The IP Fire Series^TM from AsBuilt^TM Engineered Systems is a revolutionary IP-based fire control network consisting of a series of addressable control modules that can be distributed throughout any type of facility.

No central processing unit is required. Core modules connect to other core modules to form the fire protection system. With no single point of failure, distributed modules provide the greatest degree of scalability, survivability and building protection. True distributed architecture ensures reliable and timely response times.

Any module failure(s) will not impact the operation or timely response of any of the remaining modules. Modules that become severed from the IP Fire^TM control system will operate independently to provide the highest degree of system survivability. Upon rejoining the system, a previously severed module(s) will automatically synchronize its data and current status with all other connected modules without the need for human intervention.

The IP Fire Series^TM control equipment, detectors and addressable devices are all RoHS compliant. Please see our GREEN brochure.

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The first module on every IP Fire^TM network is a display module that is designated as the Virtual Panel Module (VPM). Network configuration and management are initially performed through the VPM. Its terminal interface display acts as a gateway to the other modules installed in the network and can interact with any device configured on those modules.

A single VPM can interact with up to 50 distributed modules of any type in any configuration. As modules are attached to the network, they obtain their IP address assignments from the VPM managing the modules on the fire control network. All modules are connected via an RTR-1, RTR-2, RTR-3 or equivalent hub, or directly (by use of a cross-over cable) to the VPM.

Once connected, SDM’s provide identical features/functions as the VPM. SDM’s may be installed in any number up to the system maximum of 50 modules.

VPM/SDM modules feature a ¼ VGA graphical user interface, programmable soft keys, system event annunciation, acknowledge, signal silence, and reset switches along with separate switches for sorting history logs. Drill and lamp test are also accessible from any VPM/SDM.

VPM/SDM modules feature two integral USB 2.0, Type A ports for easy system access. The USB ports can be utilized to program/back-up/restore any or all IPF Series modules located anywhere on the network to/from any standard USB Mass Storage Device.

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The architecture of an IP Fire Series^TM fire control network is comprised of a series of IP-based distributable modules. These modules include alternate configurations of analog loop and NAC circuit modules (ALM-xy), standard display modules (SDM), annunciator control modules (ACM) and other specialized modules noted in other documents.

The Analog Loop Module (ALM) communicates with all other modules installed on the network through an Ethernet connection and is addressed through the ALM’s unique IP address.

The ALM manages Class A/B Signaling Line Circuits (SLC), Class A/B Notification Appliance Circuits (NAC) or both, depending on the module configuration. The number of each type of circuit is specified by the trailing 2 digits in the ALM part number. Thus, an ALM-12 would have a single SLC and two NAC circuits.

Once programmed, each ALM maintains an integral 3000 event history log and will continue to operate its connected circuits even if communication with the remaining network is severed. Upon rejoining the network, the ALM will synchronize its data with the remaining modules.

IP Fire Series^TM systems feature SmokeClear^TM to report when smoke has cleared the chamber of any detection device. This information is reported to the panel and recorded in the history log allowing first responders to determine the length of time that smoke was present at any given location when evaluating conditions upon arrival. SmokeClear^TM will also put a notification on the system when pull stations have been reset signaling that the IP Fire^TM system can be reset.

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For installations requiring maximum redundancy, the RTR-1 is a fully managed switch capable of supporting Spanning Tree Protocol (STP) and Mesh Networking. STP allows the network design to include redundant links. Redundant links provide automatic backup paths (routes) to modules if an active link fails. A managed switch utilizing STP prevents the possibility of creating ‘bridge loops’ or other issues that could develop with redundant path networks.

The RTR-2 is a cost effective lightly managed switch designed to cover most application needs.

Both the RTR-1 and RTR-2 are UL 864/9th edition listed for use on the IPF Series™ fire network.

The RTR-3 is a fiber-optic switch supporting distances up to 2 or 40 km depending on mode. 10 variations are available based on connector types, transmission method and available fiber ports.

All switches are UL864/9th Edition listed.

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Power requirements can be varied according to the systems layout. The IPF Series^TM accommodates either centrally located or distributed power.

