Description
Overview
The GE IS200VCRCH1BBB IS200VCRCH1B Digital Card belongs to the Mark VIe turbine control system and supports discrete input/output processing. Engineers use this compact single-slot board to manage 48 contact inputs and 24 relay outputs, including 12 solenoid and 12 dry contact channels. Its rugged design ensures reliable operation in demanding turbine environments.
Technical Specifications
| Parameter |
Value |
| Model Number |
IS200VCRCH1BBB IS200VCRCH1B |
| Module Type |
Digital Card |
| Manufacturer |
General Electric |
| Product Range |
Mark VIe |
| Condition |
Brand New |
| Lead Time |
In Stock |
| Weight |
0.3 kg |
| Dimensions |
2.1 x 18.8 x 26.2 cm |
| HS Code |
8537101190 |
| Minimum Order Quantity |
1 |
| Origin |
USA |
| System |
DCS |
| Status |
Active |
| Communication Service |
Ethernet router |
| Contact Inputs |
48 |
| Relay Outputs |
24 (12 solenoid, 12 dry contact) |
| Connectors |
J33, J44, JR1, JS1, JT1 |
| LED Indicators |
RUN, FAIL, STATUS |
Functional Description
The GE IS200VCRCH1BBB IS200VCRCH1B Digital Card operates as a discrete I/O processor board within the Mark VIe system. Input signals connect through TBCI terminal boards, while outputs link to TRLY boards. Engineers benefit from front-panel connectors and LED indicators that simplify diagnostics and monitoring.
This board supports both simplex and triple modular redundant (TMR) configurations, distributing input signals across three VME racks. Its compatibility with multiple TBCI versions ensures flexible deployment. Unlike the dual-slot VCCC model, the GE IS200VCRCH1BBB IS200VCRCH1B saves cabinet space with its single-slot design.
Applications and Compatibility
The GE IS200VCRCH1BBB IS200VCRCH1B Digital Card integrates seamlessly with Mark VIe turbine control systems. It suits industrial automation projects requiring precise input/output management, including gas and steam turbine applications. Compatibility with Speedtronic technology and factory-labeled terminals makes installation straightforward, while its rugged construction ensures long-term reliability in power generation environments.
