The CS35L26CCWZR is a high-performance haptic driver from Cirrus Logic. It's designed to provide rich and realistic haptic feedback in various applications, including smartphones, tablets, gaming controllers, and other portable devices. This integrated circuit (IC) leverages advanced algorithms and hardware to precisely control actuators, creating a wide range of tactile sensations.

Applications

• Smartphones
• Tablets
• Gaming controllers
• Wearable devices
• Automotive infotainment systems

Features

• High-resolution haptic control
• Integrated boost converter
• Advanced waveform generation
• Low power consumption
• Small package size
• I2C control interface

Benefits

• Enhanced user experience through realistic and immersive haptic feedback.
• Extended battery life in portable devices due to low power consumption.
• Simplified system design with integrated boost converter and control interface.
• Reduced board space requirements due to the small package size.
• Precise control over a wide range of haptic effects.

Detailed Specs

The CS35L26CCWZR integrates a boost converter to generate the necessary voltage for driving the haptic actuator. Its advanced waveform generation capabilities allow for creating complex haptic effects, such as textures, vibrations, and clicks. The device is controlled via an I2C interface, enabling easy integration with a host processor. The haptic driver supports a wide range of actuator types, including eccentric rotating mass (ERM) motors and linear resonant actuators (LRAs). The specific voltage and current drive capabilities should be found in the datasheet.

The IC is engineered for low power consumption, essential for battery-powered devices. It includes power-saving modes and optimized algorithms to minimize current draw when idle or during low-intensity haptic events. The small package size contributes to design flexibility and allows for integration into compact devices without compromising performance. The CS35L26CCWZR is a key component in delivering a high-quality and engaging haptic experience.