Manufacturer Part Number
PCA9685PW/Q900,118
Manufacturer
NXP Semiconductors
Introduction
The PCA9685PW/Q900,118 is a 16-channel, 12-bit PWM output LED driver from NXP Semiconductors. It is designed to provide highly accurate and configurable PWM control for LED-based lighting applications, particularly automotive and industrial lighting systems.
Product Features and Performance
16 individual LED output channels with 12-bit resolution (4,096 steps) for precise dimming control
Integrated oscillator and logic control for autonomous PWM generation
Wide supply voltage range from 2.3V to 5.5V
Output current up to 25mA per channel
Operating temperature range of -40°C to +85°C
Supports PWM dimming for smooth brightness control
Product Advantages
Highly accurate and configurable PWM control for LED dimming
Integrated design reduces system complexity and component count
Wide operating voltage and temperature range for diverse applications
Automotive-grade qualification for reliable performance in harsh environments
Key Reasons to Choose This Product
Precise LED control for superior lighting performance
Flexibility to handle a wide range of LED-based lighting applications
Proven reliability and quality with automotive-grade qualification
Simplified system design and reduced component count
Quality and Safety Features
AEC-Q100 qualified for automotive applications
Robust overcurrent and overvoltage protection
Compatibility
The PCA9685PW/Q900,118 is compatible with a variety of microcontrollers and systems that require precise LED control, making it a versatile solution for various lighting applications.
Application Areas
Automotive lighting (headlights, taillights, interior lighting)
Industrial and commercial LED lighting
Architectural and decorative lighting
RGB LED control
General purpose LED dimming
Product Lifecycle
The PCA9685PW/Q900,118 is an active product, and there are no immediate plans for discontinuation. However, as technology evolves, customers are advised to contact our website's sales team for the latest information on available models and any potential alternatives.