onsemi

MBRB2060CT

MBRB2060CT Description

The MBRB2060CT from onsemi is a high-performance Schottky diode array designed for fast-recovery, high-efficiency applications. This surface-mount device features a 1 Pair Common Cathode configuration in a robust D2PAK package, offering a 60V DC reverse voltage (Vr) and 10A average rectified current (Io) per diode. Part of the SWITCHMODE™ series, it leverages Schottky technology to deliver ultra-low forward voltage (950mV @ 20A) and minimal reverse leakage (150µA @ 60V), ensuring optimal power efficiency. With a fast recovery time of ≤500ns and support for high currents (>200mA), it is engineered for demanding switching environments.

MBRB2060CT Features

• Schottky Technology: Enables low Vf and high switching speed, reducing power losses.
• Fast Recovery (≤500ns): Ideal for high-frequency applications like SMPS and DC-DC converters.
• High Current Handling: 10A per diode with a peak surge capability, suitable for power-intensive designs.
• Common Cathode Configuration: Simplifies circuit layout in synchronous rectification.
• D2PAK Package: Provides superior thermal performance and mechanical durability.
• Low Reverse Leakage (150µA @ 60V): Enhances efficiency in energy-sensitive systems.

MBRB2060CT Applications

This diode array excels in:

• Switch-Mode Power Supplies (SMPS): Due to its fast recovery and low losses.
• DC-DC Converters: Where high efficiency and thermal management are critical.
• Motor Drive Circuits: Benefiting from its high current and voltage tolerance.
• Solar Inverters: Leveraging its low leakage and robust performance.
• Automotive Systems: Meeting reliability requirements for power regulation.

Conclusion of MBRB2060CT

The MBRB2060CT stands out for its combination of speed, efficiency, and ruggedness, making it a top choice for modern power electronics. While marked as obsolete, its design advantages—such as low Vf, high current capability, and thermal-efficient packaging—ensure it remains viable for legacy or specific high-performance applications. Engineers should consider it for systems demanding fast switching, minimal losses, and high reliability.