Manufacturer Part Number
SMBJ18CAHE3_A/H
Manufacturer
Vishay-Semi-Diodes
Introduction
The SMBJ18CAHE3_A/H is a Transient Voltage Suppressor (TVS) Diode from Vishay-Semi-Diodes. It is a bidirectional device with a reverse standoff voltage of 18V and a breakdown voltage of 20V. It can withstand peak pulse currents of up to 20.5A and has a maximum clamping voltage of 29.2V. This TVS Diode is designed for power line protection applications.
Product Features and Performance
Bidirectional 1-Channel TVS Diode
Reverse Standoff Voltage: 18V (Typical)
Breakdown Voltage: 20V (Minimum)
Clamping Voltage @ Ipp: 29.2V (Maximum)
Peak Pulse Current: 20.5A (10/1000μs)
Peak Pulse Power: 600W
Operating Temperature Range: -55°C to 150°C (TJ)
Automotive Grade, AEC-Q101 Qualified
Surface Mount (SMB/DO-214AA) Packaging
Product Advantages
Robust design for power line protection
Compact surface mount package
Automotive-grade quality and reliability
Suitable for a wide range of operating temperatures
Key Reasons to Choose This Product
Reliable transient voltage suppression for critical applications
Compact and space-saving design for easy integration
Automotive-grade quality and performance
Wide operating temperature range for diverse use cases
Quality and Safety Features
Automotive-grade AEC-Q101 qualification
Robust design for reliable operation
Complies with safety and regulatory standards
Compatibility
This TVS Diode is suitable for a variety of applications that require transient voltage protection, including:
Automotive electronics
Industrial equipment
Power supplies
Telecommunications equipment
Consumer electronics
Application Areas
Power line protection
Surge protection
Transient voltage suppression
Automotive electronics
Product Lifecycle
The SMBJ18CAHE3_A/H is an obsolete product, meaning it is no longer in active production. However, there may be equivalent or alternative models available from Vishay-Semi-Diodes or other manufacturers. Customers are advised to contact our website's sales team for more information on available options and suitable replacements.