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IS200ERDDH1A GE Exciter Regulator Dynamics Discharge Board

IS200ERDDH1A GE Exciter Regulator Dynamics Discharge Board

Manufacturers :GE
Model(s)  :IS200ERDDH1A
Additional Information :Exciter Regulator Dynamics Discharge Board
Estimated Shipping Size
Dimensions: 263 × 58 × 28mm
Weight:.4.3 kg
Country of Origin: United States of America

 

Categories: , SKU: IS200ERDDH1A

Description

Overview


Essential details:IS200ERDDH1A GE Exciter Regulator Dynamics Discharge Board

IS200ERDDH1A Technical Specifications

Alphanumeric Catalog Number IS200ERDDH1A
Function Gate Drive Control, Controls Excessive DC Link Voltage
Mounting Location Simplex; ERBP Backplane. Redundant; ERBP Backplane and ERRB Backplane
Operating Modes Simplex or Redundant
Redundant Mode Control K41 De-Excitation Relay
Series EX2100 Excitation Controller
Simplex Mode Control K3 Charging Relay

Product Description

The IS200ERDDH1A model is part of the EX2100 series and is an Exciter Regulator Dynamics Discharge Board. The ERDD model has two operating modes, simplex and redundant. Each application mode is used differently as well as mounted differently.

IS200ERDDH1ABB

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IS200ERDDH1A GE Exciter Regulator Dynamics Discharge Board

When the IS200ERDDH1A is being used in simplex mode the model controls the K3 charging relay; when the board is being used in the redundant mode it will control the K41 de-excitation relay. The mounting places of the ERDD mode when operating in simplex and redundant mode are different, when in simplex mode the IS200ERDDH1A is mounted in the ERBP backplane and when in redundant mode two ERDD models must be used, one is mounted in the same location as the model in simplex mode and the other board will be mounted in the ERRB backplane.

Another function of the board is to provide feedback from the bridge to observe the output field and DC link voltages. When monitoring these the board also allows for observation of output shunt currents, IGBT gate drive statuses, and bridge temperature. The IS200ERDDH1A board is also typically used to control the excess DC link voltages through the dynamic discharge of the model.