Category: Micro Controller Projects

The Project Report On Intelligent Power Meter entitled ‘Intelligent Power Meter’ refers to as it is a system that it helps to make a proper communication between the electricity board and customers. This system works on the principle of Embedded System.

‘Intelligent Powered Meter’ is a micro controller based project designed for wireless communication purpose between client and server. This system is used for duplex transmission of data .The data (units used) is accepted as a count by the PIC. The input to the PIC is the pulse received from the Electronic meter. This count and unit is transmitted to a server as when a requested by the server. The server processes this information and sends it back to the consumer. Thus the consumer is updated on his energy usages instantly. The project uses GSM transmission protocol to establish the connection between client and server.

The main advantage of the system is to help the customers by an online contact with the electricity board by getting the correct bill for the corresponding readings from the meter.

 Project Report On Intelligent Power Meter Conclusion:

From this Project report conclude that by implementing the Intelligent Power Meter system we get bill from the electricity board through the display device attached with the system. By this the meter can communicate with the electricity board through a wireless module (GSM). An additional function  attached to this system are when there is a power failure, meter complaint or any other faults with the system, it report to the electricity board through the wireless module.  In the same way a server system is working in the electricity board. It includes a receiver and transmitter. It always communicates with the power meters attached to all customers. The aim of project is to develop a wireless duplex communication system between the consumer & the Electricity Board at minimum expenditure and maximum efficiency.

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This Project Report On Intelligent Energy Saving System studied and implemented a complete working model using a PIC microcontroller. The programming and interfering of PIC microcontroller has been mastered during the implementation. This work includes the study of energy saving system in many applications. The aim of the project is to save the energy or power, used in places like libraries where lighting is very important for the people who come to read books. So, the libraries will be well illuminated with many lamps.  But to work in this project is the basic signal processing of various parameters, the temperature, LDR, Smoke sensor. For the measurement of different parameters values, a variety of sensors and the output of these sensors are to be implemented to control parameters. The control loop is to use micro-controllers. The outputs of all three parameters are used in micro-controller. The output of the micro-controller is used to drive the LCD display, so that the value of each parameter can be displayed. In addition to the LCD display micro-controller outputs are also used independently, a relay driver. The relay is energized and automatically falls depending on the status of the parameter.

Project Report On Intelligent Energy Saving System Conclusion:

Intelligent Energy Saving System is not limited for any particular application, it can be used anywhere in a process industries with little modifications in software coding according to the requirements. This concept not only ensures that our work will be usable in the future but also provides the flexibility to adapt and extend, as needs change. This project report connected all the sensors to micro controller with the wires. This can be developed with wireless such that we can place different sensors in different places. This sensor will activate the micro controller with the signals instead   of using wires. This system can also be applicable to various loads like pressure, force and etc. by increasing the number of ports of the micro controller.

Download Project Report On Intelligent Energy Saving System.

Project Report On Electric Motors: Another way to explore the interaction between electricity and magnetism, builds its own electric motor. This project provides detailed information on exactly how to do it, even a really clever trick. Electric motors are everywhere; even your computer has electric motors to power its cooling fans and hard disks. Building a simple DC electric motor is a great way to learn how they work, and it’s really fun to watch your creation spin.

A comprehensive review of the state of the art in the field of electric motor drives and control strategies is presented. It is pointed out that drive technology has seen impressive growth during the last three decades. Recent advances in semiconductor power electronics and microelectronics have made is possible to use AC motors in many variable-speed drive applications. Implementation of new control techniques, such as field-oriented control and variable-structure control with sliding-mode features, has made AC motors a viable alternative to DC motors in high-performance drive applications.

The advent of microprocessors/microcontrollers/microcomputers has made it possible to implement these complex control techniques.

Project Report On Electric Motors Conclusion:

Electric motor impacts have almost every aspect of modern living. In addition to running the commonplace appliances that we use every day, electric motor are also responsible for a very large portion of industrial processes. From this project, the technique for analysis and design of induction motor forward-reverse was learned. The characteristic of induction motor when running forward condition same with the characteristic of induction motor when running reverse condition. From the result we know that current, power and speed increase when voltage is increase. When the speed of induction motor is high so the time that is needed to change forward direction into reverse direction is long. However this experiment was held in no-load test thus, the average speeding torque, losses and performance curve cannot be determined.

Download Electrical and Electronics Engineering EEE Final Year Project Report On Electric Motors.

The Project Report On Automatic Pressure Controller work entitled “automatic pressure regulator uses PIC 16F 72 microcontrollers as its main component. It is a simple and inexpensive circuit for detecting atmospheric pressure. It automatically detects the air pressure and displays the pressure in Pascal on an LCD display. It also points to inform the level of pressure on some printing conditions. Today microcontrollers are common, so the microcontroller based Pressure controller is flexible and reliable. It provides a good visual indication. Here as an innovative project work developed as an automatic pressure controller, is an effective example of microcontroller application and is a low cost and also user friendly.

An integrated pressure controller is a device controlled by the PIC microcontroller C16F73 senses the pressure inside a small area and indicates the pressure with an LCD display. Along with this system shows the different levels of pressure with LEDs. In such a system essentially consists of a pressure sensor, a microcontroller and LCD display along with other shows level LEDs.

The sensor is in a cabin pressure that is recognized and controlled the pressure in the cabin detected and generates an analog output voltage applied by the pressure. This analog output voltage is converted into a digital format that is converted by an analog-digital converter (ADC). Then, the output voltage is applied to the microcontroller to provide the output pressure. Then the output pressure may be displayed using the LCD display through suitable interfacing circuitry.

Project Report On Automatic Pressure Controller Conclusion:

Microcontroller based Automatic Pressure Controller is capable of reading the atmospheric pressure and indicating the levels. We can use this device as a universal exchange necessary to change the software and hardware according to the study of multiple sequences of microcontroller programming used to change. The assembler program is MPLAB.MPLAB is used to interact with well PICSTAR programmers used. Once the program has successfully fulfilled, the PIC can be programmed.

Download B Tech EEE Project Report On Automatic Pressure Controller

The Microcontroller Based Power Monitoring For 600kva Battery Back Up report proposes an innovative design to develop a system based on 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.

The network control technology based on microcontroller is an electronic device for continuous monitoring of energy use parameters such as voltage, current, frequency, etc. in different parts of electric current or other electronic devices. The entire system is controlled by the microcontroller (80C31) and real-time monitoring of multiple parameters. So the name of real-time control of high capacity (400kVA-600kVA) BACK UP BATTERY SYSTEM. This system is an 8-channel unit, 8 analog inputs and analog multiplexer consists of an A / D converter, ROM, RAM, etc. The different channel buffers are characterized by simple switch operation selected accepted. UPS-channels and alarms are in the microcontroller and control process parameters.

 Microcontroller Based Power Monitoring For 600kva Battery Back Up Conclusion:

This report presented a design of a system based on microcontroller that is used to monitor and control the voltage, current and temperature of a distribution transformer. The proposed system which has been designed to monitor the transformer’s essential parameters continuously monitors the parameters throughout its operation. If the microcontroller recognizes any increase in the level of voltage, current or temperature values the unit has been made shutdown in order to prevent it from further damages. The system not only controls the distribution transformer in the substation by shutting it down, but also displays the values throughout the process for user’s reference. This claims that the proposed design of the system makes the distribution transformer more robust against some key power quality issues which makes the voltage, current or temperature to peak. Hence the distribution is made more secure, reliable and efficient by means of the proposed system.

Download Microcontroller Based Power Monitoring For 600kva Battery Back Up.