The SS10PH9-E3/87A is a surface-mount Schottky Barrier Rectifier manufactured by Vishay. This rectifier is engineered for high-efficiency rectification with a key emphasis on low forward voltage drop and high surge current capability. It's particularly well-suited for applications demanding rapid switching speeds and minimized power dissipation, particularly in high current situations.

Applications

• High current switching power supplies
• Freewheeling diode applications in power inductive circuits
• Reverse polarity protection circuits for high-current applications
• DC-DC converters requiring high efficiency
• Solar panel bypass diodes for enhanced performance

Features

• Extremely low forward voltage drop, enhancing overall efficiency
• High surge current capability, ensuring robust performance under transient conditions
• Fast switching speed, minimizing switching losses
• Surface mount SMPC (TO-277A) package for automated assembly
• RoHS compliant, aligning with environmental standards

Benefits

• Significantly increased efficiency in power conversion, leading to substantial energy savings
• Reduced heat generation, improving the long-term reliability of electronic systems
• Effective protection against voltage spikes and surges, extending product lifespan
• Streamlined and cost-effective manufacturing process
• Environmentally compliant components, contributing to sustainable product development

Specifications

The SS10PH9-E3/87A features a maximum repetitive peak reverse voltage of 90V and a maximum average forward rectified current of 10A. It can handle a peak forward surge current of 150A. The typical forward voltage drop at 10A is approximately 0.7 V. The operating junction temperature ranges from -55°C to +150°C. It is housed in a space-saving SMPC (TO-277A) surface mount package. The fast reverse recovery time contributes significantly to its high-speed switching performance. The device's exceptionally low forward voltage drop effectively minimizes power dissipation, making it an ideal choice for energy-efficient and high-current designs. The device’s rugged construction ensures longevity in diverse and demanding applications.