The GBU405 C2 is a glass passivated bridge rectifier manufactured by Taiwan Semiconductor. It is designed for converting alternating current (AC) to direct current (DC) in various electronic applications. This bridge rectifier offers high surge current capability and low forward voltage drop, ensuring efficient and reliable performance.

Applications

• Power Supplies
• Adapters
• Battery Chargers
• Lighting Systems
• Household Appliances

Features

• High Surge Current Capability: Handles high inrush currents without damage.
• Low Forward Voltage Drop: Minimizes power loss and improves efficiency.
• Glass Passivated Junction: Ensures high reliability and stability.
• High Case Dielectric Strength: Provides electrical isolation and safety.
• Ideal for Printed Circuit Boards: Easy to mount on PCBs.

Benefits

• Efficient AC-DC Conversion: Provides reliable conversion of AC to DC power.
• Improved System Reliability: High surge current capability protects against voltage spikes.
• Reduced Power Consumption: Low forward voltage drop minimizes power loss.
• Simplified Circuit Design: Integrated bridge rectifier simplifies circuit design.
• Enhanced Safety: High dielectric strength provides electrical isolation.

Additional Details

The GBU405 C2 has a maximum repetitive peak reverse voltage of 400V and a maximum RMS voltage of 280V. It has a forward current of 4A. The operating temperature range is typically from -55°C to +150°C. The device is available in a GBU package. Its compact size and easy mounting make it suitable for a wide range of applications. The glass passivated junction ensures long-term reliability and stability. It meets industry standards for safety and performance. The part marking on the device allows for easy identification. It can be used in single-phase rectifier circuits. Its high surge current capability makes it suitable for applications with high inrush currents, such as power supplies and motor control circuits. The low forward voltage drop contributes to the overall efficiency of the power conversion process.