© 2021 JETIR June 2021, Volume 8, Issue 6 www.jetir.org (ISSN-2349-5162) JETIR2106560 Journal of Emerging Technologies and Innovative Research (JETIR) www.jetir.org e44 IOT BASED 3 PHASE INDUCTION MOTOR PARAMETER MONITORING AND CONTROLLING 1 Chanchal Pande, 2 Shivendra Singh Thakur, 3 C.S.Sharma 1 M.E. Scholar, 2 Associate Professor, 3 HOD of EE Department. Department of Electrical Engineering ,Samrat Ashok Technological Institute, Vidisha (MP),INDIA ABSTRACT— Now days, the induction motor has remained the most popular type of motor for industrial applications. Monitoring and controlling of induction motor parameter is very essential in many application and also for the reliable operation there are several techniques available for the same. This paper deals with the monitoring of various parameters & control of three phase induction motor and various electrical appliances remotely based on Internet Of Things [IOT]. A module of sensor and transducers monitors the parameters likes speed, temperature, current and voltage of induction motor and send to the processing unit which will display parameter on server. The aim is to design and implementation of IoT technology to monitor and diagnose the condition of Induction motors by recording key operation indicators. The proposed method comprises of an IoT based platform to collect and process the induction motor parameters. The system also presents the automatic and manual control methods to stop or start the induction motor to avoid any system failures through server gateway. The Implementation of this scheme will increase the working efficiency of machine by continuously monitor to avoid breakdowns and also to determine the preventive maintenance. Keywords—Internet Of Things, Parameter Monitoring, Induction Motor, Parameter Controlling. I. INTRODUCION In today's manufacturing industries, mechanical and electromechanical systems are mostly driven by electric motors. Before the invention of AC induction motors dc motors were widely used for industrial requirements. With the invention of AC induction motors due to their higher performance attributes over DC motor, industrial automation is being frequently done with it. The primary advantages of the induction motor are its straightforward rotor construction leading to low cost, ruggedness, and low- maintenance requirements. From the study of construction and operation of an induction motor, it reveals that main Faults in induction motors can be categorized as follows: 1.1 Electrical faults: Faults occurred due to the unbalance supply voltage or current, single phasing, under or over voltage of current, overload and etc. 1.2 Mechanical faults: Faults due to broken rotor bar, mass unbalance, air gap eccentricity, bearing damage, rotor winding failure, and stator winding failure. 1.3 Environmental faults: Faults under this classification are occurred due to ambient temperature as well as external moisture and Vibrations of machine. The performance of the AC Induction motor depends on above mentioned electrical, mechanical and environmental parameters of the motor, so that the controlling methods for AC induction motor are very sensitive to motor parameters. Therefore there is need of monitoring induction motor parameter for uninterrupted operation and to estimate the pre fault state to avoid any breakdown condition. As an emerging technology brought about rapid advances in modern wireless telecommunication, Internet of Things (IOT) has attracted a lot of attention and is expected to bring benefits to numerous applications [3]. The newly introduced concept of IoT is providing a helping hand to achieve the Industrial automation through remote access terminals. In IOT each device or devices constituting a system can be able to communicate with the other devices or systems over a common platform [1],[8]. Thus an enhanced communication is achieved by a “System of systems”. Hence this leads to exchange of relevant data, statistics, logs and