Diversity circuit for magnetic communication system
First Claim
Patent Images
1. A magnetic inductance communication system, comprising:
- a first transmission/reception coil producing a magnetic field including a transmitted signal;
a plurality of second transmission/reception coils having different orientations for receiving the transmitted signal and generating a plurality of received signals;
a summing circuit for combining the plurality of received signals to produce a summed signal;
at least one first phase adjusting circuit for adjusting a phase of at least one respective received signal prior to summing to increase the amplitude of the summed signal; and
a modulator circuit for modulating a signal to be transmitted, wherein the modulator circuit includes;
at least one second phase adjusting circuit receiving a carrier signal and a phase adjustment signal from the at least one first phase adjusting circuit;
a plurality of driving circuits, each driving circuit receiving the signal to be transmitted and a respective output signal from one of the second phase adjusting circuits, for generating a respective driving signal on one of the plurality of second transmission/reception coils to generate a second magnetic field; and
signal processing circuitry connected to the first transmission/reception coil to receive the signal in the second magnetic field.
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Abstract
A magnetic communication system includes a transmitter have a single coil transducer, and a receiver having a three orthogonally oriented coil transducers. The signal processing circuitry in the receiver adjusts the phases of the signals received by the three transducers to produce signals which are in-phase. The signals are then summed to provide an output signal from the receiver. The processing circuitry adjusts the phases of the incoming signals either serially or in parallel. Transmissions from the receiver to the transmitter are also phase adjusted in accordance with the same adjustments used in reception.
103 Citations
7 Claims
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1. A magnetic inductance communication system, comprising:
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a first transmission/reception coil producing a magnetic field including a transmitted signal; a plurality of second transmission/reception coils having different orientations for receiving the transmitted signal and generating a plurality of received signals; a summing circuit for combining the plurality of received signals to produce a summed signal; at least one first phase adjusting circuit for adjusting a phase of at least one respective received signal prior to summing to increase the amplitude of the summed signal; and a modulator circuit for modulating a signal to be transmitted, wherein the modulator circuit includes; at least one second phase adjusting circuit receiving a carrier signal and a phase adjustment signal from the at least one first phase adjusting circuit; a plurality of driving circuits, each driving circuit receiving the signal to be transmitted and a respective output signal from one of the second phase adjusting circuits, for generating a respective driving signal on one of the plurality of second transmission/reception coils to generate a second magnetic field; and signal processing circuitry connected to the first transmission/reception coil to receive the signal in the second magnetic field. - View Dependent Claims (2, 3)
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4. A magnetic inductance communication system comprising:
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a first transmission/reception coil producing a magnetic field including a transmitted signal; a plurality of second transmission/reception coils having different orientations for receiving a transmitted signal and generating a plurality of received signals; a plurality of amplitude determining circuits corresponding to the plurality of second transmission/reception coils for determining amplitudes of the plurality of received signals; a modulator circuit for modulating a signal to be transmitted, wherein the modulator circuit includes; a plurality of driving circuits each driving circuit receiving a carrier signal to be transmitted for generating a respective driving signal on one of the plurality of transmission/reception coils to generate a second magnetic field; and a selection circuit for activating at least one of the driving circuits based upon the amplitudes of the received signals; and signal processing circuitry connected to the first transmission/reception coil to receive the signal in the second magnetic field. - View Dependent Claims (5, 6, 7)
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Specification