Análisis de falla de un cable metálico de 7/16” de diámetro de arreglo 6 x 36 con alma de acero usado en el izaje de cargas.

Flores Zúñiga, Rodrigo Alejandro

28 November 2023

La presente tesis considera las principales actividades llevadas a cabo durante el análisis de falla de un cable metálico de 7/16” de diámetro de arreglo 6 x 36 con alma de acero, cuya fractura se dio durante el izaje de una carga de 1 tonelada como parte del proceso de triturado de mineral de una empresa minera, en un puente grúa de 10 toneladas de capacidad nominal. Las muestras del cable recogidas llegaron al Laboratorio de Materiales de la PUCP con señales de desgaste y exceso de grasa. Este estudio describe la falla y las circunstancias que la rodean, examina la naturaleza de la rotura, evalúa la composición química y propiedades mecánicas del cable para comprobar que sus características cumplan las que se indican en las normas. Además, centra su atención, en las principales actividades llevadas a cabo durante el análisis de falla del cable de acero: inspección visual, análisis fractográfico, análisis metalográfico, ensayos de tracción y de análisis químico. Finalmente, los resultados indican que la causa más probable de falla es sobrecarga. Esto debido a las fracturas de tipo dúctil, encontradas en las superficies de fractura de los alambres, de los cuales está compuesto el cable. Esta sobrecarga indica que la falla es por el izaje de una carga de mucho mayor peso que la que indica el usuario. Asimismo, se plantean conclusiones y recomendaciones.

Cables--Pruebas

Localización de fallas (Ingeniería)

Kraftkabelförläggning i mark : - en studie av produktionsmetoder

Ivansson, Patrik, Werner, Christian, Bengtsson, Jonas

January 2006

The assignment given to us by NCC was to compose a degree project based on ground excavations for power cables. The aim of the study was to examine suitable excavation methods depending on different possible terrain conditions. The amount of previously written material within this subject is nearly non- existent and therefore there is a genuine interest by the NCC to receive a compilation of different production methods. The greater part of this study is based upon interviews with several companies active within this area of expertise. The technique of placing the electricity grid beneath ground for safety is today getting more and more common. The aftermath of the hurricane “Gudrun” has forced several power companies to re-evaluate their electric supply network, which has lead to more placements of power cables underground. We have come to the conclusion that there are several factors that would affect the method of choice for cable excavations. Costumer demands, obstacles and the difference in ground conditions are vital factors behind the verdict for suitable production methods.

Power cable

ground excavations for power cables

placements of power cables

Estlink

production methods

trenchless methods

horizontal drilling

Kraftkabel

kraftkabelförläggning

kabelförläggning

produktionsmetoder

Estlink

schaktmetoder

schaktfritt

schaktfria metoder

horisontell rördrivning

Building manufacturing engineering

Byggproduktionsteknik

Kraftkabelförläggning i mark : - en studie av produktionsmetoder

Ivansson, Patrik, Werner, Christian, Bengtsson, Jonas

January 2006

<p>The assignment given to us by NCC was to compose a degree project based on ground excavations for power cables. The aim of the study was to examine suitable excavation methods depending on different possible terrain conditions. The amount of previously written material within this subject is nearly non- existent and therefore there is a genuine interest by the NCC to receive a compilation of different production methods. The greater part of this study is based upon interviews with several companies active within this area of expertise. The technique of placing the electricity grid beneath ground for safety is today getting more and more common. The aftermath of the hurricane “Gudrun” has forced several power companies to re-evaluate their electric supply network, which has lead to more placements of power cables underground.</p><p>We have come to the conclusion that there are several factors that would affect the method of choice for cable excavations. Costumer demands, obstacles and the difference in ground conditions are vital factors behind the verdict for suitable production methods.</p>

Power cable

ground excavations for power cables

placements of power cables

Estlink

production methods

trenchless methods

horizontal drilling

Kraftkabel

kraftkabelförläggning

kabelförläggning

produktionsmetoder

Estlink

schaktmetoder

schaktfritt

schaktfria metoder

horisontell rördrivning

Building manufacturing engineering

Byggproduktionsteknik

Lightning induced voltages in cables of power production centers / Tensions Induites par une agression foudre dans les câbles de contrôle-mesure des centres de production d'énergie

