Soft handover in a coupled dual-oscillator system

What is claimed is: 1. A sensor circuit comprising: a driver; an amplitude control amplifier coupled to the driver; a common mode control amplifier coupled to the driver; and a handover control circuit coupled to the amplitude control amplifier and configured to hand off an operation from the sensor circuit to a different sensor circuit, the handover control circuit including a resistor network coupled to a switch network. 2. The sensor circuit of claim 1 , wherein the amplitude control amplifier includes a first input configured to receive an amplitude reference voltage, a second input configured to receive an output voltage of the driver, and an output. 3. The sensor circuit of claim 2 , wherein the output voltage of the driver is a differential output voltage of the oscillator. 4. The sensor circuit of claim 1 , wherein the common mode control amplifier includes a first input configured to receive a common mode reference voltage, a second input configured to receive a common mode voltage output of the driver, and an output. 5. The sensor circuit of claim 1 , wherein the driver includes first and second transistors; wherein a first switch is coupled to a gate and a source of the first transistor; and a second switch is coupled to a gate and a source of the second transistor. 6. The sensor circuit of claim 5 , further comprising a digital controller coupled to the switch network, the first switch, and the second switch. 7. The sensor circuit of claim 1 , wherein the driver is adapted to be coupled to a first oscillator, the sensor circuit is a first sensor circuit, and the first oscillator is adapted to be inductively coupled to a second oscillator of a second sensor circuit. 8. A system, comprising: a sensor integrated circuit (IC), including: a driver configured to produce an oscillating waveform; an amplitude control amplifier coupled to the driver and configured to adjust a differential output voltage value of the oscillating waveform; a common mode control amplifier coupled to the driver and configured to adjust an average voltage value of the oscillating waveform; and a handover control circuit coupled to the amplitude control amplifier, wherein the handover control circuit includes a resistor network coupled to a switch network, and wherein the handover control circuit is configured to repeatedly step down a preset reference voltage provided to the amplitude control amplifier. 9. The system of claim 8 , wherein the amplitude control amplifier is configured to receive the preset reference voltage at a first input, receive the differential output voltage value at a second input, and adjust the differential output voltage value responsive to a difference between the differential output voltage value and the preset reference voltage. 10. The system of claim 8 , wherein an initial value of the preset reference voltage is a trimmed voltage value. 11. The system of claim 8 , further comprising a digital controller configured to: control a switch in the switch network to adjust the preset reference voltage provided to the amplitude control amplifier. 12. The system of claim 11 , wherein the driver includes a first transistor and a second transistor; wherein the first transistor is coupled to the control amplifier and the second transistor is coupled to the common mode control amplifier; and wherein the digital controller is configured to: turn off the first transistor and the second transistor responsive to stepping down the preset reference voltage to a target voltage. 13. The system of claim 8 , wherein the sensor IC is a first sensor IC, and further comprising a first oscillator that is adapted to be inductively coupled to a second oscillator of a second sensor IC, the first oscillator configured to produce the oscillating waveform.