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1
First Report and Order: Revision of Part 15 of the Commission's Rules regarding Ultra-Wideband Transmission Systems. Federal Communications Commission. [Online]. Available: http://hraunfoss.fcc.gov/edocs_public/attachmatch/FCC-02-48A1.pdf

2
A. Jha, F. Zhang, T.-L. Hsieh, R. Gharpurey, and P. Kinget, ``A Discrete-Time, Digital-IF, Interference-Robust Ultra-Wideband Pulse-Radio Transceiver Architecture,'' submitted to Trans. on Circuits & Syst. I: Regular Papers, 2008.

3
A. Jha and P. Kinget, ``Wideband Signal Synthesis using Interleaved Partial-order Hold Current-mode Digital-to-Analog Converters,'' IEEE Trans. Circuits & Syst. II: Express Briefs, pp. 1109-1113, Nov. 2008.

4
R. Bagheri, A. Mirzaei, S. Chehrazi et al., ``An 800-MHz-6-GHz Software-Defined Wireless Receiver in 90 nm CMOS,'' IEEE J. Solid-State Circuits, vol. 41, pp. 2860-2876, Dec. 2006.

5
L. R. Carley and T. Mukherjee, ``High-Speed Low-Power Integrating CMOS Sample-and-Hold Amplifier Architecture,'' in IEEE Custom Integrated Circuits Conf., 1995, pp. 543-546.

6
A. Jha, R. Gharpurey, and P. Kinget, ``A 3-to-5 GHz UWB Pulse Radio Transmitter in 90 nm CMOS,'' in Dig. of Papers IEEE RFIC Symp., Jun. 2008.

7
F. Zhang, A. Jha, R. Gharpurey, and P. Kinget, ``An Agile, Ultra-wideband Pulse Radio Transceiver with Discrete-Time Wideband-IF,'' to appear in J. of Solid-State Circuits, 2009.

8
D. D. Wentzloff and A. P. Chandrakasan, ``A 47 pJ/pulse 3.1-to-5 GHz All-Digital UWB Transmitter in 90 nm CMOS,'' in IEEE ISSCC Dig. of Tech. Papers, 2007, pp. 118-119.



Anuranjan Jha 2009-01-30