Control for gimballed monopulse antenna arrangement
First Claim
1. In a gyroscopically stabilized arrangement wherein a rotor of an electric motor serves as a gyroscopic mass when such rotor is rotated to follow a rotating magnetic field corresponding to a similarly rotating electric field in a stator of such motor, control apparatus for determining the rotational position of such rotor, such apparatus comprising:
- (a) at least one Hall effect sensor including a pair of orthogonally disposed Hall effect crystals immersed in a rotating magnetic field corresponding to the rotating electric field of the stator;
(b) first phase detector means, responsive to the output signal of the Hall effect sensor and to the output signal of a voltage-controlled oscillator, to produce a first bipolar D.C. signal representative of the difference in frequency between such output signals;
(c) second phase detector means, responsive to the output signal of the Hall effect sensor and to a reference signal having a fixed frequency, to produce a second bipolar D.C. signal representative of the difference in frequency between such output and reference signals;
(d) means for summing the first and second bipolar D.C. signals to produce a correction signal; and
(e) means, responsive to the correction signal, to change the frequency of the rotating electric field of the stator to null the correction signal, ultimately to synchronize the rotating magnetic field with the reference signal.
1 Assignment
0 Petitions
Accused Products
Abstract
An arrangement for determining the rotational position of the rotor of an electrical gyroscope is shown to include:
(a) at least one sensor including a Hall effect crystal having a rotating magnetic field applied thereto, such field being synchronous with the field causing rotation of the rotor;
(b) a phase-lock loop, responsive to square wave signals corresponding to signals out of the Hall effect crystal and a voltage-controlled oscillator to provide a signal approximating the rotational position of the rotor; and
(c) a phase detector, responsive to negative going transitions of the square wave and to reference pulses to synchronize the rotational position of the rotor with the reference pulses.
11 Citations
1 Claim
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1. In a gyroscopically stabilized arrangement wherein a rotor of an electric motor serves as a gyroscopic mass when such rotor is rotated to follow a rotating magnetic field corresponding to a similarly rotating electric field in a stator of such motor, control apparatus for determining the rotational position of such rotor, such apparatus comprising:
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(a) at least one Hall effect sensor including a pair of orthogonally disposed Hall effect crystals immersed in a rotating magnetic field corresponding to the rotating electric field of the stator; (b) first phase detector means, responsive to the output signal of the Hall effect sensor and to the output signal of a voltage-controlled oscillator, to produce a first bipolar D.C. signal representative of the difference in frequency between such output signals; (c) second phase detector means, responsive to the output signal of the Hall effect sensor and to a reference signal having a fixed frequency, to produce a second bipolar D.C. signal representative of the difference in frequency between such output and reference signals; (d) means for summing the first and second bipolar D.C. signals to produce a correction signal; and (e) means, responsive to the correction signal, to change the frequency of the rotating electric field of the stator to null the correction signal, ultimately to synchronize the rotating magnetic field with the reference signal.
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Specification