The MCC-312-16IO1 IGBT Module delivers 1700V rated voltage & 312A max current, optimized for industrial motor drives, wind power systems, and high-voltage applications. Ensures reliability in diverse power conditions with UL/CE certifications.
MCC-312-16IO1 Product Description
Insulated Gate Bipolar Transistor (IGBT) modules are essential components for efficient power conversion in the field of power electronics. The MCC-312-16IO1 IGBT module stands out for its excellent performance and reliability, making it the preferred choice of many engineers and designers. The module has a blocking voltage of 1700V and a maximum continuous collector current of 312A, making it capable of handling high voltage and high current applications. Its rated power is approximately 530.4kW, making it ideal for applications that need to handle huge power outputs. In addition, the MCC-312-16IO1 adopts an optimized thermal design to ensure temperature stability over long working hours and improve overall efficiency. To simplify installation and maintenance, the module is equipped with easy-to-connect terminals and uses rugged packaging materials to maintain good working conditions in harsh environments. In short, MCC-312-16IO1 not only meets the current market demand for high-performance IGBTs, but also lays a solid foundation for future development. With its excellent characteristics, this IGBT module is gradually becoming one of the standard configurations in high-power applications.
MCC-312-16IO1 Product Features
1. High voltage withstand capability: MCC-312-16IO1 has a blocking voltage of up to 1700V, ensuring safe and reliable operation under high voltage conditions.
2. High current carrying capacity: supports up to 312A continuous current output, suitable for a variety of high-power application scenarios.
3. Fast switching characteristics: thanks to the fast switching speed, the energy loss during the switching process is reduced and the system efficiency is improved.
4. Optimized thermal management: built-in efficient heat dissipation structure to ensure temperature stability during long-term operation.
5.Easy to integrate and maintain: The simple design facilitates installation and maintenance, reducing downtime.
MCC-312-16IO1 product application case
Case 1: Application in industrial motor drive
In the field of industrial automation, the requirements of motor drive systems for power conversion are extremely strict. A leading motor manufacturer selected the MCC-312-16IO1 IGBT module in its latest high-power AC servo drive. This drive is mainly used in heavy-duty mechanical processing equipment, such as CNC machine tools, injection molding machines, etc. Since these devices usually need to start and stop frequently, high requirements are placed on the response speed and accuracy of the drive. With its excellent fast switching characteristics and stable current output, MCC-312-16IO1 significantly improves the dynamic performance of the motor while reducing energy loss. Especially when dealing with complex motion control tasks, such as multi-axis linkage operations, MCC-312-16IO1 demonstrates excellent synchronization and coordination. In addition, the module's high voltage resistance and optimized thermal management system also provide a strong guarantee for its long-term stable operation. By using MCC-312-16IO1, the manufacturer not only improved the competitiveness of its products, but also brought customers a better operating experience. In practical applications, the module has helped achieve higher production efficiency and lower operating costs, making it an ideal choice for industrial motor drive systems.
Case 2: Application in Wind Power Converter
With the growing global demand for clean energy, wind power generation has become one of the important energy supply methods. A wind power company has developed a new type of converter for direct-drive permanent magnet synchronous generators, in which the key power conversion link uses the MCC-312-16IO1 IGBT module. This converter is responsible for converting the AC power generated by the generator into standard DC or AC power suitable for grid connection. Due to the randomness and intermittent nature of wind power generation, the converter must be able to adapt to a wide range of input voltage changes and ensure output quality. MCC-312-16IO1 perfectly solves this problem with its wide operating voltage range and strong overload capacity. It can maintain stable power output regardless of strong wind or light wind conditions. More importantly, the low loss characteristics of the module help improve the efficiency of the entire power generation system and reduce operating costs. In addition, considering the extreme environmental challenges faced by offshore wind turbines, such as salt spray erosion, high temperature and high humidity, the rugged packaging and reliable protection measures of MCC-312-16IO1 ensure that it can work normally even in extreme environments, safeguarding the smooth implementation of wind power projects. By introducing MCC-312-16IO1, the wind power company successfully launched a more reliable and efficient converter, promoting the rapid development of the wind power industry.
Case 3: Application in electric vehicle charging stations
In recent years, with the booming electric vehicle market, the construction of efficient charging infrastructure has become increasingly important. A company focusing on electric vehicle charging solutions has introduced the MCC-312-16IO1 IGBT module in its latest fast charging pile design. This charging pile is designed to provide fast and safe charging services to meet the growing needs of users. MCC-312-16IO1 plays a vital role in this, which is responsible for efficiently converting the AC power provided by the power grid into DC power for charging electric vehicle batteries. In order to achieve the best charging effect, the charging pile needs to have highly accurate current control and fast response capabilities. MCC-312-16IO1 achieves this with its fine current regulation function and fast switching speed. Not only that, its high voltage resistance characteristics and optimized heat dissipation design also ensure stable operation even under high load conditions. In addition, considering the various uncertainties that public charging stations may face, such as weather changes and human interference, the rugged shell and multiple protection mechanisms of MCC-312-16IO1 provide an additional safety barrier for the system. By adopting MCC-312-16IO1, the company has successfully launched a more reliable and efficient fast charging pile, which not only improves the user's charging experience, but also contributes to the rapid development of the electric vehicle industry.