Your search keyword '"Pedro J. Villegas"' showing total 84 results

1. Digital controllers for electrical engineering (microcontrollers, DSP, FPGA): main peripherals

Author

Miguel Ángel José Prieto, Fernando Nuño García, Juan Antonio Martín Ramos, Pedro J. Villegas Saiz, Rubén Muñiz Sánchez, and Juan Díaz

Published

2023

2. Binary codes

Author

Miguel Angel José Prieto, Fernando Nuño, Alberto Martín-Pernía, Pedro J. Villegas, and Juan Díaz

Published

2023

3. Digital functions

Author

Miguel Angel José Prieto, Fernando Nuño, Alberto Martín-Pernía, Pedro J. Villegas, and Juan Díaz

Published

2023

4. Modelling a Multilevel LCC Resonant AC-DC Converter for Wide Variations in the Input and the Load

Author

Alberto Martin-Pernia, Pedro J. Villegas, Oscar Pardo-Vaquero, Juan A. Martin-Ramos, Juan José del Coz Díaz, and Fernando Nuno

Subjects

Flexibility (engineering), Computer science, business.industry, 020208 electrical & electronic engineering, Electrical engineering, Control reconfiguration, Topology (electrical circuits), 02 engineering and technology, Line (electrical engineering), Power (physics), Inductance, 0202 electrical engineering, electronic engineering, information engineering, Inverter, Electrical and Electronic Engineering, business, Voltage

Abstract

Several applications need a high power, high output voltage ac/dc converter. The structure includes a dc/dc resonant stage, which is fed from a three-phase line. Due to standards, rectified dc input voltage varies largely from 400 to 750 V affecting the adversely overall design and current levels. In fact, losses in the inverter become unbearable if both switching frequency and transferred power are desired beyond a certain level. In those cases, it is necessary to connect several switches in parallel. As an alternative, the new switches can configure a new modular structure instead, adding more flexibility in the control to compensate input voltage variations. As a result, the required circulating current is reduced to a half, with benefits in total power losses. Moreover, the nature of the topology allows a reconfiguration of the resonant net (LCC) for low power, reducing even further the minimum circulating current under those conditions (fluoroscopy, for instance). In this paper, the new multilevel resonant topology is mathematically modeled and proposed for radiography and fluoroscopy. An example illustrates the design procedure for a given application at 100 kW, 50–150 kV.

Published

2019

5. Energy Generation with Capacitive Deionization Systems

Author

Juan A. Martin-Ramos, Fernando Nuno, Pedro J. Villegas, Daniel del Rivero, Miguel J. Prieto, and Alberto M. Pernia

Subjects

Materials science, business.industry, Capacitive deionization, Capacitive sensing, 0211 other engineering and technologies, Mixing (process engineering), 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, Renewable energy, Electricity generation, Fresh water, 021108 energy, business, Process engineering, Reverse osmosis, 0105 earth and related environmental sciences

Abstract

CAPMIX (Capacitive Mixing) technologies are promising electrical generation processes under development which are used for obtaining renewable energy from mixing fluids with different salinities (such as seawater and fresh water). This mixture originates from places like the mouths of rivers naturally. Such technology is inherited from the deionization processes such as CDI (Capacitive Deionization). In this paper, both processes (CAPMIX and CDI) will be described, which can be understood as complementary, because a CDI cell, can be used for both applications. Furthermore, several tests to a commercial CDI cell will be carried out, working in both working modes, validating the previously commented.

Published

2020

6. Estimating the location of plugs in molten-salt pipes

Author

Juan A. Martin-Ramos, Miguel J. Prieto, Pedro J. Villegas, Juan A. Martinez, Alberto M. Pernia, and Juan José del Coz Díaz

Subjects

business.industry, 020209 energy, Thermal power station, ComputerApplications_COMPUTERSINOTHERSYSTEMS, 02 engineering and technology, 021001 nanoscience & nanotechnology, Power (physics), Electricity generation, Greenhouse gas, 0202 electrical engineering, electronic engineering, information engineering, Environmental science, Electricity, Molten salt, 0210 nano-technology, business, Process engineering, Thermal energy, Renewable resource

Abstract

Electric mobility will be just as meaningful and effective as the origin of the electricity these vehicles run on. Their effect on pollution and greenhouse gases reduction will not be such unless power plants are mostly based on renewable resources. Thermal power plants are a good solution to produce clean electric energy and contribute to the overall solution. In order for this to be so, it is necessary to guarantee that this type of plants operates smoothly and that the possible problems they may have can be solved. This paper deals with one of these problems: finding the plugs that may form in the pipes carrying the molten salt of the thermal energy storage system. Designing a sensor that can easily estimate the location of these plugs will contribute to reducing the number of hours a thermal power plant must be idle due to reparations.

Published

2020

7. Estimation of Blockage Position, Geometry, and Solidity in Molten Salt Pipelines

Author

Hector Andres Mayor, Pedro J. Villegas, Juan A. Martin-Ramos, Miguel J. Prieto, Alberto M. Pernia, and Juan A. Martinez

Subjects

Materials science, heat transfer fluid (HTF), 020209 energy, 02 engineering and technology, lcsh:Chemical technology, magnetostriction, 01 natural sciences, Biochemistry, Article, Analytical Chemistry, law.invention, law, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, lcsh:TP1-1185, thermosolar, Electrical and Electronic Engineering, Molten salt, Spark plug, 010301 acoustics, Instrumentation, Electrical conductor, Electromagnetic acoustic transducer, guided waves (GW), Attenuation, molten salts, Acoustic wave, Mechanics, Atomic and Molecular Physics, and Optics, magnetostrictive sensors (MsS), electromagnetic acoustic transducers (EMATs), Transducer, Solidity, non-destructive testing (NDT)

Abstract

In solar thermal plants, the use of molten salt as a heat transfer fluid is an advantageous alternative, although it has some disadvantages such as the formation of salt plugs in the pipes due to possible stratification of the salt or its solidification. The aim of this study was to implement an electromagnetic acoustic transducer (EMAT) not only capable of identifying the position of the plug, but also of determining whether the plug blocks the entire conductive surface or, on the contrary, is partial, allowing the fluid to pass through a smaller section. The proposed transducer is intended to be minimally invasive, allowing it to be used in the same way as a temperature probe. To do so, it creates torsional waves in the pipe, which are then used for a combination of measurements: pulse-echo and attenuation of the acoustic waves. Two materials with different densities (silicone and cement) were used in the tests carried out, which made it possible to check that for a given size of blockage, it is possible to identify the type of material from which it is formed.

Published

2020

8. High-Voltage LC-Parallel Resonant Converter with Current Control to Detect Metal Pollutants in Water through Glow-Discharge Plasma

Author

Pedro J. Villegas, Daniel González Castro, Juan A. Martínez-Esteban, David Blanco Fernández, Germán Marcos-Robredo, and Juan A. Martín-Ramos

Subjects

Computer Networks and Communications, Hardware and Architecture, Control and Systems Engineering, Signal Processing, environmental engineering, water pollution, glow-discharge devices, DC–DC power converters, resonant inverters, high-voltage techniques, current control, Electrical and Electronic Engineering

