Global ETD Search

11	An Input Amplifier for Body-Channel Communication Maruf, Md Hasan January 2013 (has links) Body-channel communication (BCC) is based on the principle of electrical field data transmission attributable to capacitive coupling through the human body. It is gaining importance now a day in the scenario of human centric communication because it truly offers a natural means of interaction with the human body. Traditionally, near field communication (NFC) considers as a magnetic field coupling based on radio frequency identification (RFID) technology. The RFID technology also limits the definition of NFC and thus reduces the scope of a wide range of applications. In recent years BCC, after its first origin in 1995, regain importance with its valuable application in biomedical systems. Primarily, KAIST and Philips research groups demonstrate BCC in the context of biomedical remote patient health monitoring system. BCC transceiver mainly consists of two parts: one is digital baseband and the other is an analog front end (AFE). In this thesis, an analog front end receiver has presented to support the overall BCC. The receiver (Rx) architecture consists of cascaded preamplifier and Schmitt trigger. When the signals are coming from the human body, they are attenuated around 60 dB and gives weak signals in the range of mV. A high gain preamplifier stage needs to amplify these weak signals and make them as strong signals. The preamplifier single stage needs to cascade for the gain requirement. The single stage preamplifier, which is designed with ST65 nm technology, has an open loop gain of 24.01 dB and close loop gain of 19.43 dB. A flipped voltage follower (FVF) topology is used for designing this preamplifier to support the low supply voltage of 1 V because the topology supports low voltage, low noise and also low power consumption. The input-referred noise is 8.69 nV/sqrt(Hz) and the SNR at the input are 73.26 dB. The Schmitt trigger (comparator with hysteresis) is a bistable positive feedback circuit. It builds around two stage OTA with lead frequency compensation. The DC gain for this OTA is 26.94 dB with 1 V supply voltage. The corner analyzes and eye diagram as a performance matrix for the overall receiver are also included in this thesis work. Body-Channel Communication Analog Front End Capacitive Communication Preamplifier Schmitt Trigger Body Area Network
12	Wireless 3D System-on-Package (SoP) for MEMS Movable Microelectrode January 2012 (has links) abstract: There is a tremendous need for wireless biological signals acquisition for the microelectrode-based neural interface to reduce the mechanical impacts introduced by wire-interconnects system. Long wire connections impede the ability to continuously record the neural signal for chronic application from the rodent's brain. Furthermore, connecting and/or disconnecting Omnetics interconnects often introduces mechanical stress which causes blood vessel to rupture and leads to trauma to the brain tissue. Following the initial implantation trauma, glial tissue formation around the microelectrode and may possibly lead to the microelectrode signal degradation. The aim of this project is to design, develop, and test a compact and power efficient integrated system (IS) that is able to (a) wirelessly transmit triggering signal from the computer to the signal generator which supplies voltage waveforms that move the MEMS microelectrodes, (b) wirelessly transmit neural data from the brain to the external computer, and (c) provide an electrical interface for a closed loop control to continuously move the microelectrode till a proper quality of neural signal is achieved. One of the main challenges of this project is the limited data transmission rate of the commercially available wireless system to transmit 400 kbps of digitized neural signals/electrode, which include spikes, local field potential (LFP), and noise. A commercially available Bluetooth module is only capable to transmit at a total of 115 kbps data transfer rate. The approach to this challenge is to digitize the analog neural signal with a lower accuracy ADC to lower the data rate, so that is reasonable to wirelessly transfer neural data of one channel. In addition, due to the limited space and weight bearing capability to the rodent's head, a compact and power efficient integrated system is needed to reduce the packaged volume and power consumption. 