Monitoring and controlling the industrial motor parameters remotely using LabVIEW

Magdum, Amit; Agashe, A. A.

doi:10.1109/rteict.2016.7807810

Cited by 8 publications

(5 citation statements)

References 3 publications

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“…Most of these designs are for electronics, robotics, and control systems laboratories, and have only been done in [19,33,35] remote laboratories in the field of electric machines. In [33,35], the focus is on AC machines, and in [19], the power range of DC machines is so low. The proposed DCMRL is able to operate any tests on the DC machine up to 10 KW and 400 V by reconfiguring its connection box.…”

Section: Literature Reviewmentioning

confidence: 99%

“…As mentioned above, many remote laboratories have been implemented around the world. Most of these designs are for electronics, robotics, and control systems laboratories, and have only been done in [19,33,35] remote laboratories in the field of electric machines. In [33,35], the focus is on AC machines, and in [19], the power range of DC machines is so low.…”

Section: Literature Reviewmentioning

confidence: 99%

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DC machines remote lab case study in Technical and Vocational University

Qaraei

Hashemi

Salehi

et al. 2022

Comp Applic In Engineering

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Practical study such as laboratory activity helps students to learn about engineering technical courses. New electronic technologies and the Internet of Things allow students and researchers to do experiments remotely. During quarantine due to pandemics such as Covid‐19 or when researchers and students are not present in the university, remote laboratories are used as a complementary teaching feature. In these conditions, the remote laboratories also allow the development of experimental‐based research. This paper presents the design and development of a remote interactive laboratory for the teaching and practical learning of DC machines at Technical and Vocational University. This laboratory is designed using the Arduino board to make a data acquisition card and actuator controller. Also, LabVIEW is used, which is remotely controlled based on the Internet and allows students to observe and perform experiments related to the DC machines course anywhere and anytime. In this laboratory, to better adapt to the Accreditation Board for Engineering and Technology criteria, the principle of teamwork to perform the experiments and achieve the final result has been considered. The case study results of a remote laboratory in Mohajer Faculty present the students' understanding and satisfaction in obtaining the required scientific competencies from the proposed laboratory.

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Section: Literature Reviewmentioning

confidence: 99%

Section: Literature Reviewmentioning

confidence: 99%

DC machines remote lab case study in Technical and Vocational University

Qaraei

Hashemi

Salehi

et al. 2022

Comp Applic In Engineering

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“…DAQ system [22], [29], [32] LabVIEW NI DAQ devices, GPIB interface, Oscilloscope, PIC microcontroller, transducer Motor control circuits DC motor driver [21] LabVIEW NI myRIO, DC motor driver Induction motor [17] LabVIEW Data acquisition (DAQ) and control Motor control [36] LabVIEW Camera, Arduino Internet of things-based products Internet of things [9], [23] LabVIEW / COTS Network switch, Oscilloscope. waveform generator Various circuits and products Printed circuit board (PCB) [5] LabVIEW PXI system, Bed of Nails (BoN) fixture Backplane [1] COTS COTS cable tester, connectors Cable assembly [33] LabVIEW NI DAQ The electronic control unit [42] LabVIEW CAN bus, Power supply GPIB based system [35] HP VEE Pro GPIB interface Microfluidic device [13] LabVIEW Camera and accessories Optical device [16] LabVIEW Data acquisition (DAQ) Power supply control [44] LabVIEW Power supply, digital multimeter, GPIB Underwater modem [11] LabVIEW Sensors, cables Thermal cycle for the unit under test [37] LabVIEW Environmental test chamber interface Temperature probe [8] COTS Analyzer, antenna Refrigerator [45] LabVIEW ATE, test jig, RS232, ADC, and sensors RF circuits and products Antenna [30] LabVIEW Arduino, Stepper motors, and drivers Antenna [6], [7] COTS Analyzer, cables RF circuit [26] LabVIEW NI PXI, Signal generator, RF current probe [38] LabVIEW Spectrum analyzer, Signal generator RF device [41] LabVIEW SPI, I2C, HPIB Software-defined radio [46] LabVIEW Signal generator, Spectrum analyzer, RS232, GPIB Wireless sensor network [18] LabVIEW Digital multimeter, Power supply, and GPIB A low-frequency signal processing system is developed by authors in [24] using LabVIEW and NI Elvis.…”

Section: B Review Of Existing Electronic Product Test Sitesmentioning

confidence: 99%

“…Authors in [35] presented the architecture of GPIB and highlighted the pros and cons. A test site for remotely controlling and monitoring a motor is discussed in [36]. The setup presented in [37] is used for controlling a temperature chamber.…”

Section: B Review Of Existing Electronic Product Test Sitesmentioning

confidence: 99%

A Novel Process to Setup Electronic Products Test Sites Based on Figure of Merit and Machine Learning

2021

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Consumer electronic manufacturing (CEM) companies maintain a range of electronic products that are designed and tested according to the type and end-user requirements. These electronic products go through a validation and verification test for proof of design and a manufacturing test for checking reliability, quality, and manufacturing defects. Testing is carried out using test sites, designed based on the electronic product type. Currently, there is no standard approach for setting up a test site for electronic products. In this research, two processes are presented, for setting up new test sites and optimization of existing test sites for consumer and other electronic products. The proposed processes include a voice of customer (VoC) interface, that is based on a unique dataset and through machine-learning technique automatically translate customer information into customer requirements, and a figure of merit (FoM) presented as an outcome of this research using several key test-related parameters. These proposed processes are an important step towards defining a standard approach for setting test sites for consumer and other electronic products. The processes are implemented using a software application developed in LabVIEW, which is linked to a database containing test data for around 400 products collected as part of this research and form a knowledge base for the proposed processes. Finally, the processes are validated by setting up a new experimental test site for an RF receiver and optimization of an existing test site of an antenna system.INDEX TERMS Consumer electronic manufacturing (CEM), electronic product test, figure-of-merit (FoM), LabVIEW, machine-learning, voice of customer (VoC).

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“…Some measurement tasks can be carried out by using conventional electric temperature sensors such as thermocouples, junction temperature sensors, resistance temperature detectors, or thermistors [1]. Despite the importance of performing an adequate temperature control in situations like those previously described, electrical apparatus must be avoided in explosive environments, or alternatively, they must comply with strict standards that allowed them to operate safely [2,3].…”

Section: Introductionmentioning

confidence: 99%