A 2.4GHz ULP OOK single-chip transceiver for healthcare applications

M. Vidojkovic, X. Huang, P.J.A. Harpe, S. Rampu, C. Zhou, Li Huang, K. Imamura, B. Büsze, F. Bouwens, M. Konijnenburg, J. Santana, A. Breeschoten, J. Huisken, G. Dolmans, H.W.H. Groot, de

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63 Citaties (Scopus)

Uittreksel

Wireless body-area networks (WBAN) are used for communication among sensor nodes operating on, in or around the human body, e.g. for healthcare purposes. In view of energy autonomy, the total energy consumption of the sensor nodes should be minimized. Because of their low complexity, a combination of the super-regenerative (SR) principle [1-3] and OOK modulation enables ultra low power (ULP) consumption. This work presents a 2.4GHz ULP OOK single chip transceiver for WBAN applications. A block diagram of the implemented transceiver is shown in Fig. 26.3.1. Next to the direct modulation TX [4] and SR RF [5] front-ends, this work integrates analog and digital baseband, PLL functionality and additional programmability for flexible data rates, and achieves ultra-low power consumption for the overall system.
Originele taal-2Engels
TitelProceedings of the Solid-state circuits conference digest of technical papers (ISSCC), 2011 IEEE, 20-24 February 2011
Plaats van productiePiscataway
UitgeverijInstitute of Electrical and Electronics Engineers
Pagina's458-460
ISBN van geprinte versie978-1-61284-303-2
DOI's
StatusGepubliceerd - 2011
Evenement58th IEEE International Solid-State Circuits Conference (ISSCC 2011) - San Francisco, CA, Verenigde Staten van Amerika
Duur: 20 feb 201124 feb 2011
Congresnummer: 58

Congres

Congres58th IEEE International Solid-State Circuits Conference (ISSCC 2011)
Verkorte titelISSCC 2011
LandVerenigde Staten van Amerika
StadSan Francisco, CA
Periode20/02/1124/02/11
AnderSolid-State Circuits Conference Digest of Technical Papers (ISSCC) 2011 IEEE International

Vingerafdruk

Transceivers
Sensor nodes
Electric power utilization
Modulation
Phase locked loops
Energy utilization
Communication
Amplitude shift keying

Citeer dit

Vidojkovic, M., Huang, X., Harpe, P. J. A., Rampu, S., Zhou, C., Huang, L., ... Groot, de, H. W. H. (2011). A 2.4GHz ULP OOK single-chip transceiver for healthcare applications. In Proceedings of the Solid-state circuits conference digest of technical papers (ISSCC), 2011 IEEE, 20-24 February 2011 (blz. 458-460). Piscataway: Institute of Electrical and Electronics Engineers. https://doi.org/10.1109/ISSCC.2011.5746396
Vidojkovic, M. ; Huang, X. ; Harpe, P.J.A. ; Rampu, S. ; Zhou, C. ; Huang, Li ; Imamura, K. ; Büsze, B. ; Bouwens, F. ; Konijnenburg, M. ; Santana, J. ; Breeschoten, A. ; Huisken, J. ; Dolmans, G. ; Groot, de, H.W.H. / A 2.4GHz ULP OOK single-chip transceiver for healthcare applications. Proceedings of the Solid-state circuits conference digest of technical papers (ISSCC), 2011 IEEE, 20-24 February 2011. Piscataway : Institute of Electrical and Electronics Engineers, 2011. blz. 458-460
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abstract = "Wireless body-area networks (WBAN) are used for communication among sensor nodes operating on, in or around the human body, e.g. for healthcare purposes. In view of energy autonomy, the total energy consumption of the sensor nodes should be minimized. Because of their low complexity, a combination of the super-regenerative (SR) principle [1-3] and OOK modulation enables ultra low power (ULP) consumption. This work presents a 2.4GHz ULP OOK single chip transceiver for WBAN applications. A block diagram of the implemented transceiver is shown in Fig. 26.3.1. Next to the direct modulation TX [4] and SR RF [5] front-ends, this work integrates analog and digital baseband, PLL functionality and additional programmability for flexible data rates, and achieves ultra-low power consumption for the overall system.",
author = "M. Vidojkovic and X. Huang and P.J.A. Harpe and S. Rampu and C. Zhou and Li Huang and K. Imamura and B. B{\"u}sze and F. Bouwens and M. Konijnenburg and J. Santana and A. Breeschoten and J. Huisken and G. Dolmans and {Groot, de}, H.W.H.",
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Vidojkovic, M, Huang, X, Harpe, PJA, Rampu, S, Zhou, C, Huang, L, Imamura, K, Büsze, B, Bouwens, F, Konijnenburg, M, Santana, J, Breeschoten, A, Huisken, J, Dolmans, G & Groot, de, HWH 2011, A 2.4GHz ULP OOK single-chip transceiver for healthcare applications. in Proceedings of the Solid-state circuits conference digest of technical papers (ISSCC), 2011 IEEE, 20-24 February 2011. Institute of Electrical and Electronics Engineers, Piscataway, blz. 458-460, San Francisco, CA, Verenigde Staten van Amerika, 20/02/11. https://doi.org/10.1109/ISSCC.2011.5746396

