EL REPOSITORIO SE ENCUENTRA EN MARCHA BLANCA

 

Thesis
DISEÑO DE TARJETAS DE COMUNICACIÓN PARA EQUIPO DSPACE MICROLABBOX 1202/1302

dc.contributor.advisorROJAS MONRROY, CHRISTIÁN
dc.contributor.authorLÓPEZ CÁCERES, MARIO SEBASTIÁN
dc.contributor.departmentUniversidad Tecnica Federico Santa Maria UTFSM ELECTRONICAes_CL
dc.contributor.otherPÉREZ LEIVA, MARCELO
dc.contributor.otherKOURO RENAER, SAMIR
dc.coverage.spatialUniversidad Técnica Federico Santa María UTFSM. Casa Central Valparaísoes_CL
dc.creatorLÓPEZ CÁCERES, MARIO SEBASTIÁN
dc.date.accessioned2024-10-30T19:20:41Z
dc.date.available2024-10-30T19:20:41Z
dc.date.issued2017
dc.descriptionCatalogado desde la version PDF de la tesis.es_CL
dc.description.abstractIn the context of hardware update from previous DS1103 and DS1104 platforms,PowerLab laboratory acquires a dSPACE MicroLabBox platform, demanding the designand development of two interface boards that allow communication by optic fiber betweenMicroLabBox and the inverters available at Powerlab, among others requirements. Internally,MicroLabBox contains the modules DS1202 (DSP) and DS1302 (FPGA), where the firststeps in understanding the platform cover the study of the programming tools of eachmodule, originating four user manuals, according to the first objectives of the project.An overview of the state of art of digital platforms in Power Electronics, showsan exponential growth in the processing capabilities of this devices; not just for morecomputational demanding schemes control, but also for the development of real time andvalidation tools, in the context of Hardware-In-the-Loop (HIL) simulations. Therefore, arisesthe motivation for verifying by experimental means, the potential of MicroLabBox and theinterface boards, in HIL applications. It is proposed to model and program an inductionmotor in real time in the FPGA, and a vectorial control scheme in the DSP; comparing thecontrol results of virtual model and real motor.From an exact modelling of induction motor, first (Euler) and second (Taylor) ordermethods are obtained. Then, both models are evaluated under fixed point (64 bits) andfloating point (32 and 64 bits) representations. 64 bits fixed point Euler model is chosen,and it is implemented on the FPGA. Next, a scheme of estimation and vectorial rotorfield oriented control is implemented in the DSP, debugged by the real time (RT) modelprogrammed in the FPGA.By an analysis of the MLBX features, it is identified the functionalities that are desiredto adapt, making an assignment of resources for both boards. This consider the proposalof essential circuits for conversion, adaptation and supplying stages. Mounted the boards, atest program is used for checking all the operating points of the circuits and its components,comparing the measurements with calculated values.In the final experimental stage with the test bench, the performance of the boards isevaluated in low voltage, controlling the current in a RL load. Verifying the correct trackingof references, the next step considers the mechanical tests with the induction machine.First, the machine is magnetized to its nominal values, proceeding then with reversal speedmaneuvers. The comparison of mechanical and electrical variables shows minimal differencesbetween real and virtual results, confirming experimentally the RT model and the operationof interface boards; concluding the success of hardware and software development, provingthe operation of MicroLabBox as a control platform, as well as HIL simulation platform.eng
dc.description.degreeINGENIERO CIVIL ELECTRÓNICOes_CL
dc.description.sponsorshipFONDECYT Fondo Nacional de Desarrollo Científico y Tecnológico
dc.format.mediumCD ROM
dc.identifier.barcode3560900231471
dc.identifier.urihttps://repositorio.usm.cl/handle/123456789/60770
dc.rights.accessRightsB - Solamente disponible para consulta en sala (opción por defecto)
dc.subjectDSPes_CL
dc.subjectFPGAes_CL
dc.subjectHARDWARE-IN-THE-LOOPes_CL
dc.subjectMICROLABBOXes_CL
dc.subjectTARJETAS DE INTERFAZes_CL
dc.titleDISEÑO DE TARJETAS DE COMUNICACIÓN PARA EQUIPO DSPACE MICROLABBOX 1202/1302es_CL
dc.typeTesis de Pregradoes_CL
dspace.entity.typeTesis
usm.date.thesisregistration2012
usm.identifier.thesis2500001359

Files

Original bundle

Now showing 1 - 1 of 1
No Thumbnail Available
Name:
3560900231471UTFSM.pdf
Size:
13.02 MB
Format:
Adobe Portable Document Format