F3200 Installation & Programming Manual

Document No: LT0122

Programming System Configuration

 

7.Equations may be entered for relays 1-64 even through the appropriate 8 Relay Modules are not fitted. The resulting states could be sent to an RDU or another device on the RZDU bus.

8.When driving the fault relay with logic, the following should be noted.

The fault relay can be controlled with logic by the equation

FLT = ... - some logic

It is recommended that the SFT token is included in the equation for the fault relay. e.g.

FLT = FLT + SFT + …

The FLT token is true when one or more MAF mapped non-isolated zones or module/ancillary relays are in fault.

The SFT token is true for system faults - these are listed in detail in section 6.6 of the F3200 Operator's Manual LT0119.

With no logic equation driving the brigade fault relay, the relay will energise for the following things.

1.non isolated maf zone/relay faults

2.all battery/ mains/ charger faults

3.RZDU system faults

4.circuit failed system auto test

5.network associated faults (discards, scan fails, zone or system faults received from other panels)

6.NZ mode defects (NDU only)

If you drive the fault relay with logic

FLT = FLT + SFT

then the fault relay will energise for some additional conditions which don't cause the fault relay to operate when there is no equation FLT = …

These include the conditions which normally cause the Standby relay to de-energise rather than energising the fault relay e.g. EEPROM database checksum error or LED display board fault.

For network systems, FLT = FLT + SFT does not include zone or system faults received from other panels.

9.For network systems, when driving the isolate relay from logic, the equation

ISO = ISO

does not include any maf isolate conditions received from other network panels.

7.4.8CONTROLLING ZONE LEDS

An output logic equation controlling a "module relay" where the relay number is in the range 65 to 256 is used to control a zone LED. F3200 allows a maximum of four 16 zone LED display boards corresponding to 64 zones. Relay equations with relay numbers 65-128 are used to control the alarm LEDs 1 to 64. Relay equations with relay numbers 129-192 are used to control the fault LEDs 1 to 64. Relay equations with relay numbers 193-256 are used to control the isolate LEDs 1 to 64. Relay numbers 65-256 cannot be used in the "right hand side" part of an equation as an operand. The LEDs being controlled will be either on steady or off - they cannot be selected to flash.

It is necessary to ensure that no zone or module relay is mapped to any LED being controlled by logic (mapping of zones to LEDs is described in section 7.3.3).

Page 7-28

5 July 2001

Issue 2.7

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Tyco F3200 manual Flt = Flt + Sft, Iso = Iso, Controlling Zone Leds
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F3200 specifications

The Tyco F3200 series is a sophisticated fire alarm control panel designed for use in various commercial and industrial settings. Renowned for its reliability and ease of use, the Tyco F3200 stands out for its advanced features and state-of-the-art technology, making it a preferred choice for fire safety professionals.

One of the key features of the Tyco F3200 is its modular design, which allows for customization based on specific building requirements. This flexibility enables users to scale the system efficiently, with the capability to connect multiple panels in a network configuration. This adaptability is crucial for large facilities that require comprehensive coverage across expansive areas.

The F3200 utilizes a microprocessor-based control technology that ensures swift processing and response times. This technology enhances the panel's ability to monitor and manage alarms, alerts, and system status, ensuring that users receive real-time updates and notifications in the event of an emergency. The intuitive user interface, characterized by a clear display and user-friendly controls, simplifies the operation process, making it easier for staff to manage the fire alarm system effectively.

Additionally, the Tyco F3200 is compatible with various detection devices, including smoke detectors, heat detectors, and manual pull stations. This compatibility means that the system can be tailored to meet specific safety needs, accommodating a wide array of environments. Furthermore, the panel supports both conventional and addressable devices, providing flexibility in system design.

Another significant advantage of the Tyco F3200 is its advanced communication capabilities. The panel can integrate with various alarm transmission technologies, including RS-232 and RS-485 interfaces, allowing for seamless communication with remote monitoring stations. This feature enhances the reliability of emergency response efforts.

Moreover, the F3200 includes robust diagnostic and reporting tools that help maintenance personnel ensure the system's optimal performance. It provides comprehensive event logs and troubleshooting features, allowing for easy identification of issues and efficient maintenance procedures.

In summary, the Tyco F3200 is an advanced fire alarm control panel that integrates cutting-edge technology, flexibility, and user-friendliness. Its modular design, quick response time, compatibility with various devices, and strong communication capabilities make it an excellent choice for anyone seeking a dependable fire alarm system. Whether for small businesses or large-scale operations, the F3200 delivers essential fire safety solutions tailored to meet the diverse needs of its users.
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