V20100C-E3/4W Application Field and Working Principle

Diodes - Rectifiers - Arrays

The V20100C-E3/4W is a rectifier array designed for reverse voltage protection applications. It is a single package containing four high surge avalanching silicon diodes, resistors and ESD circuits. It is designed to provide a low forward voltage drop and low leakage current for series connection to a preconditioner. The V20100C-E3/4W rectifier array package is available in classical or tactical configurations for ease of adaptability and superior safety characteristics. It is designed to survive prolonged exposure to extreme temperatures, humidity, and currents. Its low-capacitance shielding allows for a high-speed switching time, meaning that the surge protection is provided quickly and effectively.The primary application field of the V20100C-E3/4W is reverse voltage protection. It can be used to provide protection against transient voltage spikes, preventing the reverse voltage from damaging transistors and other sensitive components in the circuit. It can also be used for voltage clamping and protecting against overvoltage and power supply noise.The working principle of the V20100C-E3/4W rectifier array involves its combination of high surge avalanching diodes and ESD circuits. The combination of these components is designed to allow for a low forward voltage drop and low leakage current in series connection to a preconditioner. Additionally, the ESD circuits are designed to quickly respond to changing input voltages, allowing for a high-speed switching time and quick response to power supply noise and other transient voltage spikes.The V20100C-E3/4W rectifier array\'s unique design makes it an effective solution for reverse voltage protection. It is a single package containing four high quality diodes and ESD circuits that provides a low forward voltage drop and low leakage current. Additionally, its ESD circuits are designed to quickly respond to transient voltage spikes, providing effective protection against overvoltage and power supply noise.