Tension monitoring arrangement and method

What is claimed is: 1 . An apparatus as part of a system for installing an underground utility by retraction that is applied to a leading end of the utility to draw the utility through the ground such that the utility is subjected to a tension force, said apparatus comprising: a sensor for inground sensing of the tension force that is applied to the leading end of the utility to produce a sensor signal such that a zero tension sensed value may be offset from a zero voltage; an amplifier for using the sensor signal to generate an amplified output signal such that a zero tension amplified output is produced responsive to said zero tension sensed value; and a processor for measuring said amplified output signal at least in a way which measures said zero tension amplified output responsive to powering on said sensor and said amplifier, and for saving the zero tension amplified output. 2 . The apparatus of claim 1 wherein said processor is configured for issuing a ready for calibration signal after saving said zero tension amplified output and said apparatus includes a transceiver for transmitting said ready for calibration signal to an above ground location. 3 . The apparatus of claim 2 wherein said transceiver is configured to listen for a calibration signal from the above ground location for a predetermined time interval, responsive to said ready for calibration signal. 4 . The apparatus of claim 3 wherein said processor is configured for at least one of entering a run mode, if said calibration signal is not received during the predetermined time interval, in which the saved zero tension amplified output is used by the processor to determine at least one compensated tension measurement and entering a calibration procedure, if said calibration signal is received during the predetermined time interval. 5 . The apparatus of claim 4 wherein said processor is configured for producing a digital drive signal responsive to said amplified output signal and said apparatus includes a compensator for applying a compensation voltage to said amplifier for shifting said amplified output signal responsive to the digital drive signal and said processor is further configured for repetitively adjusting said digital drive signal to obtain a target value of said amplified output signal at zero tension on the utility. 6 . The apparatus of claim 5 wherein said processor is configured for saving an adjusted digital drive signal value which produces said target value of the amplified output signal. 7 . The apparatus of claim 6 wherein said processor is further configured for (i) measuring said amplified output signal responsive to an application of at least one nonzero tension that is applied to the leading end of the utility, (ii) determining a calibration constant using the measured amplified output signal responsive to the nonzero tension and the target value of the amplified output signal, and (iii) issuing a calibration complete signal to the above ground location.