SLYY221 November   2023 ADC12DJ5200RF , ADS124S08 , ADS127L11 , AFE2256 , REF35 , REF70 , TPS62912 , TPS62913 , TPS7A94 , TPSM82912 , TPSM82913 , UCC5880-Q1

 

  1.   1
  2.   Overview
  3.   At a glance
  4.   Why high voltage?
  5.   Optimizing wide-bandgap FET performance with component innovations
  6.   Selecting the right gate drivers
  7.   Selecting the right controllers
  8.   Maximizing power density with topology innovations
  9.   Achieving extreme efficiency targets with system-level innovation
  10.   Addressing EMI challenges
  11.   Conclusion
  12.   Additional resources

Conclusion

Today, it is much easier to design high-voltage power-conversion systems than it was a decade ago, but with new technologies come new challenges. There won’t be a single-point breakthrough to bring us a revolutionary high-voltage system – every piece of the design has to evolve together to help engineers maximize the efficiency, power density and performance of high-voltage systems.

TI’s high-voltage power conversion technologies, spanning GaN ICs, isolated gate drivers, isolated DC/DC converters and modules and C2000 real-time microcontrollers, take advantage of component, topology and system-level innovations to simplify the design of high-efficiency, high-power-density, high-voltage power conversion systems. To learn more about TI’s high-voltage technology, see the TI.com/highvoltage.