Title :
Gain/phase imbalance-minimization techniques for LINC transmitters
Author :
Zhang, Xuejun ; Larson, Lawrence E. ; Asbeck, Peter M. ; Nanawa, Peter
Author_Institution :
Center for Wireless Commun., California Univ., San Diego, La Jolla, CA, USA
fDate :
12/1/2001 12:00:00 AM
Abstract :
Two simple calibration schemes for the correction of the path imbalance in a linear amplification with nonlinear components (LINC) transmitter have been demonstrated. In the foreground algorithm, a baseband digital signal processor (DSP) evaluates the gain and phase imbalance with a set of calibration signals, while in the background algorithm, the imbalance is characterized by exchanging the two LINC vector components. In both cases, the compensation of the path imbalance is accomplished within the DSP by introducing a predistortion term. A prototype LINC system has been tested for CDMA IS-95 baseband input, and -38 and -35-dBc adjacent channel interference were achieved for the foreground and background schemes, respectively. The quadrature errors of the in-phase/quadrature modulators set a limit on the overall performance of both algorithms
Keywords :
adjacent channel interference; calibration; code division multiple access; digital signal processing chips; mobile radio; power amplifiers; radio transmitters; radiofrequency amplifiers; CDMA IS-95; LINC transmitter; RF power amplifier; adjacent channel interference; background algorithm; baseband digital signal processor; calibration; compensation; foreground algorithm; gain imbalance minimization; in-phase modulator; linear amplification; mobile communication; nonlinear component; outphased power amplifier; phase imbalance minimization; predistortion; quadrature error; quadrature modulator; vector component; wireless communication; Baseband; Calibration; Digital signal processing; Digital signal processors; Predistortion; Prototypes; Signal processing; Signal processing algorithms; Transmitters; Vectors;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