3D SoP technology has been used to stack the PCBs in a 3D form-factor, proper routing designs and techniques are implemented to reduce the electrical routing resistances and the parasitic RC delay. It is expected that this 3D design will reduce the power consumption significantly in comparison to the 2D one. The progress of this project is divided into three different phases, which can be outlined as follow: a) Design, develop, and test Bluetooth wireless system to transmit the triggering signal from the computer to the signal generator. The system is designed for three moveable microelectrodes. b) Design, develop, and test Bluetooth wireless system to wirelessly transmit an amplified (200 gain) neural signal from one single electrode to an external computer. c) Design, develop, and test a closed loop control system that continuously moves a microelectrode in searching of an acceptable quality of neural spikes. The outcome of this project can be used not only for the need of neural application but also for a wider and general applications that requires customized signal generations and wireless data transmission. / Dissertation/Thesis / M.S. Electrical Engineering 2012 Electrical engineering Biomedical engineering Mechanical engineering 3D Bluetooth Microcontroller Microelectrode Neural Preamplifier
13	Modelling of the Analog Electronic Stage of a Detection System for Hard X-ray Astronomy Campos Garrido, Gonzalo January 2012 (has links) Germanium detectors are used by the scientic community to study cosmic X-ray sources. In order to localize the exact 3D position of an X-ray interaction, double-sided strip detectors are used. Each strip requires a single readout electronic stage to convert induced charge into a voltage pulse. We present here the computer simulation of such an analog electronic stage. Each particular element of this stage, i.e. charge-sensitive preamplier, amplier, oset corrector, lter and analog-to-digital converter, will be simulated in detail, taking into account temperature and noise performances. Furthermore, a tool to simultaneously simulate multiple strips for several X-ray interaction points was developed. This tool will facilitate the study of all electronic chains as a whole. / <p>Validerat; 20120908 (anonymous)</p> Technology X-ray Germanium detector Simulation Preamplifier PheniX Teknik Subatomic Physics Subatomär fysik
14	Elektrické housle s MIDI výstupem / Electric Volin with MIDI Output Spilka, Benedikt January 2018 (has links) The main aim of this diploma thesis is to design and to construct a electric violin with MIDI output. This thesis include design and conctruction of violin pickup, violin electronic and software for translation of sound into MIDI messages. design of the instrument´s body is presented at the end of the thesis. Violin electronic include circuits for filtration, amplification, processing and AD/DA conversion of audio siganl. Software for MIDI transfer recognizes notes and translates them to MIDI messages.
15	Návrh a konstrukce baskytarového předzesilovače / Design of bass guitar preamplifier Müller, Radek January 2012 (has links) This thesis deals with analog bass guitar preamplifiers and related functional blocks such as equalizers and bass effects. The first part contains a theoretical analysis of individual functional blocks preamplifiers and principles as well as an outline of the design and construction principles. In the following section is presented a design of connection that involves a bass guitar preamplifier, including an equalizer, an integrated distortion effect and an amplifier for headphone output. The proposed connections are simulated in the PSpice program and the printed circuit boards design is carried out using the Eagle program. Based on previous results, the construction of a bass guitar preamplifier is realized. The parameters of the individual blocks are measured and compared with the simulations.
