Title :
A highly stable timebase for subsampling systems using a fractional concept with short periodicity
Author :
Storch, Robert ; Musch, Thomas
Author_Institution :
Inst. of Electron. Circuit Design, Ruhr Univ. Bochum, Bochum, Germany
Abstract :
Concerning UWB applications a highly stable timebase is of great importance. Within this timebase a finely resoluted frequency synthesizer is used to generate two signals with a slight offset in frequency. In order to avoid the poor spectral performance of commercial direct digital synthesizers and to decrease the effort and costs in circuit design compared to a phase locked loop concept a new approach is presented within this paper. This concept utilizes two fractional-N frequency dividers with a short periodicity in division factor sequence. The resulting spurious signals are suppressed using a ceramic bandpass filter. The basic concept as well as a realization of the system are presented. Measurement results show a phase noise performance of -157 dBc/Hz @ 20kHz at a frequency of 5.35 MHz while having a frequency resolution well below 100 Hz.
Keywords :
band-pass filters; crystal filters; direct digital synthesis; frequency dividers; network synthesis; phase noise; ultra wideband technology; UWB application; ceramic bandpass filter; circuit design; direct digital synthesizer; division factor sequence; finely resoluted frequency synthesizer; fractional-N frequency divider; frequency 20 kHz; frequency 5.35 MHz; frequency resolution; highly stable timebase subsampling system; phase locked loop; phase noise performance; short periodicity; spurious signals suppression; Adders; Frequency conversion; Frequency modulation; Frequency synthesizers; Generators; Phase noise; Signal resolution; Digital synthesis; Fractional-N; Phase noise;
Conference_Titel :
Microwave Conference Proceedings (APMC), 2011 Asia-Pacific
Conference_Location :
Melbourne, VIC
Print_ISBN :
978-1-4577-2034-5
