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Luis Gonzalez-Morales
Departamento de Ingeniería Eléctrica, Electrónica y Telecomunicaciones—DEET, Facultad de Ingeniería, Universidad de Cuenca, Cuenca 010107, Ecuador

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Short Biography

L.G. Gonzalez received the Electronic Engineering degree from the Universidad Nacional Experimental de Las Fuerzas Armadas Nacionales UNEFA, Maracay, Venezuela in 1999, the Master degree in Automation and Instrumentation from the Universidad de Los Andes ULA, Mérida, Venezuela in 2001, and a Ph.D. in Electronics Engineering at Polytechnic University of Valencia (UPV), Spain in 2011. He is in the Department of Electrical, Electronic and Telecommunications, University of Cuenca Ecuador. His current research interest includes power electronics and renewable energy, and he is the Director of the Microgrid Laboratory of the University of Cuenca. He has senior member in the Institute of Electrical and Electronics Engineers (IEEE) and Association of Energy Engineers (AEE), and he is the author of more than 50 publications in journals and conference proceedings.

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Journal article
Published: 26 August 2021 in Applied Sciences
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Smart buildings seek to have a balance between energy consumption and occupant comfort. To make this possible, smart buildings need to be able to foresee sudden changes in the building’s energy consumption. With the help of forecasting models, building energy management systems, which are a fundamental part of smart buildings, know when sudden changes in the energy consumption pattern could occur. Currently, different forecasting methods use models that allow building energy management systems to forecast energy consumption. Due to this, it is increasingly necessary to have appropriate forecasting models to be able to maintain a balance between energy consumption and occupant comfort. The objective of this paper is to present an energy consumption forecasting strategy that allows hourly day-ahead predictions. The presented forecasting strategy is tested using real data from two buildings located in Valladolid, Spain. Different machine learning and deep learning models were used to analyze which could perform better with the proposed strategy. After establishing the performance of the models, a model was assembled using the mean of the prediction values of the top five models to obtain a model with better performance.

ACS Style

Deyslen Mariano-Hernández; Luis Hernández-Callejo; Martín Solís; Angel Zorita-Lamadrid; Oscar Duque-Perez; Luis Gonzalez-Morales; Felix Santos-García. A Data-Driven Forecasting Strategy to Predict Continuous Hourly Energy Demand in Smart Buildings. Applied Sciences 2021, 11, 7886 .

AMA Style

Deyslen Mariano-Hernández, Luis Hernández-Callejo, Martín Solís, Angel Zorita-Lamadrid, Oscar Duque-Perez, Luis Gonzalez-Morales, Felix Santos-García. A Data-Driven Forecasting Strategy to Predict Continuous Hourly Energy Demand in Smart Buildings. Applied Sciences. 2021; 11 (17):7886.

Chicago/Turabian Style

Deyslen Mariano-Hernández; Luis Hernández-Callejo; Martín Solís; Angel Zorita-Lamadrid; Oscar Duque-Perez; Luis Gonzalez-Morales; Felix Santos-García. 2021. "A Data-Driven Forecasting Strategy to Predict Continuous Hourly Energy Demand in Smart Buildings." Applied Sciences 11, no. 17: 7886.

Journal article
Published: 15 August 2021 in Electronics
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In this work, methods are implemented to improve two aspects of energy quality in a wind generation system. First, the harmonic reduction is achieved by applying a linear control technique in the Grid Side Converter; and second, the power factor of the wind generation system using a Doubly Fed Induction Generator (DFIG) is adjusted by injecting reactive power. The reduction of the harmonic content is performed with a digital resonant controller, which tracks the periodic signals corresponding to the current harmonics of the Grid Side Converter (GSC), which is part of a “back to back” converter in a wind generation system. This technique allows implementing a current controller of the GSC with a high level of rejection of current harmonics, of frequencies with orders (1 + 6k) and (1 − 6k) (where k is an integer), when executed in the synchronous reference frame (dq). The purpose of this work is to inject currents to the grid with very low harmonic distortion and provide a method for tuning the resonant controller for a simple L filter; also, the GSC is used to generate reactive power. These two improvements achieve a unity power factor, and this is necessary to comply with the new codes where a leading power factor helps regulate the grid voltage.