Abstract

This paper presents a high-voltage power source to produce glow-discharge plasma in the frame of a specific application. The load has two well-differentiated types of behavior. To start the system, it is necessary to apply a high voltage, up to 15 kV, to produce air-dielectric breakdown. Before that, the output current is zero. Contrarily, under steady state, the output voltage is smaller (a few hundred volts) while the load requires current-source behavior to maintain a constant glow in the plasma. The amount of current must be selectable by the operator in the range 50–180 mA. Therefore, very different voltage gains are required, and they cannot be easily attained by a single power stage. This work describes why the LC-parallel resonant topology is a good single stage alternative to solve the problem, and shows how to make the design. The step-up transformer is the key component of the converter. It provides galvanic isolation and adapts the voltage gain to the most favorable region of the LC topology, but it also introduces non-avoidable reactive components for the resonant net, determining their shape and, to some extent, their magnitude. In the paper, the transformer’s constructive details receive special attention, with discussion of its model. The experimental dynamic tests, carried out to design the control, show load behavior that resembles negative resistance. This fact makes any control loop prone to instability. To compensate this effect, a resistive ballast is proposed, eliminating its impact on efficiency with a novel filter design, based on an inductor, connected in series with the load beyond the voltage-clamping capacitor. The analysis includes a mathematical model of the filtering capacitor discharge through the inductor during the breakdown transient. The model provides insight into the dimensions of the inductor, to limit the discharge current peak and to analyze the overall performance on steady state. Another detail addressed is the balance among total weight, efficiency and autonomy, which appears if the filter inductor is substituted for a larger battery in autonomous operation. Finally, a comprehensive set of experimental results on the real load illustrate the performance of the power source, showing waveforms at breakdown and at steady state (for different output currents). Additionally, the detector’s constructive principles are described and its experimental performance is explored, showing results with two different types of metallic pollutants in water.

Published

2022

9. A Complete Control System for a High Voltage Converter in an Electrostatic Precipitator

Author

Alberto M. Pernia, Jorge Garcia, Juan José del Coz Díaz, Pedro J. Villegas, and Fernando Jesús García Díaz

Subjects

TK7800-8360, Computer Networks and Communications, 020209 energy, 020208 electrical & electronic engineering, Electrostatic precipitator, 02 engineering and technology, Converters, Automotive engineering, DSC, Hardware and Architecture, Control and Systems Engineering, Filter (video), Control system, Greenhouse gas, inverter, Signal Processing, electrostatic precipitator, 0202 electrical engineering, electronic engineering, information engineering, Environmental science, Inverter, Electronics, Electrical and Electronic Engineering, Physics::Atmospheric and Oceanic Physics, Voltage converter, Air filter

Abstract

Nowadays, the emission of pollutant particles is a global problem in terms of limiting pollution in industries, as well as greenhouse gases emissions. There are different ways to filter undesired particles, such as carbon air filters, chemical washing, and so on. One of the most popular techniques is the use of electrostatic precipitators: The operation mode is based in attracting particles using electrostatic forces. In order to do that, it is necessary to use a high-voltage converter, with a relative complex control. This article deals with the design of a complete platform to control not only these kind of converters, but also those converters based on the full-bridge power topology.

Published

2021

10. Prediction of acute toxicity of phenol derivatives using multiple linear regression approach for Tetrahymena pyriformis contaminant identification in a median-size database

Author

Gerardo M. Casañola-Martin, Karel Diéguez-Santana, Pedro J. Villegas-Aguilar, Huong Le-Thi-Thu, Hai Pham-The, and Juan A. Castillo-Garit

Subjects

Quantitative structure–activity relationship, Environmental Engineering, Databases, Factual, Health, Toxicology and Mutagenesis, 0211 other engineering and technologies, Quantitative Structure-Activity Relationship, 02 engineering and technology, 010501 environmental sciences, Biology, computer.software_genre, 01 natural sciences, Aquatic toxicology, Phenols, Linear regression, Environmental Chemistry, 0105 earth and related environmental sciences, 021110 strategic, defence & security studies, Database, Tetrahymena pyriformis, Public Health, Environmental and Occupational Health, Linear model, General Medicine, General Chemistry, Models, Theoretical, chEMBL, Pollution, Acute toxicity, Linear Models, computer, Chemical database

Abstract

In this article, the modeling of inhibitory grown activity against Tetrahymena pyriformis is described. The 0-2D Dragon descriptors based on structural aspects to gain some knowledge of factors influencing aquatic toxicity are mainly used. Besides, it is done by some enlarged data of phenol derivatives described for the first time and composed of 358 chemicals. It overcomes the previous datasets with about one hundred compounds. Moreover, the results of the model evaluation by the parameters in the training, prediction and validation give adequate results comparable with those of the previous works. The more influential descriptors included in the model are: X3A, MWC02, MWC10 and piPC03 with positive contributions to the dependent variable; and MWC09, piPC02 and TPC with negative contributions. In a next step, a median-size database of nearly 8000 phenolic compounds extracted from ChEMBL was evaluated with the quantitative-structure toxicity relationship (QSTR) model developed providing some clues (SARs) for identification of ecotoxicological compounds. The outcome of this report is very useful to screen chemical databases for finding the compounds responsible of aquatic contamination in the biomarker used in the current work.

Published

2016

11. LCLC resonant converter with PWM control

Author

Miguel J. Prieto, Alberto M. Pernia, Fernando Nuno, Juan A. Martin-Ramos, and Pedro J. Villegas

Subjects

Physics, business.product_category, business.industry, 020209 energy, 020208 electrical & electronic engineering, Electrical engineering, 02 engineering and technology, Power factor, Converters, Inductor, law.invention, Capacitor, law, Electric vehicle, 0202 electrical engineering, electronic engineering, information engineering, Resonant converter, business, Transformer, Pulse-width modulation

Abstract

This paper describes the theoretical and practical aspects of an LCLC resonant topology, operating at constant frequency (PWM control). This topology combines the behavior ofLLC and LCC converters, introducing the advantage of reducing the value of the series resonant inductor to get high power factor for the resonant tank. The inclusion of a new resonant element, the parallel capacitor, allows reducing the resonant current through the magnetizing inductance, thus reducing the power losses in the transformer. Although part of the transformer losses are transferred to the parallel resonant capacitor, they can be minimized with a correct selection of this resonant component.

Published

2019

12. High voltage resonant converter to generate plasma in open air

Author

David Blanco Fernández, Juan A. Martin-Ramos, German Marcos-Robredo, Alberto M. Pernia, Pedro J. Villegas, and Miguel J. Prieto

Subjects

Glow discharge, Materials science, Steady state (electronics), business.industry, 020209 energy, 020208 electrical & electronic engineering, Electrical engineering, High voltage, Hardware_PERFORMANCEANDRELIABILITY, 02 engineering and technology, Plasma, law.invention, Capacitor, law, Filter (video), Hardware_INTEGRATEDCIRCUITS, 0202 electrical engineering, electronic engineering, information engineering, Resonant converter, business, Voltage

Abstract

The paper studies a parallel resonant converter with a capacitor as output filter to generate and maintain a glow discharge in air. The application requires a high output voltage for air breakdown and much lower values to maintain discharge operation. Attention is payed to converter steady state and dynamic aspects.

Published

2019

13. Real-time Automatic Calculation of Euro Coins and Banknotes in a Cash Drawer

Author

Miguel J. Prieto, Manuel Cereijido, Alberto M. Pernia, Pedro J. Villegas, and Fernando Nuno

Subjects

Computer science, media_common.quotation_subject, Control (management), capacitance, real-time, 02 engineering and technology, currency-counting, bluetooth, lcsh:Chemical technology, Computer security, computer.software_genre, smartphone, 01 natural sciences, Biochemistry, Article, Analytical Chemistry, low-cost, 0202 electrical engineering, electronic engineering, information engineering, lcsh:TP1-1185, Relevance (information retrieval), Electrical and Electronic Engineering, embedded, Instrumentation, Complement (set theory), media_common, Euro, 010401 analytical chemistry, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, Work (electrical), load cell, Cash, money, Value (economics), 020201 artificial intelligence & image processing, cash-register, computer

Abstract

A very interesting and useful complement to classical cash-registers is presented in this paper, coming up with a real-time auto-counting solution for the money inside a cash drawer. The system allows knowing not only the total amount of money but also how many coins and banknotes there are of each value. The embedded solution developed has been intended to become a low-cost solution, allowing better control over the money and helping both owners and workers in the establishments. By using this system, new utilities including automatic final balancing, instant error handling when making operations, and the lack of certain types of banknotes or coins inside the drawer or the excess of some in a certain compartment, could be implemented. Coins-counting solution is based on their weight, and small individual scales made by load cells have been integrated in each coin compartment. With respect to the banknotes, an innovative alternative based on the electrical properties of capacitors is presented. Additionally, considering the relevance of interoperability in today&rsquo, s systems, a Bluetooth module has been integrated into the system, allowing for data to be accessed remotely from any smartphone, tablet or computer within the range of the module. In this work, an Android application to both control and interact with the system has also been designed.

