Transfer case brushless DC (BLDC)
Reach the next level in performance and safety
Transfer cases play a vital role in 4WD and AWD systems, distributing power between front and rear axles. Active transfer cases adapt to driving conditions, improving fuel efficiency and dynamics. Meeting market demands requires ISO 26262 compliance, secure communication, high-temperature operation, and BLDC driving capabilities. Choose quality semiconductor components to ensure successful transfer case designs.
System diagram: Transfer case BLDC
Elevate automotive performance with transfer case BLDC solutions
A transfer case BLDC contributes heavily to a superior driving experience. It is installed to distribute power between front and rear axles as part of a drivetrain in 4WD and AWD systems. In some cars, a transfer case can adapt to the driving conditions, such as when a car travels off-road (active transfer case).
- Efficient power transmission
- Enhanced reliability and durability
- Precise and responsive control
- Low noise and vibration
Seamless BLDC design solutions to meet market needs
Today, design challenges for vehicle transfer cases are becoming more difficult as the automotive market is rapidly evolving to meet manufacturers' and consumers' expectations. This includes a rise in demand for an increase in activation cycles over the system's lifetime, shift to BLDCs with regard to their long-term and dynamic performance, as well as increased security and functional safety requirements.
This is why successful transfer case designs use high-quality components that are ISO 26262 compliant, support secure communication and operation at high temperatures, and can drive brushless DCs. You can ensure that your design overcomes all obstacles and is a success in the market if you source semiconductor components and solutions which comply with all requirements.
Reduce fuel consumption and driving dynamics of cars with our BLDC solutions
Infineon's transfer case brushless DC technology for AWD and 4WD systems, electric and hybrid cars, as well as performance vehicles contributes to improved efficiency, traction, precise control, and overall performance of a wide range of automotive applications by reducing fuel consumption and improving driving dynamics.