BZM55C2V4-TR3 Datasheet/PDFDiodes - Zener - Single
BZM55C2V4-TR3 is an ultra-stable Zener diode. It is a great choice for applications requiring low power consumption, low noise and high temperature stability. This type of Zener diode is designed for protecting low voltage microelectronic components from power surges, signal transients and other forms of overvoltage.
For connector and telecom applications, the BZM55C2V4-TR3 provides protection from high voltage amplitudes, helping maintain signal integrity and reducing EMI. It also features a low power consumption design that helps reduce energy consumption during operation.
Application Field
The BZM55C2V4-TR3 is suitable for a variety of applications, such as automotive, industrial, LED lighting, telecommunication, HVAC, power supply and so on. The ultra-stable Zener diode is designed for use in low voltage microelectronic components, providing protection from power surges, signal transients and other forms of overvoltage.
The BZM55C2V4-TR3 is also a great choice for connector and telecom applications, as it can provide protection from high voltage amplitudes. This helps to maintain signal integrity and reduce EMI. The low power consumption design of the Zener diode also helps reduce energy consumption during operation.
Working Principle
The BZM55C2V4-TR3 Zener Diode operates on the principle of the Zener effect. In a Zener diode, an electric current is allowed to flow in either direction, but when the voltage applied to the diode exceeds a certain level (known as the Zener Voltage), the current will begin to flow in the reverse direction. This reverse current is known as the Zener current.
When the Zener voltage is exceeded and the Zener current begins to flow, the Zener diode acts as a reverse-biased diode and the excess voltage is limited to the Zener voltage. This helps to protect circuits from excessive power surges, signal transients and high voltage amplitudes.
The BZM55C2V4-TR3 Zener Diode is designed to provide extra protection from voltage surges, signal transients and other forms of overvoltage. It is a low-cost and highly reliable solution for protecting low voltage microelectronic components.