CoolSiC™ MOSFET technology leverages the strong physical characteristics of silicon carbide, adding unique features which increase the device performance, robustness, and ease of use. The IMW65R027M1H CoolSiC™ MOSFET 650V is built on a state-of-the-art trench semiconductor, optimized to allow no compromises in getting both the lowest losses in the application and the highest reliability in operation. This SiC MOSFET comes in a TO247 3-pin package with a cost-effective performance.

CoolSiC™ MOSFET 1200 V, 350 mΩ in TO247-4 package build on a state-of-the-art trench semiconductor process is optimized to combine performance with reliability. In comparison to traditional silicon (Si) based switches like IGBTs and MOSFETs, the SiC MOSFET offers a series of advantages. These include, the lowest gate charge and device capacitance levels seen in 1200 V switches, no reverse recovery losses of the internal commutation proof body diode, temperature independent low switching losses, and threshold-free on-state characteristic. CoolSiC™ MOSFETs are ideal for hard- and resonant-switching topologies like power factor correction (PFC) circuits, bi-directional topologies and DC-DC converters or DC-AC inverters.

The CoolSiC™ 1200 V, 220 mΩ SiC MOSFET in TO247-4 package build on a state-of-the-art trench semiconductor process optimized to combine performance with reliability. In comparison to traditional silicon (Si) based switches like IGBTs and MOSFETs, the SiC MOSFET offers a series of advantages. These include, the lowest gate charge and device capacitance levels seen in 1200 V switches, no reverse recovery losses of the internal commutation proof body diode, temperature independent low switching losses, and threshold-free on-state characteristic. CoolSiC™ MOSFETs are ideal for hard- and resonant-switching topologies like power factor correction (PFC) circuits, bi-directional topologies and DC-DC converters or DC-AC inverters.

The CoolSiC™ 1200 V, 140 mΩ SiC MOSFET in TO247-4 package build on a state-of-the-art trench semiconductor process optimized to combine performance with reliability. In comparison to traditional silicon (Si) based switches like IGBTs and MOSFETs, the SiC MOSFET offers a series of advantages. These include, the lowest gate charge and device capacitance levels seen in 1200 V switches, no reverse recovery losses of the internal commutation proof body diode, temperature independent low switching losses, and threshold-free on-state characteristic. CoolSiC™ MOSFETs are ideal for hard- and resonant-switching topologies like power factor correction (PFC) circuits, bi-directional topologies and DC-DC converters or DC-AC inverters.

The CoolSiC™ 1200 V, 90 mΩ SiC MOSFET in TO247-4 package build on a state-of-the-art trench semiconductor process optimized to combine performance with reliability. In comparison to traditional silicon (Si) based switches like IGBTs and MOSFETs, the SiC MOSFET offers a series of advantages. These include, the lowest gate charge and device capacitance levels seen in 1200 V switches, no reverse recovery losses of the internal commutation proof body diode, temperature independent low switching losses, and threshold-free on-state characteristic. CoolSiC™ MOSFETs are ideal for hard- and resonant-switching topologies like power factor correction (PFC) circuits, bi-directional topologies and DC-DC converters or DC-AC inverters.

The CoolSiC™ 1200 V, 60 mΩ SiC MOSFET in TO247-4 package build on a state-of-the-art trench semiconductor process optimized to combine performance with reliability. In comparison to traditional silicon (Si) based switches like IGBTs and MOSFETs, the SiC MOSFET offers a series of advantages. These include, the lowest gate charge and device capacitance levels seen in 1200 V switches, no reverse recovery losses of the internal commutation proof body diode, temperature independent low switching losses, and threshold-free on-state characteristic. CoolSiC™ MOSFETs are ideal for hard- and resonant-switching topologies like power factor correction (PFC) circuits, bi-directional topologies and DC-DC converters or DC-AC inverters.

The CoolSiC™ 1200 V, 30 mΩ SiC MOSFET in TO247-4 package build on a state-of-the-art trench semiconductor process optimized to combine performance with reliability. In comparison to traditional silicon (Si) based switches like IGBTs and MOSFETs, the SiC MOSFET offers a series of advantages. These include, the lowest gate charge and device capacitance levels seen in 1200 V switches, no reverse recovery losses of the internal commutation proof body diode, temperature independent low switching losses, and threshold-free on-state characteristic. CoolSiC™ MOSFETs are ideal for hard- and resonant-switching topologies like power factor correction (PFC) circuits, bi-directional topologies and DC-DC converters or DC-AC inverters.

The CoolSiC™ 1200 V, 350 mΩ SiC MOSFET in TO247-3 package build on a state-of-the-art trench semiconductor process optimized to combine performance with reliability. In comparison to traditional silicon (Si) based switches like IGBTs and MOSFETs, the SiC MOSFET offers a series of advantages. These include, the lowest gate charge and device capacitance levels seen in 1200 V switches, no reverse recovery losses of the internal commutation proof body diode, temperature independent low switching losses, and threshold-free on-state characteristic. CoolSiC™ MOSFETs are ideal for hard- and resonant-switching topologies like power factor correction (PFC) circuits, bi-directional topologies and DC-DC converters or DC-AC inverters.

The CoolSiC™ 1200 V, 220 mΩ SiC MOSFET in TO247-3 package build on a state-of-the-art trench semiconductor process optimized to combine performance with reliability. In comparison to traditional silicon (Si) based switches like IGBTs and MOSFETs, the SiC MOSFET offers a series of advantages. These include, the lowest gate charge and device capacitance levels seen in 1200 V switches, no reverse recovery losses of the internal commutation proof body diode, temperature independent low switching losses, and threshold-free on-state characteristic. CoolSiC™ MOSFETs are ideal for hard- and resonant-switching topologies like power factor correction (PFC) circuits, bi-directional topologies and DC-DC converters or DC-AC inverters.

The CoolSiC™ 1200 V, 140 mΩ SiC MOSFET in TO247-3 package build on a state-of-the-art trench semiconductor process optimized to combine performance with reliability. In comparison to traditional silicon (Si) based switches like IGBTs and MOSFETs, the SiC MOSFET offers a series of advantages. These include, the lowest gate charge and device capacitance levels seen in 1200 V switches, no reverse recovery losses of the internal commutation proof body diode, temperature independent low switching losses, and threshold-free on-state characteristic. CoolSiC™ MOSFETs are ideal for hard- and resonant-switching topologies like power factor correction (PFC) circuits, bi-directional topologies and DC-DC converters or DC-AC inverters.