16	Synthesis and evaluation of a charge sensitive amplifier for neutron counters / Stefanie Strachan Strachan, Stefanie January 2013 (has links) Cosmic-ray fluctuations are monitored by neutron monitors using several different kinds of proportional counter tubes. An important component of these monitors is the electronic subsystem that registers and counts output pulses from these counter tubes. Part of the electronic subsystem is a specific preamplifier. The pulse-height distribution curve of the existing preamplifier used in the neutron monitor system at the Centre for Space Research at the North-West University was found to be incorrect, and therefore the pulse-height information cannot be used for further research on the counter tube characteristics. A correct pulse-height distribution implies that the envelope of the pulse, as generated by an amplifier, has a very specific shape as a result of the physics that governs the generation of pulses in the neutron counter tube. It was therefore proposed that a new charge-sensitive preamplifier be synthesized to provide an output that provides the correct pulse-height distribution graph for a neutron monitor system. The Centre for Space Research at the North-West University is in the process of designing and building a new mini neutron monitor system. The new charge-sensitive preamplifier will be implemented into this updated system. Ultimately, the electronic subsystem must be able to provide a pulse-height distribution graph at the push of a button, thus making the preamplifier a key component in the new design. In this dissertation the theory of charge-sensitive amplifiers is researched following a design science research methodology. The results showed that a charge-sensitive amplifier can be synthesized to address both the real-world requirements and the theoretical requirements of this research. / MIng (Electrical and Electronic Engineering), North-West University, Potchefstroom Campus, 2014 Neutron monitor Charge-sensitive amplifier Preamplifier Design science research Research Design Ladingsensitiewe versterker Voorversterker Ontwerpwetenskap Navorsing Ontwerp
17	Synthesis and evaluation of a charge sensitive amplifier for neutron counters / Stefanie Strachan Strachan, Stefanie January 2013 (has links) Cosmic-ray fluctuations are monitored by neutron monitors using several different kinds of proportional counter tubes. An important component of these monitors is the electronic subsystem that registers and counts output pulses from these counter tubes. Part of the electronic subsystem is a specific preamplifier. The pulse-height distribution curve of the existing preamplifier used in the neutron monitor system at the Centre for Space Research at the North-West University was found to be incorrect, and therefore the pulse-height information cannot be used for further research on the counter tube characteristics. A correct pulse-height distribution implies that the envelope of the pulse, as generated by an amplifier, has a very specific shape as a result of the physics that governs the generation of pulses in the neutron counter tube. It was therefore proposed that a new charge-sensitive preamplifier be synthesized to provide an output that provides the correct pulse-height distribution graph for a neutron monitor system. The Centre for Space Research at the North-West University is in the process of designing and building a new mini neutron monitor system. The new charge-sensitive preamplifier will be implemented into this updated system. Ultimately, the electronic subsystem must be able to provide a pulse-height distribution graph at the push of a button, thus making the preamplifier a key component in the new design. In this dissertation the theory of charge-sensitive amplifiers is researched following a design science research methodology. The results showed that a charge-sensitive amplifier can be synthesized to address both the real-world requirements and the theoretical requirements of this research. / MIng (Electrical and Electronic Engineering), North-West University, Potchefstroom Campus, 2014 Neutron monitor Charge-sensitive amplifier Preamplifier Design science research Research Design Ladingsensitiewe versterker Voorversterker Ontwerpwetenskap Navorsing Ontwerp
18	Novel Concepts for RF Surface Coils with Integrated Receivers Tobgay, Sonam 19 April 2004 (has links) Magnetic Resonance Imaging (MRI) is a powerful non-invasive reconstruction tool used primarily in the medical community to produce high quality images of the human anatomy. Surface coils are Radio Frequency (RF) systems typically deployed for receiving the MR signals. Multiple surface coils, or an array of coils, are employed to obtain a localized improvement in the signal-to-noise ratio without limiting the field of view. In this research, a novel modeling and design method for decoupling RF surface coils in a phased array is investigated. This method employs an impedance transformation interface circuit along with a high input reflection coefficient preamplifier to decouple the coil. In this research report both the theory and design methodology are discussed in detail. Surface Coil Receiver Coil RF MRI Magnetic resonance imaging Radiofrequency spectroscopy Electric coils
19	Lokalizace zvukového zdroje / Sound source localization Vélim, Jan January 2013 (has links) The paper discusses a possibility of localization of a sound source inside a wooden beam. The method is based on measuring signals from two microphones, assuming the sound source lies between the microphones. The position of the sound source is calculated from the delay between the signals. The calculation of the delay is done by correlation of the signals in the frequency range. ARM architecture microcontroller is used to for the calculations.
