Calibration free distance sensor

What is claimed is: 1. A system for measuring distance without sensor calibrations, comprising: a spherical magnet that produces pure dipole magnetic field configured to be coupled to an object under test; a linear array of at least three Hall sensors, each configured to measure the magnetic field associated with the spherical magnet and to produce at least one Hall voltage reading that corresponds to the measured magnetic field associated with the spherical magnet; a multiplexer configured to receive the at least one Hall voltage reading from each of the linear array of at least three Hall sensors in a time-division manner; a voltmeter configured to receive the at least one Hall voltage reading from each of the linear array of at least three Hall sensors based on the measured magnetic field from the multiplexer; and a controller having a memory to store computer executable instructions, and a processor to execute the computer executable instructions, when executed at the processor, the computer executable instructions are configured to receive the at least one Hall voltage reading from each of the linear array of at least three Hall sensors in a time-division manner through the multiplexer; fit each of the at least one Hall voltage reading received from the multiplexer as a function of position along a line between the spherical magnet and the linear array of at least three Hall sensors; calculate a slope and an intercept associated with each of the fit Hall voltage readings; and compute a distance between the spherical magnet and the linear array of at least three Hall sensors based on the slope and the intercept. 2. The system of claim 1 , wherein the controller is configured to sequence through each of the linear array of at least three Hall sensors in receiving the at least one Hall voltage reading from each of the linear array of at least three Hall sensors; save the received at least one Hall voltage reading from each of the linear array of at least three Hall sensors in association with indicia indicative of a selected sensor in the sequence; retrieve the received at least one Hall voltage reading saved; and filter the Hall voltage readings from each of the linear array of at least three Hall sensors to obtain a final Hall voltage reading for each of the linear array of at least three Hall sensors in computing the distance, wherein the final Hall voltage reading for each sensor comprises an average of the plurality of Hall voltage readings from the the linear array of at least three Hall sensors. 3. The system of claim 2 , wherein the controller is configured to provide a value for one or more address or select lines of the multiplexer. 4. The system of claim 3 , wherein the controller is configured to store the received at least one Hall voltage reading from each of the linear array of at least three Hall sensors from the voltmeter in association with the value for the one or more address or select lines. 5. An apparatus comprising: a spherical magnet that produces pure dipole magnetic field configured to be coupled to an object under test a linear array of at least three Hall sensors, each configured to measure the magnetic field associated with the spherical magnet and to produce at least one Hall voltage reading that corresponds to the measured magnetic field associated with the spherical magnet an aggregation device configured to obtain the at least one Hall voltage reading from each of the linear array of at least three Hall sensors in a time-division manner; and a computation device configured to fit each of the at least one Hall voltage reading obtained from the aggregation device as a function of position along a line between the spherical magnet and the linear array of at least three Hall sensors; calculate a slope and an intercept associated with each of the fit Hall voltage readings; and compute a distance between the spherical magnet and the linear array of at least three Hall sensors based on the slope and the intercept. 6. The apparatus of claim 5 , wherein the computation device is configured to: sequence through each of the linear array of at least three Hall sensors in obtaining the at least one Hall voltage reading from each of the linear array of at least three Hall sensors; and save the obtained at least one Hall voltage reading from each of the linear array of at least three Hall sensors in association with indicia indicative of a selected sensor in the sequence. 7. The apparatus of claim 5 , wherein the computation device is configured to: retrieve the obtained at least one Hall voltage reading saved from each of the linear array of at least three Hall sensors; and filter the Hall voltage readings from each of the linear array of at least three Hall sensors to obtain a final Hall voltage reading for each of the linear array of at least three Hall sensors in computing the distance. 8. The apparatus of claim 7 , wherein the final Hall voltage reading for each sensor comprises an average of the Hall voltage readings from the linear array of at least three Hall sensors.