTO= Lets you program an Auto Silence Timer that functions like pressing the Alarm Silence switch. For example, select 600. When the timer reaches 600 seconds (10 minutes), the control panel turns all active outputs that are programmed as silenceable. "...
  • Page 91 How to Enter Program Change Programming Selection Specifies LocT (default) A local CRT terminal or computer in the same room as the control panel that provides Read Status, Alter Status, Acknowledge, Silence, Drill, and System Reset functions. LocM Functions in the same manner as LocT except that it requires a password to execute the Acknowledge, Silence, Drill, and System Reset functions.

  • Page 92: How To Check The Program (8=Check)

    Programming Status Change Options 3.4.10 How to Check the Program (8= CHECK When finished programming the control panel, use the Check option to search program entries for possible errors. From the Program Change screen (Figure 53 on page 71), select option 8, (Check). The control panel software searches the program for the Program Change following conditions: Password...

  • Page 93: Entering Status Change

    Status Change Options Programming 3.5.2 Entering Status Change You access all Status Change options from the Status Change screen (Figure 84). From For more information on programming passwords, refer the Program Entry screen (Figure 48 on page 66), enter your Status Change password to to “Programming Passwords”...

  • Page 94: Status Change Programming Map

    Programming Status Change Options 3.5.3 Status Change Programming Map Figure 85 shows a map of the Status Change programming options. For each programming option (1-6) the map shows the main screen, a reference to the section with the instructions, and a brief overview of the option Programming Entry Screen 1=PROGRAMMING 2=READ@STATUS@ENTRY...

  • Page 95: How To Disable Or Enable A Point (1=Disable)

    Status Change Options Programming 3.5.4 How to Disable or Enable a Point (1= DISABLE WARNING: Disable is a software function. Do not use as a lockout in releasing applications. The Disable/Enable option lets you disable or enable a programmed SLC point or panel circuit—except for an initiating device in alarm or a output/control point that is on.

  • Page 96: How To Set Detector Selections (2=Sens/Comp)

    Programming Status Change Options 3.5.5 How to Set Detector Selections (2= SENS COMP Purpose The Sens/Comp option lets you select detector sensitivity and drift compensation for photoelectric and ionization detectors. You can select drift compensation for any intelligent detector on the SLC. Drift compensation provides accurate and stable readings of smoke, counteracting long-term drift caused by dust contamination and other long-term environmental factors.

  • Page 97: How To Clear Alarm Verification Counters (3=Clr Ver)

    Status Change Options Programming Enter a valid detector SLC address and the control panel displays information for If you enter an address for an analog heat detector (FST) or the detector on a screen similar to sample screen shown in Figure 89 with the other invalid address, the LCD current detector sensitivity selection blinking.

  • Page 98: How To Clear The History Buffer (4=Clr Hist)

    Programming Status Change Options counters. 3.5.7 How to Clear the History Buffer (4= CLR HIST Purpose The History buffer is an electronic record of the last 650 events recorded by the control panel. Events in the History buffer include all alarms, troubles, and operator actions, such as Acknowledge, System Reset, Signal Silence, Manual Evacuate (Drill), and Walk Test.

  • Page 99: How To Do A Walk Test (6=Walk Test)

    Status Change Options Programming 3.5.9 How to do a Walk Test (6= WALK TEST WARNING: A Walk Test can deactivate fire protection. When conducting a Walk Test, make sure to do the following: • Secure all protected buildings, and notify the building owner/operator, fire department, and other persons that testing of the system is in progress.
  • Page 100 Programming Status Change Options the control panel sends a trouble banner (“TEST Txx”) to the History buffer and optional printer. • Turns off the System Alarm relay. Doing a Walk Test This section contains instructions for performing a Standard and Silent Walk Test. Follow these procedures for doing both types of Walk Test.

  • Page 101: Section 4 Operation

    Overview Operation Section 4 Operation 4.1 Overview This section provides information for operating the control panel, divided into the main sections that are listed in Table 32. Refer to Section Topic(s) covered page The Membrane How to Use the Programming Keypad Panel How to Use the Enter Key and Cursor Keys How to Use the Operator Keys...

  • Page 102: The Membrane Panel

    Operation The Membrane Panel 4.2 The Membrane Panel 4.2.1 Overview Figure 97 shows the Membrane Panel, which contains the Programming Keypad, the Enter and Cursor keys, the Operator Keys, and the System Status LED Indicators. Programming A B C D E F Keypad ALL SYSTEMS NORMAL 09:45A THU 06/18/97...

  • Page 103: How To Use The Enter Key And Cursor Keys

    The Membrane Panel Operation 4.2.3 How to Use the Enter Key and Cursor Keys The Enter key and Cursor keys provide key functions such as: the cursor movement, scrolling, and backspace. Figure 99 contains an illustration of the Programming Keypad. Up Cursor key A B C D E F...
  • Page 104 Operation The Membrane Panel Acknowledge/Step " Purpose. Pressing the key silences the panel sounder and ACKNOWLEDGE STEP changes all flashing alarm, trouble, and supervisory LEDs to steady. " Operation Press the key once, no matter how many new ACKNOWLEDGE STEP alarm, trouble, or supervisory signals exist.

