IPC분류정보
| 국가/구분 |
United States(US) Patent
등록
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| 국제특허분류(IPC7판) |
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| 출원번호 |
US-0426883
(1999-10-26)
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발명자
/ 주소 |
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| 출원인 / 주소 |
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| 대리인 / 주소 |
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| 인용정보 |
피인용 횟수 :
139 인용 특허 :
12 |
초록
▼
A method and apparatus for identification and monitoring of, and obtaining data relating to, products moving along a distribution path, including at least one RFID tag mountable to a product, or product carrier, and a plurality of interrogators spaced apart along the distribution path, wherein each
A method and apparatus for identification and monitoring of, and obtaining data relating to, products moving along a distribution path, including at least one RFID tag mountable to a product, or product carrier, and a plurality of interrogators spaced apart along the distribution path, wherein each interrogator of the plurality of interrogators cooperates in RF communication with the RFID tag when the RFID tag is in proximity to the each interrogator along the distribution path. Each interrogator interrogates the RFID tag during the RF communication so as to obtain unique data, unique to the RFID tag. The RFID tag and each interrogator each includes a transceiver and memory, the memory.
대표청구항
▼
A method and apparatus for identification and monitoring of, and obtaining data relating to, products moving along a distribution path, including at least one RFID tag mountable to a product, or product carrier, and a plurality of interrogators spaced apart along the distribution path, wherein each
A method and apparatus for identification and monitoring of, and obtaining data relating to, products moving along a distribution path, including at least one RFID tag mountable to a product, or product carrier, and a plurality of interrogators spaced apart along the distribution path, wherein each interrogator of the plurality of interrogators cooperates in RF communication with the RFID tag when the RFID tag is in proximity to the each interrogator along the distribution path. Each interrogator interrogates the RFID tag during the RF communication so as to obtain unique data, unique to the RFID tag. The RFID tag and each interrogator each includes a transceiver and memory, the memory. ic wave filter, the switching element, the first to third inductance elements, and the first to third capacitance elements, at least some of which are contained in the multi-layer substrate and at least some of which are mounted thereon. 5. The composite high frequency component according to claim 1, wherein the surface acoustic wave filter is sealed in a cavity formed inside the multi-layer substrate. 6. The composite high frequency component according to claim 1, wherein the high frequency filter comprises a inductance element, a non-grounded capacitance element and a grounded capacitance element. 7. The composite high frequency component according to claim 6, wherein the grounded capacitance element of the high frequency filter is formed between the ground electrode formed on the sheet layer adjacent to the bottom surface of the multi-layer substrate and an electrode which is opposed to the ground electrode. 8. A mobile communication apparatus comprising transmission circuits and reception circuits, a transmission and a reception circuit being connected respectively to the transmission section and the reception section of each of said plurality of signal paths in the composite high frequency component according to claim 1. 9. The mobile communication apparatus according to claim 8, further comprising an antenna connected to said diplexer. 10. A composite high frequency component for being included in a microwave circuit having a plurality of signal paths corresponding to respective frequencies, the composite high frequency component comprising: a diplexer which accepts transmitted signals from the plurality of signal paths at a time of transmission, and delivers received signals to the plurality of signal paths at a time of reception; a plurality of high frequency switches dividing the plurality of signal paths, respectively, into transmission sections and reception sections; a high frequency filter connected in a respective one of the signal paths; at least one surface acoustic wave filter connected to a respective one of the reception sections at the rear of the corresponding high frequency switch; and a multi-layer substrate comprising a plurality of laminated ceramic sheet layers in which the diplexer, the high frequency switches, the high frequency filter, and the at least one surface acoustic wave filter are interconnected. 11. A composite high frequency component according to claim 10, wherein said high frequency filter is connected between the diplexer and a corresponding one of said plurality of high frequency switches of said signal path. 12. A composite high frequency component according to claim 10, wherein the high frequency filter is connected in the transmission section at the rear of the corresponding high frequency switch. 13. A composite high frequency component according to claim 10, wherein the high frequency filter is a notch filter. 14. A composite high frequency component according to claim 10, wherein: the diplexer comprises first inductance elements and first capacitance elements; each of the plurality of high frequency switches comprises switching elements, second inductance elements, and second capacitance elements; the high frequency filter comprises a third inductance element and third capacitance elements; and connections are formed inside the multi-layer substrate to connect the at least one surface acoustic wave filter, the switching elements, the first to third inductance elements, and the first to third capacitance elements, at least some of which are contained in the multi-layer substrate and at least some of which are mounted thereon. 15. A composite high frequency component according to claim 10, wherein the at least one surface acoustic wave filter is sealed in a cavity formed inside the multi-layer substrate. 16. A mobile communication apparatus comprising a transmission circuit and a reception circuit, said transmission and reception circuits being connected respect ively to the transmission section and the reception section of each of said plurality of signal paths in the composite high frequency component according to claim 10. 17. A mobile communication apparatus according to claim 16, further comprising an antenna connected to said diplexer. 18. A composite high frequency component according to claim 10, wherein the multi-layer substrate includes a ground electrode formed on one of said sheet layers adjacent to the bottom surface of the multi-layer substrate, and the at least one surface acoustic wave filter is mounted on the top surface of the multi-layer substrate. 19. A composite high frequency component according to claim 18, wherein the high frequency filter comprises a inductance element, a non-grounded capacitance element and a grounded capacitance element. 20. A composite high frequency component according to claim 19, wherein the grounded capacitance element of the high frequency filter is formed between the ground electrode formed on the sheet layer adjacent to the bottom surface of the multi-layer substrate and an electrode which is opposed to the ground electrode.
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