Touch screen controller using adaptive filter control and touch screen system having the same

What is claimed is: 1. A touch screen controller configured to control a capacitive touch screen, the touch screen controller comprising: a first comparator configured to compare a reference signal with a sensing signal, and generate a first output signal, wherein the capacitive touch screen comprises a plurality of capacitive touch sensors connected to a sensing line and a drive line, the capacitive touch sensors are configured to sense a touch event, and the sensing signal is output from the sensing line; a filter configured to generate a second output signal by integrating the first output signal in each of a plurality of sensing cycles of the filter; an analog-to-digital converter (ADC) configured to convert the second output signal to a digital signal; and a controller configured to determine at least one of whether a noise is generated and whether the touch event is generated based on a reference digital signal and the digital signal, and adjust a number of the sensing cycles of the filter based on a result of the determination, wherein the controller is configured to set the number of the sensing cycles to a first value in response to determining that the noise is not generated, and set the number of the sensing cycles to a second value in response to determining that the noise is generated, wherein the first value is smaller than the second value. 2. The touch screen controller of claim 1 , wherein the controller is configured to set the number of the sensing cycles to a third value in response to determining that the noise generated is present in a window defined by reference values, and set the number of the sensing cycles to a fourth value in response to determining that the noise generated is present outside the window, wherein the third value is smaller than the fourth value. 3. The touch screen controller of claim 1 , wherein the controller is configured to set the number of the sensing cycles to a third value in response to determining that the touch event is not generated, and set the number of the sensing cycles to a fourth value in response to determining that the touch event is generated, wherein the third value is smaller than the fourth value. 4. The touch screen controller of claim 1 , further comprising: a drive circuit configured to transmit a plurality of drive pulses to the drive line in each of a plurality of drive cycles, wherein the controller is configured to output a control signal to the drive circuit based on the result of the determination, and the drive circuit is configured to adjust a number of the drive cycles in response to the control signal. 5. The touch screen controller of claim 4 , wherein the number of the sensing cycles is equal to the number of the drive cycles. 6. The touch screen controller of claim 4 , wherein the controller is configured to set the number of the drive cycles to a first value using the control signal in response to determining that the noise generated is present in a window defined by reference values, and set the number of the drive cycles to a second value using the control signal in response to determining that the noise generated is present outside the window, wherein the first value is smaller than the second value. 7. The touch screen controller of claim 1 , wherein the filter comprises: a first capacitor comprising a first terminal connected to an output terminal of the first comparator; a first switch connected between a second terminal of the first capacitor and a ground; a second comparator comprising a first input terminal and a second input terminal; a second switch connected between the second terminal of the first capacitor and the first input terminal of the second comparator; a second capacitor connected between the first input terminal of the second comparator and an output terminal of the second comparator; and a reset switch connected to the second capacitor in parallel, wherein a total number of times that each of the first switch, the second switch, and the reset switch is toggled is determined according to the number of the sensing cycles. 8. The touch screen controller of claim 1 , wherein the ADC is configured to convert the second output signal output from the filter to the digital signal in each of the sensing cycles, and the controller is configured to accumulate the digital signals output from the ADC in the sensing cycles, and generate a final digital signal by dividing the accumulated digital signals by the number of the sensing cycles. 9. The touch screen controller of claim 1 , wherein the controller is configured to determine at least one of whether the noise is generated and whether the touch event is generated based on the reference digital signal and the digital signal of a current frame, and adjust the number of the sensing cycles for a next frame based on a result of the determination. 10. A touch screen system, comprising: a capacitive touch screen comprising a plurality of capacitive touch sensors connected to a sensing line and a drive line; and a touch screen controller electrically connected to the capacitive touch screen, wherein the touch screen controller comprises: a first comparator configured to compare a reference signal with a sensing signal output from the sensing line, and generate a first output signal; a filter configured to generate a second output signal by integrating the first output signal in each of a plurality of sensing cycles of the filter; an analog-to-digital converter (ADC) configured to convert the second output signal to a digital signal; and a controller configured to determine at least one of whether a noise is generated and whether the touch event is generated based on a reference digital signal and the digital signal, and adjust a number of the sensing cycles based on a result of the determination, wherein the controller is configured to set the number of the sensing cycles to a first value in response to determining that the noise is not generated, and set the number of the sensing cycles to a second value in response to determining that the noise is generated, wherein the first value is smaller than the second value. 11. The touch screen system of claim 10 , wherein the controller is configured to set the number of the sensing cycles to a third value in response to determining that the noise generated is present in a window defined by reference values, and set the number of the sensing cycles to a fourth value in response to determining that the noise generated is present outside the window, wherein the third value is smaller than the fourth value. 12. The touch screen system of claim 10 , wherein the controller is configured to set the number of the sensing cycles to a third value in response to determining that the touch event is not generated, and set the number of the sensing cycles to a fourth value in response to determining that the touch event is generated, wherein the third value is smaller than the fourth value. 13. The touch screen system of claim 10 , further comprising: a drive circuit configured to transmit a plurality of drive pulses to the drive line in each of a plurality of drive cycles, wherein the controller is configured to output a control signal to the drive circuit based on the result of the determination, and the drive circuit is configured to adjust a number of the drive cycles in response to the control signal. 14. The touch screen system of claim 13 , wherein the controller is configured to set the number of the drive cycles to a third value using the control signal in response to determining that the noise generated is present in a window defi