  • Page 105: How To Read System Status Led Indicators

    The Membrane Panel Operation System Reset " Purpose Press the key to reset the control panel to normal SYSTEM RESET operation (refer to “How to Operate the Panel in Normal Operation” on page 107). " Operation Pressing the key resets the control panel by doing the SYSTEM RESET following: •...

  • Page 106: How To Operate The Control Panel

    Operation How to Operate the Control Panel " When it lights The yellow LED flashes when a ALARM WARNING non-acknowledged fire Pre-Alarm threshold is reached. The LCD display indicates if it is an Alert or Action Pre-Alarm. " To turn off To turn off the LED, clear the pre-alarm ALARM WARNING condition.

  • Page 107: How To Operate The Panel In Normal Operation

    How to Operate the Control Panel Operation 4.3.1 How to Operate the Panel in Normal Operation “Normal operation” refers to a control panel that is operating normally—no alarms or troubles in the system and the “All Systems Normal” message appears in the LCD display.
  • Page 108 Operation How to Operate the Control Panel • Sounds a pulsed tone. • Flashes the LED. SYSTEM TROUBLE • Activates the trouble relay. • Sends a trouble message (see Figure 101 for a sample message) to the History buffer, to installed Terminal Mode LCD-80s, and to installed printers. How the Panel Displays a Trouble Figure 101 shows a sample trouble message for a module in trouble that appears on LCD display during trouble operation.

  • Page 109: How To Operate A Panel With A Trouble Monitor Point

    How to Operate the Control Panel Operation Troubles, in order of address. To manually step through events, press the key. ACKNOWLEDGE STEP 4.3.3 How to Operate a Panel with a Trouble Monitor Point Trouble Monitor points are monitor modules that monitor remote power supplies or other external equipment for short circuits.

  • Page 110: How To Operate A Panel With A Supervisory Condition

    Operation How to Operate the Control Panel A control panel in Fire Alarm operation does the following: • Activates the panel sounder with a steady sound. • Flashes the F LED. LARM • Displays a status banner of along with specific information about the ALARM activated device as shown in Figure 104.

  • Page 111: How To Operate A Panel With A Non-Alarm Condition

    How to Operate the Control Panel Operation 4.3.6 How to Operate a Panel with a Non-Alarm Condition What is a Non-Alarm Condition? A Non-Alarm condition results when a monitor module programmed with one of the three Non-Alarm type codes (see Table 34) activates. Non-Alarm points activate their programmed CBE—but do not activate the LED or the panel sounder.

  • Page 112: How The Control Panel Indicates A Panel Circuit Trouble

    Operation Control-By-Event Operation 4.3.8 How the Control Panel Indicates a Panel Circuit Trouble • LED flashes SYSTEM TROUBLE • Trouble relay turns on • A message is sent to the LCD display, History buffer, and installed printers, terminal mode LCD-80s, and CRT-2s •...

  • Page 113: Releasing Functions

    Releasing Functions Operation In Figure 108, the input device (detector D12) lists zone Z04 and the output device (B04) both lists zone Z04 in their CBE. If Detector D12 activates: Zone Z04 activates, which causes the device connected to B04 to activate. 4.5 Releasing Functions 4.5.1 Overview Zones 91-94 are reserved for releasing zones—providing up to four independent...

  • Page 114: Releasing Functions

    Operation Releasing Functions Figure 109 shows an example of one heat detector, three smoke detectors and an NAC/Panel Circuit mapped as a releasing zone, using cross zoning: Smoke Smoke Z02, Z91 Z01, Z91 Smoke Heat Z01, Z91 Z02, Z91 Figure 109 Cross Zoning Example "...

  • Page 115: Intelligent Detector Functions

    Intelligent Detector Functions Operation 4.7 Intelligent Detector Functions 4.7.1 Summary of Detector Functions Table 37 contains a summary of functions for intelligent detectors used with the control panel. Function Description Analog Display The control panel reads and displays analog information from the 99 analog detectors.

  • Page 116: Time Functions

    Operation Time Functions An Action Pre-Alarm is indicated if a detector exceeds the Action level threshold. When this occurs, all functions of the Alert level occur, plus a special Action software zone (5th zone) may be activated if programmed. Action Pre-Alarms latch until reset. Figure 111 shows a typical Action Pre-Alarm display: PREALM@SMOKE(PHOTO) ROOM@5024...

  • Page 117: Coding Operation (Nac Only)

    Time Functions Operation 4.8.2 Coding Operation (NAC only) Zone 98—reserved for NAC coding functions—is only used by NACs listing zone 98. You can select one of the four code types listed in Table 39: Code Signal March Time (default) 120 PPM (Pulses Per Minute) Two-Stage Alert signal –...

