Multiple wiring faults, Major component descriptions, System controller – Det-Tronics EQP Fire and Gas Detection/Releasing System User Manual

14.1

95-8533

2-5

muLtipLE WiRinG FauLts
In the event of multiple wiring faults on the LON, the

devices between the faults will continue to function,

but the faults will prevent them from communicating

with the Controller. See Figure 2-4. In this example,

nodes 1 to 4 communicate using one Controller port

(path A) and nodes 7 and 8 use the other Controller

port (path B). Nodes 5 and 6 are unable to report to

the Controller because they are isolated by the two

wiring faults. If a device is prevented from

communicating with the Controller, the text display on

the Controller will show the message “Device Offline”.

impoRtant!

Since it is impossible to predict where a network
fault might occur or exactly what effect it will
have on actual system operation, it is important
to diagnose and repair any fault as soon as
possible after it is detected to ensure continuous,
uninterrupted system operation.

mAJor component DeScrIptIonS

The system has three (3) main component groups —

the System Controller, LON (Local Operating

Network), and Intelligent Field Devices.

sYstEm ContRoLLER
The Controller (see Figure 2-5) performs all

communication, command, and control functions for

the system. The Controller supports both “Static” and

“Programmable” logic. Other features include:

• Redundant controller capability
• User pushbutton controls (reset, acknowledge, etc.)
• “Real time” system clock
• Internal alarm sounder
• Vacuum fluorescent text based display that shows

current system status

• 8 programmable unsupervised inputs

• 8 programmable unsupervised relay outputs
• RS-485 Modbus RTU communication interface that

supports coils, discrete inputs, and holding

registers

• Optional ControlNet communication board that

supports redundant communication channels.

• Optional Serial Interface Board (required for

controller redundancy).

Figure 2-5—System Controller

Controller Redundancy
The EQP controllers can be configured as a redundant

pair. See Figure 2-6. The redundancy scheme is a hot

standby system that offers the following primary

features:

• Automatic configuration of the standby controller
• Bumpless transfer
• Forced and automatic switchover
• No downtime on controller replacement
• Automatic synchronization between controllers
• Increased system availability

Figure 2-4—Communication over LON with Multiple Wiring Faults

D1853

NODE 1

NODE 8

NODE 3

NODE 6

NODE 2

NODE 7

NODE 4

NODE 5

PATH A

PATH B

WIRING FAULTS

EQP

CONTROLLER

EAGLE QUANTUM PREMIER
Safety System Controller

Fire Alarm

Inhibit

Power

Supr

High Gas

Trouble

Cntrl Flt

Lon Fault

Low Gas

Ack

Silence

Out Inhibit

Eagle Quantum Premier

Time & Date

Cancel

Enter

Next

Previous

Reset

Acknowledge Silence

DET

-

TRONICS

®

LON

S3

CONFIGURATION

SOFTWARE

ONE PROJECT FILE

LOADED TO

CONTROLLER A

CONTROLLER A

LON ADDRESS 1

CONTROLLER B
LON ADDRESS 2

DCS/PLC/HMI

HIGH SPEED

RS-232

SERIAL LINK

RS-232

SERIAL LINK

MODBUS

RS-485

A2275

Figure 2-6— Block Diagram of EQP System

with Redundant Controllers