Series-resonant tuning of a downhole loop antenna
First Claim
1. A method for processing an electromagnetic wave, comprising:
- (a) receiving in a borehole, via a receiver loop antenna, an electromagnetic wave having a plurality of interrogation frequency components;
(b) simultaneously selecting the plurality of interrogation frequency components of the electromagnetic wave via a tuning network, the tuning network being electrically connected in series with the receiver loop antenna such that (i) an electrical current in the loop antenna equals an electrical current in the tuning network and (ii) the tuning network provides for simultaneous series-resonant tuning of the loop antenna at each of the plurality of interrogation frequency components;
(c) generating a pick-up signal that is representative of relative magnitude and phase of each of the plurality of interrogation frequency components, the pick-up signal in the form of a voltage differential across first and second nodes; and
(d) minimizing secondary electromagnetic radiation from the loop antenna at at least one of the plurality interrogation frequency components by providing a sufficiently high load impedance to the first and second nodes, wherein the load impedance is provided by a preamplifier circuit and a transformer, a primary winding or the transformer electrically connected in series with the loop antenna and the tuning network, the preamplifier circuit electrically connected to a secondary winding of the transformer.
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Accused Products
Abstract
A loop antenna useful, for example, in investigation of earth formations. Embodiments of the invention provide a loop antenna circuit comprising a loop antenna disposed to generate, in response to an electromagnetic wave, a pick-up signal on an output node. Loop antenna circuit further includes a tuning network coupled to the loop antenna. The tuning network is disposed to provide simultaneous tuning at a plurality of interrogation frequencies. Further embodiments include a preamplifier circuit coupled to the loop antenna. The preamplifier circuit is disposed to receive the pick-up signal on an input node and provide a high impedance load to the loop antenna for a first of the plurality of interrogation frequencies to reduce the secondary radiation from the loop antenna to below a predetermined value at the said first interrogation frequency.
64 Citations
18 Claims
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1. A method for processing an electromagnetic wave, comprising:
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(a) receiving in a borehole, via a receiver loop antenna, an electromagnetic wave having a plurality of interrogation frequency components; (b) simultaneously selecting the plurality of interrogation frequency components of the electromagnetic wave via a tuning network, the tuning network being electrically connected in series with the receiver loop antenna such that (i) an electrical current in the loop antenna equals an electrical current in the tuning network and (ii) the tuning network provides for simultaneous series-resonant tuning of the loop antenna at each of the plurality of interrogation frequency components; (c) generating a pick-up signal that is representative of relative magnitude and phase of each of the plurality of interrogation frequency components, the pick-up signal in the form of a voltage differential across first and second nodes; and (d) minimizing secondary electromagnetic radiation from the loop antenna at at least one of the plurality interrogation frequency components by providing a sufficiently high load impedance to the first and second nodes, wherein the load impedance is provided by a preamplifier circuit and a transformer, a primary winding or the transformer electrically connected in series with the loop antenna and the tuning network, the preamplifier circuit electrically connected to a secondary winding of the transformer. - View Dependent Claims (2, 3, 4, 5)
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6. A method for evaluating formations surrounding a borehole, comprising:
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(a) selectively radiating an electromagnetic wave in a borehole via a transmitter, the electromagnetic wave including at least first and second interrogation frequency components; (b) receiving the electromagnetic wave via a first loop antenna that is spaced apart from the transmitter; (c) simultaneously selecting the first and second interrogation frequency components as received by first loop antenna via a first tuning network, the first tuning network being electrically connected in series with the first loop antenna such that (i) an electrical current in the first tuning network equals an electrical current in the first loop antenna and (ii) the first tuning network provides for simultaneous series-resonant tuning of the first loop antenna at each of the first and second interrogation frequency components; (d) receiving the electromagnetic wave via a second loop antenna that is spaced apart from both the transmitter and the first loop antenna; (e) simultaneously selecting the first and second interrogation frequency components as received by the second loop antenna via a second tuning network, the second tuning network being electrically connected in series with the second loop antenna such that (i) an electrical current in the second tuning network equals an electrical current in the second loop antenna and (ii) the second tuning network provides for simultaneous series-resonant tuning of the second loop antenna at each of the first and second interrogation frequency components; and (f) minimizing secondary electromagnetic radiation from the first loop antenna at said first and second interrogation frequencies by providing a sufficiently high load impedance to the first loop antenna and the first tuning network, wherein the load impedance is provided by a preamplifier circuit and a transformer, a primary winding of the transformer electrically connected in series with the loop antenna and the tuning network, the preamplifier circuit electrically connected to a secondary winding of the transformer. - View Dependent Claims (7, 8, 9)
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10. A loop antenna circuit for use in a borehole, comprising:
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a loop antenna disposed to generate, in response to an electromagnetic wave, a pick-up signal on an output node thereof; a tuning network electrically connected in series with the loop antenna, the tuning network disposed to provide simultaneous series-resonant tuning at a plurality of interrogation frequencies; a transformer having primary and secondary windings, the primary winding electrically connected in series with the loop antenna and the tuning network; and a preamplifier circuit electrically connected to the secondary winding of the transformer, the preamplifier circuit and the transformer configured to present a load impedance to the loop antenna and the tuning network, the load impedance being sufficiently high to reduce secondary radiation from the loop antenna to below a predetermined value at at least one of the plurality of interrogation frequencies. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18)
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Specification