Diaz Pulgar, Luis Gerardo

29 November 2016

Lorsqu’un bâtiment d’un centre de production d’électricité est frappé par la foudre, il se produit une dangereuse circulation de courants dans tous les composants connectés au bâtiment: les murs, le réseau de terre, et les câbles sortant du bâtiment. L’intérêt du présent travail est d’étudier les tensions transitoires aux extrémités de ces câbles, en particulier des câbles contrôle mesure, dans la mesure où ces câbles sont connectés à des équipements électroniques susceptibles d’être endommagés par des perturbations électromagnétiques engendrées par la foudre. Une approche basée sur la résolution numérique des équations de Maxwell via une méthode FDTD est adoptée. Notamment le formalisme de Holland et Simpson est utilisé pour modéliser toutes les structures constituées d’un réseau de fils minces: l’armature métallique du bâtiment, la grille en cuivre du réseau de terre, la galerie de béton et le câble coaxial de contrôle mesure. Une validation des modèles électromagnétiques développés pour chaque composant du site industriel est présentée. Une analyse de sensibilité est conduite pour déterminer l’influence des paramètres du système. En outre, la technique des plans d’expérience est utilisée pour générer un méta-modèle qui prédit la tension maximale induite aux extrémités du câble en fonction des paramètres les plus influents. Cela représentent un outil de calcul précis et informatiquement efficace pour évaluer la performance foudre des câbles de contrôle et de mesure. / When lightning strikes a building in a Power Generation Center, dangerous currents propagates through all the components connected to the building structure: The walls, the grounding grid, and the cables leaving the building. It is the interest of this work to study the transient voltages at the terminations of these cables external to the building.Particularly, the Instrumentation and Measure (IM) cables, since they are connected to electronic equipment susceptible of damage or malfunctioning due to lightning ElectroMagnetic perturbations. A full wave approach based on the numerical solution of Maxwell’s equations through the FDTD algorithm is adopted. Notably, the formalism of Holland and Simpson is used to model all the structures composed of thin wires: the building steel structure, the grounding copper grid, the concrete cable ducts and the coaxial IM cables. A validation of the model developed for each component is presented. A sensitivity analysis is performed in order to the determine the main parameters that configure the problem. Also, the Design of Experiments (DoE) technique is used to generate a meta-model that predicts the peak induced voltages in the cable terminations, as a function of the main parameters that configure the industrial site. This represents an accurate, and computationally efficient tool to assess lightning performance of IM cables.

Tensions induites

Cables

Foudre

Centre de production d’électricité

FDTD

Fil mince

Plans d’expérience

Meta-modèles

Induced voltages

Cables

Lightning

Power generation centers

FDTD

Thin wire

Design of experiments

Meta-models

621.31

Coupling Of Electromagnetic Fields From Intentional High Power Electromagnetic Sources With A Buried Cable And An Airborne Vehicle In Flight

