Salinity (conductivity) sensor based on parallel plate capacitors

Bhat, Shreyas

01 June 2005

This work is aimed at developing a high sensitivity salinity (conductivity) sensor for marine applications. The principle of sensing involves the use of parallel plate capacitors, which minimizes the proximity effects associated with inductive measurement techniques. The barrier properties of two different materials, AZ5214 and Honeywell's ACCUFLO T3027, were investigated for use as the insulation layer for the sensor. Impedance analysis performed on the two coatings using Agilent's 4924A Precision Impedance Analyzer served to prove that ACCUFLO was a better dielectric material for this application when compared to AZ5214.Two separate detection circuits have been proposed for the salinity sensor. In the Twin-T filter method, a variation in capacitance tends to shift the resonant frequency of a Twin-T oscillator, comprising the sensor. Simulations of the oscillator circuit were performed using Pspice. Experiments were performed on calibrated ocean water samples of 34.996 psu and a shift of 410 Hz/psu was obtained. To avoid the problems associated with the frequency drift in the oscillator, an alternate detection scheme is proposed which employs frequency-to-voltage converters. The sensitivity of this detection scheme was observed to be 10 mV/psu.

Impedance

Oscillator

Dielectric

Polarization

Complex permittivity

American Studies

Arts and Humanities

The Effect of Frequency, Doping and Temperature on the Complex Permittivity of N-Type Germanium

Sheikh, Riaz Hussain

03 1900

<p> A number of microwave measuring techniques for the measurement of the complex permittivity (^ɛ = ɛo ɛr - j σ/ω) have been investigated and a new method based on the replacement of the narrow wall of a rectangular wave-guide by a block of semi-conductor has been developed. This technique is shown to be suitable for the measurement of σ when σ >> ωɛo ɛr and for the measurement of σ and ɛr for σ ≃ ωɛo ɛr. </p> <p> An investigation has been made of the propagation characteristics of a rectangular wave-guide containing a centrally placed slab of semi-conductor parallel to the narrow walls of the guide. A comparison of exact solutions for the propagation constant in such a structure with the approximate solutions normally used has shown that the conditions for the validity of the approximate solutions are much more stringent than has been reported previously. It is further shown that under certain conditions the structure offers a convenient method of measuring the conductivity of a semi-conductor. In addition, a theoretical and experimental investigation of the effects of the higher order modes excited at the interface of such a structure with an empty wave-guide has been made. The study has shown that under certain conditions, the effects of these modes can be significant.</p> <p> A theoretical and experimental study has also been made of the effects of temperature, frequency and doping on the complex permittivity of lightly doped n-type germanium. Measurements of these effects which have not been reported previously have been made over a temperature range 100°K - 500°K at frequencies 9.25 and 34.5 GHz and confirm the theoretical model used.</p> / Thesis / Doctor of Philosophy (PhD)

Cavité de type klystron pour des dispositifs microondes / Klystron type cavity for microwave devices

Apedjinou, Anoumou

18 March 2019

Les propriétés électriques des matériaux sont des données indispensables dans les phases de conception de circuits micro-ondes. Ainsi, de nombreuses méthodes ont été mises au point en s’appuyant sur des mesures de paramètres «S», pour les systèmes de transmission-réflexion, ou de fréquences de résonance, pour les méthodes résonantes. Chacune d’entre elles présente des caractéristiques adaptées à un type de géométrie d’échantillon, à une bande de fréquence d’analyse, à une précision des résultats souhaitée... Dans tous les cas, les dimensions de l’échantillon doivent être au moins de l’ordre de grandeur de la longueur d’onde et donc, les caractérisations deviennent impossibles aux basses fréquences pour des échantillons de petites tailles. Un autre inconvénient de ces méthodes est qu’il est obligatoire de connaître parfaitement l’épaisseur de l’échantillon pour déterminer avec précision les caractéristiques électriques du matériau. L’objectif de ce travail de thèse a donc consisté à mettre au point une nouvelle méthode de caractérisation en s’appuyant sur une cavité de géométrie particulière. Celle-ci permet des mesures basses fréquences pour des dimensions très inférieures à la longueur d’onde. Avec un système de couplage original, nous avons pu également obtenir une réponse en transmission particulière, caractérisée par une fréquence de résonance et une fréquence d’antirésonance. Par rapport aux méthodes classiques qui ne travaillent que sur la fréquence de résonance, cette double information permet de déterminer à la fois la permittivité du milieu mais également l’épaisseur de l’échantillon. / The electrical properties of the materials are essential data in the design phases of microwave circuits. Thus, many methods have been developed based on "S" parameter measurements, for transmission-reflection systems, or resonance frequencies, for resonant methods. Each of them has characteristics adapted to a type of the samplegeometry, to the frequency band of analysis, to a desired precision of the results... In all the cases, the dimensions of the sample must be at least of the order of the wavelength and therefore the characterizations become impossible at low frequencies for samples of small sizes. Another disadvantage of these methods is that it is mandatory to know perfectly the thickness of the sample to accurately determine the electrical characteristics of the material. The objective of this thesis work was therefore to develop a new method of characterization based on a cavity of particular geometry. This allows low frequency measurements for dimensions much smaller than the wavelength. With an original coupling system, we have also been able to obtain a particular transmission response, characterized by a resonance frequency and an antiresonance frequency. Compared to conventional methods that only work on the resonant frequency, this double information makes it possible to determine both the permittivity of the medium but also the thickness of the sample.

