The VIPER013BLSTR is a high-performance, low-power offline switched-mode power supply (SMPS) primary switcher from STMicroelectronics, a leader in semiconductor solutions. This advanced power IC is designed to deliver a compact and efficient power management solution for a wide range of applications, including consumer electronics, home appliances, and industrial systems.

Key Features

• Energy Efficient: The VIPER013BLSTR is built with energy efficiency in mind. It integrates a high-voltage power MOSFET with a quasi-resonant PWM controller, which enhances the overall efficiency and reduces power consumption in both standby and active modes.
• Wide Input Voltage Range: This device supports a broad input voltage range, accommodating various power supply standards and fluctuations in power, making it versatile for global applications.
• Advanced Protection Features: It includes multiple protection features such as overvoltage, overload, short-circuit, and thermal shutdown, which ensure the reliability and safety of the power supply and the end application.
• Low Standby Power Consumption: The VIPER013BLSTR is designed to achieve ultra-low standby power consumption, which is crucial for meeting modern energy-saving regulations.
• Minimal External Components: Its high level of integration allows for a reduced external component count, leading to a simplified design and compact power supply units.

Applications

The VIPER013BLSTR is suitable for a variety of applications that require efficient power conversion, such as:

• Power adapters and chargers for mobile devices
• Standby and auxiliary power supplies
• LED lighting drivers
• Smart home and IoT devices
• Consumer electronics such as TVs and audio systems

With its robust design and comprehensive feature set, the VIPER013BLSTR from STMicroelectronics is an excellent choice for designers looking to create efficient and reliable power supply solutions. Its performance and flexibility make it an ideal component for modern electronic devices that demand compact size without compromising on power efficiency.