Title :
Deembedding static nonlinearities and accurately identifying and modeling memory effects in wide-band RF transmitters
Author :
Liu, Taijun ; Boumaiza, Slim ; Ghannouchi, Fadhel M.
Author_Institution :
Electr. Eng. Dept., Ecole Polytechnique de Montreal, Que., Canada
Abstract :
In this paper, a robust modeling technique for memoryless wide-band radio frequency transmitters using a dynamic exponential weighted moving average algorithm is developed and tested. To improve the relatively limited accuracy of the conventional Wiener model in predicting the response of dynamic nonlinear transmitters, a new augmented Wiener model is proposed along with its parameter-identification procedure. The accuracy of the augmented Wiener model is compared with that of the conventional Wiener model by using an L-band 60-W peak-envelope-power GaAs field-effect-transistor push-pull amplifier-based transmitter, which is driven by a two-carrier wide-band code-division multiple-access signal.
Keywords :
UHF integrated circuits; broadband networks; code division multiple access; differential amplifiers; gallium arsenide; moving average processes; radio transmitters; wideband amplifiers; 60 W; GaAs; L band; Wiener model; code division multiple access signal; dynamic exponential weighted moving average algorithm; dynamic nonlinear transmitters; field effect transistor; memoryless wide band RF transmitters; parameter identification; push pull amplifier; Broadband amplifiers; Gallium arsenide; L-band; Predictive models; Radio frequency; Radio transmitters; Radiofrequency identification; Robustness; Testing; Wideband; Augmented Wiener model; Wiener model; dynamic exponential weighted moving average; memory effects; wide-band transmitters;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2005.857105
