Global ETD Search

181	Design and implementation of adaptive baseband predistorter for OFDM nonlinear transmitter : simulation and measurement of OFDM transmitter in presence of RF high power amplifier nonlinear distortion and the development of adaptive digital predistorters based on Hammerstein approach Sadeghpour Ghazaany, Tahereh January 2011 (has links) The objective of this research work is to investigate, design and measurement of a digital predistortion linearizer that is able to compensate the dynamic nonlinear distortion of a High Power Amplifier (PA). The effectiveness of the proposed baseband predistorter (PD) on the performance of a WLAN OFDM transmitter utilizing a nonlinear PA with memory effect is observed and discussed. For this purpose, a 10W Class-A/B power amplifier with a gain of 22 dB, operated over the 3.5 GHz frequency band was designed and implemented. The proposed baseband PD is independent of the operating RF frequency and can be used in multiband applications. Its operation is based on the Hammerstein system, taking into account PA memory effect compensation, and demonstrates a noticeable improvement compared to memoryless predistorters. Different types of modelling procedures and linearizers were introduced and investigated, in which accurate behavioural models of Radio Frequency (RF) PAs exhibiting linear and nonlinear memory effects were presented and considered, based on the Wiener approach employing a linear parametric estimation technique. Three new linear methods of parameter estimation were investigated, with the aim of reducing the complexity of the required filtering process in linear memory compensation. Moreover, an improved wiener model is represented to include the nonlinear memory effect in the system. The validity of the PA modelling approaches and predistortion techniques for compensation of nonlinearities of a PA were verified by several tests and measurements. The approaches presented, based on the Wiener system, have the capacity to deal with the existing trade-off between accuracy and convergence speed compared to more computationally complex behavioural modelling algorithms considering memory effects, such as those based on Volterra series and Neural Networks. In addition, nonlinear and linear crosstalks introduced by the power amplifier nonlinear behaviour and antennas mutual coupling due to the compact size of a MIMO OFDM transmitter have been investigated. 621.382
182	Energy efficient radio frequency system design for mobile WiMax applications : modelling, optimisation and measurement of radio frequency power amplifier covering WiMax bandwidth based on the combination of class AB, class B, and C operations Hussaini, Abubakar Sadiq January 2012 (has links) In today's digital world, information and communication technology accounts for 3% and 2% of the global power consumption and CO2 emissions respectively. This alarming figure is on an upward trend, as future telecommunications systems and handsets will become even more power hungry since new services with higher bandwidth requirements emerge as part of the so called 'future internet' paradigm. In addition, the mobile handset industry is tightly coupled to the consumer need for more sophisticated handsets with greater battery lifetime. If we cannot make any significant step to reducing the energy gap between the power hungry requirements of future handsets, and what battery technology can deliver, then market penetration for 4G handsets can be at risk. Therefore, energy conservation must be a design objective at the forefront of any system design from the network layer, to the physical and the microelectronic counterparts. In fact, the energy distribution of a handset device is dominated by the energy consumption of the RF hardware, and in particular the power amplifier design. Power amplifier design is a traditional topic that addresses the design challenge of how to obtain a trade-off between linearity and efficiency in order to avoid the introduction of signal distortion, whilst making best use of the available power resources for amplification. However, the present work goes beyond this by investigating a new line of amplifiers that address the green initiatives, namely green power amplifiers. This research work explores how to use the Doherty technique to promote efficiency enhancement and thus energy saving. Five different topologies of RF power amplifiers have been designed with custom-made signal splitters. The design core of the Doherty technique is based on the combination of a class B, class AB and a class C power amplifier working in synergy; which includes 90-degree 2-way power splitter at the input, quarter wavelength transformer at the output, and a new output power combiner. The frequency range for the amplifiers was designed to operate in the 3.4 - 3.6 GHz frequency band of Europe mobile WiMAX. The experimental results show that 30dBm output power can be achieved with 67% power added efficiency (PAE) for the user terminal, and 45dBm with 66% power added efficiency (PAE) for base stations which marks a 14% and 11% respective improvement over current stateof- the-art, while meeting the power output requirements for mobile WiMAX applications. 621.381
