THERMOELECTRIC ENERGY HARVESTING WITH WIRELESS SENSORS
First Claim
1. A physiological sensor, comprising:
- a generating structure capable of generating power in response to differences in temperature;
a sensing component capable of generating data related to one or more physiological parameters; and
wireless communication circuitry capable of wirelessly transmitting the data related to the one or more physiological parameters, wherein the sensing component or the wireless communication circuitry are at least partially powered, directly or indirectly, by the power generating structure.
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Accused Products
Abstract
A system and method for generating power from temperature differences across a thermoelectric energy harvester. The system may include one or more sensing components which, acting alone or in combination, are capable of generating data related to one or more physiological parameters. The system may also include wireless communication circuitry capable of wirelessly transmitting the data related to the one or more physiological parameters. Furthermore, at least one of the one or more sensing components or the wireless communication circuitry may be at least partially powered, directly or indirectly, by energy generated via the thermoelectric energy harvester.
16 Citations
21 Claims
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1. A physiological sensor, comprising:
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a generating structure capable of generating power in response to differences in temperature; a sensing component capable of generating data related to one or more physiological parameters; and wireless communication circuitry capable of wirelessly transmitting the data related to the one or more physiological parameters, wherein the sensing component or the wireless communication circuitry are at least partially powered, directly or indirectly, by the power generating structure. - View Dependent Claims (2, 3, 4)
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5. A power module for a physiological sensor, comprising:
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a power generating structure which generate power in response to differences in temperature; and a connector capable of releasably connecting to a physiological sensor, wherein the connector is capable of transmitting power generated by the power generating structures to the physiological sensor when connected. - View Dependent Claims (6, 7, 8, 9, 10)
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12. A method for powering a wireless sensor, comprising the acts of:
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generating power using a power generating structure in response to differences in temperature; and providing the power to the sensor. - View Dependent Claims (13, 14, 15, 16)
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17. A monitoring system, comprising:
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a wireless sensor, comprising; a light generating component; a light detecting component capable of detecting light generated by the light generating component; a wireless transmitter capable of wirelessly transmitting a signal based on the light detected by the light detecting component; and a power generating component that generates power in response to differences in temperature, wherein the generated power is provided to one or more of the light generating component, the light detecting component, or the wireless transmitter; and a monitor capable of receiving the signal. - View Dependent Claims (18, 19, 20, 21)
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Specification