Manufacturer Part Number
UCC27532DBVR
Manufacturer
Texas Instruments
Introduction
The UCC27532DBVR is a robust high-speed low-side gate driver designed for driving power MOSFETs and IGBTs.
Product Features and Performance
Single channel low-side driver
High peak output current capability of 2.5A source and 5A sink
Fast rise and fall times of 15ns and 7ns respectively for improved switching performance
Wide supply voltage range of 10V to 32V suitable for various applications
Non-inverting input for straightforward signal processing
Optimized for driving N-Channel MOSFETs and IGBTs
Under-voltage lockout for improved system reliability
Product Advantages
Energy-efficient operation with fast switching speeds
Minimal propagation delay increases system responsiveness
Enhanced design flexibility due to wide input logic range
Extended operating temperature range suits harsh environments
Robust handling due to surface-mount SOT-23-6 package
Key Technical Parameters
Supply Voltage: 10V to 32V
Input Logic Voltage: VIL 7.9V, VIH 8.8V
Output Current: 2.5A (Source), 5A (Sink)
Rise Time: 15ns
Fall Time: 7ns
Operating Temperature: -40°C to 140°C
Quality and Safety Features
Over-temperature protection
Under-voltage lockout for system safety
Industry-standard SOT-23-6 packaging for reliable soldering and handling
Compatibility
Suitable for driving IGBTs and N-Channel MOSFETs in a variety of configurations
Application Areas
Motor control
Power supply modules
Inverters/converters
LED lighting systems
High-frequency power systems
Product Lifecycle
Active product status suggests ongoing manufacturer support
Availability of replacements or upgrades subject to Texas Instruments' product strategy
Several Key Reasons to Choose This Product
Manufactured by Texas Instruments, a trusted leader in semiconductor solutions
High efficiency and performance ideal for power-critical applications
Tailored for quick and efficient driving of power switches
Enhances overall system reliability with built-in protective features
Designed for ease of integration within a broad array of power applications