183	Prédistorsion analogique pour amplificateurs de puissance en bande Ku (13,75 - 14,5 GHz) / Analog predistortion for high power amplifier over the Ku-band (13,75 - 14,5 GHz) Mallet, Clément 12 October 2018 (has links) Les travaux présentés dans ce mémoire de thèse portent sur la linéarisation large bande d'amplificateurs de puissance par prédistorsion analogique. Ce travail vise à réduire la pollution spectrale provoquée par leur comportement non-linéaire lors d'une transmission satellite. Ce travail de thèse débute par une présentation des amplificateurs de puissance utilisés dans les émetteurs, en exposant les conséquences de leur comportement non-linéaire sur la qualité du signal. Pour pallier à cela, les techniques de linéarisation couramment utilisées ont été recensées, en mettant l'accent sur leurs avantages et inconvénients. C'est sur la base de cet état de l'art qu'une structure de prédistorsion analogique a pu être identifiée. Il s'agit d'une structure en réflexion à base de diodes Schottky, dont une partie de ce mémoire est consacrée à l'analyse de leur comportement non-linéaire. Appuyée par des résultats de simulations et des mesures effectuées sur maquettes, cette analyse nous a conduit à la mise en œuvre de la structure en réflexion dans le cadre de la linéarisation d'un amplificateur à tube à onde progressive (ATOP) en bande Ku. Nos travaux se sont ensuite tournés vers une nouvelle structure plus innovante, basée sur la mise en cascade de deux circuits de prédistorsion. La structure proposée bénéficie d'une configuration plus flexible et plus précise que la précédente, ce qui nous a permis d'obtenir de meilleurs résultats en matière d'amélioration de la linéarité. La dernière partie de ce travail de thèse est dédiée à l'approche expérimentale de deux méthodes numériques de prédistorsion en bande de base. L'intérêt de cette approche repose sur l'évaluation expérimentale de l'amélioration possible de la linéarité de l'ATOP et la comparaison avec les résultats obtenus par prédistorsion analogique. / The research reported in this PhD Thesis is focused on power amplifier wideband linearization by analog predistortion. This work aims to reduce the spectral regrowth due to their nonlinear response over the satellite transmission. This dissertation starts with a presentation of power amplifiers used in transmitters. Through it, we expose their nonlinearity effects on the signal quality. To overcome those effects, the lattest linearization methods were reviewed, highlighting their strengths and weaknesses. Based on this state of art, an analog predistortion structure was identified. It relates to a reflective structure made up of Schottky diodes, of which a part of this thesis is devoted to the analysis of its nonlinear behavior. Drawn on simulations and measurements, this analysis led us to the implementation of the reflective structure for the purpose of a traveling wave tube amplifier linearization over the Ku band. Our work was then directed towards to a new more innovative structure built on two predistortion circuits wired in series. This new structure gets a more flexible and accurate configuration compared to the previous one and allowed us to obtain better results regarding linearity improvement. The last part of this thesis work is dedicated to an experimental approach of two base band digital predistortion methods. The aim of this approach rests on the achievable enhancement of TWTA linearity and the comparison between the results obtained with the analog predistortion. Amplificateur de puissance Atop Linéarisation large bande Prédistorsion analogique Diode Schottky Power amplifier Twta Wideband linearization Analog predistortion Schottky diode 537.5 621.381
184	Conception d’un amplificateur de puissance reconfigurable en CMOS nanométrique pour les applications LTE dans les drones / Design of a reconfigurable power amplifier on 65nm CMOS for LTE applications in drones Luong, Giap 20 July 2018 (has links) Les véhicules aériens sans pilote (UAV), souvent appelés drones, trouvent de nombreuses applications dans la vie. Les applications de drones nécessitent plusieurs indicateurs de performance essentiels tels que la couverture, la force du signal, la latence et la mobilité dans des scénarios. Par conséquent, l'utilisation des communications sans fil dans les drones est essentielle pour répondre à toutes les exigences. En raison des connexions au haut débit entre les drones et les utilisateurs pour transférer des données de haut volume à haute résolution, les dernières générations sans fil, comme la norme LTE, sont privilégiées. Il est évident que l'intégration de blocs de radiofréquence (RF) est essentielle pour construire un système sur puce et réduire la taille des drones. Dans ce