Wireless data coupling system and method
First Claim
1. A wireless data coupling system for transmitting data from a rotating shaft to a stationary receiver comprising:
- means included in said stationary receiver for generating a start signal and at least one send signal;
register means mounted on said shaft for storing said data as a string of binary digits;
first light receiving means mounted on said shaft for receiving said start signal from said stationary receiver for loading said register with said binary digits;
second light receiving means mounted on said shaft adjacent said first light receiving means for receiving only at least one send signal from said means for generating said send signal;
and at least a pair of light transmitting means mounted on said shaft responsive to said at least one send signal for transmitting to said receiver said binary digits stored in said register along with at least one sync signal corresponding to said at least one send signal.
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0 Petitions
Accused Products
Abstract
A wireless data coupling system for transmitting data such as torque from a rotating shaft to a stationary receiver includes at least one photocell on the shaft along with a corresponding stationary light source for illuminating the photocells. This powers the rotating components. From a data standpoint an analog signal from a strain gauge is converted to a digital signal which is transmitted bit by bit by a pair of light emitting diodes one of which acts as a data sync. The stationary receiver contains columns of phototransistors to receive both the data and data sync pulses. Initiation of the transmission of data is started by a start pulse which occurs first in time and thereafter send pulses from the stationary system actuate the data and data sync pulses from the rotating system.
29 Citations
12 Claims
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1. A wireless data coupling system for transmitting data from a rotating shaft to a stationary receiver comprising:
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means included in said stationary receiver for generating a start signal and at least one send signal; register means mounted on said shaft for storing said data as a string of binary digits; first light receiving means mounted on said shaft for receiving said start signal from said stationary receiver for loading said register with said binary digits; second light receiving means mounted on said shaft adjacent said first light receiving means for receiving only at least one send signal from said means for generating said send signal; and at least a pair of light transmitting means mounted on said shaft responsive to said at least one send signal for transmitting to said receiver said binary digits stored in said register along with at least one sync signal corresponding to said at least one send signal. - View Dependent Claims (2, 3, 4, 5)
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6. A wireless data coupling method for transmitting data from a rotating source to a stationary receiver comprising the following steps:
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generating and transmitting from said stationary receiver to said rotating source a start signal to cause said rotating source to store in binary digital format said data to be transmitted; transmitting from said stationary receiver to a single light receiver mounted on the periphery of said shaft of said rotating source a sequence in time of send signals for each bit of said stored data to be received; in response to said sequence of send signals transmitting from said rotating source a corresponding sequence of said binary digital data signals which have been stored; and receiving said transmitted data signals and converting said signals to displayable information. - View Dependent Claims (7, 8, 9)
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10. A wireless data coupling system for transmitting data from a rotating shaft to a stationary receiver where a parameter of said shaft is being measured comprising:
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said receiver including an arcuate sequence of phototransistors for receiving digits with a radius perpendicular to the axis of said shaft; a photocell means having a limited area and located on only a relatively small portion of the circumference of said shaft compared to a full circle for receiving light energy for powering electric components mounted on said shaft; a light source means in close proximity to said photocell means for illuminating and providing said light energy to said photocell means once each revolution, said light source means providing a sector of illumination of said shaft substantially equivalent to at least the circumferential extent of said arcuate receiver but substantially less than a full circle; means mounted on said shaft including said electric components and powered by said photocell means for converting a measured analog signal parameter to a signal having a plurality of binary digits and transmitting digits of said signal to said arcuate stationary receiver during said illumination of said photocell means. - View Dependent Claims (11)
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12. A wireless data coupling system for transmitting data from a rotating shaft to a stationary receiver comprising:
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means included in said stationary receiver for generating a start signal and at least one send signal, said start and send signal means being angularly displaced with reference to the direction of rotation of said shaft; register means on said shaft for storing said data as a string of binary digits; first light receiving means mounted on the periphery of said shaft for receiving said start signal from said stationary receiver for loading said register with said binary digits; second light receiving means mounted on the periphery of said shaft and axially aligned with said first light receiving means for receiving said at least one send signal; and
light transmitting means mounted on said shaft responsive to said at least one send signal for transmitting to said receiver said binary digits stored in said register.
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Specification