IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0011781
(2011-01-21)
|
등록번호 |
US-8502684
(2013-08-06)
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발명자
/ 주소 |
- Bunza, Geoffrey J.
- Hudnut, Steven W.
|
출원인 / 주소 |
|
대리인 / 주소 |
Schwabe, Williamson & Wyatt
|
인용정보 |
피인용 횟수 :
6 인용 특허 :
88 |
초록
▼
Sensors and systems for detecting predetermined environmental conditions or changes may include a device capable of providing information. The device may include either a shield or reconfigurable antenna. For example, in a first condition, a shield is configured to prevent communications with the de
Sensors and systems for detecting predetermined environmental conditions or changes may include a device capable of providing information. The device may include either a shield or reconfigurable antenna. For example, in a first condition, a shield is configured to prevent communications with the device and, in a second condition, the shield is configured to enable communications with the device. Alternately, in a first condition, a reconfigurable antenna is configured to enable communications with the device and in a second condition the reconfigurable antenna is configured to prevent communications with the device. The shield or reconfigurable antenna may be configured to transition from first conditions to second conditions upon exposure to a predetermined environmental condition or change.
대표청구항
▼
1. A sensor for detecting a predetermined environmental condition, comprising: a circuit capable of providing information; anda reconfigurable antenna having a radiating element and a soluble link configured to provide a conductive path between the circuit and the antenna, the soluble link having a
1. A sensor for detecting a predetermined environmental condition, comprising: a circuit capable of providing information; anda reconfigurable antenna having a radiating element and a soluble link configured to provide a conductive path between the circuit and the antenna, the soluble link having a first condition and a second condition, wherein in the first condition the path is conductive to permit access to information provided by the circuit and, in the second condition the path is non-conductive to prevent access to information provided by the circuit, and wherein the soluble link is configured to transition from the first condition to the second condition if exposed to the predetermined environmental condition. 2. The sensor of claim 1, wherein the soluble link forms at least a portion less than the entirety of the reconfigurable antenna. 3. The sensor of claim 1, wherein in the first condition, the soluble link forms a conductive link between the radiating element and the circuit so that the radiating element is configured to interface the circuit to a radio frequency communication path, and in the second condition the soluble link is non-conductive such that the radiating element is electrically isolated from the circuit. 4. The sensor of claim 1, wherein when the soluble link is in the first condition, the reconfigurable antenna has operational characteristics that are different than operational characteristics of the reconfigurable antenna when the soluble link is in the second condition. 5. The sensor of claim 4, wherein the operational characteristics include a resonant frequency of the reconfigurable antenna. 6. The sensor of claim 1, wherein the reconfigurable antenna is at least one of a stripline antenna or a coil antenna. 7. The sensor of claim 1, wherein the circuit includes an RFID transponder configured to transmit information to an external reader device in response to an interrogation signal from the external reader device, the interrogation signal provides operating power to the RFID transponder, and the soluble link in its second condition is configured to preclude at least one of the provision of operating power from the external reader device to the RFID transponder and the transmission of information from the RFID transponder to the external reader device. 8. The sensor of claim 1, wherein the predetermined environmental condition includes a presence of a predetermined fluid proximate the sensor. 9. The sensor of claim 8, wherein the predetermined fluid includes a fluid discharged by a patient during an incontinence event. 10. The sensor of claim 8, wherein the predetermined fluid includes blood. 11. The sensor of claim 8, wherein at least a portion of the soluble link is at least partially soluble in the predetermined fluid such that the soluble link at least partially transitions from the first condition to the second condition if the at least a portion of the soluble link at least partially dissolves. 12. The sensor of claim 8, wherein the soluble link comprises a conductive layer and an at least partially soluble carrier, the conductive layer is at least partially disposed on the carrier and, in the first condition, is configured to provide an electrical path between the circuit and the radiating element, the at least partially soluble carrier is subject to breakdown when the carrier is exposed to the predetermined fluid, and the breakdown of the carrier at least partially transitions the soluble link from the first condition to the second condition. 13. A sensor for detecting a predetermined environmental condition, comprising: a circuit capable of providing information; anda reconfigurable antenna having a radiating element and a soluble link configured to selectively couple the circuit and the antenna, the soluble link having a first condition and a second condition,wherein in the first condition the soluble link is configured to permit access to information provided by the circuit and, in the second condition the soluble link is configured to prevent access to information provided by the circuit;wherein the soluble link is configured to transition from the first condition to the second condition if expose to the predetermined environmental condition; andwherein the predetermined environmental condition includes exposure to a predetermined vapor. 