Computer graphics aided design & microcomputer control of an advanced permanent magnet motor drive

Chau, Kwok-tong., 鄒國棠

January 1990

published_or_final_version / Electrical and Electronic Engineering / Master / Master of Philosophy

Magnets, Permanent.

Computer graphics.

Microcomputers.

Sinchroninio mokymo proceso standartizavimas vaizdo paskaitų sistemoje ViPS / Standardisation of synchronous learning process in video lecture and presentation system ViPS

Mačiulis, Edvinas

16 July 2008

Magistriniame darbe rašoma apie ViPS lokalaus video paskaitų įrašymo įrankį, ir jo standartizavimo galimybes. Atliekama egzistuojančių sistemų apžvalga ir analizė, įvertinamos kokybinės ir funkcinės galimybės. Pateikiama informaciją tiek apie platformos architektūrą, tiek apie pačio įrankio realizavimo detales, funkcinius ir nefunkcinius reikalavimus, testavimo metodus. Apžvelgiamos e.mokymosi technologijų specifikacijos, tokios kaip IMS LD, AICC, LOM, SCORM. Įvertinamos ir ažvelgiamos SCORM standarto realizavimo galimybės bei diegimo rezultatas. / In this master thesis main topic is distace learning. It‘s another learning method more confortable, but makes a little bit difficulties, when the intent is to deliver information ant to make distance learning equal to the traditional. The main problem of distance learning is the presentation of the learning material. Lecturers and other people are trying to make learning process easier and more effective. It‘s characteristics depends on the tools, software and hardware, witch is used to represent and deliver learning material. In this work we will know more about video presentation system ViPS and it‘s additional tool for local video lectures recording, when there is not internet. Presented information is about the value tools give us and requirements for it‘s functionality, architecture and results. Finally we will know more about distance learning standards, it‘s advantages and disadvanages and of course the possibility of implementation of the most suitable standart for the ViPS local recoding tool.

Informatics Engineering

Sinchroninis mokymasis

ViPS

SCORM

Synchronous learning

ViPS

SCORM

Reduced-order block techniques for singularly perturbed systems with application to permanent-magnet synchronous motors

Shouse, Kenneth R.

08 1900

No description available.

Discrete-time systems

Filters (Mathematics)

Electric motors, Synchronous

Minimization of jitter in SDH/SONET networks via an all-digital desynchronizer

Autry, Chris Brian

08 1900

No description available.

SONET (Data transmission)

Telecommunication systems

Early-stage French as a foreign language in Taiwan : a case study involving L2 oral proficiency, motivation and social presence in synchronous computer mediated communication (CMC)

Ko, Chao-Jung

January 2010

This study, adopting a case study approach with a group of beginning-level FFL (French as a foreign language) learners, investigated the possibility that initial level foreign language learners may acquire oral skills through synchronous CMC, and the impacts of synchronous CMC learning on their motivation, as well as their social presence. The participants were 12 FFL beginners in a Taiwanese university. Divided into three groups, they were required to conduct three tasks in three different learning environments (video/audio, audio and f2f) during an academic semester (18 weeks). The semester constituted cycles of three-week practices on those tasks. The contents of the tasks were inter-connected. Before each oral task, all the participants had to conduct the same task in synchronous text chat. The data for this study was collected from the participants’ performance in three oral tests held at the initial, middle and final phases of the study, their online chat records, interview transcriptions, learning journal, questionnaires completed at the beginning and the end of the study, and the instructor’s observation journal. The results suggest that these three CMC learning modes bring only partial benefits in terms of learners’ oral proficiency development. It is factors generated by the three learning environments, rather than the environments themselves, that have the largest impact on the learners’ oral proficiency development, learning motivation and attitudes towards the target language. However, the differences in the environments are reflected in particular in the learners’ perception of social presence.