contexte, cette thèse vise à développer un amplificateur de puissance (PA) innovant avec haute performance reconfigurable entièrement intégré qui adresse les différents besoins imposés par le standard LTE à utiliser dans les applications des UAV. Le PA entièrement intégré en CMOS 65 nm a pour objectif de fournir une puissance de sortie élevée et résoudre le compromis entre la linéarité et l’efficacité. Un transformateur à quatre enroulements est implémenté pour configurer le fonctionnement en multi modes du PA. La technique « segmented bias » permet au PA d’améliorer la linéarité. Le PA obtient non seulement des performances élevées en RF, mais démontre également un potentiel pour l'adopter dans la bande 5G inférieure. / Unmanned aerial vehicles (UAVs), often known as drones, have been finding numerous applications in life. Drones applications need several essential performance indicators such as coverage, signal strength, latency, and mobility under scenarios. Therefore, the use of wireless communications in drones is critical to address all requirements. Because of high-speed connections between drones and users to transfer high-resolution high-volume data, latest wireless generations, namely the LTE standard, are privileged. It is straightforward that the integration of RF blocks is essential to build a system-on-chip and shrink the size of drones. To answer the above question, this thesis aims to develop a fully integrated reconfigurable high-performance innovated PA that supports 4G LTE standard to be used in UAVs’ applications. The fully integrated 65-nm CMOS power amplifier (PA) provides a watt-level output power, addresses the linearity/efficiency trade-off. A four-winding transformer is implemented to configure the multi-mode operation of the PA. The “segmented bias” technique allows the PA to increase the linearity. The PA not only obtains high radiofrequency performances but also demonstrates a potential to adopt it design in the lower 5G band. Amplificateur de puissance CMOS Polarisation segmentée 4G Drones Transformateur Combinaison de puissance Technique de linéarisation Power Amplifier CMOS Segmented bias 4G Drones Transformer Power combining Linearization technique
185	Développement de bancs de tests dédiés à la modélisation comportementale d’ampliﬁcateurs de puissance RF et micro-ondes / Development of test benches dedicated to the behavioral modeling of RF and microwave power ampliﬁers Gapillout, Damien 15 November 2017 (has links) Le travail présenté dans ce manuscrit a pour objet l’étude et le développement d’un banc de caractérisation généraliste appliqué à l’extraction du modèle comportemental d’ampliﬁcateur TPM-NIM (Two-Path Memory Nonlinear Integral). Ce modèle qui dispose d’une des architectures les plus abouties au laboratoire XLIM requiert une instrumentation microonde haut de gamme, très onéreuse, hors de portée de la majorité des concepteurs pour sa mise en œuvre expérimentale. L’objectif est donc de proposer des principes de mesure originaux permettant d’identiﬁer le modèle TPM-NIM avec une instrumentation standard. Dans ces travaux, deux bancs sont présentés : tout d’abord, un banc de caractérisation développé autour d’une instrumentation de pointe disposant des meilleures propriétés pour extraire le modèle. Puis, un banc construit autour d’une instrumentation standard mais incluant des méthodes de traitement et de mesure novatrices. Ces deux bancs ont été utilisés avec plusieurs véhicules de tests et il ressort que le second permet de diminuer le bruit des mesures de phase tout en réduisant le coût total des équipements. Enﬁn, une dernière partie est consacrée à la comparaison du modèle TPM-NIM avec deux modèles comportementaux classiques mettant en avant sa polyvalence. / The work presented in this manuscript is devoted to the study and development of a general characterization bench applied to the extraction of the TPM-NIM (Two-Path Memory Nonlinear Integral) ampliﬁer behavioral model. This model, has one of the most advanced architectures at the XLIM laboratory. It requires a high-end microwave instrumentation, overpriced and beyond reach for most of the designers for its experimental implementation. The aim is to propose some original measurements principles allowing the TPM-NIM model’s identiﬁcation with a standard instrumentation. Two benches are presented in these works : ﬁrstly, a characterization bench, developed using a high performance instrumentation with the best properties to extract the model. Then, a bench, built with a standard instrumentation but through innovative processing and measurement methods. These two benches have been used with several test vehicles and it appears that the second one decreases the noise of phase measurements while reducing the equipment’s total cost. Finally, a last part is dedicated to the comparison of the TPM-NIM model with two classic behavioral models by emphasizing its versatility. Amplificateur de puissance Modélisation comportementale Séries de Volterra Mémoire non-linéaire Banc de mesure NVNA VNA Power amplifier Behavioral modeling Volterra series Nonlinear memory Measurement setup NVNA VNA 621.381 535
