A 1 mm Pitch 80 × 80 Channel 322 Hz Frame-Rate Multitouch Distribution Sensor With Two-Step Dual-Mode

Abstract

A 1 mm pitch 80 × 80 channel 322 Hz frame- rate capacitive multitouch distribution sensor has been devel- oped. High-resolution multiple touch points are detected including touch-strength distribution around them. A two-step dual-mode capacitance scan scheme is proposed, where self- and mutual- capacitance measurements are hierarchically performed in two steps to increase the frame scan rate that is otherwise reduced due to high resolution. 160 row-and-column dedicated parallel ADCs further increase the scan rate. A time-domain counter-based slope ADC suppresses power and area penalty for the parallel ADC approach. A signal attenuation due to the sensor capacitance reduction in the high resolution is compensated by thorough noise-reduction techniques in the sensor analog frontend (AFE). A prototype in 0.35 µm CMOS demonstrates 41 dB signal-to- noise ratio (SNR) with >5× tighter sensor-channel pitch, >10× faster touch-point scan, >10× and >4× higher energy and area efficiency to the state-of-the-art touch distribution sensors.