A single SiGe chip fractional-N 275 MHz - 20 GHz PLL with integrated 20 GHz VCO

A single SiGe chip fractional-N 275 MHz - 20 GHz PLL with integrated 20 GHz VCO

Broad band satellite communication makes high demands on linear low phase noise signals. One example is HDTV. For this application converters are required (e.g. from 30 GHz to 20 GHz), which themselves require very low phase noise programmable synthesizers (LO). Most satellite companies today derive...

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Hauptverfasser: Follmann, R., Kother, D., Kohl, T., Engels, M., Podrebersek, T., Heyer, V., Schmalz, K., Herzel, F., Winkler, W., Osmany, S., Jagdhold, U.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
CMOS
Connectors
downconverter
mixed signal
Phase locked loops
Phase noise
PLL
Radiation detectors
satellite applications
Satellites
SiGe
Silicon germanium
synthesizer
VCO
Voltage-controlled oscillators
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Zusammenfassung:Broad band satellite communication makes high demands on linear low phase noise signals. One example is HDTV. For this application converters are required (e.g. from 30 GHz to 20 GHz), which themselves require very low phase noise programmable synthesizers (LO). Most satellite companies today derive their 10 GHz LOs from multiplying a 100 MHz crystal oscillator again and again. Due to the arising sub-harmonics excessive filtering is required. Thus, today's satellite LOs are large and quite heavy in weight. In this paper we demonstrate a single chip SiGe integrated fractional-N PLL, which can either be used with the internal integrated VCO between 18.5 and 20.0 GHz or with any external VCO between 275 MHz...20 GHz. The LO presented fulfills the high demands on phase noise for satellite applications. Furthermore, first radiation hardness steps such as triple model redundancy have already been implemented.
ISSN:0149-645X
2576-7216
DOI:10.1109/MWSYM.2008.4633176