20	Développement d'un dispositif intégré de photodétection de grande sensibilité avec discrimination spectrale pour les laboratoires sur puce Courcier, Thierry January 2014 (has links) Résumé : Ce travail de thèse a pour but de développer un dispositif intégré de photodétection pour des applications biomédicales nécessitant une grande sensibilité de détection et une discrimination spectrale (sélectivité). Ce dispositif peut être appliqué, par exemple, à la mesure simultanée de plusieurs marqueurs fluorescents dans les laboratoires sur puce mettant en œuvre de très faibles volumes de réactifs (inférieurs au microlitre). Le travail de thèse se focalise sur la conception, la réalisation et le test de ce dispositif intégré de photodétection. Ce travail se décline selon deux axes principaux : d’une part, la conception d’un photodétecteur CMOS avec préamplificateurs intégrés, et d’autre part la conception, la réalisation et la caractérisation de filtres optiques intégrés performants pour la détection de fluorescence. Le dispositif de détection conçu implémente un photodétecteur à quatre jonctions enterrées (Buried Quad Junction photodetector – BQJ) et un étage de préamplification de charge pour le traitement simultané des quatre sorties de ce photodétecteur. L’ensemble a été fabriqué en technologie Haut-Voltage CMOS Teledyne-DALSA 0,8μm. Son fonctionnement a été démontré et ses performances, notamment en termes de bruit et de sensibilité, ont été caractérisées. En parallèle, des filtres optiques coupe-bande ont été développés à l’aide d’un procédé compatible avec la technologie CMOS utilisée pour le photodétecteur. Ainsi, le dépôt de ces filtres sur le photodétecteur pourra être intégré dans le process de fabrication industriel. Les filtres interférentiels développés sont fabriqués en alternant des dépôts de couches minces de nitrure et d’oxyde de silicium par PECVD. La mesure des indices optiques de ces matériaux a été utilisée pour optimiser ces filtres à partir de simulations. Les filtres déposés sur lame de verre ou sur le photodétecteur BQJ ont été caractérisés. Des méthodes de traitement des signaux spécifiques pour le BQJ sont également proposées pour améliorer la sensibilité et/ou la sélectivité de détection. Leurs performances ont été évaluées. Enfin, des mesures de fluorescence avec le système de photodétection conçu ont été réalisées sur des mélanges de nanocristaux fluorescents (quantum dots) ou de fluorophores organiques. Ces résultats préliminaires permettent de valider le fonctionnement applicatif du système de photodétection développé. // Abstract : This thesis aims to develop an integrated photosensor device for biomedical applications requiring high detection sensitivity and spectral discrimination (selectivity). For example, this system can be applied to mesure simultaneous emissions of several fluorescent labels in lab-on-a-chip implementing very small volumes of reagents (less than one microliter). The thesis focuses on the design, implementation and testing of this integrated photodetector device. The work is divided in two main parts: first, the design of a CMOS photodetector with integrated preamplifiers, and secondly the design, realization and characterization of integrated optical filters for fluorescence detection. The detection device implements a Buried Quad Junction photodetector (BQJ) and charge sensitive preamplifiers for the simultaneous treatment of its four outputs. The chip was made in 0.8μm High Voltage CMOS technology from Teledyne-DALSA. Its operation has been demonstrated and its performances, especially in terms of noise and sensitivity, have been characterized. In parallel, optical notch filters have been developed using a process compatible with the CMOS technology used for the photodetector fabrication. Thus, deposition of these filters on the photodetector can be integrated during industrial process. Developed interference filters are made by alternating deposition of thin layers of nitride and silicon oxide by PECVD. Measurements of refractive index of these materials were used to optimize these filters through simulations. The filters implemented on a glass cover or on the BQJ photodetector were characterized. Signal processing methods specific to BQJ are also proposed to improve the detection’s sensitivity and/or selectivity. Their performances were evaluated. Finally, fluorescence measurements with the designed photodetection device were performed on mixtures of fluorescent nanocrystals (quantum dots) or of organic fluorophores. These preliminary results validate the performances in terms of photodetection of the designed integrated photodetection device. Laboratoire sur puce Fluorescence Filtre interférentiel Filtre absorbant Préamplification de charge Lab-on-a-chip Buried quad junction photodetector Interference filter Absorbing filter Charge preamplifier

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