1N4764A G

Product Overview

Category:

The 1N4764A G is a Zener diode, which falls under the category of semiconductor devices.

Use:

It is commonly used for voltage regulation and protection in electronic circuits.

Characteristics:

Zener voltage: 15V
Power dissipation: 1.3W
Package type: DO-41
Operating temperature range: -65°C to +200°C

Package:

The 1N4764A G is typically available in a DO-41 package.

Essence:

This Zener diode is essential for maintaining stable voltage levels in various electronic applications.

Packaging/Quantity:

The 1N4764A G is usually packaged in reels or tubes, with quantities varying based on manufacturer specifications.

Specifications

Zener voltage: 15V
Power dissipation: 1.3W
Maximum forward voltage: 1.1V
Reverse current: 5μA
Temperature coefficient: 0.05%/°C

Detailed Pin Configuration

The 1N4764A G has two pins, anode and cathode, which are identified by their physical orientation within the DO-41 package.

Functional Features

Voltage regulation: The Zener diode maintains a constant voltage across its terminals, providing stability in electronic circuits.
Overvoltage protection: It acts as a safeguard against excessive voltage spikes, preventing damage to sensitive components.

Advantages

Precise voltage regulation
Compact size
Wide operating temperature range

Disadvantages

Limited power dissipation capability
Susceptible to thermal runaway if not properly heat-sinked

Working Principles

The 1N4764A G operates based on the Zener effect, where it allows current to flow in reverse bias once the voltage reaches its specified Zener voltage, effectively regulating the voltage across its terminals.

Detailed Application Field Plans

The 1N4764A G finds application in various fields such as: - Voltage regulators - Power supplies - Signal clamping circuits - Overvoltage protection systems

Detailed and Complete Alternative Models

Some alternative models to the 1N4764A G include: - 1N4749A G (Zener voltage: 24V) - 1N4733A G (Zener voltage: 5.1V) - BZX55C15 (Zener voltage: 15V)

In conclusion, the 1N4764A G Zener diode serves as a crucial component in electronic circuits, providing voltage regulation and overvoltage protection. Its compact size and precise voltage control make it suitable for a wide range of applications, despite its limitations in power dissipation. Additionally, there are several alternative models available with varying Zener voltages to cater to specific circuit requirements.

Seznam 10 běžných otázek a odpovědí souvisejících s aplikací 1N4764A G v technických řešeních

What is the 1N4764A G diode used for?
- The 1N4764A G diode is commonly used as a voltage regulator or in rectifier circuits to regulate or convert electrical energy.
What are the key specifications of the 1N4764A G diode?
- The 1N4764A G diode has a maximum reverse voltage of 100V and a forward current of 1W.
How do I identify the cathode and anode of the 1N4764A G diode?
- The cathode end of the diode is typically marked with a band, and the other end is the anode.
Can the 1N4764A G diode be used in high-temperature environments?
- Yes, the 1N4764A G diode is designed to operate at high temperatures, making it suitable for various technical solutions.
What are the common applications of the 1N4764A G diode?
- The diode is often used in power supplies, voltage regulators, and general rectification circuits.
What is the maximum forward voltage drop of the 1N4764A G diode?
- The maximum forward voltage drop is typically around 1V at the rated forward current.
Is the 1N4764A G diode suitable for low-power applications?
- Yes, the 1N4764A G diode can be used in low-power applications due to its relatively low forward current rating.
Can the 1N4764A G diode handle transient voltage spikes?
- Yes, the diode has a good capability to handle transient voltage spikes within its specified limits.
What are the typical packaging options for the 1N4764A G diode?
- The diode is commonly available in axial-lead glass packages.
Are there any specific precautions to consider when using the 1N4764A G diode?
- It's important to ensure that the maximum ratings for voltage and current are not exceeded, and proper heat dissipation should be provided in high-power applications.