Published

2019

14. Energy Recovery in Capacitive Deionization Technology

Author

Juan A. Martin-Ramos, Francisco J. Alvarez-Gonzalez, Miguel Ángel José Prieto, Alberto M. Pernia, and Pedro J. Villegas

Subjects

Energy recovery, Materials science, 020401 chemical engineering, Capacitive deionization, business.industry, 020208 electrical & electronic engineering, 0202 electrical engineering, electronic engineering, information engineering, Optoelectronics, 02 engineering and technology, 0204 chemical engineering, business, GeneralLiterature_REFERENCE(e.g.,dictionaries,encyclopedias,glossaries)

Published

2018

15. Development of Magnetostrictive Transducer Prototype for Blockage Detection on Molten Salt Pipes

Author

Fernado Nuño, Miguel J. Prieto, Héctor Andrés-Mayor, Juan A. Martin-Ramos, Alberto M. Pernia, and Pedro J. Villegas

Subjects

Control and Optimization, Materials science, Acoustics, electromagnetic acoustic transducer, Energy Engineering and Power Technology, Thermal power station, 02 engineering and technology, torsional waves, magnetostriction, 01 natural sciences, Noise (electronics), lcsh:Technology, Nondestructive testing, 0103 physical sciences, Electrical and Electronic Engineering, Molten salt, Engineering (miscellaneous), Electromagnetic acoustic transducer, 010302 applied physics, electromagnetic acoustic transducer (EMAT), guided waves, nondestructive testing, Renewable Energy, Sustainability and the Environment, business.industry, lcsh:T, solar power plant, nondestructive testing (NDT), 021001 nanoscience & nanotechnology, Power (physics), Transducer, Electric heating, 0210 nano-technology, business, Energy (miscellaneous)

Abstract

In solar thermal power plants molten salt is often used to store and transport the energy that is collected during the day. The external pipe temperature is measured to activate an electric heating system if the temperature approaches the melting point. However, salt solidification cannot be completely excluded from the plant management. Once occurred, the location of a salt blockage is very complex due to the high temperature of the pipe. Therefore, when this problem arises, power plants have to stop production with the consequences in time and cost that this entails. Electro-magnetic acoustic transducers can be used as non-destructive testing systems for this application. A method for salt blockage detection is proposed that is applicable in straight sections of pipes by employing torsional guided waves that are generated with magnetostrictive transducers. The present paper deals with the transducer conception and the design of the power supply to activate it. Two alternatives are proposed and compared to determine the improvement in the amplitude/noise ratio. Finally, the experimental results show the performance of the equipment in a small prototype, thus validating the technique presented.

Published

2018

16. A Digitally Controlled Power Converter for an Electrostatic Precipitator

Author

Juan A. Martin-Ramos, Miguel J. Prieto, Pedro J. Villegas, Juan A. Martinez, Alberto M. Pernia, and Juan José del Coz Díaz

Subjects

Control and Optimization, Computer science, 020209 energy, Energy Engineering and Power Technology, Electrostatic precipitator, 02 engineering and technology, Current amplitude, Series and parallel circuits, lcsh:Technology, digital control, law.invention, law, silicon carbide, 0202 electrical engineering, electronic engineering, information engineering, electrostatic precipitator, Digital control, Electrical and Electronic Engineering, Resonant converter, Transformer, Engineering (miscellaneous), Renewable Energy, Sustainability and the Environment, business.industry, lcsh:T, Bode plot, 020208 electrical & electronic engineering, Electrical engineering, Capacitor, Harmonic, Inverter, business, Energy (miscellaneous), Voltage

Abstract

Electrostatic precipitators (ESPs) are devices used in industry to eliminate polluting particles in gases. In order to supply them, an interface must be included between the three-phase main line and the required high DC voltage of tens of kilovolts. This paper describes an 80-kW power supply for such an application. Its structure is based on the series parallel resonant converter with a capacitor as output filter (PRC-LCC), which can adequately cope with the parasitic elements of the step-up transformer involved. The physical implementation of the prototype includes the use of silicon carbide—SiC—semiconductors, which provide better switching capabilities than their traditional silicon—Si—counterparts. As a result, a new control strategy results as a better alternative in which the resonant current is maintained in phase with the first harmonic of the inverter voltage. Although this operation mode imposes hard switching in one of the inverter legs, it minimizes the reactive energy that circulates through the resonant tank, the resonant current amplitude itself and the switching losses. Overall efficiency of the converter benefits from this. These ideas are supported mathematically using the steady state and dynamic models of the topology. They are confirmed with experimental measurements that include waveforms, Bode plots and thermal behavior. The experimental setup delivers 80 kW with an estimated efficiency of 98%.

Published

2017

17. A Polynomial Model to Calculate Steady-State Set Point in the PRC-LCC Topology With a Capacitor as Output Filter

Author

J. Francisco Gutierrez-Delgado, Fernando Nuno, Juan José del Coz Díaz, Pedro J. Villegas, Juan A. Martin-Ramos, and Agustin Lopez-Hernandez

Subjects

Polynomial, Steady state (electronics), Topology (electrical circuits), Filter (signal processing), Topology, Industrial and Manufacturing Engineering, law.invention, Power (physics), Capacitor, Polynomial and rational function modeling, Control and Systems Engineering, Control theory, law, Duty cycle, Electrical and Electronic Engineering, Mathematics

Abstract

The behavior of the series–parallel resonant converter with a capacitor as output filter is analyzed when operating under optimum switching conditions. A polynomial is deduced to quickly compute what switching frequency and duty cycle are necessary at the control to obtain the desired output voltage and power in the converter. This polynomial is so simple that it is suitable for being implemented in low-cost digital processors. It could provide, for instance, a start-up strategy guiding the power supply to a known set point, or it could generate alarms if the currents or voltages measured are larger than expected. In this paper, the steps to obtain such a model are described in detail. As an example, the coefficients of the polynomials are deduced when the series and the parallel capacitor are the same. The grade of accuracy of the model has been demonstrated through experimentation on a prototype.

Published

2015

18. Filament Power Supply for Electron Beam Welding Machine

Author

Pedro J. Villegas, Alberto M. Pernia, Miguel J. Prieto, Juan José del Coz Díaz, Juan A. Martinez, and Fernando Nuno

Subjects

Engineering, Switched-mode power supply, business.industry, Electrical engineering, Power factor, Voltage optimisation, Cathode, Computational physics, law.invention, Protein filament, Control and Systems Engineering, law, Welding power supply, Electron beam welding, Power supply unit, Electrical and Electronic Engineering, business

Abstract

This paper describes the design of a 255-W (17 $\hbox{V}_{\rm rms}$ , 15 $\hbox{A}_{\rm rms} $ ) filament power supply for a 15-kW electron beam welding (EBW) machine. Simulations and results are also included. The filament of the EBW machine consists of a wire, which is heated by the current flowing through it. Although the filament power supply voltage is low (around 17 V) , it is not grounded. In fact, it is displaced $-$ 60 kV dc with respect to ground. Hence, the filament power supply has to be properly isolated. On the other hand, a well-regulated filament power supply is essential for maintaining the stability of the cathode temperature and, consequentially, the lifetime of the filament. In this way, a control method based on the primary voltage is presented, avoiding any feedback loop from the secondary side. The design process and the simulation and experimental results are included in order to verify the control strategy proposed.

