Modern mobile communication signals require power amplifiers able to maintain very high efficiency in a wide range of output power levels, which is a major issue for classical power amplifier architectures. Following the load-modulation approach, efficiency enhancement is achieved by dynamically changing the amplifier load impedance as a function of the input power. In this paper, a review of the widely-adopted Doherty power amplifier and of the other load-modulation efficiency enhancement techniques is presented. The main theoretical aspects behind each method are introduced, and the most relevant practical implementations available in recent literature are reported and discusse
The RF power amplifier (PA) is a unit in wireless transmitters that strengthens the signal to combat...
This paper presents the design and characterization of a load modulated balanced amplifier for telec...
The low efficiency of existing power amplifiers (PAs) is causing excessive energy consumption in wir...
Modern mobile communication signals require power amplifiers able to maintain very high efficiency i...
Modern mobile communication signals require power amplifiers able to maintain very high efficiency i...
This dissertation focuses on the development of active load-modulation techniques to improve back-of...
DoctorAs the wireless communication systems evolve, the systems need to transmit a large amount of d...
High efficiency is an essential requirement for any system, where the energy can be saved with ful...
yesThis paper describes the characterization and design of energy efficient user terminal tran...
MasterThe mobile communication systems have evolved at a very fast rate recently due to the advent o...
In future mobile communication networks, there will be a shift toward higher carrier frequencies and...
This thesis presents state-of-the-art high efficiencyharmonically-tuned power amplifiers (PAs) and i...
The increasing demand for mobile data traffic has put new challenges and requirements for the develo...
Due to the high peak to average power ratio (PAPR) of modern modulated signals, power amplifiers (PA...
In this paper, an extensive review of the most up-to-date papers on microwave Doherty power amplifie...
The RF power amplifier (PA) is a unit in wireless transmitters that strengthens the signal to combat...
This paper presents the design and characterization of a load modulated balanced amplifier for telec...
The low efficiency of existing power amplifiers (PAs) is causing excessive energy consumption in wir...
Modern mobile communication signals require power amplifiers able to maintain very high efficiency i...
Modern mobile communication signals require power amplifiers able to maintain very high efficiency i...
This dissertation focuses on the development of active load-modulation techniques to improve back-of...
DoctorAs the wireless communication systems evolve, the systems need to transmit a large amount of d...
High efficiency is an essential requirement for any system, where the energy can be saved with ful...
yesThis paper describes the characterization and design of energy efficient user terminal tran...
MasterThe mobile communication systems have evolved at a very fast rate recently due to the advent o...
In future mobile communication networks, there will be a shift toward higher carrier frequencies and...
This thesis presents state-of-the-art high efficiencyharmonically-tuned power amplifiers (PAs) and i...
The increasing demand for mobile data traffic has put new challenges and requirements for the develo...
Due to the high peak to average power ratio (PAPR) of modern modulated signals, power amplifiers (PA...
In this paper, an extensive review of the most up-to-date papers on microwave Doherty power amplifie...
The RF power amplifier (PA) is a unit in wireless transmitters that strengthens the signal to combat...
This paper presents the design and characterization of a load modulated balanced amplifier for telec...
The low efficiency of existing power amplifiers (PAs) is causing excessive energy consumption in wir...