Manufacturer Part Number
CS4226-KQZ
Manufacturer
Cirrus Logic
Introduction
The CS4226-KQZ is a 6-channel audio volume control integrated circuit (IC) from Cirrus Logic. It offers advanced features and high performance for audio applications, providing precise volume control and comprehensive system management capabilities.
Product Features and Performance
6 independent volume-controlled audio channels
I2C and SPI digital control interfaces
Supports 4.75V to 5.25V supply voltage
Wide operating temperature range of -10°C to 70°C
Small 44-pin LQFP surface mount package
Automotive-grade qualification for reliable operation in demanding environments
Product Advantages
Precise digital volume control for optimal audio performance
Flexible digital control interfaces for easy system integration
Wide operating voltage and temperature range for versatile applications
Automotive-grade quality and reliability for critical audio systems
Key Reasons to Choose This Product
Robust and reliable performance for high-quality audio applications
Comprehensive set of features to simplify system design and integration
Automotive-grade qualification for use in demanding environments
Trusted Cirrus Logic brand and technology leadership in audio ICs
Quality and Safety Features
Automotive-grade qualification for enhanced reliability and safety
Designed and manufactured to the highest quality standards
Compatibility
The CS4226-KQZ is compatible with a wide range of audio systems and applications, including:
Vehicle infotainment systems
Professional audio equipment
Home theater systems
Consumer electronics with advanced audio capabilities
Application Areas
Automotive infotainment systems
Professional audio equipment
Home theater systems
Consumer electronics with advanced audio features
Product Lifecycle
The CS4226-KQZ is an active, in-production product from Cirrus Logic. There are no plans for immediate discontinuation of this model. However, customers are advised to contact our website's sales team for the latest product availability and information on any potential alternative or equivalent models.