  • Page 118: Special System Timers

    Operation Read Status 4.8.4 Special System Timers The control panel can operate with special system timers: Silence Inhibit, Auto Silence, and Alarm Verification. Table 40 contains descriptions of how each timer works. Timer Duration If selected Silence Inhibit 0-300 seconds Starts at first alarm and restarts with each new alarm.

  • Page 119: How To Enter Read Status

    Read Status Operation 4.9.2 How to Enter Read Status Press the key. The control panel displays the Program Entry screen as shown in ENTER Figure 112: 1=PROGRAM 2=READ@STATUS (BACKSPACE@TO@ABORT) Figure 112 Program Entry Screen From the Program Entry Screen, press the 2 key. The control panel displays the Read Status screen as shown in Figure 113: READ@POINT=*/#,AA,E PRINT@POINTS=1,E...
  • Page 120 Operation Read Status Read Point Status Figure 114 shows an example of read point for a detector and Figure 115 shows an example of read point for a module. " Detector Example For example, to read the status of a photoelectric detector at address 13: press *, enter the address (13), then press the key.
  • Page 121 Read Status Operation Software Zones 01-89 To read the status of a zone directly, press *, press * again, then enter the two-digit zone number and press the key. Figure 116 contains a typical display that shows the ENTER status of zone 20: Zone Number OFF is the zone status (status can be ON or OFF).
  • Page 122 Operation Read Status Time Control – Software Zones 95 or 96 Figure 119 shows a typical display for the status of time control zone 95. In addition to automatic activation of non fire control points, this zone may be used for detector day/night sensitivity select.
  • Page 123 Read Status Operation Software Zone 99 (Pre-Alarm) Figure 122 contains a typical display that shows the status of software zone 99 (Pre-Alarm). Zone 99 turns on if any detector reaches it's Pre-Alarm threshold to indicate an incipient alarm, or the need for detector maintenance. Zone 99 can be mapped to any control point.

  • Page 124: Using The History Buffer

    Operation Read Status 4.9.5 Using the History Buffer What is a History Buffer? The History buffer is an electronic record of the last 650 events recorded by the control panel. For information on reading or printing the History buffer, refer to “Read Status Options”...
  • Page 125 Read Status Operation Table 42 contains instructions for moving around the History buffer. Press Display earlier events Display later events Exit and return to the Read Status screen or the SYSTEM RESET Table 42 Read History Navigation Keys What is a Shadow History Buffer? The control panel also has a non-erasable shadow History buffer that always contains the last 650 events in time.

  • Page 126: Appendix A Power Supply Calculations

    Power Supply Calculations Overview Appendix A Power Supply Calculations A.1 Overview This appendix contains instructions and tables for calculating power supply currents in alarm and standby conditions. This is a four-step process, consisting of the following: Calculating the total amount of AC branch circuit current required to operate the system.

  • Page 127: The Main Power Supply

    The Main Power Supply Power Supply Calculations A.3 The Main Power Supply The control panel's main power supply can supply a total of 5.0 A in alarm and 1.0 A in standby (Non-Alarm condition). The current available for powering external devices, however, is subject to lower limits as shown in Figure 126 and Figure 127.

  • Page 128: Calculating The System Current Draw

    Power Supply Calculations Calculating the System Current Draw A.4 Calculating the System Current Draw A.4.1 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 47.
  • Page 129 Calculating the System Current Draw Power Supply Calculations Table 47 contains three columns for calculating current draws. For each column, calculate the current and enter the total (in amps) in the bottom row. When finished, copy the totals from Calculation Column 2 and Calculation Column 3 to Table 48 on page 131.

  • Page 130: Calculating The Battery Size

    Power Supply Calculations Calculating the Battery Size Calculation Column 1 Calculation Column 2 Calculation Column 3 Category Primary, Non-Fire Alarm Current Primary, Fire Alarm Current Secondary, Non-Fire Alarm (amps) (amps) Current (amps) X [current draw]= total X [current draw]= total X [current draw]= total SUBTOTALS FROM PREVIOUS PAGE...

  • Page 131: Selecting And Locating Batteries

    Selecting and Locating Batteries Power Supply Calculations the cabinet door. Secondary Standby Load (total Required Standby Time from Table 47 Calculation (24 or 60 hours) Column 3) Primary Alarm Load (total from Required Alarm Time Table 47 Calculation Column 2) (For 5 min., enter 0.084, for 10 min., enter 0.168) AVPS-24/APS-6R Alarm Load...

  • Page 132: Appendix B Nfpa Applications

    NFPA Applications Section Overview Appendix B NFPA Applications B.1 Section Overview B.1.1 Specific Requirements The control panel is 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. The minimum system components required for compliance with the appropriate NFPA standard are listed below.

