Category Archives: Fără categorie

Designing a Simultaneous Control of Several Motors with a VHL Programming Language for a Single Microcontroller

Abstract 

The paper is focused, mainly, on the timing design for the simultaneous digital control of several electrical motors using a very high level programming language (under an Integrated Development Environment – IDE) and a single microcontroller. The initial problem that had led to this work was the control of a tool trajectory in a multi-axis system with minimal control equipment and by means of a very friendly software support. The results are included in two papers. This first one contains the software support. The main contribution refers to a programming solution for obtaining independent / parallel control of the time delays for several channels. The author gives also original formulas for the timing calibration. The application implements a simultaneous control of two different steppers and two different DC motors, each of them with different adjustable speed and its own motion direction. The program is designed in a modular manner using several user macros. The paper presents also the simulation results by the graphical interface. The validity of the solution is proved by some experimental results, included in the paper. The application fields concern both the academic area and the industry, the best known examples being robotics, machine-tools, electrical vehicles, drones and many others. images

Analysis of a Step-Down DC-DC Converter: Linear Versus Nonlinear Circuit

Abstract 

This paper aims to investigate the step-down dc-dc converters from circuit analysis viewpoint. These converters have a lot of utilizations, including different applications in power energy conversion domain, being mentioned also in electromagnetic compatibility studies.That is why the study and the analysis of such devices were and continue to be of a real interest for the scientific community. For this purpose this paper aims to bring a contribution in the domain, by offering equivalent schemes of different accuracies and alternative methods of analysis in time-varying regimes for step-down dc-dc converters used in electromagnetic compatibility investigations. Various time analysis methods are used here in order to analyze the step-down dc-dc converter circuit. Each method is well explained, starting from the basic equations of the circuit, continuing with the particularities of the approaches and finalizing with the presentation of the equations sets in the final form. For each method a program was created where the obtained equations were implemented. The most important results are presented in each case; they correspond both to the steady state and to the initial variable regime. The final part focuses on the differences between the results obtained using the real nonlinear
characteristics of some elements and those resulted using their linearized model. The resulted waveforms are discussed comparatively not only using different methods of
analysis and linear and nonlinear schemes of the converter, but also using results offered by commercial software specialized in electric and electronic circuit analysis. Finally
the advantages and the disadvantages of each method are underlined and some conclusions are depicted.
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Analytical Algorithms for Synthesis of Modal Controllers by the Maximum Stability Degree Criterion

Abstract 

The practice of synthesis the controllers demonstrates,
that for the determination of the dynamic tuning
parameters of the controller is more convenient to operate
with the analytical expressions with a low volume of calculations
that dependent on the known parameters of control
object. The analytical synthesis expressions, on the one hand
have the advantage of decreasing the volume of calculation
of tuning parameters (compared with the synthesis methods
and algorithms that include a number of steps) and, by the
other hand, using of the analytical expressions is a good alternative in case of the controllers with auto-tuning and adaptive control, where the controller retuning is done in function of the parameters variation of the control object during operation of the control system. Based on this consideration, in this paper it is proposed the analytical algorithms of synthesis the modal controllers, in form of algebraic expressions, for control objects with arbitrary order inertia and astatism by the maximum stability
degree criterion. This criterion offers to the designed control systems an aperiodic step response, high performance
and better robustness. The elaborated algorithms represent
simple analytical procedures with reduced volume of
calculation and without any imposing conditions to the
complexity of the control object. They allow also to impose
or to optimize the settling time of the designed automatic
control system.
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Optimal Heating Time for Cylindrical Items Removal from the Shaft

Abstract 

For easy removal of cylindrical items from the shaft, they are heated on their external cylindrical surface for thermal dilatation. The best result is obtained if the temperatures gradient inside the item is highest on the separation surface. In the paper, considering a suddenly occurring constant high temperature on the external cylindrical surface of the homogeneous item, the shaft with the same thermal diffusivity and neglecting the contact thermal resistance, the transitory thermal field is analyzed and optimal time for item removal is determined. Example is given. images

Analytical-Numerical Method for Design of a Single-Phase AC Inductors with Ferromagnetic Core

Abstract 

This paper proposes a more accurate design of a single-phase AC current inductors with ferromagnetic core, for given values of inductance, of peak value of current and of magnetic flux density. The procedure combines an analytical computation design method (analytical model) with a numerical analysis by FEM (numerical model) using
QuickField or FEMM software. The analytical model has two components, one considering the ideal coil (without iron losses) and another component considering real coil (with iron losses). The numerical model also has two components, one magnetic (AC Magnetic Problem) which determines the value of inductance and another component consisting of a thermal model (Steady-State Heat Transfer Problem) which determines the temperature distribution in the electromagnetic device. In the magnetic model was
considered a constant permeability, but both software allow a nonlinear computation. The method presented in this paper has been indirectly experimentally validated.
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Predictive versus Classic Control of the Induction Motor Drives

