Description
- Product Model: IS210WSVOH1A
- Manufacturer: GE
- System Platform: Mark VIe Gas Turbine Control System
- Output Channels: 8 (individually configurable)
- Output Type: Digital (Discrete)
- Voltage Range: 24V DC
- Current Rating: 0.5A per channel
- Response Time: ≤ 10ms
- Signal Type: On/Off (binary)
- Signal Isolation: 1500V AC
- Operating Temperature: -40°C to +70°C
- Storage Temperature: -40°C to +85°C
- Environmental Protection: IP20
- Power Supply Voltage: 24V DC
- Communication Interface: System Bus (via VME backplane)
- Compliance Standards: UL, CE, ATEX (where applicable)
- MTBF: 200,000 hours
- Diagnostics: Built-in self-test functionality
- Certification: UL Listed, CE Compliant
- Power Consumption: 5W
Technical Architecture & Functional Positioning
Architecture Analysis
The IS210WSVOH1A is designed to function as a signal output module within the Mark VIe system, typically used in gas turbine control applications. This module occupies the field I/O layer of the control architecture, ensuring precise output control and signal conversion from the system to field devices.
The module is built with a high-speed communication interface, typically VME, which allows it to transmit signals with a fast response time. Its primary role is to act as a relay between the controller and field equipment (e.g., actuators, solenoids, or other on/off devices), which requires reliable and timely digital signals for precise control of plant operations.
Core Technology
The IS210WSVOH1A employs solid-state technology for its output channels, ensuring long-term durability and a high resistance to environmental factors. Signal isolation (1500V AC) is a key design feature, enabling the module to safeguard against voltage spikes, electrical noise, and other forms of interference that may compromise system integrity. Self-diagnostics and built-in monitoring functions add another layer of reliability, automatically flagging any issues for preemptive maintenance.
Engineering Value
The signal isolation technology and fast response time of the module address common field issues such as signal degradation and slow control response, which can lead to plant inefficiencies or even safety incidents. The self-test function reduces human error during commissioning and troubleshooting, ensuring the module’s performance is verified before deployment.
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