Manufacturer Part Number
IXDN614SITR
Manufacturer
Littelfuse
Introduction
High-Speed Low-Side Gate Driver for efficient switching of IGBTs and MOSFETs
Product Features and Performance
Single channel driver
Non-inverting input configuration
High peak output current of 14A source and sink
Fast rise and fall times for rapid switching, typically 25ns/18ns
Wide supply voltage range from 4.5V to 35V
Robust operating temperature range from -55°C to 150°C
Product Advantages
High current drive capability
Fast switching times reduce transition losses
Wide voltage range allows for use in various applications
High thermal performance for reliability at extreme temperatures
Ease of design with non-inverting input type
Key Technical Parameters
Driven Configuration: Low-Side
Channel Type: Single
Number of Drivers: 1
Gate Type compatible with IGBT, N-Channel, P-Channel MOSFET
Voltage - Supply: 4.5V to 35V
Logic Voltage - VIL, VIH: 0.8V, 3V
Current - Peak Output: 14A source, 14A sink
Rise / Fall Time: 25ns / 18ns typical
Quality and Safety Features
Extended junction temperature range for high reliability
Constructed in adherence to Littelfuse's stringent quality standards
Surface-mount package for robust solid-state assembly
Compatibility
Supports a variety of IGBTs, N-Channel, and P-Channel MOSFETs
Compatible with logic-level inputs
Application Areas
Switch mode power supplies
Motor controllers
Power inverters
DC-DC converters
Industrial automation
Product Lifecycle
Product status: Active
Not currently listed for discontinuation with ongoing support
Several Key Reasons to Choose This Product
Highly reliable low-side gate driver for demanding applications
Capability to drive a wide spectrum of power transistors
Generates less heat due to fast switching minimizing power losses
Suitable for complex industrial environments with its wide temperature range
Ease of integration with multiple types of MOSFETs and IGBTs
Ready for automated assembly processes with Tape & Reel packaging
Supports long-term applications with assured active status and no near-term discontinuation