14. A sensor for detecting a predetermined environmental condition, comprising: a circuit capable of providing information; anda reconfigurable antenna having a radiating element and a soluble link configured to selectively couple the circuit and the antenna, the soluble link having a first condition and a second condition,wherein in the first condition the soluble link is configures to permit access to information provided by the circuit and, in the second condition the soluble link is configured to prevent access to information provided by the circuit;wherein the soluble link is configured to transition from the first condition to the second condition if exposed to the predetermined environmental condition; andwherein the soluble link comprises a conductive layer, a facilitator, and an at least partially soluble carrier, the conductive layer is at least partially disposed on the carrier and, in the first condition, is configured to provide an electrical path between the circuit and the radiating element, the facilitator is configured to at least partially enable the transition of the soluble link from the first condition to the second condition if the soluble link is exposed to the predetermined environmental condition. 15. The sensor of claim 1, wherein the sensor is configured to communicate with an interrogator device while the soluble link is in the first condition and to cease communications with the interrogator device upon transition of the soluble link to the second condition. 16. The sensor of claim 15, wherein the interrogator device is configured to provide an indication of the condition of the soluble link based upon a loss of communications with the sensor. 17. A sensor for detecting a predetermined environmental condition, comprising: a circuit configured to wirelessly communicate with an interrogator device via a reconfigurable antenna; andthe reconfigurable antenna, including: a radiating element configured to interface the circuit to the interrogator device via a radio frequency communication path if there is an electrical connection between the radiating element and the circuit; anda soluble link which in a first condition electrically connects the circuit to the radiating element and in a second condition electrically disconnects the radiating element from the circuit, and wherein the soluble link is configured to transition from the first condition to the second condition if exposed to the predetermined environmental condition. 18. The sensor of claim 17, wherein in the first condition the soluble link is configured to permit communications between the circuit and the interrogator device and in the second condition the soluble link is configured to prevent communications between the circuit and the interrogator device. 19. The sensor of claim 17, wherein when the soluble link is in the first condition, the reconfigurable antenna has a resonant frequency that is different than another resonant frequency of the reconfigurable antenna when the soluble link is in the second condition. 20. The sensor of claim 17, wherein the radiating element includes at least one of a stripline antenna element or a coil antenna element. 21. The sensor of claim 17, wherein the circuit includes an RFID transponder configured to transmit information to the interrogator device in response to an interrogation signal from the interrogator device, the interrogation signal provides operating power to the RFID transponder, and the soluble link in its second condition is configured to preclude at least one of the provision of operating power from the interrogator device to the RFID transponder and the transmission of information from the RFID transponder to the interrogator device. 22. The sensor of claim 17, wherein the predetermined environmental condition includes a presence of a predetermined fluid or predetermined vapor proximate the sensor. 23. The sensor of claim 17, wherein the sensor is configured to communicate with the interrogator device while the soluble link is in the first condition and to cease communications with the interrogator device upon transition of the soluble link to the second condition, and wherein the interrogator device is configured to provide an indication of the condition of the soluble link based upon a loss of communications with the sensor. 24. A method of detecting a predetermined environmental condition, wherein the method comprises: transmitting, by an interrogator device, an interrogation signal to a sensor having a reconfigurable antenna including a radiating element and a soluble link, wherein the soluble link in a first condition electrically connects an information-providing circuit to the radiating element and in a second condition electrically disconnects the radiating element from the information-providing circuit, wherein the soluble link is in the first condition prior to exposure to the predetermined environmental condition, and is in the second condition after exposure to the predetermined environmental condition;receiving, by the interrogator device, in response to transmission of the interrogation signal, an information signal transmitted from the sensor while the soluble link is in the first condition;transmitting, by the interrogator device, another interrogation signal to the sensor;detecting, by the interrogator device, a nonresponsiveness of the sensor to the other interrogation signal; andproviding, by the interrogator device, an indication of an occurrence of the predetermined environmental condition based on the detected nonresponsiveness. 25. The method of claim 24, wherein the predetermined environmental condition includes a presence of a predetermined fluid or predetermined vapor proximate the sensor. 26. The method of claim 25, further comprising positioning the sensor proximate at least one of a urine discharge orifice and a fecal discharge orifice of a patient, wherein the predetermined fluid is urine. 27. The method of claim 24, wherein the information-providing circuit includes a passive RFID transponder which transmits the information signal to the interrogator device in response to the interrogation signal, the interrogation signal providing operating power to the RFID transponder, and the soluble link in its second condition precludes at least one of the provisioning of operating power from the interrogator device to the RFID transponder and the transmission of information from the RFID transponder to the interrogator device. 28. The method of claim 24, wherein at least a portion of the soluble link is at least partially soluble in fluid such that the soluble link at least partially transitions from the first condition to the second condition if the at least a portion of the soluble link is at least partially disrupted.
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