Cavité klystron

Caractérisation de matériaux

Permittivité complexe

Hyperfréquence

Klystron cavity

Characterization of materials

Complex permittivity

Microwave

621.381 33

Caracterização da anisotropia na permissividade de osso cortical utilizando o método da impedância. / Characterizantion of anisotropy in the permittivity of cortical bone using the impedance method.

Yasmara Conceição De Polli

04 April 2008

O conhecimento das propriedades dielétricas do osso tem se mostrado importante na medicina ortopédica para aplicações em diagnóstico e tratamento da osteoporose, de fraturas, controle da osteonecrose e, também, na área de cerâmicas industriais (porcelana de osso). Neste trabalho, apresenta-se uma metodologia de avaliação das permissividades complexas de osso cortical de fêmur bovino desidratado, utilizando-se o método de impedância em uma linha de transmissão. Esta se constitui de um condutor coaxial, do tipo N, de uma porta, e um terminal aberto, que é conectado a um analisador de impedância. A faixa de freqüência considerada está compreendida entre 100 Hz e 1 MHz. Em particular, apresenta-se uma metodologia de caracterização dielétrica de osso, com ênfase nas avaliações das suas características anisotrópicas. Alguns resultados das propriedades dielétricas são comparados com os valores experimentais e teóricos disponíveis na literatura. Este procedimento é justificado, haja vista que os valores experimentais encontrados na literatura são esparsos e pontuais, quando se considera toda a faixa do espectro eletromagnético avaliado. Ressalta-se que não existe um consenso entre especialistas da área sobre a precisão e metodologia de obtenção destes. O mesmo ocorre com relação aos protocolos de medição propostos nas normas internacionais, em particular, quando se buscam padrões de avaliações de materiais biológicos sólidos. Os valores da permissividade obtidos com as medidas realizadas entre 100 Hz e 1 MHz evidenciam a presença de uma anisotropia efetiva, sendo esta característica ressaltada em freqüências da ordem de algumas dezenas de kHz. Embora o fenômeno de anisotropia não se manifeste nas faixas superiores à anteriormente mencionada, algumas medidas foram realizadas, também, numa faixa de freqüências superiores, entre 50 MHz e 3 GHz. Utilizou-se um analisador de redes conectado a um dispositivo coaxial de duas portas, visando avaliar a adequabilidade dos procedimentos de preparação do tecido ósseo na avaliação das características de materiais biológicos em altas freqüências, já que se dispunha da instrumentação necessária e de alguns resultados, obtidos na literatura, para sua validação. / The knowledge of the dielectric properties of bones has become important to orthopedic therapy, for applications in the diagnosis and treatment of osteoporosis, fractures, and osteonecrosis, as well as is the industrial ceramics field (bone china). This work proposes a methodology for the evaluation of the complex permittivity of a dehydrated cortical bone of bovine femur, using an impedance method in a transmission line. The transmission line is composed by an one-port open-ended N-type coaxial conductor, connected to an impedance analyzer. The frequency range studied was 100 Hz - 1 MHz. The methodology proposed is proper for the dielectric characterization of bone and this work emphasizes the evaluation of its anisotropic characteristics. Some dielectric properties experimentally found in this work are compared to the experimental and theoretical results available in literature, which are sparse and punctual in the considered electromagnetic spectrum. It is pointed out that there is no agreement among the experts when the subject is the proper measuring methodology and its precision. The same occurs when the subject is the measuring protocols proposed by the international standards, especially for solid biological materials. The permittivity results obtained in frequencies between 100 Hz and 1 MHz evince an effective anisotropy, which stands out in frequencies of a few tens of kHz. Although the anisotropy phenomenon does not occur in a frequency range higher than the one previously mentioned, some measures were taken in the 50 MHz - 3 GHz range for validation, based on results from literature. A network analyzer and a two-port coaxial device were then used in such measures, which aimed the evaluation of the adequacy of the procedure used in the preparation of the bone tissue in high-frequency measurements.

Dielétricos

Método de impedância

Osso e ossos (tratamento)

Anisotropy

Complex permittivity

Cortical bone

Impedance method

Caracterização da anisotropia na permissividade de osso cortical utilizando o método da impedância. / Characterizantion of anisotropy in the permittivity of cortical bone using the impedance method.

