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SMART PRO LATEST PROJECT IDEAS LIST

SmartProjects - An idea to Product .

ELECTRICAL PROJECT IDEAS LIST


SMEE1 - Design Of Landslide Warning System (IEEE-2011)
SMEE2 - Management Of Mechanical Vibration And Temperature In Small Wind Turbines Using Zigbee Wireless Network (IEEE-2013)
SMEE3 -Design Of A Low Voltage, Low Drop-Out (Ldo) Voltage Cmos Regulator
SMEE4 - Voice Communication Over Light
SMEE5 - Power Quality Monitoring System For Real-Time Detection And Classification Of Disturbances In A Single Phase Power System
SMEE6 - Optimal Power Point Tracking System For Solar
SMEE7 - A Microcontroller-Based Multi-Function Solar Tracking System (IEEE-2011)
SMEE8 - An Intelligent Lighting System For Exhibition Applications (IEEE-2010)
SMEE9 - High-Voltage Pulse Power Supply Controller Based On Arm7 (IEEE-2011) Relay
SMEE10 - Automatic Monitoring System Of Battery Stack For Electric Vehicles (IEEE-2011)
SMEE11 - Remote-Control System Of High Efficiency And Intelligent Street Lighting Using A Zigbee/GSM Network Of Devices And Sensors (IEEE-2013)
SMEE12 - Smart Host Microcontroller For Optimal Battery Charging In A Solar-Powered Robotic Vehicle (IEEE-2013)
SMEE13 - An Efficient Monitoring Of Substations Using Microcontroller Based Monitoring System
SMEE14 - Automatic Drilling Machine Based On Microcontroller
SMEE15 - Embedded Based Soil Electrical Conductivity Measurement System
SMEE16 - Smart And Intelligent GSM Based Automatic Meter Reading System
SMEE17 - Universal Motor Power Control Using Pc (Personal Computer)
SMEE18 - Phase Failure Protection For Single Phase Device
SMEE19 - GSM Based Load Shedding System
SMEE20 - Automation Of Bottle Filling System Using Conveyors
SMEE21 - Microcontroller Based Substation Monitoring And Control System With GSM Modem
SMEE22 - Power Transformer Protection Using Microcontroller-Based Relay
SMEE23 -Speech Based Password Enabled Home Appliances Switching For Blind And Physically Challenged
SMEE24 - Real-Time Atomization Of Irrigation System For Social Modernization Of Indian Agricultural System
SMEE25 - Harmonic Detection Meter
SMEE26 - Automatic Power Factor Correction By Microcontroller
SMEE27 - BLDC Motor Controller
SMEE28 - Controlling Hybrid Power Plant
SMEE29 - Bidirectional Power Converter For Electric Bike With Charging Feature
SMEE30 - Safety Implementation For 1 Phase Irrigation Motor Using Soil Moisture Sensor And Temperature Sensor
SMEE31 - Voice Based Control Of Dc Motor
SMEE32 - Voice Based Control Of Home Applications
SMEE33 - Harmonic Detection Meter
SMEE34 - Ac Motor Control By Constant V/F Method
SMEE35 - Power Line Monitoring System Using Microcontroller
SMEE36 - Advanced Smart Card Based Digital Energy Meter Using Microcontroller
SMEE37 - An Efficient Monitoring Of Substations Using Microcontroller Based System
SMEE38 - GSM Based Remote Electricity Billing Information System
SMEE39 - Automated Water Supply Control And Water Theft Management System Using Zigbee
SMEE40 - Bluetooth Enabled Advanced Industrial Device Data Monitoring And Control
SMEE41 - Design Of Greenhouse Control System Based On Wireless Sensor Networks And AVR Microcontroller
SMEE42 - Wireless Power Theft Monitoring System
SMEE43 - Application And Evaluation Of High Power Zigbee Based Network In Water Irrigation Control Monitoring System
SMEE44 - Remote Management And Control System For Led Based Plant Factory Using Zigbee
SMEE45 - Smart Street Light Monitoring And Control System By Mobile
SMEE46- Smart Metering For Next Generation Energy Efficiency & Conservation

