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1	A multi-channel front-end for synthetic aperture sonar Bonnett, Blair Cameron January 2010 (has links) Synthetic aperture sonar (SAS) is a wide-beam sonar technique commonly used for mapping the seafloor at high resolution. The Acoustics Research Group at the University of Canterbury operates a towed SAS system known as KiwiSAS-IV. This is currently being redesigned with the aim of reducing the weight, size and power requirements of the system. The long term goal is to make it capable of being mounted on an autonomous underwater vehicle (AUV) so that mapping of remote and/or dangerous waters can be accomplished without human interaction. This thesis presents the design of the front-end electronics used to drive the 36 transducers to produce the acoustic beam and receive the returning signals after they have reflected off a target. To achieve sufficient range, the transducers are driven with a 200 Vₚ₋ₚ signal with a maximum frequency of 110 kHz. This design uses class D switching amplifiers to generate these waveforms. The AD9271 integrated circuit, which can handle eight transducers simultaneously, is used to amplify the incoming signals and sample them at up to 50 MHz. This high sampling rate multiplied by all 36 transducers results in an amount of data which is too great for a conventional microprocessor-based system to handle. Instead, an FPGA is used to receive this data, decimate it using multiplier-free cascaded integrator-comb (CIC) filters, and then pass it to the back-end system for further processing and storage. A prototype circuit was created to test the theory developed in this thesis. This showed that the system is capable of generating the necessary waveforms and amplifying, capturing, and decimating the returning signals. However, further refinement is required before it is able to be used in the sonar system. synthetic aperture sonar SAS sonar KiwiSAS FPGA CIC cascaded integrator-comb class D amplifier AD9271
2	Theory and Implementation of CMOS Class-D Digital Audio Amplifier for Portable Application Kelati, Amleset January 2004 (has links) <p>Sal/Hall D, Forum, KTH-ICT, Isafjordsgatan 39, Kista</p> Class D Amplifier Annan elektroteknik och elektronik
3	A 280 mW, 0.07 % THD+N Class-D Audio Amplifier Using a Frequency-Domain Quantizer January 2011 (has links) abstract: Pulse Density Modulation- (PDM-) based class-D amplifiers can reduce non-linearity and tonal content due to carrier signal in Pulse Width Modulation - (PWM-) based amplifiers. However, their low-voltage analog implementations also require a linear- loop filter and a quantizer. A PDM-based class-D audio amplifier using a frequency-domain quantization is presented in this paper. The digital-intensive frequency domain approach achieves high linearity under low-supply regimes. An analog comparator and a single-bit quantizer are replaced with a Current-Controlled Oscillator- (ICO-) based frequency discriminator. By using the ICO as a phase integrator, a third-order noise shaping is achieved using only two analog integrators. A single-loop, singlebit class-D audio amplifier is presented with an H-bridge switching power stage, which is designed and fabricated on a 0.18 um CMOS process, with 6 layers of metal achieving a total harmonic distortion plus noise (THD+N) of 0.065% and a peak power efficiency of 80% while driving a 4-ohms loudspeaker load. The amplifier can deliver the output power of 280 mW. / Dissertation/Thesis / Ph.D. Electrical Engineering 2011 Electrical engineering Engineering Class-D amplifier Current-Controlled Oscillator Frequency Discriminator Frequency-domain Quantization Pulse Density Modulation Sigma-Delta Modulation
4	First Order Self-Oscillating Class-D Circuit with Triangular Wave Injection Carroll, Matthew J 01 June 2021 (has links) (PDF) An investigation into performance improvements to the modulator stage of a class-D amplifier is conducted in this thesis. Two of the standard topologies, namely class-D open-loop pulse-width modulation (PWM), and the improved self-oscillating feedback system are benchmarked against a topology which includes both a hysteretic comparator in a feedback loop and triangle wave injection. Circuit performance is analyzed by comparing how the triangle injection circuit handles known issues with open-loop and self-oscillating circuits. Using this analysis, it is shown that the triangle injection topology offers an improved power supply rejection ratio relative to open-loop PWM and reduces distortion generated by frequency modulation characteristic of the self-oscillating topology. Pulse-Width Modulation (PWM) Class-D Amplifier Triangular Waveform Injection Self-Oscillator Frequency Modulation Amplitude Modulation Electrical and Electronics
