Bibliographic citations
Ramírez, L., (2019). Aplicación de la modulación del espacio vector con módulos IPM para incrementar la eficiencia de un inversor trifásico [Tesis, Universidad Nacional de Ingeniería]. http://hdl.handle.net/20.500.14076/20918
Ramírez, L., Aplicación de la modulación del espacio vector con módulos IPM para incrementar la eficiencia de un inversor trifásico [Tesis]. PE: Universidad Nacional de Ingeniería; 2019. http://hdl.handle.net/20.500.14076/20918
@mastersthesis{renati/711045,
title = "Aplicación de la modulación del espacio vector con módulos IPM para incrementar la eficiencia de un inversor trifásico",
author = "Ramírez Huamán, Luis Enrique",
publisher = "Universidad Nacional de Ingeniería",
year = "2019"
}
This Thesis describes the design and implementation of two three-phase 500W-120V inverters, using intelligent power module (IPM) and using discrete power IGBT devices. For both inverters, the vector space modulation control technique (SVPWM) is used and it is evaluated that investors using IPM are more efficient than investors using discrete IGBT. The resources used to achieve the objective are the dspic30F3011 micro controller to record or load the program containing the SVPWM algorithm, two switching sources designed to supply the required voltage for each control that contains the micro controller and the Simulink application of Matlab to perform the simulation and compare the results obtained in the implementation. The IRAMX16UP6B was chosen for the design of the inverter with IPM and for the design of the inverter with discrete IGBT the transistors IRG4PH50UD are used. In the development of the Thesis, the operation of the Investor that uses the IPM IRAMX16UP6B is evaluated, examining the technical characteristics of the IPM. The operation of the inverter that uses discrete IGBT is also analyzed so that the integrated SN7406 (inverter), 6N136 (opto coupler) and the IXDF404PI (driver) were selected as interface devices in the IGBT gates to adapt it to the characteristics of operation of the dspic30F3011 microcontroller. The results obtained by implementing both inverters, approximates theoretically calculated values and the results obtained by simulation using the state space equations of the inverter load. In the thesis, the technique of Pulse Width Modulation of Vector Space (SVPWM) is developed to control the IPM-IRAMX16UP6B in the implementation of the three-phase inverter. The designed inverter is a more efficient, protected and reliable product compared to the traditional three-phase inverter that uses discrete IGBT.
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