Abstract

Design Of Landslide Warning System (IEEE-2011)
In recent years, the frequent occurs of landslide disasters, caused great harm to people’s lives and properties. This project designs some wireless sensor monitoring node distributed on the hillside, they construct a wireless data connection network based on Zigbee / Bluetooth / RF. This combines GSM technology and wireless technology, it have completed the work from the system solution to whole process of software and hardware design. The result proves that each node work stably and the status of network communication is good. This design can collect depth of the water in the mountain and slope angle of the hillside, and provides the monitoring center with warning information in time, so related departments can take effective measures rapidly to protect peoples and property.

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Abstract

Management Of Mechanical Vibration And Temperature In Small Wind Turbines Using Zigbee Wireless Network (IEEE-2013)
This project presents the development of a methodology to manage the mechanic vibration and temperature from Small Wind Turbine (SWT). The objective with this research is propose a new diagnostic and protection tool through analysis and monitoring signals of vibration and temperature from wind turbines, aiming predict a need of preventive maintenance and mostly avoids catastrophic failures. For this feature the system will be composed of an accelerometer that will identify vibration, thermocouples to identify the temperatures at critical points of wind turbine, a microcontroller hardware which will make acquisition and processing of signals from sensors and finally a wireless transmission system using technology ZigBee. The post processing is performed remotely through a computer that receives the data submitted via wireless network presenting them to the user via graphical interface. The software of User friendly interface will have the functionality plus online display of received data also the possibility of storing and reporting data rates of vibration and temperature obtained during monitoring. Finally featuring the prototype of the hardware and software as well as some results obtained in experimental scale.

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Abstract

Design Of A Low Voltage, Low Drop-Out (Ldo) Voltage Cmos Regulator
In this project a low voltage, low drop-out (LDO) voltage regulator design procedure is proposed and implemented using 0.25 micron CMOS process. It discusses a 3 to 5V, 50mA CMOS low drop-out linear voltage regulator with a single compensation capacitor of 1pF. The experimental results show that the maximum output load current is 50mA and the regulated output voltage is 2.8V.The regulator provides a full load transient response with less than 5mV overshoots and undershoots. The active layout area is 358.28um × 243.30um.

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Abstract

Voice Communication Over Light
Probably one of the most interesting technologies in industry today is the wireless technology. This statement is not founded on the “latest and greatest” in communications break through. All too often we hear how evolving technology will unshackle us from the traditional “pairs of wires” which provide our present day communication. Wireless however has been around for decades in variations and techniques. Only recently have newer applications breathed life back into mundane services, sparking international interest in the applications, bandwidths and legality of wireless communication. Today everyone is buzzing about the future of the wireless world and our abilities to communicate in general. This project deals with the DRL (Day Time Running Lamp) voice communication. DRL communication links are used. Visible light communication (VLC) is a data communications medium using visible light between 400 THz (780 nm) and 800 THz (375 nm). Visible light is not injurious to vision. The technology uses fluorescent lamps (ordinary lamps, not special communications devices) to transmit signals at 10 Kbit/s, or LEDs for up to 500 Mbit/s. Low rate data transmissions at 200 metre and .5 kilometres were demonstrated. RONJA achieves full Ethernet speed (10 M bit/s) over the same distance thanks to larger optics and more powerful LEDs.

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Abstract

Power Quality Monitoring System For Real-Time Detection And Classification Of Disturbances In A Single Phase Power System
This project presents a system for detection and classification of power quality (PQ) voltage disturbances. The proposed system applies the following methods to detect and classify PQ disturbances: digital filtering and mathematical morphology are used to detect and classify transients and waveform distortions, whereas for short- and long-duration disturbances (such as sags, swells, and interruptions), the analysis of the root-mean-square (RMS) value of the voltage is employed. The proposed combined approach identifies the type of disturbance and its parameters such as time localization, duration, and magnitude. The proposed system is suitable for real-time monitoring of the power system and implementation on a digital signal processor (DSP).