5	Development of a Class D motor amplifier for a next-generation mechanism control electronics Garcia Hernandez, Juan Camilo January 2016 (has links) This thesis was written at Airbus DS GmbH in Friedrichshafen, Germany, as part of a project which aims to develop a new generation of class-D power amplification circuits for sinusoidal commutating motors controlling the movement of different mechanisms in satellites. Currently used topologies have disadvantages such as high power loss, analog controlling and high degree of signal distortion. This work first simulates available topologies which were previously developed by the company in order to compare them and build a trade-off list so the most suitable circuit is selected. Then, by further simulating and analysis several improvements to the circuit are suggested and a final schematic is developed including an analogue-to-digital converter and a total of three phases to power a motor. After a demonstrator circuit was designed and built, it was tested by using an external real time target machine to generate the corresponding PWM signals in correspondence to a controlling signal generated via Simulink. The final product of this thesis confirmed the simulation results such as an improved signal quality at higher frequencies in comparison to an available measurement from a previous generation circuit. The flexibility of the topology as well as the possibility of implementing a digital control was also confirmed during this phase of the project. Upon further work, the dimensioning of the output low pass filter should be improved and a digital PID controller should be implemented in the controlling FPGA. / <p>This version of the Master Thesis deviates from the formal original submitted for examination in order not to disclose confidential information of Airbus DS GmbH. All positions in the document, where additional information was removed are properly identified. This document can be published according to the general rules of the Julius-Maximilians-Universität Würzburg and the Lulea University of Technology.</p> Power electronics satellites BLDC sinusoidal commutation control PID class D amplifier PWM Annan elektroteknik och elektronik
6	Mobilní platforma pro testování automobilových systémů pro Bluetooth Hands-Free komunikaci / Mobile platform for testing of automotive systems in Bluetooth Hands-Free communication Mecerod, Václav January 2014 (has links) Tato diplomová práce se zabývá problematikou implementace Hands-Free komunikačních systémů v automobilovém průmyslu. První kapitola je zaměřena na teoretické aspekty zpracování řeči v embedded aplikacích, jako je potlačení šumu, potlačení akustické zpětné vazby a další faktory ovlivňující kvalitu Hands-Free systémů. Druhá kapitola obsahuje návrh kompaktního flexibilního mobilního testovacího zařízení pro bezdrátové komunikační Hands-Free moduly.
7	Vibrační generátor pro zkoušky elektroniky / Recoil forces measurement after shotaVibration Test Stand Rozum, Stanislav January 2017 (has links) The thesis describes design and construction of vibration generator driver. The device is controlled via standard Ethernet interface and allows user to change parameters of generated function in PC application which reads and evaluates frequency and amplitude from real-time measured data while the test is running. In the introduction, vibration tests and choice of generators and power amplifiers are described. Next part is focused on every aspect of the hardware design. Last two chapters implement firmware for all three microcontrollers and software for PC application.
8	Ultrazvukový směrový reproduktor / Ultrasonic Directional Speaker Sedlák, Jiří January 2017 (has links) The master´s thesis deals with theoretical research and practical application of the principle of spreading acoustic waves through nonlinear medium. The theoretical part describes five different types of amplitude modulation and their mathematic representation, which were verified by the program Matlab. Next, the impedance characteristic of ultrasound PZT transducer was measured and the design of PWM modulator and class D amplifier was described. The practical part of the master´s thesis contains the realization of the parametric loudspeaker assembled from the class D amplifier and the PWM modulator. In conclusion, the designed parametric loudspeaker was measured and the individual types of amplitude modulation were compared with respect to the total harmonic distortion of transmitted useful signal.
