Techably Engineering Limited
Electronics and Instrumentation Engineering (EIE) is one of the topmost branch in engineering. There are many projects developed for EIE students. Here, we are giving some list of project ideas for EIE Students , which are basic level to advanced level projects with real-time applications. We have discussed about many concepts related to embedded, electrical, robotics, communication, solar and many other technologies.
List EIE Projects Ideas for Engineering Students:
Propeller Display to Time and Message – Abstract
GPS – GSM Based Vehicle Tracking System –
Abstract
Auto Power Supply Control from 4 Different Sources: Solar, Mains, Generator & Inverter to Ensure No Break Power – Abstract
Ultra Fast Acting Electronic Circuit Breaker –
Abstract
Automatic Irrigation System on Sensing Soil Moisture Content – Abstract
Automatic Star Delta Starter Using Relays and Adjustable Electronic Timer for Induction Motor –
Abstract
Programmable Switching Control for Industrial Automation in Repetitive Nature of Work- Abstract
Wireless Health Monitoring System for Patients-
Abstract
Precise Digital Temperature Control – Abstract
Optimum Energy Management System – Abstract
Security System Using Smartcard Technology-
Abstract
Line Following Robotic Vehicle – Abstract
TV Remote Operated Domestic Appliances Control – Abstract
Password Based Circuit Breaker – Abstract
Programmable Load Shedding Time Management for Utility Department – Abstract
Object Detection by Ultrasonic – Abstract
Tampered Energy Meter Information Conveyed to Concerned Authority by Wireless Communication – Abstract
Distance Measurement Using Ultrasonic Sensor –
Abstract
Portable Medication Reminder – Abstract
Programmable Energy Meter for Electrical Load Survey – Abstract
Networking of Multiple Microcontrollers –
Abstract
SCADA for Remote Industrial Plant – Abstract
Movement Sensed Automatic Door Opening System – Abstract
Pick N Place with Soft Catching Gripper –
Abstract
Fire Fighting Robotic Vehicle – Abstract
War Field Spying Robot with Night Vision Wireless Camera – Abstract
GSM Protocol Based Integrated Energy Management System with Acknowledgement Feature – Abstract
Underground Cable Fault Distance Locator –
Abstract
Dialed Telephone Numbers Display on Seven Segment Displays – Abstract
Non Contact Tachometer – Abstract
Line Following Robotic Vehicle Using Microcontroller – Abstract
Auto Selection of Any Available Phase, in 3 Phase Supply System – Abstract
Life Cycle Testing of Electrical Loads by Down Counter – Abstract
Energy Meter Reading with Load Control Using GSM Technology – Abstract
Stamp Value Calculator for Postage Needs –
Abstract
Railway Track Security System – Abstract
Temperature Control System Using Thermistor –
Abstract
Electronic Eye Controlled Security System –
Abstract
Finger Press Quiz Buzzer – Abstract
Digital Control Home Automation System –
Abstract
Tank Water Level Indicator – Abstract
Speed Synchronization of Multiple Motors in Industries – Abstract
Pre Stampede Monitoring and Alarm System –
Abstract
Home Automation System Using Touch Screen –
Abstract
Speed Checker to Detect Rash Driving on Highways – Abstract
Home Automation System Using RF– Abstract
Obstacle Avoidance Robotic Vehicle – Abstract
Auto Metro Train to Shuttle Between Stations –
Abstract
Remote Controlled Robotic Vehicle for Stores Management with Touch Screen – Abstract
Metal Detector Robotic Vehicle – Abstract
Passport Details Using RFID Technology –
Abstract
Microcontroller Based Beacon Flasher – Abstract
IR Controlled Robotic Vehicle – Abstract
Automatic Bell System for Institutions – Abstract
Robotic Vehicle Controlled By Cell Phone –
Abstract
Device Control and Authentication Based on RFID Technology Using PIC Microcontroller – Abstract
System of Solar Energy Measurement – Abstract
Details about Few Projects
1. Underground Cable Fault Distance Locator :
This system provides a way to detect location of fault in underground cables which is otherwise an impossible task. The project uses resistors to represent equal distance of the cable and the voltage drop across the resistors is sensed and processed to determine the exact location.
Here four rows of resistors are used with three rows connected to ground through a relay switch and the fourth row of resistors is connected to the feeder unit giving some DC voltage supply . A switch is connected in series with each resistor in the three rows, used to represent the fault (on line to ground connection). When a fault occurs at any distance (represented by the closing of the switch), the voltage drop across the resistors is sensed and is converted to digital form using an ADC and this value is processed by the microcontroller to determine the distance of the fault. This distance is then displayed on the LCD display.
2. GSM Electricity Energy Meter Billing :
This project defines a digital way of calculating the electrical energy units consumed and sending this data electronically through GSM communication to the power station so that is processed and based on this data the bill is prepared. This gives a way to the users to keep a track of the energy units consumed.
The Energy meter is connected to the optoisolator and for each unit the LED of the optoisolator blinks for 10 times. The pulses from the optoisolator are fed to the microcontroller and when 10 pulses are received, it is assumed to be one unit. Accordingly the microcontroller receives the no. of units and sends the information about the units consumed to the power station through the GSM modem. The electricity units consumed is displayed on the LCD display.
3. Programmable Energy Meter for Electrical Load Survey:
This project is designed to measure the electrical energy unit consumed by a single load for a certain amount of time and accordingly calculate the cost of using that load for the given time. This project provides a way to have knowledge about the energy consumption of loads and how using these loads can affect the monthly energy bill.
Electronics and Instrumentation Engineering (EIE) is one of the topmost branch in engineering. There are many projects developed for EIE students. Here, we are giving some list of project ideas for EIE Students , which are basic level to advanced level projects with real-time applications. We have discussed about many concepts related to embedded, electrical, robotics, communication, solar and many other technologies.