ACS Style

Francisco Emilio Rodarte Gutiérrez; Oscar Carranza Castillo; Jaime José Rodríguez Rivas; Rubén Ortega González; Edgar Peralta Sánchez; Luis Gerardo González Morales. Harmonics Reduction and Reactive Power Injection in Wind Generation Systems. Electronics 2021, 10, 1964 .

AMA Style

Francisco Emilio Rodarte Gutiérrez, Oscar Carranza Castillo, Jaime José Rodríguez Rivas, Rubén Ortega González, Edgar Peralta Sánchez, Luis Gerardo González Morales. Harmonics Reduction and Reactive Power Injection in Wind Generation Systems. Electronics. 2021; 10 (16):1964.

Chicago/Turabian Style

Francisco Emilio Rodarte Gutiérrez; Oscar Carranza Castillo; Jaime José Rodríguez Rivas; Rubén Ortega González; Edgar Peralta Sánchez; Luis Gerardo González Morales. 2021. "Harmonics Reduction and Reactive Power Injection in Wind Generation Systems." Electronics 10, no. 16: 1964.

Journal article
Published: 03 June 2021 in Renewable and Sustainable Energy Reviews
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Electric vehicles have attracted increasing interest in recent years owing to their reduced environmental impact. This is particularly so in the case of vehicles for public transportation, such as buses. However, the transition from internal combustion engine buses to electric buses (EBs) is accompanied by new challenges for the power grid, particularly in developed countries. This paper proposes a new methodology to address the transition of urban public transportation from conventional buses to EBs by route prioritization. The scores of each criterion are weighted using a multi-criteria technique. The case study of Cuenca, Ecuador, which is an intermediate Andean city, is considered. The results indicate that the proposed methodology enables the establishment of route prioritization for the transition toward electric mobility. The replacement to EBs of the three best-performing bus lines (50 buses) avoids using 1328 gallons of diesel each day and, thereby, over 13.3 metric tons of CO2 and other polluting gases into the atmosphere. The economic savings reach 83% with respect the diesel consumption. The methodology is suitable for aiding municipalities in identifying adequate bus lines to start this shift. Its application is feasible in any city since it requires as input data: the technical characteristics of electric and combustion buses, operational details of existing routes, and the number of passengers per route. Furthermore, this tool provides a means to calculate the present fuel costs, emission of CO2 for each bus line, and the estimated electricity costs.

ACS Style

Klaus-Peter Wenz; Xavier Serrano-Guerrero; Antonio Barragán-Escandón; L.G. González; Jean-Michel Clairand. Route prioritization of urban public transportation from conventional to electric buses: A new methodology and a study of case in an intermediate city of Ecuador. Renewable and Sustainable Energy Reviews 2021, 148, 111215 .

AMA Style

Klaus-Peter Wenz, Xavier Serrano-Guerrero, Antonio Barragán-Escandón, L.G. González, Jean-Michel Clairand. Route prioritization of urban public transportation from conventional to electric buses: A new methodology and a study of case in an intermediate city of Ecuador. Renewable and Sustainable Energy Reviews. 2021; 148 ():111215.

Chicago/Turabian Style

Klaus-Peter Wenz; Xavier Serrano-Guerrero; Antonio Barragán-Escandón; L.G. González; Jean-Michel Clairand. 2021. "Route prioritization of urban public transportation from conventional to electric buses: A new methodology and a study of case in an intermediate city of Ecuador." Renewable and Sustainable Energy Reviews 148, no. : 111215.

Review
Published: 27 May 2021 in Electronics
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Current–voltage (I–V) curve tracers are used for measuring voltage and current in photovoltaic (PV) modules. I–V curves allow identifying certain faults in the photovoltaic module, as well as quantifying the power performance of the device. I–V curve tracers are present in different topologies and configurations, by means of rheostats, capacitive loads, electronic loads, transistors, or by means of DC–DC converters. This article focuses on presenting all these configurations. The paper shows the electrical parameters to which the electronic elements of the equipment are exposed using LTSpice, facilitating the appropriate topology selection. Additionally, a comparison has been included between the different I–V tracers’ topologies, analyzing their advantages and disadvantages, considering different factors such as their flexibility, modularity, cost, precision, speed or rating, as well as the characteristics of the different DC–DC converters.

ACS Style

José Morales-Aragonés; Miguel Dávila-Sacoto; Luis González; Víctor Alonso-Gómez; Sara Gallardo-Saavedra; Luis Hernández-Callejo. A Review of I–V Tracers for Photovoltaic Modules: Topologies and Challenges. Electronics 2021, 10, 1283 .

