Manufacturer Part Number
TC4422AVMF713
Manufacturer
Microchip Technology
Introduction
The TC4422AVMF713 is a high-performance power management gate driver from Microchip Technology, specifically designed for driving low-side channels in power management applications.
Product Features and Performance
Single channel low-side gate driver
Capable of driving IGBT, N-Channel, and P-Channel MOSFETs
Supply voltage range from 4.5V to 18V
Non-inverting input type
High peak output current of 10A (source and sink)
Fast rise and fall times (38ns and 33ns respectively)
Operational across a wide temperature range from -40°C to 150°C
Surface mountable with an 8-VDFN exposed pad package
Product Advantages
High drive current capability enhances switching performance
Versatile voltage range accommodates various applications
Fast switching times improve efficiency and reduce losses
Robust thermal performance suitable for harsh environments
Key Technical Parameters
Driven Configuration: Low-Side
Channel Type: Single
Voltage Supply: 4.5V ~ 18V
Logic Voltage VIL, VIH: 0.8V, 2.4V
Current Peak Output: 10A, 10A
Rise / Fall Time: 38ns, 33ns
Operating Temperature: -40°C ~ 150°C (TJ)
Quality and Safety Features
Efficient thermal management supports longevity and reliability
Rigorous testing ensures performance stability across operational temperatures
Compatibility
Compatible with IGBT, N-channel, and P-channel MOSFETs
Suitable for a variety of logic levels with VIL at 0.8V and VIH at 2.4V
Application Areas
Power management systems
Motor control circuits
Power inverters and converters
High-efficiency power supply units
Product Lifecycle
Status: Active
Not currently nearing discontinuation with ongoing manufacturer support and updates
Several Key Reasons to Choose This Product
High output current capability facilitates efficient power management
Broad supply voltage range offers design flexibility in various applications
Quick switching times support high-performance operation
Robust design ensures reliability in extended temperature environments
Compatibility with multiple gate types increases adaptability in diverse circuits