Manufacturer Part Number
MAX16814ATP/V+T
Manufacturer
analog-devices
Introduction
The MAX16814 is a high-efficiency, four-channel LED driver that operates from a 4.75V to 40V input voltage. It integrates a SEPIC/buck-boost controller and four constant-current LED drivers, enabling a simple, compact design for LED backlight and general lighting applications. The device features programmable switching frequency, PWM/analog brightness control, open-LED detection, and thermal regulation.
Product Features and Performance
4-channel LED driver with integrated SEPIC/buck-boost controller
Wide 4.75V to 40V input voltage range
150mA maximum output current per channel
Programmable switching frequency from 200kHz to 2MHz
PWM and analog brightness control
Open-LED detection and thermal regulation
Supports up to 40V input voltage
Product Advantages
Compact and efficient design for LED backlight and general lighting applications
Simplified power supply design with integrated SEPIC/buck-boost controller
Flexible brightness control options (PWM and analog)
Protection features like open-LED detection and thermal regulation
Key Reasons to Choose This Product
Robust and reliable performance for demanding LED lighting applications
Wide input voltage range and high efficiency enable versatile designs
Comprehensive feature set simplifies system implementation
Backed by Analog Devices' reputation for high-quality power management solutions
Quality and Safety Features
Designed and manufactured to Analog Devices' high-quality standards
Includes protection features like open-LED detection and thermal regulation for safe and reliable operation
Compatibility
Compatible with a wide range of LED-based lighting and backlight applications
Application Areas
LED backlight for displays
General LED lighting applications
Product Lifecycle
The MAX16814 is an active product, and there are no known equivalent or alternative models available at this time. If you have any further questions or need assistance, please contact our sales team through our website.