Title :
3 GS/s S-Band 10 Bit ADC on SiGeC Technology
Author :
Wingender, Marc ; Benn, Andrew
Author_Institution :
Specialized Semicond. Div., e2v, St. Egreve, France
Abstract :
In advanced applications such as digital radar, Ultra Wide Bandwidth communications and software defined radio, the need for instantaneous bandwidth often drives system design decisions. Access to high speed data converters enabling up and down conversion directly in the L Band and S Band removes the limit imposed by bandwidth scarcity and allows the design of flexible and simplified system architectures. Broadband ADC´s (Analogue to Digital Converters) are key enabling components which open up new design opportunities for digital Receiver systems. In this regard, this paper describes a new 10bit 3GS/s ADC with 5 GHz Bandwidth, based on a 200 GHz SiGeC bipolar Technology, which enables the direct digitizing of 1GHz arbitrary broadband waveforms directly in the high IF region closer to the Antenna (L-Band or S-Band).
Keywords :
UHF integrated circuits; analogue-digital conversion; bipolar MMIC; microwave receivers; radar receivers; ultra wideband radar; L band; S-band ADC; analogue-digital converters; antenna; bandwidth 5 GHz; bipolar technology; broadband ADC; digital radar; digital receiver systems; frequency 200 GHz; high-speed data converters; software defined radio; ultrawidebandwidth communications; up-down conversion; word length 10 bit; Analog-digital conversion; Application software; Bandwidth; Broadband antennas; Computer architecture; L-band; Radar applications; Software radio; Ultra wideband radar; Broadband instantaneous frequency capture; Development of next-generation broadband flexible radar systems; Direct sampling of arbitrary UWB signals in the L-Band or S-Band; Increased sampling rates; bandwidth and resolution;
Conference_Titel :
Radar Conference, 2010 IEEE
Conference_Location :
Washington, DC
Print_ISBN :
978-1-4244-5811-0
DOI :
10.1109/RADAR.2010.5494534