AMA Style

José Morales-Aragonés, Miguel Dávila-Sacoto, Luis González, Víctor Alonso-Gómez, Sara Gallardo-Saavedra, Luis Hernández-Callejo. A Review of I–V Tracers for Photovoltaic Modules: Topologies and Challenges. Electronics. 2021; 10 (11):1283.

Chicago/Turabian Style

José Morales-Aragonés; Miguel Dávila-Sacoto; Luis González; Víctor Alonso-Gómez; Sara Gallardo-Saavedra; Luis Hernández-Callejo. 2021. "A Review of I–V Tracers for Photovoltaic Modules: Topologies and Challenges." Electronics 10, no. 11: 1283.

Journal article
Published: 22 July 2020 in Energies
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The power generated by photovoltaic solar systems is exposed to high variability of irradiance mainly due to weather conditions, which cause instability in the electrical networks connected to these systems. This study shows the typical behavior of solar irradiance in an Andean city, which presents considerable variations that can reach up to 63% of the nominal power of the photovoltaic system, at time intervals in the order of seconds. The study covers the application of 3 techniques to reduce power fluctuations at the point of common coupling (PCC), with the incorporation of energy storage systems, under the same irradiance conditions. Supercapacitors were used as the storage system, which were selected for their high efficiency and useful life. A state of charge control is also applied by means of a hysteresis band. The three algorithms studied show similar behaviors; however, the ramp control technique has the best performance. The storage system was dimensioned based on the photovoltaic system’s nominal power and the desired rate of change in the PCC, whose capacity can be estimated from Pnom/12 [kWh] and a maximum power that can reach up to 0.63 Pnom. The study determines that based on the storage capacity and the irradiance characteristics under study, the storage system could use at least 5.76 daily charge/discharge cycles. In the study, it is possible to reduce the rate of change of the photovoltaic energy injected into the PCC about 6.66 times with the use of the proposed energy storage system.

ACS Style

Luis Gerardo González; Rommel Chacon; Bernardo Delgado; Dario J. Benavides; Juan Espinoza. Study of Energy Compensation Techniques in Photovoltaic Solar Systems with the Use of Supercapacitors in Low-Voltage Networks. Energies 2020, 13, 3755 .

AMA Style

Luis Gerardo González, Rommel Chacon, Bernardo Delgado, Dario J. Benavides, Juan Espinoza. Study of Energy Compensation Techniques in Photovoltaic Solar Systems with the Use of Supercapacitors in Low-Voltage Networks. Energies. 2020; 13 (15):3755.

Chicago/Turabian Style

Luis Gerardo González; Rommel Chacon; Bernardo Delgado; Dario J. Benavides; Juan Espinoza. 2020. "Study of Energy Compensation Techniques in Photovoltaic Solar Systems with the Use of Supercapacitors in Low-Voltage Networks." Energies 13, no. 15: 3755.

Journal article
Published: 01 July 2020 in Revista Facultad de Ingeniería Universidad de Antioquia
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Machine learning methods have been used to solve complicated practical problems in different areas and are becoming increasingly popular today. The purpose of this article is to evaluate the prediction of the energy production of three different photovoltaic systems and the supervision of measurement sensors, through Machine learning and data mining in response to the behavior of the climatic variables of the place under study. On the other hand, it also includes the implementation of the resulting models in the SCADA system through indicators, which will allow the operator to actively manage the electricity grid. It also offers a strategy in simulation and prediction in real-time of photovoltaic systems and measurement sensors in the concept of smart grids.

ACS Style

Dario Javier Benavides; Paul Arévalo-Cordero; Luis G. González; Luis Hernández-Callejo; Francisco Jurado; José A. Aguado. Method of monitoring and detection of failures in PV system based on machine learning techniques. Revista Facultad de Ingeniería Universidad de Antioquia 2020, 1 .

AMA Style

Dario Javier Benavides, Paul Arévalo-Cordero, Luis G. González, Luis Hernández-Callejo, Francisco Jurado, José A. Aguado. Method of monitoring and detection of failures in PV system based on machine learning techniques. Revista Facultad de Ingeniería Universidad de Antioquia. 2020; ():1.

