MP6KE27A - Product Overview and Specifications

Introduction

The MP6KE27A is a transient voltage suppressor (TVS) diode designed to protect electronic circuits from voltage spikes and transients. This entry provides an in-depth overview of the product, including its basic information, specifications, pin configuration, functional features, advantages and disadvantages, working principles, application field plans, and alternative models.

Basic Information Overview

Category: Electronic Component
Use: Protection against voltage spikes and transients
Characteristics: High surge capability, low clamping voltage
Package: DO-15
Essence: Safeguarding sensitive electronic components
Packaging/Quantity: Available in reels or bulk packaging

Specifications

Peak Pulse Power: 600W
Breakdown Voltage: 27V
Operating Voltage: 23.1V
Clamping Voltage: 43.6V
Peak Pulse Current: 10A
Capacitance: 150pF

Detailed Pin Configuration

The MP6KE27A TVS diode has a standard DO-15 package with two leads. The anode is connected to one lead, while the cathode is connected to the other lead.

Functional Features

Transient Suppression: Effectively clamps voltage transients
Fast Response Time: Rapid reaction to voltage spikes
Low Leakage Current: Minimal impact on normal circuit operation

Advantages and Disadvantages

Advantages

Effective protection against voltage surges
Fast response time
Low clamping voltage

Disadvantages

Limited peak pulse power handling capacity
Sensitive to overvoltage conditions

Working Principles

When a voltage transient occurs, the MP6KE27A TVS diode conducts current to divert the excess energy away from the protected circuit. It rapidly clamps the voltage to a safe level, safeguarding the downstream components.

Detailed Application Field Plans

The MP6KE27A is commonly used in various electronic systems, including: - Power supply units - Communication equipment - Automotive electronics - Industrial control systems

Detailed and Complete Alternative Models

MP6KE24A: Lower breakdown voltage (24V)
MP6KE30A: Higher breakdown voltage (30V)
P6KE27A: Similar specifications with axial lead package

In conclusion, the MP6KE27A TVS diode offers reliable protection against voltage transients in a wide range of electronic applications. Its fast response time and low clamping voltage make it a valuable component for ensuring the longevity of sensitive circuits.

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Lista 10 Vanliga frågor och svar relaterade till tillämpningen av MP6KE27A i tekniska lösningar

Sure, here are 10 common questions and answers related to the application of MP6KE27A in technical solutions:

What is the voltage rating of MP6KE27A?
- The MP6KE27A has a voltage rating of 27V.
What is the peak pulse power of MP6KE27A?
- The peak pulse power of MP6KE27A is 600W.
What is the typical application of MP6KE27A?
- MP6KE27A is commonly used for transient voltage suppression in electronic circuits, such as in power supplies, automotive electronics, and telecommunications equipment.
What is the breakdown voltage of MP6KE27A?
- The breakdown voltage of MP6KE27A is typically between 30.1V and 33.3V.
How does MP6KE27A protect electronic circuits?
- MP6KE27A provides protection by diverting excess current away from sensitive components when a transient voltage spike occurs.
Can MP6KE27A be used for overvoltage protection in automotive applications?
- Yes, MP6KE27A is suitable for overvoltage protection in automotive electronics, such as in vehicle control modules and entertainment systems.
What is the response time of MP6KE27A during a transient event?
- The response time of MP6KE27A is very fast, typically in the nanosecond range.
Is MP6KE27A suitable for high-speed data lines protection?
- Yes, MP6KE27A can be used to protect high-speed data lines, such as USB, Ethernet, and HDMI interfaces.
What is the operating temperature range of MP6KE27A?
- The operating temperature range of MP6KE27A is usually between -55°C to 175°C.
Can MP6KE27A be used in industrial control systems?
- Yes, MP6KE27A is commonly employed in industrial control systems to safeguard sensitive electronic components from voltage transients.

I hope these answers provide the information you were looking for! If you have any more questions, feel free to ask.