Manufacturer Part Number
5KP70A-E3/54
Manufacturer
Vishay-semi-diodes
Introduction
The 5KP70A-E3/54 is a single-channel transient voltage suppressor (TVS) diode designed for general-purpose applications. It offers robust protection against transient overvoltage spikes and surges, ensuring the reliability and safety of sensitive electronic circuits.
Product Features and Performance
Unidirectional protection with a single channel
Reverse standoff voltage (Typ.): 70V
Breakdown voltage (Min.): 77.8V
Clamping voltage (Max. @ Ipp): 113V
Peak pulse current (10/1000μs): 44.2A
Peak pulse power: 5000W (5kW)
Wide operating temperature range: -55°C to 175°C (TJ)
Through-hole mounting in a P600 axial package
Product Advantages
Reliable protection against transient overvoltages
Compact and space-efficient design
Wide operating temperature range for versatile applications
Compliant with industry standards for safety and performance
Key Reasons to Choose This Product
Robust transient voltage suppression for sensitive electronics
Excellent reliability and long-term performance
Suitable for a wide range of general-purpose applications
Cost-effective solution for protecting circuits from voltage spikes
Quality and Safety Features
Compliant with industry standards for safety and reliability
Rigorous quality control and testing procedures
Backed by Vishay's reputation for high-quality semiconductor products
Compatibility
The 5KP70A-E3/54 TVS diode is compatible with a variety of electronic circuits and systems that require protection against transient overvoltages.
Application Areas
General-purpose electronic equipment
Power supplies
Industrial automation and control systems
Telecommunications equipment
Automotive electronics
Product Lifecycle
The 5KP70A-E3/54 is an active product, and Vishay continues to manufacture and support this model. There are no immediate plans for discontinuation. However, customers are advised to contact our website's sales team for the latest product availability and information on any potential alternative or equivalent models.