  • Page 133: Central Station Fire Alarm Systems (Protected Premises)

    Central Station Fire Alarm Systems (Protected Premises) NFPA Applications B.2 Central Station Fire Alarm Systems (Protected Premises) B.2.1 Installing a Notifier 911AC The Notifier 911AC for connection to a Central Station Receiver or Protected Premises Receiving Unit must be installed as shown in Figure 129. For additional information on the 911AC, refer to Document 74-06200-005.

  • Page 134: Installing A Udact

    NFPA Applications Central Station Fire Alarm Systems (Protected Premises) B.2.2 Installing a UDACT Figure 130 shows typical connections for wiring a UDACT to the control panel. For detailed wiring, configuration, and programming instructions for the UDACT, refer to the UDACT manual. When finished installation, review the checklist below. Note: This application requires compatible system software—the UDACT must have software PN 73624 or higher and the control panel must have software PN 73609 or higher.

  • Page 135: Nfpa 72 Auxiliary Fire Alarm System

    NFPA 72 Auxiliary Fire Alarm System NFPA Applications to 2 (refer to the UDACT manual)? Is the ACS/ TERM switch (SW2) on the control panel set to the ACS position? Is the control panel programmed for “ANNUN=UDACT”? Is the control panel configured for proper supervision? Supervise the UDACT via the COMM FAIL output (refer to Monitoring for UDACT Trouble in the UDACT Manual)? •...

  • Page 136: Wiring A Remote Station Fire Alarm System

    NFPA Applications Wiring a Remote Station Fire Alarm System Gamewell Model M34-56 Local Energy Municipal Box 4XTM Transmitter Module (activated position shown) Municipal Box Circuit Figure 132 Wiring a Municipal Box Connected to a 4XTM B.4 Wiring a Remote Station Fire Alarm System B.4.1 Overview The NFPA Remote Station Fire Alarm System standard is intended for connection to a polarity reversal circuit of a remote station receiving unit having compatible ratings.

  • Page 137: Using A 4Xtm Module

    Wiring a Remote Station Fire Alarm System NFPA Applications B.4.2 Using a 4XTM Module Figure 133 shows typical connections for wiring the control panel to remote station fire alarm system using a 4XTM module. 4XTM Transmitter Module (activated polarities shown) Remote Station Master Remote...

  • Page 138: Using An Rtm-8 Module

    Figure 134 Remote Station Connections Using an RTM-8 Module B.5 NFPA 72 Proprietary Fire Alarm Systems Figure 135 shows typical connections between an AUTOPULSE IQ-301 control panel and receiving unit (NIB-96 in an AM2020) for a proprietary fire alarm application.
  • Page 139 AM2020/AFP1010 and the control panel, a common connection between the two panels is not needed. However—a system common connection must be made from the AUTOPULSE IQ-301 to RPT-485W, and the IQ-301 ground fault jumper JP9 should not be cut. •...

  • Page 140: Appendix C Annunciators

    Appendix C Annunciators C.1 LCD-80 Display The LCD-80 alphanumeric display module is an AUTOPULSE IQ-301 ancillary device that provides two modes of operation: Terminal Mode, where the LCD-80 acts as a display repeater; and ACS Mode, where the LCD-80 acts as an alphanumeric annunciator.

  • Page 141: Acs Annunciation Interface (Tb5 On Cpu)

    ACS Annunciation Interface (TB5 on CPU) Annunciators C.3 ACS Annunciation Interface (TB5 on CPU) In ACS mode, the control panel annunciates its 99 software zones. The use of software zones lets you map any number of modules or detectors to a single LED. The ACS connection uses a standard EIA-485 interface, capable of two-way, high speed communications with multiple annunciators located up to 6,000 ft.
  • Page 142 Annunciators Annunciator Capacity ACS Point no. Red LED Yellow LED Yellow LED with UDACT Switch Comments Input System Alarm Acknowledge System Trouble System Trouble Output Not used Signals Silenced Signals Silenced Signal Silence See Note 1 Output Not used Not used Program Mode System Reset Output...
  • Page 143 Annunciator Capacity Annunciators ACS Point # Red LED Yellow LED Switch Comments Input Z57 Active Z57 Trouble Not used Input Z58 Active Z58 Trouble Not used Input Z59 Active Z59 Trouble Not used Input Z60 Active Z60 Trouble Not used Input Z61 Active Z61 Trouble...

  • Page 144: Terminal Mode Eia-485 Connections (Tb5)

    Connect the EIA-485 circuit as follows: Connect each LCD-80 to 24 VDC operating power (power-limited and supervised) to the AUTOPULSE IQ-301 as shown in Figure 139 on page 146. Set SW2 on the control panel to the TERM position (left position).

  • Page 145: Acs Mode Eia-485 Connections

    Connect the EIA-485 circuit as follows: Connect each LCD-80 to 24 VDC operating power (power-limited and supervised) to the AUTOPULSE IQ-301 as shown in Figure 139 on page 146. Set SW2 on the control panel to the “ACS” position (right position).