Published

2015

19. LCC Resonant Multilevel Converter for X-ray Applications

Author

Juan José del Coz Díaz, Miguel J. Prieto, Alberto M. Pernia, Juan A. Martin-Ramos, and Pedro J. Villegas

Subjects

Engineering, Control and Optimization, Maximum power principle, AC/DC converter, 020209 energy, Magnetizing inductance, Energy Engineering and Power Technology, fluoroscopy, high voltage, multilevel, radioscopy, resonant conversion, X-ray, 02 engineering and technology, Radiation, Inductor, Energy requirement, lcsh:Technology, law.invention, High voltage, law, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Electrical and Electronic Engineering, Transformer, Engineering (miscellaneous), Renewable Energy, Sustainability and the Environment, business.industry, lcsh:T, 020208 electrical & electronic engineering, Electrical engineering, Multilevel, Resonant conversion, Fluoroscopy, Radioscopy, Full bridge, business, Energy (miscellaneous)

Abstract

Medical X-ray appliances use high-voltage power supplies that must be able to work with very different energy requirements. Two techniques can be distinguished in X-ray medical imaging: fluoroscopy and radioscopy. The former involves low power radiation with a long exposure time, while radioscopy requires large power during short radiographic exposure times. Since the converter has to be designed by taking into account the maximum power specification, it will exhibit a poor efficiency when operating at low power levels. Such a problem can be solved by using a new multilevel LCC topology. This topology is based on a classical series-parallel resonant topology, but includes an additional low-voltage auxiliary transformer whose function depends on the X-ray technique considered. When radioscopy operation is selected, the transformer will allow the power to be shared between two full-bridges. If fluoroscopy mode is activated, the auxiliary full bridge is disconnected and the magnetizing inductance of the auxiliary transformer is used to increase the resonant inductor in order to reduce the resonant currents, thus improving the efficiency of the converter, This work has been co-funded by the Plan of Science, Technology and Innovation of the Principality of Asturias through Project FC-15-GRUPIN14-122, and by the Spanish Government with the action TEC2014-53324-R.

Published

2017

20. A power converter for an electrostatic precipitator using SiC MOSFETs

Author

Juan Ángel Martínez Esteban, Juan Díaz González, Juan Antonio Martín Ramos, and Pedro J. Villegas

Subjects

Engineering, business.industry, 020208 electrical & electronic engineering, Electrical engineering, 02 engineering and technology, Series and parallel circuits, law.invention, Capacitor, law, MOSFET, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Inverter, Waveform, business, Transformer, Resonant inverter, Voltage

Abstract

In this paper, the authors describe the design of an 80kW power converter for an electrostatic precipitator using SiC MOSFETs. The structure of the converter is based on the series parallel resonant topology, PRC-LCC, with a capacitor as output filter. This topology can cope adequately with the parasitic elements of the step-up transformer involved in the application. The SiC switches present lower switching, EON and EOFF, and conduction, RDS against VCE, losses than Si based IGBTs. Therefore, it is possible to operate the converter at higher switching frequencies, and/or support hard switching techniques. The control has been set to maintain the resonant current in phase with the inverter voltage, as a strategy to minimize the resonant current itself and the reactive energy circulating in the resonant tank. This operation mode imposes hard switching in one of the inverter legs, but minimizes switching current maintaining losses under control. The experimental setup delivers 80 kW with an estimated efficiency of 98%. The paper also analyzes theoretically the large and small signal models of the converter. The analysis is supported with a complete set of experimental waveforms and Bode diagrams.

Published

2017

21. New Control Strategy of an Up–Down Converter for Energy Recovery in a CDI Desalination System

Author

Francisco J. Alvarez-Gonzalez, Pedro J. Villegas, Miguel J. Prieto, Fernando Nuno, and Alberto M. Pernia

Subjects

Energy recovery, Engineering, Digital down converter, business.industry, Capacitive deionization, Energy consumption, Desalination, Energy storage, law.invention, Capacitor, law, Electronic engineering, Electrical and Electronic Engineering, Process engineering, business, Energy (signal processing)

Abstract

Capacitive deionization (CDI) is becoming a suitable alternative for desalination. The low cost of the material required for it and the lower energy consumption can be two critical factors for the development of this technology. CDI technology does not require a high-pressure system or specific membranes to operate. The energy storage capability of CDI cells allows most of the stored energy to be recovered and used in other CDI cells. The aim of the power stage in charge of the energy recovery is to transfer the stored energy from one cell to another with the maximum possible efficiency to continue with the desalination process. With this goal this paper shows a new control strategy, in which the evolution of the current follows the efficiency of the converter. This new control improves the efficiency behavior of the converter as well as the energy recovery. The CDI modules have been electrically modeled and their electrical parameters have been defined according to the geometrical characteristics of the module. This allows the optimum geometrical parameters to be specified in order to optimize the energy storing process. A mathematical algorithm developed allows an easy simulation of the converter behavior with large input and output capacitors.

Published

2014

22. Optimum Peak Current Hysteresis Control for Energy Recovering Converter in CDI Desalination

Author

Alberto M. Pernia, Pedro J. Villegas, Fernando Nuno, Francisco J. Alvarez-Gonzalez, and Juan José del Coz Díaz

Subjects

Engineering, Control and Optimization, Energy Engineering and Power Technology, nanoporous carbon, Inductor, Desalination, lcsh:Technology, Energy storage, jel:Q40, desalination, jel:Q, jel:Q43, jel:Q42, jel:Q41, Electronic engineering, jel:Q48, jel:Q47, Electrical and Electronic Engineering, Process engineering, Engineering (miscellaneous), Capacitive De-Ionization, jel:Q49, Energy recovery, Renewable Energy, Sustainability and the Environment, business.industry, lcsh:T, Direct current, jel:Q0, Energy consumption, jel:Q4, Power (physics), DC/DC (direct current) converter, Current (fluid), business, Energy (miscellaneous)

Abstract

Capacitive De-Ionization (CDI) is becoming a suitable alternative for desalination. The low cost of the materials required and its reduced energy consumption can be critical factors for developing this technique. CDI technology does not require a high-pressure system and the energy storage capability of CDI cells allows it to be reused in other CDI cells, thus minimizing consumption. The goal of the power stage responsible of the energy recovery is transferring the stored energy from one cell to another with the maximum possible efficiency, thus allowing the desalination process to continue. Assuming hysteresis current control is implemented at the DC/DC (direct current) converter, this paper aims to determine the optimum peak current through the inductor in each switching period with a view to maximizing overall efficiency. The geometrical parameters of the desalination cell and the NaCl concentration modify the cell electrical properties. The peak current control of the power stage should be adapted to the cell characteristics so that the efficiency behavior of the whole CDI system can be improved. The mathematical model defined in this paper allows the CDI plant automation using the peak inductor current as control variable, adapting its value to the salt concentration during the desalination process.