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Abstract

Optimal Power Point Tracking System For Solar
The project aims at designing an optimal power point tracking system for solar. The system is capable of maximum energy from solar panel without any mechanical tracking towards sun. Maximum Power Point Tracking, frequently referred to as MPPT, is an electronic system that operates the Photovoltaic (PV) modules in a manner that allows the modules to produce all the power they are capable of. MPPT is not a mechanical tracking system that “physically moves” the modules to make them point more directly at the sun. MPPT is a fully electronic system that varies the electrical operating point of the modules so that the modules are able to deliver maximum available power. The main controlling device of the whole system is a Microcontroller. Solar panel, voltage sensor, LCD, and load are interfaced to Microcontroller. The Microcontroller initially measures the voltage from solar panel without load connected. Also, the Microcontroller measures the voltage from solar panel under load conditions. The microcontroller takes the decision of operating the load through PWM (Pulse Width Modulation) until the maximum voltage is obtained from solar panel without degrading the load performance. To perform this intelligent task, Microcontroller is loaded with an intelligent program written using embedded ‘C’ language.

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Abstract

A Microcontroller-Based Multi-Function Solar Tracking System (IEEE-2011)
Renewable energy solutions are becoming increasingly popular. Photovoltaic (solar) systems are but one example. Maximizing power output from a solar system is desirable to increase efficiency. In order to maximize power output from solar panels, one needs to keep the panels aligned with the sun. As such, a means of tracking the sun is required. This is definitely a more cost effective solution than purchasing additional solar panels. It has been estimated that the yield from solar panels can be increased by 30 to 60 percent by utilizing a tracking system instead of a stationary array. In this project, a prototype for a microcontroller-based multi-function solar tracking system is described, which will keep the solar panels aligned with the sun in order to maximize efficiency. The maximum power point tracking (MPPT) data can be transmitted in real time to other solar systems in need of this data.

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Abstract

An Intelligent Lighting System For Exhibition Applications (IEEE-2010)
This project presents the design and the implementation of a lighting system which is able to detect the approach of the visitors and then turn the lighting onto the normal intensity to let the exhibition be bright enough. All lightings are equipped with the energy-saving function which will turn itself to the dimming level automatically after the visitors’ leaving. PIR (Passive Infrared) sensors are utilized in the system instead of a video camera for the purposes of both cost-down and privacy issue. The lightings are also designed to have network interface to let them be able to be connected together to form an intelligent lighting system which can not only collect the exhibition information but also help the administrators to secure the exposition.

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Abstract

High-Voltage Pulse Power Supply Controller Based On Arm7 (IEEE-2011)
The environment is a global problem, and dust in industrial production of human environmental pollution in the largest and direct, is a worldwide problem. The industries of thermal power, metallurgy, cement and else enterprises discharge smokes and dusts everyday, which is a major source of air pollution. China attaches great importance to environmental protection. The electrostatic precipitator is widely used in various industries because of its advantages of high efficiency, low energy consumption and wide applicability, which can deal with gas of high temperatures and great smoky, and the maintenance costs, is lower. This project describes the high-voltage pulse power supply controller, which can output pulse from 20 KHz to 50 KHz with the duty cycle of 12% to 50% adjustable. The electrostatic precipitator system consists of PC, high voltage pulse power device controller and the electrical dust collector, Directives was issued from the PC to adjust the pulse frequency and amplitude high voltage pulse power supply controller.

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Abstract

Automatic Monitoring System Of Battery Stack For Electric Vehicles (IEEE-2011)
Electric Vehicle (EV) technology is a promising way to reduce petroleum consumption as well as reduce environment pollution. The energy supply strategy is crucial to promote the application of battery EVs. Recently, the key restrict of EVs’ promotion and development has been lacking of charging and exchanging station for EVs with rapid development on EVs. This project expounds the design and realization of automatic monitoring system (AMS) for charging and exchanging station for EVs. The AMS adequately the system requirements of battery charging and exchanging, therefore, the prime design goals of AMS compose of two aspects: 1) voltage monitoring for battery stack while exchanging; 2) current monitoring for battery stack while charging. As a result, it is potentially very attractive for EVs’ promotion, as it can lead to an efficient and low cost implementation. The results of this project are of great importance to improve the energy supply system and guide the upcoming rigorous construction of energy supply facilities for EVs. We believe the proposed AMS will be used widely with the rapid development of EVs.

