Manufacturer Part Number
TLC5925IDWR
Manufacturer
Texas Instruments
Introduction
The TLC5925IDWR is a 16-channel, constant-current LED driver with a shift register interface. It is designed for driving LEDs in a wide range of display applications, including signage, industrial controls, and automotive lighting.
Product Features and Performance
16 constant-current outputs for driving LEDs
Shift register interface for easy daisy-chaining of multiple devices
Wide output voltage range of 3V to 17V
Ability to sink up to 45mA per output channel
Operating frequency up to 30MHz
Wide operating temperature range of -40°C to 125°C
RoHS3 compliant
Product Advantages
Efficient LED driving with constant-current output
Simplified design with shift register interface
Flexible voltage and current specifications for various LED configurations
Robust operating temperature range for use in diverse environments
Compliance with RoHS3 regulations for environmental friendliness
Key Technical Parameters
Number of Outputs: 16
Topology: Shift Register
Type: Linear
Current Output / Channel: 45mA
Voltage Supply (Max): 5.5V
Voltage Output: 17V
Voltage Supply (Min): 3V
Frequency: 30MHz
Quality and Safety Features
RoHS3 compliant for restricted substances
Wide operating temperature range for reliable performance
Compatibility
The TLC5925IDWR is a surface mount device in a 24-SOIC package, making it compatible with standard PCB assembly processes.
Application Areas
Signage
Industrial controls
Automotive lighting
General LED-based display applications
Product Lifecycle
The TLC5925IDWR is an active product from Texas Instruments and is not nearing discontinuation. Replacement or upgrade options may be available from Texas Instruments or other LED driver manufacturers.
Key Reasons to Choose This Product
Efficient and flexible LED driving with constant-current outputs
Simplified design and easy daisy-chaining with shift register interface
Wide operating voltage and temperature range for diverse applications
RoHS3 compliance for environmental friendliness
Robust performance and reliability