Rotation rate nulling servo and method for fiber optic rotation sensor
First Claim
1. Apparatus for processing signals output from a fiber optic rotation sensor that guides a pair of counterpropagating light waves in a sensing loop of optical fiber and combines the waves to produce an interference pattern indicative of the phase difference between the waves comprising:
- detector means for producing a detector signal indicative of the phase difference of the waves;
phase modulator means for modulating the phase of light waves in the sensing loop;
means responsive to the detector signal for controlling the phase modulator means with a modulating signal for nulling the detector signal, the modulating signal producing stepped modulations in the phase of light waves in the sensing loop;
gating means connected to an output of the detector means;
rate demodulating means connected to an output of the gating means for determining the rate of rotation; and
amplitude demodulating means connected to the output of the gating means for adjusting the calibration of the rate demodulator.
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Abstract
Setting the driving signal of a phase modulator in the sensing loop of a fiber optic gyroscope to zero for a period of time τ equal to the transit time of the light waves through the gyro causes the gyro to assume a known zero reference state. In this zero reference state the counterpropagating light waves are in phase except for the phase shift caused by rotation of the sensing loop. During this zero reference state, a biase signal for demodulation purposes and a signal that will cause a phase shift equal and opposite to the rotation-induced phase shift are applied to the phase modulator. These signals null the rotation-induced phase shift as seen by a photodetector for a period equal to the transit time.
10 Citations
19 Claims
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1. Apparatus for processing signals output from a fiber optic rotation sensor that guides a pair of counterpropagating light waves in a sensing loop of optical fiber and combines the waves to produce an interference pattern indicative of the phase difference between the waves comprising:
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detector means for producing a detector signal indicative of the phase difference of the waves; phase modulator means for modulating the phase of light waves in the sensing loop; means responsive to the detector signal for controlling the phase modulator means with a modulating signal for nulling the detector signal, the modulating signal producing stepped modulations in the phase of light waves in the sensing loop; gating means connected to an output of the detector means; rate demodulating means connected to an output of the gating means for determining the rate of rotation; and amplitude demodulating means connected to the output of the gating means for adjusting the calibration of the rate demodulator. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A method for processing signals output from a fiber optic rotation sensor that guides a pair of counterpropagating light waves in a sensing loop of optical fiber and combines the waves to produce an interference pattern indicative of the phase difference between the waves, comprising the steps of:
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producing an electrical signal indicative of the phase difference of the waves; modulating the phase of light waves in the sensing loop with a phase modulator; controlling the phase modulator means with a modulating signal that produces stepped modulations in the phase of light waves in the sending loop; gating an output of the detector means with gating means; determining the rate of rotation with rate demodulating means connected to an output of the gating means; and adjusting the calibration of the rate demodulating means with amplitude demodulating means connected to the output of the gating means. - View Dependent Claims (13, 14, 15, 16, 17)
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18. A method for processing signals output from a fiber optic rotation sensor that guides a pair of counterpropagating light waves in a sensing loop of optical fiber and combines the waves to produce an interference pattern indicative of the phase difference between the waves, comprising the steps of:
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producing an electrical signal indicative of the phase difference of the waves; modulating the phase of light waves in the sensing loop with a phase modulator; controlling the phase modulator means with a modulating signal that producing stepped modulations in the phase of light waves in the sensing loop; connecting a summing circuit to the rate demodulating means for receiving a rate signal therefrom; connecting a reference generator between the summing amplifier and the amplitude demodulating means for providing a calibrating signal to the summing amplifier; and providing actuating signals to each of the gating means, the rate demodulating means and the summing circuit with bias carrier generator means, the summing circuit being formed to combine the rate signal, the calibrating signal and the actuating signal to produce a driving signal for the phase modulating means so that the modulating means adjusts the phases of the waves in the sensing loop to null the detector signal during selected time intervals. - View Dependent Claims (19)
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Specification