Title :
RF impairments of vector modulators in wireless MIMO receivers
Author :
Eickhoff, Ralf ; Mayer, Uwe ; Wickert, Michael ; Ellinger, Frank
Author_Institution :
Tech. Univ. Dresden, Dresden, Germany
Abstract :
Multiple-input multiple-output (MIMO) systems enable significant improvements for the wireless links in communication networks. If parts of the spatial signal processing of these multiple antennas are executed in the analogue RF front-end, power consumption, system size and costs of the system are minimised but key benefits of MIMO can still be exploited. However, analogue RF circuits are affected by impairments. These effects are analysed and modelled for a direct down-conversion receiver using maximum ratio combining (MRC) in the RF front-end. The errors arising from silicon integration are modelled and their effect on the wireless communication system is analysed. It is shown that technology impairments of RF spatial signal processing do not limit the wireless link performance with respect to the received signal-to-noise-ratio (SNR) and the bit error rates (BER) in practical cases.
Keywords :
MIMO communication; antenna arrays; diversity reception; error statistics; modulators; radio links; radio receivers; signal processing; RF front end; analogue RF circuit; bit error rate; direct down conversion receiver; maximum ratio combining; multiple antenna; multiple input multiple output system; power consumption; signal to noise ratio; silicon integration; spatial signal processing; vector modulator; wireless MIMO Receiver; wireless communication network; wireless link; Baseband; MIMO; Power demand; Radio frequency; Receivers; Signal to noise ratio; MIMO radios; RF impairments; maximum ratio combining; spatial diversity; vector modulators;
Conference_Titel :
Future Network and Mobile Summit, 2010
Conference_Location :
Florence
Print_ISBN :
978-1-905824-16-8
