Title :
A 90-nm CMOS UWB Impulse Radio Transmitter With 30-dB In-Band Notch at IEEE 802.11a System
Author :
Hedayati, Hajir ; Entesari, Kamran
Author_Institution :
Dept. of Electr. & Comput. Eng., Texas A&M Univ., College Station, TX, USA
Abstract :
In spite of the FCC regulations, the coexistence of ultra-wideband (UWB) and narrowband (NB) systems is still an unsolved challenge. A UWB transmitter (TX) can severely degrade the performance of an IEEE 802.11a system. In this paper, a fully integrated analog impulse-radio UWB TX is presented that generates a novel UWB pulse with a tunable notch at the frequency of IEEE 802.11a system. The pulse has a 5.5-GHz bandwidth (BW), which makes it suitable for high-resolution high data-rate applications. The TX has a maximum pulse rate of 400 Mpulse/s and energy of 65 pJ/pulse with a power supply of 1.2 V. The measurement results show that the pulse has a 30-dB notch, and the TX power inside the BW of the NB system is less than -78 dBm/MHz. The TX has a biphase modulation and has been fabricated in a 90-nm CMOS process. The proposed pulse meets the Federal Communications Commission mask for UWB systems.
Keywords :
CMOS integrated circuits; phase modulation; radio transmitters; ultra wideband technology; wireless LAN; CMOS UWB impulse radio transmitter; FCC regulations; Federal Communications Commission mask; IEEE 802.11a system; NB system; UWB pulse; bandwidth 5.5 GHz; biphase modulation; fully integrated analog impulse-radio UWB TX; high-resolution high data-rate applications; in-band notch; narrowband systems; size 90 nm; tunable notch; ultrawideband system; voltage 1.2 V; Baseband; CMOS integrated circuits; FCC; Interference; MOSFET; Niobium; Pulse generation; Analog pulse generator; Gaussian monocycle pulse; Gaussian pulse; IEEE 802.11a; impulse radio; in-band interferer; local oscillator (LO) feed-through; notch; transmitter (TX); ultra-wideband (UWB);
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2013.2288591
