Capacitive switch having high accuracy

What is claimed is: 1 . A capacitive switch comprising: a drive circuit configured to output a drive signal and a switching signal, wherein the drive signal is outputted to a first node and a second node; at least one capacitive detection circuit coupled to the first node at a first time and coupled to the second node at a second time according to the switching signal, and configured to generate a first detection signal according to the drive signal; a capacitive reference circuit coupled to the second node at the first time and coupled to the first node at the second time according to the switching signal, and configured to generate a second detection signal according to the drive signal; and an identification unit comprising a first input terminal and a second input terminal respectively coupled to the first node and the second node, and configured to identify a phase shift between inputted detection signals received by the first input terminal and the second input terminal. 2 . The capacitive switch as claimed in claim 1 , wherein the identification unit is configured to identify a first phase shift corresponding to the first time, identify a second phase shift corresponding to the second time, and identify a detection state of the capacitive detection circuit according to a comparison result of comparing the first phase shift and the second phase shift. 3 . The capacitive switch as claimed in claim 2 , wherein the comparison result is a difference value between the first phase shift and the second phase shift, and when the difference value exceeds a difference threshold, the identification unit is configured to output an identified signal indicating a touch detected by the capacitive detection circuit. 4 . The capacitive switch as claimed in claim 2 , further comprising a register coupled to the identification unit and configured to store information related to the first phase shift. 5 . The capacitive switch as claimed in claim 1 , further comprising: a first switching element configured to couple the capacitive detection circuit to the first node or the second node according to the switching signal; and a second switching element configured to couple the capacitive reference circuit to the second node or the first node according to the switching signal. 6 . The capacitive switch as claimed in claim 5 , wherein the capacitive switch comprises a plurality of capacitive detection circuits and a multiplexer coupled between the capacitive detection circuits and the first switching element. 7 . The capacitive switch as claimed in claim 1 , wherein the first input terminal and the second input terminal are respectively coupled to a delay extension circuit which is configured to extend the phase shift. 8 . The capacitive switch as claimed in claim 1 , wherein the first input terminal and the second input terminal are respectively coupled to a comparison unit which is configured to convert the first detection signal and the second detection signal to square waves, and the comparison unit comprises a slicer, an inverter or a buffer. 9 . The capacitive switch as claimed in claim 1 , wherein the capacitive switch comprises a plurality of capacitive detection circuits and a plurality of switching elements corresponding to the capacitive detection circuits, and the plurality of switching elements is configured to sequentially couple the capacitive detection circuits to the first node and the second node according to the switching signal. 10 . The capacitive switch as claimed in claim 1 , wherein the capacitive reference circuit is a replica circuit of the capacitive detection circuit. 11 . The capacitive switch as claimed in claim 1 , wherein the identification unit comprises a time to digital converter, a phase detector, a D flip-flop or an AND gate configured to identify the phase shift. 12 . A capacitive switch comprising: a drive circuit configured to output a drive signal and a switching signal, wherein the drive signal is outputted to a first node and a second node; a first switching element and a second switching element configured to perform switching according to the switching signal; a first capacitive detection circuit coupled to the first node at a first time and coupled to the second node at a second time via the first switching element, and configured to generate a first detection signal according to the drive signal; a second capacitive detection circuit coupled to the second node at the first time and coupled to the first node at the second time via the second switching element, and configured to generate a second detection signal according to the drive signal; and an identification unit comprising a first input terminal and a second input terminal respectively coupled to the first node and the second node, and configured to identify a phase shift between inputted detection signals received by the first input terminal and the second input terminal, and identify detection states of the first capacitive detection circuit and the second capacitive detection circuit according to the phase shift. 13 . The capacitive switch as claimed in claim 12 , wherein the identification unit is configured to identify a first phase shift corresponding to the first time and identify a second phase shift corresponding to the second time. 14 . The capacitive switch as claimed in claim 13 , wherein when a difference value between the first phase shift and the second phase shift exceeds a difference threshold, the identification unit is configured to generate a first identified signal indicating a touch detected by the first capacitive detection circuit or generate a second identified signal indicating a touch detected by the second capacitive detection circuit. 15 . The capacitive switch as claimed in claim 14 , wherein when the identification unit identifies according to the first phase shift that the inputted detection signal at the first input terminal lags the inputted detection signal at the second input terminal, the identification unit is configured to generate the first identified signal, and when the identification unit identifies according to the first phase shift that the inputted detection signal at the first input terminal leads the inputted detection signal at the second input terminal, the identification unit is configured to generate the second identified signal. 16 . The capacitive switch as claimed in claim 14 , wherein when the identification unit identifies according to the second phase shift that the inputted detection signal at the first input terminal leads the inputted detection signal at the second input terminal, the identification unit is configured to generate the first identified signal, and when the identification unit identifies according to the second phase shift that the inputted detection signal at the first input terminal lags the inputted detection signal at the second input terminal identified, the identification unit is configured to generate the second identified signal. 17 . A capacitive switch comprising: a control unit configured to output a drive signal and a switching signal, wherein the drive signal is outputted to a first node and a second node; at least one capacitive detection circuit constantly coupled to the control unit via the first node, and configured to generate a first detection signal according to the drive signal; a capacitive reference circuit constantly coupled to the control unit via the second node, and configured to generate a second detection signal according to the drive signal