IXDF404SI - IXYS

Manufacturer Part Number

IXDF404SI

Manufacturer

littelfuse

Introduction

IXDF404SI is a dual inverting and non-inverting low-side gate driver designed to drive IGBTs and MOSFETs, offering high peak output current capabilities in a small package.

Product Features and Performance

Dual-Driver capability: Independent channels allow for driving two gates separately

Compatible Gate Types: IGBT, N-Channel, P-Channel MOSFET

Voltage Supply Range: 4.5V to 35V for flexible use in various circuit designs

High Peak Output Current: 4A source and sink for robust gate driving

Fast switching times: 16ns rise and 13ns fall time for high-speed operations

Wide Operating Temperature: Ranges from -55°C to 150°C (TJ)

Product Advantages

Ability to drive both N-channel and P-channel MOSFETs and IGBTs increases design versatility

Support of both inverting and non-inverting input maximizes design flexibility

Features low threshold voltages (VIL, VIH) to ensure compatibility with modern logic interfaces

Key Technical Parameters

Channels: 2

Voltage Supply Range: 4.5V ~ 35V

Logic Voltage VIL, VIH: 0.8V, 2.5V

Current Peak Output (Source, Sink): 4A, 4A

Rise / Fall Time (Typ): 16ns, 13ns

Operating Temperature: -55°C ~ 150°C

Quality and Safety Features

Surface Mount 8-SOIC packaging ensures secure and reliable mounting

Compatibility

Logical Compatibility with voltage levels of 0.8V and 2.5V allows integration with modern microcontrollers

Application Areas

Suitable for driving power MOSFETs and IGBTs in motor control, DC-DC converters, and power management applications.

Product Lifecycle

Status: Obsolete

Replacement or Upgrade Options: Users should contact littelfuse or authorized distributors for information on current replacements or upgrade models.

Several Key Reasons to Choose This Product

Dual channel operation caters to complex designs requiring multiple gate drives.

High current capability ensures suitability for high power applications.

Fast switching capability enhances system performance by reducing transition time, thus minimizing power dissipation.

Wide temperature operation range increases reliability in harsh environments.

Support for multiple gate types and both inverting and non-inverting inputs adds extensive application flexibility.