论文信息 - Effect of input second harmonic control for saturated amplifier

Effect of input second harmonic control for saturated amplifier

Effect of the input second harmonic control on saturated amplifier is investigated. With only nonlinear input capacitor, the proper phase relationship between fundamental and second harmonic currents for the half-sinusoidal voltage waveform can be achieved at the expense of the enlarged conduction angle. However, with both input and output nonlinear capacitors, the output capacitor, which generates a lot of second harmonic with small higher harmonics, can be employed for the half-sinusoidal voltage shaping. Thus, the input second harmonic can be terminated to reduce the conduction angle for high efficiency. The effect of the input second harmonic control is validated using simplified and real device models. Based on the strategy for the harmonic control, a high-efficiency saturated amplifier is implemented at 3.5 GHz, delivering a power-added efficiency of 78.5% at a saturated output power of 38.2 dBm.

[1] Bumman Kim,et al. Investigation of a Class-J Power Amplifier With a Nonlinear $C_{\rm out}$ for Optimized Operation , 2010, IEEE Transactions on Microwave Theory and Techniques.

[2] Franco Giannini,et al. Theoretical facet and experimental results of harmonic tuned PAs , 2003 .

[3] Jangheon Kim,et al. Saturated Power Amplifier Optimized for Efficiency Using Self-Generated Harmonic Current and Voltage , 2011, IEEE Transactions on Microwave Theory and Techniques.

[4] Yorito Ota,et al. Source second-harmonic control for high efficiency power amplifiers , 1995 .

[5] P. Colantonio,et al. An approach to harmonic load- and source-pull measurements for high-efficiency PA design , 2004, IEEE Transactions on Microwave Theory and Techniques.