Metal detector for identifying target electrical characteristics, depth and size
First Claim
1. A method for determining the conductivity of a target detected by a metal detector, comprising the steps of:
- transmitting a continuous sinusoidal signal from a transmit coil which is spaced proximate a receive coil that is substantially inductively balanced with said transmit coil, wherein said object causes a signal to be produced in said receive coil when said object is in the vicinity of said transmit and receive coil,receiving and storing at least first and second signals from said receive coil, said first signal comprising a component of said receive signal which is phase offset by a first phase value from the signal in said transmit coil and said second signal comprising a component of said receive signal which is phase offset by a second phase value from the signal in said transmit coil, said stored signals comprising a data set, and said first phase value is different from said second phase value,producing a first Fourier signal derived from the Fourier transform of said first signal, wherein said first Fourier signal includes discrete frequency elements,producing a second Fourier signal derived from the Fourier transform of said second signal, wherein said second Fourier signal includes discrete frequency elements,determining the frequency range in said first Fourier signal which represents a signal component substantially produced by the presence of said target,determining the energy of said first Fourier signal within said frequency range to produce a first energy value and determining the energy of said second Fourier signal within said frequency range to produce a second energy value, and producing a ratio of said first and second energy values wherein said ratio is representative of the conductivity of said target.
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Abstract
A metal detector utilizes digital signal processing and a microprocessor to process buffers of information which is received at a periodic rate. Both high and low gain phase quadrature and in-phase signals are provided via a multiplexer to an analog-to-digital converter from a first receive antenna. A second receive antenna provides phase quadrature and in-phase signals also through the multiplexer to the analog-to-digital converter. The received signals are averaged, decimated and low pass filtered to eliminate noise and reduce the quantity of data which must be processed. A threshold (triggering) processing operation is performed to determine whether a valid target signal is present in the data. If not, no further processing is performed. The in-phase and quadrature components are processed using Fourier transforms to select a frequency band which includes the energy for the target signal. The energy in this frequency band is utilized to determine the identification of the target. The depth of the target is determined by comparing the quadrature phase components received from the first and second receive antennas. The size of the target is determined by reference to a look-up table based on the depth factor and the signal amplitude determined for the target object A display screen has a plurality of horizontal depth symbols, each of which has a plurality of size indicators and upon determining the depth and size of a target, one depth symbol is activated together with one of the size indicators to concurrently display this information to an operator.
94 Citations
3 Claims
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1. A method for determining the conductivity of a target detected by a metal detector, comprising the steps of:
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transmitting a continuous sinusoidal signal from a transmit coil which is spaced proximate a receive coil that is substantially inductively balanced with said transmit coil, wherein said object causes a signal to be produced in said receive coil when said object is in the vicinity of said transmit and receive coil, receiving and storing at least first and second signals from said receive coil, said first signal comprising a component of said receive signal which is phase offset by a first phase value from the signal in said transmit coil and said second signal comprising a component of said receive signal which is phase offset by a second phase value from the signal in said transmit coil, said stored signals comprising a data set, and said first phase value is different from said second phase value, producing a first Fourier signal derived from the Fourier transform of said first signal, wherein said first Fourier signal includes discrete frequency elements, producing a second Fourier signal derived from the Fourier transform of said second signal, wherein said second Fourier signal includes discrete frequency elements, determining the frequency range in said first Fourier signal which represents a signal component substantially produced by the presence of said target, determining the energy of said first Fourier signal within said frequency range to produce a first energy value and determining the energy of said second Fourier signal within said frequency range to produce a second energy value, and producing a ratio of said first and second energy values wherein said ratio is representative of the conductivity of said target. - View Dependent Claims (2, 3)
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Specification
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- Resources
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Current AssigneeGarrett Electronics Incorporated
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Original AssigneeGarrett Electronics Incorporated
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InventorsPodhrasky, Robert J., Weaver, Brent Charles, Nemat, Ayaz
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Primary Examiner(s)Strecker, Gerard R.
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Application NumberUS08/859,457Time in Patent Office434 DaysField of Search324/326-329, 324/334, 324/239-243US Class Current324/329CPC Class CodesG01V 3/15 specially adapted for use d...