Sunitha, K

04 1900

Society’s dependence on electronic and electrical systems has increased rapidly over the past few decades, and people are relying more and more on these gadgets in their daily life because of the efficiency in operation which these systems can offer. This has revolutionized many areas of electrical and electronics engineering including power sector, telecommunication sector, transportation and many other allied areas. With progress in time, the sophistication in the systems also increased. Also as the systems size reduced from micro level to nano level, the compactness of the systems increased. This paved the way for development in the digital electronics leading to new and efficient IC 0s that came into existence. Power sector also faced a resurge in its technology. Most of the analog meters are now replaced by digital meters. The increased sophistication and compactness in the digital system technology made it susceptible to electromagnetic interference especially from High Power Electromagnetic Sources. Communication, data processing, sensors, and similar electronic devices are vital parts of the modern technological environment. Damage or failures in these devices could lead to technical or financial disasters as well as injuries or the loss of life. Electromagnetic Interference (EMI) can be explained as any malicious generation of electromagnetic energy introducing noise or signals into electric and electronic systems, thus disrupting, confusing or damaging these systems. The disturbance may interrupt, obstruct, or otherwise degrade or limit the effective performance of the circuit. These effects can range from a simple degradation of data to a total loss of data. The source may be any object, artificial or natural, that carries rapidly changing electrical currents, such as an electrical circuit. The sources of electromagnetic interference can be either unintentional or intentional. The sources producing electromagnetic interference can be of different power levels, different frequency of operation and of different field strength. One such classification of these sources are the High Power Electromagnetic Sources (HPEM) High Power Electromagnetic environment refers to sources producing very high peak electromagnetic fields at very high power levels. These power levels coupled with the extremely high magnitude of the fields are sufficient to cause disastrous effects on the electrical and electronic systems. There has been a lot of developments in the field of the source technology of HPEM sources so that they are now one of the strongest sources of electromagnetic interference. High Power Electromagnetic environment refers to the sources producing very high peak electromagnetic fields at very high power levels. These power levels coupled with the extremely high magnitude of the fields are sufficient to cause disastrous effects on the electrical and electronic systems. HPEM environments are categorized based on the source characteristics such as the peak electric field, often called threat level, frequency coverage or bandwidth, average power density and energy content. The sources of electromagnetic interference can be either unintentional or intentional. Some examples of unintentional sources are the increased use of electromagnetic spectrum which generates disturbance to various systems operating in that frequency band, poor design of systems without taking care of other systems present nearby as well as lightning. Intentional sources are High altitude Electromagnetic Pulse (HEMP) or Nuclear Electromagnetic Pulse (NEMP) due to nuclear detonations, Ultra Wide Band (UWB) field from Impulse Radiating Antennas (IRA), Nar-row band fields like those coming from High Power Microwaves (HPM), High Intensity Radio Frequency (HIRF) sources. Of these the lightning is natural and all other sources are man-made. The significant progress in the Intentional High-Power Electromagnetic (HPEM) sources and antenna technologies and the easy access to simple HPEM systems for anyone entail the need to determine the susceptibility of electronic equipment as well as coupling of these fields with systems such as cables (buried as well as aerial), airborne vehicle etc. to these types of threats. Buried cables are widely used in the communication and power sectors due to their efficient functioning in urban cities and towns. These cables are more prone to electromagnetic interferences from HPEM sources. The buried communication cables or even the buried data cables are connected to sensitive equipments and hence even a slight rise in the voltage or the current at the terminals of the equipments can become a serious problem for the smooth operation of the system. In the first part of the thesis the effect of the electromagnetic field due to these sources on the cables laid underground has been studied. The second part of this thesis deals with the study of the interaction of the EM field from the above mentioned HPEM sources with an airborne vehicle. Airborne vehicle and its payload are extremely expensive so that any destruction to these as a result of the voltages and currents induced on the vehicle on account of the incoming HPEM fields can be quite undesirable. The incoming electromagnetic fields will illuminate the vehicle along its axis which results in the induction of currents and voltages. These currents and voltages will get coupled to the internal control circuits that are extremely sensitive. If the induced voltage/ current magnitude happen to be above the damage threshold level of these circuits then it will result in either a malfunction of the circuit or a permanent damage of it, with both of them being detrimental to the success of the mission. This will even result in the abortion of the mission or possible degradation of the vehicle performance. Hence it is worthwhile to see what will be the influence of an incoming HPEM electromagnetic field on the airborne vehicle with and without the presence of an exhaust plume. In this work, the HPEM sources considered are NEMP, IRA and HPM. The electromagnetic fields produced by the EMP can induce large voltage and current transients in electrical and electronic circuits which can lead to a possible malfunction or permanent damage of the systems. The electric field at the earth 0s surface can be modelled as a double exponential pulse as per the IEC standard 61000-2-9. The NEMP field incident on the earth’s surface is considered as that coming from a source at a distance far away from the earth’s surface; hence a plane wave approximation has been used. Impulse radiating antennas are the ones that are used as the major source of ultra wide band radiation. These are highly powerful antennas that use a pulsed power source as the input and this power source is conditioned to get an extremely sharp rise time pulse. These antennas are very high power antennas that are capable of producing a significant electromagnetic field. Impulse radiating antenna is a paraboloidal reflector and hence is an aperture antenna. Initially the radiated field due to