TY - JOUR T1 - LabVIEW Based COntinous Monitoring of Separately Excited DC Motor TT - LabVIEW based Continuous Monitoring of Separately Excited DC Motor AU - Verma, Pratyush AU - G, Gokulakrishnan AU - Sathishkumar, K PY - 2018 DA - December Y2 - 2018 JF - Gazi Journal of Engineering Sciences JO - GJES PB - Parantez Teknoloji WT - DergiPark SN - 2149-9373 SP - 197 EP - 206 VL - 4 IS - 3 LA - en AB - Inthis day and age the applications of electrical machines are diverse andoverall quite advantageous to our current way of life. For this purpose we haveto make sure that the machines themselves are operating properly and are wellmaintained. In this paper two LabVIEW models have been presented which carryout continuous monitoring of both the single-phase induction motor and theseparately excited dc motor. Also their real time performance characteristicsare analyzed to detect faults. Using Data Acquisition System (DAQ) this isachieved and LabVIEW version 2017 has been used. KW - LabVIEW KW - DAQ System KW - DC Motor N2 - Inthis day and age the applications of electrical machines are diverse andoverall quite advantageous to our current way of life. For this purpose we haveto make sure that the machines themselves are operating properly and are wellmaintained. In this paper two LabVIEW models have been presented which carryout continuous monitoring of both the single-phase induction motor and theseparately excited dc motor. Also their real time performance characteristicsare analyzed to detect faults. Using Data Acquisition System (DAQ) this isachieved and LabVIEW version 2017 has been used. CR - [1] Y. Ege, M. Coramik, H. Citak, “LabVIEW based motor control and monitoring system”, 8th International Advanced Technologies Symposium, pp 773-779, 2017. CR - [2] Jonathan Medina-García, Trinidad Sánchez-Rodríguez, Juan Antonio Gómez Galán, Aránzazu Delgado, Fernando Gómez-Bravo, Raúl Jiménez, “A wireless sensor system for real-time monitoring and fault detection of motor arrays”, Sensors, MDPI, pp 469-491, 2017. CR - [3] National Instrumentation (NI) LabVIEW, https://www.ni.com/labview. CR - [4] DC Motors, https://www.electrical4u.com/dc-motor-or-direct-current-motor. CR - [5] Types of DC Motors, https://www.motioncontrolonline.org/blog-article.cfm/4-Types-of-DC-Motors-An-Introduction/39. CR - [6] Separately Excited DC Motors, https://www.electrical4u.com/types-of-dc-motor-separately-excited-shunt-series-compound-dc-motor. CR - [7] Data Acquisition System, https://www.techopedia.com/definition/30001/data-acquisition-system. CR - [8] Data Acquisition System, https://www.slideshare.net/sumeetpatel21/data-acquisition-system-40835631. CR - [9] Stephen J. Chapman, “Electric Machinery Fundamentals”, 4th Edition, McGraw-Hill, 2005, ISBN: 9780072465235, Ch. 9 DC Motors and Generators, pp. 533-632. CR - [10] M.T. Wright, S.J. Yang, K. McLeay, “General Theory of Fast-Fronted Distribution in Electrical Machine Windings,” Vol. 130, No. 4, July 1983, pp. 245-256. CR - [11] Ajantha J, S.Rajasekaran, B.Muruganandam “Fault Diagnostician of Induction Machine Using LabVIEW”, International Journal of Advanced Research on Electrical, Electronics and Instrumentation Engineering, Volume 5, Special Issue 7, pp200-204, 2016. CR - [12] Merugu Siva Rama Krishna, Ravi Kiran S “Fault Diagnosis of Induction Motor using Motor Current Signature Analysis”, International Conference on Circuits, Power and Computing Technologies, pp180-186, 2013. CR - [13] K. Vinoth Kumar, S Suresh Kumar “LabVIEW based Condition Monitoring of Induction Machines”, International Journal of Intelligent Systems and Applications (IJISA), Volume 4, Issue 3, pp.56-62, 2012. CR - [14] R.A. Jabbar Khan, A. Mohammed, M. Junaid, M.A. Masood and A. Ifthkhar “LabVIEW based Electrical Machines Laboratory for Engineering Education”, WSEAS Transactions on Advancement in Engineering Education, Volume 7, Issue 5, pp161-171, 2010. UR - https://dergipark.org.tr/en/pub/gmbd/article/440634 L1 - https://dergipark.org.tr/en/download/article-file/605172 ER -