ds200tbqeg1b

LM6000(RST)ANALOG TE

Product DESCRIPTION

Specifications

Part Number

ds200tbqeg1b

Manufacturer

General Electric

Country of Manufacture

As Per GE Manufacturing Policy

Series

Mark VI/VIe

Function

Module

Availability

In Stock

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TECHNICAL SPECIFICATIONS FOR GE - ds200tbqeg1b

DS200TBQEG1B is an LM6000 Analog Termination Module under Mark V series. Location 7 of the R1 core houses the LM6000 Analog Termination Module (TBQE). The TCQE board in the R1 core's inputs and outputs are all found in TBQE, which is used for all LM engine applications. The proximity transducer, accelerometer, LVDT/R position feedback inputs, RTD inputs, and pulse rate signals for LP Shaft speed monitoring and shear protection applications are among the inputs read by the TBQE terminal board. For processing, these signals are written to the TCQE board. The TBQE terminal board receives the 4 -20 mA outputs from the TCQE.

DS200TBQEG1B Connections

JLLR writes the pulse rate, RTD, and LVDT/R position inputs to the TCQE board in the R1 core. reads the TCQE board's mA output signals in the R1 core.
The proximitor and vibration signals are written by JQQR to the TCQE board in the R1 core.
JLLS/T - Not used
JQQS/T - Not used

TBQE Hardware Configuration

Hardware Setup for TBQE
BJ1 and BJ2 â Choose between a maximum current output range of 20 mA or 200 mA for the two mA output signals.

DS200TBQEG1B Features

Two terminal blocks are included on the analog board.
Each block comprises 95 signal wire connections. 2 jumpers and 6 34-pin connections are also present.
The IDs for the 34-pin connections are printed on the board's surface. JQQR, JQQS, and JQQT are three 34-pin connectors. JLLR, JLLS, and JLLT are three more 34-pin connections. Before removing the ribbon cables from the 34-pin connectors, it's a good idea to put labels on the ribbon cables to show where they're attached. This allows the installer to connect the cables to the replacement board without making any mistakes.
It's also crucial to pay attention to how the ribbon wires are routed within the drive. Inside the cabinet, space is restricted, thus cable routing will allow for optimum ventilation, which will help cool the cabinet's heat-generating components.
The drive is built in such a way that cool air enters at the bottom and takes heat away from the components as it climbs. It escapes as hot air at the top of the drive.
The second advantage of correct cable routing is that power cables are kept separate from signal and ribbon cables. When power cables are routed close together in a drive, they are known to interfere with signal-carrying cables.
The board is mounted to the board rack within the drive with 5 screws due to the weight of the terminal blocks and related signal lines. The board's weight is increased by the 6 ribbon cables connected to the 6 34-pin connections.

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