Title :
V-band six-port quadrature demodulator : Error Vector Magnitude analysis
Author :
Hannachi, C. ; Moldovan, E. ; Tatu, S.O. ; Ouardirhi, Z.
Author_Institution :
Inst. Nat. de la Rech. Sci.-EMT, Montréal, QC, Canada
Abstract :
Direct conversion quadrature demodulator analysis based on recently fabricated V-band six-port circuit operating over 60 GHz band is presented in this paper. In order to obtain realistic system simulation results, the computer model of the six-port demodulator is implemented using Advanced Design System (ADS) software and S-parameter measurements of the integrated six-port circuit on thin alumina substrate. The performance of the proposed model is characterized in terms of the Error Vector Magnitude (EVM) for various M-PSK/M-QAM modulated signals. Very good demodulation results have been obtained over a 5 GHz band, from 60 to 65 GHz. These results provide further evidence that the six-port quadrature demodulator is a successful approach for homodyne or heterodyne transceivers designed for high-speed short-range wireless communication systems, such as today´s WiGig or future millimeter wave 5G.
Keywords :
S-parameters; demodulation; demodulators; error analysis; phase shift keying; quadrature amplitude modulation; transceivers; ADS software; EVM; M-PSK-M-QAM modulated signals; S-parameter measurements; V-band six-port circuit; WiGig; advanced design system software; computer model; demodulation; direct conversion quadrature demodulator analysis; error vector magnitude analysis; frequency 60 GHz to 65 GHz; future millimeter wave 5G; heterodyne transceivers; high-speed short-range wireless communication systems; homodyne transceivers; integrated six-port circuit; realistic system simulation results; six-port demodulator; six-port quadrature demodulator; thin alumina substrate; Computational modeling; Computers; Demodulation; Integrated circuit modeling; Microwave circuits; Receivers; direct conversion; error analysis; millimeter wave circuits; quadrature demodulation; six-port;
Conference_Titel :
Millimeter Waves (GSMM), 2015 Global Symposium On
Conference_Location :
Montreal, QC
DOI :
10.1109/GSMM.2015.7175109
