Receiver/timing apparatus for a single frequency, time-shared positioning system
First Claim
1. In a single frequency, time-shared, phase-comparison positioning system wherein a continuous wave trigger signal is transmitted from a master station, wherein continuous wave pattern frequency signals for phase-comparison are then transmitted in fixed sequence from first the master station and then a plurality of slave stations, and wherein the trigger and pattern frequency signals are transmitted for fixed intervals and at a fixed repetition rate, an improved receiver/timing apparatus for preventing the phase-comparison process from being affected by false triggering, which comprises:
- timing means for generating a first set of sequentially active signals which correspond in sequence and active duration to the trigger and pattern frequency sequence and transmission intervals, respectively, and which have a repetition rate which is identical to the repetition rate of the transmitted trigger and pattern frequency intervals;
means for receiving the transmitted continuous wave signals;
means in association with said receiving means for deriving an IF signal from the received trigger signal; and
a trigger processor which determines if a predetermined continuous portion of the derived IF signal meets acceptable frequency criteria and which resets the timing means to a state corresponding to the beginning of the pattern frequency transmission intervals if the predetermined continuous portion of the derived IF signal meets acceptable frequency criteria.
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Abstract
An improved receiver/timing apparatus is disclosed for use in a single frequency, time-shared, continuous wave, phase-comparison positioning system wherein a trigger signal is transmitted from a master station and wherein pattern frequency signals are transmitted from the master and a plurality of slave stations. The improved receiver/timing apparatus comprises a trigger processor and a timing generator. After acceptable good trigger transmissions have been received for a predetermined number of successive trigger intervals, subsequent trigger transmissions from the master transmitting station are sampled only during a precise interval which is dictated by a timing generator. Also, the timing generator is "locked in" at that time, and spurious electrical transmissions can not reinitialize the timing generator and proper phase comparison is, therefore, maintained. The timing generator also generates precise timing signals, the occurrence of which dictate the intervals during which pattern frequency transmissions from the master and slave stations may be sampled. The improved receiver/timing apparatus further comprises a discriminator which outputs signals to drive pattern digitizer electronics. The phase of each signal which used to drive the pattern digitizer is compared to the phase of the derived IF signal from the respective pattern frequency signal and is corrected if out of phase. Correction of the phase of the signals driving the pattern digitizer is limited by an error excursion limiter. This limiting technique prevents spurious transmissions received during master and slave stations pattern frequency transmission times from adversely affecting the information stored in the pattern digitizer.
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Citations
9 Claims
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1. In a single frequency, time-shared, phase-comparison positioning system wherein a continuous wave trigger signal is transmitted from a master station, wherein continuous wave pattern frequency signals for phase-comparison are then transmitted in fixed sequence from first the master station and then a plurality of slave stations, and wherein the trigger and pattern frequency signals are transmitted for fixed intervals and at a fixed repetition rate, an improved receiver/timing apparatus for preventing the phase-comparison process from being affected by false triggering, which comprises:
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timing means for generating a first set of sequentially active signals which correspond in sequence and active duration to the trigger and pattern frequency sequence and transmission intervals, respectively, and which have a repetition rate which is identical to the repetition rate of the transmitted trigger and pattern frequency intervals; means for receiving the transmitted continuous wave signals; means in association with said receiving means for deriving an IF signal from the received trigger signal; and a trigger processor which determines if a predetermined continuous portion of the derived IF signal meets acceptable frequency criteria and which resets the timing means to a state corresponding to the beginning of the pattern frequency transmission intervals if the predetermined continuous portion of the derived IF signal meets acceptable frequency criteria. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. In a single frequency time-shared, phase-comparison positioning system wherein a continuous wave trigger signal is transmitted from a master station, wherein continuous wave pattern frequency signals for phase-comparison are then transmitted in fixed sequence from first the master station and then a plurality of slave stations, and wherein the trigger and pattern frequency signals are transmitted for fixed intervals and at a fixed repetition rate, an improved receiver/timing apparatus for preventing the phase-comparison process from being affected by false triggering, which comprises:
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timing means for generating two sets of signals, the signals of the first set being sequentially active in sequence and active duration corresponding to the trigger and pattern frequency sequence and transmission intervals, respectively, having a repetition rate which is identical to the repetition rate of the transmitted trigger and pattern frequency transmission interval with which is corresponds, and the second set of signals being sequentially active sample signals which are active during respective portions of the pattern frequency transmission intervals; means for receiving the transmitted continuous wave signals; means in association with said receiving means for deriving a first IF signal from the received trigger signal and a second IF signal from the received pattern frequency signals; a programmable counter, whose contents are intially set to a predetermined programmed value, which is utilized to generate a signal during a transmission interval after a number of pulses of the first IF signal equal to the programmed contents of the counter have been counted; means for checking the width of each pulse of the first IF signal; means for restoring the contents of the counter to its initial programmed value whenever the pulse width of the first IF signal does not meet acceptable frequency criteria; a trigger pulse generator responsive to the signal generated by the counter for generating a signal at its output at the end of the trigger interval if the predetermined portion of the first IF signal meets acceptable frequency criteria; a missing trigger pulse detector which is responsive to the signal generated by the trigger pulse generator for generating a signal having a pulse width greater than the period of time between two successive trigger intervals; an integrator including a resistor and a capacitor, said integrator being responsive to the signal at the output of the missing trigger pulse detector for charging the capacitor; reset timing means responsive to the output of the trigger pulse generator for generating a signal at its output to reset the timing means to a state corresponding to the beginning of the pattern frequency transmission interval; means for inhibiting the output of the trigger pulse generator from activating the reset timing means when the capacitor in the integrator is fully charged; means for generating a plurality of pattern digitizer signals; a discriminator responsive to the first and sample sets of signals generated by the timing means and responsive to the second IF signal for comparing the phase relationship of the second IF signal to the respective pattern digitizer signal which is generated; and means for adjusting the phase of the respective pattern digitizer signal, said adjustment means including error excursion limiting means for limiting the amount of phase adjustment which may be made to each pattern digitizer signal during a pattern frequency transmission interval. - View Dependent Claims (9)
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Specification