Reading device for capacitive sensing element

What is claimed is: 1. A touch feedback device, comprising: a differential capacitive sensing element comprising a common node and two non-common nodes; a charge-to-voltage conversion circuit comprising two input terminals and an output terminal, wherein the two input terminals are connected to the two non-common nodes, respectively, and the charge-to-voltage conversion circuit is configured to read a charge change of the differential capacitive sensing element and convert the charge change into a voltage signal; a modulation signal generator, connected to the common node of the differential capacitive sensing element, and configured to output a modulation signal to the common node; a demodulator connected to the output terminal of the charge-to-voltage conversion circuit, a low-pass filter connected to the demodulator and configured to filter the voltage signal; and a phase adjustment circuit, connected to the common node of the differential capacitive sensing element and the output terminal of the charge-to-voltage conversion circuit, configured to adjust a phase of the modulation signal in response to a characteristic time delay inherent to the phase adjustment circuit, wherein the demodulator is configured to demodulate a combined signal comprising the adjusted modulation signal and the voltage signal. 2. The touch feedback device of claim 1 , wherein the phase adjustment circuit comprises: a resistor connected to the modulation signal generator; and a capacitor with one end connected to the resistor and the demodulator, and with another end grounded. 3. The touch feedback device of claim 1 , wherein the charge-to-voltage conversion circuit is a differential charge-to-voltage conversion circuit. 4. The touch feedback device of claim 1 , wherein the voltage signal is a differential signal. 5. The touch feedback device of claim 1 , wherein the phase adjustment circuit comprises: a synthesizing circuit connected to the modulation signal generator and the demodulator, and configured to synthesize a digital clock signal and the modulation signal to input to the demodulator; and a digital clock generator connected to the synthesizing circuit, and configured to generate the digital clock signal. 6. The touch feedback device of claim 5 , wherein the synthesizing circuit is a counter. 7. A reading device for capacitive sensing element, comprising: a differential capacitive sensing element comprising a common node and two non-common nodes; a charge-to-voltage conversion circuit comprising two input terminals and an output terminal, wherein the two input terminals are connected to the two non-common nodes, respectively, and the charge-to-voltage conversion circuit is configured to read a charge change of the differential capacitive sensing element and convert the charge change into a voltage signal; a modulation signal generator, connected to the common node of the differential capacitive sensing element, configured to output a modulation signal to the common node; a first offset capacitor with one end connected to one of the two non-common nodes; a second offset capacitor with one end connected to another one of the two non-common nodes; a demodulator connected to the output terminal of the charge-to-voltage conversion circuit and the phase-locked loop; a low-pass filter connected to the demodulator; a phase-locked loop, connected to the output terminal of the charge-to-voltage conversion circuit and the demodulator, configured to lock a phase of the modulation signal in response to a characteristic time delay inherent to the phase-locked loop, wherein the demodulator is configured to demodulate a combined signal comprising the locked modulation signal and the voltage signal. 8. The reading device for capacitive sensing element of claim 7 , wherein another end of the first offset capacitor is configured to receive a first offset signal, and another end of the second offset capacitor is configured to receive a second offset signal. 9. The reading device for capacitive sensing element of claim 7 , wherein another end of the first offset capacitor is connected to the common node, and another end of the second offset capacitor is connected to the common node. 10. The reading device for capacitive sensing element of claim 7 , wherein the charge-to-voltage conversion circuit is a differential charge-to-voltage conversion circuit. 11. The reading device for capacitive sensing element of claim 7 , wherein the voltage signal is a differential signal. 12. The reading device for capacitive sensing element of claim 7 , further comprising a first gain circuit connected to the charge-to-voltage conversion circuit and the phase-locked loop, and configured to amplify the voltage signal output by the charge-to-voltage conversion circuit and output the voltage signal that is amplified to the phase-locked loop. 13. The reading device for capacitive sensing element of claim 12 , further comprising a second gain circuit connected to the charge-to-voltage conversion circuit and the demodulator, and configured to amplify the voltage signal output by the charge-to-voltage conversion circuit and output the voltage signal that is amplified to the demodulator.