Patent ID: 8139037

Claim:
A liquid crystal display device with a touch screen comprising: a first substrate; a second substrate disposed in front of the first substrate; and liquid crystal material sandwiched between the first and second substrates, wherein the second substrate has a transparent conductive layer directly on a front-side surface of the second substrate, wherein the transparent conductive layer is a transparent electrode of the touch screen which is a capacitive touch screen, wherein the transparent conductive layer is shaped to have four corners when viewed from the front of the liquid crystal display device, wherein alternating voltage for position detection is supplied to each of the four corners, wherein the alternating voltages for position detection include having the same phase and the same potential supplied to the four corners, wherein the position detection is carried out based on inner node voltages outputted from the four corners of the transparent conductive layer which is a planar transparent conductive layer, wherein the touch screen detects the position where a contact member comes into contact with the conductive member, wherein a drive circuit drives the liquid crystal display device with the touch screen, wherein the drive circuit includes a position detection alternating voltage generation circuit that inputs the alternating voltage for position detection and a coordinate detection circuit that detects the position where the contact member comes into contact with the conductive member, wherein the coordinate detection circuit includes, four waveform detection circuits provided in correspondence to the four corners, and a coordinate position calculation circuit that receives outputs of the four waveform detection circuits and calculates the coordinate position, wherein each of the waveform detection circuits receives a position detection alternating voltage inputted to the corresponding corner of the planar transparent conductive layer and the inner node voltage outputted from the corresponding corner of the planar transparent conductive layer, and wherein each of the waveform detection circuits includes a first comparison circuit that compares the position detection alternating voltage inputted to the corresponding corner of the planar transparent conductive layer with the inner node voltage outputted from the corresponding corner of the planar transparent conductive layer, a second comparison circuit that compares the output of the first comparison circuit with a reference voltage, a counter that converts the period when the output of the second comparison circuit is a first voltage level into a count, and a filter circuit that averages outputs of the counter.