Hybrid, electric & powertrain systems
Driving vehicle electrification forward
- 100-V battery pack-passive balancing
- 12- & 24-V battery pack-passive balancing
- 400-V battery pack-passive balancing
- 48-V battery pack-passive balancing
- 800-V battery pack-passive balancing
- Battery control unit (BCU)
- Battery disconnect unit (BDU)
- Cell supervisor circuit (CSC) active-cell balancing
- Wired cell supervisor circuit (CSC) passive-cell balancing
- Wireless cell supervisor circuit (CSC) passive-cell balancing
Design smaller, more efficient and safety-compliant DC/DC converter systems
Advance the adoption of electric vehicles worldwide using our continuous innovation and system expertise in battery management system (BMS) solutions
Maximize driving range with the industry's leading performance and most reliable solution for inverter and motor control systems
Decrease charging time and improve safety by designing smaller, more efficient and reliable on-board chargers
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Why choose TI for your HEV/EV powertrain systems?
Extend drive range
Maximize drive range between charges with accurate measurement of state of charge of the battery and create new powertrain architectures to reduce weight and size of the vehicle.
Improve system reliability with robust, high-performance devices able to withstand high-voltage transient and hot-plug events, while upholding electromagnetic compatibility.
Enable faster charging
Achieve faster charging on and off the grid with high-performance topologies to address higher DC voltage needs in a smaller form factor and better system-level efficiency through improved EMI.
Make EVs more affordable
Drive design-to-cost optimization with flexibility to scale across platforms with portfolios of pin-to-pin compatible devices to support different cell chemistries and vehicle architectures.
Streamline your functional safety system certification
Meet the rigorous requirements of functional safety standards, such as ISO 26262, with our analog and embedded processing products. In addition to our functional safety-certified engineers, available documentation and resources such as functional safety Failures In Time (FIT) rate, Failure modes, effects, and diagnostic analysis (FMEDA), safety certificates and software diagnostics libraries help you streamline the certification process.
Understanding Functional Safety FIT Base Failure Rate Estimates per IEC 623801
Streamlining Functional Safety Certification in Automotive and Industrial
Semiconductor technology is powering electric vehicles through the innovation curve, eliminating barriers to EV adoption and enabling automakers to design affordable cars that consumers love.