Published

2014

23. Equivalent Electrical Model and Software Tool for SPICE-Compatible Thermal Simulations of High-Power Resistors

Author

Alberto M. Pernia, Fernando Nuno, Miguel J. Prieto, Pedro J. Villegas, Jorge Parrondo, Pastora Barquilla, and Raúl Barrio

Subjects

Engineering, Computer simulation, business.industry, Thermal resistance, Spice, Mechanical engineering, Hardware_PERFORMANCEANDRELIABILITY, Computational fluid dynamics, Industrial and Manufacturing Engineering, Electronic, Optical and Magnetic Materials, law.invention, Power (physics), law, Electrical network, Hardware_INTEGRATEDCIRCUITS, Electronic engineering, Equivalent circuit, Electrical and Electronic Engineering, Resistor, business

Abstract

Optimized design of high-power braking resistors for traction applications is a complex task. The value of the power dissipated can be very high (up to the order of megawatts) and normally pulsating. In addition, these resistors should stay in predefined, usually small areas on the train, which makes them have to meet some tough specifications: minimum weight, high resistance to vibration, and high reliability and durability. Since it is necessary to anticipate and establish the distribution and evolution of the temperatures reached in different internal areas, it would be necessary to develop a complete numerical simulation using a software tool based on computational fluid dynamics (CFD) for each design, which implies a very high-computational cost. In this paper, a new equivalent electrical circuit is proposed to model the thermal behavior of this kind of resistors. The electrical equivalent circuit parameters are obtained by a newly developed software tool that collects results and trends obtained from a large number of previous CFD simulations. After that, SPICE can be employed to obtain thermal simulations and predict temperature evolutions.

Published

2014

24. Development of a Wireless Sensor Network for Individual Monitoring of Panels in a Photovoltaic Plant

Author

Alberto M. Pernia, Juan José del Coz Díaz, Miguel J. Prieto, Fernando Nuno, and Pedro J. Villegas

Subjects

Engineering, Process (engineering), photovoltaic power systems, energy storage, supercapacitors, wireless sensor networks, lcsh:Chemical technology, Biochemistry, Energy storage, Article, Analytical Chemistry, lcsh:TP1-1185, Electrical and Electronic Engineering, Instrumentation, business.industry, Fossil fuel, Photovoltaic system, Atomic and Molecular Physics, and Optics, Reliability engineering, Power (physics), Embedded system, Pv plant, business, Wireless sensor network, Energy (signal processing)

Abstract

With photovoltaic (PV) systems proliferating in the last few years due to the high prices of fossil fuels and pollution issues, among others, it is extremely important to monitor the efficiency of these plants and optimize the energy production process. This will also result in improvements related to the maintenance and security of the installation. In order to do so, the main parameters in the plant must be continuously monitored so that the appropriate actions can be carried out. This monitoring should not only be carried out at a global level, but also at panel-level, so that a better understanding of what is actually happening in the PV plant can be obtained. This paper presents a system based on a wireless sensor network (WSN) that includes all the components required for such monitoring as well as a power supply obtaining the energy required by the sensors from the photovoltaic panels. The system proposed succeeds in identifying all the nodes in the network and provides real-time monitoring while tracking efficiency, features, failures and weaknesses from a single cell up to the whole infrastructure. Thus, the decision-making process is simplified, which contributes to reducing failures, wastes and, consequently, costs.

Published

2014

25. Magnetostrictive Sensor for Blockage Detection in Pipes Subjected to High Temperatures

Author

Miguel J. Prieto, Hector Andres Mayor, Pedro J. Villegas, Fernando Nuno, Juan A. Martin-Ramos, and Alberto M. Pernia

Subjects

Work (thermodynamics), heat transfer fluid (HTF), 020209 energy, Nuclear engineering, Thermal power station, 02 engineering and technology, lcsh:Chemical technology, magnetostriction, 01 natural sciences, Biochemistry, Turbine, Article, Steam generation, Analytical Chemistry, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Heat transfer fluid, lcsh:TP1-1185, thermosolar, Electrical and Electronic Engineering, 010301 acoustics, Instrumentation, guided waves (GW), business.industry, molten salts, Magnetostriction, Atomic and Molecular Physics, and Optics, Renewable energy, magnetostrictive sensors (MsS), electromagnetic acoustic transducers (EMATs), non-destructive testing (NDT), Environmental science, business, Energy (signal processing)

Abstract

The use of solar thermal power plants is considered a cost-effective alternative to produce renewable energy. Unlike other energy installations, in this type of plants the transfer and storage of energy has been solved by using molten salts. These salts run between two tanks through the steam generation system that feeds the turbine. Although the use of salts as a heat transfer fluid is considered an adequate solution, they are not without problems. One of them is the formation of blockages in the pipes due to a partial solidification of the salt, which leads to the shutdown of the installation, with the consequent economic losses. Fast location of these blockages in a minimally intrusive way is the objective pursued in this work. The method to achieve this is based on the use of a new magnetostrictive sensor that simplifies previous designs.

Published

2019

26. Multilevel PRC‐LCC resonant converter for X‐ray generation

Author

Alberto M. Pernia, Juan A. Martin-Ramos, Ó. Pardo-Vaquero, Juan A. Martinez, and Pedro J. Villegas

Subjects

Engineering, business.industry, Mode (statistics), Electrical engineering, Topology (electrical circuits), Power (physics), Transfer (computing), Electronic engineering, Inverter, Electrical and Electronic Engineering, Resonant converter, business, Resonant inverter, Voltage

Abstract

X-ray power supplies must operate under a wide variety of conditions. In fluoroscopy mode, they must transfer from 20 W to 1.2 kW, while in radiography mode they reach up to 100 kW. Input voltage range is also wide: from 400 to 750 V. Designers must achieve full power with lower input voltage, accepting important drops in efficiency under other circumstances. A two-inverter multilevel resonant topology is proposed to address these problems. Adapting the resonant elements, the resulting power stage is versatile enough to minimise the resonant current for both radiography and fluoroscopy. Input voltage fluctuations are compensated by the inverter operations.

Published

2015

27. Optimizing the control strategy of molten-salt heat storage systems in thermal solar power plants

Author

Pedro J. Villegas, Miguel J. Prieto, Rogelio Peon, Lourdes A. Barcia, and Juan A. Martinez

Subjects

Energy recovery, Engineering, business.industry, 020209 energy, Mechanical engineering, 02 engineering and technology, Thermal energy storage, Solar energy, Energy storage, Photovoltaic thermal hybrid solar collector, Waste heat, 0202 electrical engineering, electronic engineering, information engineering, Molten salt, business, Process engineering, Solar power

Abstract

Many thermal solar power plants use thermal oil as heat transfer fluid, and molten salts as thermal energy storage. Since the engineering of these plants is relatively new, regulation of the thermal energy storage system is currently achieved in manual or semiautomatic ways, controlling its variables with proportional-integral-derivative (PID) regulators. This paper explores into the results obtained with different control strategies implemented on a complete model of energy storage systems based on molten salt. By doing so, the optimal control method can be identified.

Published

2016

28. Multilevel converter for X-ray generators

Author

Juan A. Martin-Ramos, Fernando Nuno, Alberto M. Pernia, Oscar Pardo Vaquero, Hector Andres Mayor, and Pedro J. Villegas

Subjects

Forward converter, Engineering, business.industry, 020208 electrical & electronic engineering, Electrical engineering, High voltage, 02 engineering and technology, law.invention, law, Boost converter, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Transformer, business

Abstract

Power supplies for medical X-ray applications must be designed to operate under very different conditions. The converter must be designed to deliver the maximum required power, which usually results in poor efficiency at low power levels. A new multilevel structure is proposed to minimize this problem. It is based on the series-parallel resonant topology (LCC) where a new auxiliary transformer has been added.

Published

2016

29. Experimental measurement of power supplies dynamic behavior

Author

Alberto M. Pernia, Abel Alvarez Alvarez, Fernando Nuño García, Hector Andres Mayor, Juan A. Martin-Ramos, and Pedro J. Villegas

Subjects

Signal processing, Engineering, business.industry, 05 social sciences, Electrical engineering, Function generator, 020207 software engineering, 02 engineering and technology, Converters, Power (physics), Reliability (semiconductor), Data acquisition, Software, Power electronics, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, 0501 psychology and cognitive sciences, business, 050107 human factors

Abstract

In higher education courses, students must face the design of system feedback loops. Power electronics and particularly continuous power supplies provide an ideal environment to introduce classical control theory. This paper shows a simple way to experimentally obtain the dynamic behavior of DC/DC converters. The required material is quite common in any electronic laboratory: a function generator, a data acquisition card and a PC with some software. A computer application has been developed for the management of the equipment and the signal processing. The system is capable to plot converter gain in magnitude and phase for a configurable range of frequencies between 10Hz and 100 kHz. The resulting instrument is portable, low cost and shows excellent performance. The obtained measurement provides high reliability and it is done in a reasonable time. The system is, therefore, an excellent tool for designing feedback loops for DC/DC converters with switching frequencies up to 1 MHz.