Chicago/Turabian Style

Dario Javier Benavides; Paul Arévalo-Cordero; Luis G. González; Luis Hernández-Callejo; Francisco Jurado; José A. Aguado. 2020. "Method of monitoring and detection of failures in PV system based on machine learning techniques." Revista Facultad de Ingeniería Universidad de Antioquia , no. : 1.

Journal article
Published: 30 June 2020 in Ingenius
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Este artículo presenta el diseño de un sistema de energía basado en volante de inercia para mitigar los huecos de tensión. Con el sistema se mejora la calidad de energía en un punto de una red de distribución, el cual está expuesto a la conexión aleatoria de máquinas eléctricas. Para ello, se modela el sistema de distribución de energía, el sistema de inyección de energía que está compuesto por una máquina eléctrica con volante de inercia, el sistema de conversión de energía bidireccional y el sistema de control de corriente, voltaje y velocidad. El sistema diseñado permite inyectar una potencia de 22.8 kW y capacidad de 1.2 Wh, compensando los transitorios producidos por las cargas conectadas a la red

ACS Style

Mauricio Orellana; Luis González Morales; Nuno Abreu Sousa. Control de un sistema de energía basado en volantes de inercia para mitigar los huecos de tensión en el punto de conexión común. Ingenius 2020, 49 -58.

AMA Style

Mauricio Orellana, Luis González Morales, Nuno Abreu Sousa. Control de un sistema de energía basado en volantes de inercia para mitigar los huecos de tensión en el punto de conexión común. Ingenius. 2020; (24):49-58.

Chicago/Turabian Style

Mauricio Orellana; Luis González Morales; Nuno Abreu Sousa. 2020. "Control de un sistema de energía basado en volantes de inercia para mitigar los huecos de tensión en el punto de conexión común." Ingenius , no. 24: 49-58.

Journal article
Published: 30 June 2020 in Ingenius
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Este artículo presenta el diseño de un sistema de energía basado en volante de inercia para mitigar los huecos de tensión. Con el sistema se mejora la calidad de energía en un punto de una red de distribución, el cual está expuesto a la conexión aleatoria de máquinas eléctricas. Para ello, se modela el sistema de distribución de energía, el sistema de inyección de energía que está compuesto por una máquina eléctrica con volante de inercia, el sistema de conversión de energía bidireccional y el sistema de control de corriente, voltaje y velocidad. El sistema diseñado permite inyectar una potencia de 22.8 kW y capacidad de 1.2 Wh, compensando los transitorios producidos por las cargas conectadas a la red

ACS Style

Mauricio Orellana; Luis González Morales; Nuno Abreu Sousa. Control de un sistema de energía basado en volantes de inercia para mitigar los huecos de tensión en el punto de conexión común. Ingenius 2020, 49 -58.

AMA Style

Mauricio Orellana, Luis González Morales, Nuno Abreu Sousa. Control de un sistema de energía basado en volantes de inercia para mitigar los huecos de tensión en el punto de conexión común. Ingenius. 2020; (24):49-58.

Chicago/Turabian Style

Mauricio Orellana; Luis González Morales; Nuno Abreu Sousa. 2020. "Control de un sistema de energía basado en volantes de inercia para mitigar los huecos de tensión en el punto de conexión común." Ingenius , no. 24: 49-58.

Journal article
Published: 09 June 2020 in Revista Facultad de Ingeniería Universidad de Antioquia
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The analysis of PV solar panels deterioration allows researchers to know the health status of a panel in order to determine the overall functioning of a PV solar farm. A part of this analysis is performed by thermography, generally using professional and expensive equipment. This article presents a validation for the use of low-cost thermal imaging cameras, reviewing the relative error that can be obtained through scattering, contour analysis and three-dimensional meshes. The procedure is validated by analysis of I-V/P-V curves and a temperature sensor matrix, reaching errors less than 10% with cameras with less than 500USD.

ACS Style

Miguel Alberto D´ávila-Sacoto; Luis Hernández-Callejo; Víctor Alonso Gómez; Sara Gallardo-Saavedra; Luis Gerardo González-Morales. Low-cost infrared thermography in aid of photovoltaic panels degradation research. Revista Facultad de Ingeniería Universidad de Antioquia 2020, 1 .

