Control device for a touch panel

摘要

The present invention discloses a control device for a touch panel that comprises a plurality of X-directional sensing lines and Y-directional sensing lines. The X-directional sensing lines and Y-directional sensing lines are arranged in an interlaced manner. The control device comprises a clock generation circuit, a selection module, a driving signal generation circuit, a differential detection module, and a digital-to-analog conversion module. The selection module selects a first sensing line and a second sensing line from the X-directional sensing lines or Y-directional sensing lines. The driving signal generation circuit generates first and second driving signals to the first and second sensing lines, respectively. The digital to analog conversion module selectively outputs a first voltage to the first sensing line or outputs a second voltage to the second sensing line. The operation frequency of the touch panel can be increased using the control device of the present invention.

主权项

1. A control device applied to a touch panel, wherein the touch panel comprises a plurality of first directional sensing lines and a plurality of second directional sensing lines, the first directional sensing lines and the second directional sensing lines are arranged in an interlaced manner, the control device comprising:
a clock generating circuit configured to generate a first clock signal and a second clock signal based on a reference clock signal, wherein the first clock signal comprises a plurality of pulses, and the frequency of the second clock signal is a half of the reference clock signal frequency or equal to the frequency of the reference clock signal; a selection module configured to select a first sensing line and a second sensing line between the first directional sensing lines and the second directional sensing lines; a level shift circuit configured to generate a driving signal based on the voltage level of the second clock signal; a differential detection circuit configured to generate a comparative signal to detect the voltage of the first sensing line and the second sensing line; a voltage generation module configured to generate a first applied voltage and a second applied voltage based on the comparative signal, the first clock signal and the driving signal; a first capacitor coupling between the voltage generation module and the first sensing line to response the variation of the first applied voltage to the first sensing line; a second capacitor coupling between the voltage generation module and the second sensing line to response the variation of the second applied voltage to the second sensing line; wherein the first clock signal comprises a first pulse and the following plurality of pulses of the first pulse, the clock generation circuit determines the pulse width of the first pulse based on a resistance-capacitor delay time of the touch panel, and the voltage generation module selects the driving signal as the first applied voltage and the second applied voltage during the first pulse period, and the voltage generation module generates a plurality of calibration voltage to the first capacitance or the second capacitance.