A remotely accessible photovoltaic system as didactic laboratory for electrical engineering courses

Assante, Dario; Tronconi, Massimo

doi:10.1109/educon.2015.7096013

Cited by 6 publications

(5 citation statements)

References 8 publications

(8 reference statements)

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“…In addition, thanks to the Quad-core 64-bit processor, the Raspberry PI can work as a single-board computer, supporting different operating systems. For this reason, it has been widely proposed in the scientific literature for the implementation of applications based on the concept of Internet of Things [22,23].…”

Section: Remote Laboratory On Microgridmentioning

confidence: 99%

Internet of Energy Training through Remote Laboratory Demonstrator

2019

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In this paper, a new learning tool is proposed to train professional figures, such as entrepreneurs, engineers, and technicians, who need to improve their skills in the field of Internet of Energy. The proposed tool aims to cover the lack of experimental knowledge on new energy systems and to layer proper skills, which are useful to deal with challenges required by smart energy management in the new complex distributed configuration of the electric power systems, characterized by demand response services. This tool is based on a small-scale laboratory demonstrator, representative of a smart rural house, equipped with a measurement and control system. This demonstrator can be remotely accessed, through web server applications based on a low cost single-board computer. Trainers can have direct experience on the main concepts related to smart grids, renewable energy sources, electrochemical storage systems, and electric vehicles, through the use of the proposed tool managed by the web software interface.

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Section: Remote Laboratory On Microgridmentioning

confidence: 99%

Internet of Energy Training through Remote Laboratory Demonstrator

2019

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“…The control of PV emulators is usually digital, based on a microcontroller or DSP board [6], [12], [14], [20]. However some emulators employ computer based control using LabVIEW [13] or dSPACE [27] programming environments.…”

Section: Pv Emulatormentioning

confidence: 99%

Low-cost photovoltaic emulator for instructional laboratories

Vagapov

Anuchin

2016

2016 51st International Universities Power Engineering Conference (UPEC)

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This paper discusses a simple and cheap PV emulator based on a linear power supply that does not require a source of light to conduct laboratory experiments. The emulator has been designed to underpin students' understanding the properties of PV cell V-I characteristics and the ways to maximise the output power learned from lectures, tutorial and self-studies. The emulator has been built using "on the shelf" components and tested under rated power conditions. It demonstrated a good emulation of V-I characteristics within the rated range of the sun irradiation and the temperature.

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“…The laboratory aims at representing a small photovoltaic (PV) system, including PV cells, batteries, a charge controller and a dummy load [10]. The laboratory would be an opportunity to face the difficulties introduced by the previously stated constraint and to find standard solution.…”

Section: Paper Photovoltaic System As a Remote Didactic Laboratory Fomentioning

confidence: 99%

Photovoltaic System as a Remote Didactic Laboratory for Electrical Engineering Courses

Assante

Tronconi

2015

Int. J. Onl. Eng.

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Abstract-Remote laboratories are increasingly being used in academic courses, especially in science and engineering. New control systems allow the development of even complex experiments with a low cost. In this paper we present a remote laboratory that reproduces a small-scale photovoltaic system, including a solar panels and lights, a charge controller, a battery and a dummy load. A Raspberry PI microcontroller is used to send the different inputs to the laboratory, handling commands, measuring some electrical quantities and provide remote access via the web. The laboratory, developed with the involvement of graduating students, will be used in the Master courses of electrical engineering. Particular attention has been paid on the development of hardware and software, to use the developed laboratory as a model for the realization of other experiments.

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A remotely accessible photovoltaic system as didactic laboratory for electrical engineering courses

Cited by 6 publications

References 8 publications

Internet of Energy Training through Remote Laboratory Demonstrator

Internet of Energy Training through Remote Laboratory Demonstrator

Low-cost photovoltaic emulator for instructional laboratories

Photovoltaic System as a Remote Didactic Laboratory for Electrical Engineering Courses

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