  • Page 146: Power Connections For Lcd And Acs Series Annunciators

    Annunciators Power Connections for LCD and ACS Series Annunciators C.7 Power Connections for LCD and ACS Series Annunciators This section shows how to wire power connections for ACS and LCD series annunciators. Note the following when making power connections: • All connections are power-limited.

  • Page 147: Acs And Ldm Series Eia-485 Connections

    Connect the EIA-485 circuit as follows: Connect each annunciator to 24 VDC operating power (power-limited and supervised) to the AUTOPULSE IQ-301 as shown in Figure 139 on page 146. Set SW2 on the control panel to the “ACS” position (right position).

  • Page 148: Appendix D Releasing Applications

    Releasing Applications NFPA Standards Appendix D Releasing Applications D.1 NFPA Standards The control panel can be used for agent release or preaction/deluge control applications. When used with compatible, UL-listed actuating and initiating devices, the control panel meets the requirements of the NFPA standards listed in Table 54: WARNING: When used for CO releasing applications, observe proper precautions as stated in NFPA12.

  • Page 149: Delay Timer

    Programming Releasing Zones Releasing Applications • Abort Timer • Cross Zone • Soak Timer D.2.2 Delay Timer A Delay Timer lets you program a delay time (0-60 seconds; 00=no delay timer) for output devices mapped to a releasing zone. In Figure 142 for example, B01 and B02 are mapped to releasing zone Z91.

  • Page 150: Soak Timer (Nfpa 16 Applications Only)

    Releasing Applications Programming Releasing Zones Table 56 contains examples of devices mapped to releasing zones: Device Address Device Type Zone Mapping Detector Smoke Z91 Z02 Detector Smoke Z91 Z02 Detector Smoke Z91 Z03 Detector Heat Z91 Z03 Output Circuit (Rel Ckt) Table 56 Example: Devices Mapped to Releasing Zones The following explanations apply to the examples listed in Table 56: •...

  • Page 151: Abort Timer

    Programming Releasing Zones Releasing Applications D.2.5 Abort Timer Description: Abort is the type of abort algorithm used by the releasing zone. There are four types of Abort Timers: ULI, IRI, NYC or AHJ. Table 57 contains descriptions of each Abort Timer: Type of Abort Description...

  • Page 152: Rel Ckt Ulc

    Releasing Applications Programming Releasing Zones D.2.9 Rel Ckt ULC Description: Rel Ckt ULC is a type code assigned to a control module, or one of the four control panel NACs. A device programmed with this type code activates a releasing solenoid or other releasing device as follows: •...

  • Page 153: Auxiliary Control Relay Functions

    Connecting Releasing Devices Releasing Applications separate zone (not Z91, Z92, Z93, or Z94) that is also mapped to all initiating devices of the hazard. D.2.13 Auxiliary Control Relay Functions You can also use control relays for releasing applications. To do so, set control modules for dry contact operation (refer to Table 24 on page 83).

  • Page 154: Connecting A Releasing Device To A Control Panel

    Releasing Applications Connecting Releasing Devices • For a list of compatible solenoid valves, refer to the Device Compatibility Document. • Terminate all unused circuits with a 4.7K ELR. Terminate all unused circuits with a 4.7K Compatible Solenoid ELR as shown. Valves For a list of compatible solenoid valves, refer to the...

  • Page 155: Connecting An Nbg-12Lra Agent Releasing Abort Station

    D.3.4 Connecting an NBG-12LRA Agent Releasing Abort Station Figure 148 shows typical connections for wiring an NBG-12LRA Agent Releasing Abort Station to the AUTOPULSE IQ-301. All wiring for releasing circuits is supervised against opens and shorts. When connecting this type of circuit, follow these instructions: For releasing applications, use an end-of-line device (part number REL-47K) with the control module.
  • Page 156 Releasing Applications Connecting Releasing Devices TB6-5 (-) SLC to IQ-301 TB6-3 (+) XP5-M 47K, Manual 1/2 w, Abort N-ELR 47K, 1/2 w, N-ELR Manual Release Agent release pull station (inside dotted lines) XP5-C Release Normal IQ-301 FM Approved +24 VDC Releasing TB1-1 (+) Device...

  • Page 157: Appendix E Combination Fire/Burglary Applications

    Overview Combination Fire/Burglary Applications Appendix E Combination Fire/Burglary Applications E.1 Overview The control panel can be used as a combination Fire/Burglary and Burglary system when installed, programmed, and operated according to the following: Task Refer to Install an STS-200 Door Tamper Switch Figure 150 on page 158 Wire the control panel for a security Figure 151 on page 159...

  • Page 158: Wiring For Proprietary Security Alarm Applications

    Combination Fire/Burglary Applications Installation Plug connector from STS-200 into J11 STS-200 Cabinet STS-200 wire run behind CPU board CPU board Figure 150 Typical Installation of an STS-200 Tamper Switch E.2.3 Wiring for Proprietary Security Alarm Applications Figure 151 shows typical wiring for proprietary security alarm applications with a control module configured as a Notification Appliance Circuit.