440

Thermal modelling of a high speed permanent magnet synchronous machine / Andries J. Grobler

Grobler, Andries Johannes

January 2011

Thermal modelling is of great importance in all electric machines but especially in permanent magnet synchronous machines (PMSMs). The thermally fragile permanent magnets (PMs) can more easily be demagnetized at high temperatures. When high speed machines are considered, heat extraction surfaces are small due to the higher energy density. This thesis focuses on the thermal modelling of a high speed slotless PMSM using analytical techniques. From literature it is clear that analytical distributed models have not reached its full potential in thermal modelling of electric machines. Thermal experiments on high speed electric machine, including rotor PM temperature measurements are not commonly found in literature. The thermal behaviour of each component of the machine is influenced by the overall temperature distribution. The widely used lumped parameter (LP) cylindrical component model derived by Mellor et al. is used to derive a LP model of the entire machine. A two dimensional (2-D) analytical distributed model is derived for the rotor PM using the separation of variables method. Three of the boundaries are assumed to be of the convection type and the fourth of constant heat flow type. Different convection coefficients are assumed to exist in the radial and axial directions. The distributed model is verified using COMSOL R and good correlation is shown. The distributed model is used to determine the temperature distribution in the PM and the convection heat flow in the axial direction. Loss calculation is an integral part of thermal modelling. Temperature changes in an electric machine is due to the interaction between the heat generation (losses) and heat removal. The losses found in a high speed slotless PMSM are investigated. A 2-D analytical magnetic model is used to determine the stator lamination loss as well as the stator winding eddy current loss. A simple LP model is derived for the rotor eddy current loss. Due to the relatively large resistivity of the shielding cylinder and PM material, the rotor eddy current loss is a significant part of the total machine loss. The tangential current width is determined empirically in this thesis but a 3-D distributed model which includes end space effects and skin depth could also be used. A large part of thermal modelling is empirically based. The convection and interface resistances are determined through a set of experiments in this thesis. The measured and calculated convection coefficients correlated well for both forced and natural convection cooling. A large temperature increase found during the no-load test can be attributed to large bearing loss, possibly due to axial loading. The LP model is modified to include the phenomena found during the experiments. The thermal model is used to predict the temperatures of a high speed PMSM at rated load and speed. Although the PM is not heated above the Curie temperature, demagnetization is still possible. According to the model, the machine will not be able to operate at full load and speed for extensive periods due to mechanical stress limits being exceeded. The temperature distribution of the PM could not be verified since the temperatures in the air gap and end space could not be measured. It is expected that axial heat flow will be larger than what is currently predicted by the distributed model. A sensitivity analysis was used to investigate the influence of the thermal resistances and losses on the machine temperatures. Methods for reducing the rotor eddy current loss and interface resistances are also discussed. The first contribution of this thesis is the 2-D analytical distributed model for the PM of a high speed PMSM. Hot spots and 2-D heat flow can be analysed using this model. Combining the LP and 2-D analytical distributed models is another contribution. This combines the simplicity and fast solution times of the LP model with the 2-D thermal distribution of the analytical distributed model. The systematic experimental investigation of the thermal behaviour of a high speed PMSM is a further contribution. / Thesis (Ph.D. (Electrical Engineering))--North-West University, Potchefstroom Campus, 2011.

Thermal modelling

Permanent magnet synchronous machine

Lumped parameter

Analytical distributed

Thermal modelling of a high speed permanent magnet synchronous machine / Andries J. Grobler

