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DS200IIBDG1AEA | General Electric Gate Driver Board Mark V
- Regular price
- $2,592.00
- Sale price
- $2,592.00
- Regular price
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Product Description P/N: DS200IIBDG1AEA
Description
The DS200IIBDG1AEA is a Gate Driver Board designed for use in the Mark V series control systems. It is responsible for controlling gate signals in power conversion applications. This board is typically used in industrial systems requiring precise control of power electronics and gate drivers for reliable operation.
Technical Specifications
|
Part # |
DS200IIBDG1A |
|
Category |
Drives |
|
Subcategory |
Drive Board |
|
Manufacturer |
General Electric |
|
Series |
Drive Control |
|
Product Type |
IGBT Driver Board |
|
Operating Temperature |
0 to 60°C (32 to 149°F) |
|
System |
MARK V Turbine Control |
|
Features |
Multi Input/Output, On-Board RAM |
Information About DS200IIBDG1AEA
The DS200IIBDG1A is a high-performance IGBT (Insulated Gate Bipolar Transistor) driver board developed by General Electric for use in drive control applications. As part of the MARK V turbine control system, the DS200IIBDG1A is engineered to provide precise and efficient control of gate signals for power electronics in industrial environments. It is specifically designed to interface with IGBT modules, ensuring reliable and consistent operation of turbine control systems and power conversion devices. This drive board is integral to achieving optimal performance and stability in industrial control applications that require high precision and dependability.
This IGBT driver board is part of General Electric’s Drive Control series and is developed to support the operation of industrial drive systems that utilize IGBT technology. IGBTs are semiconductor devices commonly used in high-power applications such as motor drives, inverters, and power supplies, where efficient switching and control of electrical energy are essential. The DS200IIBDG1A board plays a crucial role in driving these IGBT modules by generating the gate signals needed to switch the IGBT devices on and off during operation, thereby controlling the flow of electrical current and enabling efficient power conversion.
One of the key features of the DS200IIBDG1A is its compatibility with the MARK V turbine control system, an advanced control platform designed for gas and steam turbines. This makes the DS200IIBDG1A an ideal component for applications requiring precise control of turbine operations, such as in power plants and other heavy-duty industrial environments. The MARK V system provides comprehensive control, protection, and monitoring of turbine systems, and the DS200IIBDG1A enhances this functionality by offering reliable gate drive control for the power electronics that are critical to turbine performance.
The DS200IIBDG1A board is equipped with multi-input and output capabilities, providing the flexibility needed for integration into various system architectures. This feature allows the board to interface with multiple control signals and devices, enhancing its ability to coordinate with other components in the drive system. Whether used in standalone applications or as part of a larger control network, the multi-input/output configuration ensures that the DS200IIBDG1A can adapt to a range of industrial scenarios, making it a versatile solution for managing power electronics in demanding environments.
Additionally, the DS200IIBDG1A is designed with on-board RAM (Random Access Memory), which supports its processing capabilities by storing critical operational data and ensuring quick access to information during operation. This feature enhances the board’s performance by allowing it to handle real-time data processing, which is essential for maintaining precise control over the IGBT gate signals. The presence of on-board RAM also helps improve the overall efficiency of the drive control system, reducing latency and ensuring smooth operation of the controlled devices.
The operating temperature range of the DS200IIBDG1A is 0 to 60°C (32 to 149°F), making it suitable for use in a variety of industrial environments, including those with elevated temperatures commonly found in power generation facilities and heavy industrial settings. The board’s temperature tolerance ensures that it can perform reliably even in challenging operational conditions, providing consistent and stable performance over extended periods of use. This robustness makes the DS200IIBDG1A an ideal choice for applications that demand high durability and reliability, such as in the continuous operation of turbines and other high-power equipment.
As an IGBT driver board, the DS200IIBDG1A plays a vital role in ensuring the efficient switching of power electronics in industrial drive systems. IGBT modules require precise timing and control of gate signals to function optimally, and the DS200IIBDG1A delivers this control with high accuracy, reducing energy losses and improving the overall efficiency of the power conversion process. The board’s advanced design ensures that IGBT modules can operate at their full potential, enabling efficient energy management and reducing the risk of component failure due to improper signal control.
The DS200IIBDG1A’s role in the MARK V turbine control system further enhances its value in power generation applications. By controlling the gate signals for IGBT modules used in turbine systems, the board helps optimize the performance of gas and steam turbines, ensuring that they operate at peak efficiency while maintaining precise control over critical parameters such as speed, load, and power output. This contributes to the overall reliability and performance of the turbine system, helping to reduce downtime, maintenance costs, and energy consumption in power generation facilities.
In terms of integration, the DS200IIBDG1A is designed for easy installation within drive systems, with a form factor that allows it to be seamlessly integrated into existing control panels and enclosures. Its robust design and multi-functional capabilities make it an essential component for upgrading or maintaining industrial drive control systems. With its advanced features and high level of performance, the DS200IIBDG1A is an ideal choice for engineers and technicians seeking to enhance the efficiency and reliability of power electronics in industrial environments.
In summary, the DS200IIBDG1A Gate Driver Board is a critical component in General Electric’s Drive Control series, designed to deliver precise control of IGBT modules in industrial applications. With its multi-input/output configuration, on-board RAM, and compatibility with the MARK V turbine control system, it ensures efficient power conversion and reliable turbine operation. Its operating temperature range and robust design make it suitable for use in demanding industrial environments, providing consistent performance and durability in applications that require precise control of power electronics.
Manufacturer information
General Electric (GE) is a multinational conglomerate founded in 1892, based in the United States. It operates in various industries, including aviation, healthcare, renewable energy, and power. GE is known for its innovations in technology, manufacturing, and infrastructure solutions.