AMA Style

Miguel Alberto D´ávila-Sacoto, Luis Hernández-Callejo, Víctor Alonso Gómez, Sara Gallardo-Saavedra, Luis Gerardo González-Morales. Low-cost infrared thermography in aid of photovoltaic panels degradation research. Revista Facultad de Ingeniería Universidad de Antioquia. 2020; ():1.

Chicago/Turabian Style

Miguel Alberto D´ávila-Sacoto; Luis Hernández-Callejo; Víctor Alonso Gómez; Sara Gallardo-Saavedra; Luis Gerardo González-Morales. 2020. "Low-cost infrared thermography in aid of photovoltaic panels degradation research." Revista Facultad de Ingeniería Universidad de Antioquia , no. : 1.

Conference paper
Published: 05 January 2020 in Communications in Computer and Information Science
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One of the most important challenges to mitigate global climate change is to move towards replacing petroleum-based energy sources. In this idea, non-conventional renewable energy sources such as photovoltaic (PV) solar and wind power are the most used worldwide. In the case of the massification of PV solar generation systems due to its low cost, it has resulted in the use of large-scale supervision techniques that allow a quick and effective determination of the health status of its main components. This study, performs an analysis of the performance of different low-cost cameras for thermography. The analysis compares the accuracy of the thermal images obtained and the error is quantified by means of an image dispersion analysis in each of them. Three-dimensional meshes and contours figures are also made to determine the temperature of a faulty cell. The study shows that the performance obtained with low-cost cameras presents errors below 10% in costs and less than 0.015 USD/pixel.

ACS Style

Miguel Dávila-Sacoto; Luis Hernández-Callejo; Víctor Alonso-Gómez; Sara Gallardo-Saavedra; Luis G. González. Detecting Hot Spots in Photovoltaic Panels Using Low-Cost Thermal Cameras. Communications in Computer and Information Science 2020, 38 -53.

AMA Style

Miguel Dávila-Sacoto, Luis Hernández-Callejo, Víctor Alonso-Gómez, Sara Gallardo-Saavedra, Luis G. González. Detecting Hot Spots in Photovoltaic Panels Using Low-Cost Thermal Cameras. Communications in Computer and Information Science. 2020; ():38-53.

Chicago/Turabian Style

Miguel Dávila-Sacoto; Luis Hernández-Callejo; Víctor Alonso-Gómez; Sara Gallardo-Saavedra; Luis G. González. 2020. "Detecting Hot Spots in Photovoltaic Panels Using Low-Cost Thermal Cameras." Communications in Computer and Information Science , no. : 38-53.

Journal article
Published: 15 March 2019 in Renewable and Sustainable Energy Reviews
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One of the most important challenges to mitigate global climate change is to move towards sustainable mobility. In this line, electric vehicles are currently an efficient and environmentally friendly means of transport. The objective of this research is to analyze the incidence of implementing fast charging stations for electric vehicles in the power distribution system of a Latin American intermediate city. The paper covers social, geographic, and technical aspects to determine the minimum infrastructure needed for the selected case study. The analysis is carried out by computational tools in order to model a 50 kW fast charging station with an AC/DC and DC/DC power converter. The inclusion of this type of stations in one of the feeders of the power distribution system of the city of Cuenca, Ecuador, is studied. After the analysis, it can be concluded that the impact of the inclusion of fast charging stations in the distribution system of the study area is reduced in terms of harmonic distortion and energy capacity. This low technical impact can lead to economic and environmental benefits for the city. This study helps to establish the necessary procedure to determine the fast charging infrastructure in urban centers and verify its impact on the power distribution network.

ACS Style

L.G. González; E. Siavichay; J.L. Espinoza. Impact of EV fast charging stations on the power distribution network of a Latin American intermediate city. Renewable and Sustainable Energy Reviews 2019, 107, 309 -318.

AMA Style

L.G. González, E. Siavichay, J.L. Espinoza. Impact of EV fast charging stations on the power distribution network of a Latin American intermediate city. Renewable and Sustainable Energy Reviews. 2019; 107 ():309-318.

Chicago/Turabian Style

L.G. González; E. Siavichay; J.L. Espinoza. 2019. "Impact of EV fast charging stations on the power distribution network of a Latin American intermediate city." Renewable and Sustainable Energy Reviews 107, no. : 309-318.

