Full duplex communication system with power transfer on one pair of conductors
First Claim
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1. A system for full duplex communication between a local station and a remote station with remote station power provided by the local station, and with communication and power transmission all occurring on first and second conductors, said system comprising in the local station,a) a modulating voltage power supply having a first power terminal for connection to the first conductor, a second power terminal, and a voltage control terminal for receiving a local data signal, and providing a first preselected power voltage between the first and second power terminals responsive to a first value of the local data signal, and a second preselected power voltage lower than the first power voltage between the first and second power terminals responsive to a second value of the local data signal;
- b) a current sensor having a first current sensor terminal connected to the first power terminal, a second current sensor terminal in electrical connection to the first current sensor terminal and supplying current received at the first current sensor terminal, said second sensor terminal for connection to the first conductor, and said current sensor having a current signal terminal providing a current sensor signal having a first value responsive to current greater than a preselected value flowing from the first to the second current sensor terminal, and a second value otherwise;
and in the remote station, c) a voltage sensor having i) first and second voltage sensor terminals for connection through the first and second conductors respectively to the second current sensor terminal and to the second power terminal in the local station, and ii) a voltage signal terminal providing a voltage sensor signal having a first value when the voltage between the first and second voltage sensor terminals corresponds to the first preselected power voltage, and a second value when the voltage between the first and second voltage sensor terminals corresponds to the second preselected power voltage; and
d) a current shunt connected between the first and second voltage sensor terminals and having a current control terminal for receiving a remote data signal, said shunt having a non-zero first impedance responsive to a first value of the remote data signal, and a second impedance greater than the first impedance responsive to a second value of the remote data signal, wherein the current sensor signal reproduces the data content of the remote data signal and the voltage sensor signal reproduces the data content of the local data signal.
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Abstract
A local station and a remote station are connected by a single pair of conductors. The local station communicates with the remote station by modulating a power supply within the local station which provides power on the conductor pair for operating the remote station. The remote station modulates its impedance, causing a change in current flow on the conductor pair which the local station can detect. In this way both stations can transmit data to each other at the same time and while the local station is providing operating power to the remote station.
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Citations
17 Claims
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1. A system for full duplex communication between a local station and a remote station with remote station power provided by the local station, and with communication and power transmission all occurring on first and second conductors, said system comprising in the local station,
a) a modulating voltage power supply having a first power terminal for connection to the first conductor, a second power terminal, and a voltage control terminal for receiving a local data signal, and providing a first preselected power voltage between the first and second power terminals responsive to a first value of the local data signal, and a second preselected power voltage lower than the first power voltage between the first and second power terminals responsive to a second value of the local data signal; -
b) a current sensor having a first current sensor terminal connected to the first power terminal, a second current sensor terminal in electrical connection to the first current sensor terminal and supplying current received at the first current sensor terminal, said second sensor terminal for connection to the first conductor, and said current sensor having a current signal terminal providing a current sensor signal having a first value responsive to current greater than a preselected value flowing from the first to the second current sensor terminal, and a second value otherwise;
and in the remote station, c) a voltage sensor having i) first and second voltage sensor terminals for connection through the first and second conductors respectively to the second current sensor terminal and to the second power terminal in the local station, and ii) a voltage signal terminal providing a voltage sensor signal having a first value when the voltage between the first and second voltage sensor terminals corresponds to the first preselected power voltage, and a second value when the voltage between the first and second voltage sensor terminals corresponds to the second preselected power voltage; and
d) a current shunt connected between the first and second voltage sensor terminals and having a current control terminal for receiving a remote data signal, said shunt having a non-zero first impedance responsive to a first value of the remote data signal, and a second impedance greater than the first impedance responsive to a second value of the remote data signal, wherein the current sensor signal reproduces the data content of the remote data signal and the voltage sensor signal reproduces the data content of the local data signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
i) a data generator providing the remote data signal with unpredictable durations of the first and second values to the current shunt; and
ii) a switch operatively connected to the data generator and having a control terminal receiving the voltage sensor signal, said switch opening responsive to one of the first and second values of the voltage sensor signal and closing otherwise, said switch while in one of its open and closed states allowing the data generator to provide the remote data signal with unpredictable durations of the first and second values, and while in the other of the open and closed states causing the data generator to provide a remote data signal having a predetermined one of the first and second values.
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12. The system of claim 11, wherein the data generator comprises
i) a condition sensor providing a condition sensor signal having a level dependent on a condition sensed in the neighborhood of the condition sensor; - and
b) a signal modulator providing a preselected one of the first and second values of the remote data signal for a period of time dependent on the condition sensor signal level, and further including a connection between the switch and the condition sensor allowing the condition sensor signal to achieve a predetermined value responsive to a predetermined state of the switch.
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13. The system of claim 11, wherein the local data source comprises
i) a timer periodically providing a local data signal to the power supply causing the power supply to provide a predetermined power voltage level; - and
ii) a comparator receiving the local data signal from the timer and the current sensor signal, and comparing the value of the local data signal and the current sensor signal, and if not in conformance, issuing an error signal.
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14. The system of claim 2, including at least one load receiving power from the voltage regulator, and wherein the at least one load and the voltage regulator provide a composite impedance which is approximately equal to the shunt'"'"'s first impedance.
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15. The system of claim 14, wherein the composite impedance changes, and wherein said changes in the composite impedance are small compared to the composite impedance.
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16. The system of claim 1, wherein the voltage sensor comprises a voltage comparator providing the first value of the voltage sensor signal when the voltage between the first and second voltage sensor terminals is greater than a preselected value, and the second value otherwise.
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17. The system of claim 1, including in the local station a local data source providing to the power supply, a local data signal having a first preselected pattern, said local station receiving a control signal modifying operation of the local station, and a connection providing the current sensor signal to the local station as the local station'"'"'s control signal.
Specification
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Current AssigneeHoneywell International Inc.
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Original AssigneeHoneywell International Inc.
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InventorsJuntunen, Robert D., Bartels, James I., Planer, Norman G.
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Primary Examiner(s)TRIEU, VAN THANH
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Application NumberUS09/484,631Time in Patent Office672 DaysField of Search340/310.01, 340/310.2, 340/310.05, 340/310.06, 340/310.07, 340/310.08, 340/870.02, 340/870.24, 340/693.1, 236/46.RUS Class Current340/538.11CPC Class CodesH04B 2203/5416 by adding signals to the wa...H04B 2203/5458 Monitor sensor; Alarm systemsH04B 2203/547 via DC power distributionH04B 2203/5495 having measurements and tes...H04B 3/548 the power on the line being...
