Title :
High-Voltage High-Efficiency Ultrawideband Pulse Synthesizer
Author :
Fang, Chao ; Law, Choi L. ; Hwang, James
Author_Institution :
PWTC center, Nanyang Technol. Univ., Singapore, Singapore
Abstract :
A novel ultrawideband pulse synthesizer based on distributed amplifier topology is presented. The basic concept is to combine different delayed Gaussian pulses with both positive and negative polarities to form an UWB pulse. Compared to other ultrawideband pulse-formation methods, this method can have both high-efficiency and high-voltage output. The prototype circuit based on 0.25-??m pHEMT transistors is fabricated, and the fabricated pulse synthesizer consumes only 1-mA current under 5-V power supply with high energy efficiency of 10.1% at 10-MHz pulse repetition frequency (PRF). Measurement results show that with 1.5 -V amplitude and 240-ps Gaussian input pulse, the output pulse of the designed UWB pulse synthesizer is centered at 4 GHz with 4.5-V peak to peak amplitude (into 50-ohms load) and 1.0-ns duration at 50% of the peak pulse envelope.
Keywords :
HEMT circuits; distributed amplifiers; microwave amplifiers; pulse generators; ultra wideband technology; Gaussian pulses; UWB pulse synthesizer; current 1 mA; distributed amplifier topology; efficiency 10.1 percent; frequency 10 MHz; frequency 4 GHz; pHEMT transistors; pulse repetition frequency; size 0.25 mum; time 1 ns; time 240 ps; ultrawideband pulse synthesizer; voltage 1.5 V; voltage 5 V; Distributed amplifier; UWB pulse synthesizer; pulse shaping methods; ultrawideband (UWB);
Journal_Title :
Microwave and Wireless Components Letters, IEEE
DOI :
10.1109/LMWC.2009.2035966
