Touch screen driving device including multiplexer with cross-coupled switches

What is claimed is: 1. A touch screen driving device, comprising: a touch screen including Tx channels, Rx channels crossing the Tx channels, and sensor nodes at crossings of the Tx channels and the Rx channels; a Tx driving circuit to supply a Tx driving pulse to the Tx channels; a plurality of sensing units to sample voltages of the sensor nodes supplied through the Rx channels in response to an Rx sampling clock; a multiplexer (mux) array including a plurality of mux switches with one of the plurality of mux switches corresponding to one each of the plurality sensing units, respectively, each of which is simultaneously cross-coupled with output terminals of the sensing units adjacent to each mux switch, wherein each mux switch outputs data for the corresponding sensing unit and an adjacent sensing unit; an analog-to-digital converter to convert an analog sampling signal sequentially received from the mux array into digital data; an average unit to average the digital data received from the analog-to-digital converter and remove noise included in the digital data; and a touch controller to analyze the digital data, in which the noise is removed, using a previously determined touch recognition algorithm and output touch data including coordinate information of a touch position. 2. The touch screen driving device of claim 1 , further comprising an integrator to integrate and accumulate the digital data, in which the noise is removed, and supply the accumulated digital data to the touch controller. 3. The touch screen driving device of claim 1 , wherein a kth mux switch among the plurality of mux switches is simultaneously connected to an output terminal of a kth sensing unit, an output terminal of a (k−1)th sensing unit, and an output terminal of a (k+1)th sensing unit, where k is a positive integer, wherein the kth mux switch outputs an output signal including a kth analog sampling signal received from the kth sensing unit, a (k−1)th analog sampling signal received from the (k−1)th sensing unit, and a (k+1)th analog sampling signal received from the (k+1)th sensing unit. 4. The touch screen driving device of claim 1 , wherein the average unit sequentially latches the digital data received from the analog-to-digital converter and then averages the latched digital data.