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Abstract

Remote-Control System Of High Efficiency And Intelligent Street Lighting Using A Zigbee/GSM Network Of Devices And Sensors (IEEE-2013)
Our work aims at the unification of the three mentioned possibilities, creating an intelligent lamp post managed by a remote- controlled system which uses LED-based light sources and is powered by renewable energy (solar panel and battery). The first one, and perhaps the most intuitive, is the use of new technologies for the sources of light. In this area, light-emitting diode (LED) technology is the best solution because it offers any benefits. Researchers have already considered this possibility, designing an advanced street lighting system based on LEDs. The second possible solution, and perhaps the most revolutionary, is the use of a remote-control system based on intelligent lamp posts that send information to a central control system, thus simplifying management and maintenance issues. Researchers have developed a street lamp system using the general-packet radio service (GPRS), power-line carrier, or Global Systems for Mobile Communications (GSM) transmissions. Finally, the third possibility would be the use of renewable energy sources locally available, rather than conventional power sources, with a positive effect on the environment. Solar energy is the most important resource in this field.

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Abstract

Smart Host Microcontroller For Optimal Battery Charging In A Solar-Powered Robotic Vehicle (IEEE-2013)
This project focuses on the design and construction of an optimization charging system for Li–Po batteries by means of tracked solar panels. Thus, the implementation of a complete energy management system applied to a robotic exploration vehicle is put forward. The proposed system was tested on the VANTER robotic platform—an autonomous unmanned exploration vehicle specialized in recognition. The interest of this robotic system lies in the design concept, based on a smart host microcontroller. On this basis, our proposal makes a twofold significant contribution. On the one hand, it presents the construction of a solar tracking mechanism aimed at increasing the rover’s power regardless of its mobility. On the other hand, it proposes an alternative design of power system performance based on a pack of two batteries. The aim is completing the process of charging a battery independently while the other battery provides all the energy consumed by the robotic vehicle.

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Abstract

An Efficient Monitoring Of Substations Using Microcontroller Based Monitoring System
The project proposes an innovative design to develop a system based on PIC/8051 micro controller that is used for monitoring the voltage, current and temperature of a distribution transformer in a substation and to protect the system from the rise in mentioned parameters. Providing the protection to the distribution transformer can be accomplished by shutting down the entire unit with the aid of the Radio frequency Communication. Moreover the system displays the same on a PC at the main station which is at a remote place. Furthermore it is capable of recognizing the break downs caused due to overload, high temperature and over voltage. The design generally consists of two units, one in the substation unit, called as transmitter and display unit, and another in the Main station called as controlling unit. The transmitter and the display units in the substation is where the voltage, current and temperature are monitored continuously by PIC/8051 microcontroller and is displayed through the display unit. An RF transmitter is used for transmitting the signals that are obtained. The controlling unit in the main station by means of a PC and a RF receiver receives the RF signals that are transmitted by the Transmitter unit and reacts in accordance to the received signal. In general, the proposed design is developed for the user to easily recognize the distribution transformer that is suffered by any open or short circuit and rise in temperatures. The ultimate objective is to monitor the electrical parameters continuously and hence to guard the burning of distribution transformer or power transformer due to the constraints such as overload, over temperature and input high voltage. If any of these values increases beyond the limit then the entire unit is shut down by the designed controlling unit

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Abstract

Automatic Drilling Machine Based On Microcontroller
In this project, a cycle of drilling process is automated with the help of a micro controller. Work pieces are queued on the conveyor and sensed by the sensor to stop the movement of the work piece at the required spot for the drilling process to be carried out. Here three stepper motors govern the movement of the conveyor, the drilling machine and the fixture. Thus these three stepper motors are controlled for the required sequence by the microcontroller. The microcontroller is interfaced with PC for the purpose of giving input parameters such as depth, conveyor belt speed and total no of jobs to be drilled.

