Biomedical Engineering Reference
In-Depth Information
7. Z. Yunliang, J. D. Zuegel, J. R. Marciante, W. Hui, A 0.18 lm CMOS distributed transversal
filter
for
sub-nanosecond
pulse
synthesis,
in
IEEE
Radio
and
Wireless
Symposium,
pp. 563-566, 2006
8. M. Chae, W. Liu, Z. Yang, T. Chen, J. Kim, M. Sivaprakasam, M. Yuce, A 128-channel
6mW wireless neural recording IC with on-the-fly spike sorting and UWB transmitter. IEEE
international solid-state circuits conference (ISSCC'08), pp. 146-603, 3-7 Feb 2008
9. Y. Gao, Y. Zheng, S. Diao, W. Toh, C. Ang, M. Je, C. Heng, Low-power ultra-wideband
wireless telemetry transceiver for medical sensor applications. IEEE Trans. Biomed. Eng.
58(3), 768, 772 (2011)
10. Ho Chee Keong, M. R. Yuce, Low data rate ultra wideband ECG monitoring system. IEEE
engineering in medicine and biology society conference, pp. 3413-3416, August 2008
11. D.D. Wentzloff, A.P. Chandrakasan, Gaussian pulse generators for subbanded ultra-wideband
transmitters. IEEE Trans. Microw. Theory Tech. 54, 1647-1655 (2006)
12. J. Ryckaert, C. Desset, A. Fort, M. Badaroglu, V. De Heyn, P. Wambacq, G. Van der Plas, S.
Donnay, B. Van Poucke, B. Gyselinckx, Ultra-wide-band transmitter for low-power wireless
body area networks: design and evaluation. IEEE Trans. Circuits Syst. I Regul. Pap. 52,
2515-2525 (2005)
13. K. Hyunseok, J. Young Joong, and J. Sungying, Digitally controllable bi-phase CMOS UWB
pulse generator. IEEE international conference on ultra-wideband, pp. 442-445, 2005
14. T. Norimatsu, R. Fujiwara, M. Kokubo, M. Miyazaki, A. Maeki, Y. Ogata, S. Kobayashi, N.
Koshizuka, K. Sakamura, A UWB-IR transmitter with digitally controlled pulse generator.
IEEE J. Solid-State Circuits 42, 1300-1309 (2007)
15. Z. Ming Jian, L. Bin, W. Zhao Hui, 20-pJ/Pulse 250 Mbps Low-complexity CMOS UWB
transmitter for 3-5 GHz applications. IEEE Microw. Wirel. Compon. Lett. 23, 158-160
(2013)
16. D. Baranauskas, D. Zelenin, A 0.36 W up to 20GS/s DAC for UWB wave formation. IEEE
international solid-state circuits conference, pp. 2380-2389, 2006
18. L. Lampe, K. Witrisal, Challenges and recent advances in IR-UWB system design, in IEEE
International Symposium on Circuits and Systems, pp. 3288-3291, June 2010
19. D. Barras, R. Meyer-Piening, G. von Bueren, W. Hirt, H. Jaeckel, A low-power baseband
ASIC
for
an
energy-collection
IR-UWB
receiver.
IEEE
J
Solid-State
Circuits
44(6),
1721,1733 (2009)
20. A. Gerosa, S. Soldà , A. Bevilacqua, D. Vogrig, A. Neviani, An energy-detector for
noncoherent impulse-radio UWB receivers. IEEE Trans. Circuits Syst. I Regul. Pap. 56(5),
1030-1040 (2009)
21. L. Jinjin, L. Jianan, S. Zhiyuan, A new transmitted reference based UWB receiver. Int. Conf.
Commun. Mobile Comput. 3, 97-101 (2010)
22. G. F. Tchere, P. Ubolkosold, S. Knedlik, O. Loffeld, Bit error performance of UWB
differential transmitted reference systems, in International Symposium on Communications
and Information Technologies, pp. 609-614, Sep 2006
23. K. Witrisal, G. Leus, G. Janssen, M. Pausini, F. Troesch, T. Zasowski, J. Romme,
Noncoherent ultra-wideband systems. IEEE Signal Process. Mag. 26, 48-66 (2009)
24. L. Zhou, Z. Chen, C. Wang, F. Tzeng, V. Jain, P. Heydari, A 2-Gb/s 130-nm CMOS RF-
correlation-based IR-UWB transceiver front-end. IEEE Trans. Microw. Theory Tech. 59(4),
1117-1130 (2011)
25. C. Geng, Y. Pei, W. Wen, Z. Luan, N. Ge, ASIC implementation of fractionally spaced Rake
receiver for high data rate UWB systems. Electron. Lett. 47(3), 215-217 (2011)
26. W.M. Lovelace, J.K. Townsend, The effects of timing jitter and tracking on the performance
of impulse radio. IEEE J. Sel. Areas Commun. 20, 1646-1651 (2002)
27. O. Mi-Kyung, J. Byunghoo, R. Harjani, P. Dong-Jo, A new noncoherent UWB impulse radio
receiver. IEEE Commun. Lett. 9, 151-153 (2005)
