Low power infrared communication system
First Claim
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1. A low-power infrared communication system for transferring between first and second physically separable electronic devices, comprising, in combination:
- a microcontroller located within said first electronic device, said microcontroller having an input port and at least one switched output port;
an infrared emitter comprising a light emitting diode directly connected to and operated by said switched output port;
an infrared detector connected to said input port to supply signals to said input port when illuminated by an incoming infrared signal; and
a communications interface in said second electronic device adapted to receive infrared signals from said infrared emitter and further adapted to illuminate said infrared detector with said incoming infrared signal.
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Abstract
A low-cost, low-power, half-duplex communication system provides data transfer to and/or from an electronic watch or similar small electronic device. To accommodate the small size of the watch housing, data transfer is achieved using an infrared photodiode as a detector and an LED as an infrared emitter, directly coupled to the watch microcontroller with a minimum of additional components. Due to the small battery power capacity of electronic watches, the communication system is designed to have a negligible standby power consumption as well as low power consumption during data transfer. The IR emitter is connected directly to an output port on the microcontroller and the IR detector is connected to an input port on the microcontroller through a transistor amplifier. In standby mode, the microcontroller ports render the infrared devices and the transistor non-conducting to minimize power consumption. During transfer of information to and from the watch, the watch is placed in a cradle associated with a computing device and containing an infrared detector and an infrared emitter, designed so that the IR devices in the watch and cradle align in pairs when the watch is placed in the cradle.
28 Citations
19 Claims
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1. A low-power infrared communication system for transferring between first and second physically separable electronic devices, comprising, in combination:
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a microcontroller located within said first electronic device, said microcontroller having an input port and at least one switched output port; an infrared emitter comprising a light emitting diode directly connected to and operated by said switched output port; an infrared detector connected to said input port to supply signals to said input port when illuminated by an incoming infrared signal; and a communications interface in said second electronic device adapted to receive infrared signals from said infrared emitter and further adapted to illuminate said infrared detector with said incoming infrared signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A low-power infrared communication system for transferring data from a battery operated electronic device, comprising, in combination:
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a microcontroller located within said battery-operated device, said microcontroller having at least one output port and one input port; a first infrared emitter located within said battery-operated device, said infrared emitter comprising a light emitting diode directly connected to one of said at least one output ports of said microcontroller to transmit outgoing infrared signals from said device; a first infrared detector located within said battery-operated device and connected to said input port to receive incoming infrared signals; a computer external to said device; and an interface unit coupled to said computer comprising; a second infrared emitter, a second infrared detector, and mounting means adapted to position said second infrared detector in close proximity to said first infrared emitter and to position said second infrared emitter in close proximity to said first infrared detector to establish a bidirectional infrared communication link between said device and said interface unit.
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10. A method for transferring data to and from a battery-operated electronic device comprising, in combination, the steps of:
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providing said battery-operated electronic device with a first infrared emitter, a first infrared detector and a microcontroller, said first infrared emitter comprising a light emitting diode directly connected to an output port on said microcontroller and said first infrared detector being coupled to an input port on said microcontroller; providing an interface unit in communication with a computing device, said interface unit having a second infrared detector, a second infrared emitter, and a circuitry for coupling said second infrared emitter and said second infrared detector to said computing device; sending data from said computing device to said battery-operated electronic device by the steps, in combination, of; sending an electrical data signal from said computing device to said interface unit; applying said electrical data signal to said second infrared emitter to produce infrared radiation; positioning said first infrared detector in close proximity to said second infrared emitter to receive said infrared radiation; and applying an electrical data signal from said first infrared detector to said microcontroller; and sending data from said electronic device to said computing device by the steps, in combination, of; directly applying a signal from said microcontroller to said first infrared emitter to produce emitted infrared radiation; positioning said second infrared detector in close proximity to said first infrared emitter to receive said emitted infrared radiation to produce an outbound data signal; and transmitting said outbound data signal to said computing device. - View Dependent Claims (11, 12, 13, 14, 15, 16)
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17. A method for transferring data from a battery-operated electronic device comprising, in combination, the steps of:
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providing said battery-operated electronic device with an infrared emitter and a microcontroller, said infrared emitter comprising a light emitting diode directly connected to an output port on said microcontroller; providing a cradle device associated with a computing device, said cradle device having an infrared detector and a communications interface for converting from infrared signals to signals receivable by said computing device; and sending data from said electronic device to said computing device by the steps, in combination, of; sending a signal from said microcontroller to said electronic device infrared emitter; transmitting said signal to said cradle infrared detector; transmitting said signal from said cradle infrared detector to said communications interface; converting said signal from said cradle infrared detector to a signal receivable by said computing device at said communications interface; and transmitting said converted signal to said computing device. - View Dependent Claims (18, 19)
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Specification
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Current AssigneeApplied Materials Incorporated, Recall Services Incorporated
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Original AssigneeRecall Services Incorporated
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InventorsDuckworth, Reginald James
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Primary Examiner(s)NEGASH, KINFE MICHAEL
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Application NumberUS08/998,145Time in Patent Office937 DaysField of Search359/143, 359/152, 359/147, 359/172, 359/113, 340/825.72, 455/151.2US Class Current398/129CPC Class CodesH04B 10/1143 Bidirectional transmission
