Sensing circuit for use with capacitive touch panel
First Claim
1. A sensing circuit for a capacitive touch panel, connected with a receiving electrode of the capacitive touch panel, wherein a mutual capacitance is existed between a driving electrode of the capacitive touch panel and the receiving electrode, and the driving electrode receives a driving signal, the sensing circuit comprising:
- a first switch, having a first end connected with the receiving electrode;
a second switch, having a first end connected with the receiving electrode;
a third switch, having a first end connected with a second end of the first switch;
a feedback capacitor, having a first end connected with the second end of the first switch;
a fourth switch, having a first end connected with a second end of the feedback capacitor; and
an operation amplifier, having a positive input terminal connected with a ground terminal, a negative input terminal connected with the first end of the fourth switch, and an output terminal connected with a second end of the second switch, a second end of the third switch and a second end of the fourth switch,wherein a driving cycle of the driving signal includes N sub-driving cycles, when the sensing circuit is operated during high-level time intervals of the N sub-driving cycles, the first switch and the fourth switch are in the close state, and the second switch and the third switch are in the open state, otherwise, when the sensing circuit is operated during low-level time intervals of the N sub-driving cycles, the first switch and the fourth switch are in the open state, and the second switch and the third switch are in the close state, then an output voltage is generated from the output terminal of the operation amplifier during the low-level time interval of the Nth sub-driving cycle, where N is an integer.
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Accused Products
Abstract
A sensing circuit of a capacitive touch panel includes a first switch, a second switch, a third switch, a feedback capacitor, a fourth switch and an operation amplifier. The first switch and the second switch have respective first ends connected with a receiving electrode. The third switch has a first end connected with a second end of the first switch. The feedback capacitor has a first end connected with the second end of the first switch. The fourth switch has a first end connected with a second end of the feedback capacitor. The operation amplifier has a positive input terminal connected with a ground terminal, a negative input terminal connected with the fourth switch, and an output terminal connected with the second, third and fourth switches. These switches are controlled during a driving cycle of the driving signal, so that an output voltage is outputted from the operation amplifier.
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Citations
5 Claims
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1. A sensing circuit for a capacitive touch panel, connected with a receiving electrode of the capacitive touch panel, wherein a mutual capacitance is existed between a driving electrode of the capacitive touch panel and the receiving electrode, and the driving electrode receives a driving signal, the sensing circuit comprising:
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a first switch, having a first end connected with the receiving electrode; a second switch, having a first end connected with the receiving electrode; a third switch, having a first end connected with a second end of the first switch; a feedback capacitor, having a first end connected with the second end of the first switch; a fourth switch, having a first end connected with a second end of the feedback capacitor; and an operation amplifier, having a positive input terminal connected with a ground terminal, a negative input terminal connected with the first end of the fourth switch, and an output terminal connected with a second end of the second switch, a second end of the third switch and a second end of the fourth switch, wherein a driving cycle of the driving signal includes N sub-driving cycles, when the sensing circuit is operated during high-level time intervals of the N sub-driving cycles, the first switch and the fourth switch are in the close state, and the second switch and the third switch are in the open state, otherwise, when the sensing circuit is operated during low-level time intervals of the N sub-driving cycles, the first switch and the fourth switch are in the open state, and the second switch and the third switch are in the close state, then an output voltage is generated from the output terminal of the operation amplifier during the low-level time interval of the Nth sub-driving cycle, where N is an integer. - View Dependent Claims (2, 3, 4, 5)
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Specification