STMicroelectronics

This device is an IGBT developed using an advanced proprietary trench gate and field-stop structure. The device is part of the new HB series of IGBTs, which represent an optimum compromise between conduction and switching losses to maximize the efficiency of any frequency converter. Furthermore, a slightly positive VCE(sat)temperature coefficient and very tight parameter distribution result in safer paralleling operation.

These devices are IGBTs developed using an advanced proprietary trench gate field-stop structure. These devices are part of the V series of IGBTs, which represents an optimum compromise between conduction and switching losses to maximize the efficiency of very high frequency converters. Furthermore, positive VCE(sat)temperature coefficient and very tight parameter distribution result in safer paralleling operation.

The newest IGBT 650 V HB2 series represents an evolution of the advanced proprietary trench gate field-stop structure. The performance of the HB2 series is optimized in terms of conduction, thanks to a better VCE(sat)behavior at low current values, as well as in terms of reduced switching energy. A very fast soft recovery diode is co-packaged in antiparallel with the IGBT. The result is a product specifically designed to maximize efficiency for a wide range of fast applications.

These devices are IGBTs developed using an advanced proprietary trench gate field-stop structure. These devices are part of the new HB series of IGBTs, which represent an optimum compromise between conduction and switching loss to maximize the efficiency of any frequency converter. Furthermore, the slightly positive VCE(sat)temperature coefficient and very tight parameter distribution result in safer paralleling operation.

This device is an IGBT developed using an advanced proprietary trench gate field-stop structure. The device is part of the new HB series of IGBTs, which represents an optimum compromise between conduction and switching loss to maximize the efficiency of any frequency converter. A faster switching event can be achieved by the Kelvin pin, which separates power path from driving signal. Furthermore, the slightly positive VCE(sat)temperature coefficient and very tight parameter distribution result in safer paralleling operation.

These devices are IGBTs developed using an advanced proprietary trench gate field-stop structure. These devices are part of the M series IGBTs, which represent an optimal balance between inverter system performance and efficiency where low-loss and short-circuit functionality are essential. Furthermore, the positive VCE(sat)temperature coefficient and tight parameter distribution result in safer paralleling operation.

The newest IGBT 650 V HB2 series represents an evolution of the advanced proprietary trench gate field-stop structure. The performance of the HB2 series is optimized in terms of conduction, thanks to a better VCE(sat)behavior at low current values, as well as in terms of reduced switching energy. A very fast soft recovery diode is co-packaged in antiparallel with the IGBT. The result is a product specifically designed to maximize efficiency for a wide range of fast applications.