Published

2016

30. Flatten it out

Author

F.F. Linera, F. Hernandez-Magadan, G. Vecino, J.M. Lopera, Pedro J. Villegas, Juan Diaz, Juan A. Martin-Ramos, and J.L. Rendueles

Subjects

Production line, Engineering, business.industry, System of measurement, Capacitive sensing, Flatness (systems theory), Energy Engineering and Power Technology, Mechanical engineering, STRIPS, Industrial and Manufacturing Engineering, law.invention, Lamination (geology), Microcontroller, Control and Systems Engineering, law, Production control, Electronic engineering, Electrical and Electronic Engineering, business

Abstract

Measuring the flatness of a cold-rolled steel strip or aluminum foil is a vital aspect of production quality control. Cold lamination control based on the results of this measurement crucially affects production efficiency, but further processes can modify flatness, which can be lost when the strip becomes cold. We describe a low-cost flatness measurement system to monitor this property at several production line points. The system is composed of a capacitive sensor array, some microcontrollers, and a PC for computing and visualization. Measurements on a production line are provided and analyzed.

Published

2008

31. Dynamic Limits of a Power-Factor Preregulator

Author

Marta M. Hernando, Diego G. Lamar, A. Fernandez, Javier Sebastian, and Pedro J. Villegas

Subjects

Engineering, Total harmonic distortion, Switched-mode power supply, business.industry, Voltage divider, Volt-ampere, Voltage regulator, Power factor, Voltage optimisation, Control and Systems Engineering, Control theory, Electronic engineering, Voltage regulation, Electrical and Electronic Engineering, business

Abstract

Power-factor correction has been one of the hottest topics during the last few years and, hence, many new circuits have appeared. In general, it is assumed that preregulators based on multiplier circuits have poor dynamics and, then, a second stage is needed to improve the output voltage dynamic behavior. The other option is the use of single-stage topologies which have fast output voltage regulation although the input current waveform is not sinusoidal. This work presents an analysis of the dynamic behavior of a conventional power-factor preregulator. The objective is to find the limits of the dynamic characteristics of these circuits when the priority is to improve the output voltage regulation and not the total harmonic distortion or the power factor. A large-signal model is presented and the theoretical results are validated with a prototype.

Published

2005

32. Helpful Hints to Select a Power-Factor-Correction Solution for Low- and Medium-Power Single-Phase Power Supplies

Author

Pedro J. Villegas, A. Fernandez, Javier Sebastian, Marta M. Hernando, and Jorge Garcia

Subjects

Engineering, Switched-mode power supply, business.industry, Electrical engineering, Commutation cell, Power factor, Voltage optimisation, Power rating, Control and Systems Engineering, Power module, Electronic engineering, Electrical and Electronic Engineering, Volt-ampere reactive, business, Switched-mode power supply applications

Abstract

This work presents a review of power-factor-correction (PFC) circuits for low- and medium-power single-phase power supplies. The main idea is not just to show the state of the art of this topic but to select the most interesting topologies for each application depending on the power level, the input voltage range, and the output voltage. Since IEC 61000-3-2 regulations came into force, many new topologies have been presented trying to obtain a cost-effective solution to reduce the input current harmonic content. Each one of them has its application range due to the inherent characteristics of the topology. Obviously, not every converter is useful for the same application. This is especially perceptible in PFC circuits due to the large amount of different solutions. Hence, this paper tries to show the most appropriate topologies for each application, being the input power and the IEC 61000-3-2 Class some of the main parameters to select it. The scope of the paper is focused on single-phase power supplies belonging to IEC 61000-3-2 Class A and Class D with an input power level below 4 kW.

Published

2005

33. New active input current shapers to allow AC-to-DC converters with asymmetrically driven transformers to comply with the IEC-1000-3-2

Author

A. Fernandez, Pedro J. Villegas, Miguel J. Prieto, Marta M. Hernando, and Javier Sebastian

Subjects

Engineering, business.industry, Electrical engineering, Power factor, Converters, Inductor, law.invention, Capacitor, Magnetic core, law, Electronic engineering, Electrical and Electronic Engineering, business, Transformer, Electrical impedance, Voltage

Abstract

Four new topologies of active input current shapers (AICSs) for converters with symmetrically driven transformers (such as half-bridge, full-bridge and push-pull) have been proposed. This paper analyzes the extension of the use of these new AICSs topologies to converters with asymmetrically driven transformers. Using some of these topologies, the size of AICS inductors can be reduced and even integrated in a single magnetic core. As in the case of other converters with AICS circuit, the new topologies allow line current harmonics to be reduced and thereby to comply with the IEC 1000-3-2 specifications, whilst maintaining all the features of standard DC-to-DC converters (e.g., fast transient response). Finally, the proposed topologies have been experimentally tested.

Published

2002

34. Improved active input current shapers for converters with symmetrically driven transformer

Author

A. Fernandez, Pedro J. Villegas, Javier Sebastian, Marta M. Hernando, and J.M. Lopera

Subjects

Total harmonic distortion, Engineering, business.industry, Power factor, Converters, Inductor, Industrial and Manufacturing Engineering, law.invention, Magnetic core, Control and Systems Engineering, law, Harmonics, Electronic engineering, Transient response, Electrical and Electronic Engineering, Transformer, business

Abstract

This paper deals with the analysis of new implementations of the recently proposed active input current shaper (AICS). Using these implementations, the size of the AICS inductors used in AC-to-DC converters based on "symmetrically driven" DC-to-DC topologies (e.g., half bridge, push-pull, or full bridge) can be reduced and even integrated in only one magnetic core. As in the case of other converters with the AICS, the new implementations allow us to reduce the line current harmonics in order to comply with the IEC 1000-3-2 specifications, maintaining all the features of the standard DC-to-DC converters (e.g., fast transient response). Finally, the four proposed implementations of the AICS have been experimentally tested.

Published

2001

35. Average current mode control of series-switching post-regulators used in power factor correctors

Author

Marta M. Hernando, Fernando Nuno, Javier Sebastian, Pedro J. Villegas, and Juan A. Martinez

Subjects

Engineering, Switched-mode power supply, business.industry, Ripple, Feed forward, Distributed power, Power factor, law.invention, Capacitor, Control theory, law, Electrical and Electronic Engineering, business, Low voltage, Voltage

Abstract

The application of the average current mode control (ACMC) to a new type of very efficient post-regulator is studied in this paper. This post-regulator, called series-switching post-regulator (SSR), has been proposed to improve the dynamic response series-switching of power factor correctors (PFC), The post-regulator exhibits very high efficiency due to the fact that only a part of the total power undergoes a power conversion process. Using ACMC, the bandwidth of the post-regulator increases in relation to the one obtained when a conventional voltage-mode control (with or without feedforward) is used. As a result, the attenuation of the input voltage ripple (100-120 Hz) increases and, a lower bulk capacitor can be used to obtain a low voltage ripple at the output, which is extremely important when a battery is connected at the output. This is rather common in distributed power supply systems.

