The QT60326-ASG is a state-of-the-art integrated circuit from Microchip Technology, designed for touch sensing applications. This robust and versatile IC is part of Microchip's QTouch® series, renowned for its high performance and reliability in touch interface solutions. The QT60326-ASG is an ideal choice for designers looking to implement touch controls in a wide range of consumer, automotive, and industrial electronic products.

Key Features

• Channel Count: The device supports up to 32 channels, providing ample capacity for complex touch interfaces with multiple buttons, sliders, and wheels.
• Communication: It offers I2C and SPI communication interfaces, giving developers the flexibility to choose the best option for their design requirements.
• Power Consumption: With its low power consumption, the QT60326-ASG is suitable for battery-operated devices, enhancing the product's life and efficiency.
• Adjustable Sensitivity: The sensitivity of each touch channel can be adjusted, allowing for fine-tuning of the touch interface to suit various panel materials and thicknesses.
• Robust Noise Immunity: Designed to withstand high levels of noise, the QT60326-ASG ensures reliable operation in electrically noisy environments, making it perfect for industrial applications.

Applications

The versatility of the QT60326-ASG allows it to be used across a diverse set of applications. It is particularly well-suited for consumer electronics such as touch-enabled remote controls, gaming devices, and home appliances. In the automotive sector, it can be utilized for touch-sensitive buttons and sliders in car infotainment systems. Industrial control panels also benefit from the robustness and sensitivity of the QT60326-ASG, ensuring precise and reliable touch input even in demanding conditions.

Technical Specifications

• Supply Voltage: 2.9V to 5.5V
• Operating Temperature Range: -40°C to +85°C
• Package: 48-pin TQFP

In summary, the Microchip QT60326-ASG is a sophisticated touch sensing solution that combines flexibility, efficiency, and robustness to meet the demands of modern touch-based interfaces. Its rich feature set and adaptability make it a top choice for designers and engineers looking to create intuitive and durable touch experiences.