this aperture needs to be found out at any observation point from the antenna. In this thesis, the aperture distribution method is used to accurately determine the field due to the aperture. In this method the field reflected from the surface of the reflector is first found on an imaginary plane through the focal point of the reflector that is normal to the axis of the reflector, by using the principles of geometrical optics, which then is extended to the observation point. The IRA considered for the present work is the one of the most powerful IRA as per the published literature available in the open domain. This has an input voltage of 1.025 MV. The far field electric field measured at the boresight (at r =85 m) being equal to 62 kV/m, and the uncorrected pulse rise time (10%-90%) is 180 ps for this IRA. HPM sources are usually electromagnetic radiators having a reflector with a horn antenna kept at their focal point for excitation. HPM sources generally operate in single mode or at tens or hundreds of Hz repetition rates. Many HPM radiators are developed in the world each with their own peculiar geometry and power levels. In the present thesis, a single waveguide (WR-975) fed HPM antenna assembly has been studied. The chosen waveguide has a cut-o_ frequency of 1 GHz and a power level of 10 GW. The wavelength associated with the waveguide is 0.3 m. The field pattern shows a definite peak in its response when the frequency is 1 GHz, the cut-off frequency of the waveguide. The electric field coming out of the HPEM sources travel through the medium that is either air alone or a combination of air and soil respectively depending upon whether the circuit on which the coupling is analysed is an airborne vehicle or an underground cable. The media plays a major role in the coupling, as the field magnitude is influenced by the characteristic properties of the media. As height increases the magnitude of the electric field decreases for all types of sources and also the time before which the field waveform starts is increased. The electric field in the soil is decided by the soil properties such as its conductivity and permittivity. The soil is modelled in frequency domain and the high frequency behaviour of soils is considered with its conductivity and permittivity taken as functions of frequency, as the incident field has high frequency components. A soil medium can be electromagnetically viewed as a four component dielectric mixture consisting of soil particles, air voids, bound water, and free water. When electric field is incident on the soil, it gets polarized. This is as a result of a wide variety of processes, including polarization of electrons in the orbits around atoms, distortion of molecules, reorientation of water molecules, accumulation of charge at interfaces, and electrochemical reactions. Whatever is the HPEM source, an increase in the soil conductivity results in an increased attenuation of the field. Also there is a significant loss of high frequency components in the GHz range in the field due to the selective absorption by the soil. This effect causes the percentage attenuation to be maximum for HPM and minimum for NEMP and IRA lying in between these two extremities. Increase in permittivity of the soil causes attenuation of the electric field for all HPEM sources. This is due to the relaxation mechanisms in the soil due to atomic- or molecular-scale resonances. The coupling of the electromagnetic fields due to HPEM sources is considered in the first phase. Two cables are considered (i) buried shielded and (ii) buried shielded twisted pair cables. The results are arrived at using the Enhanced Transmission Line model. The induced current is more for a shielded cable than a twisted pair cable of the same configuration. The induced current magnitude depends upon the type of the HPEM source, the depth of burial of the cable and the point on the cable where the current/ voltage is computed. Current is maximum at the centre of the cable for a matched termination and the voltage is the minimum at this point. The ratio of the induced current in the inner conductor with respect to the shield current of a shielded cable is the least for an HPM, and maximum for NEMP. This is due to the fact that higher frequencies are absorbed more by the shield of the cable. This affects HPM induced current the maximum and NEMP the least because of the presence of the lower frequency components in NEMP. Induced current in the twisted pair cable depends upon the number of pairs of the cable and the pitching of the cable. The electromagnetic field from the HPEM sources propagates with less attenuation in air due to the lower resistance this medium offers for electromagnetic wave propagation. Hence any system in air, be it electrical or electronic, will be under the strong illumination by these electromagnetic fields. As the second part of this thesis, the influence of the electromagnetic fields from all the three HPEM sources on an airborne vehicle in flight is analysed. For this part of study, the Electromagnetic (EM) fields radiated by all the three sources at different heights from the earth 0s surface have been computed. The coupling study has been done for the case of a vehicle with plume as well as without plume. For the second case, the electromagnetic modelling of the plume has been done taking into consideration its conductivity, which in turn depends on the different ionic species present in the plume. The species of the exhaust plume depends upon the chemical reactions taking place in the combustion chamber of the nozzle of the vehicle. The presence of the alkali metals as impurity in the airborne vehicle propellant will generate considerable ion particles such as Na+, Cl in addition to e- in the plume mixture during combustion which makes the plume electrically conducting. But it does not influence the pressure, temperature and velocity of the plume. After the nozzle throat, the exhaust plume regains the supersonic speed, so the flow of the exhaust plume is assumed as compressible flow in the second region. The electrons have high collision frequency, high number density, high plasma frequency and lower molecular mass and hence the highly mobile electrons dominate the heavy ion particle in the computation of the electrical conductivity of the plume. The plume conductivity decreases marginally from the axis till a distance equal to the nozzle radius but the peak value increases sharply towards the exit plane edge of the nozzle radius. The induced current is computed using Method of Moments. The induced current depends upon the type of interference source, its characteristics, whether the plume is present or not and the type of the plume. The HPM induces maximum current in the vehicle because of the fact that the plume has a tendency to become more conductive at these frequencies. The induced currents due to the EM fields from IRA and NEMP comes after the HPM. The presence of the plume enhances the magnitude of the induced current. If the plume is homogeneous then the current induced in it is more.

