NZX4V7B,133 Discrete Semiconductor Products

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The NZX4V7B,133 is a single Zener diode that is designed to provide a low-voltage, low-power protection solution for electronic circuits. This type of Zener diode has a wide range of application fields and works by taking advantage of its unique characteristics.

The NZX4V7B,133\'s most commonly used application field is in ESD (electrostatic discharge) protection. This type of diode is ideal for this application as it is specifically designed to withstand high voltage shocks and provide a regulated voltage across the device when the voltage is too high for the application it is protecting. This type of Zener diode is also often used for protecting power supplies, such as in the event of a surge or power spikes.

The NZX4V7B,133 can also be used to regulate the output voltage of power supplies. This type of diode is designed to regulate output voltage even when the input voltage goes below a certain threshold. This helps to ensure that the output voltage remains constant, regardless of the input voltage. This is important for ensuring that the power supply stays safe and efficient.

The working principle of the NZX4V7B,133 Zener diode is based on the principle of reverse breakdown. When forward-biased, the diode behaves like a regular diode and will only pass current when the voltage is higher than the rated voltage. However, when the voltage is lower than the rated voltage, the diode will be reverse-biased and will quickly “breakdown”, allowing the current to flow.

The breakdown voltage of a Zener diode is usually specified as “Vz”, which is the voltage at which the Zener diode begins to breakdown. This is the minimum voltage that must be present in order for the Zener diode to begin supplying current. The NZX4V7B,133 Zener diode has a breakdown voltage of 4.7V.

The NZX4V7B,133 Zener diode is also designed to have a very fast acting “clamp” circuit, which will quickly “clamp” the voltage once it reaches its breakdown voltage. This helps to ensure that the voltage does not exceed the rated voltage of the diode. This can also help to prevent damage to the device that is being protected.

The NZX4V7B,133 Zener diode is also designed to be highly efficient. This is achieved by its low current “reverse breakdown” point, which ensures that a large amount of current is not passed through the device at any one time. This helps to ensure that the device remains safe and efficient.

The NZX4V7B,133 Zener diode is designed to be highly reliable, as it is designed to handle a wide range of input voltages, and also works well under harsh environmental conditions. This makes it a great choice for many different types of applications that require protection from high voltage spikes.

In conclusion, the NZX4V7B,133 Zener diode is an excellent choice for a wide variety of applications. It has a range of application fields and works by taking advantage of its unique characteristics. This type of Zener diode is designed to provide excellent protection from high voltage shocks and surges and to ensure that the output voltage remains constant, regardless of the input voltage. The diode is also highly efficient and reliable, making it a great choice for many different types of applications.

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