  • Page 159: Connecting To An Am2020/Afp1010 Receiving Unit

    Programming Combination Fire/Burglary Applications Refer to Device Compatibility Document for compatible Notification Appliance Circuits. IQ-301 Protected Premises Unit UL-listed, normally-open security switch SLC (Channel A or B) End-of-Line Resistor (A2143-00) UL-listed, normally-closed Monitor security switch Module UL-listed, normally-open security switch Monitor modules are programmed with type code End-of-Line...

  • Page 160: Operation

    Combination Fire/Burglary Applications Operation If needed, program additional sounders or output devices to activate when a security condition occurs. Repeat steps 1–3 for each monitor module security device. You can also use the Disable/Enable function to bypass security zones for burglar applications. E.4 Operation E.4.1 Overview A security type circuit indicates an alarm on an open or short circuit, or a resistance...

  • Page 161: Appendix F Wire Requirements

    Operation Wire Requirements Appendix F Wire Requirements Each type of circuit within the fire alarm control system must use a specific type of wire to ensure proper operation. Also, the wire gauge of a particular circuit depends on the length of that circuit. Use the table below to determine the specific wiring requirements for each circuit.

  • Page 162: Appendix G Pre-Alarm (Awacs™) Applications

    Pre-Alarm (AWACS™) Applications Overview Appendix G Pre-Alarm (AWACS™) Applications G.1 Overview The control panel includes a facility to give early warning of incipient or potential fire conditions (U.S. Patent Pending). This is a two-level (Alert and Action) Pre-Alarm function called AWACS™ (Advance Warning Addressable Combustion Sensing). G.2 Pre-Alarm Applications G.2.1 Pre-Alarm Alert Level The control panel software, in addition to checking for alarm levels, checks for...

  • Page 163: Action Level Pre-Alarm Function

    Pre-Alarm Programming Pre-Alarm (AWACS™) Applications G.2.2 Action Level Pre-Alarm Function Action Level Functions If a detector reaches a level that exceeds the programmed Action threshold, an Action condition is indicated. The following functions are performed at Action level: • The message is sent history file and to installed peripheral devices, such as the LCD-80 and printer.

  • Page 164: Selecting Pre-Alarm Application Levels

    Pre-Alarm (AWACS™) Applications Pre-Alarm Programming 99=Prealm. Figure 155 shows a sample panel display of the Pre-Alarm screen with default Alert and Action Pre-Alarm levels: Alert=70% of Alarm means that every photo and ion Status banner for detector will give an Alert indication when its sensitivity Pre-Alarm Zone 99 reaches 70% of its alarm level (default setting).

  • Page 165: Self-Optimizing Pre-Alarm Function

    Pre-Alarm Programming Pre-Alarm (AWACS™) Applications Latching and Non-Latching Pre-Alarm Levels Some applications only require one level of Pre-Alarm, but the Pre-Alarm must be latching. To program a latching (non-restoring) Pre-Alarm, select ALERT=00% and select an Action level. To program a non-latching (self-restoring) Pre-Alarm, select ACTION=00% and only select an Alert level.

  • Page 166: Audible Warning Applications For Awacs

    Pre-Alarm (AWACS™) Applications Pre-Alarm Programming programming, refer to Section 3 “Programming”. PROGRM@SMOKE(PHOTO) DETECTOR@ADDRESS@01 ZO3@Z@@@Z@@@Z@@@Z@@ HIGH@@@@@@*P*@@@@D01 P indicates that the AWACS™ Pre-Alarm function is operational. Figure 159 Point Programming Screen with Pre-Alarm Selected The control panel will determine the optimal Pre-Alarm Action Level sensitivity for each detector selected, after approximately 10 minutes of data sampling.

  • Page 167: Appendix H Special Zones

    Overview Special Zones Appendix H Special Zones H.1 Overview This appendix provides descriptions and options for the following Special Zones: Special Zones Used to define... Presignal and PAS selections Z95, Z96, Z97 Time Control selection, Holiday selections NAC Code Types Table 60 Special Zones Note: Special Zones 91–94 are covered in Appendix D “Releasing Applications”...

  • Page 168: Time Control

    Special Zones Time Control H.3 Time Control Note: All active Time Control outputs will turn off temporarily while resetting or programming the control panel. All outputs with a CBE equation containing Z95 or Z96 activate within the times specified for the days of the week listed in Z95 or Z96. All smoke detectors with a CBE equation containing Z95 or Z96 switch to their lowest sensitivity (2.0%) within the times specified for the days of the week listed in Z95 or Z96.

  • Page 169: Appendix I Terminal Interface Protocol

    General Description Terminal Interface Protocol Appendix I Terminal Interface Protocol I.1 General Description The control panel can communicate with a remote terminal or computer connected to the CPU EIA-232 port. (Refer to Section 2 “Installation” for installation information.) Set up the EIA-232 port for interactive operation or for monitoring only. Interactive operation requires that all equipment be UL-listed under UL Standard for Safety UL864 and be installed and set up as directed under Local Terminal Mode (LocT) or Local Monitor Mode (LocM).

