Manufacturer Part Number
ESD7M5.0DT5G
Manufacturer
onsemi
Introduction
The ESD7M5.0DT5G from onsemi is a Zener TVS diode designed for transient voltage suppression, providing reliable protection against high voltage spikes.
Product Features and Performance
Zener TVS Diode
Dual unidirectional channels
Ideal for 5V circuits with a maximum standoff voltage of 5V
Breakdown voltage is minimally 5.4V
Clamps voltage at 10.4V max under peak pulse current conditions
Peak pulse current capability of 1A for brief transient conditions
Offers protection without affecting power line
Fits general purpose applications
Low capacitance of 2.5pF at 1MHz, minimizing signal distortion
Operates effectively in extreme temperatures from -55°C to +125°C
Surface mount technology for compact and reliable installation
Product Advantages
Provides reliable protection against transient voltage spikes
Minimal signal distortion thanks to low capacitance
Broad operating temperature range for versatile use
Compact SOT-723 form factor for easy integration in tight spaces
Key Technical Parameters
Voltage Reverse Standoff (Typ): 5V (Max)
Voltage Breakdown (Min): 5.4V
Voltage Clamping (Max) @ Ipp: 10.4V
Current Peak Pulse (10/1000µs): 1A (8/20µs)
Capacitance @ Frequency: 2.5pF @ 1MHz, 1.25pF @ 1MHz
Operating Temperature: -55°C ~ 125°C (TJ)
Quality and Safety Features
Designed with robust materials ensuring long-term reliability under varying conditions.
Compatibility
Engineered for general-purpose applications, making it compatible with a wide range of device protections.
Application Areas
Ideal for protecting sensitive electronics in consumer, automotive, and industrial sectors.
Product Lifecycle
Active status, with no current indication of nearing discontinuation or obsolescence.
Several Key Reasons to Choose This Product
Dependable high-voltage transient protection
Low capacitive impact, preserving signal integrity
Durable across wide temperature ranges
Compact design facilitates easy integration
Active product lifecycle status ensures ongoing availability