BZX79C9V1 - Diode Zener Single 9.1V 5% 500mW 2-Pin DO-35

Introduction

The BZX79C9V1 is a diode zener that belongs to the category of semiconductor devices. It is commonly used as a voltage regulator in various electronic circuits due to its specific characteristics and reliability. This entry will provide an overview of the basic information, specifications, pin configuration, functional features, advantages and disadvantages, working principles, application field plans, and alternative models of the BZX79C9V1.

Basic Information Overview

Category: Semiconductor Devices
Use: Voltage Regulation
Characteristics: Zener Diode, 9.1V, 5% Tolerance, 500mW Power Dissipation
Package: DO-35
Essence: Voltage Regulation
Packaging/Quantity: Bulk or Reel Packaging, Quantity Varies

Specifications

Voltage: 9.1V
Tolerance: ±5%
Power Dissipation: 500mW
Package Type: DO-35
Mounting Type: Through Hole
Operating Temperature: -65°C to 200°C

Detailed Pin Configuration

The BZX79C9V1 has a simple 2-pin configuration with the anode and cathode terminals.

Functional Features

Precise Voltage Regulation
Low Impedance
High Reliability
Fast Response Time

Advantages and Disadvantages

Advantages

Accurate Voltage Regulation
Compact Size
Wide Operating Temperature Range

Disadvantages

Limited Power Dissipation
Sensitive to Overvoltage Conditions

Working Principles

The BZX79C9V1 operates based on the reverse breakdown voltage characteristic of the zener diode, which allows it to maintain a constant voltage across its terminals when operated within its specified parameters.

Detailed Application Field Plans

The BZX79C9V1 finds extensive use in various applications such as: - Voltage Regulators - Power Supplies - Signal Clipping Circuits - Overvoltage Protection Circuits

Detailed and Complete Alternative Models

Some alternative models to the BZX79C9V1 include: - BZX79C8V2 - BZX79C10V - BZX79C9V1H

In conclusion, the BZX79C9V1 is a reliable and widely used zener diode with precise voltage regulation capabilities, making it suitable for diverse electronic applications.

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What is the BZX79C9V1 diode used for?
- The BZX79C9V1 diode is commonly used for voltage regulation and transient voltage suppression in electronic circuits.
What is the maximum forward voltage of the BZX79C9V1 diode?
- The maximum forward voltage of the BZX79C9V1 diode is typically around 1.2V at a forward current of 5mA.
What is the reverse breakdown voltage of the BZX79C9V1 diode?
- The reverse breakdown voltage of the BZX79C9V1 diode is 9.1V, which makes it suitable for applications requiring voltage clamping or protection.
Can the BZX79C9V1 diode be used for overvoltage protection?
- Yes, the BZX79C9V1 diode can be used for overvoltage protection due to its ability to clamp excessive voltages and protect sensitive components in a circuit.
What are the typical applications of the BZX79C9V1 diode?
- The BZX79C9V1 diode is commonly used in voltage regulators, voltage references, overvoltage protection circuits, and general-purpose electronic applications.
What is the power dissipation of the BZX79C9V1 diode?
- The power dissipation of the BZX79C9V1 diode is typically around 500mW, making it suitable for handling moderate power levels in electronic circuits.
Is the BZX79C9V1 diode suitable for low-current applications?
- Yes, the BZX79C9V1 diode is suitable for low-current applications due to its low leakage current and stable performance at low currents.
What is the temperature coefficient of the BZX79C9V1 diode?
- The temperature coefficient of the BZX79C9V1 diode is typically around -2 mV/°C, indicating relatively stable voltage regulation over a range of temperatures.
Can the BZX79C9V1 diode be used in automotive electronics?
- Yes, the BZX79C9V1 diode can be used in automotive electronics for voltage regulation and transient suppression, provided it meets the necessary automotive standards.
Are there any specific layout considerations when using the BZX79C9V1 diode in a circuit?
- It's important to consider proper heat sinking and placement of the BZX79C9V1 diode to ensure efficient heat dissipation and optimal electrical performance in the circuit.