The Power Supply Monitor (PSM) supervises the power supply (PS-24), battery charger (APS-4), and provides for internal/ external distribution of power throughout the system. External power runs are power limited.

Multiple instances of the power supply may be installed throughout an IP Fire Series^TM installation as required.

There are no system limitations on the amount of power that can be installed/distributed.

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Distributed modules are housed in AsBuilt IPF Series^TM cabinets that are available in a variety of configurations to accommodate any building requirement.

Large (IPF-XL), medium (IPF), and small (REM) cabinets can be configured to accommodate single modules, multiple modules, with or without displays/with or without local power.

The IPF cabinet (IPF) fits between standard stud placements, measures 14Wx23Hx4.5 deep and is available with three different door options. Access to the display functions are limited with the IPF cabinet by a key-activated enabled/disable switch.

The larger IPF-XL can accommodate a display and up to 4 additional system modules, common control cards, two power supplies and an additional 8A of power available for charging batteries. IPF-XL cabinets are available in a variety of configurations behind a clear locked Lexan door. The IPF-XL measures 22Wx23Hx5.5D.

REM series cabinets measure 14Wx10.5Hx4.5D or 9Wx12Hx3D and house from one to three system modules – with or without displays. Displays in REM cabinets are also key-enabled.

An REM-R enclosure can be configured to mount a single module, a single module with space for common control cards or two modules – all with or without a system display (VPM or SDM). The REM-R and REM-C enclosures do not provide room for a power source. The REM-R and REM-C must be powered with 24V from a separate IPF distributed enclosure. Power monitoring is provided by the power supply monitor module (PSM) located at the power source.

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Pre-configured systems consist of pre-packaged IP-based modules in a single fire alarm enclosure. These systems are ideal for retrofit to existing buildings when field wiring has previously been terminated at a central location or for installations where the governing Authority Having Jurisdiction requires it.

Pre-configured systems are ideal for small to medium buildings or as a starting point in a wider distributed IP Fire^TM network. IP Fire^TM pre-configured systems may be networked with other IP Fire^TM system modules up to the system maximum of 50.

All IP Fire Series^TM features are available including a ¼ VGA graphical display, 3000 event history log per module, group or zone programming, coded signaling, day/night sensitivity settings, drift compensation and much more.

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Both distributed network systems and pre-configured central systems require the capability to accommodate common control or panel level functions.

The IP Fire Series^TM panel-level common cards can connect to any display module located anywhere on the network.

The Common Control Relay Card (CCR) provides for Common Alarm, Common Trouble and Common Supervisory relays (NO/CO/NC) activated by events anywhere on the fire control network. The three relays are rated at 2.0A @30 VDC Resistive load each.

Both distributed network systems and pre-configured central systems require the capability to accommodate common control or panel level functions.

The IP Fire Series^TM panel-level common cards can connect to any display module located anywhere on the network.

The Common Control Relay Card (CCR) provides for Common Alarm, Common Trouble and Common Supervisory relays (NO/CO/NC) activated by events anywhere on the fire control network. The three relays are rated at 2.0A @30 VDC Resistive load each.

The CCR can be mounted with any VPM or SDM installed on the network fire system by a simple ribbon cable connection. Multiple instances of the CCR may be installed as required on each display module installed on the network and up to two CCR boards may be daisy chained together off of any single network module. The CCR is mounted directly to the system chassis within the cabinet.

The Masterbox/Line Reversal card (MBLR) is also mounted with any display module installed on the network fire system by a simple ribbon cable connection. If present, the MBLR may be daisy-chained directly off of the CCR. The MBLR is mounted directly to the system chassis within the cabinet.

IP Fire Series^TM network modules will continue to operate independently during communication loss. Since the CCR and MBLR may be installed in multiple instances and located in distributed enclosures throughout the facility, redundant connections to outbound signaling systems such as dialing devices, digital transmitters or other notification systems add security to the installed system by adding redundant paths to external reporting agencies.