Journal article
Published: 29 December 2018 in Ingenius
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Esta investigación calibra y valida un modelo de sistemas fotovoltaicos monocristalinos en la herramienta computacional System Advisor Model (SAM) para simulación de generación eléctrica, considerando las características meteorológicas en Cuenca (Ecuador), ciudad en altura próxima a la línea ecuatorial. Se obtiene el rendimiento eléctrico al desplegarse paneles fotovoltaicos de características específicas, con inclinaciones que responden a techumbres típicas locales y distintas orientaciones. Se calcula la eficiencia con mediciones in situ durante un período de 18 días, para que, con datos meteorológicos se calibre un archivo climático para el año 2016. Se estiman rendimientos anuales acorde a inclinación y orientación, y a características técnicas de los fotovoltaicos. Se detectan pérdidas por acumulación de suciedad e incremento de temperatura de las placas. Se valida el modelo mediante una regresión lineal, al comparar los valores simulados con los datos obtenidos de mediciones in situ de un panel en posición horizontal. Los resultados indican una pérdida promedio de eficiencia de 2,77 % por condiciones de suciedad y de hasta el 30 % por incremento de temperatura. La validación del modelo mostró un coeficiente de determinación R2 = 0,996 y un RMSE normalizado de 8,16 %. Se concluye además que, por la latitud particular del sitio en estudio, a diferencia de la mayor parte del planeta, la disposición de paneles fotovoltaicos en cualquier orientación considerando pendientes bajas, no reduce significativamente el rendimiento en la generación de energía eléctrica anual.

ACS Style

Ismael Fernando Izquierdo Torres; Mario G. Pacheco-Portilla; Luis G. Gonzalez-Morales; Esteban F. Zalamea-León. Simulación fotovoltaica considerando parámetros de integración en edificaciones. Ingenius 2018, 21 -31.

AMA Style

Ismael Fernando Izquierdo Torres, Mario G. Pacheco-Portilla, Luis G. Gonzalez-Morales, Esteban F. Zalamea-León. Simulación fotovoltaica considerando parámetros de integración en edificaciones. Ingenius. 2018; (21):21-31.

Chicago/Turabian Style

Ismael Fernando Izquierdo Torres; Mario G. Pacheco-Portilla; Luis G. Gonzalez-Morales; Esteban F. Zalamea-León. 2018. "Simulación fotovoltaica considerando parámetros de integración en edificaciones." Ingenius , no. 21: 21-31.

Conference paper
Published: 01 September 2009 in 2009 Electronics, Robotics and Automotive Mechanics Conference (CERMA)
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This paper presents the application of average current mode control to reduce the THD i and increase the PF in a three-phase boost rectifier driving a small wind turbine. It is used as the input stage of small wind turbines with permanent magnet synchronous generators operating at variable speed.The boost rectifier output is connected to an inverter which injects the energy to a distribution power grid.The operation in discontinuous conduction mode allows significantly reducing the total harmonic-distortion of the current in the small wind turbine.However, it is necessary to add an input filter so that the switching ripple doesn't affect the small wind turbine. It is evaluated the convenience of the current sensors placement in the DC side of the rectifier or at the output of the generator. The results demonstrate that it is better to place the sensors at the output of the generator, because it is achieved a smaller THD i and a higher PF.

ACS Style

Oscar Carranza Castillo; Emilio Figueres Amoros; Gabriel Garcerá Sanfeliu; Luis Gerardo Gonzalez Morales. Average Current Mode Control of Three-Phase Boost Rectifiers with Low Harmonic Distortion Applied to Small Wind Turbines. 2009 Electronics, Robotics and Automotive Mechanics Conference (CERMA) 2009, 446 -451.

AMA Style

Oscar Carranza Castillo, Emilio Figueres Amoros, Gabriel Garcerá Sanfeliu, Luis Gerardo Gonzalez Morales. Average Current Mode Control of Three-Phase Boost Rectifiers with Low Harmonic Distortion Applied to Small Wind Turbines. 2009 Electronics, Robotics and Automotive Mechanics Conference (CERMA). 2009; ():446-451.

Chicago/Turabian Style

Oscar Carranza Castillo; Emilio Figueres Amoros; Gabriel Garcerá Sanfeliu; Luis Gerardo Gonzalez Morales. 2009. "Average Current Mode Control of Three-Phase Boost Rectifiers with Low Harmonic Distortion Applied to Small Wind Turbines." 2009 Electronics, Robotics and Automotive Mechanics Conference (CERMA) , no. : 446-451.