STUDENT FYPS

What is Self Balancing Electric Bike An electric bike as the name suggests it runs purely on electrical energy, lithium-ion batteries power the integrated DC motor and also charges using solar energy.  Self Balancing Electric Bike   Another feature is the gyroscope sensor, which balances the bike in an upright position. Electric bikes are plug-in electric vehicles with two or three wheels powered by electricity. The electricity is stored on a rechargeable battery, which drives one or more electric motors. Electric bikes (as distinct from motorcycles) have a step-through frame. An Electric Bike is a battery-operated vehicle that is very economical with low cost, low maintenance, and zero pollution. This bike uses the electrical technology of a rechargeable battery that converts the electrical energy into mechanical energy. The battery can be charged easily using a power connection. Green energy bikes use rechargeable batteries, electric motors, and some form of control. It can be a simp

ABSTRACT In this project (HMI) Human Machine Interface has been studied extensively to control electromechanical rehabilitation aids using bios EEG, EOG, and EMG, etc. The various bios EOG signals have been studied in-depth due to the occurrence of a definite signal pattern. Persons suffering from extremely limited peripheral mobility like paraplegia or quadriplegia usually have the ability to coordinate eye movements. The current focus on the development of a prototype robotic hand controlled by EOG signals. EOG signals were used to generate control signals for the movement of the robotic arm. in this project we developed the EOG signal acquisition system. The acquired EOG signal was then processed to generate various control signals depending upon the duration and amplitude of the signal component. These control signals were then used to control the movements of the prototype robotic hand model. Introduction of Moving robotic hand with the help of  EOG signals

Automatic Load Sharing Transformer Using Microcontroller The transformer is the vital component within the electrical power transmission and distribution system. In this project, we show the Automatic load sharing transformer using a microcontroller , here we have three transformers connected in parallel through microcontroller and change over relay. The microcontroller compares the load on the primary transformer with a reference value. When the load exceeds the reference value, the slave transformer will automatically be connected in parallel with the first transformer and share the additional load. Therefore, a variety of transformers work efficiently under overload conditions and therefore the damage is often prevented. In this work, the slave transformers share a load of the master transformer in the case of an overload condition. A sensor circuit containing a microcontroller is designed to log the info from the master transformer and if it's found to be in an overload c

ABSTRACT LOAD MANAGEMENT SYSTEM is used for the implementation of different strategies to encourage residential users to reduce the electricity bills as well as energy demand. The close relationship between the consumer and utility for equally benefiting to both in terms of grid stability and bill reduction. Nowadays in order to make practical implementation on the possible use of different HEMS (Home Energy Management systems ) strategies to regulate the energy demand and emission reduction in the World. An  automation system controlling and energy-saving household energy is proposed. It consists in computing the starting times of specific services and the set points of others while satisfying the maximally available power requirement and taking into account user comfort criteria. The objective is to maximize user comfort and minimize energy costs. Users can also monitor and control the System’s status via special-purpose Mobile Application. LOAD MANAGEMENT SYSTEM Load M

What is Smart Alternating Power Supply System The main objective of the Smart Alternating Power Supply System is to explain the uninterrupted power supply to a load, by selecting the supply from different sources such as mains, solar, inverter, and generator automatically in the absence of any of the sources. The huge demand for electricity is increasing every day and frequent power cuts are causing many problems in various areas like industries, hospitals, and houses. A Smart Alternating Power Supply System arrangement for a power source is a must. This arrangement can be designed by using ARDUINO and relays. When a source, say mains fail the supply automatically shifts to the next priority source solar. When a source, says solar fails the supply automatically shifts to the next priority source generator and so on. Use of ARDUINO based automatic power source change over reduces the operations time and reduces manpower. The use of ARDUINO results in faster operation and accurate

Substation Monitoring and Controlling Using IOT 2020 The distance between the generators and load may be regarding hundreds of miles hence the amount of enormous power exchange over long distances has turned out as a result of the lack of quality of the electric power. Demanding the quality of power being delivered to the user side has raised the alarm due to the increase in demand for electricity on the customer side. A massive amount of energy is lost during the transportation of the general power which prompts the decrease in the nature of intensity got at the substation. Substation Monitoring and Controlling Using IoT To improve the quality of power with a different solution, it is necessary to be familiar with what sort of constraint has occurred. The system might become unstable. Therefore it necessary a monitoring system that can detect and monitor. It plays an ever-growing role in our modern industrialized society. Demanding the quantity of power being delivered at