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Abstract

Embedded Based Soil Electrical Conductivity Measurement System
Electrical Conductivity measurements are often used to measure the amount of soluble salts in the soil. It is most common measure of soil salinity and is indicative of the ability of an aqueous solution to carry an electrical current. Real time monitoring us important, where the electrode is fitted in the drip irrigation system, where we can monitor the conductivity of the fluids pumped in the drip irrigation channels. Using this system farmer can evaluate the soil nutrients present in the soil and lack of percentage of nutrients to be added for a specific crop by using predefined data provided. A farmer can have the suggestions from soil analysts or agricultural scientists through Internet, so that he can improve the crop yields in an efficient manner.

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Abstract

Smart And Intelligent GSM Based Automatic Meter Reading System
This project presents the development of a fully Automated Energy Meter which is having capabilities like remote monitoring and controlling of energy meter. Automatic Meter Reading system (AMR) continuously monitors the energy meter and sends data on request of service provider through SMS. It saves huge human labor. The data received from an energy meter has been stored in database server which was located at electricity Board station through SMS gate way for further processing by energy provider. Energy provider sends electricity bill either by e-mail, SMS or by post. This system also gives the power cut information and tempering alert. So GSM based AMR system is more efficient apropos convention billing system.

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Abstract

Universal Motor Power Control Using Pc (Personal Computer)
In this Project the Personal Computer (PC) controls the power of the universal motor. The Digital Data (8Bit) from the PC printer port is utilized as control input. This digital data is connected to the Micro controller (8051) I/O port.

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Abstract

Phase Failure Protection For Single Phase Device
Phase failure protection is a way to provide continuity in supply and protect a device from single phasing. Loads using three phase power sources are subject to loss of one of the three phases from the power distribution system. This condition is known as single phasing. The loss of a single phase on a three phase line may be due to a downed line or a blown pole top fuse on the utility system. If we take supply from one phase for a single phase device, suppose if that phase is failed, then the continuity of supply will be lost. By using the model we designed the problem of interruption of supply for a single phase device can be avoided. If one of the phases is lost then the supply is given from the other phase. If all the phases fail then the presence of inverter ensures the continuity of supply.

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Abstract

GSM Based Load Shedding System
The objective of this project is to design load shedding system by making use of microcontroller. The microcontroller gets the input data from the keyboard i.e. number of loads to be shed and the duration of load shedding. The LCD display is used display the data which entered by the key board. The microcontroller will switch OFF the specified load/s for specified period of time.

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Abstract

Automation Of Bottle Filling System Using Conveyors
This Project is used in Bottling Plants like Coca-Cola, Pepsi etc to fill the Beverages into the bottle automatically. The empty bottles are moved in the conveyor Belt and with the help of proximity sensors we can detect the position and stop the movement of the belt. Then a relay is energized to actuate the flow of Liquid. The flow is stopped when a maximum level is detected through another sensor. After filling the conveyor movement starts again and this process gets repeated. In this project we can have Fire protection system (i.e.) when any fire accident is detected in that area immediately a relay is energized to pour the water on fire to put off the fire.

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Abstract

Microcontroller Based Substation Monitoring And Control System With GSM Modem
The purpose of this project is to acquire the remote electrical parameters like Voltage, Current and Frequency and send these real time values over GSM network using GSM Modem/phone along with temperature at power station.

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Abstract

Power Transformer Protection Using Microcontroller-Based Relay
The electrical parameters of the power transformer such as voltage and current are fed to the Peripheral Interface Controller as base values. The voltage and current value during the operation of the power transformer is monitored and fed to the controller. These values are monitored using a LCD display. By comparing these values the Peripheral Interface Controller produces a trip signal which operates the relay and in turn the connectivity between main supply and the power transformer is cut off, thus protecting the power transformer from malfunctioning. In proposed method, monitoring and protecting the power transformer from overvoltage and over current are performed automatically by using PIC/AVR microcontroller.

