Allicdata Part #: | NZ3F15VT1G-ND |
Manufacturer Part#: |
NZ3F15VT1G |
Price: | $ 0.06 |
Product Category: | Discrete Semiconductor Products |
Manufacturer: | ON Semiconductor |
Short Description: | DIODE ZENER 15V 800MW SOD323FL |
More Detail: | Zener Diode 15V 800mW ±5% Surface Mount SOD-323FL |
DataSheet: | NZ3F15VT1G Datasheet/PDF |
Quantity: | 1000 |
6000 +: | $ 0.04882 |
Specifications
Series: | -- |
Packaging: | Tape & Reel (TR) |
Part Status: | Active |
Voltage - Zener (Nom) (Vz): | 15V |
Tolerance: | ±5% |
Power - Max: | 800mW |
Impedance (Max) (Zzt): | 100 Ohms |
Current - Reverse Leakage @ Vr: | 50nA @ 10.5V |
Voltage - Forward (Vf) (Max) @ If: | 1.3V @ 10mA |
Operating Temperature: | -65°C ~ 150°C (TJ) |
Mounting Type: | Surface Mount |
Package / Case: | SC-90, SOD-323F |
Supplier Device Package: | SOD-323FL |
Description
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Introduction
NZ3F15VT1G is a single Zener diode that is widely used in various kinds of electronic devices. It has a wide range of applications, such as voltage regulator, voltage protector, over-voltage protector, reverse voltage protection, and many other applications. It is usually used in these applications because of its fast response and high reliability.Applications
NZ3F15VT1G is a widely used Zener diode that has a wide range of applications. It can be used in many applications, such as voltage regulators, voltage protectors, over-voltage protectors, reverse voltage protection, and many other applications. Here are the common applications of NZ3F15VT1G:- Voltage regulator: The most common application for NZ3F15VT1G is in voltage regulators. It is used to maintain a stable voltage within a certain range. The diode is connected in parallel to the voltage source, and it clamps the voltage within the maximum and minimum values. It allows you to keep a stable voltage in the system, no matter how much the external voltage changes.
- Voltage protector: NZ3F15VT1G is also used as a voltage protector. It prevents the voltage from exceeding a certain level, which can cause the components in the circuit to be damaged or destroyed. If the voltage exceeds the maximum value, the diode will start to conduct current, clamps the voltage, and protect the components in the circuit.
- Over-voltage protector: NZ3F15VT1G can also be used as an over-voltage protector. It prevents the voltage from exceeding the chosen maximum voltage. The diode will start to conduct when the voltage exceeds the maximum level, and it will reduce the output voltage back to the safe value.
- Reverse voltage protection: NZ3F15VT1G is also used as a reverse voltage protection. It prevents the voltage from going below a certain level, which can cause the circuit to be damaged or destroyed. If the voltage drops below the minimum value, the diode will start to conduct current, clamp the voltage, and protect the circuit.
Working Principle
The working principle of NZ3F15VT1G is based on the Zener breakdown phenomenon. When a reverse voltage is applied to the diode, electrons from the cathode start to move towards the anode. If the applied voltage is greater than the Zener breakdown voltage (Vz), the electrons will travel across the Zener barrier and form a conducting channel. This phenomenon is known as Zener breakdown and it is the basic working principle of NZ3F15VT1G.When the diode is in its “normal” mode, the Zener barrier prevents the electrons from crossing it. However, when the voltage exceeds the Zener breakdown voltage (Vz), the electrons will cross the barrier and form a conducting channel. This conducting channel allows current to flow through the diode and clamps the voltage to the Zener breakdown voltage.Conclusion
In conclusion, NZ3F15VT1G is a single Zener diode that has a wide range of applications, such as voltage regulator, voltage protector, over-voltage protector, reverse voltage protection, and many other applications. Its working principle is based on the Zener breakdown phenomenon. When a reverse voltage is applied to the diode, the Zener barrier prevents the electrons from crossing it. However, when the voltage exceeds the Zener breakdown voltage (Vz), the electrons will cross the barrier and form a conducting channel that clamps the voltage to the Zener breakdown voltage.The specific data is subject to PDF, and the above content is for reference
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