GE IS200VRTDH1D High-Performance Turbine Control Board Module for Mark VI Industrial Automation System
GE IS200VRTDH1D High-Performance Turbine Control Board Module for Mark VI Industrial Automation System
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Brand:GE Fanuc PLC Item No.:GE IS200VRTDH1 Product Origin:USA Product Dimensions:210 mm × 160 mm × 30 mm Product Weight:0.65 kg Payment:T/T, Western Union, Credit Card Goods_stock:15 Shipping Port:Xiamen, China Lead Time:1-3 Days Condition:Brand New And Original Warranty:1 Year Certificate:COO
The GE IS200VRTDH1D is a high-performance turbine control board module engineered for integration within the Mark VI control architecture. Designed to operate in mission-critical power generation environments, this board plays an essential role in signal regulation, internal system coordination, and reliable control execution.
Built with industrial-grade components and strict quality standards, the IS200VRTDH1D ensures stable operation in continuous-duty applications. Its rugged PCB structure and precision circuitry allow it to perform consistently in vibration-prone and temperature-variable turbine environments. For facilities prioritizing uptime and control accuracy, this module represents a dependable solution.
Technical Specifications
Parameter
Details
Model
IS200VRTDH1D
Module Category
Turbine Control Board Module
System Compatibility
Mark VI Turbine Control Platform
Power Supply
Backplane powered
Mounting Method
Rack-mounted PCB
Dimensions (L × W × H)
210 mm × 160 mm × 30 mm
Weight
0.65 kg
Operating Temperature
0°C to +60°C
Storage Temperature
-40°C to +85°C
Humidity
5–95% non-condensing
Application Environment
Industrial power generation
Recommended Related Models
For optimized system configuration, the following modules are commonly used alongside the IS200VRTDH1D:
GE IS200VCRCH1B
GE IS200VCMIH1B
GE IS200VAICH1D
GE IS200TSPCH1C
GE IS200VGENH1B
These boards expand control capacity, signal processing functionality, and overall system coordination within Mark VI racks.
Popular GE Turbine Control Modules
The following models are widely implemented across turbine automation projects:
GE IS200DSPXH1D
GE IS200TSVOH1B
GE IS200TBAIH1C
GE IS215UCVEM06A
GE IS200VTURH1B
They are frequently selected for both modernization projects and ongoing plant maintenance programs.
Applications
The IS200VRTDH1D module is typically deployed in:
Gas turbine control systems
Steam turbine automation platforms
Combined-cycle power stations
Industrial cogeneration facilities
Turbine monitoring and regulation systems
Its design supports high-availability environments where precise timing and consistent signal handling are critical.
Core Advantages
Industrial-Grade Reliability
Engineered for long operational life under demanding plant conditions.
Precision Control Integration
Ensures accurate coordination within turbine control sequences.
Seamless Mark VI Compatibility
Direct integration reduces commissioning time and configuration complexity.
Stable Signal Processing
Supports deterministic control logic and system stability.
Low Maintenance Requirement
Designed for extended service intervals in continuous-operation facilities.
Technical FAQs
1. What system is this module designed for?
It is specifically designed for the Mark VI turbine control system.
2. What are the physical dimensions?
210 mm × 160 mm × 30 mm.
3. How much does the module weigh?
Approximately 0.65 kg.
4. How is the module powered?
It receives power through the control rack backplane.
5. Is it suitable for gas turbines only?
No, it supports both gas and steam turbine applications.
6. What environmental conditions does it tolerate?
Operating temperature from 0°C to +60°C, with non-condensing humidity up to 95%.
7. Can it be used for system upgrades?
Yes, it is commonly applied in retrofit and modernization projects.
8. Is field wiring required directly to the board?
No, it interfaces through the system backplane and associated modules.
9. What is its primary role within the system?
It supports control coordination and signal management within the turbine control architecture.
10. Is it built for continuous-duty operation?
Yes, it is engineered for 24/7 industrial power generation environments.
