MBRB10H60-E3/81

Product Overview

Use

It is commonly used in power supply applications, voltage clamping, and reverse polarity protection.

Characteristics

Low forward voltage drop
High-frequency operation capability
High current capability
Low power loss
High efficiency

Package

The MBRB10H60-E3/81 is typically available in a TO-263AB (D2PAK) package.

Essence

This rectifier is essential for converting alternating current (AC) to direct current (DC) with minimal power loss.

Packaging/Quantity

It is usually packaged in reels or tubes, with quantities varying based on manufacturer specifications.

Specifications

Maximum Average Forward Current: 10A
Reverse Voltage: 60V
Forward Voltage Drop: 0.55V at 5A
Operating Temperature Range: -65°C to +175°C
Storage Temperature Range: -65°C to +175°C

Detailed Pin Configuration

The MBRB10H60-E3/81 typically has three pins: 1. Anode 2. Cathode 3. Gate (for some models)

Functional Features

Fast switching speed
Low leakage current
High surge current capability
Excellent thermal performance

Advantages

Reduced power loss
Enhanced system efficiency
Compact design
Reliable performance in high-temperature environments

Disadvantages

Higher initial cost compared to standard rectifiers
Sensitive to reverse voltage spikes

Working Principles

The MBRB10H60-E3/81 operates based on the Schottky barrier principle, where the metal-semiconductor junction allows for faster switching and lower forward voltage drop compared to conventional diodes.

Detailed Application Field Plans

This rectifier is widely used in: - Switching power supplies - DC-DC converters - Motor drives - Solar panel bypass diodes - Battery charging circuits

Detailed and Complete Alternative Models

Some alternative models to the MBRB10H60-E3/81 include: - SB5100 - SS310 - SR560 - STPS10L60D

In conclusion, the MBRB10H60-E3/81 Schottky Barrier Rectifier offers efficient and reliable performance in various power supply and voltage clamping applications, making it a crucial component in modern electronic systems.

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기술 솔루션에 MBRB10H60-E3/81 적용과 관련된 10가지 일반적인 질문과 답변을 나열하세요.

What is the MBRB10H60-E3/81 diode used for?
- The MBRB10H60-E3/81 diode is commonly used as a rectifier in power supply and voltage regulation applications.
What are the key specifications of the MBRB10H60-E3/81 diode?
- The MBRB10H60-E3/81 diode has a maximum average forward current of 10A, a reverse voltage of 60V, and a low forward voltage drop.
Can the MBRB10H60-E3/81 diode be used in high-frequency applications?
- Yes, the MBRB10H60-E3/81 diode is suitable for high-frequency switching due to its fast recovery time and low reverse recovery charge.
Is the MBRB10H60-E3/81 diode suitable for automotive applications?
- Yes, the MBRB10H60-E3/81 diode is often used in automotive electronics for various functions such as voltage regulation and power management.
What are the thermal characteristics of the MBRB10H60-E3/81 diode?
- The MBRB10H60-E3/81 diode features low thermal resistance and is designed to operate efficiently in elevated temperature environments.
Does the MBRB10H60-E3/81 diode have built-in protection features?
- While the MBRB10H60-E3/81 diode does not have specific built-in protection features, it can be integrated into circuits with additional protection components for overvoltage and overcurrent conditions.
Can the MBRB10H60-E3/81 diode be used in parallel configurations for higher current applications?
- Yes, the MBRB10H60-E3/81 diode can be connected in parallel to increase the overall current handling capability in high-power applications.
What are the typical applications of the MBRB10H60-E3/81 diode?
- Typical applications include switch-mode power supplies, DC-DC converters, motor control circuits, and battery charging systems.
Does the MBRB10H60-E3/81 diode require heatsinking in certain applications?
- Depending on the operating conditions and power dissipation, heatsinking may be necessary to maintain optimal performance and reliability.
Are there any recommended layout considerations when using the MBRB10H60-E3/81 diode in PCB designs?
- It is advisable to minimize trace lengths and optimize the layout for efficient heat dissipation to ensure proper functioning of the diode in the circuit.