Manufacturer Part Number
ESDM3051N2T5G
Manufacturer
onsemi
Introduction
The ESDM3051N2T5G is a high-performance transient voltage suppressor (TVS) diode designed to protect sensitive electronic circuits from electrostatic discharge (ESD) and other voltage transients. This device offers robust protection in a compact surface-mount package, making it well-suited for a wide range of applications, including USB interfaces.
Product Features and Performance
Bidirectional 1-channel TVS diode
Reverse standoff voltage (Typ.): 5V
Breakdown voltage (Min.): 5.1V
Clamping voltage (Max. @ Ipp): 8.2V
Peak pulse current (10/1000μs): 8A
Capacitance (Max. @ 1MHz): 21pF
Wide operating temperature range: -55°C to 150°C
Product Advantages
Compact surface-mount package
High peak pulse current handling capability
Low clamping voltage for effective protection
Bidirectional operation for both positive and negative transients
Excellent ESD protection performance
Key Reasons to Choose This Product
Robust transient voltage protection for sensitive electronic circuits
Suitable for a wide range of applications, including USB interfaces
Compact and space-efficient design for easy integration
Reliable performance over a wide temperature range
Compliant with industry safety and quality standards
Quality and Safety Features
Designed and manufactured to meet industry-leading quality and safety standards
Rigorous testing and screening processes to ensure consistent performance and reliability
Compatibility
The ESDM3051N2T5G is compatible with various electronic devices and systems that require protection against electrostatic discharge and voltage transients, particularly those with USB interfaces.
Application Areas
USB interfaces
Electronic devices and systems
Industrial equipment
Automotive electronics
Consumer electronics
Product Lifecycle
The ESDM3051N2T5G is an active and currently available product. There are no immediate plans for discontinuation, and customers can contact our website's sales team for information on any equivalent or alternative models that may be available in the future.