Electromagnetic Interference (EMI)

Electromagnetic Fields

High Power Electromagnetic Sources

Airborne Vehicle In Flight

Nuclear Electromagnetic Pulse (NEMP)

Impulse Radiating Antenna (IRA)

Electric Lines

Buried Cables

Electric Fields

High Power Microwaves (HPM)

Electromagnetic Field Coupling

Underground Cables

Buried Shielded Cable

Electrical Engineering

Návrh kabeláže v průmyslovém prostředí - administrativní budova / Project of Cabling System for Industrial Ethernet - Administration Building

Pospíšilová, Renata

January 2011

The goal of this master’s thesis is to suggest a cabling system in an administration building of company PHARMIX s.r.o. This cabling system must improve nowadays situation in the administration building and simultaneously has to make possible reserves for following enlargement of computing equipment. This cabling system must be also variable in case of possible rebuilding offices. In the master’s thesis, there are described processes whose aim is an optimal solution, to suggested cabling system.

[en] INFLUENCE OF THE CONCRETE STRENGTH ON THE BEHAVIOR OF PRESTRESSED BEAMS WITH EXTERNAL ARAMID TENDONS / [es] INFLUENCIA DE LA RESISTENCIA DEL CONCRETO SOBRE LA RESISTENCIA DE VIGAS PROTENDIDAS CON CABLES SINTÉTICOS EXTERNOS / [pt] INFLUÊNCIA DA RESISTÊNCIA DO CONCRETO SOBRE A RESISTÊNCIA DE VIGAS PROTENDIDAS COM CABOS SINTÉTICOS EXTERNOS