Abstract 

The paper deals with techniques which use the
predictive concepts in order to obtain both the pulse width
modulation strategy of a voltage fed inverter and the predictive
control of the induction motor drive. Concerning the
PWM technique, it is applied for the case when the inverter
supplies an induction motor, the reference values of the currents
being obtained from a classical vector control scheme.
The described technique is then simulated and the waveforms
are compared with ones obtained with preset currents
(bang-bang) pulse width modulation, as the behavior of the
two strategies is similar. The results are also compared with
the ones resulted when a classical DTC controls the induction
motor, as the both determine, during each sampling
period, the next stator voltage phasor, but considering different
criteria. Concerning the control of the drive, the vector
control and the predictive control of the induction motor
are compared. For the vector control, the rotor flux oriented
one is pointed out, with highlight on the voltage source inverter
type. A simple (and practical) method for avoiding
the influences of the stator resistance variations when a
voltage source inverter is used is presented, based on proper
simulation models. For the predictive control of the induction
motor, a sensorless diagram is considered. Finally, further
actions are proposed for the work continuation.
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Control circuit of an Electronically Controlled Capacitor for the Optimization of the Single Phase Induction Motor

Abstract

The control circuit of an Electronically Controlled Capacitor (ECC) for the optimization of the Single Phase Induction Motor (SPIM) with auxiliary winding is presented. The control circuit is based on a fixed value AC capacitor within a full bidirectional switches bridge PWM controlled at much higher than line frequency (in kHz range). The power bridge circuit and its embedded pulse driver circuit are presented within the theoretical sections of the paper. In the experimental section, using a small electric motors test bench and a two speed SPIM with auxiliary winding, are analyzed the main influences of the pulse drive circuit over the ECC. Firstly, being considered that the optimum is reached at the maximum motor torque, the optimal pulses frequency has been established around 4 kHz. Secondly, the switches over-voltages at the ommutations
moments being a serious drawback of the ECC, are analyzed the influence of the fixed capacitor value and the dead time of the pulse shape over the MOS-FET power transistors
of the bidirectional switches over-voltages. The overvoltages diminish as both the capacitor value and the dead time diminish. More than that, in contrast with some authors, there are no disadvantages as dead time became zero. These issues are the main contributions of this paper.
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Modelling of Transformer Windings and Computation of Very Fast Transient Over-Voltages

Abstract

The main objective of this paper is represented by analysis and modeling of the transformer windings stressed by over-voltage with direct impact on voltage distribution
across the winding. The authors considered both approaches in modeling the winding: windings with distributed electrical parameters respectively composed from disk coils with concentrated parameters. Both types of voltages applied across the transformer winding will generate free oscillations which are analyzed further on.
According to the model, the transformer’s windings are divided in several disk coils with concentrated known parameters. This results in a complete electrical network used for simulations. All simulations have been performed using the software package SYSEG (SYmbolic State Equation Generation).
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Annals Of The University Of Craiova, Serie: Electrical Engineering 2015

Content

Modelling of Transformer Windings and Computation of Very Fast Transient Over-Voltages – Gloria Ciumbulea, Sorin Deleanu, Mihai Iordache, Ciprian Curteanu, Neculai Galan, Anton Anastasie Moscu

Control circuit of an Electronically Controlled Capacitor for the Optimization of the Single Phase Induction Motor – Radu Câmpeanu, Adrian Danila

Predictive versus Classic Control of the Induction Motor Drives – Sergiu Ivanov, Vladimir Răsvan, Eugen Bobaşu, Dan Popescu, Florin Stîngă, Virginia Ivanov

Analytical-Numerical Method for Design of a Single-Phase AC Inductors with Ferromagnetic Core – Ioan Popa, Alin-Iulian Dolan, Florian Ştefănescu, Constantin Florin Ocoleanu

Optimal Heating Time for Cylindrical Items Removal from the Shaft – Grigore A. Cividjian

Analytical Algorithms for Synthesis of Modal Controllers by the Maximum Stability Degree Criterion – Ion Fiodorov, Bartolomeu Izvoreanu, Irina Cojuhari, Dumitru Moraru

Analysis of a Step-Down DC-DC Converter: Linear Versus Nonlinear Circuit – Ioana-Gabriela Sîrbu, Marius Voinea, Mihai Iordache

Designing a Simultaneous Control of Several Motors with a VHL Programming Language for a Single Microcontroller – Dan Mihai

Hardware Experiments for Simultaneous Control of Several Motors by a Microcontroller and a VHL Programming Language – Dan Mihai