De Polli, Yasmara Conceição

04 April 2008

O conhecimento das propriedades dielétricas do osso tem se mostrado importante na medicina ortopédica para aplicações em diagnóstico e tratamento da osteoporose, de fraturas, controle da osteonecrose e, também, na área de cerâmicas industriais (porcelana de osso). Neste trabalho, apresenta-se uma metodologia de avaliação das permissividades complexas de osso cortical de fêmur bovino desidratado, utilizando-se o método de impedância em uma linha de transmissão. Esta se constitui de um condutor coaxial, do tipo N, de uma porta, e um terminal aberto, que é conectado a um analisador de impedância. A faixa de freqüência considerada está compreendida entre 100 Hz e 1 MHz. Em particular, apresenta-se uma metodologia de caracterização dielétrica de osso, com ênfase nas avaliações das suas características anisotrópicas. Alguns resultados das propriedades dielétricas são comparados com os valores experimentais e teóricos disponíveis na literatura. Este procedimento é justificado, haja vista que os valores experimentais encontrados na literatura são esparsos e pontuais, quando se considera toda a faixa do espectro eletromagnético avaliado. Ressalta-se que não existe um consenso entre especialistas da área sobre a precisão e metodologia de obtenção destes. O mesmo ocorre com relação aos protocolos de medição propostos nas normas internacionais, em particular, quando se buscam padrões de avaliações de materiais biológicos sólidos. Os valores da permissividade obtidos com as medidas realizadas entre 100 Hz e 1 MHz evidenciam a presença de uma anisotropia efetiva, sendo esta característica ressaltada em freqüências da ordem de algumas dezenas de kHz. Embora o fenômeno de anisotropia não se manifeste nas faixas superiores à anteriormente mencionada, algumas medidas foram realizadas, também, numa faixa de freqüências superiores, entre 50 MHz e 3 GHz. Utilizou-se um analisador de redes conectado a um dispositivo coaxial de duas portas, visando avaliar a adequabilidade dos procedimentos de preparação do tecido ósseo na avaliação das características de materiais biológicos em altas freqüências, já que se dispunha da instrumentação necessária e de alguns resultados, obtidos na literatura, para sua validação. / The knowledge of the dielectric properties of bones has become important to orthopedic therapy, for applications in the diagnosis and treatment of osteoporosis, fractures, and osteonecrosis, as well as is the industrial ceramics field (bone china). This work proposes a methodology for the evaluation of the complex permittivity of a dehydrated cortical bone of bovine femur, using an impedance method in a transmission line. The transmission line is composed by an one-port open-ended N-type coaxial conductor, connected to an impedance analyzer. The frequency range studied was 100 Hz - 1 MHz. The methodology proposed is proper for the dielectric characterization of bone and this work emphasizes the evaluation of its anisotropic characteristics. Some dielectric properties experimentally found in this work are compared to the experimental and theoretical results available in literature, which are sparse and punctual in the considered electromagnetic spectrum. It is pointed out that there is no agreement among the experts when the subject is the proper measuring methodology and its precision. The same occurs when the subject is the measuring protocols proposed by the international standards, especially for solid biological materials. The permittivity results obtained in frequencies between 100 Hz and 1 MHz evince an effective anisotropy, which stands out in frequencies of a few tens of kHz. Although the anisotropy phenomenon does not occur in a frequency range higher than the one previously mentioned, some measures were taken in the 50 MHz - 3 GHz range for validation, based on results from literature. A network analyzer and a two-port coaxial device were then used in such measures, which aimed the evaluation of the adequacy of the procedure used in the preparation of the bone tissue in high-frequency measurements.

Anisotropy

Complex permittivity

Cortical bone

Dielétricos

Impedance method

Método de impedância

Osso e ossos (tratamento)

Účinky pulzního namáhání na vlastnosti elektroizolačních materiálů / Effects of pulse stress on properties of electroinsulating materials

Krejčí, Zbyšek

January 2011

The labor discusses experimental verification of the dielectric properties of pulsed stress slot insulation Isonom NMN. During the pulse stress is investigated in particular component of a complex permittivity depending on frequency and temperature during the electrical stress in the form of pulses of different intensities of electric field supplied.

Měření komplexní permitivity materiálů v mikrovlnném pásmu / Complex permittivity measurement of materials at microwave frequencies

Polák, Radek

January 2012

This article describes some methods of measuring complex permitivity in milimeter – wave band, their characteristics, anvatages and disadvantages. Discused are here the reasons for their use in the construction of work place. On the basis these reasons is chosen the best method for practical measurement. That is cavity resonant method. Article contain description of designed measurement system. Whitch is verified by computer simulating of developed model in HFSS Ansoft. Text contain also result of simulations and execute computing of comlex permittivity and tangent loss. In Conclusion is desribed results of practical permittivity measure with realized measurement system.