9	Ultrasonic Generator for Surgical Applications and Non-invasive Cancer Treatment by High Intensity Focused Ultrasound / Générateur d'ultrasons pour les applications chirurgicales et le traitement non-invasif du cancer par High Intensity Focused Ultrasound Wang, Xusheng 11 February 2016 (has links) La technique de haute intensité ultrasons focalisés (HIFU) est maintenant largement utilisée pour le traitement du cancer, grâce à son avantage non-invasif. Dans un système de HIFU, une matrice de transducteurs à ultrasons est pilotée en phase pour produire un faisceau focalisé d'ultrasons (1M ~ 10 MHz) dans une petite zone de l'emplacement de la cible sur le cancer dans le corps. La plupart des systèmes HIFU sont guidées par imagerie par résonance magnétique (IRM) dans de nos jours. Dans cette étude de doctorat, un amplificateur de puissance de classe D en demi-pont et un système d'accord automatique d'impédance sont proposés. Tous deux circuits proposés sont compatibles avec le système IRM. L'amplificateur de puissance proposé a été réalisé par un circuit imprimé (PCB) avec des composants discrets. Selon les résultats du test, il a rendement de conversion en puissance de 82% pour une puissance de sortie conçue de 1,25W à une fréquence de travail de 3MHz. Le système d'accord automatique d'impédance proposé a été conçu en deux versions: une version en PCB et une version en circuit intégré (IC). Contrairement aux systèmes d'accord automatique proposés dans la littérature, il n'y a pas besoin de l'unité de microcontrôleur (MCU) ou de l'ordinateur dans la conception proposée. D'ailleurs, sans l'aide de composants magnétiques volumineux, ce système d'auto-réglage est entièrement compatible avec l'équipement IRM. La version en PCB a été conçue pour vérifier le principe du système proposé, et il est également utilisé pour guider à la conception du circuit intégré. La réalisation en PCB occupe une surface de 110cm². Les résultats des tests ont confirmé la performance attendue. Le système d'auto-tuning proposé peut parfaitement annuler l'impédance imaginaire du transducteur, et il peut également compenser l'impédance de la dérive causée par les variations inévitables (variation de température, dispersion technique, etc.). La conception du système d'auto-réglage en circuit intégré a été réalisé avec une technologie CMOS (C35B4C3) fournies par Austrian Micro Systems (AMS). La surface occupée par le circuit intégré est seulement de 0,42mm². Le circuit intégré conçu est capable de fonctionner à une large gamme de fréquence tout en conservant une consommation d'énergie très faible (137 mW). D'après les résultats de la simulation, le rendement de puissance de ce circuit peut être amélioré jusqu'à 20% comparant à celui utilisant le réseau d'accord statique. / High intensity focused ultrasound (HIFU) technology is now broadly used for cancer treatment, thanks to its non-invasive property. In a HIFU system, a phased array of ultrasonic transducers is utilized to generate a focused beam of ultrasound (1M~10MHz) into a small area of the cancer target within the body. Most HIFU systems are guided by magnetic resonance imaging (MRI) in nowadays. In this PhD study, a half-bridge class D power amplifier and an automatic impedance tuning system are proposed. Both the class D power amplifier and the auto-tuning system are compatible with MRI system. The proposed power amplifier is implemented by a printed circuit board (PCB) circuit with discrete components. According to the test results, it has a power efficiency of 82% designed for an output power of 3W at 1.25 MHz working frequency. The proposed automatic impedance tuning system has been designed in two versions: a PCB version and an integrated circuit (IC) version. Unlike the typical auto-impedance tuning networks, there is no need of microprogrammed control unit (MCU) or computer in the proposed design. Besides, without using bulky magnetic components, this auto-tuning system is completely compatible with MRI equipment. The PCB version was designed to verify the principle of the proposed automatic impedance tuning system, and it is also used to help the design of the integrated circuit. The PCB realization occupies a surface of 110cm². The test results confirmed the expected performance. The proposed auto-tuning system can perfectly cancel the imaginary impedance of the transducer, and it can also compensate the impedance drifting caused by unavoidable variations (temperature variation, technical dispersion, etc.). The IC design of the auto-tuning system is realized in a CMOS process (C35B4C3) provided by Austrian Micro Systems (AMS). The die area of the integrated circuit is only 0.42mm². This circuit design can provide a wide working frequency range while keeping a very low power consumption (137 mW). According to the simulation results, the power efficiency can be improved can up to 20% by using this auto-tuning circuit compared with that using the static tuning network. HIFU Transducteur ultrasonique Réglage d'impédance automatique Condensateur échangé Alimentation électrique ultrasonique Générateur d'ultrasons Traitement non-invasif HIFU Ultrasonic transducer Automatic impedance tuning Switched capacitor Ultrasonic power supply Half-bridge Class D amplifier Ultrasonic generator Non-invasif treatment
10	An Exploratory Study of Pulse Width and Delta Sigma Modulators Penrod, Logan B 01 December 2020 (has links) (PDF) This paper explores the noise shaping and noise producing qualities of Delta-Sigma Modulators (DSM) and Pulse-Width Modulators (PWM). DSM has long been dominant in the Delta Sigma Analog-to-Digital Converter (DSADC) as a noise-shaped quantizer and time discretizer, while PWM, with a similar self oscillating structure, has seen use in Class D Power Amplifiers, performing a similar function. It has been shown that the PWM in Class D Amplifiers outperforms the DSM [1], but could this advantage be used in DSADC use-cases? LTSpice simulation and printed circuit board implementation and test are used to present data on four variations of these modulators: The DSM, PWM, the out-of-loop discretized PWM (OOLDP), and the cascaded modulator. A generic form of an Nth order loop filter is presented, where three orders of this generic topology are analyzed in simulation for each modulator, and two orders are used in physical testing. Delta Sigma Modulator Pulse Width Modulator Quantization Noise Time Discretization Delta Sigma Analog to Digital Conversion Class D Amplifier Controls and Control Theory Signal Processing Systems and Communications

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