Grobler, Andries Johannes

January 2011

Thermal modelling is of great importance in all electric machines but especially in permanent magnet synchronous machines (PMSMs). The thermally fragile permanent magnets (PMs) can more easily be demagnetized at high temperatures. When high speed machines are considered, heat extraction surfaces are small due to the higher energy density. This thesis focuses on the thermal modelling of a high speed slotless PMSM using analytical techniques. From literature it is clear that analytical distributed models have not reached its full potential in thermal modelling of electric machines. Thermal experiments on high speed electric machine, including rotor PM temperature measurements are not commonly found in literature. The thermal behaviour of each component of the machine is influenced by the overall temperature distribution. The widely used lumped parameter (LP) cylindrical component model derived by Mellor et al. is used to derive a LP model of the entire machine. A two dimensional (2-D) analytical distributed model is derived for the rotor PM using the separation of variables method. Three of the boundaries are assumed to be of the convection type and the fourth of constant heat flow type. Different convection coefficients are assumed to exist in the radial and axial directions. The distributed model is verified using COMSOL R and good correlation is shown. The distributed model is used to determine the temperature distribution in the PM and the convection heat flow in the axial direction. Loss calculation is an integral part of thermal modelling. Temperature changes in an electric machine is due to the interaction between the heat generation (losses) and heat removal. The losses found in a high speed slotless PMSM are investigated. A 2-D analytical magnetic model is used to determine the stator lamination loss as well as the stator winding eddy current loss. A simple LP model is derived for the rotor eddy current loss. Due to the relatively large resistivity of the shielding cylinder and PM material, the rotor eddy current loss is a significant part of the total machine loss. The tangential current width is determined empirically in this thesis but a 3-D distributed model which includes end space effects and skin depth could also be used. A large part of thermal modelling is empirically based. The convection and interface resistances are determined through a set of experiments in this thesis. The measured and calculated convection coefficients correlated well for both forced and natural convection cooling. A large temperature increase found during the no-load test can be attributed to large bearing loss, possibly due to axial loading. The LP model is modified to include the phenomena found during the experiments. The thermal model is used to predict the temperatures of a high speed PMSM at rated load and speed. Although the PM is not heated above the Curie temperature, demagnetization is still possible. According to the model, the machine will not be able to operate at full load and speed for extensive periods due to mechanical stress limits being exceeded. The temperature distribution of the PM could not be verified since the temperatures in the air gap and end space could not be measured. It is expected that axial heat flow will be larger than what is currently predicted by the distributed model. A sensitivity analysis was used to investigate the influence of the thermal resistances and losses on the machine temperatures. Methods for reducing the rotor eddy current loss and interface resistances are also discussed. The first contribution of this thesis is the 2-D analytical distributed model for the PM of a high speed PMSM. Hot spots and 2-D heat flow can be analysed using this model. Combining the LP and 2-D analytical distributed models is another contribution. This combines the simplicity and fast solution times of the LP model with the 2-D thermal distribution of the analytical distributed model. The systematic experimental investigation of the thermal behaviour of a high speed PMSM is a further contribution. / Thesis (Ph.D. (Electrical Engineering))--North-West University, Potchefstroom Campus, 2011.

Thermal modelling

Permanent magnet synchronous machine

Lumped parameter

Analytical distributed

Non-invasive detection of air gap eccentricity in synchronous machines using current signature analysis

Thirumarai Chelvan, Ilamparithi

13 December 2012

Air gap eccentricity fault is one of the major faults that afflict the life and performance of rotating machines. Eccentricity fault, in the worst case, causes a stator rotor rub. Thus, a condition monitoring scheme to identify eccentricity fault at its initial stage is necessary. The most widely practised air gap monitoring schemes for synchronous machines are expensive and invasive sensors based. This work has focussed on developing an inexpensive, non-invasive, air gap monitoring technique especially for salient pole synchronous machines. Motor current signature analysis has been mostly preferred for the above mentioned purpose. By monitoring the frequency spectrum of the machine’s current, faulty condition can be isolated provided the fault specific frequency components are known beforehand. The research work, therefore, has developed a specific permeance function using binomial series for salient pole machines that can be used to identify eccentricity specific harmonic components in the line current spectrum. Then by performing the magneto-motive force – specific permeance analysis the characteristic frequency components have been predicted. In order to validate the prediction as well as to identify a trend in the variation of these harmonic components with changing levels of eccentricity, mathematical models of a three phase reluctance synchronous machine and a three phase salient pole synchronous machine based on modified winding function approach have been developed. The models have been made to incorporate static, dynamic and mixed eccentricity conditions of varying severity. Also time stepped finite element based models have been simulated in Maxwell-2D to verify the theoretical predictions. With the help of eccentrically cut bushings, experiments were then conducted in the laboratory to corroborate the proposed eccentricity detection scheme. It has been observed that non-idealities such as supply time harmonics, machine constructional asymmetry, supply voltage unbalance etc. negatively impact the diagnostic technique. Consequently, a residual estimation based fault detection scheme has been implemented successfully to distinguish eccentricity fault from healthy condition. Moreover, detection logic have been put forth to discriminate the type of eccentricity and to estimate the severity of the fault. / Graduate

motor

condition monitoring

fault diagnosis

eccentricity

synchronous machine

Modal analysis of power system dynamics.

Lemay, Jacques

January 1972

No description available.

Electric power systems

Generation of Sets of Sequences Suitable for Multicode Transmission in Quasi-Synchronous CDMA Systems

Saito, Masato, Yamazato, Takaya, Okada, Hiraku, Katayama, Masaaki, Ogawa, Akira

03 1900

No description available.

quasi-synchronous CDMA

Gold code

orthogonal Gold code

multicode transmission