The USB extension board (UXB) extends the two on board USB 2.0 Type A connectors that are available as standard on all Virtual Panel Modules (VPM) and Standard Display Modules (SDM) to the front of the system cabinet for ease of programming and service.

System USB ports are used for programming and to backup/restore any or all system modules to/from any standard USB Mass Storage Device.

The UXB on the IPF-XL is protected from unauthorized access by a locked Lexan door. IPF-xy and REM-R cabinetry utilize the system’s key activated enable/disable switch (USB-KS) which enables/disables the UXB along with all display functions/buttons.

Programming an IPF distributed or pre-configured system from any VPM or SDM module is accomplished by using the optional built-in QWERTY keypad or by connecting any USB enabled wired or wireless keyboard to the either of the systems two USB ports.. The panel configuration of individual modules or all modules may be easily downloaded/uploaded at any time to/from any standard USB Mass Storage Device. No PC is required.

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The KPD is a fully functional QWERTY keypad that is used when programming the system from any display module. The KPD mounts directly to the front of the cabinet and attaches to the Virtual Panel Module (VPM) or Standard Display Module (SDM) by a ribbon cable.

The KPD is offered for installations where immediate access to system programming functions may be required.

The keypad (KPD) can be added as an option to the IPF and IPF-XL distributed cabinet lines or with all of the pre-configured systems (see Data Sheets 1045 and 1050).

If no KPD is available, any standard USB enabled wired or wireless keyboard may be attached to the system through either of the two integral USB 2.0 Type A ports located on the VPM and on all SDM’s attached to the system.

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The XP range of intelligent fire detectors from As Built Engineered Systems are advanced in design and have unique features that benefit the installer and end user.

The range includes photoelectric (XP-P) and ionization (XP-I) smoke detectors, heat detectors (XP-T) and a multisensor XP-M). All have an unobtrusive profile, a zero insertion force base, user friendly addressing and extended data and alarm functions.  

A unique, patented XPert card provides simple, user friendly and accurate identification of detector locations whereby a coded card, placed into the side of the base, is read by any detector that is inserted into the base. Using the XPert addressing card simplifies and speeds up the installation and commissioning processes. Addressing errors during maintenance and service are eliminated. Any detectors that are maintained or inadvertently put back into the wrong location will not impact device programming or any of the output events that are generated by a device address including information that is automatically reported to a central receiving service under emergency situations.

The XP detectors provide an alarm facility that automatically puts an alarm flag on the data stream and reports its address when the pre-set UL 864/9^th edition thresholds are exceeded. The AsBuilt IP Fire Series ALM monitors XP devices for such conditions and activates the pre-programmed output functions as implemented by the system designer, installer or system maintenance personnel.

The IP Fire Series^TM control equipment, detectors and addressable devices are all RoHS compliant. Please see our GREEN brochure.

See the full Data Sheet

The Discovery range of intelligent fire detectors from As Built Engineered Systems are advanced in design and have unique features that benefit the installer and end user.

The range includes photoelectric (DISC-P) and ionization (DISC-I) smoke detectors, heat detectors (DISC-T) and a multisensor DISC-M). All have an unobtrusive profile, a zero insertion force base, user friendly addressing and extended data and alarm functions.

Each detector in the Discovery range can operate in one of five response modes, any of which can be selected from the control panel. Each mode corresponds to a unique response behavior, broadly related to sensitivity to fire. Whatever the type of detector, mode 1 will give a higher sensitivity to fire than mode 5. The selection of the most suitable mode depends on the application.

Discovery detectors also employ use of thepatented XPert programming card toprovide simple, user friendly and accurate identification of detector locations whereby a coded card, placed into the side of the base, is read by any detector that is inserted into the base. Using the XPert addressing card simplifies and speeds up the installation and commissioning processes. Addressing errors during maintenance and service are eliminated. Any detectors that are maintained or inadvertently put back into the wrong location will not impact device programming or any of the output events that are generated by a device address including information that is automatically reported to a central receiving service under emergency situations.

