Manufacturer Part Number
FAN7391MX
Manufacturer
onsemi
Introduction
The FAN7391MX is a high-performance, half-bridge gate driver designed for high-speed switching applications using IGBTs and N-Channel MOSFETs.
Product Features and Performance
Drives IGBT and N-Channel MOSFET gates with high efficiency.
Independent channel operation for flexible control.
Supports a supply voltage range of 10V to 20V.
Non-Inverting input type enhancing design simplicity.
Fast rise and fall times (25ns/20ns typical) for improved switching speed.
High-side voltage capability up to 600V for bootstrap operations.
Able to source and sink peak currents of 4.5A, enabling high current driving.
Supports a wide operating temperature range from -40°C to +150°C.
Product Advantages
Enables efficient and high-speed switching.
High current drive capability improves overall performance.
Versatile with both IGBT and MOSFET devices.
High voltage capability allows for use in various applications.
Robust design supports a wide temperature range for extreme environments.
Key Technical Parameters
Supply Voltage: 10V ~ 20V
Logic Voltage VIL, VIH: 1.2V, 2.5V
Current Peak Output (Source, Sink): 4.5A
High Side Voltage Max (Bootstrap): 600V
Rise / Fall Time (Typ): 25ns / 20ns
Operating Temperature: -40°C ~ 150°C
Quality and Safety Features
Wide operating temperature range ensures reliability in harsh conditions.
High-side voltage capability provides enhanced safety and reliability.
Compatibility
Compatible with both IGBT and N-Channel MOSFET gate driving.
Flexible input logic levels for compatibility with various control signals.
Application Areas
Power supply circuits
Motor control
Inductive load switching
High frequency switching applications
Product Lifecycle
Currently in Active status.
Not nearing discontinuation, ensuring long-term availability.
Several Key Reasons to Choose This Product
High-speed switching capability enables efficient operation.
High current and voltage driving capabilities allow for flexible application across various power levels.
Robust design ensures reliability in extreme conditions.
Compatibility with a wide range of power semiconductors provides design versatility.
Active product lifecycle status ensures long-term availability and support.