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Abstract

Speech Based Password Enabled Home Appliances Switching For Blind And Physically Challenged
This project describes a test and development system comprised of speech acquisition and analysis tools, speech recognition software, and a Home Appliances capable of responding to spoken commands. The user can control the home appliances (Light, Fan Motor etc) by voice commands; Where COMMAND is ON1, OFF1, ON2, OFF2 etc. Depending upon these commands home appliances will switch ON or OFF.

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Abstract

Real-Time Atomization Of Irrigation System For Social Modernization Of Indian Agricultural System
In our project, we are basically concentrating on following applications such as: To continuously monitor the soil moisture. To continuously monitor the water level of well. To check the temperature, humidity and dew point so as to forecast the weather condition. To monitor & control the whole system through GSM module.

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Abstract

Harmonic Detection Meter
To measure how high the distortion of AC voltage is, we may decompose it into the summation of sinusoid waves using DFT. The PIC/AVR harmonic distortion meter shows a method for finding the amplitude of the fundamental frequency and the 3rd harmonic. The reading shows percentage of the 3rd harmonic distortion.

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Abstract

Automatic Power Factor Correction By Microcontroller
In the present technological revolution power is very precious. So we need to find out the causes of power loss and improve the power system. Due to industrialization the use of inductive load increases and hence power system losses its efficiency. So we need to improve the power factor with a suitable method. Whenever we are thinking about any programmable devices then the embedded technology comes into forefront. The embedded is now a day very much popular and most the product are developed with Microcontroller based embedded technology.

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Abstract

BLDC Motor Controller
Brushless direct-current motors (BLDC motors) also known as electronically commutated motors (ECMs, EC motors) are electric motors powered by electricity and having electronic commutation systems, rather than mechanical commutators and brushes. The current-to-torque and frequency-to-speed relationships of BLDC motors are linear.

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Abstract

Controlling Hybrid Power Plant
Figure 1 shows the block diagram of the HPP, comprised of photovoltaic modules, wind turbine and diesel engine as a back-up. HPP is a centralized PV and wind power generation plant, using battery to store the produced dc current electricity. To cater for emergencies, a conventional diesel generator is also provided. The main component on HPP is the controller, an electronic device which automatically control when the back-up diesel engine shall start assisting with producing electricity.

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Bidirectional Power Converter For Electric Bike With Charging Feature
In order to comply with the policies of energy saving, carbon reduction, and environmental protection, all of the electric equipment and energies are requested to satisfy the green demand. However, massive fuel oil vehicles result in serious air pollution and destruction environment. Therefore, the development of the electric vehicles (EV) or the hybrid electric vehicles (HEV) are becoming important policies in many countries. The secondary batteries are the main energy sources of the EV. Thus, energy management is the most important key factor in EV or HEV design. Nowadays, bidirectional converter applied in electric vehicles can provide energy stored in battery for driving motor and offer battery charging or energy recovery. Many advanced techniques, research results or control strategy related to the bi-directional converter are explored in succession.

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Abstract

Safety Implementation For 1 Phase Irrigation Motor Using Soil Moisture Sensor And Temperature Sensor
Appropriate environmental conditions are necessary for optimum plant growth, improved crop yields, and efficient use of water and other resources. Automating the data acquisition process of the soil conditions and various climatic parameters that govern plant growth allows information to be collected at high frequency with less labor requirements.

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Abstract

Voice Based Control Of Dc Motor
This project describes a test and development system comprised of speech acquisition and analysis tools, speech recognition software, and a DC motor component capable of responding to spoken commands. The user can control the DC motor by voice commands, Where COMMAND is stop, start, speed, full speed, forward and backward. Depending upon these commands motor will get activated and motor will rotate with particular speed (Duty cycle).This different speed can be achieved by PWM method.

