Rojas Martinez, Luis AlejandroRojas Martinez, Claudia PatriciaValdez, Libis2019-08-172022-02-222019-08-172022-02-222019-07978-958-52071-4-12414-6390http://laccei.org/LACCEI2019-MontegoBay/meta/FP277.htmlhttp://dx.doi.org/10.18687/LACCEI2019.1.1.277https://axces.info/handle/10.18687/20190101_277The following document will show the step-by-step development that was taken into account to carry out the design and construction of smart grid scale prototype with AC and DC load control through the HMI interface with LabView software. The design process of the off-grid solar system was carried out through 7 stages that framed the scale of the solar installation. Once the design of the sizing was finished, programming was carried out in Human Machine Interface (HMI) graphics environment with LabVIEW software for optimal control of AC and DC variable loads. This control was established through current relays from 5 volts to 110 volts AC and 5 volts to 12 volts DC. The control interface was made through an embedded board with NI-VISA communication. It is important to note that the smart grid control prototype "Smart Grid" shows optimal results in its operation; denoting this that from the optics of the programming done in the graphics environment, the control of loads dependent on control centers; act at disposition. Redundant this in improvements for the energy consumption derived from the storage system under the autonomy designed for three days.EnglishLACCEI Licensehttps://laccei.org/blog/copyright-laccei-papers/LabVIEWLoadSmart GridSolar Photovoltaic SystemOff-gridDesign and construction of smart grid with variable load control AC and DC with LabView: off-grid case.Article