Study of Low Power Alternating Current Motors by Functional and Energy Aspect – Ion Vlad, Aurel Campeanu, Sorin Enache, Monica-Adela Enache

Performance of an Active DC-Traction Substation with 12-Pulse Parallel Rectifier and Indirect Current Control – Mihaela Popescu, Alexandru Bitoleanu, Alexandra Preda

The Online Temperature Control – Florin Ravigan, Niculae Boteanu, Laurenţiu Alboteanu

Numerical Determination of Inductance of a SMES Device Using the Response Surface Methodology Applied on FEM Modeling – Alin-Iulian Dolan, Florian Stefanescu

Hybrid Petri Nets in Modeling the Packing Processes: Case Study – Mircea Adrian Drighiciu, Daniel Cristian Cismaru

Electromagnetic Field Coupling Between Over-Head Power Lines and Nearby Metallic Pipelines in Case of Direct Lightning – Denisa Stet, Levente Czumbil, Dan D. Micu

Modern Techniques for Monitoring Circuit Breakers by using Microcontroller System – Virginia Ivanov, Maria Brojboiu, Sergiu Ivanov

About the Analytical Methods Applying for Fault Diagnosis of the Static Converters from the Electric Locomotive – Maria Brojboiu, Ivanov Virginia, Andrei Savescu

Aspects Regarding Influences of Voltage and Resistant Torque on Asynchronous Motors Operation – Sorin Enache, Aurel Campeanu, Ion Vlad, Monica-Adela Enache

Lead Acid Battery Pack Charging Optimization – Constantin-Daniel Oancea, Florin Călin

Management of Renewable Energy Sources Integrated in a Micro Smart Grid – Laurenţiu Alboteanu, Gheorghe Manolea, Sergiu Ivanov

Factors Involved in Choosing LEDs for General Lighting Applications: a Critical Review – Dorin Dumitru Lucache, Cătălin Daniel Gălăţanu, Elena Dănilă

Transversal Shape Optimization of a Brushless DC Motor for Electric Vehicles – Ion Vlad, Sorin Enache, Lucian Mandache, Monica-Adela Enache

Information and Communication Technology in Urban Electric Transportation – Ilie Nucă, Iurie Nucă, Alexandr Motroi, Vitalie Eşanu

Study of Indirect Current Control Methods for Urban Traction Active DC Substations – Constantin Vlad Suru, Mihaela Popescu, Ionut Deaconu

Energetic Influence of Motor Power in Drive Systems with Space-Vector Static Converters and Induction Motors – Mihăiţă Lincă, Constantin Vlad Suru, Alexandru Bogdan Lupu

Increasing Safety of the Tests Carried Out in Laboratories by Using Electronic Devices – Marinel Popescu

Virtual Synchronoscope for Connecting Synchronous Generator on the Grid – Gheorghe-Eugen Subtirelu, Mircea Dobriceanu, Monica-Adela Enache

Use of Modern Computing Technique to Improve the Energy Indicators of Drive Motors of the Coal Mills – Silvia-Maria Digă, Daniela Popescu, Nicolae Digă

Estimation of the Heat Cumulated Inside a Wall with Cylindrical Symmetry – Mitică Iustinian Neacă, Andreea Maria Neacă

Fuzzy Control of Centrifugal Pumps Flow – Daniela Popescu, Jenica-Ileana Corcău

Object Oriented Video Retrieval System based on Domain Ontologies – Ion Eugen Ganea

Evolution of the Electric Power Components Definitions – Adrian A. Adăscăliţei, Alexander E. Emanuel

Active Power Filter Study Using Dedicated Matlab GUI – Cristina Alexandra Preda, Mihăiţă Lincă, Constantin Vlad Suru

Implementation and Adjustment of CPML for CE-FDTD Algorithm

Abstract 

A complex-envelope finite difference time domain (CE-FDTD) algorithm has been proposed in the literature as one of FDTD formulations that is very general. However, this method, didn’t receive a lot of scientific attention, since the introduced complexity wasn’t quite justified by the obtained gain in maximum time step size. Nevertheless, there is still a strong motivation to study this formulation, since it can potentially be, in combination with high order accuracy FDTD approaches, a significant tool to combat the accuracy deterioration due to numerical dispersion. A method of choice for termination of CE-FDTD computational domain was the convolutional perfectly matched layer (CPML), since it is considered to be superior over other commonly used techniques. Yet, the application of CPML in CE-FDTD environment isn’t straightforward. In this paper a modification of conventional CPML is performed in order to be used for termination of CE-FDTD computational domain. The modified CPML, along with CE-FDTD algorithm has been implemented in an own developed simulation environment and tested through various simulation cases. The functionality of the proposed CPML is illustrated on the example of a dipole antenna. The observed behavior of the boundary region fully corresponds to the propagation through the free space, without any undesirable reflections. images