Synchronized wireless communications system
First Claim
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1. An electrical unit having:
- a wireless communications port;
a transceiver coupled to the port; and
control circuitry coupled to the transceiver, the control circuitry and transceiver have, at least, an inactive mode interrupted by an intermittent, limited duration higher power active mode, the control circuitry including circuitry to monitor the port for receipt of a wireless synchronization signal, and responsive thereto to establish a predetermined time offset from the wireless synchronizing signal and only a receiver portion of the transceiver to enter the active mode at a time interval, corresponding to the offset, prior to receipt of subsequent wireless synchronizing signals and to receive other incoming signals with the control circuitry responding to an incoming signal requesting information by causing a transmitter portion of the transceiver to enter the active mode and transmitting requested information using at least one byte of information having a plurality of bits via the transceiver and where the control circuitry simultaneously monitors wireless signals received from the transceiver and upon detecting a received wireless signal in the absence of a transmitted wireless signal determines that a higher priority message is being received and responsive to that determination terminates the transmission before completion of the byte, said control circuitry including executable instructions for at least receiving data using a different protocol than a protocol exhibited by the synchronizing signal and executable instructions that sense and decode multiple data signals received from multiple sources substantially simultaneously and where the sense and decode process comprises bit arbitration.
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Abstract
A wireless communications system incorporates a plurality of synchronized wireless units. Each unit minimizes energy requirements by entering a low current, inactive, state between synchronizing signals. The unit automatically enters an active state prior to receipt of the next synchronizing signal.
64 Citations
16 Claims
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1. An electrical unit having:
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a wireless communications port; a transceiver coupled to the port; and control circuitry coupled to the transceiver, the control circuitry and transceiver have, at least, an inactive mode interrupted by an intermittent, limited duration higher power active mode, the control circuitry including circuitry to monitor the port for receipt of a wireless synchronization signal, and responsive thereto to establish a predetermined time offset from the wireless synchronizing signal and only a receiver portion of the transceiver to enter the active mode at a time interval, corresponding to the offset, prior to receipt of subsequent wireless synchronizing signals and to receive other incoming signals with the control circuitry responding to an incoming signal requesting information by causing a transmitter portion of the transceiver to enter the active mode and transmitting requested information using at least one byte of information having a plurality of bits via the transceiver and where the control circuitry simultaneously monitors wireless signals received from the transceiver and upon detecting a received wireless signal in the absence of a transmitted wireless signal determines that a higher priority message is being received and responsive to that determination terminates the transmission before completion of the byte, said control circuitry including executable instructions for at least receiving data using a different protocol than a protocol exhibited by the synchronizing signal and executable instructions that sense and decode multiple data signals received from multiple sources substantially simultaneously and where the sense and decode process comprises bit arbitration. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A communication system having at least three devices that can wirelessly transmit and receive signals comprising:
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a first device that transmits a sequence of wireless, common, synchronization signals; a plurality of devices that receive the wireless synchronization signals where members of the plurality each include circuitry to transmit data signals at different offsets from the synchronizing signals in response to at least one of, a substantially random number, or, a unique device identifier; at least a second device of the plurality of devices receiving the wireless synchronization signals, the second device synchronizes functions to the synchronization signals under control of an internal clock such that energy consumption of a receiver of the second device is increased for a period of time before, during and immediately after each synchronization signal; at least a third device of the plurality of devices receiving the wireless synchronization signals, the third device synchronizes functions to the synchronization signals under control of an internal clock such that the energy consumption of a receiver of the third device is increased for a period of time before, during and immediately after each synchronization signal, where the second device receives a wireless signal including an information request and transmits a response to the information request based upon its internal state condition, said response having at least one byte of information with a plurality of bits with said transmitted response of the second device received by the third device and the third device receives a wireless signal including an information request and transmits a response to the information request based upon its internal state condition, said response having at least one byte of information with a plurality of bits, where energy consumption of transmitters of each of the second and third devices is increased and each of the second and third devices carries out a bit arbitration process while wirelessly transmitting signals at the same time, said bit arbitration including comparing a transmitted wireless signal of the transmitted responses with a received wireless signal; and the second or third device terminating transmission before completion of the byte upon detecting a received wireless signal in the absence of a transmitted wireless signal. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15, 16)
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Specification