  • Page 170: Local Monitor Mode (Locm)

    Terminal Interface Protocol Operating Modes Table 62 below summarizes the functions available with the Local Terminal mode: Function Lets you... Read Status • Display the status of an individual point (detector, module, panel circuit, or zone) • Display a list of all the points in alarm or trouble •...

  • Page 171: Using The Crt-2 For Read Status

    Using the CRT-2 for Read Status Terminal Interface Protocol Passwords: None Requirements: Use with UL EDP-listed terminals, including personal computers with Veri•Fire™ Upload/Download software or terminal emulation software. Intended for terminals connected through modems, including Notifier TPI modems connected through a public switched telephone network.

  • Page 172: Read Point

    Terminal Interface Protocol Using the CRT-2 for Read Status From the Read Status menu, you can select options 1-5. I.3.3 Read Point From the Read Status menu, select Read Point, option 1. The CRT-2 displays the following: Press Address or number Enter D(Det.) / M(Mod.) / B(Bell) / Z(Zone),AA or S(System params.)

  • Page 173: View The History Buffer

    Using the CRT-2 for Alter Status Terminal Interface Protocol I.3.6 View the History Buffer From the Read Status menu, select History-Step, option 4. This option lets you step through the history buffer one event at a time: The first line that appears displays the Press most recent event in the history buffer.

  • Page 174: Accessing Alter Status Options

    Terminal Interface Protocol Using the CRT-2 for Alter Status I.4.2 Accessing Alter Status Options Access the Alter Status function from the CRT-2 by following these steps. Turn on the CRT-2 connected to the control panel. Press the Alter Status function key. The control panel displays the Alter Status menu options: Press Enter Status Change Password or Escape to Abort...

  • Page 175: Change Detector Sensitivity Levels

    Using the CRT-2 for Alter Status Terminal Interface Protocol Example Disable the NAC at address 1: Press Press <E> to Enable or press <D> to Disable; then press <Enter>: Press B01 Now Enabled, Enter E(Enable) / D(Disable) or Esc. to Abort I.4.4 Change Detector Sensitivity Levels This option lets you change the Alarm and Pre-Alarm levels of any addressable detector in the system.

  • Page 176: Set The Pre-Alarm For Alert Or Action Level

    Terminal Interface Protocol Using the CRT-2 for Alter Status I.4.7 Set the Pre-Alarm for Alert or Action Level Set Action/Alert, option 5, lets you set the Pre-Alarm for Alert or Action. For example, set Alert level=50% and the Action level=70% as follows: Press Set % of Alarm: Alert(T) and Action(N) Format: TxxNxx...

  • Page 177: Appendix J Expansion Power Supplies

    The AVPS-24 mounts in the bottom of the AUTOPULSE IQ-301 cabinet. AC power required for the AVPS-24 is 120 VAC, 50/60 Hz, 1.0 A and AC power required for the AVPS-24E is 220/240 VAC, 50/60 Hz, 0.5 A.
  • Page 178 Expansion Power Supplies Overview continuous). The APS-6R mounts in the bottom of the AUTOPULSE IQ-301 cabinet. Figure 161 shows an APS-6R and the supplied Power Cable: Power Cable (71093) Figure 161 APS-6R Auxiliary Power Supply Electrical Specifications AC primary input power (TB1) Wire Size: #14 AWG with 600 VAC insulation 120 VAC, 60 Hz, 2.5 A...

  • Page 179: Programming

    Programming Expansion Power Supplies J.2 Programming Note: A control panel programmed for an AVPS-24/AVPS-24E/APS-6R cannot be used in a combination Fire/Burglary application, because the AVPS-24/AVPS-24E/APS-6R trouble input is the same input used to monitor the door tamper switch (STS-200). The control panel must be programmed to supervise the AVPS-24/AVPS-24E or APS-6R.

  • Page 180: Aps-6R Calculations

    Expansion Power Supplies Installation J.3.2 APS-6R Calculations Supply calculations for systems with an APS-6R follow: • Add 2.5 A for the APS-6R and 1.2 A for the APS-6R to the AC branch circuit current in Table 44 and Table 45. •...
  • Page 181 Installation Expansion Power Supplies WARNING: Use extreme caution when working with the AVPS-24 or APS-6R—high voltage and AC line-connected circuits are present in the AVPS-24 or APS-6R. Turn off and remove all power sources. To reduce the risk of electric shock—make sure to properly ground the AVPS-4R or APS-6R.
  • Page 182 Expansion Power Supplies Installation Figure 164 shows wiring connections between the AVPS-24/AVPS-24E and the control panel: Power Cable PN 71093 Supervisory Cable PN 71033 AVPS-24/AVPS-24E Battery Battery BB-17 Battery Box Figure 164 Wiring the AVPS-24 to the Control Panel IQ-301 PN 50036:F 10/29/2001...

