Title :
13.2 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
Author :
Yao-Hong Liu ; Bachmann, Christian ; Xiaoyan Wang ; Yan Zhang ; Ao Ba ; Busze, Benjamin ; Ming Ding ; Harpe, Pieter ; van Schaik, Gert-Jan ; Selimis, Georgios ; Giesen, Hans ; Gloudemans, Jordy ; Sbai, Adnane ; Li Huang ; Kato, Hiromu ; Dolmans, Guido ; P
Author_Institution :
Holst Centre, Imec, Eindhoven, Netherlands
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 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 3.7mW for RX and 4.4mW for TX.
Keywords :
Bluetooth; CMOS integrated circuits; Internet of Things; Zigbee; phase locked loops; radio transceivers; system-on-chip; ADPLL-based fast frequency offset compensation; CMOS integrated circuit; IEEE802.15.4; Internet-of-Things; PHY-data-link requirements; ULP RF transceiver; cellular devices; integrated Bluetooth; power 3.7 mW; power 4.4 mW; proprietary RF SoC; size 40 nm; ubiquitous wireless sensors; Bluetooth; Frequency modulation; Phase locked loops; Radio frequency; System-on-chip; Transceivers;
Conference_Titel :
Solid- State Circuits Conference - (ISSCC), 2015 IEEE International
Conference_Location :
San Francisco, CA
Print_ISBN :
978-1-4799-6223-5
DOI :
10.1109/ISSCC.2015.7063013