Description
The DS200IIBDG1AEA is a Gate Driver Board designed for use in the Mark V series control systems. It is responsible for controlling gate signals in power conversion applications. This board is typically used in industrial systems requiring precise control of power electronics and gate drivers for reliable operation.
Technical Specifications
|
Part # |
DS200IIBDG1A |
|
Category |
Drives |
|
Subcategory |
Drive Board |
|
Manufacturer |
General Electric |
|
Series |
Drive Control |
|
Product Type |
IGBT Driver Board |
|
Operating Temperature |
0 to 60°C (32 to 149°F) |
|
System |
MARK V Turbine Control |
|
Features |
Multi Input/Output, On-Board RAM |
Information About DS200IIBDG1AEA
The DS200IIBDG1A is a high-performance IGBT (Insulated Gate Bipolar Transistor) driver board developed by General Electric for use in drive control applications. As part of the MARK V turbine control system, the DS200IIBDG1A is engineered to provide precise and efficient control of gate signals for power electronics in industrial environments. It is specifically designed to interface with IGBT modules, ensuring reliable and consistent operation of turbine control systems and power conversion devices. This drive board is integral to achieving optimal performance and stability in industrial control applications that require high precision and dependability.
This IGBT driver board is part of General Electric’s Drive Control series and is developed to support the operation of industrial drive systems that utilize IGBT technology. IGBTs are semiconductor devices commonly used in high-power applications such as motor drives, inverters, and power supplies, where efficient switching and control of electrical energy are essential. The DS200IIBDG1A board plays a crucial role in driving these IGBT modules by generating the gate signals needed to switch the IGBT devices on and off during operation, thereby controlling the flow of electrical current and enabling efficient power conversion.
One of the key features of the DS200IIBDG1A is its compatibility with the MARK V turbine control system, an advanced control platform designed for gas and steam turbines. This makes the DS200IIBDG1A an ideal component for applications requiring precise control of turbine operations, such as in power plants and other heavy-duty industrial environments. The MARK V system provides comprehensive control, protection, and monitoring of turbine systems, and the DS200IIBDG1A enhances this functionality by offering reliable gate drive control for the power electronics that are critical to turbine performance.
The DS200IIBDG1A board is equipped with multi-input and output capabilities, providing the flexibility needed for integration into various system architectures. This feature allows the board to interface with multiple control signals and devices, enhancing its ability to coordinate with other components in the drive system. Whether used in standalone applications or as part of a larger control network, the multi-input/output configuration ensures that the DS200IIBDG1A can adapt to a range of industrial scenarios, making it a versatile solution for managing power electronics in demanding environments.
Additionally, the DS200IIBDG1A is designed with on-board RAM (Random Access Memory), which supports its processing capabilities by storing critical operational data and ensuring quick access to information during operation. This feature enhances the board’s performance by allowing it to handle real-time data processing, which is essential for maintaining precise control over the IGBT gate signals. The presence of on-board RAM also helps improve the overall efficiency of the drive control system, reducing latency and ensuring smooth operation of the controlled devices.
The operating temperature range of the DS200IIBDG1A is 0 to 60°C (32 to 149°F), making it suitable for use in a variety of industrial environments, including those with elevated temperatures commonly found in power generation facilities and heavy industrial settings. The board’s temperature tolerance ensures that it can perform reliably even in challenging operational conditions, providing consistent and stable performance over extended periods of use. This robustness makes the DS200IIBDG1A an ideal choice for applications that demand high durability and reliability, such as in the continuous operation of turbines and other high-power equipment.
As an IGBT driver board, the DS200IIBDG1A plays a vital role in ensuring the efficient switching of power electronics in industrial drive systems. IGBT modules require precise timing and control of gate signals to function optimally, and the DS200IIBDG1A delivers this control with high accuracy, reducing energy losses and improving the overall efficiency of the power conversion process. The board’s advanced design ensures that IGBT modules can operate at their full potential, enabling efficient energy management and reducing the risk of component failure due to improper signal control.
The DS200IIBDG1A’s role in the MARK V turbine control system further enhances its value in power generation applications. By controlling the gate signals for IGBT modules used in turbine systems, the board helps optimize the performance of gas and steam turbines, ensuring that they operate at peak efficiency while maintaining precise control over critical parameters such as speed, load, and power output. This contributes to the overall reliability and performance of the turbine system, helping to reduce downtime, maintenance costs, and energy consumption in power generation facilities.
In terms of integration, the DS200IIBDG1A is designed for easy installation within drive systems, with a form factor that allows it to be seamlessly integrated into existing control panels and enclosures. Its robust design and multi-functional capabilities make it an essential component for upgrading or maintaining industrial drive control systems. With its advanced features and high level of performance, the DS200IIBDG1A is an ideal choice for engineers and technicians seeking to enhance the efficiency and reliability of power electronics in industrial environments.
In summary, the DS200IIBDG1A Gate Driver Board is a critical component in General Electric’s Drive Control series, designed to deliver precise control of IGBT modules in industrial applications. With its multi-input/output configuration, on-board RAM, and compatibility with the MARK V turbine control system, it ensures efficient power conversion and reliable turbine operation. Its operating temperature range and robust design make it suitable for use in demanding industrial environments, providing consistent performance and durability in applications that require precise control of power electronics.
Manufacturer information
General Electric (GE) is a multinational conglomerate founded in 1892, based in the United States. It operates in various industries, including aviation, healthcare, renewable energy, and power. GE is known for its innovations in technology, manufacturing, and infrastructure solutions.