DS3800HMPA - Microprocessor Circuit Board

DS3800HMPA - Microprocessor Circuit Board DS3800HMPA - Microprocessor Circuit Board

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Part Number: DS3800HMPA
Manufacturer: General Electric
Series: Mark IV
Product Type: Microprocessor Circuit Board
Operating temperature: -30 to 55 degrees Celsius
Size: 8.25 cm high x 4.18 cm
Availability: In Stock
Weight: 2 lbs
Country of Origin: United States


DS3800HMPA is a Microprocessor Circuit Board manufactured and designed by General Electric as part of the Mark IV Series used in gas turbine control systems. In turbine control systems, microprocessor circuit boards play a critical role in ensuring the efficient and safe operation of turbines, which are commonly used in power generation, aviation, and industrial applications. 2MHz indicates the clock speed or operating frequency of the processor. Clock speed represents the number of cycles the processor can execute per second. It operates at a frequency of 2MHz, which means it can perform 2 million cycles per second. The card typically interfaces with memory modules or storage devices to fetch instructions and data. It supports memory addressing and data transfer operations to read from and write to the memory. Here's how microprocessor circuit boards are involved in turbine control systems:

Controller Integration: Microprocessor circuit boards are used to integrate the control logic and algorithms that govern the operation of turbines. These controllers receive input signals from various sensors (such as temperature, pressure, and speed sensors) that monitor the turbine's conditions.

Signal Processing: The microprocessor circuit boards process the incoming sensor data and execute complex control algorithms. These algorithms help regulate the turbine's parameters, such as fuel flow, air intake, and speed, to ensure optimal performance and prevent dangerous conditions.

Safety and Fault Detection: Microprocessor circuit boards are equipped with safety features and fault detection mechanisms. They continuously monitor the turbine's performance and can detect anomalies, malfunctions, or potential hazards. If an issue is detected, the control system can take corrective actions or initiate emergency shutdown procedures.

Communication Interfaces: Turbine control systems often require communication with external systems, operators, and monitoring stations. Microprocessor circuit boards have communication interfaces, such as Ethernet ports, serial ports, and industrial communication protocols, to facilitate data exchange and remote control.

Remote Monitoring and Control: With the help of microprocessor circuit boards and network connectivity, turbine control systems can be monitored and controlled remotely. This is especially useful for maintenance and troubleshooting purposes.

WOC has the largest stock of GE Speedtronic Mark IV Control System Replacement Parts. We can also repair your faulty boards. WORLD OF CONTROLS 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 get in touch with our team by phone or email.


What is a microprocessor circuit board in a turbine control system?

A microprocessor circuit board, often referred to as a motherboard, is a vital component in a turbine control system. It houses the microprocessor, memory, and various interfaces required for processing data, executing control algorithms, and managing the turbine's operation.

How does a microprocessor circuit board contribute to turbine control?

The microprocessor circuit board processes sensor data, executes control algorithms, and manages safety features to ensure the efficient and safe operation of the turbine. It regulates parameters such as fuel flow, air intake, and speed based on input from sensors.

What communication interfaces are available on these circuit boards?

Microprocessor circuit boards include communication interfaces like Ethernet ports, serial ports, and industrial communication protocols. These interfaces enable data exchange with external systems and allow remote monitoring and control.