Published

2000

36. Average-current-mode control of two-input buck postregulators used in power-factor correctors

Author

Pedro J. Villegas, F.M. Fernandez-Linera, Marta M. Hernando, Fernando Nuno, and Javier Sebastian

Subjects

Engineering, business.industry, Ripple, Electrical engineering, Feed forward, Distributed power, Power factor, law.invention, Capacitor, Control and Systems Engineering, Control theory, law, Power electronics, Electrical and Electronic Engineering, business, Low voltage, Voltage

Abstract

The use of the average-current-mode control in the two-input buck postregulator is studied in this paper. Using this type of control, the attenuation of the input voltage ripple (100-120 Hz) increases in relation to the one obtained when a conventional voltage-mode control (with or without feedforward) is used and, therefore, lower bulk capacitors can be used to obtain a very low voltage ripple at the output, which is very important when a battery is connected at the output. This is very common in distributed power supply systems.

Published

1999

37. Improving dynamic response of power-factor correctors by using series-switching postregulator

Author

Pedro J. Villegas, Marta M. Hernando, Javier Sebastian, and S. Ollero

Subjects

Total harmonic distortion, Engineering, business.industry, Power factor, law.invention, Control and Systems Engineering, law, Power electronics, Electronic engineering, Waveform, Electrical and Electronic Engineering, Transformer, business, Short circuit

Abstract

A new method to improve the dynamic response of power-factor correctors (PFCs) is described in this paper. The method is based on the use of a new very highly efficient postregulator, called a series-switching postregulator. This new postregulator exhibits very high efficiency due to the fact that only a part of the total power undergoes a power conversion process. The proposed postregulator can be used with any PFC topology (either with or without a transformer), with no modifications in the topology, and can be easily protected against short circuits.

Published

1999

38. High-efficiency and wide-bandwidth performance obtainable from a two-input buck converter

Author

Fernando Nuno, Pedro J. Villegas, Javier Sebastian, and Marta M. Hernando

Subjects

Engineering, Switched-mode power supply, business.industry, Buck converter, Bandwidth (signal processing), Direct current, Electronic engineering, Commutation, Power factor, Electrical and Electronic Engineering, Converters, business, Voltage

Abstract

A study of the two-input post-regulators is carried out in this paper. In these post-regulators, only a part of the total power undergoes a switching conversion process, whereas the remainder of the power comes up to the load directly, with no power conversion process. Due to this fact, very high efficiency is achieved. Moreover, the stress in the semiconductors and the filter size are both much lower than in standard post-regulators. Two-input post-regulators require two-output main converters. However, many converter topologies can be easily adapted to supply two-output voltages with no efficiency penalty. Two-input postregulators can be used in many power converters. Multiple-output DC-to-DC converters and AC-to-DC power factor correctors are two good examples.

Published

1998

39. Improving dynamic response of power-factor preregulators by using two-input high-efficient postregulators

Author

Pedro J. Villegas, O. Garcia, Javier Sebastian, J. Arau, and F. Nubo

Subjects

Engineering, business.industry, Power factor, AC power, Transient analysis, law.invention, Capacitor, law, Control theory, Voltage regulation, Electronics, Electrical and Electronic Engineering, business, Transformer, Voltage

Abstract

A new method to improve the dynamic response of power-factor preregulators (PFPs) is developed in this paper. The method is based on the use of a very high efficient postregulator with two inputs instead of only one. This two-input postregulator exhibits very high efficiency due to the fact that only a part of the total power undergoes a power conversion process. Such postregulators need two-output PFPs at their inputs, which can be easily obtained in PFPs with transformers or with two PFPs working in parallel.

Published

1997

40. A microcontroller-based emergency ballast for fluorescent lamps

Author

M. Rico, Cecilio Blanco, Pedro J. Villegas, J.M. Alonso, and Juan José del Coz Díaz

Subjects

Ballast, Engineering, business.industry, Electrical engineering, Power factor, Automotive engineering, law.invention, Microcontroller, Battery charger, Built-in self-test, Control and Systems Engineering, law, Electronics, Electrical and Electronic Engineering, business, Luminous efficacy, Fluorescent lamp

Abstract

This paper presents a new emergency ballast for fluorescent lamps. The fundamental block is the microcontroller-based control circuit, which performs the supervision and control function. High-frequency electronics techniques are proposed for the high power factor battery charger and the lamp driver, which provides high luminous efficacy. In this way, size and weight have been minimized for the whole system. With the introduction of the microcontroller, the system has the capability of testing itself, checking its functional state, and displaying internal faults. Thus, the reliability of the system is improved and, concurrently, maintenance cost is decreased.

Published

1997

41. An improved electronic transformer for low-power halogen cycle lamps

Author

Cecilio Blanco, J.M. Alonso, Pedro J. Villegas, M. Rico, I. Fernandez, E. Lopez, and A. Gonzalez

Subjects

Engineering, Incandescent light bulb, Switched-mode power supply, business.industry, Electrical engineering, Power factor, AC power, Multifaceted reflector, Industrial and Manufacturing Engineering, law.invention, LED lamp, Halogen lamp, Control and Systems Engineering, law, Electrical and Electronic Engineering, business, Transformer

Abstract

Halogen cycle lamps are being used for outdoor and indoor lighting. For indoor lighting, low power halogen cycle lamps are used. When lamp power is below 50 W, it is not possible to connect these lamps directly to power lines because they need a low input voltage, between 6 V and 24 V. Traditional supply equipment for low power halogen lamps are 50/60 Hz transformers, but they have large size and weight. A low cost and reliable high frequency supply system, an electronic power transformer, for low power halogen cycle lamps based on a self-oscillating half bridge inverter is described in this paper. Compared with a 50 Hz transformer, weight and size have been minimized. Moreover a high power factor, more than 0.9, has been achieved, and the circuit is both reliable and flexible. >

Published

1997

42. A polynomical model to calculate steady state set-point in the PRC-LCC topology with a capacitor as output filter

Author

Pedro J. Villegas, Agustin Lopez-Hernandez, Fernando Nuno, Juan José del Coz Díaz, J. Francisco Gutierrez-Delgado, and Juan A. Martin-Ramos

Subjects

Engineering, Switched-mode power supply, business.industry, Commutation cell, Topology (electrical circuits), Power factor, Topology, Series and parallel circuits, law.invention, Capacitor, law, Duty cycle, Control theory, Boost converter, business

Abstract

The behaviour of the series parallel resonant converter, PRC-LCC, with a capacitor as output filter is analyzed when operating on the optimum switching line. A polynomial is deduced to quickly compute what switching frequency and duty cycle are necessary at the control to obtain the desired output voltage and power in the converter. This polynomial is so simple that it is suitable for being implemented in low cost digital processors. It could provide, for instance, a start up strategy guiding the power supply to a known set point; or it could generate alarms if currents or voltages measured are larger than expected. In the paper, the steps to obtain such a model are described in detail. As an example, the coefficients of the polynomials are deduced when the series and the parallel capacitor are the same. The grade of accuracy of the model has been demonstrated through experimentation on a prototype.

Published

2013

43. High-voltage DC/DC converter 10KV, 600W with digital output voltage monitoring

Author

Diaz Gonzalez Juan, Juan A. Martin-Ramos, Miguel A. Jose-Prieto, Pedro J. Villegas, and Martin-Pernia Alberto

Subjects

Forward converter, Low-dropout regulator, 0-10 V lighting control, Computer science, Dropout voltage, Voltage divider, Hardware_INTEGRATEDCIRCUITS, Electronic engineering, Voltage droop, Hardware_PERFORMANCEANDRELIABILITY, Voltage regulation, Voltage source

Abstract

In this paper, a DC/DC converter with high output voltage is presented. The input voltage is limited to 75 V DC; the output load varies from 166K to 1M, and the output voltage varies from 5 KV to 10 KV. The power supply was requested to have a digital measurement of the output voltage, in order to record the output voltage in a mass storage. Thus, a communication link has to be implemented from the high voltage output to the low voltage side, in a safe-way. The proposed solution uses fiber optic to transmit in a digital way the output voltage; in this way, a proper insulation is ensured.