A 2.4GHz ULP OOK single-chip transceiver for healthcare applications. / Vidojkovic, M.; Huang, X.; Harpe, P.J.A.; Rampu, S.; Zhou, C.; Huang, Li; Imamura, K.; Büsze, B.; Bouwens, F.; Konijnenburg, M.; Santana, J.; Breeschoten, A.; Huisken, J.; Dolmans, G.; Groot, de, H.W.H.

Proceedings of the Solid-state circuits conference digest of technical papers (ISSCC), 2011 IEEE, 20-24 February 2011. Piscataway : Institute of Electrical and Electronics Engineers, 2011. blz. 458-460.

Onderzoeksoutput: Hoofdstuk in Boek/Rapport/CongresprocedureConferentiebijdrageAcademicpeer review

TY - GEN

T1 - A 2.4GHz ULP OOK single-chip transceiver for healthcare applications

AU - Vidojkovic, M.

AU - Huang, X.

AU - Harpe, P.J.A.

AU - Rampu, S.

AU - Zhou, C.

AU - Huang, Li

AU - Imamura, K.

AU - Büsze, B.

AU - Bouwens, F.

AU - Konijnenburg, M.

AU - Santana, J.

AU - Breeschoten, A.

AU - Huisken, J.

AU - Dolmans, G.

AU - Groot, de, H.W.H.

PY - 2011

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N2 - Wireless body-area networks (WBAN) are used for communication among sensor nodes operating on, in or around the human body, e.g. for healthcare purposes. In view of energy autonomy, the total energy consumption of the sensor nodes should be minimized. Because of their low complexity, a combination of the super-regenerative (SR) principle [1-3] and OOK modulation enables ultra low power (ULP) consumption. This work presents a 2.4GHz ULP OOK single chip transceiver for WBAN applications. A block diagram of the implemented transceiver is shown in Fig. 26.3.1. Next to the direct modulation TX [4] and SR RF [5] front-ends, this work integrates analog and digital baseband, PLL functionality and additional programmability for flexible data rates, and achieves ultra-low power consumption for the overall system.

AB - Wireless body-area networks (WBAN) are used for communication among sensor nodes operating on, in or around the human body, e.g. for healthcare purposes. In view of energy autonomy, the total energy consumption of the sensor nodes should be minimized. Because of their low complexity, a combination of the super-regenerative (SR) principle [1-3] and OOK modulation enables ultra low power (ULP) consumption. This work presents a 2.4GHz ULP OOK single chip transceiver for WBAN applications. A block diagram of the implemented transceiver is shown in Fig. 26.3.1. Next to the direct modulation TX [4] and SR RF [5] front-ends, this work integrates analog and digital baseband, PLL functionality and additional programmability for flexible data rates, and achieves ultra-low power consumption for the overall system.

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DO - 10.1109/ISSCC.2011.5746396

M3 - Conference contribution

SN - 978-1-61284-303-2

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EP - 460

BT - Proceedings of the Solid-state circuits conference digest of technical papers (ISSCC), 2011 IEEE, 20-24 February 2011

PB - Institute of Electrical and Electronics Engineers

CY - Piscataway

ER -

Vidojkovic M, Huang X, Harpe PJA, Rampu S, Zhou C, Huang L et al. A 2.4GHz ULP OOK single-chip transceiver for healthcare applications. In Proceedings of the Solid-state circuits conference digest of technical papers (ISSCC), 2011 IEEE, 20-24 February 2011. Piscataway: Institute of Electrical and Electronics Engineers. 2011. blz. 458-460 https://doi.org/10.1109/ISSCC.2011.5746396