Design of a 24 GHz analog frontend for an optically powered RFID transponder for the integration into metallic components

Johannes Meyer; Quang Huy Dao; Bernd Geck

Details

Original language	English
Title of host publication	European Microwave Week 2013, EuMW 2013 - Conference Proceedings; EuMC 2013
Subtitle of host publication	43rd European Microwave Conference
Pages	1531-1534
Number of pages	4
Publication status	Published - 2013
Event	2013 43rd European Microwave Conference, EuMC 2013 - Held as Part of the 16th European Microwave Week, EuMW 2013 - Nuremberg, Germany Duration: 7 Oct 2013 → 10 Oct 2013

Publication series

Name	European Microwave Week 2013, EuMW 2013 - Conference Proceedings; EuMC 2013: 43rd European Microwave Conference

Abstract

The fundamental construction of a 24 GHz optically powered Radio Frequency Identification transponder integrable into metallic objects is presented. A brief overview of the optical power supply considerations and the resulting constraints to the antenna design are discussed. The focus of this contribution is on the characterization of the analog RF frontend which has the dimensions of 5.7 mm × 5.2 mm. The communication from the reader to the transponder is a binary amplitude shift keying, thus an envelope detector is used for the demodulation. As power consumption is of major interest, the tag uses backscattering to transfer the data from the tag to the reader. The modulator is based on a low power high electron mobility transistor.

Keywords

analog frontend, K-band, RFID

ASJC Scopus subject areas

Engineering(all)
Electrical and Electronic Engineering

Cite this

Design of a 24 GHz analog frontend for an optically powered RFID transponder for the integration into metallic components. / Meyer, Johannes; Dao, Quang Huy; Geck, Bernd.
European Microwave Week 2013, EuMW 2013 - Conference Proceedings; EuMC 2013: 43rd European Microwave Conference. 2013. p. 1531-1534 06686961 (European Microwave Week 2013, EuMW 2013 - Conference Proceedings; EuMC 2013: 43rd European Microwave Conference).

Research output: Chapter in book/report/conference proceeding › Conference contribution › Research › peer review

Meyer, J, Dao, QH & Geck, B 2013, Design of a 24 GHz analog frontend for an optically powered RFID transponder for the integration into metallic components. in European Microwave Week 2013, EuMW 2013 - Conference Proceedings; EuMC 2013: 43rd European Microwave Conference., 06686961, European Microwave Week 2013, EuMW 2013 - Conference Proceedings; EuMC 2013: 43rd European Microwave Conference, pp. 1531-1534, 2013 43rd European Microwave Conference, EuMC 2013 - Held as Part of the 16th European Microwave Week, EuMW 2013, Nuremberg, Germany, 7 Oct 2013.

Meyer, J., Dao, Q. H., & Geck, B. (2013). Design of a 24 GHz analog frontend for an optically powered RFID transponder for the integration into metallic components. In European Microwave Week 2013, EuMW 2013 - Conference Proceedings; EuMC 2013: 43rd European Microwave Conference (pp. 1531-1534). Article 06686961 (European Microwave Week 2013, EuMW 2013 - Conference Proceedings; EuMC 2013: 43rd European Microwave Conference).

Meyer J, Dao QH, Geck B. Design of a 24 GHz analog frontend for an optically powered RFID transponder for the integration into metallic components. In European Microwave Week 2013, EuMW 2013 - Conference Proceedings; EuMC 2013: 43rd European Microwave Conference. 2013. p. 1531-1534. 06686961. (European Microwave Week 2013, EuMW 2013 - Conference Proceedings; EuMC 2013: 43rd European Microwave Conference).

Meyer, Johannes ; Dao, Quang Huy ; Geck, Bernd. / Design of a 24 GHz analog frontend for an optically powered RFID transponder for the integration into metallic components. European Microwave Week 2013, EuMW 2013 - Conference Proceedings; EuMC 2013: 43rd European Microwave Conference. 2013. pp. 1531-1534 (European Microwave Week 2013, EuMW 2013 - Conference Proceedings; EuMC 2013: 43rd European Microwave Conference).

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abstract = "The fundamental construction of a 24 GHz optically powered Radio Frequency Identification transponder integrable into metallic objects is presented. A brief overview of the optical power supply considerations and the resulting constraints to the antenna design are discussed. The focus of this contribution is on the characterization of the analog RF frontend which has the dimensions of 5.7 mm × 5.2 mm. The communication from the reader to the transponder is a binary amplitude shift keying, thus an envelope detector is used for the demodulation. As power consumption is of major interest, the tag uses backscattering to transfer the data from the tag to the reader. The modulator is based on a low power high electron mobility transistor.",

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Research@Leibniz University