Unlock the Power of High-Voltage Technology with TI

UNLOCK THE POWER OF

High-Voltage Technology with TI

High-voltage design comes with many challenges. Higher voltage levels require isolation. Complex power topologies need specialized control. In addition, system reliability is critical. At TI, our portfolio of high-voltage power-conversion, sensing, isolation, and real-time control devices helps simplify high-voltage designs while maximizing performance and offering superior reliability.

High-voltage expertise you can trust

Built-in reliability

With decades of manufacturing experience, our solutions offer cost and performance advantages while maintaining superior reliability for high-voltage systems.

Specialized portfolio of devices

From power conversion through sensing, isolation, and real-time control, our analog and embedded devices are designed with high-voltage applications in mind.

System-level-knowledge

Our end-to-end system expertise and dedicated design resources help streamline high-voltage designs and reduce time to market.

Efficient high-voltage power conversion

As electrification proliferates in automotive and renewable energy systems, you can boost your system-level efficiency by taking advantage of our portfolio of GaN FETs and SiC and IGBT drivers and controllers.

GaN ICs

TI’s gallium-nitride (GaN) FETs switch much faster than MOSFETs. They can achieve much lower switching losses while offering lifetime reliability and cost advantages.

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Isolated gate drivers

Offering basic, functional, and reinforced isolation, TI gate drivers enable you to create compact designs that offer protection from high voltages.

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Isolated DC/DC converters & modules

Reduce your BOM count and simplify your DC/DC designs with TI’s isolated bias supplies, modules, and power converters.

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C2000 real-time microcontrollers

Add real-time control to your designs by pairing TI’s C2000™ low-latency microcontrollers with GaN devices and other wide-bandgap power devices to help you achieve optimum performance in high-voltage systems.

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Accurate sensing for high-voltage designs

Ensure accurate sensing, no matter the environment. Choose from our portfolio of battery-monitor products, precision ADCs, and current sensors.

Battery monitors & balancers

Isolated ADCs

Current sensors

Isolated amplifiers

Battery monitors and balancers

A wide variety of comparators, GPIO interfaces, overtemperature, and overvoltage protection devices, and data converters can serve battery monitoring and balancing to enhance reliability and optimize battery life.

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Battery monitors & balancers

Isolated ADCs

Current sensors

Isolated amplifiers

Isolated ADCs

Our high-performance isolated ADCs output a digital bitstream from a precise delta-sigma modulator capable of withstanding high common-mode voltages. Our portfolio consists of basic and reinforced isolated modulators for high-performance current and voltage sensing applications in high-voltage systems.

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Battery monitors & balancers

Isolated ADCs

Current sensors

Isolated amplifiers

Current sensors

With specifications such as 20-A continuous current ratings and 80-kHz bandwidths, our Hall-effect current sensors operate over a wide range of working isolation voltages, with functional-safety-capable versions available.

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Battery monitors & balancers

Isolated ADCs

Current sensors

Isolated amplifiers

Isolated amplifiers

With linear input voltage ranging from +/-50 mV to +/-12 V and bandwidths up to 350 kHz, our isolated amplifiers support accurate, shunt-based current and voltage sensing at working voltages up to 2k V_RMS, with functional-safety-capable versions available.

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Reliable high-voltage isolation

Design safe high-voltage systems with a robust isolation barrier. Choose from our wide portfolio of isolated products.

Isolated ADCs

With working voltages up to 1,500 V_RMS, our ADCs are available with functional-safety-capable ratings.

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Isolated amplifiers

With linear input voltage ranging from +/-50mV to +/-12V and bandwidths up to 350 kHz, our isolated amplifiers support accurate, shunt-based current and voltage sensing at working voltages up to 2k V_RMS, with functional-safety-capable versions available.

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Isolated comparators

Available in open-drain or open-drain push-pull output configurations, our isolated comparators feature working voltages of up to 750 V_RMS with agency certified basic and reinforced isolation levels.

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Isolated gate drivers

Our isolated gate drivers for IGBTs, MOSFETs, and SiC devices are available in functional-safety-compliant and functional-safety-capable versions.

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Solid-state relays

Solid-state relays from TI are available with or without internal FETs to offer you maximum design flexibility. Withstand isolation voltages range from 3,000 V_RMS to 5,000 V_RMS.

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Digital isolators

We offer a variety of digital isolators with basic and reinforced levels of isolation. The devices feature a range of channel configurations, including 1 forward/0 reverse, 4 forward/2 reverse, 6 forward/0 reverse, 4 forward/2 reverse, and 0 forward/4 reverse.

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Low-latency real-time control

Get the most out of the complex high-voltage power topologies with the right type of control. Choose from our portfolio of digital controllers.

Digital power isolated controllers

TI’s lineup of 2-MHz digital power isolated controllers offers independent control of multiple feedback loops and provides up to eight high-resolution PWM outputs. They offer various combinations of nonvolatile memory up to 2k bytes for data and 128k bytes for programming.

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C2000™ real-time microcontrollers

TI’s C2000 microcontrollers target the optimum price/performance point, with a portfolio ranging from 60 MIPS to 925 MIPS multi-core CPUs with 1.5MB flash-memory support. The C2000 architecture is optimized for real-time control with unique capabilities, from sensing signals to processing control algorithms and controlling PWMs, enabling designers to improve power system efficiency, reliability, and flexibility.

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High voltage applications

HEV/EV inverter & motor control

You can improve system-level efficiency and maximize power density using our IGBT and SiC FET isolated gate drivers, while our high-performance microcontrollers enable new architectures that allow you to increase driving range. TI’s high-voltage devices accurately measure voltage and current, boosting reliability, efficiency, and performance while optimizing cost and streamlining functional safety.

Solar energy & energy storage

Our portfolio of GaN FETs, IGBT, and SIC gate drivers, as well as high-performance microcontrollers, and bias supplies can help you improve power density and meet control-loop, arc-detection, and insulation requirements while building a more sustainable future with reliable solar energy and storage systems.

HEV/EV battery management system (BMS)

You can promote the widespread adoption of electric vehicles with our BMS solutions, which enable the accurate voltage and current measurements necessary to optimize battery efficiency. Our battery monitors and balancers help diagnose problems with and manage the safety of battery packs. Our solid-state relays reduce size and cost while ensuring the reliability of 800-V systems.

EV charging

Our GaN FETs and our SiC and IGBT gate drivers and isolated bias supplies, as well as high-performance microcontrollers, can help drive down the cost of DC charging stations and reduce the size of DC wall boxes while improving safety and the overall user experience. In addition, our current- and voltage-sensing technology supports reliable data transfer across voltage domains.

Power delivery

You can achieve more power in smaller spaces without compromising reliability with our portfolio of high-voltage power conversion and low-latency real-time control technologies. Our integrated gate drivers can help reduce parasitic losses and simplify system-level designs.

Additional Resources

High-voltage technologies are key to empowering a more sustainable future

Learn how innovations in high-voltage semiconductors enable us to safely and reliably interact with electric vehicles, renewable energy sources and other high-voltage systems.

3 reasons why GaN is changing power management

Read why gallium nitride is replacing silicon in a growing list of applications that require greater power density and energy efficiency.

How high-voltage semiconductors enable the future of energy

Learn how our analog and embedded high-voltage products are enabling smarter, reliable and more accessible solar, energy storage and electric vehicle charging systems.