BZX84C5V6_D87Z - Product Overview and Analysis

Introduction

The BZX84C5V6_D87Z is a vital component in the field of electronic engineering, belonging to the category of voltage regulator diodes. This entry will provide an in-depth analysis of its basic information, specifications, pin configuration, functional features, advantages and disadvantages, working principles, application field plans, and alternative models.

Basic Information Overview

Category: Voltage Regulator Diode
Use: Regulating voltage in electronic circuits
Characteristics: Low power dissipation, high reliability, small package size
Package: SOT-23, SOD-323
Essence: Stabilizing voltage within electronic systems
Packaging/Quantity: Typically available in reels or tubes containing multiple units

Specifications

Voltage: 5.6V
Power Dissipation: 250mW
Forward Current: 225mA
Reverse Leakage Current: 100nA
Operating Temperature Range: -55°C to +150°C

Detailed Pin Configuration

The BZX84C5V6_D87Z typically features three pins: 1. Anode 2. Cathode 3. No Connection (NC)

Functional Features

Voltage Regulation: Maintains a stable voltage output within electronic circuits
Overvoltage Protection: Safeguards connected components from excessive voltage levels
Compact Design: Small form factor suitable for space-constrained applications

Advantages and Disadvantages

Advantages

Reliable voltage regulation
Compact package size
Low power dissipation

Disadvantages

Limited current handling capacity
Vulnerable to thermal stress in high-power applications

Working Principles

The BZX84C5V6_D87Z operates based on the principle of Zener breakdown, effectively maintaining a constant voltage drop across its terminals when reverse-biased.

Detailed Application Field Plans

The BZX84C5V6_D87Z finds extensive use in various electronic applications, including: - Voltage regulation in power supplies - Overvoltage protection in consumer electronics - Signal conditioning in sensor interfaces

Detailed and Complete Alternative Models

Several alternative models can be considered as substitutes for the BZX84C5V6_D87Z, including: - BZX84C5V6LT1G - BZX84C5V6L

In conclusion, the BZX84C5V6_D87Z plays a crucial role in stabilizing voltage within electronic systems, offering reliable performance and compact design. Its specifications, functional features, and application field plans make it a valuable component in the realm of electronic engineering.

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Noem 10 veelgestelde vragen en antwoorden met betrekking tot de toepassing van BZX84C5V6_D87Z in technische oplossingen

What is the BZX84C5V6_D87Z?
- The BZX84C5V6_D87Z is a 5.6V Zener diode with a tolerance of ±5% and a power dissipation of 250mW.
What are the typical applications of BZX84C5V6_D87Z?
- It is commonly used in voltage regulation, overvoltage protection, and signal clamping applications.
What is the maximum current that BZX84C5V6_D87Z can handle?
- The maximum current for BZX84C5V6_D87Z is typically around 50mA.
How does BZX84C5V6_D87Z provide overvoltage protection?
- When the voltage across the diode exceeds its breakdown voltage (5.6V), it conducts current to limit the voltage to 5.6V, protecting the downstream circuitry.
Can BZX84C5V6_D87Z be used in reverse bias?
- Yes, it can be used in reverse bias as a regular diode, but it will not exhibit Zener breakdown characteristics in this mode.
What is the temperature range for BZX84C5V6_D87Z?
- The operating temperature range is typically -65°C to +150°C.
Is BZX84C5V6_D87Z suitable for high-frequency applications?
- It has a relatively fast response time and can be used in moderate frequency applications, but it may not be suitable for very high-frequency applications.
Can multiple BZX84C5V6_D87Z be connected in series or parallel?
- Yes, they can be connected in series to increase the breakdown voltage or in parallel to increase the current-handling capability.
What are the package options available for BZX84C5V6_D87Z?
- Common package options include SOT-23, SOD-123, and SOD-323.
Are there any precautions to consider when using BZX84C5V6_D87Z?
- It's important to ensure that the maximum power dissipation and current ratings are not exceeded, and to consider the temperature effects on the Zener voltage.