Inductive position detection

What is claimed is: 1. A system, comprising: a sensing area including a surface orthogonal to a longitudinal axis; a first sensor having a coil around the longitudinal axis, the coil configured to generate a time-varying magnetic field responsive to an electrical stimulus, the time-varying magnetic field having magnetic field lines intersecting the sensing area, and the coil having an inductance that changes as a conductive target moves within the sensing area relative to the coil; a second sensor having a first output and configured to: measure a distance along the longitudinal axis between the coil and the surface; and provide a first value at the first output indicative of the measured distance; an inductance-to-digital converter having a stimulus output and a second output, and configured to: apply the electrical stimulus to the coil via the stimulus output; measure the inductance by measuring a change in resonance of the coil; and provide a second value at the second output indicative of the measured inductance; and circuitry having first and second inputs, the first input coupled to the first output, the second input coupled to the second output, and the circuitry configured to: responsive to the first value, determine a longitudinal component of a coupling factor between the coil and the target along the longitudinal axis, the coupling factor indicative of a difference between the inductance of the coil and a nominal inductance of the coil; responsive to the longitudinal component, scale the second value to compensate for a dependency between the inductance and the distance along the longitudinal axis; and determine a position of the target within the sensing area responsive to the scaled second value. 2. The system of claim 1 , wherein: the target receives an amount of magnetic flux from the time-varying magnetic field; the amount of magnetic flux received by the target changes as the target moves within the sensing area relative to the coil; and the inductance changes responsive to a change in the amount of magnetic flux received by the target. 3. The system of claim 1 , wherein the coil has a quality factor. 4. The system of claim 1 , wherein the target is shaped to variably cover the sensing area according to a movement of the target within the sensing area. 5. The system of claim 4 , wherein the movement of the target within the sensing area includes a translation of the target relative to the sensing area. 6. The system of claim 4 , wherein the movement of the target within the sensing area includes a rotation of the target relative to the sensing area. 7. The system of claim 1 , wherein the circuitry includes a processing circuit. 8. The system of claim 1 , wherein the target is a first target, the sensing area is a first sensing area, and the second sensor is configured to generate a reference inductance responsive to a second target moving within a second sensing area, and the second target is movable in tandem with the first target. 9. The system of claim 1 , wherein the target is a first target, the sensing area is a first sensing area, and the second sensor is configured to generate a reference inductance responsive to a second target moving within a second sensing area, and the second target is movable independently of the first target.