ASEE 2012 - Common Multidisciplinary Prototypes of Remote Laboratories in the...
Visir- Practicas Electronica Remotas Orientadas a la Industria
1. Practicas Remotas de Electrónica
Industrial Orientadas a Alumnos de
Posgrado y Formación Continua
Mohamed Tawfik, Santiago Monteso, Felix Garcia Loro, Elio Sancristóbal, Gabriel
Díaz, Manuel Castro
Departamento de Ingeniería Eléctrica, Electrónica y Control Industrial
(DIEEC)
Universidad Nacional de Educación a Distancia (UNED)
2.
3. LABORIS / Polytechnic Institute of Porto - School of Engineering
(ISEP), Portugal
• Para medir las características de entrada y salida de un Transformador
Diferencial de Variación Lineal (LVDT).
4. Netaji Subhas Institute of Technology, Delhi University
• Para medir las características de entrada y salida de amplificadores
operacionales: un integrador, derivador, y non-inversor.
Non-
inversor
Integrador
Diferenciador
5. Buskerud University College Kongsberg, Norway
• Para medir las características de entrada y salida de un amplificado BJT
en emisor común.
6. Faculty of Electrical Engineering, University of East Sarajevo
• Para medir las características de entrada y salida de un Filtro T-Notch.
13. • Bleking Institute of Technology (BTH).
• Carinthia University of Applied Sciences.
• FH Campus Wien University of applied sciences.
• Polytechnic Institute of Porto (ISEP).
• University of Deusto.
• Spanish University for Distance Education (UNED).
• Indian Institute of Technology Madras (IIT-M).
14.
15. • Half-wave Rectifier with and without filter.
• Inverter and non-inverter operational amplifier.
• Regulator with zener diode.
• Common emitter and common collector BJT.
33. Curso Abierto Online y Masivo (MOOC) sobre Electrónica Industrial
• 10000-10000 Alumnos
34.
35. Master Europeo Inter-Institucional Online
• Master de sistemas de comunicación y Información
• Avances en el desino de circuitos electrónicos, sistemas, y comunicación
• Orientado al sector industrial
• 5 Institutos Europeos de 4 países diferentes
• 60 ECT y acreditación por todos los institutos participantes.
• Fuentes de alimentación para TICS
• Single sign-on desde la plataforma RIPLECS
36. Subject Provider
Introduction to Information and Telecommunication systems PU
(Fundamentals)
Semester 1 Industrial and Real-time Communications DIEEC-UNED
February
October-
Internet Technology DEIS
Electronics for Information and Communication Technologies TUS
ICTs research and engineering competence skills DSCC-UNED
Microprocessor Techniques PU & UNED
Semester 2 (Specialized)
Wireless Communications PU & TUGraz
Multi Media DEIS
Power Supplies for ICT equipment UNED
Two of electives
February-June
Microelectronics PU
Satellite and Mobile Communications PU & UNED
Computer Modeling and Simulation of Electronic Circuits PU & UNED
Final Project
37. Gracias por su Atención!
Mohamed Tawfik, Santiago Monteso, Felix Garcia Loro,
Elio Sancristóbal, Gabriel Díaz, Manuel Castro
Departamento de Ingeniería Eléctrica, Electrónica y
Control Industrial (DIEEC)
Universidad Nacional de Educación a Distancia (UNED)
Notes de l'éditeur
RemotElectLab [12] is a remote laboratory for measur-ing electric and electronic circuits. It is based on the versatile design and prototyping educational integrated platform NI ELVIS (http://www.ni.com/nielvis/), which is released by National Instruments (www.ni.com/). NI ELVIS is inte-grated with 12 of the most commonly used laboratory instruments (oscilloscope, DMM, function generator, power supply, dynamic signal analyzer, a bode analyz-er, 2- and 3-wire current-voltage analyzer, arbitrary waveform generator, digital reader/writer, and imped-ance analyze). All these instruments are fully controlled with LabVIEW, and thus, are suited for remote control. In addition, a relay switching matrix, of Double Pole Double Throw (DPDT) electro-mechanical relays, has been developed in order to allow instruments to meas-ure voltage or currents at different nodes of the circuit remotely. The switching modules are built with a dou-ble multiplexer design and they can be configured as shown: 1-to-8 (possible to measure up to eight differen-tial voltages or currents in an equal number of branch-es) and two 1-to-4 (possible to measure up to four differ-ential voltages or currents in an equal number of branches). The maximum number of switching mod-ules is 12. The modules selection is done by a 4-bit ad-dress bus and an 8-bit data bus, provided by the NI ELVIS platform. A small microcontroller is used for receiving data and configuring the state of each relay in the module. RemotElectLab allows instruments to measure voltage or currents at different nodes of the circuit, and also allows changing circuit’s instruments parameters, as well as circuits components parameters. However, it doesn’t provide the flexibility for entirely constructing a new circuit online.
NetLab (http://netlab.unisa.edu.au) [3] is a remote collaborative laboratory that allows electronic circuit’s wiring and measurement. The instrumentation plat-form is based on GPIB, which includes an oscilloscope, a function generator, a power supply, and a Digital Multi-Meter (DMM). The VME eXtensions for Instru-mentation (VXI) standard communication protocol is used for the internal communication within the Com-mand Module. In addition, a 16x16 programmable re-lay switching matrix from Agilent (www.agilent.com) to switch the connection between the components and the instruments. The switching matrix is connected to the server via RS-232 protocol and to the components via Inter-Integrated Circuit (I2C) protocol. Laboratory LabVIEW is the software used for instrumentation con-trol and the communication is based on Virtual Instru-mentation Software Architecture (VISA) (http://www.ni.com/visa/) standard. The software application is written in JAVA and requires the installa-tion of Java Runtime Environment (JRE) on the user-PC. A Web-Cam is included, which has its own web server and it is fully controllable by the user. A chat window is provided within the software application; it displays the names of all logged-on users, including administra-tors. A booking system is also provided within the soft-ware application. The available components are: resis-tors, capacitors, inductors, transformers, and program-mable variable resistors. Other components can be easi-ly added or removed. NetLab is limited to a maximum of 16 two leads components and its virtual workbench doesn’t replicate a physical real breadboard. The unique feature of VISIR is the flexibility provid-ed by allowing wiring and measurement on a bread-board and by supporting a wide range of electronic circuit components. A brief comparison on the intrinsic features of the above mentioned approaches and VISIR is given in Table 1. However, in some cases it may be more feasible to select other solutions, depending on the type of application. For instance, if a university already has an ELVIS platform, it may be more appropriate to build RemotElectLab
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