The implementation of highly efficient, compact and simple 3-phase inverter systems are currently limited by silicon devices’ high dynamic losses operating at 1200V voltages. Alternative designs using 600V/650V devices can partially improve efficiency.
However, they come at the expense of more complicated (3-level) topologies with complex control schemes and more power components.
Infineon’s 1200V SiC diode combined with a Si high speed 3 IGBT enables simpler 2-level topologies due to its zero reverse recovery losses. It also delivers 40% lower Si IGBT turn-on losses and reduced EMI. Moreover, an improved thermal performance now reduces the junction temperature by 15% compared to a silicon based solution – increasing system reliability as well as the possibility to increase output power in a given form factor.
The static losses of the SiC diode often limit the optimization potential of Si IGBT/SiC diode solutions. To fix this, the generation 5 diode comes with a reduction of forward voltage and its temperature dependency to reduce static losses and thereby the price to performance. The new generation 5 is targeted for use in solar inverters, UPS systems, motor drives and 3-phase SMPS.
- Best in class forward voltage (VF)
- No reverse recovery charge
- Mild positive temperature dependency of VF
- Best in class surge current capability
- Excellent thermal performance
- Up to 40A rated diode
- Highest system efficiency
- Improved system efficiency at low switching frequencies
- Increased power density at high switching frequencies
- Higher system reliability
- Reduced EMI
- Solar inverters
- 3-phase SMPS
- Motor drives
1200V Si IGBT + SiC diode or ultrafast Si diode in a boost stage topology, fSW = 20kHz
|Continuous Forward Current IF[A]|
TO-252 2-Pin (DPAK)
* “B” refers to common-cathode configuration