Title :
Amplifier linearization using RF feedback and feedforward techniques
Author :
Faulkner, Michael
Author_Institution :
Victoria Univ. of Technol., Melbourne, Vic., Australia
fDate :
2/1/1998 12:00:00 AM
Abstract :
The performance of feedback as a distortion reduction technique is highly dependent on the integrity of the feedback path. Any error or noise generated in this path is directly reflected into the output of the amplifier. Linearized RF power amplifiers (PAs) using Cartesian feedback require a demodulator in the feedback loop, and this is a potential source of linear errors, nonlinear errors, and noise. RF feedback with Cartesian compensation is proposed as a technique for overcoming some of these problems. The scheme is most suited to systems requiring an RF input. In addition, the RF nature of the input, feedback, and error signals enables the addition of a feedforward loop to further improve the linearization capability while still maintaining good efficiency. Design equations and simulation results are given for such a system. Disadvantages include the limited bandwidth (estimated at 1 MHz) and the need for additional circuits to generate the RF input signal when included in an integrated transmitter
Keywords :
electric distortion; feedback amplifiers; feedforward; interference suppression; linearisation techniques; power amplifiers; radio transmitters; radiofrequency amplifiers; Cartesian compensation; Cartesian feedback; RF feedback; RF input; amplifier linearization; demodulator; distortion reduction technique; feedback; feedback loop; feedforward loop; feedforward techniques; integrated transmitter; linear errors; linearization capability; linearized RF power amplifiers; nonlinear errors; performance; Circuit simulation; Demodulation; Equations; Feedback loop; Noise generators; Nonlinear distortion; Power amplifiers; RF signals; Radio frequency; Radiofrequency amplifiers;
Journal_Title :
Vehicular Technology, IEEE Transactions on
