A 3.7mW-RX 4.4mW-TX fully integrated Bluetooth Low-Energy/IEEE802.15.4/proprietary SoC with an ADPLL-based fast frequency offset compensation in 40nm CMOS

Yao Hong Liu, Christian Bachmann, Xiaoyan Wang, Yan Zhang, Ao Ba, Benjamin Busze, Ming Ding, Pieter Harpe, Gert Jan van Schaik, Georgios Selimis, Hans Giesen, Jordy Gloudemans, Adnane Sbai, Li Huang, Hiromu Kato, Guido Dolmans, Kathleen Philips, Harmke de Groot

Research output: Chapter in Book/Report/Conference proceedingConference contributionAcademicpeer-review

58 Citations (Scopus)
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Abstract

This paper presents an ultra-low-power (ULP) fully-integrated Bluetooth Low-Energy(BLE)/IEEE802.15.4/proprietary RF SoC for Internet-of-Things applications. Ubiquitous wireless sensors connected through cellular devices are becoming widely used in everyday life. A ULP RF transceiver [1-3] is one of the most critical components that enables these emerging applications, as it can consume up to 90% of total battery energy. Furthermore, a low-cost radio design with an area-efficient fully integrated RF SoC is an important catalyst for developing such applications. By employing a low-voltage digital-intensive architecture, the presented SoC is fully compliant with BLE and IEEE802.15.4 PHY/Data-link requirements and achieves state-of-the-art power consumption of 3.7mWforRXand4.4mWforTX.

Original languageEnglish
Title of host publicationProceedings of the IEEE International Solid-State Circuits Conference, 22-26 Februari 2015, San Francisco, California
Place of PublicationPiscataway
PublisherInstitute of Electrical and Electronics Engineers
Pages236-237
Number of pages2
Volume58
ISBN (Electronic)9781479962235
ISBN (Print)978-1-4799-6223-5
DOIs
Publication statusPublished - 17 Mar 2015
Event62nd IEEE International Solid-State Circuits Conference,(ISSCC 2015) - San Francisco Marriott, San Francisco, United States
Duration: 22 Feb 201526 Feb 2015
Conference number: 62

Conference

Conference62nd IEEE International Solid-State Circuits Conference,(ISSCC 2015)
Abbreviated titleISSCC 2015
CountryUnited States
CitySan Francisco
Period22/02/1526/02/15

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Bluetooth
Transceivers
Electric power utilization
Catalysts
Sensors
Electric potential
System-on-chip
Compensation and Redress
Costs

Cite this

Liu, Y. H., Bachmann, C., Wang, X., Zhang, Y., Ba, A., Busze, B., ... de Groot, H. (2015). A 3.7mW-RX 4.4mW-TX fully integrated Bluetooth Low-Energy/IEEE802.15.4/proprietary SoC with an ADPLL-based fast frequency offset compensation in 40nm CMOS. In Proceedings of the IEEE International Solid-State Circuits Conference, 22-26 Februari 2015, San Francisco, California (Vol. 58, pp. 236-237). [7063013] Piscataway: Institute of Electrical and Electronics Engineers. https://doi.org/10.1109/ISSCC.2015.7063013, https://doi.org/10.1109/ISSCC.2015.7063013
Liu, Yao Hong ; Bachmann, Christian ; Wang, Xiaoyan ; Zhang, Yan ; Ba, Ao ; Busze, Benjamin ; Ding, Ming ; Harpe, Pieter ; van Schaik, Gert Jan ; Selimis, Georgios ; Giesen, Hans ; Gloudemans, Jordy ; Sbai, Adnane ; Huang, Li ; Kato, Hiromu ; Dolmans, Guido ; Philips, Kathleen ; de Groot, Harmke. / A 3.7mW-RX 4.4mW-TX fully integrated Bluetooth Low-Energy/IEEE802.15.4/proprietary SoC with an ADPLL-based fast frequency offset compensation in 40nm CMOS. Proceedings of the IEEE International Solid-State Circuits Conference, 22-26 Februari 2015, San Francisco, California. Vol. 58 Piscataway : Institute of Electrical and Electronics Engineers, 2015. pp. 236-237
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title = "A 3.7mW-RX 4.4mW-TX fully integrated Bluetooth Low-Energy/IEEE802.15.4/proprietary SoC with an ADPLL-based fast frequency offset compensation in 40nm CMOS",
abstract = "This paper presents an ultra-low-power (ULP) fully-integrated Bluetooth Low-Energy(BLE)/IEEE802.15.4/proprietary RF SoC for Internet-of-Things applications. Ubiquitous wireless sensors connected through cellular devices are becoming widely used in everyday life. A ULP RF transceiver [1-3] is one of the most critical components that enables these emerging applications, as it can consume up to 90{\%} of total battery energy. Furthermore, a low-cost radio design with an area-efficient fully integrated RF SoC is an important catalyst for developing such applications. By employing a low-voltage digital-intensive architecture, the presented SoC is fully compliant with BLE and IEEE802.15.4 PHY/Data-link requirements and achieves state-of-the-art power consumption of 3.7mWforRXand4.4mWforTX.",
author = "Liu, {Yao Hong} and Christian Bachmann and Xiaoyan Wang and Yan Zhang and Ao Ba and Benjamin Busze and Ming Ding and Pieter Harpe and {van Schaik}, {Gert Jan} and Georgios Selimis and Hans Giesen and Jordy Gloudemans and Adnane Sbai and Li Huang and Hiromu Kato and Guido Dolmans and Kathleen Philips and {de Groot}, Harmke",
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Liu, YH, Bachmann, C, Wang, X, Zhang, Y, Ba, A, Busze, B, Ding, M, Harpe, P, van Schaik, GJ, Selimis, G, Giesen, H, Gloudemans, J, Sbai, A, Huang, L, Kato, H, Dolmans, G, Philips, K & de Groot, H 2015, A 3.7mW-RX 4.4mW-TX fully integrated Bluetooth Low-Energy/IEEE802.15.4/proprietary SoC with an ADPLL-based fast frequency offset compensation in 40nm CMOS. in Proceedings of the IEEE International Solid-State Circuits Conference, 22-26 Februari 2015, San Francisco, California. vol. 58, 7063013, Institute of Electrical and Electronics Engineers, Piscataway, pp. 236-237, 62nd IEEE International Solid-State Circuits Conference,(ISSCC 2015), San Francisco, United States, 22/02/15. https://doi.org/10.1109/ISSCC.2015.7063013, https://doi.org/10.1109/ISSCC.2015.7063013

