Achieving optimal efficiency in FET-based power amplifiers used in envelope tracking (ET) architectures can be difficult, mainly due to the dynamic variation of drain-to-source capacitance (Cds) with applied drain voltage. If, for example class-F or inverse class-F high-efficiency modes are used, there is clearly a motivation to maintain devices in high-efficient states, over as much of the dynamic range as possible, where the operating supply voltage varies quite dramatically. In order to identify optimal matching solutions, the optimum fundamental and harmonic impedances need to be determined and understood at different drain voltages (Vds). Using time-domain waveform measurements and active harmonic load-pull at the device current genera...
Power amplifiers are important parts in communication systems. They are often used at the end of the...
It is often desirable to measure device characteristics under non-continuous operation, perhaps to b...
The manuscript details a harmonically-tuned power amplifier design methodology, that is based on the...
Starting from the mathematical bases of waveform engineering, this contribution demonstrates the eff...
This thesis brings together different areas of waveform engineering in power amplifier research, fr...
This paper presents a methodology that provides rapid estimation of the parameters necessary for the...
International audienceOne of the most important requirements that RF and microwave power amplifiers ...
Complex and spectrally efficient modulation schemes present a power-efficiency challenge to base sta...
International audienceDue to the large expansion of wireless communications, the need for high-effic...
The requirements to output network's impedance on higher harmonic components and appropriate input d...
High-performance class-D audio amplifiers have seen application in many modern consumer electronic d...
Typically performance maxima in terms of output power, efficiency, etc. are determined from analyzin...
This thesis is about the design and production of a class AB power amplifier, gate tracker circuit a...
This paper demonstrates that by robust waveform engineering it is possible for high power Si LDMOS t...
Power amplifiers are important parts in communication systems. They are often used at the end of the...
It is often desirable to measure device characteristics under non-continuous operation, perhaps to b...
The manuscript details a harmonically-tuned power amplifier design methodology, that is based on the...
Starting from the mathematical bases of waveform engineering, this contribution demonstrates the eff...
This thesis brings together different areas of waveform engineering in power amplifier research, fr...
This paper presents a methodology that provides rapid estimation of the parameters necessary for the...
International audienceOne of the most important requirements that RF and microwave power amplifiers ...
Complex and spectrally efficient modulation schemes present a power-efficiency challenge to base sta...
International audienceDue to the large expansion of wireless communications, the need for high-effic...
The requirements to output network's impedance on higher harmonic components and appropriate input d...
High-performance class-D audio amplifiers have seen application in many modern consumer electronic d...
Typically performance maxima in terms of output power, efficiency, etc. are determined from analyzin...
This thesis is about the design and production of a class AB power amplifier, gate tracker circuit a...
This paper demonstrates that by robust waveform engineering it is possible for high power Si LDMOS t...
Power amplifiers are important parts in communication systems. They are often used at the end of the...
It is often desirable to measure device characteristics under non-continuous operation, perhaps to b...
The manuscript details a harmonically-tuned power amplifier design methodology, that is based on the...