This paper presents a dynamic characterization of a multilevel (ML) Chireix outphasing (ML-CO) power amplifier (PA) with modulated signals. The ML-CO technique combines the advantages of envelope tracking and outphasing architectures by limiting the supply modulation to discrete levels with an efficient power-DAC modulator and using outphasing for fine amplitude control. We describe an experimental test bench that supplies the required phase- and time-aligned modulated signals for outphasing and supply modulation simultaneously. Pulsed characterization is used to design an ML memoryless polynomial DPD. The linearized ML-CO GaN X-band MMIC PA is demonstrated with fixed input drive levels for 9.3-dB peak-to-average power ratio (PAPR), 1.4-MHz and 11.3-dB PAPR, 10-MHz LTE signals with a 9.7-GHz carrier. For both signals, the average total power consumption is reduced by a factor of two when supply modulation is used. An investigation of control signal generation strategies is presented, including combinations of discrete supply and continuous input modulation. A simple exponential function tracks the optimal efficiency trajectory of the ML-CO PA, enabling overall efficiency improvements within 9 and 27 percentage points. This control strategy is applied to radar pulses with amplitude shaping and frequency chirp, with the efficiency improvement of up to 11.8 percentage points compared with constant-supply operation, with 29-dB improvement in spectral confinement.

Cappello, T., Barton, T.W., Florian, C., Litchfield, M., Popovic, Z. (2017). Multilevel Supply-Modulated Chireix Outphasing With Continuous Input Modulation. IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES, 65(12), 5231-5243 [10.1109/TMTT.2017.2756038].

Multilevel Supply-Modulated Chireix Outphasing With Continuous Input Modulation

Florian, Corrado;
2017

Abstract

This paper presents a dynamic characterization of a multilevel (ML) Chireix outphasing (ML-CO) power amplifier (PA) with modulated signals. The ML-CO technique combines the advantages of envelope tracking and outphasing architectures by limiting the supply modulation to discrete levels with an efficient power-DAC modulator and using outphasing for fine amplitude control. We describe an experimental test bench that supplies the required phase- and time-aligned modulated signals for outphasing and supply modulation simultaneously. Pulsed characterization is used to design an ML memoryless polynomial DPD. The linearized ML-CO GaN X-band MMIC PA is demonstrated with fixed input drive levels for 9.3-dB peak-to-average power ratio (PAPR), 1.4-MHz and 11.3-dB PAPR, 10-MHz LTE signals with a 9.7-GHz carrier. For both signals, the average total power consumption is reduced by a factor of two when supply modulation is used. An investigation of control signal generation strategies is presented, including combinations of discrete supply and continuous input modulation. A simple exponential function tracks the optimal efficiency trajectory of the ML-CO PA, enabling overall efficiency improvements within 9 and 27 percentage points. This control strategy is applied to radar pulses with amplitude shaping and frequency chirp, with the efficiency improvement of up to 11.8 percentage points compared with constant-supply operation, with 29-dB improvement in spectral confinement.
2017
Cappello, T., Barton, T.W., Florian, C., Litchfield, M., Popovic, Z. (2017). Multilevel Supply-Modulated Chireix Outphasing With Continuous Input Modulation. IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES, 65(12), 5231-5243 [10.1109/TMTT.2017.2756038].
Cappello, Tommaso; Barton, Taylor W.; Florian, Corrado; Litchfield, Michael; Popovic, Zoya
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/616488
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