Manufacturer Part Number
LT1910IS8#PBF
Manufacturer
analog-devices
Introduction
The LT1910IS8#PBF is a high-voltage, high-side MOSFET gate driver from Analog Devices. It is designed to provide efficient and reliable control of high-side N-channel MOSFETs in a variety of power management and control applications.
Product Features and Performance
Operates from an 8V to 48V supply voltage
Supports logic-level input voltages from 0.7V to 3.5V
Single channel driver with high-side configuration
N-channel MOSFET gate driver
Capable of driving high-current loads
Fast rise and fall times for efficient MOSFET switching
Wide operating temperature range of -40°C to 125°C
Product Advantages
Reliable and efficient control of high-side MOSFETs
Flexible supply and logic voltage ranges
Compact surface-mount package
Suitable for a wide range of power management applications
Key Reasons to Choose This Product
Proven performance and reliability from a trusted manufacturer
Versatile design that can be easily integrated into various power systems
Optimized for efficient and fast switching of high-current loads
Robust thermal performance for reliable operation in demanding environments
Quality and Safety Features
Designed and manufactured to Analog Devices' high-quality standards
Extensive thermal protection and fault detection mechanisms
Compliance with relevant safety and regulatory requirements
Compatibility
The LT1910IS8#PBF is compatible with a wide range of high-side N-channel MOSFETs and can be used in various power management and control applications.
Application Areas
Switch-mode power supplies
Motor drives
Industrial automation and control systems
Automotive electronics
Telecommunications equipment
Renewable energy systems
Product Lifecycle
The LT1910IS8#PBF is an active product, and Analog Devices continues to support and manufacture this model. There are no direct equivalent or alternative models available at this time. If you have any further questions or require additional information, please contact our website's sales team.