Published

2013

44. Universal PV regulator based on low cost microcontroller

Author

Juan A. Martin-Ramos, Jorge L. Arias, Alberto M. Pernia, Juan José del Coz Díaz, and Pedro J. Villegas

Subjects

Microcontroller, Engineering, Electricity generation, business.industry, Power module, Photovoltaic system, Grid-connected photovoltaic power system, Electrical engineering, Electronic engineering, business, Maximum power point tracking, Renewable energy, Power control

Abstract

DC microgrids are becoming an economical alternative for local power generation. The mix of different renewable energies makes it necessary to use electronic systems compatible between them to supply common loads. This paper presents a photovoltaic regulator that can operate in the MPP of PV arrays regardless of the input PV array configuration or the output voltage required. Parallel connection thanks to its current-source behavior is also proposed. This allows the plug-and-play installation of the device without the need to get rid of previous equipment.

Published

2013

45. Optimal control of a high voltage power supply based on the PRC-LCC topology with a capacitor as output filter

Author

Juan A. Martinez, Pedro J. Villegas, Juan A. Martin-Ramos, Juan Diaz, and Alberto M. Pernia

Subjects

Engineering, Switched-mode power supply, business.industry, High voltage, Topology (electrical circuits), Sense (electronics), Optimal control, law.invention, Capacitor, law, Control theory, Boost converter, Electronic engineering, business, Power control

Abstract

Several control strategies have been defined for the control of high voltage power supplies based on resonant topologies. In recent papers, an optimal control based on minimizing the circulating energy in the converter has been proposed. This control is obtained by switching one of the branches of a full bridge inverter synchronously with the resonant current. In this paper, the problems associated to this issue are analyzed and a way to implement optimal control is proposed. Besides, the dynamic behavior of a PRC-LCC converter with a capacitor as output filter is obtained from the mathematical model and verified experimentally. From this study a second feedback loop is proposed to control the output voltage. Experimental waveforms will demonstrate the dynamic behavior of the closed-loop power supply under extreme variations: full load, short-circuit, no load.

Published

2011

46. Paralleling DC/DC Switched Converters Based on Piezoelectric Transformers

Author

Miguel J. Prieto, D. Gacio, Juan Diaz, Pedro J. Villegas, and Fernando Nuno

Subjects

Forward converter, Materials science, business.industry, Ripple, Electrical engineering, Converters, law.invention, Harmonic analysis, Band-pass filter, law, Boost converter, Electronic engineering, business, Transformer, Voltage

Abstract

One of the most important advantages in using piezoelectric transformers (PT) is that they operate at high frequencies with a very good efficiency (1), tipically higher than 95%. This paper presents a DC/DC converter based on two piezoelectric transformers which duplicates the output voltage frequency ripple, maintaining the switching frequency. Also, the converter operates at a fixed frequency, and an alternative way to regulate the output power is shown. The converter is achieved by parallelizing two DC/DC converters, based on piezoelectric transformers. Of course, the size is increased, but on the other hand, the efficiency and the output ripple are improved. The obtained results evince an improvement in the overall efficiency, as well as a reduction in the output filter size, with a lower voltage ripple.

Published

2009

47. A High- Voltage AC/DC Resonant Converter Based on PRC with Single Capacitor as an Output Filter

Author

Juan Diaz, Juan A. Martinez, Alberto Martin-Pernia, Pedro J. Villegas, and Juan A. Martin-Ramos

Subjects

Computer science, business.industry, Automatic frequency control, Electrical engineering, Converters, Inductor, Capacitance, law.invention, Capacitor, Duty cycle, law, Electronic engineering, business, Transformer, Voltage

Abstract

One of the major drawbacks of high-ratio step-up transformers is the high value of their secondary-side capaci- tor. This value is reflected at the primary side, giving rise to a nondesirable one. There are some converters which include this capacitor in the topology and can cope with it, and even more, they need it. In particular, in high-voltage applications, we will find transformers with a large capacitance value since they use high-ratio step-up transformers. In this kind of applications, it is always interesting not to have inductors at the output filter, with single-capacitor filters being preferred instead. Thus, one of the simplest topologies is the parallel resonant converter (PRC) with a single-capacitor output filter. It can be controlled by the switching frequency and/or duty cycle, which makes zero voltage switching feasible in the power switches. In this paper, the PRC modeling and design and the experimental results are shown in a prototype delivering 3.5 kV and 260 W.

Published

2009

48. A Low-Cost System For Flatness Monitoring in Metal Processes

Author

Juan A. Martin-Ramos, Juan Diaz, J. L. Rendueles, J.M. Lopera, Pedro J. Villegas, F.F. Linera, F. Hernandez-Magadan, and G. Vecino

Subjects

Production line, Aluminum foil, Engineering drawing, Microcontroller, Engineering, business.industry, Capacitive sensing, Flatness (systems theory), System of measurement, Mechanical engineering, Production efficiency, business, Production quality

Abstract

Measurement of the flatness of cold rolled steel strip or aluminum foil is a vital aspect of production quality control. Cold lamination control based on the results of this measurement crucially affects production efficiency, but further processes can modify this flatness, and it can be even lost when strip becomes cold. We describe a low-cost flatness measurement system to monitor this property at several production line points. The system is composed of a capacitive sensors array, some microcontrolers and a PC for computing and visualitation. Measurements on a production line are provided and analyzed.

Published

2006

49. Using synchronous rectification for medium voltage applications

Author

Pedro J. Villegas, Diego G. Lamar, A. Fernandez, Javier Sebastian, and Marta M. Hernando

Subjects

Engineering, Voltage rating, business.industry, Electrical engineering, Hardware_PERFORMANCEANDRELIABILITY, Thermal conduction, Power (physics), Rectification, MOSFET, Hardware_INTEGRATEDCIRCUITS, Electronic engineering, business, Low voltage, Voltage, Diode

Abstract

Synchronous rectification has been used for low voltage applications from long time ago. MOSFET technology for such low voltages has been incredibly improved during the last years. Furthermore, this improvement has also been very significant in other voltage ranges. This paper explores the possibility of using synchronous rectification for higher output voltages, such as 12 V, 48 V, or 100 V. Regarding the conduction losses, commercial devices available today may allow using synchronous rectification for these output voltages up to quite high power levels. However, as the voltage rating increases, the switching capability decreases, especially as far as the body diode is concerned. Hence, switching losses make the solution worse than the conventional diode scheme for output voltages higher than 24 V.

Published

2004

50. Design trade-offs to meet class a IEC 61000-3-2 regulations with passive circuits in low power applications

Author

Pedro J. Villegas, A. Fernandez, Javier Sebastian, Marta M. Hernando, and Diego G. Lamar

Subjects

Engineering, IEC 61000-3-2, business.industry, Electrical engineering, Power factor, Reliability engineering, law.invention, Filter (video), law, Low-power electronics, Resistor, business, Active filter, Electronic filter, Power control

Abstract

The last amendment to IEC 61000-3-2 regulations significantly modified the regulation. In fact, Class A limits are now much softer. As a consequence, many of the solutions presented in the last years are now more or less useless for low power applications. This is due to the fact that simpler solutions as a passive LC filter can meet the regulations if the power level is below 500 W. This paper presents a study of trade-off passive solutions to meet IEC 61000-3-2 regulations for power levels below 300 W, even for universal line voltage. As it is demonstrated in the paper, designing the filter in such a way that the series resistance is higher can reduce the size of the inductor although the efficiency is penalized. A trade-off between size and efficiency can be established and, in some cases, using just the resistor can reduce the input current harmonic content sufficiently to comply with the abovementioned regulation and with an acceptable efficiency penalty.

Published

2004