SIDICLEI FORMAGINI

20 February 2001

[pt] Este trabalho apresenta uma análise experimental de cinco vigas de concreto, simplesmente apoiadas, protendidas com cabos sintéticos externos, com o objetivo de estudar a influência da resistência do concreto na variação da força nos cabos de protensão e na resistência à flexão das vigas. A protensão das vigas foi feita com cabos sintéticos conhecidos como Parafil, com resistência a tração de 1950MPa e módulo de elasticidade de 126000MPa. A única variável considerada foi a resistência do concreto, cujo valores foram 36, 57, 73, 74 e 104MPa. O concreto das vigas com resistência de 57, 73, 74 e 104MPa foram feitos com o uso da microssílica e aditivo superplastificante, com exceção da viga com resistência de 36MPa que foi feita com concreto comum. Os resultados mostraram que a influência da resistência do concreto sobre a resistência à flexão das vigas não é tão grande. Para o aumento de 189% na resistência do concreto, houve um aumento na variação da força no cabo de apenas 13.6% e um aumento de 33% no momento de ruptura. Na comparação dos resultados experimentais com os resultados das principais normas e modelos propostos verificou-se que todos fornecem bons resultados e subestimam os valores experimentais. Na comparação dos resultados experimentais com o modelo de Campos (1993) observou-se que os valores da variação na força no cabo superestimam os valores experimentais. / [en] An experimental investigation on five concrete beams prestressed with external aramid tendons was carried out for the purpose of studying the influence of concrete on the flexural behaviour at service and ultimate loads. The beams were prestressed with Type G Parafil tendons, which are made of Kevlar 49 fibres. The strength and elastic modulus of the cables are 1950 MPa and 12600 MPa respectively. The main variable considered in the testes was the strength of the concrete with values of 36, 57, 73, 74 and 104 MPa. The results show that for an increase of 189% in the strength of the concrete, an increase of only 33% in the ultimate moment is observed. Experimental results were compared with results predicted by some Codes of Practice. This comparison shows that the theoretical models give good results. / [es] Este trabajo presenta un análisis experimental de cinco vigas de concreto, simplemente apoyadas, protendidas con cables sintéticos externos, con el objetivo de estudiar la influencia de la resistencia del concreto en la variación de la fuerza de los cables de protensión y en la resistencia a la flexión de las vigas. La protensión de las vigas fue hecha con cables sintéticos conocidos como Parafil, con resistenciaa la tracción de 1950MPa y módulo de elasticidad de 126000MPa. La única variable considerada fue la resistencia del concreto, cuyos valores fueron 36, 57, 73, 74 y 104MPa. El concreto de las vigas con resistencia de 57, 73, 74 y 104MPa fueron construidos con el uso de la microsílica y aditivo superplastificante, con excepción de la viga con resistencia de 36MPa que fue construida con concreto común. Los resultados mostraron que la influencia de la resistencia del concreto sobre la resistencia a la flexión de las vigas no es grande. Para el aumento de 189% en la resistencia del concreto, se produjo un aumento en la variación de la fuerza en el cable de apenas 13.6% y un aumento de 33% en el momento de ruptura. Comparando los resultados experimentales con los resultados de las principales normas y modelos propuestos se verificó que todos ofrecen buenos resultados y subestiman los valores experimentales. Comparando los resultados experimentales con el modelo de Campos (1993) se observó que los valores de la variación en la fuerza en el cable superestiman los valores experimentales.

