Switching arrangement and method for a capacitive sensor

The invention claimed is: 1. A capacitive sensor comprising: a sensing electrode for capacitively coupling to a counterelectrode to form a capacitance to be measured; an alternating voltage source, configured to operatively couple an alternating voltage to the sensing electrode; a capacitive first transfer device; a measurement circuit configured to measure the capacitance; and a switching arrangement configured to alternately in a first switching state, connect the first transfer device to the sensing electrode to enable a charge transfer from the sensing electrode to the first transfer device, while the first transfer device is not connected to the measurement circuit; and in a second switching state, connect the first transfer device to the measurement circuit to enable a charge transfer from the first transfer device to the measurement circuit, while the first transfer device is not connected to the sensing electrode, so that the measurement circuit is at no time connected to the sensing electrode. 2. A capacitive sensor according to claim 1 , wherein the first transfer device comprises a first transfer capacitor with a first terminal and second terminal; the alternating voltage source is configured to generate an alternating voltage at a first node; the measurement circuit is connected to a second node and a third node; and the switching arrangement is configured to alternately in the first switching state, connect the first terminal to the sensing electrode and the second terminal to the first node; and in the second switching state, connect the first terminal to the second node and the second terminal to the third node. 3. A capacitive sensor according to claim 2 , wherein the measurement circuit comprises an integration capacitor connected to the second node and the third node; and a transimpedance amplifier connected to the second node and the third node. 4. A capacitive sensor according to claim 2 , wherein the third node is connected to ground. 5. A capacitive sensor according to claim 2 , wherein the third node is connected to a constant voltage source. 6. A capacitive sensor according to claim 2 , wherein the switching arrangement is configured to connect the sensing electrode to the first node in the second switching state. 7. A capacitive sensor according to claim 2 , further comprising a capacitive second transfer device, wherein the second transfer device comprises a second transfer capacitor having a third terminal and a fourth terminal and that the switching arrangement is configured to connect the third terminal to the third node and the fourth terminal to the second node in the first state; and connect the third terminal to the sensing electrode and the fourth terminal to the first node in the second switching state. 8. A capacitive sensor according to claim 1 , wherein the alternating voltage source is configured to generate a sinusoidal voltage. 9. A capacitive sensor according to claim 8 , wherein the switching arrangement is configured to be in the first switching state when the voltage is rising and is to be in the second switching state when the voltage is dropping. 10. A capacitive sensor according to claim 1 , further comprising a capacitive second transfer device and that the switching arrangement is further configured to in the first switching state, connect the second transfer device to the measurement circuit to enable a charge transfer from the second transfer device to the measurement circuit; and in the second switching state, connect the second transfer device to the sensing electrode to enable a charge transfer from the sensing electrode to the second transfer device. 11. A capacitive sensor according to claim 1 , wherein said counterelectrode is formed by ground and wherein said alternating voltage (V 1 ) of said alternating voltage source is applied to said sensing electrode. 12. A capacitive sensor according to claim 1 , wherein said counterelectrode is a transmitting antenna electrode for emitting an alternating electric field in response to an alternating signal from said alternating voltage source applied to said counterelectrode, and wherein said alternating voltage is induced in said sensing electrode by said alternating electric field coupling into said sensing electrode. 13. Method for capacitive sensing with a sensing electrode capacitively coupling to a counterelectrode to form a capacitance to be measured, a capacitive first transfer device and a measurement circuit, the method comprising: operatively coupling an alternating voltage to the sensing electrode; alternately in a first switching state, connecting the first transfer device to the sensing electrode to enable a charge transfer from the sensing electrode to the first transfer device, while the first transfer device is not connected to the measurement circuit; and in a second switching state, connecting the first transfer device to the measurement circuit to enable a charge transfer from the first transfer device to the measurement circuit, while the first transfer device is not connected to the sensing electrode; so that the measurement circuit is at no time connected to the sensing electrode; and measuring the capacitance of the sensing electrode with the measurement circuit.