Radio broadcast communication systems with multiple loop antennas
First Claim
1. A radio broadcast system comprising:
- a base transmitter/receiver including transmitting means for transmitting a first reference signal of a first frequency, and transmit/receive means for transmitting and receiving respective second data modulated signals of frequencies which are a multiple of the reference frequency, said base transmitter/receiver including a store loop antenna disposed with its effective loop plane horizontal; and
at least one receive/transmit module for receiving the first reference signal and for receiving and transmitting the respective second data modulated signals, each receive/transmit module comprising;
a module body;
receiving means mounted in the module body for receiving the first reference signal;
receiving/transmit means mounted in the module body for receiving a respective second data modulated signal and for transmitting a respective second data modulated signal from the module;
said receiving means comprising;
a first high Q ferrite-cored loop antenna coil mounted in the module body with its effective loop plane disposed in a respective first plane; and
said receive/transmit means comprising a second low Q air-cored antenna coil mounted in the module body with its effective loop plane disposed in a respective second plane orthogonal to the said first plane to minimize the coupling between the two antennae;
the said first and second antennae being disposed with their respective effective loop plane inclined at a small angle to the vertical.
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Accused Products
Abstract
The invention comprises a low power broadcast system that is applicable especially to the so-called "electronic shelf" for retail stores, wherein the shelf edge carries price displaying modules that can be addressed and controlled from a central computer operated station. The system also permits the modules to broadcast back to the central station to confirm safe receipt of data and to give information as to stock levels, etc. A broadcast system avoids the need for wiring so that location changes are facilitated. To overcome the extremely noisy environment and to conserve power consumption, and hence battery life, the system employs a low frequency (132 kHz) reference carrier transmitted by the base station in discrete segmented packages, each of which frames a base data word transmitted by the base station and a corresponding module data word transmitted by the module a fixed period after the end of the base word; the base receiver than has precise time information for receipt of the module word and can "look" for it among the noise. The carrier received by the module is divided and the lower frequency used to demodulate the information-carrying transmission from the base station of the same frequency, avoiding the need for a phase locked loop detector; this lower frequency is also used for the module transmission. The module employs an air-cored loop antenna coil for the lower frequency and a ferrite-cored loop antenna for the higher reference frequency, while the store antenna is segmented for selection of the group of modules to be addressed; the antenna contacts the metal shelving to provide electromagnetic coupling thereto. Each module contains a microprocessor which controls the operation. Each module has "concealed" buttons which can be enabled and used to insert data to be transmitted therefrom. A charging circuit can be used as the power source employing the received RF carrier energy.
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Citations
7 Claims
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1. A radio broadcast system comprising:
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a base transmitter/receiver including transmitting means for transmitting a first reference signal of a first frequency, and transmit/receive means for transmitting and receiving respective second data modulated signals of frequencies which are a multiple of the reference frequency, said base transmitter/receiver including a store loop antenna disposed with its effective loop plane horizontal; and at least one receive/transmit module for receiving the first reference signal and for receiving and transmitting the respective second data modulated signals, each receive/transmit module comprising; a module body; receiving means mounted in the module body for receiving the first reference signal; receiving/transmit means mounted in the module body for receiving a respective second data modulated signal and for transmitting a respective second data modulated signal from the module; said receiving means comprising; a first high Q ferrite-cored loop antenna coil mounted in the module body with its effective loop plane disposed in a respective first plane; and said receive/transmit means comprising a second low Q air-cored antenna coil mounted in the module body with its effective loop plane disposed in a respective second plane orthogonal to the said first plane to minimize the coupling between the two antennae; the said first and second antennae being disposed with their respective effective loop plane inclined at a small angle to the vertical. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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Specification