Authors :
Digvijay B Kanase; Sukhada B. Dombale; Pratik V. Deshmukh; Pankaj G. Landge; Pratik B. Patil
Volume/Issue :
Volume 7 - 2022, Issue 5 - May
Google Scholar :
https://bit.ly/3IIfn9N
Scribd :
https://bit.ly/3Ne8yQj
DOI :
https://doi.org/10.5281/zenodo.6609398
Abstract :
Control and protection of an electric
component system is highly important in any sector. This
concept proposes employing wireless technology to run an
ac motor for the needed purpose. To get the necessary
output, we used an Arduino microcontroller that is
connected to a motor driver. We utilise an Android
application that connects to the WIFI modem of the
control circuit that is connected to the motor over the
internet. The microcontroller is connected to the WIFI
modem. The order is received by the WIFI modem
through the internet via the mobile phone app. The signal
is sent to the Microcontroller via the WIFI modem. The
signal is decoded by the microcontroller and sent to the
appropriate relays. The relays then switch between high
voltage, low voltage, and over current. Asa result, this
project.
Keywords :
Internet of Things , IOT , Induction Motor, TRIAC, Arduino
Control and protection of an electric
component system is highly important in any sector. This
concept proposes employing wireless technology to run an
ac motor for the needed purpose. To get the necessary
output, we used an Arduino microcontroller that is
connected to a motor driver. We utilise an Android
application that connects to the WIFI modem of the
control circuit that is connected to the motor over the
internet. The microcontroller is connected to the WIFI
modem. The order is received by the WIFI modem
through the internet via the mobile phone app. The signal
is sent to the Microcontroller via the WIFI modem. The
signal is decoded by the microcontroller and sent to the
appropriate relays. The relays then switch between high
voltage, low voltage, and over current. Asa result, this
project.
Keywords :
Internet of Things , IOT , Induction Motor, TRIAC, Arduino