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Abstract

Voice Based Control Of Home Applications
This project describes a test and development system comprised of speech acquisition and analysis tools, speech recognition software, and a DC motor component capable of responding to spoken commands. The user can control the home appliances (Light, Fan Motor etc) by voice commands, Where COMMAND is ON1,OFF1,ON2,OFF2 etc. Depending upon these commands home appliances will switch ON or OFF.

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Abstract

Harmonic Detection Meter
To measure how high the distortion of AC voltage is, we may decompose it into the summation of sinusoid waves using DFT. The PIC/AVR harmonic distortion meter shows a method for finding the amplitude of the fundamental frequency and the 3rd harmonic. The reading shows percentage of the 3rd harmonic distortion.

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Abstract

Ac Motor Control By Constant V/F Method
The main aim of this project is to control the speed of an AC Induction motor by using the Variable Frequency control method. The purpose of the project is to implement a simple and cost effective process to control the speed of AC induction motors using the most popular technique of voltage to frequency ratio (V/F) method.

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Abstract

Power Line Monitoring System Using Microcontroller
In this project, the three Phase supply is monitored and shared to loads using Micro Controller. Here the control logic is implemented in microcontroller device. The presence of each phase is sensed by the voltage sensing circuitry. The Voltage sensing Circuitry sends ‘0’ logic to the MUC, if the phase line is alive otherwise sends ‘1’ logic. The MUC checks all the phase lines, if all the lines are alive, the Relays 1, 2 & 3 will be ON state and Relay 4 & 5 will be in OFF state. Thus Phase1 is loaded with Load1 and Phase 2 is loaded by Load2 and so on. Thus each phase is equally loaded, when all the phase lines are present.

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Abstract

Advanced Smart Card Based Digital Energy Meter Using Microcontroller
This project presents a single phase digital prepaid energy meter based on microcontrollers and a single phase energy meter. This digital prepaid energy meter does not have any rotating parts. The energy consumption is calculated using the output pulses of the energy meter chip and the internal counter of microcontroller. A microcontroller is used as a smart card and the numbers of units recharged by the consumers are written in it. A relay system has been used which either isolates or establishes the connection between the electrical load and energy meter through the supply mains depending upon the units present in the smart card. As soon as the supply is restored, energy meter restarts with the stored values. A single phase prepaid energy meter prototype has been implemented to provide measurement up to 3A load current and 230V line to neutral voltage. Necessary program for microcontrollers are written in C / ASM and compiled by micro compiler.

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Abstract

An Efficient Monitoring Of Substations Using Microcontroller Based System
In general, the proposed design is developed for the user to easily recognize the distribution transformer that is suffered by any open or short circuit and rise in temperatures. The ultimate objective is to monitor the electrical parameters continuously and hence to guard the burning of distribution transformer or power transformer due to the constraints such as overload, over temperature and input high voltage. If any of these values increases beyond the limit then the entire unit is shut down by the designed controlling unit.

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Abstract

GSM Based Remote Electricity Billing Information System
We are proposing a system through which electricity billing becomes fully automated and communication is made possible via wireless networks. In our system the central electricity company has immediate access to all consumers in a locality with the help of an RF network. The meter present in each house is connected by wireless network with the electricity company which gets updates from each meter. Each meter is all located a particular ID so that they can be uniquely identified. The electricity company, using a backend database calculates the amount to be paid according to the number of units consumed and bill amount and sends the units consumed and bill amount to the user’s mobile phone as SMS.

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Abstract

Automated Water Supply Control And Water Theft Management System Using Zigbee
Water being one of the most important resources needs to be not just regulated, but also controlled. There is a scarcity of water, and water should reach not only the urban areas, but also remote areas. This project will thus have a control on the valves, and thereby a control on the water flows.

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Abstract

Bluetooth Enabled Advanced Industrial Device Data Monitoring And Control
This project designed using the PIC/AVR Microcontroller aids in the measurement and control of various Parameters (Voltage, Current, Temperature and Frequency) with Bluetooth Technology and provides an interface to the PC. This enables us to view and track the online changes encountered in the particular parameter of all the parameters. One of the main advantages of this project is it allows us to view all the parameter readings simultaneously on the screen. The Graph drawn on the screen keeps on tracking the changes on the parameter.