List EIE Projects Ideas for Engineering Students:
Propeller Display to Time and Message – Abstract
GPS – GSM Based Vehicle Tracking System –
Abstract
Auto Power Supply Control from 4 Different Sources: Solar, Mains, Generator & Inverter to Ensure No Break Power – Abstract
Ultra Fast Acting Electronic Circuit Breaker –
Abstract
Automatic Irrigation System on Sensing Soil Moisture Content – Abstract
Automatic Star Delta Starter Using Relays and Adjustable Electronic Timer for Induction Motor –
Abstract
Programmable Switching Control for Industrial Automation in Repetitive Nature of Work- Abstract
Wireless Health Monitoring System for Patients-
Abstract
Precise Digital Temperature Control – Abstract
Optimum Energy Management System – Abstract
Security System Using Smartcard Technology-
Abstract
Line Following Robotic Vehicle – Abstract
TV Remote Operated Domestic Appliances Control – Abstract
Password Based Circuit Breaker – Abstract
Programmable Load Shedding Time Management for Utility Department – Abstract
Object Detection by Ultrasonic – Abstract
Tampered Energy Meter Information Conveyed to Concerned Authority by Wireless Communication – Abstract
Distance Measurement Using Ultrasonic Sensor –
Abstract
Portable Medication Reminder – Abstract
Programmable Energy Meter for Electrical Load Survey – Abstract
Networking of Multiple Microcontrollers –
Abstract
SCADA for Remote Industrial Plant – Abstract
Movement Sensed Automatic Door Opening System – Abstract
Pick N Place with Soft Catching Gripper –
Abstract
Fire Fighting Robotic Vehicle – Abstract
War Field Spying Robot with Night Vision Wireless Camera – Abstract
GSM Protocol Based Integrated Energy Management System with Acknowledgement Feature – Abstract
Underground Cable Fault Distance Locator –
Abstract
Dialed Telephone Numbers Display on Seven Segment Displays – Abstract
Non Contact Tachometer – Abstract
Line Following Robotic Vehicle Using Microcontroller – Abstract
Auto Selection of Any Available Phase, in 3 Phase Supply System – Abstract
Life Cycle Testing of Electrical Loads by Down Counter – Abstract
Energy Meter Reading with Load Control Using GSM Technology – Abstract
Stamp Value Calculator for Postage Needs –
Abstract
Railway Track Security System – Abstract
Temperature Control System Using Thermistor –
Abstract
Electronic Eye Controlled Security System –
Abstract
Finger Press Quiz Buzzer – Abstract
Digital Control Home Automation System –
Abstract
Tank Water Level Indicator – Abstract
Speed Synchronization of Multiple Motors in Industries – Abstract
Pre Stampede Monitoring and Alarm System –
Abstract
Home Automation System Using Touch Screen –
Abstract
Speed Checker to Detect Rash Driving on Highways – Abstract
Home Automation System Using RF– Abstract
Obstacle Avoidance Robotic Vehicle – Abstract
Auto Metro Train to Shuttle Between Stations –
Abstract
Remote Controlled Robotic Vehicle for Stores Management with Touch Screen – Abstract
Metal Detector Robotic Vehicle – Abstract
Passport Details Using RFID Technology –
Abstract
Microcontroller Based Beacon Flasher – Abstract
IR Controlled Robotic Vehicle – Abstract
Automatic Bell System for Institutions – Abstract
Robotic Vehicle Controlled By Cell Phone –
Abstract
Device Control and Authentication Based on RFID Technology Using PIC Microcontroller – Abstract
System of Solar Energy Measurement – Abstract
Details about Few Projects
1. Underground Cable Fault Distance Locator :
This system provides a way to detect location of fault in underground cables which is otherwise an impossible task. The project uses resistors to represent equal distance of the cable and the voltage drop across the resistors is sensed and processed to determine the exact location.
Here four rows of resistors are used with three rows connected to ground through a relay switch and the fourth row of resistors is connected to the feeder unit giving some DC voltage supply . A switch is connected in series with each resistor in the three rows, used to represent the fault (on line to ground connection). When a fault occurs at any distance (represented by the closing of the switch), the voltage drop across the resistors is sensed and is converted to digital form using an ADC and this value is processed by the microcontroller to determine the distance of the fault. This distance is then displayed on the LCD display.
2. GSM Electricity Energy Meter Billing :
This project defines a digital way of calculating the electrical energy units consumed and sending this data electronically through GSM communication to the power station so that is processed and based on this data the bill is prepared. This gives a way to the users to keep a track of the energy units consumed.
The Energy meter is connected to the optoisolator and for each unit the LED of the optoisolator blinks for 10 times. The pulses from the optoisolator are fed to the microcontroller and when 10 pulses are received, it is assumed to be one unit. Accordingly the microcontroller receives the no. of units and sends the information about the units consumed to the power station through the GSM modem. The electricity units consumed is displayed on the LCD display.
3. Programmable Energy Meter for Electrical Load Survey:
This project is designed to measure the electrical energy unit consumed by a single load for a certain amount of time and accordingly calculate the cost of using that load for the given time. This project provides a way to have knowledge about the energy consumption of loads and how using these loads can affect the monthly energy bill.
The energy meter is connected to the load, which is a lamp in this case. The input from the energy meter is given to the optoisolator which produces a fixed number of pulses for the single unit of energy consumed. These pulses are fed to the microcontroller. A set of push buttons are interfaced to the microcontroller to enter the time for which the load is switched on and the rate of each unit of energy. Based on this input data and the units (pulses received by the microcontroller), the microcontroller accordingly calculates the energy consumed by the load for that certain amount of time and also the cost of using that load. The units consumed and the cost is displayed on the LCD display.
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