Construction Of An Experimental Radar System

Kilicoglu, Nezaket

01 December 2010

In this thesis, an Experimental Radar System is designed and constructed for use in experimental radar studies such as clutter measurement and target detection, both in the laboratory and outdoor. COTS laboratory equipments are utilized as hardware elements of the radar and MATLAB is used as signal processing and user interface software tool. Vector signal generator (as transmitter), spectrum analyzer with vector signal analysis (as receiver), a high power amplifier, a low noise amplifier, horn antennas and a computer are the hardware units of the system. Various transmit signals are generated and pulse Doppler processing is performed at the receiver side. The system is controlled through the user interface which runs on a PC.

Controle térmico de alta exatidão e sua aplicação na determinação de propriedades térmicas de materiais

Nascimento, Leonaldo José Lyra do

14 December 2012

Made available in DSpace on 2015-05-08T14:59:50Z (GMT). No. of bitstreams: 1 arquivototal.pdf: 5685009 bytes, checksum: 7c7cec127c61d91393979e6be4ef4ab5 (MD5) Previous issue date: 2012-12-14 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / This paper presents a theoretical and experimental study of a PID control-Proportional, Integral and Derivative using PELTIER module that achieves precision of about 0.01oC. It is developed to study the integrated instrumentation and control heat transfer. Based on this we developed a heat signal generator on a flat surface and applied to the measurement of thermal properties, in a system similar to electrical circuit. After several experiments, the results indicates the validity of the proposal. / Neste trabalho apresenta-se um estudo teórico e experimental de um controle P.I.D.- Proporcional, Integral e Derivativo, utilizando módulos Peltier s que alcançam precisão de cerca de 0.01oC. É desenvolvido o estudo da instrumentação e controle integrado à transferência de calor. Baseado neste controle foi desenvolvido um gerador de sinais térmicos em uma superfície plana e aplicado na medida de propriedades térmicas, em um sistema semelhante ao circuito elétrico. Após vários ensaios experimentais usando amostras sólidas, os resultados indicam a validade da proposta.

Controle P.I.D

Módulo de Peltier

Gerador de sinais térmicos

LabVIEW

Circuitos elétricos

PID Control

Peltier Module

Signal generator thermal LabVIEW

Electrical Circuits

CNPQ::ENGENHARIAS::ENGENHARIA MECANICA

Development, Implementation and Validation of Thermal Magnetic Resonance Technology: A New Instrument to Define the Role of Temperature in Biological Systems and Disease

Han, Haopeng

26 January 2022

Die thermische Magnetresonanz (ThermalMR) integriert Radiofrequenz (RF)-induzierte Erwärmung, in vivo Temperaturkartierung mittels MR-Thermometrie, anatomische und funktionelle MR-Bildgebung (MRT) und die Option für die x-Kern-MRT in einem einzigen, vielseitig einsetzbaren RF-Applikator. Der Aufbau erlaubt eine gezielte und überwachte Temperaturmodulation und kann somit als Basis für Studien dienen, welche die Klärung grundlegender Fragen bezüglich der molekularen, biochemischen, sowie physiologischen und therapeutischen Auswirkungen der Temperatur in Organismen ermöglichen. In dieser Arbeit wurde ein kostengünstiges, automatisiertes Open-Source-3D-Mehrzweck-Messsystem mit Submillimeter-Genauigkeit implementiert und validiert, um technische Entwicklungen in der thermischen MR wie Antennendesign, Signalgeneratoren, und simulationsbasierte Methoden zu prüfen. Um den Anforderungen eines modernen ThermalMR-Systems gerecht zu werden, wird ein neuer auf einem Phasenregelkreis basierender RF-Signalgenerator für Hyperthermie entwickelt und über dessen Entwurf, Implementierung, Validierung und Anwendung berichtet. Der Signalgenerator ist in der Lage, 32 unabhängige RF-Signale mit präziser Einstellung der Parameter dieser Signale zu erzeugen. Das in dieser Arbeit entwickelte Mehrkanal-RF-Überwachungsmodul ermöglicht das Detektieren von Abweichungen bezogen auf die gewählten Einstellungen und ermöglicht eine Korrektur der RF-Signale in einem Regelkreis. Darüber hinaus ermöglicht das Überwachungsmodul das Erkennen von Bewegungen und ermöglicht zusätzliche Sicherheit in einem realen Behandlungssetup. In dieser Arbeit wurden Forschung und Entwicklung in Informatik, Physik und Biowissenschaften synergetisch miteinander verbunden. Die in dieser Arbeit entwickelte Infrastruktur bildet eine technologische Basis für zukünftige ThermalMR-Anwendungen. / Thermal magnetic resonance (ThermalMR) integrates radio frequency (RF)-induced heating, in vivo temperature mapping using MR thermometry, anatomic and functional MR imaging (MRI), and the option for x-nuclei MRI in a single, multi-purpose RF applicator. This permits supervised targeted temperature modulation, thus enables pioneering studies to clarify fundamental questions pertaining to the molecular, biochemical, broader physiological and therapeutic effects of temperature in organisms. In this work, a cost-effective, automated open source 3D multipurpose measurement system with submillimeter fidelity was implemented and validated to facilitate technical developments in ThermalMR such as RF antenna design and algorithm verification. The design, implementation, validation, and application of the first phase-locked loop based RF signal generator in hyperthermia that is capable of generating 32 channels of independent RF signals with fine-tuning resolutions of the signals’ parameters meet the demanding requirements of a state-of-the-art RF heating system. The multi-channel RF supervision module developed in this work outperforms state-of-the-art counterparts. The detection of head motion in a hyperthermia setting was demonstrated for the first time with the RF supervision module. This work synergistically connects research and development in computer science, physics, and life science. The infrastructure developed in this work forms a technological basis for future ThermalMR applications.

thermische Magnetresonanz

Krebstherapie

RF-Signalgenerator

RF-Überwachungsmodul

thermal magnetic resonance

cancer treatment

RF signal generator

RF supervision module

004 Informatik

ST 640

ddc:004

A microcontroller-based Electrochemical Impedance Spectroscopy Platform for Health Monitoring Systems

Bhatnagar, Purva

16 October 2015

No description available.

Electrical Engineering

Health Monitoring Systems

Digital Signal Controller

Pulse Width Modulation Signal Generator

Phase Detection of Impedance

Analog Interface Circuit

Zdroj pro pulzní magnetronové naprašování / Power source for pulse magnetron sputtering

Schulz, Jakub

January 2008

The presented thesis deals with the design and assembly of the generator for pulse magnetron sputtering. The designed device is capable of generating two square wave signals via its counter-working outputs. Both signals have independently adjustable frequency, pulse count and duty ratio. Both signals originate from two frequency syntheses controlled by microcontroller PIC16F877A. All the settings are entered by four buttons and are shown on an alphanumeric display with 16x4 characters. The duty ratio is adjusted using a special module.