Toyota tests technology to make hybrids even more efficient
01 Feb 2015|6,887 views
Toyota has begun testing new technology that could make hybrids and other vehicles with electric powertrains more efficient. The year-long trial in Japan will evaluate the performance of new power semi-conductors that use a silicon carbide (SiC) material, fitted to a Camry hybrid saloon prototype and a hydrogen fuel cell-powered bus.
Power semiconductors are found in the power control units that govern the motor drive power in hybrids and other vehicles that use an electric powertrain. These units control the use of electricity, sending power from the battery to the motors when the car is being driven, and recharging the battery with energy that's harvested when the car is braking or decelerating.
The type of semiconductors used at present account for about 20 percent of a vehicle's electrical losses, so making them more efficient is potentially a good way to increase the efficiency of the complete powertrain.
In the Camry hybrid prototype (above, banner), Toyota is installing SiC power semiconductors (transistors and diodes) in the PCU's internal voltage step-up converter and the inverter that controls the motor. It will collect data, including PCU voltage and current, and driving speeds, patterns, and conditions, such as outside temperature.
By comparing this information with data from the silicon semiconductors currently in use, Toyota will assess the level of efficiency improvement achieved. The Camry road test will take place mainly in the Toyota City over a period of about a year from early February.
Toyota has begun testing new technology that could make hybrids and other vehicles with electric powertrains more efficient. The year-long trial in Japan will evaluate the performance of new power semi-conductors that use a silicon carbide (SiC) material, fitted to a Camry hybrid saloon prototype and a hydrogen fuel cell-powered bus.
Power semiconductors are found in the power control units that govern the motor drive power in hybrids and other vehicles that use an electric powertrain. These units control the use of electricity, sending power from the battery to the motors when the car is being driven, and recharging the battery with energy that's harvested when the car is braking or decelerating.
The type of semiconductors used at present account for about 20 percent of a vehicle's electrical losses, so making them more efficient is potentially a good way to increase the efficiency of the complete powertrain.
In the Camry hybrid prototype (above, banner), Toyota is installing SiC power semiconductors (transistors and diodes) in the PCU's internal voltage step-up converter and the inverter that controls the motor. It will collect data, including PCU voltage and current, and driving speeds, patterns, and conditions, such as outside temperature.
By comparing this information with data from the silicon semiconductors currently in use, Toyota will assess the level of efficiency improvement achieved. The Camry road test will take place mainly in the Toyota City over a period of about a year from early February.
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