Position dependent non-contact voltage and current measurement

The invention claimed is: 1. An electrical parameter measurement device, comprising: a front end that includes an opening that is sized and dimensioned to receive a conductor under test; a plurality of conductive sensors positioned proximate the front end; one or more reference voltage sources coupled to the plurality of conductive sensors, the one or more reference voltage sources operative to output a reference voltage in each of the conductive sensors; control circuitry communicatively coupled to the one or more reference voltage sources and the plurality of conductive sensors, wherein the control circuitry, in operation: controls the one or more reference voltage sources to output a reference voltage in each of the conductive sensors; for each of the conductive sensors, obtains a reference current signal data point indicative of a reference signal that is measured by the conductive sensor when the respective reference voltage source outputs the reference voltage in the conductive sensor and the conductor under test is positioned in the opening of the front end of the electrical parameter measurement device; determines a calibration factor to be applied to an electrical parameter measurement of the conductor under test based at least in part on the reference current signal data points obtained for each of the plurality of conductive sensors, determines a calibration factor for each of the reference current signal data points; and determines a weighted combination of the calibration factors for each of reference current signal data points to use as the calibration factor to be applied to the electrical parameter measurement of the conductor under test. 2. The electrical parameter measurement device of claim 1 , wherein the control circuitry, in operation, applies the determined calibration factor to the electrical parameter measurement to generate a calibrated electrical parameter measurement. 3. The electrical parameter measurement device of claim 1 , wherein the electrical parameter measurement comprises one or more of voltage, current, or power. 4. The electrical parameter measurement device of claim 1 , wherein the plurality of conductive sensors comprises two or three conductive sensors. 5. The electrical parameter measurement device of claim 1 , wherein the electrical parameter measurement device comprises a non-contact voltage measurement device, a current clamp or a split-core transformer. 6. The electrical parameter measurement device of claim 1 , wherein the control circuitry, in operation, interpolates between a plurality of previously determined calibration points using the reference current signal data points to determine the calibration factor to be applied to the electrical parameter measurement. 7. The electrical parameter measurement device of claim 1 , wherein the control circuitry, in operation, inputs the reference current signal data points into a previously determined calibration formula to determine the calibration factor to be applied to the electrical parameter measurement. 8. The electrical parameter measurement device of claim 1 , wherein the plurality of conductive sensors are positioned proximate the front end of the electrical parameter measurement device such that, for each set of reference current signal data points obtained for the plurality of conductive sensors, the control circuitry determines a single position of the conductor under test. 9. The electrical parameter measurement device of claim 8 , wherein the control circuitry determines the calibration factor based at least in part on the determined single position of the conductor under test. 10. The electrical parameter measurement device of claim 1 , wherein at least two of the plurality of conductive sensors are coplanar with each other. 11. The electrical parameter measurement device of claim 1 , wherein each of the plurality of conductive sensors has a length dimension and a width dimension, and the length dimension is larger than the width dimension. 12. The electrical parameter measurement device of claim 1 , wherein the weighted combination comprises at least one of a linear weighted combination or an exponential weighted combination. 13. A calibration system operative to calibrate an electrical parameter measurement device, wherein the electrical parameter measurement device, in operation, generates reference current signals in a plurality of conductive sensors and senses the reference current signals in a conductor under test via the plurality of conductive sensors, the calibration system comprising: a controllable calibration voltage source operative to selectively output a voltage in a calibration conductor; a conductor position control system operative to selectively control a position of the calibration conductor relative to the plurality of conductive sensors of an electrical parameter measurement device under calibration; and control circuitry communicatively coupleable to the controllable calibration voltage source, the conductor position control system, and the electrical parameter measurement device, wherein the control circuitry, in operation: obtains a plurality of calibration points, wherein to obtain each of the calibration points, the control circuitry: controls the conductor position control system to move the calibration conductor to a new physical position proximate the plurality of conductive sensors of the electrical parameter measurement device; controls the electrical parameter measurement device to output a reference voltage in each of the conductive sensors; for each of the conductive sensors, obtains a reference current signal data point indicative of a reference signal that is measured by the conductive sensor; for each of the conductive sensors, determines a calibration factor based at least in part on the reference current signal data point obtained for the conductive sensor, a known voltage of the calibration conductor, and a measured voltage of the calibration conductor received from the electrical parameter measurement device; logically associates the plurality of calibration factors with the current position of the calibration conductor; and determines calibration data based on the obtained plurality of calibration points; and stores the calibration data on at least one nontransitory processor-readable storage medium for subsequent use by one or more electrical parameter measurement devices. 14. The calibration system of claim 13 wherein the calibration data comprises a lookup table that, in operation, allows an electrical parameter measurement device to determine a calibration factor for particular reference current signal measurements. 15. The calibration system of claim 13 wherein the calibration data comprises coefficients for one or more mathematical formulas. 16. A method of operating a calibration system to calibrate an electrical parameter measurement device, wherein the electrical parameter measurement device, in operation, generates reference current signals in a plurality of conductive sensors and senses the reference current signals in a conductor under test via the plurality of conductive sensors, the method comprising: obtaining a plurality of calibration points by, for each calibration point: moving a calibration conductor to a new physical position proximate the plurality of conductive sensors of the electrical parameter measurement device while the electrical parameter measurement device outputs a reference voltage in each of the conductive sensors; for each of the conductive sensors of the electrical parameter measurement device,