SBYV28-150-E3/54

Product Overview

Use

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

Characteristics

Low forward voltage drop
High current capability
Fast switching speed
Low leakage current

Package

The SBYV28-150-E3/54 is typically available in a surface mount SMB (DO-214AA) 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: 2A
Peak Forward Surge Current: 50A
Reverse Voltage: 150V
Operating Temperature Range: -65°C to +150°C

Detailed Pin Configuration

The SBYV28-150-E3/54 typically has two pins, with the anode connected to the positive terminal and the cathode connected to the negative terminal.

Functional Features

Efficient rectification of AC to DC
Low voltage drop
Fast response time

Advantages

Low power dissipation
Compact size
Suitable for high-frequency applications

Disadvantages

Limited reverse voltage capability compared to other rectifiers
Sensitivity to overvoltage conditions

Working Principles

The SBYV28-150-E3/54 operates based on the Schottky barrier principle, where the metal-semiconductor junction allows for faster switching and lower forward voltage drop compared to standard PN-junction diodes.

Detailed Application Field Plans

This rectifier is widely used in: - Switching power supplies - Voltage regulators - DC-DC converters - Solar panel bypass diodes

Detailed and Complete Alternative Models

1N5817: Similar characteristics but lower maximum reverse voltage
SS34: Higher reverse voltage rating but slower switching speed
SB540: Higher current capability but larger package size

In conclusion, the SBYV28-150-E3/54 Schottky barrier rectifier offers efficient and fast rectification for various electronic applications. Its compact size and low power dissipation make it suitable for modern power supply designs while considering its limitations in reverse voltage capability and sensitivity to overvoltage conditions. Understanding its specifications, pin configuration, working principles, and alternative models provides a comprehensive view of its utility in diverse electronic circuits.

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What is the SBYV28-150-E3/54 diode used for?
- The SBYV28-150-E3/54 diode is commonly used for rectification and freewheeling applications in power electronics.
What is the maximum forward voltage of the SBYV28-150-E3/54 diode?
- The maximum forward voltage of the SBYV28-150-E3/54 diode is typically around 0.85V at a forward current of 20A.
What is the reverse recovery time of the SBYV28-150-E3/54 diode?
- The reverse recovery time of the SBYV28-150-E3/54 diode is typically in the range of 35ns to 50ns.
What is the maximum reverse voltage rating of the SBYV28-150-E3/54 diode?
- The SBYV28-150-E3/54 diode has a maximum reverse voltage rating of 150V.
Can the SBYV28-150-E3/54 diode handle high-frequency switching applications?
- Yes, the SBYV28-150-E3/54 diode is suitable for high-frequency switching due to its fast recovery time and low forward voltage.
Is the SBYV28-150-E3/54 diode suitable for automotive applications?
- Yes, the SBYV28-150-E3/54 diode is often used in automotive electronic systems such as power supplies and motor control.
What is the thermal resistance of the SBYV28-150-E3/54 diode?
- The thermal resistance of the SBYV28-150-E3/54 diode is typically around 3°C/W.
Can the SBYV28-150-E3/54 diode be used in parallel to increase current handling capability?
- Yes, the SBYV28-150-E3/54 diode can be used in parallel to increase the overall current handling capability in a circuit.
Does the SBYV28-150-E3/54 diode require a heatsink for certain applications?
- Depending on the application and power dissipation, a heatsink may be required to ensure proper thermal management of the SBYV28-150-E3/54 diode.
Are there any specific layout considerations when using the SBYV28-150-E3/54 diode in a PCB design?
- It is recommended to minimize the length of traces between the diode and other components to reduce parasitic inductance and optimize performance. Additionally, proper attention should be given to thermal vias and copper pour for effective heat dissipation.