The IGBT module launched by TSUKING adopts Trench Field Stop technology with a groove structure, which greatly increases the power density of the device. Through the Ultra Thin Wafer Process, an electric field stop structure is used at the chip collector end, significantly reducing the saturation conduction voltage drop (Vce (sat)) and turn-off loss (Eoff) of the device compared to the previous generation of products, The power loss of the device (the sum of conduction loss and switching loss) has been reduced by 33%, and it is suitable for various switching applications when equipped with independent constant voltage fast recovery diodes (FRDs). The module adopts standard packaging, and the product has stable and consistent electrical parameters and firm reliability in harsh environments.

The IGBT launched by TSUKING adopts the internationally leading trench structure and field cutoff technology (Trench+FS), which reasonably optimizes the device current density and achieves the optimal balance of saturation conduction voltage drop (Vce (sat)) and turn off loss (Eoff). Perfect for various applications such as electromagnetic heating, motor drive, industrial power supply, etc. The breakdown voltage of the core energy IGBT ensures sufficient redundancy, high consistency of electrical parameters, and firm reliability. At the same time, it has high short-circuit current capacity.

IPM packages power devices together with their drive circuits and multiple protection circuits in the same module, which has been perfectly matched, freeing system designers from the tedious design of drive and protection circuits, and improving the reliability of the system. The packaging forms include: DIP23, SOP23, PQFN, DIP24, DIP25, DIP26, DIP29.

For MOSFET/IGBT drives, TSUKING is the first in China to develop drive ICs with high reliability and wide compatibility, which can meet the diverse needs of motor drives and power conversion in consumer, household appliances, industry, new energy and other fields. The core driven IC has functions such as overcurrent protection, undervoltage protection, anti pass-through, dead zone, etc. It has stronger driving ability and can integrate bootstrap diodes, which can help customers simplify the system and save costs.

Filters are mainly used to solve radiation interference and can significantly attenuate high-frequency interference signals, allowing only the frequencies being transmitted or received to pass through. This includes Low-pass filters, High-pass filters, Bandpass filters, Bandstop filters, Cutoff Filter, Digital Filter.