The VIPER27HDTR is a cutting-edge, high-voltage converter manufactured by STMicroelectronics, designed for a wide range of power supply applications. This robust integrated circuit is part of the VIPerPlus family and is known for its high efficiency and reliability, making it an ideal choice for designers looking to create compact and cost-effective power solutions.

Key Features

• Extended Voltage Range: The VIPER27HDTR operates over a broad input voltage range, accommodating various mains voltages and conditions, ensuring versatility across different power supply standards.
• Energy Efficient: With its built-in high-voltage MOSFET and advanced PWM circuitry, the device achieves excellent power efficiency, reducing energy consumption and heat generation.
• Advanced Protection Features: The device includes multiple protection mechanisms such as overcurrent protection, thermal shutdown, and overvoltage protection to ensure safe and reliable operation under adverse conditions.
• Low Standby Power: The converter is designed to minimize standby power consumption, making it suitable for applications that require compliance with energy-saving regulations.
• Flexible Application: VIPER27HDTR is well-suited for a variety of applications, including adapters, power supplies for consumer electronics, and auxiliary power supplies for home appliances and industrial systems.

Technical Specifications

• Input Voltage: Up to 600 V
• Power Dissipation: PD = 25 W
• Switching Frequency: 60 kHz
• Operating Temperature Range: -40°C to 150°C
• Package: DPAK

The VIPER27HDTR is available in a compact DPAK package, which is not only space-saving but also allows for efficient heat dissipation. Its inherent ruggedness combined with STMicroelectronics' commitment to quality makes the VIPER27HDTR a reliable choice for developing power supplies that meet the highest standards of performance and longevity.

With its comprehensive feature set and proven design, the VIPER27HDTR from STMicroelectronics stands out as a high-performance solution for modern power supply challenges.