Authors
Maja Vidojkovic, Xiongchuan Huang, Pieter Harpe, Simonetta Rampu, Cui Zhou, Li Huang, Jef van de Molengraft, Koji Imamura, Ben Busze, Frank Bouwens, Mario Konijnenburg, Juan Santana, Arjan Breeschoten, Jos Huisken, Kathleen Philips, Guido Dolmans, Harmke de Groot
Publication date
2011/12/15
Journal
IEEE transactions on biomedical circuits and systems
Volume
5
Issue
6
Pages
523-534
Publisher
IEEE
Description
This paper describes an ultra-low power (ULP) single chip transceiver for wireless body area network (WBAN) applications. It supports on-off keying (OOK) modulation, and it operates in the 2.36-2.4 GHz medical BAN and 2.4-2.485 GHz ISM bands. It is implemented in 90 nm CMOS technology. The direct modulated transmitter transmits OOK signal with 0 dBm peak power, and it consumes 2.59 mW with 50% OOK. The transmitter front-end supports up to 10 Mbps. The transmitter digital baseband enables digital pulse-shaping to improve spectrum efficiency. The super-regenerative receiver front-end supports up to 5 Mbps with -75 dBm sensitivity. Including the digital part, the receiver consumes 715 μW at 1 Mbps data rate, oversampled at 3 MHz. At the system level the transceiver achieves PER=10 -2 at 25 meters line of site with 62.5 kbps data rate and 288 bits packet size. The transceiver is integrated in an …
Total citations
Scholar articles
M Vidojkovic, X Huang, P Harpe, S Rampu, C Zhou… - IEEE transactions on biomedical circuits and systems, 2011