Interference cancelling metal detector including electronic...

Electricity: measuring and testing – Of geophysical surface or subsurface in situ – For small object detection or location

Reexamination Certificate

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C324S239000

Reexamination Certificate

active

06690169

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
A problem with all metal detectors, hand-held or industrial is susceptibility to environmental low frequency magnetic fields. These are caused mostly by mains harmonics and general mains noise, lightning even if distant sometimes, electronics such as TVs, computers and active fluorescent lighting, micro-atmospheric discharges and even the sun's low frequency various sources.
This is mostly combated by far field cancelling receive coils, most often in the form of a “figure-8”. Usually the transmit coil is a simple mono-loop coil. Almost all conveyor type industrial metal detectors use such an arrangement.
The problem with this mono-loop transmit, figure-8 receive arrangement in handheld metal detectors is that the sensitivity to distant targets is substantially poorer than the conventional non-far field cancelling coils, such as the “double-D”, “concentric” or the single mono-loop “transmit/receive” arrangement which is used mostly by pulse induction detectors.
In U.S. Pat. No. 5,576,624 I disclosed a metal detector apparatus which is capable of substantially reducing signals arising from ground mineralisation containing magnetic soils. Several models utilizing these principles have been commercialised and used highly successfully by gold prospectors and for land mine detection. There are two types of sensing coil arrangement mostly used with these detectors, namely the double-D and single mono-loop transmit/receive coils. A few sensing coils containing a mono-loop transmit, figure-8 receive have been used by some prospectors for use, for example, near power lines, electric fences, town environments, and near coil towing vehicles with ignition and generators, and in highly saline areas.
Each of these three different types of coil have associated pros and cons. For example, the mono-loop transmit/receive has the best performance for locating deep targets, but it is most susceptible to magnetic soil interference signals and thus is the most difficult to use. The double-D has the least soil interference but will not detect as deeply as the mono-loop. The figure-8 receive, mono-loop transmit is the only one of the three that will cancel environmental magnetic field interference, but has the poorest depth capability and is not as good as the double-D for ground signal suppression except when the ground is highly saline.
SUMMARY OF THE INVENTION
In one form the invention can be said to reside in a method for effecting metal detection using a metal detector including transmit and receive electronic timing control circuitry, power supplies, and receive and transmit signal electronic circuitry, and at least two inductive coils, a first and second coil, wherein at least the first coil when connected to the transmit signal electronic circuitry when operating is adapted to transmit magnetic pulses, and also to act as a receiver to receive magnetic field signals which when connected to the receive signal electronic circuitry produces at least one receive electronic signal, being a first electronic receive signal, and at least the second coil is adapted to receive magnetic field signals which when connected to the receive signal electronic circuitry produces at least one receive electronic signal, being a second receive electronic signal, and processing circuitry adapted to accumulate at least the first and second receive electronic signals, characterized in that at least a proportion of the first receive electronic signals is linearly combined with a proportion of the second receive electronic signal, to produce a first resultant linear combination signal which is further processed to produce an output signal for indicator means.
In preference the magnetic Eigen axis of the said first and second coils are substantially parallel, and the said proportion of the first receive electronic signal and proportion of the second receive electronic signal are selected to produce a first resultant linear combination signal which is substantially nulled to substantially uniform magnetic fields in the vicinity of both the said first and second coils.
In preference various said proportion of the first receive electronic signal and proportion of the second receive electronic signal may be selected to produce various first resultant linear combination signals.
In preference both the first and second coil are each adapted to transmit magnetic pulses, and also to act as receivers to receive magnetic field signals, when each are connected to the transmit signal electronic circuitry and connected to the receive signal electronic circuitry when operating;
wherein the receive electronics produces a first electronic receive signal resulting from the first coil when adapted to receive and also a second electronic receive signal resulting from the second coil when adapted to receive.
In a further form of this invention, this can be said to reside in a metal detector apparatus including, transmit timing control circuitry, power supplies, and receive signal circuitry, and a sensing coil including two inductive coils, a first and second coil;
wherein the first coil is adapted to transmit a magnetic field when operating with electrical current flowing through the said first coil and the first coil is adapted to act as a receiver to receive magnetic fields to produce at least one receive signal, a first receive signal,
and wherein the second coil is adapted to act as a receiver to receive magnetic fields to produce at least one receive signal, a second receive signal, and may be adapted to transmit a magnetic field when operating with electrical current flowing through the said second coil,
and includes processing circuitry to act to accumulate the receive signals from both the coils,
characterized in that either only one of the first or second signals may be selected, or a proportion of the first signal may be either added or subtracted from a proportion of the second signal.
This invention discloses a means to use one sensing coil with the capability of electronically selecting all three of the effective modes of operation of each of the said three different sensing coil types, but not with all the disadvantages of each coil type. There are basically six different useful arrangements.
As an example, consider the single sensing coil to be a double-D which will obviously operate as a double-D with no extra advantage or disadvantage. This is one of the six useful arrangements.
It may be used to cancel far fields but without the substantial depth capability limitation of the figure-8 receive, mono-loop transmit coil. There are three different ways this can be achieved:
Firstly, this can be achieved by using the first coil as a transmitter and receiver and the second coil as a receiver. If;
the number of turns in the first coil is Txn, and
the number of turns in the second coil is Rxn,
the average area enclosed by the mean magnetic path of the first coil is Txa, and
the average area enclosed by the mean magnetic path of the second coil is Rxa,
the electronic gain of the second coil preamplifier if used is Rxg,
and the electronic gain of the first coil preamplifier if used is Txg,
and the output signals from the preamplifiers, if used, or if not, the output signal of the coils are linearly subtracted in the ratio of
TxnTxaTxg/(RxnRxaRxg)  (i).
This will ensure that far fields, that is near locally uniform fields in the vicinity of the sensing coil, are electronically cancelled or “nulled”. It is only possible to electronically cancel signals resulting from far magnetic fields of any orientation if the Eigen axes of the first and second coils are parallel. Here I define the Eigen axis of a coil as the axis of symmetry of the static far magnetic field generated solely from the said coil when a D.C. current flows in the said coil.
However, the effective receive sensitivity from deeply buried targets is not effectively nulled symmetrically as is the case with a figure-8 receive coil. Again consider that a traditional double-D is being used, with the first and

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