Overview
The DS200CTBAG1A analog termination module provides reliable signal termination and conditioning for GE Mark V turbine control systems. Engineers commonly install this module in industrial automation environments requiring stable analog signal collection and accurate process monitoring.
This termination board manages multiple analog input signals from field instrumentation and delivers structured communication to turbine control processors. Moreover, it enhances measurement stability by ensuring consistent signal transmission under continuous industrial operating conditions.
GE designed the DS200CTBAG1A for harsh industrial environments where vibration, temperature variation, and electrical interference can reduce signal accuracy. Therefore, it is widely used in power generation facilities and turbine control systems requiring dependable long-term performance.
The board integrates efficiently within GE Mark V architectures and supports organized analog signal routing across multiple control channels. In addition, its structured terminal layout simplifies installation and reduces maintenance effort during system servicing.
Industrial operators rely on this module because accurate analog signal handling directly affects turbine performance and system reliability. For instance, stable input data improves process control accuracy and supports safe turbine operation during load changes.
Functional Highlights
- Supports analog signal termination and distribution
- Designed for GE Mark V turbine control systems
- Ensures stable transmission of analog field signals
- Improves measurement accuracy and system stability
- Supports continuous industrial turbine operation
- Reduces electrical noise impact on signal quality
- Simplifies wiring organization and maintenance access
- Enhances long-term control system reliability
Specification
| Parameter | Specification |
|---|---|
| Product Model | DS200CTBAG1A |
| Manufacturer | GE Boards & Turbine Control |
| Product Type | Analog Termination Module |
| Series Compatibility | GE Mark V Turbine Control System |
| Primary Function | Analog signal termination and routing |
| Signal Type | Industrial analog input signals |
| Application Type | Turbine control and industrial automation systems |
| System Integration | Compatible with GE Mark V control architecture |
| Installation Method | Cabinet-mounted terminal board assembly |
| Wiring Configuration | Structured analog terminal layout |
| Operating Design | Continuous-duty industrial operation |
| Board Construction | Industrial-grade electronic terminal assembly |
| Signal Processing | Real-time analog signal management |
| Reliability Features | Stable signal accuracy and noise resistance |
| Environmental Suitability | Resistant to vibration and electrical interference |
| Maintenance Access | Accessible terminal connections for servicing |
| Cooling Method | Standard cabinet airflow ventilation |
| Typical Industries | Power generation, oil and gas, manufacturing |
| Lifecycle Application | Maintenance, retrofit, modernization projects |
| Operational Benefit | Improved analog accuracy and system stability |
FAQ
Q1: What is the main function of the DS200CTBAG1A module?
A1: The module manages analog signal termination and routing within GE Mark V turbine control systems.
Q2: Which systems commonly use this analog termination module?
A2: Industrial turbine control systems and GE Mark V platforms frequently use this module.
Q3: Why is analog signal stability important in turbine systems?
A3: Stable analog signals ensure accurate monitoring, safe operation, and reliable control performance.
Q4: Is the DS200CTBAG1A compatible with legacy GE Mark V systems?
A4: Yes, it is widely used in maintenance and modernization of GE Mark V turbine control systems.
Q5: Which industries typically use this module?
A5A: Power generation, oil and gas, petrochemical, and manufacturing industries commonly use this board.
Q6: Can technicians replace this module during scheduled maintenance shutdowns?
A6A: Yes, maintenance teams frequently replace it during planned outages to maintain system stability.
