Capacitive sensing and heating system for steering wheels or seats to sense presence of hand of occupant on steering wheel or occupant in seat

What is claimed is: 1. A capacitance measuring system for detecting an occupant of a vehicle, comprising: a sensor/heater assembly arranged in at least one of a seat or a steering wheel of a vehicle and including: a sensor; and a heater arranged adjacent to the sensor; and a measurement circuit configured to: output an excitation signal to the measurement circuit and the sensor/heater assembly; measure a resonant frequency of the measurement circuit and the sensor/heater assembly in response to the excitation signal; determine at least one capacitance value based on the resonant frequency; and determine whether a body part is in proximity to the sensor based on the at least one capacitance value; wherein the measurement circuit includes: an LC tank circuit; an excitation circuit in communication with the LC tank circuit and configured to generate the excitation signal that is output to the LC tank circuit; a frequency measurement circuit in communication with the LC tank circuit and configured to measure the resonant frequency in response to the excitation signal; and a controller configured to: trigger the excitation signal; receive the resonant frequency; determine the capacitance value based on the resonant frequency; and determine whether the body part is in proximity to the sensor based on the capacitance value. 2. The capacitance measuring system of claim 1 , wherein: the sensor/heater assembly includes a substrate; the sensor is arranged on one surface of the substrate; and the heater is arranged on an opposite surface of the substrate. 3. The capacitance measuring system of claim 2 , wherein the substrate comprises a material selected from a group consisting of foam, felt, woven fabric and knitted fabric. 4. The capacitance measuring system of claim 2 , wherein the sensor comprises a first wire arranged in a first predetermined pattern on the one surface of the substrate. 5. The capacitance measuring system of claim 4 , wherein the heater comprises a second wire arranged in a second predetermined pattern on the opposite surface of the substrate. 6. The capacitive measuring system of claim 5 , wherein the second wire in the second predetermined pattern has a spacing with a maximum distance that is less than or equal to 4 mm. 7. The capacitive measuring system of claim 6 , wherein the maximum distance is less than or equal to 3 mm. 8. The capacitive measuring system of claim 6 , wherein the maximum distance is less than or equal to 2 mm. 9. A capacitive measuring system for detecting an occupant of a vehicle, comprising: a sensor/heater assembly arranged in at least one of a seat or a steering wheel of a vehicle and including: a sensor; and a heater arranged adjacent to the sensor; and a measurement circuit configured to: output an excitation signal to the measurement circuit and the sensor/heater assembly; measure a resonant frequency of the measurement circuit and the sensor/heater assembly in response to the excitation signal; determine at least one capacitance value based on the resonant frequency; and determine whether a body part is in proximity to the sensor based on the at least one capacitance value; wherein: the sensor/heater assembly includes a substrate; the sensor is arranged on one surface of the substrate; and the heater is arranged on an opposite surface of the substrate; wherein the sensor comprises a first wire arranged in a first predetermined pattern on the one surface of the substrate; wherein the heater comprises a second wire arranged in a second predetermined pattern on the opposite surface of the substrate; and non-conductive thread attaching at least one of the sensor and the heater to the substrate. 10. The capacitance measuring system of claim 1 , further comprising: a driver circuit arranged between the LC tank circuit and the heater and configured to drive the heater in response to the excitation signal. 11. The capacitance measuring system of claim 10 , further comprising a shield layer arranged adjacent to the heater. 12. The capacitance measuring system of claim 11 , wherein the shield layer is connected by a capacitor to the heater and the driver circuit. 13. The capacitance measuring system of claim 1 , wherein the measurement circuit includes: a driver circuit including: a high side switch configured to selectively connect one end of the heater to a voltage reference; and a low side switch configured to selectively connect another end of the heater to a reference potential; and a driver switch configured to selectively connect the driver circuit to the heater. 14. The capacitance measuring system of claim 13 , wherein the controller configures states of the high side switch, the low side switch and the driver switch in (i) an active mode and (ii) at least one of a passive open mode and a passive closed mode during both calibration and measurement of the capacitance value. 15. The capacitance measuring system of claim 14 , wherein, during the active mode, the controller configures the high side switch and the low side switch in open states and the driver switch in a closed state. 16. The capacitance measuring system of claim 14 , wherein, during the passive closed mode, the controller configures the high side switch and the driver switch in an open state and the low side switch in a closed state. 17. The capacitance measuring system of claim 14 , wherein, during the passive open mode, the controller configures the high side switch, the driver switch and the low side switch in open states. 18. The capacitance measuring system of claim 10 , wherein the controller is configured to operate in a first calibration mode, a second calibration mode and a measurement mode. 19. The capacitance measuring system of claim 18 , wherein the controller is configured to determine a first capacitance value during the first calibration mode based on a capacitance of the capacitance measuring system without the heater and a capacitance sensing layer attached thereto. 20. The capacitance measuring system of claim 18 , wherein the controller is configured to operate in the second calibration mode one time and to operate in the measurement mode a plurality of times.