186	Dynamic nonlinear pre-distortion of signal generators for improved dynamic range Jawdat, Suzan January 2009 (has links) <p>In this thesis, a parsimoniously parameterized digital predistorter is derived for linearization of the IQ modulation mismatch and the amplifier imperfection in the signal generator [1]. It is shown that the resulting predistorter is linear in its parameters, and thus they may be estimated by the method of least-squares. Spectrally pure signals are an indispensable requirement when the signal generator is to be used as part of a test bed. Due to the non-linear characteristic of the IQ modulator and power amplifier, distortion will be present at the output of the signal generator. The device under test was the IQ modulation mismatch and power amplifier deficiencies in the signal generator.</p><p>In [2], the dynamic range of low-cost signal generators are improved by employing model based digital pre-distortion and the designed predistorter seems to give some improvement of the dynamic range of the signal generator.</p><p>The goal of this project is to implement and verify the theory parts [1] using data program (Matlab) to improve the dynamic range of the signal generator. The design digital pre-distortion that is implemented in software so that the dynamic range of the signal generator output after predistortion is superior to that of the output prior to it. In this project, we have observed numerical<strong> </strong>problems in the proposed theory and we have found other methods to solve the problem.</p><p>The polynomial model is commonly used in power amplifier modeling and predistorter design. However, the conventional polynomial model exhibits numerical instabilities when higher order terms are included, we have used the conventional and orthogonal polynomial models. The result shows that the orthogonal polynomial model generally yield better power amplifier modeling accuracy as well as predistortion linearization performance then the conventional polynomial model.</p> Predistortion IQ imbalance Predistortion mirror distortion Power amplifier deficiencies Parsimonious predistorter structures Predistorter properties Telecommunication Telekommunikation
187	Dynamic load modulation Almgren, Björn January 2007 (has links) <p>The purpose of this master thesis was to study if the drain efficiency of power amplifiers can be maintained at power back off using a technique called load modulation.</p><p>The amplifier classes studied are E, F and D-1. The target figure was to obtain a 10 to 12 dB dynamic range of amplitude with reasonable efficiency. Studies of power amplifiers have been made to understand how power is generated. Several different load modulation networks have been evaluated. Attempts to derive design equations for the modulation networks have also been done.</p><p>The thesis work was carried out with simulations in ADS 2006. As active devices commercially available bare-die transistor models have been used. The power rating of the dies are 15 W.</p><p>A dynamic range of amplitude of over 15 dB has been achieved with drain efficiency greater than 60 percent. The peak output power is in the 40 – 45 dBm range.</p> load modulation load tracking power added efficiency high efficiency PA power amplifier switch mode switching dlm lm et envelope tracking modulation load efficiency PAE Electronics Elektronik
188	Low-power, high-efficiency, and high-linearity CMOS millimeter-wave circuits and transceivers for wireless communications Juntunen, Eric A. 26 April 2012 (has links) This dissertation presents the design and implementation of circuits and transceivers in CMOS technology to enable many new millimeter-wave applications. A simple approach is presented for accurately modeling the millimeter-wave characteristics of transistors that are not fully captured by contemporary parasitic extraction techniques. Next, the integration of a low-power 60-GHz CMOS on-off keying (OOK) receiver in 90-nm CMOS for use in multi-gigabit per second wireless communications is demonstrated. The use of non-coherent OOK demodulation by a novel demodulator enabled a data throughput of 3.5 Gbps and resulted in the lowest power budget (31pJ/bit) for integrated 60-GHz CMOS OOK receivers at the time of publication. Also presented is the design of a high-power, high-efficiency 45-GHz VCO in 45-nm SOI CMOS. The design is a class-E power amplifier placed in a positive feedback configuration. This circuit achieves the highest reported output power (8.2 dBm) and efficiency (15.64%) to date for monolithic silicon-based millimeter-wave VCOs. Results are provided for the standalone VCO as well as after packaging in a liquid crystal polymer (LCP) substrate. In addition, a high-power high-efficiency (5.2 dBm/6.1%) injection locked oscillator is presented. Finally, the design of a 2-channel 45-GHz vector modulator in 45-nm SOI CMOS for LINC transmitters is presented. A zero-power passive IQ generation network and a low-power Gilbert cell modulator are used to enable continuous 360° vector generation. The IC is packaged with a Wilkinson power combiner on LCP and driven by external DACs to demonstrate the first ever 16-QAM generated by outphasing modulation in CMOS in the Q-band. CMOS Millimeter-wave Transceiver 60-GHz Power amplifier PA VCO Class-E OOK Wireless communication systems Millimeter wave communication systems Millimeter wave devices