  • Page 183: Installing The Aps-6R

    Installation Expansion Power Supplies J.4.2 Installing the APS-6R Mounting the APS-6R To mount the APS-6R, follow these steps: Place the APS-6R into the cabinet as shown in Figure 165. Insert mounting screws into cabinet; then tighten the screws until the APS-6R is securely fastened to the cabinet.
  • Page 184 Expansion Power Supplies Installation Step Action Connect AC power: Wire and Color from APS-6R... to Control Panel... Earth Ground (green) TB1 terminal 3 TB7 terminal 3 AC Hot (black) TB1 terminal 1 TB7 terminal 1 AC Neutral (white) TB1 terminal 2 TB7 terminal 2 Connect the battery: Wire and Color...
  • Page 185 Installation Expansion Power Supplies Figure 164 shows wiring connections between the APS-6R and the control panel: Power Cable PN 71093 Supervisory Cable PN 71033 APS-6R Battery BB-17 Battery Box Battery Figure 166 Wiring the APS-6R to the Control Panel IQ-301 PN 50036:F 10/29/2001...

  • Page 186: Appendix K Ul Power-Limited Wiring Requirements

    K.2 Typical Circuit with Nonpower-limited and Power-limited Wiring Note: For complete information on wiring an RTM-8 module, refer to “Installing an RTM-8 Module” on page 63. Figure 167 shows the RTM-8 module installed in the AUTOPULSE IQ-301 cabinet. Observe the following: •...

  • Page 187: Appendix L U.s. Coast Guard & Lloyd's Register

    U.S. Coast Guard & Lloyd’s Register Appendix L U.S. Coast Guard & Lloyd’s Register USCG. Table 70 contains a list of equipment suitable for use in marine and shipyard applications as compatible with the AUTOPULSE IQ-301. Notifier Equipment MMX-1 Addressable Monitor Module...
  • Page 188 U.S. Coast Guard & Lloyd’s Register Typical Circuit with Nonpower-limited and Power-limited Wiring Table 71 contains a list of equipment listed with Lloyd’s Register as compatible with the AUTOPULSE IQ-301. Notifier Equipment HPX-751 Addressable Hostile-environment (White) 29085 Ferrite Bead for I/O Lines...

  • Page 189: Appendix M Cbe Programming

    Purpose CBE Programming Appendix M CBE Programming M.1 Purpose Control-By-Event (CBE) is a programming method that lets you provide a variety of response based on various combinations of initiating events. CBE controls the interaction among the alarm initiating devices, software zones, and alarm notification appliances.

  • Page 190: Cbe Example 2

    CBE Programming How to Program CBE which puts Z05 into the CBE of D01 and M08. When detector D01 goes into alarm, control module M08—and all devices and zones mapped to M08—also activate. PROGRM@SMOKE(PHOTO) PROGRM@CONTROL DETECTOR@ADDRESS@01 MODULE@ADDRESS@08 ZO3@Z05@Z@@@Z@@@Z@@ Z00@Z05@Z@@Z@@Z 2.0%@@@@@@*P*@@@@D01 @@@@@@@@@@@@@S*M08 Both devices contain zone Z05 in its CBE list...

  • Page 191: Appendix N External Battery Charger

    Overview External Battery Charger Appendix N External Battery Charger N.1 Overview The CHG-120 is capable of charging 25 AH to 120 AH batteries. You must install an external battery charger if the power supply must deliver more than 3.0 A of current when no fire alarm signal is present.

  • Page 192: Mounting The Charger Into A Bb-55 Battery Box

    External Battery Charger Mounting the CHG-120 Mounting hooks Position 1: Lower right corner. Position 2: Lower left corner. Figure 171 Mounting a Charger into a CAB-X3 (CAB-C3 shown) To mount a charger into a CAB-X3 Series Cabinet, follow these instructions: Place the charger chassis mounting slots in line with the mounting holes in the cabinet.
  • Page 193 Mounting the CHG-120 External Battery Charger This means you only have room left for two 25 AH batteries in the BB-55. Figure 172 shows the mounting position of a charger in a BB-55. Optional bracket for mounting an optional AM-1 or VM-1 Self-tapping screws Figure 172 Mounting a Charger into a BB-55 To mount a charger into a BB-55 battery box, follow these instructions:...

  • Page 194: Connecting The Chg-120

    Figure 173 Connecting the CHG-120 to the IQ-301 N.4.1 Connecting a CHG-120 to the IQ-301 Connect CHG-120 (tied to four batteries) to the AUTOPULSE IQ-301 as follows: Remove all power sources to the charger. Tie the batteries in pairs by connecting the battery negative terminals and the battery positive terminals as shown in Figure 173.
  • Page 195 IQ-301 PN 50036:F 10/29/2001...
  • Page 196 ANSUL INCORPORATED ONE STANTON STREET MARINETTE, WI 54143-2542 715-735-7411...

Table of Contents

Save PDF