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DS200SHCAG1C - Shunt Connector Card is available in stock which ships the same day.
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SPECIFICATIONS:
Part Number: DS200SHCAG1C
Manufacturer: General Electric
Series: Mark V
Product Type: Shunt Connector Card
Power Requirements: +5 V dc, 6 A
Number of input channels: 12
Number of outputs: 125 V dc
Trip Solenoid Rating: 125 V dc
Power supply voltage: 28 V dc
Input Voltage: 12 V dc
Technology: Surface mount
Operating temperature: 40 to 85�C
Size: 33.0 cm x 17.8 cm
Repair: 3-7 Day
Availability: In Stock
Country of Origin: United States
Manual: GEH-6385
FUNCTIONAL DESCRIPTION:
DS200SHCAG1C is a Shunt Connector Card manufactured and designed by General Electric as part of the Mark V Series used in GE Speedtronic Gas Turbine Control Systems. A shunt connector card serves as a bridge between various electrical components within a turbine control system. It facilitates the measurement and regulation of electrical currents, ensuring precise control and monitoring. The shunt connector card plays a crucial role in establishing secure connections between different control system elements. It ensures that electrical signals travel efficiently without interruptions, thereby maintaining system integrity. The shunt connector card enables precise monitoring and regulation by accurately measuring the current passing through the system. This capability is essential for maintaining operational efficiency and preventing potential damage due to overload or underutilization.
FUNCTIONING OF SHUNT CONNECTOR CARD:
Measurement of Current: When current flows through the shunt resistor, it generates a voltage drop proportional to the magnitude of the current. This voltage drop is then measured and converted into a digital or analog signal, providing real-time information about the current status of the system.
Voltage Drop Calculation: By accurately calculating the voltage drop across the shunt resistor, the shunt connector card determines the current flowing through the system. This information is essential for various control and monitoring functions, ensuring optimal performance and safety.
TYPES OF SHUNT CONNECTOR CARDS:
Analog Shunt Connector Cards: Analog shunt connector cards provide continuous, real-time monitoring of current levels. They offer precise measurements with high resolution, making them suitable for applications where fine-tuning is required.
Digital Shunt Connector Cards: Digital shunt connector cards convert the analog current signal into digital format for processing and analysis. They offer advantages such as noise immunity and compatibility with digital control systems, making them ideal for modern turbine control applications.
INSTALLATION AND MAINTENANCE:
Proper Mounting Techniques: Proper installation of the shunt connector card is crucial for optimal performance and reliability. Following manufacturer guidelines and best practices ensures secure mounting and electrical connections, minimizing the risk of malfunction or damage.
Regular Inspection and Calibration: Regular inspection and calibration of the shunt connector card are essential for maintaining accuracy and reliability. Periodic checks ensure that the card remains within specified tolerance limits, providing accurate current measurement and control.
WOC has the largest stock of GE Speedtronic Control System Replacement Parts. We can also supply unused and rebuilt backed-up with a warranty. Our team of experts is available round the clock to support your OEM needs. Our team of experts at WOC is happy to assist you with any of your automation requirements. For pricing and availability on any parts and repairs, kindly contact our team by phone or email.
How does a shunt connector card differ from other current sensing methods?
Shunt connector cards offer direct measurement of current flow by utilizing a shunt resistor, providing accurate and reliable readings compared to indirect methods like Hall effect sensors or current transformers.
Can shunt connector cards be customized for specific turbine applications?
Yes, shunt connector cards can be customized to meet the requirements of specific turbine control systems, including variations in the current range, voltage rating, and form factor.
What maintenance tasks are involved in ensuring the longevity of shunt connector cards?
Regular inspection for signs of wear or damage, calibration checks, and ensuring proper thermal management are key maintenance tasks to ensure the longevity and performance of shunt connector cards.
