The STEVAL-ISA162V1 is a highly efficient, compact, and versatile evaluation board presented by STMicroelectronics, designed primarily for the evaluation of the VIPER26HD, which is an offline high-voltage converter from the VIPerPlus family. This product is well-suited for developing SMPS (Switched-Mode Power Supply) applications with a power capability of up to 12 W.

Key Features

• Integrated VIPER26HD: The board incorporates the VIPER26HD high-voltage converter, which combines a dedicated current mode PWM controller with a high-voltage MDMesh Power MOSFET in one package.
• Wide Input Voltage Range: The STEVAL-ISA162V1 operates over a broad input voltage range, making it suitable for a variety of AC mains supplies.
• Multiple Output Configurations: It supports multiple output configurations, including isolated and non-isolated topologies, which allows for flexibility in designing power supplies for different applications.
• Energy Efficient: With its energy-saving features, the board meets energy efficiency standards, ensuring low power consumption during operation.
• Compact Design: The evaluation board's compact design enables easy integration into end applications, without requiring significant space.
• Protection Features: It includes various protection mechanisms such as overcurrent protection, brown-out protection, and thermal shutdown, which enhance the safety and reliability of the end application.

Applications

The STEVAL-ISA162V1 is ideal for developing power solutions for a wide range of applications, including consumer electronics, home appliances, office equipment, and industrial systems. Its flexibility and efficiency make it a go-to choice for engineers and designers looking to create robust power supplies with minimal design complexity.

Additional Resources

For more detailed information, users can access datasheets, application notes, and user manuals on the STMicroelectronics website. These resources provide in-depth technical details and guidelines for utilizing the STEVAL-ISA162V1 evaluation board to its full potential.