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Abstract

Design Of Greenhouse Control System Based On Wireless Sensor Networks And AVR
Greenhouse measurement and control system is a complex system, it needs to various parameters in greenhouse automatic monitoring, information processing, real-time control and online optimization. The development of greenhouse measurement and control system has made considerable progress in the developed countries, and reached the multi-factors comprehensive control level, but if we introduce the foreign existing systems, the price is very expensive and maintenance isn’t convenient. In recent years, our country have launched many studies in aspects of greenhouse structure and control, and made a lot of achievements, but the greenhouse measurement and control system is mostly based on cable, so it is not only wiring complex, but also unfavorable to improve the system efficiency. With the rapid development of the low cost, low power sensor and wireless communication technology, the conditions that construct wireless greenhouse measurement and control system becomes mature, and it is important to realize agricultural modernization. The monitoring and management center can control the temperature and humidity of the greenhouse, measure the carbon dioxide content, and collect the information about intensity of illumination.

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Abstract

Wireless Power Theft Monitoring System
Here we have developed a system to find the theft of electricity and transfer it to EB. Our Project Comprises of the below mentioned units. The Normal Load represents the Normal Usage and Theft Load indicates the theft usage. A relay is connected to the normal load. Using the Current Transformer we can measure the current consumed by the loads. So when we disconnect the supply of the normal load through the relay the current measurement should read as zero. But if Still there is current consumption the we can know that the Power is theft power. This can be sent to a remote EB station through a Wireless Communication.

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Abstract

Application And Evaluation Of High Power Zigbee Based Network In Water Irrigation Control Monitoring System
This project demonstrates the concept of “Zigbee Based Wireless Sensor Network in Water Irrigation Control Monitoring System”. It is time consuming and need of manual application on an irrigation system to control the pumping the water to the farm filed. Using this Zigbee based wireless technology we can control the pumping of the water according to condition of the soil at the remote location.

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Abstract

Remote Management And Control System For Led Based Plant Factory Using Zigbee
Recently, intelligent systems for agricultural production are being developed for safe and low cost food production. Plant factory provide high yield by growing multiple crops and making efficient use of land and resources. Plant growth is facilitated by maintaining humidity, temperature, CO2 concentration and light intensity and these factors need to be monitored and maintained for an automated system. In this project, we have proposed a control system for a LED based plant factory consisting of Zigbee wireless network, and remote monitoring. Field sensors are installed for monitoring environmental conditions and power metering and Zigbee mesh network has been deployed for data acquisition from these sensors. Zigbee nodes transfer the field data to the coordinator node which also serves as a gateway node providing interoperability between TCP/IP network and Zigbee Wireless Sensor Network (WSN). A major novelty of the system is the use of LED lighting instead of fluorescent lighting due to its low power consumption, long life and useful narrow band.

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Abstract

Smart Street Light Monitoring And Control System By Mobile
In this project we are switching and controlling the street lights. Switching ON and OFF is done by sending by SMS, but our system is too smart ,this is whenever it receives SMS ,it checks the light intensity then it’s going to switch and depending upon the light intensity the street light brightness is going to vary.

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Abstract

Smart Metering For Next Generation Energy Efficiency & Conservation
This project is based on implementation of new methodologies to achieve energy efficiency via two way interaction. Improved measurement technology by displaying all per phase information and three phase information on LCD at the meter side, automatic meter reading, power quality and exported energy measuring capability, energy and cost forecasting for better energy conservation are the key methodologies of this research. The digital meter was developed using ADE7758 energy metering chip, 18F452 PIC microcontroller and PCF8583 real time clock IC. The data are sent to a remote server via SMS using SIM900 GSM module. The server handles the incoming SMS, processes, displays and stores the required information. Energy consumption and its cost, average daily energy consumption and cost prediction for the month are calculated in the server side.

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