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One way to improve the fuel efficiency of HVs is to reduce the losses and size of the Power Control Unit (PCU). To achieve this, it is important to reduce the losses of power devices (such as IGBTs and FWDs) used in the PCU since their losses account for about 20% of the total loss of an HV. Furthermore, another issue when reducing the size of power devices is ensuring the thermal feasibility of the downsized devices. To achieve the objectives of the 4th generation PCU, the following development targets were set for the IGBTs: reduce power losses by 19.8% and size by 30% compared to the 3rd generation. Power losses were reduced by the development of a new Super Body Layer (SBL) structure, which improved the trade-off relationship between switching and steady-state loss. This trade-off relationship was improved by optimizing the key SBL concentration parameter.

To improve the fuel economy and dynamic performance of hybrid electric vehicles (HVs), Toyota Motor Corporation has boosted the voltage of the hybrid system. Increases in system voltage have to be matched by increases in the breakdown voltage of the Free Wheeling Diodes (FWD) in that system. However, using conventional technology to accomplish this causes a temporary decrease in breakdown voltage during switching, leading to increased device losses. It was found that this phenomenon was being caused by the unexpected generation of crystal defects, the reduction of which has enabled device losses to be suppressed. (Reported at ISPSD 2006.)