Add to ORKGIn the last decades wireless communications has been growing tremendously and given that the trend will most likely continue at a cumulative pace it is imperative that in the future, the transceivers designed need to operate at a near ideal energy efficiency on new frequency bands demanded by the 5G standard. Since transmitters are the corner stone of any wireless communication systems and that power amplifier (PA) is a high power consuming device within it. It is evident that the design of a highly efficient PA might tackle the significant portion of power loss within RF and microwave systems. The design of PA proposed in this work is aimed at dual band frequencies based on the LTE standards of LTE 42 and LTE 43 having range of 3.4 GHz to ...
In the future communication systems, it is of key importance that the transceivers are capable of op...
In this paper, class E power amplifiers (PA) aimed at frequency bandwidth of 3.4 GHz to 3.6 GHz (LTE...
In this paper, class E power amplifiers (PA) aimed at frequency bandwidth of 3.4 GHz to 3.6 GHz (LTE...
The Power Amplifier is the most challenging module of a wireless network to design and it is the hig...
The rapid evolution of wireless communication systems and the developmentof new standards require th...
The low efficiency of existing power amplifiers (PAs) is causing excessive energy consumption in wir...
The purpose of this thesis is to analyze a transistor under multi-band operation and investigate how...
This work presents a 28/38 GHz dual-band power amplifier (PA) for fifth-generation (5G) communicatio...
In retrospect we can see that from the last century, wireless electronic technology has been in a ra...
Over the years, the wireless communication market has experienced remarkable development since the f...
This thesis explores Power Amplifier (PA) architectures for Radio Frequency (RF) front-ends of trans...
This work presents a broadband power amplifier in S-band in microstrip technology. The proposed powe...
Recently, the design of RF power amplifiers (PAs) for modern wireless systems are faced with a diffi...
This thesis discusses the design, fabrication, and testing of a high efficiency, dual band radio fre...
To meet the demand of achieving a multi-Gbps data-rate for the next-generation wireless local area n...
In the future communication systems, it is of key importance that the transceivers are capable of op...
In this paper, class E power amplifiers (PA) aimed at frequency bandwidth of 3.4 GHz to 3.6 GHz (LTE...
In this paper, class E power amplifiers (PA) aimed at frequency bandwidth of 3.4 GHz to 3.6 GHz (LTE...
The Power Amplifier is the most challenging module of a wireless network to design and it is the hig...
The rapid evolution of wireless communication systems and the developmentof new standards require th...
The low efficiency of existing power amplifiers (PAs) is causing excessive energy consumption in wir...
The purpose of this thesis is to analyze a transistor under multi-band operation and investigate how...
This work presents a 28/38 GHz dual-band power amplifier (PA) for fifth-generation (5G) communicatio...
In retrospect we can see that from the last century, wireless electronic technology has been in a ra...
Over the years, the wireless communication market has experienced remarkable development since the f...
This thesis explores Power Amplifier (PA) architectures for Radio Frequency (RF) front-ends of trans...
This work presents a broadband power amplifier in S-band in microstrip technology. The proposed powe...
Recently, the design of RF power amplifiers (PAs) for modern wireless systems are faced with a diffi...
This thesis discusses the design, fabrication, and testing of a high efficiency, dual band radio fre...
To meet the demand of achieving a multi-Gbps data-rate for the next-generation wireless local area n...
In the future communication systems, it is of key importance that the transceivers are capable of op...
In this paper, class E power amplifiers (PA) aimed at frequency bandwidth of 3.4 GHz to 3.6 GHz (LTE...
In this paper, class E power amplifiers (PA) aimed at frequency bandwidth of 3.4 GHz to 3.6 GHz (LTE...