New Product

Vicor PI3523 Cool-Power ZVS Switching Regulators | New Product Brief

December 11, 2017 by Mouser Electronics

Vicor PI3523 Cool-Power ZVS Switching Regulators are high-efficiency regulators that integrate the controller, power switches, amplifiers, and support components in a high-density LGA system-in-package.

This New Product Brief (NPB) is part of a video series highlighting the features, applications, and technical specs of newly-released products.

Vicor PI3523 Cool-Power ZVS Switching Regulators

Vicor PI3523 Cool-Power ZVS Switching Regulators are high-efficiency regulators that integrate the controller, power switches, amplifiers, and support components in a high-density LGA system-in-package. The regulators have high-efficiency performance under light and full load, with peak efficiency up to 98%. PI3523 regulators are available for outputs from 2.2 to 14 V and current up to 22 A, and are parallel capable with single-wire current sharing for larger loads. The regulators are simple to use, with a wide 30 V to 60 V input and internal compensation so it requires very few external components. PI3523 Cool-Power ZVS switching regulators are designed for high voltage PoL buck converter applications in computing, comms, industrial, and automotive equipment.

  • System-in-Package: controller, power switches, passives, amplifiers
  • High light load and full load efficiency
  • Best-in-class Efficiency: up to 98%
  • Output Current: up to 22 A
  • Parallel capable with single wire current sharing
  • Wide Input Voltage: 30 V to 60 V

More Information

New Industry Products are a form of content that allows industry partners to share useful news, messages, and technology with All About Circuits readers in a way editorial content is not well suited to. All New Industry Products are subject to strict editorial guidelines with the intention of offering readers useful news, technical expertise, or stories. The viewpoints and opinions expressed in New Industry Products are those of the partner and not necessarily those of All About Circuits or its writers.