Análisis funcional y simulación del convertidor matricial ca/ca en matriz de conversión directa
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Date
2021-06-09
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Universidad Antonio Nariño
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Degree obtained
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http://purl.org/coar/resource_type/c_7a1f
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Abstract
Electronic converters play a significant role today, they can be found in the power supplies of
computer equipment, smartphones, electric vehicles, TVs, stereos, as well as other household
electronics. These converters must guarantee the quality of power when supplying alternating
current (AC) or direct current (DC) power, so that the signals generated must contain a low or
zero harmonic content, and that they allow a constant power supply to prolong the lifespan
of components in electronic equipment. The Matrix Converter (MC) offers features such
as: voltage control, frequency control, harmonic content compensation to correct the power
factor. These characteristics mean that the MC can be used in a large number of applications
both in AC and DC and that is why in this research thesis aims to describe the electronic
physical configuration of a three-phase MC, and the direct switching strategy DSVPWM
(Direct Vector Space Pulse Width Modulation) used to operate bidirectional semiconductors
for a reliable power supply. The performance tests have been developed using Simulink of
Matlab.