Štúdium nanokompozitov pre elektrické izolácie / Study of Nanocomposites for Electrical Insulation

Klampár, Marián

January 2015

The dissertation thesis submitted deals with the study of dielectric properties of epoxy nanocomposites containing nanoparticles of inorganic oxides. These nanocomposites may have a promising technologic application for electric insulations in view of their higher resistance against partial discharges; yet information about their behavior in the course of ageing is not available. If at least a partial mass replacement of the currently used epoxy insulation with nanocomposite-based insulations is due to occur, the knowledge of the changes of their dielectric properties in the course of their operation will become indispensable. Within the framework of this dissertation, ensembles of samples of epoxy resins without fillers and with Al2O3, WO3, TiO2 and SiO2 fillers in the form of nanopowders, in concentrations up to 12 wt %, have been prepared. These ensembles have been measured prior to ageing and exposed to long-time (up to 5000 hours) ageing at increased temperatures 200, 250 and 300 °C and in a few cases also at 330 and 360 °C. Samples were measured in the course of ageing roughly in a logarithmic time series after 1, 2, 5, 10, 20, 50, 100, 200, 500, 1000, 2000 and 5000 hours. The measured quantities included complex permittivity , internal resistivity i and loss factor tan at temperatures ranging from -153 °C to +167 °C and in the frequency range 10-2 – 106 Hz. Changes in nanocomposites have been investigated using not just dielectric spectroscopy measurements, but other methods, too, namely Fourier-transformed infrared spectroscopy (FTIR), thermogravimetric analysis (TGA), differential scanning calorimetry (DSC) and scanning electron microscopy (SEM). The experiments have proved that materials with different fillers respond to the same concentrations of various fillers in different ways. The addition of nanoparticles, without the addition of microparticles, at a relatively low concentration (max 12 wt %), was not sufficient for reaching fundamental changes in dielectric spectrum; only smaller changes of dielectric strength and shifts of relaxations and in relaxation maps have occurred. Out of more pronounced changes, increase of concentration of the SiO2 filler in the epoxy matrix brings about a decrease of electrical conductivity in the resulting nanocomposite. The TiO2 filler had a different impact. Different TiO2 concentrations make their marked appearance in the region between the relaxation and relaxation. The TiO2-filled nanocomposites do not exhibit the unambiguous dependence of electrical conductivity on nanofiller concentration. It can be concluded that the mere addition of nanoparticles, without the addition of established microparticles, does not change the dielectric spectrum substantially. Generally, a serious problem was the production of the nanocomposite with a uniform distribution of nanoparticles. The preparation of such a nanocomposite was not trivial and, in industrial applications, this issue will require a specific focus, so as to avoid the formation of undesirable aggregates. Within the framework of this research, a methodology for the production of an epoxy nanocomposite has been developed with as high as possible uniformity of nanoparticle distribution.

Development of complex permittivity analysis techniques for evaluation of charge transport and trapping on 2D electronic systems / ２次元上の電荷輸送およびトラップを評価するための複素誘電率解析法の開発

Choi, Wookjin

23 January 2018

京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第20815号 / 工博第4419号 / 新制||工||1687(附属図書館) / 京都大学大学院工学研究科分子工学専攻 / (主査)教授 関 修平, 教授 佐藤 啓文, 教授 梶 弘典 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DGAM

Microwave conductivity

Organic electronics

Charge trnasport

Complex permittivity

2D electronic system

500

Microwave Characterization of Printable Dielectric Inks Using Additive Manufacturing Methods

York, Seth

12 July 2018

Two methods of dielectric characterization are presented that offer quick and cost-effective solutions for screening complex dielectric material properties. Through Direct-Print Additive Manufacturing (DPAM) methods, a dielectric material of choice is dispensed into a capacitor structure and characterized through 1-port s-parameter measurements. The presented methods use fixtures that are modeled and validated through simulation then implemented in practice. Advanced simulations are performed to gain insights which are used to optimize the dielectric characterization performance of the fixtures. Additional investigations are performed which investigate the durability of the fixture and material within by exposing the combination to rough environmental conditions for an extended duration. The presented capacitor structures are investigated to characterize dielectric materials within the bandwidth of 0.1-15 GHz, saving the time and effort required in using multiple dielectric characterization methods that cover the same bandwidth. Both methods are compared based on the results for each method achieved in practice while considering the process required perform each method. The pros and cons of the presented characterization methods are weighed which highlights the key aspects for successfully characterizing dielectric materials with each method as well as revealing the potential limitations associated with each.

Complex Permittivity

Capacitance

Circuit Model

S-Parameters

Electrical and Computer Engineering

Electromagnetics and Photonics