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IPF Series distributed intelligent systems can be wired as Style 7 (Class A) closed loop systems. When placed on the analog loop, the DXP-ISO line isolator module ensures that all devices remain active if an open condition exists on the circuit. In a short circuit condition, the entire analog circuit could potentially be disabled. By strategically placing isolators along the analog circuit only the shorted area fault condition between isolators would be affected.

The DXP-ISO uses its own unique installation base (DXP-LIB) which will not accept any other device eliminating the possibility that any other IPF Series^TM devices could be installed in place of the isolator. The DXP-ISO is compatible with XP and DISC detector circuits.

The DXP-IB is a unique isolating base that accepts both XP and Discovery detectors – eliminating the need for traditional isolator bases at separate locations. Both XP and Discovery detectors may be mounted directly onto the DXP-IB.

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AsBuilt^TM offers a variety of addressable devices. These devices mount on and are powered by the IP Fire Series^TM SLC located on the ALM. The addressable input and output devices provide the IP Fire^TM system with the facility to exercise considerable control over other building functions with its advanced Group/Zone and/or Boolean logic control-by-event functions.

 The IP Fire Series^TM control equipment, detectors and addressable devices are all RoHS compliant. Please see our GREEN brochure.

 Switch Monitors

AsBuilt switch monitors DXP-PIM, DXP-MPIM, DXP-PID and DXP-MPID are addressable devices that are a means of connecting and identifying conventional monitor points at the main IPF Series^TM system.

AsBuilt switch monitors are available in two varieties (standard or priority-interrupt) under two different constructions (plate mounted for 4” boxes/mini-module with flying leads for use in a single gang box).

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Input/Output Modules

The AsBuilt’s addressable Input Output Module (DXP-IOM) provides for two different types of input and one relay output all on single addressable module - yet uses only one device address.

 The DXP-IOM is a loop powered device that incorporates:

•1. a supervised input circuit for switch monitoring, or,

•2. a non-supervised opto-coupled input (open collector) for the monitoring of 12 or 24VDC input voltages, and,

•3. a volt-free relay output

The supervised inputs are designed to monitor the state of one or more single-pole, volt-free contacts connected on a single pair of cables and may be wired in either a Class A or B (Style D or B) fashion.

The opto-coupled open collector input circuit can be used to monitor for the activation of any 12 or 24VDC circuit. Supervision is not required if the connection length is less than 3 feet.

The volt-free relay is fired programmatically through the IPF control system and NOT automatically (by simple activation of the input - unless programmed to do). The relay portion of the DXP-IOM may be activated by any other input device on the system independent of the status of the two input circuits located on the same card. This allows the DXP-IOM to truly function as two distinct addressable controls while only occupying a single SLC address point in a cost effective application.

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Sounder Control Modules

AsBuilt Sounder Control Modules (DXP-SDR) are addressable devices that provide a means to remotely locate a fully supervised circuit for the operation of signal appliance such as horns, strobes and horn/strobes. The DXP-SDR can also monitor and control PA speaker circuits from the main IPF Series^TM system via the SLC.

The DXP-SDR module incorporates a synchronization facility which allows the outputs of groups of modules to be synchronized by commands from the IP Fire Series^TM control panel. Multiple DXP-SDR devices may be programmed to multiple Group Addresses through the Group Addressing switch (S2).

When used as a PA speaker circuit a separate audio amplifier is required (35-70V). The audio amplifier must have wire supervision capability as per NFPA.

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Output Control Modules

The AsBuilt output control monitor (DXP-OCM) is an addressable device that is a means of connecting to and controlling building functions such as electromagnetic door holders, dampers, motors, elevators and disconnects from the main IPF Series^TM system.

When tied to specific smoke detectors, switch monitors and other initiating devices, the DXP-OCM allows the IPF Series^TM fire control to exercise significant automatic control over all building functions in accordance with local building requirements.

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Dual Point Identification Devices

The AsBuilt Dual Priority Input Device (DXP-2PID) is an addressable dual switch monitor that is a means of connecting and identifying two conventional monitor point circuits at the main IPF Series^TM system.

The DXP-2PID’s are designed to monitor the state of one or more single-pole, volt-free contacts connected on a single pair of cables on two separate circuits.

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