[pt] VIGA DE CONCRETO PROTENDIDO

[pt] CONCRETO DE ALTA RESISTENCIA

[pt] CABO SINTETICO

[en] PRESTRESSED CONCRETE BEAM

[en] HIGH-STRENGTH CONCRETE

[en] SYNTHETIC CABLES

[es] VIGA DE CONCRETO PROTENDIDO

[es] CONCRETO DE ALTA RESISTENCIA

[es] CABLES SINTETICOS

Wideband coaxial cable transfer impedance for Karroo Array Telescope

Andriambeloson, Joely Andrianina

12 1900

Thesis (MScEng)--Stellenbosch University, 2011. / ENGLISH ABSTRACT: Through the Karoo Array Telescope, and its extension MeerKAT, South Africa is demonstrating its capabilities to host the most powerful radio telescope ever, the Square Kilometre Array (SKA). This new interferometer is intended to assist radio astronomers in unlocking the mysteries concealed in the far regions of the universe. A thorough investigation of Radio Frequency Interference (RFI) sources at each stage of the design becomes relevant for the success of the project. The electromagnetic coupling through coaxial cables is the main focus of this thesis since 90% of the Electromagnetic Compatibility (EMC) problems come from inadequate system layout and grounding, where cabling plays the major role. Interest revolves around better noise immunity, low radiation and cost. Transfer impedance (ZT ) and shielding e ectiveness (SE) are used as the cable selection criteria. Several measurements of coaxial cables identi ed on KAT-7 have been performed for ZT characterisation from 300 kHz up to 1.3 GHz. A current injection method is used to identify the ZT for the low frequency region. We derived the high frequency part of ZT , with a reverberation chamber technique (RC) measuring shielding e ectiveness. At rst, we calibrated the RC according to the relevant IEC 61000-4-21 standard and evaluated the result with an Open Area Test Site (OATS) E- eld estimation. The accuracy of the E- eld within the chamber is also addressed, based on statistical analysis of the chamber's independent samples. The OATS E- eld equivalent determination showed a good correlation with the OATS E- eld data of a standard radiator. A coaxial air-line ZT veri ed the theoretical ZT model within 7 dB and showed the expected 20 dB/decade slope variation. Furthermore, the braiding porpoising e ect has been noticed with some cable samples. Here, a variation less than 20 dB/decade occurs at lower frequency. Then, the slope changes to 20 dB/decade at high frequency. This study illustrates a practical comparison of cable performance and constitutes a rst approach to RFI mitigation of the MeerKAT cabling system. / AFRIKAANSE OPSOMMING: Deur middel van die Karoo Reeks Teleskoop, asook sy uitbreiding MeerKAT, demonstreer Suid-Afrika sy vermo om die mees kragtige radioteleskoop ooit, die Vierkante Kilometer Reeks (SKA), te vestig. Hierdie nuwe interferometer is bedoel om radiosterrekundiges te help in die ontsluiting van die geheimenisse wat versteek is in die verre reike van die heelal. 'n Deeglike ondersoek van Radio Frekwensie Steurings (RFS) bronne by elke stadium van die ontwerp is belangrik vir die sukses van die projek. Die elektromagnetiese koppeling deur koaksiale kabels is die hoo okus van hierdie tesis, aangesien 90% van die elektromagnetiese versoenbaarheid (EMV) probleme ontstaan as gevolg van onvoldoende stelsel-uitleg en beaarding, waar kabels die hoofrol speel. Beter ruis-immuniteit, lae straling en koste vorm die areas van belang. Oordragimpedansie (ZT ) en afskermingsdoeltre endheid (SE) word gebruik as die kabelkeuringskriteria. Verskeie metings van koaksiale kabels wat op KAT-7 gedenti seer is, is uitgevoer vir ZT karakterisering van 300 kHz tot 1,3 GHz. 'n Stroom-induseringsmetode is gebruik om die ZT vir die lae-frekwensiebereik te identi seer. Ons het die ho-frekwensie deel van ZT afgelei met 'n weerkaatsingskamer tegniek (RC) wat afskermingsdoeltre endheid meet. Eerstens het ons die RC gekalibreer volgens die relevante IEC 61000-4-21 standaard en die resultaat met 'n Ope Area Toetsterrein (OAT) E-veld benadering gevalueer. Die akkuraatheid van die E-veld in die kamer is ook aangespreek, gebaseer op 'n statistiese analise van die kamer se onafhanklike monsters. Die OAT E-veld ekwivalente benadering het goed met die OAT E-veld data van 'n standaard uistraler gekorreleer. 'n Koaksiale lugmedium-transmissielyn ZT bevestig die teoretiese ZT model binne 7 dB en het ook die verwagte 20 dB/dekade variasie in helling getoon. Verder is die golwende e ek oor die kabelomvlegting opgemerk met sekere kabels. Hier is 'n variasie van minder as 20 dB/dekade gevind by die laer frekwensie. Dan verander die helling na 20 dB/dekade teen ho frekwensie. Hierdie studie toon 'n praktiese vergelyking van die verrigting van die kabel en 'n eerste benadering tot RFS tempering van die MeerKAT kabelstelsel.

Transfer impedance

Coaxial cables

Reverberation chambers

Dissertations -- Electronic engineering

Theses -- Electronic engineering

Karoo Array Telescope

Electromagnetic coupling

A review of mitigation methods to reduce the impact on the marine environment by underwater works: a case studyof submersible cable laying

Ng, Cheuk-kin, Jacky., 伍焯健.

January 2004

published_or_final_version / Environmental Management / Master / Master of Science in Environmental Management

Marine pollution - China - Hong Kong.

Thermally stimulated current and electrokinetic investigations of HV cable models

Hobdell, Stephen Barry

January 2000

No description available.

621.319