Inductively balanced metal detector circuit with orthogonal balancing signals and including phase and polarity detection
First Claim
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1. Metal detection apparatus comprising:
- an oscillator coil connected to an oscillator;
detector coil means inductively coupled to the oscillator coil, said detector coil means including first and second detector coils disposed on opposite sides of the oscillator coil, said detector coils being electrically connected in series and in opposite polarity;
balancing circuit means for providing balancing signals, the balancing circuit means comprising;
(a) first and second means for producing first and second balancing signals having orthogonal phase components at the frequency of oscillation of the oscillator, each balancing signal having a magnitude controlled, respectively, by first and second feedback signals;
(b) signal combining means coupled to said first and second means for producing first and second balancing signals and to said detector coil means for producing a combined output signal by combining said balancing signals with a signal induced in the detector coil means;
(c) control means connected to receive said combined output signal produced by the signal combining means and including means for producing first and second signals which are a function of the magnitude of orthogonal phase components in the combined output signal and having means for storing said first and second signals; and
(d) feedback means connected to receive the first and second signals stored by the storing means of the control means and being connected to the first and second means to control the magnitude of the balancing signals produced by said first and second means for producing first and second balancing signals;
and detection circuit means connected to said signal combining means to receive said combined output signal for determining when the magnitude of a given phase component of the combined output signal assumes a first polarity and then an opposite polarity, whereby passage of metal between said first and second detector coils which produces changes of inductive coupling between the oscillator coil and the detector coil means is detected, said detection circuit comprising;
a phase sensitive detector responsive to said combined output signal for comparing the phase thereof with a reference phase derived from said oscillator means;
first voltage comparator means for comparing the output of the phase sensitive detector with a first reference voltage to determine whether said first polarity has been assumed and provide an output in response thereto;
second voltage comparator means for comparing the output of the phase sensitive detector with a second reference voltage to determine whether said second polarity has been assumed and provide an output in response thereto; and
,trigger means responsive to the occurrence of output from the first and second voltage comparator within a predetermined time interval to indicate the presence of metal.
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Abstract
Metal detection apparatus includes an oscillator coil 101 driven by an oscillator 101, which induces in detector coils 103,104 equal and opposite E.M.F.s such that a nominally zero output is produced at terminals D.E. When metal is detected the E.M.F.s in coils 103,4 move out balance to produce a voltage at D.E., which is detected by circuit IC11 and fed to output circuits 111. Drifts in the nominally zero output at D.E. are corrected by combining quadraphase balancing signals on lines 109,110 with the detector coil output by means of amplifier IC10. The combined signal from IC10 is fed to phase sensitive detectors IC1,2 which respectively detect the quadraphase components of the combined signal from IC10. The outputs of IC1,2 are stored by capacitor circuits 112,113 and used to adjust variable capacity diode bridges 106,7 which adjust the amplitude of the balancing signals to maintain a nominally zero output from IC10 when metal is not being detected. The capacitor circuits 112,113 have a long time constant so that the balancing signals are not adjusted to cancel out the detection of metal, but circuits IC5,6,13 switches the stores 112,113 to provide a shorter time constant after metal has been detected in order to restore the circuit rapidly to a balanced condition. Additionally, the circuits IC5,6,13 disconnect the capacitor circuits from the phase sensitive detectors IC1,IC2 for a given time when metal is detected so as to restore the circuit rapidly to a balanced condition after detection of the metal.
39 Citations
4 Claims
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1. Metal detection apparatus comprising:
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an oscillator coil connected to an oscillator; detector coil means inductively coupled to the oscillator coil, said detector coil means including first and second detector coils disposed on opposite sides of the oscillator coil, said detector coils being electrically connected in series and in opposite polarity; balancing circuit means for providing balancing signals, the balancing circuit means comprising; (a) first and second means for producing first and second balancing signals having orthogonal phase components at the frequency of oscillation of the oscillator, each balancing signal having a magnitude controlled, respectively, by first and second feedback signals; (b) signal combining means coupled to said first and second means for producing first and second balancing signals and to said detector coil means for producing a combined output signal by combining said balancing signals with a signal induced in the detector coil means; (c) control means connected to receive said combined output signal produced by the signal combining means and including means for producing first and second signals which are a function of the magnitude of orthogonal phase components in the combined output signal and having means for storing said first and second signals; and (d) feedback means connected to receive the first and second signals stored by the storing means of the control means and being connected to the first and second means to control the magnitude of the balancing signals produced by said first and second means for producing first and second balancing signals; and detection circuit means connected to said signal combining means to receive said combined output signal for determining when the magnitude of a given phase component of the combined output signal assumes a first polarity and then an opposite polarity, whereby passage of metal between said first and second detector coils which produces changes of inductive coupling between the oscillator coil and the detector coil means is detected, said detection circuit comprising; a phase sensitive detector responsive to said combined output signal for comparing the phase thereof with a reference phase derived from said oscillator means; first voltage comparator means for comparing the output of the phase sensitive detector with a first reference voltage to determine whether said first polarity has been assumed and provide an output in response thereto; second voltage comparator means for comparing the output of the phase sensitive detector with a second reference voltage to determine whether said second polarity has been assumed and provide an output in response thereto; and
,trigger means responsive to the occurrence of output from the first and second voltage comparator within a predetermined time interval to indicate the presence of metal. - View Dependent Claims (2, 3)
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4. Metal detector apparatus including:
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an oscillator coil; oscillator means connected to feed oscillatory electrical signals through the oscillator coil; detector coil means inductively coupled to the oscillator coil; balancing circuit means for providing balancing signals, the balancing circuit means comprising; (a) first and second means for producing first and second balancing signals having orthogonal phase components at the frequency of oscillation of the oscillator, each of said first and second means comprising a bridge of two pairs of variable capacity diodes, each pair being connected in series opposition, said balancing signals having an amplitude which is controlled by first and second feedback signals; (b) signals combining means coupled to said first and second means for producing first and second balancing signals and to said detector coil means for combining said balancing signals with the signal induced in the detector coil means; (c) control means connected to receive the combined signal produced by the combining means and including means for producing first and second signals which are a function of the magnitude of orthogonal phase components in the combined signal, and including means for storing said first and second signals, feedback means connected to receive the first and second signals stored by the storing means of the control means and being connected to the first and second means for controlling the magnitude of the balancing signals produced by said first and second means for producing balancing signals; and
detection circuit means connected to said combining means and responsive thereto for detecting the presence of metal which produces changes of inductive coupling between the oscillator coil and the detector coil means.
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Specification
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Current AssigneeThermo Electron Weighing & Inspection Ltd. (Thermo Fisher Scientific Incorporated)
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Original AssigneeThermo Electron Weighing & Inspection Ltd. (Thermo Fisher Scientific Incorporated)
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InventorsKerr, Bruce G.
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Primary Examiner(s)Strecker, Gerard R.
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Application NumberUS06/789,547Time in Patent Office547 DaysField of Search324/225, 324/233, 324/239, 324/240, 324/243, 324/326, 324/329, 324/334, 340/551, 361/180US Class Current324/233CPC Class CodesG01V 3/107 using compensating coil or ...
