论文信息 - Optimization theory applied to dynamic biasing for power amplifier performance enhancement

Optimization theory applied to dynamic biasing for power amplifier performance enhancement

Driving the gate and drain biases as a function of the input power significantly enhances the efficiency of class-A and -AB amplifiers. These functions are described as low-order polynomials in order to limit the bias bandwidth, especially at the drain. This work formulates the optimization of the bias polynomial coefficients as a constrained optimization problem, describing in detail the formulation of the constraints, the structure of the cost function, as well as a relevant linearity measure. Using the random search algorithm within the field of stochastic search optimization, a set of solutions was obtained yielding power added efficiency nearly as high as 50%, while the linearity was comparable to that of a class-A amplifier.

M. Olavsbraten | K. M. Gjertsen | J. F. Miranda

[2] James C. Spall,et al. Introduction to stochastic search and optimization - estimation, simulation, and control , 2003, Wiley-Interscience series in discrete mathematics and optimization.

[3] F. Raab,et al. Power amplifiers and transmitters for RF and microwave , 2002 .

[5] N. Baba. Convergence of a random optimization method for constrained optimization problems , 1981 .

[6] Peter B. Kenington,et al. High-Linearity RF Amplifier Design , 2000 .

[7] S. Hietakangas,et al. Envelope tracking power amplifier with static predistortion linearization , 2009 .

[8] Grzegorz Ziomek,et al. Random search optimization approach for highly multi-modal nonlinear problems , 2005, Adv. Eng. Softw..

[9] Christian Fager,et al. Characterization of switched mode LDMOS and GaN power amplifiers for optimal use in polar transmitter architectures , 2008, 2008 IEEE MTT-S International Microwave Symposium Digest.

[10] Timo Rahkonen,et al. Envelope tracking power amplifier with static predistortion linearization , 2007, 2007 18th European Conference on Circuit Theory and Design.