MBR10200CT-E1 - Schottky Barrier Rectifier
The MBR10200CT-E1 is a high-performance Schottky barrier rectifier from Diodes Incorporated, designed for applications requiring low voltage drop and high efficiency. This rectifier is well-suited for use in high-frequency power supplies, polarity protection circuits, and as freewheeling diodes due to its fast switching capabilities.
Constructed with a metal-to-silicon Schottky barrier, the MBR10200CT-E1 is characterized by its low forward voltage drop, which significantly reduces power loss and improves efficiency. The device is capable of handling continuous forward currents up to 10A, making it reliable for heavy-duty operations. Moreover, its peak repetitive reverse voltage is rated at 200V, which allows it to withstand high reverse voltage conditions.
The MBR10200CT-E1 comes in a TO-220AB package, known for its robustness and excellent thermal performance. This package is designed to handle high levels of heat dissipation, ensuring the rectifier operates within its specified temperature range even under high current conditions. The product is also RoHS compliant, meaning it meets the European Union's restrictions on the use of certain hazardous substances in electrical and electronic equipment.
Key features of the MBR10200CT-E1 include:
- Low forward voltage drop (VF)
- High forward surge capability
- Guard ring for enhanced ruggedness and long-term reliability
- High frequency operation
- TO-220AB package for optimal thermal performance
- RoHS compliant for environmental sustainability
Applications for the MBR10200CT-E1 are diverse and include power management in consumer electronics, automotive systems, telecommunications, and industrial equipment. Its ability to perform efficiently in high-temperature environments makes it an excellent choice for LED lighting solutions and solar inverters as well.
Overall, the MBR10200CT-E1 from Diodes Incorporated represents a blend of efficiency, reliability, and performance, making it a preferred choice for engineers and designers looking to optimize their power conversion applications.