A 3.7mW-RX 4.4mW-TX fully integrated Bluetooth Low-Energy/IEEE802.15.4/proprietary SoC with an ADPLL-based fast frequency offset compensation in 40nm CMOS. / Liu, Yao Hong; Bachmann, Christian; Wang, Xiaoyan; Zhang, Yan; Ba, Ao; Busze, Benjamin; Ding, Ming; Harpe, Pieter; van Schaik, Gert Jan; Selimis, Georgios; Giesen, Hans; Gloudemans, Jordy; Sbai, Adnane; Huang, Li; Kato, Hiromu; Dolmans, Guido; Philips, Kathleen; de Groot, Harmke.

Proceedings of the IEEE International Solid-State Circuits Conference, 22-26 Februari 2015, San Francisco, California. Vol. 58 Piscataway : Institute of Electrical and Electronics Engineers, 2015. p. 236-237 7063013.

Research output: Chapter in Book/Report/Conference proceedingConference contributionAcademicpeer-review

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AU - Liu, Yao Hong

AU - Bachmann, Christian

AU - Wang, Xiaoyan

AU - Zhang, Yan

AU - Ba, Ao

AU - Busze, Benjamin

AU - Ding, Ming

AU - Harpe, Pieter

AU - van Schaik, Gert Jan

AU - Selimis, Georgios

AU - Giesen, Hans

AU - Gloudemans, Jordy

AU - Sbai, Adnane

AU - Huang, Li

AU - Kato, Hiromu

AU - Dolmans, Guido

AU - Philips, Kathleen

AU - de Groot, Harmke

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AB - This paper presents an ultra-low-power (ULP) fully-integrated Bluetooth Low-Energy(BLE)/IEEE802.15.4/proprietary RF SoC for Internet-of-Things applications. Ubiquitous wireless sensors connected through cellular devices are becoming widely used in everyday life. A ULP RF transceiver [1-3] is one of the most critical components that enables these emerging applications, as it can consume up to 90% of total battery energy. Furthermore, a low-cost radio design with an area-efficient fully integrated RF SoC is an important catalyst for developing such applications. By employing a low-voltage digital-intensive architecture, the presented SoC is fully compliant with BLE and IEEE802.15.4 PHY/Data-link requirements and achieves state-of-the-art power consumption of 3.7mWforRXand4.4mWforTX.

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SN - 978-1-4799-6223-5

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EP - 237

BT - Proceedings of the IEEE International Solid-State Circuits Conference, 22-26 Februari 2015, San Francisco, California

PB - Institute of Electrical and Electronics Engineers

CY - Piscataway

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Liu YH, Bachmann C, Wang X, Zhang Y, Ba A, Busze B et al. A 3.7mW-RX 4.4mW-TX fully integrated Bluetooth Low-Energy/IEEE802.15.4/proprietary SoC with an ADPLL-based fast frequency offset compensation in 40nm CMOS. In Proceedings of the IEEE International Solid-State Circuits Conference, 22-26 Februari 2015, San Francisco, California. Vol. 58. Piscataway: Institute of Electrical and Electronics Engineers. 2015. p. 236-237. 7063013 https://doi.org/10.1109/ISSCC.2015.7063013, https://doi.org/10.1109/ISSCC.2015.7063013