189	CMOS radio-frequency power amplifiers for multi-standard wireless communications Kim, Hyungwook 23 May 2011 (has links) The development of multi-standard wireless communication systems with low cost and high integration is continuously requested and accompanied by the explosive growth of the wireless communication market. Although CMOS technology can provide most building blocks in RF transceivers, the implementation of CMOS RF power amplifiers is still a challenging task. The objective of this research is to develop design techniques to implement fully-integrated multi-mode power amplifiers using CMOS technology. In this dissertation, a load modulation technique with tunable matching networks and a pre-distortion technique in a multi-stage PA are proposed to support multi-communication standards with a single PA. A fully-integrated dual-mode GSM/EDGE PA was designed and implemented in a 0.18 um CMOS technology to achieve high output power for the GSM application and high linearity for the EDGE application. With the suggested power amplifier design techniques, fully-integrated PAs have been successfully demonstrated in GSM and EDGE applications. In Addition to the proposed techniques, a body-switched cascode PA core is also proposed to utilize a single PA in multi-mode applications without hurting the performance. With the proposed techniques, a fully-integrated multi-mode PA has been implemented in a 0.18 um CMOS technology, and the power amplifier has been demonstrated successfully for GSM/EDGE/WCDMA applications. In conclusion, the research in this dissertation provides CMOS RF power amplifier solutions for multiple standards in mobile wireless communications with low cost and high integration. CMOS Power amplifier RF PA Multi-standard wireless communications Wireless communication systems Power amplifiers Radio Transmitter-receivers
190	CMOS-based amplitude and phase control circuits designed for multi-standard wireless communication systems Huang, Yan-Yu 05 July 2011 (has links) Designing CMOS linear transmitter front-end, specially the power amplifiers (PAs), in multi-band wireless transceivers is a major challenge for the single-chip integration of a CMOS radio. In some of the linear PA systems, for example, polar- or predistortion-PA system, amplitude and phase control circuits are used to suppress the distortion produces by the PA core. The requirements of these controlling circuits are much different from their conventional role in a receiver or a phase array system. In this dissertation, the special design issues will be addressed, and the circuit topologies of the amplitude and phase controllers will be proposed. In attempt to control the high-power input signal of a PA system, a highly linear variable attenuator with adaptive body biasing is first introduced. The voltage swing on the signal path is intentionally coupled to the body terminal of the triple-well NMOS devices to reduce their impedance variation. The fabricated variable attenuator shows a significant improvement on linearity as compared to previous CMOS works. The results of this research are then used to build a variable gain amplifier for linear PA systems that requires gain of its amplitude tuning circuits. Different from the conventional attenuator-based VGAs, the high linearity of the suggested attenuator allows it to be put after the gain stage in the presented VGA topology. This arrangement along with the current boosting technique gives the VGA a better noise performance while having a linear-in-dB tuning curve and better worst-case linearity. The following part of the dissertation is about a compact, linear-in-degree tuned variable phase shifter as the phase controller in the PA system. This design uses a modified RC poly-phase filter to produce a set of an orthogonal phase vectors with smaller loss. A specially designed control circuit combines these vectors and generates an output signal with different phases, while having very small gain mismatches at different phase setting. The proposed amplitude and phase control circuits are then verified with a system level analysis. The results show that the proposed designs successfully reduce the non-linear effect of a wireless transmitter. Power amplifier Variable gain amplifier Radio frequency Variable phase shifter Variable attenuator CMOS Wireless communication systems Radio Transmitters and transmission

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