Wireless sensor with energy scavenger
First Claim
1. An apparatus comprising a system, the system comprising:
- electronic circuitry; and
a power supply for powering the electronic circuitry,wherein the power supply comprises;
a primary cell, andan energy scavenger operative to scavenge ambient energy and convert the scavenged ambient energy into electric energy,wherein the primary cell is configured to power the electronic circuitry when the energy scavenger is inactive,wherein the electronic circuitry is configured to perform high-performance operations,wherein the energy scavenger is configured to;
power the electronic circuitry with the electric energy via a capacitance of the primary when the electric circuitry is performing the high-performance operations, wherein the capacitance is a buffer for the electric energy, andrecharge the primary cell with the electric energy,wherein the electronic circuitry is configured to perform low-performance tasks when the primary cell is exhausted, andwherein the low-performance tasks comprise the electronic circuitry entering into a sleep mode and waking up to issue a warning signal, andwherein the warning signal is sent as a radio signal that is repeated after a predetermined time interval.
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Accused Products
Abstract
An apparatus (100) comprises a wireless sensor system (102) with electronic circuitry (104) and a power supply (106) for powering the electronic circuitry. The power supply comprises a primary cell (108) and an energy scavenger (110). The energy scavenger scavenges ambient energy and converts the scavenged ambient energy into electric energy. The sensor system is configured for having the primary cell power the electronic circuitry when the energy scavenger is inactive. The system is configured for performing at least one of having the energy scavenger power the electronic circuitry via the primary cell when the energy scavenger is active, using a capacitance of the primary cell as a buffer for the electric energy; and having the energy scavenger recharge the primary cell.
9 Citations
19 Claims
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1. An apparatus comprising a system, the system comprising:
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electronic circuitry; and a power supply for powering the electronic circuitry, wherein the power supply comprises; a primary cell, and an energy scavenger operative to scavenge ambient energy and convert the scavenged ambient energy into electric energy, wherein the primary cell is configured to power the electronic circuitry when the energy scavenger is inactive, wherein the electronic circuitry is configured to perform high-performance operations, wherein the energy scavenger is configured to; power the electronic circuitry with the electric energy via a capacitance of the primary when the electric circuitry is performing the high-performance operations, wherein the capacitance is a buffer for the electric energy, and recharge the primary cell with the electric energy, wherein the electronic circuitry is configured to perform low-performance tasks when the primary cell is exhausted, and wherein the low-performance tasks comprise the electronic circuitry entering into a sleep mode and waking up to issue a warning signal, and wherein the warning signal is sent as a radio signal that is repeated after a predetermined time interval. - View Dependent Claims (2, 3, 4, 5, 6, 15, 16, 17, 18, 19)
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7. A system, comprising:
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electronic circuitry; and a power supply for powering the electronic circuitry, the power supply comprising; a primary cell, and an energy scavenger configured to scavenge ambient energy and convert the scavenged ambient energy into electric energy, wherein the primary cell is configured to power the electronic circuitry when the energy scavenger is inactive, wherein the electronic circuitry is configured to perform high-performance operations, wherein the energy scavenger is configured to; power the electronic circuitry with the electric energy via a capacitance of the primary cell when the electric circuitry is performing the high-performance operations, wherein the capacitance a buffer for the electric energy, and recharge the primary cell with the electric energy, wherein the electronic circuitry is configured to perform low-performance tasks when the primary cell is exhausted, wherein the low-performance tasks comprise the electronic circuitry entering into a sleep mode and waking up to issue a warning signal, and wherein the warning signal is sent as a radio signal that is repeated after a predetermined time interval. - View Dependent Claims (8, 9, 10, 11)
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12. A power supply for powering electronic circuitry, wherein:
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the power supply comprises; a primary cell; and an energy scavenger configured to scavenge ambient energy and convert the scavenged ambient energy into electric energy; wherein the primary cell is configured to power the electronic circuitry when the energy scavenger is inactive, wherein the electronic circuitry is configured to perform high-performance operations, wherein the energy scavenger is configured to; power the electronic circuitry with the electric energy via a capacitance of the primary cell when the electric circuitry is performing the high-performance operations, wherein the capacitance is a buffer for the electric energy, and recharge the primary cell with the electric energy, wherein the electronic circuitry is configured to perform low-performance tasks when the primary cell is exhausted, wherein the low-performance tasks comprise the electronic circuitry entering into a sleep mode and waking up to issue a warning signal, and wherein the warning signal is sent as a radio signal that is repeated after a predetermined time interval. - View Dependent Claims (13)
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14. A method of powering electronic circuitry, the method comprising:
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scavenging ambient energy from an apparatus; converting the scavenged ambient energy into electric energy; and in response to the scavenging of the ambient energy, supplying the electric energy to; power the electronic circuitry through a capacitance of a primary cell when the electric circuitry is performing the high-performance operations, wherein the capacitance of the primary cell is used as a buffer for the electric energy, and recharge the primary cell, wherein the electronic circuitry is configured to perform low-performance tasks when the primary cell is exhausted, wherein the low-performance tasks comprise the electronic circuitry entering into a sleep mode and waking up to issue a warning signal, and wherein the warning signal is sent as a radio signal that is repeated after a predetermined time interval.
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Specification