
After reading this post the reader will be able to learn about the basics of the engineering projects, similarities and differences between engineering projects and other electronics Projects and other important features of the Arduino Leonardo. So sit back, keep reading and enjoy learning.
Engineering Projects For Students:
- Intelligent Plant Irrigation System
- Dual or single Axis Automatic Solar Tracker
- Cascaded H- bridge multilevel inverter
- Voice Recognition Based Home Automation System for Paralyzed People
- Hurdle Detecting Robot Using Raspberry Pi based on Python
Electrical Engineering projects:
- PREPAID ENERGY METER
- PREPAID ENERGY METER WITH POWER THEFT USING GSM
- ENERGY METER WITH POWER THEFT USING GSM
- ENERGY METER WITH POWER THEFT MONITORING ON PC
- HOME AUTOMATION USING GSM
- OBSTICALE AVIODENCE ROBOT
- CAR CONTROL USING RF MODULE
- INTELLIGENT ENERGY SAVING SYSTEM
- HOME SECURITY SYSTEMXXXX
- INDUSTRIAL AUTOMATION USING GSM
- INDUSTRIAL AUTOMATION USING RF MODULE
- INDUSTRIAL AUTOMATION USING ZIGBEE
- AUTOMATIC STREET LIGHT CONTROL SYSTEM
- PC BASED HOME AUTOMATION
- HOME AUTOMATION USING MOBILE
- AUTOMATIC POWER THEFT CONTROL SYSTEM
- SOLAR TRACKER
- POWER GENERATION USING SPEED BREAKER
- POWER SHARING OF TRANSFORMER WITH GSM MONITORING
- WIND TURBINE
- PC BASED CAR CONTROL SYSTEM
- ENERGY GENERATION USING FOOT STEP SYSTEM
- AUTOMATIC CAR PARKING SYSTEM
- AUTOMATIC POWER FACTOR IMPROVEMENT
- GSM BASED TRANSFORMER PROTECTION
- IP BASED HOME AUTOMATION USING ETHERNET
- LINE FOLLOWING ROBOT
- HOME AUTOMATION USING RASPBERRY PI
- AUTOMATIC LOAD MANAGEMENT SYSTEM
- PIOLET PROTECTION OF TRANSMISSION LINE
- DISTANCE PROTECTION OF TRANSMISSION LINE
- FIRE FIGHTING ROBOT
- BLIND STICK USING GPS
- HYBRID AUTOMATION SYSTEM BASED ON XBEE WIRELESS SENSOR NETWORK FOR HOME
- HYBRID AUTOMATION SYSTEM RF BASED WIRELESS SENSOR NETWORK FOR HOME
- TRAIN TRACKING AND NAVIGATION USING RF MODULE
- TAP CHANGING TRANSFORMER
- MICRO CONTROLLER BASED TRANSFORMER PARAMETER MONITORING AND CONTROLLING USING ZIGBEE
- RF ID BASED AUTHORISED CAR USING GPS AND GSM
- AUTOMATIC CRASH IMMINENT BRAKING AND PRECAUTIONAR BELT
- ADAPTIVE TRAFFIC CONTROLLER
Simple Electronics Projects:
Mechanical Engineering Project Ideas:
DESIGN AND IMPLEMENTATION OF NUMERICAL RELAY :
Final Year Project (FYP):
In this Final Year Project we discuss about that the numerical relay. In this fyp we protect our system with any faults by using numerical relay. This system we use in any place our Grid station, Industry and Home where we face a faults in daily life like over voltage , under voltage and over current. That’s the major problem of our transmission lines for controlling these problems and protect our system we design a numerical relay. In this project we also use a circuit breaker for trip the circuit in conditions of any faults from this purpose we load end is properly safe.
Components:
- Regulator 7805
- Capacitor 1000uf, 100uf, 104pf
- Resistor 1k, 470R, 100R
- LCD 16X2
- Microcontroller (Ardiuno UNO)
- Keypad (3X4)
- Power supply
- Step Down Transformer (220Ac to 12vAc)
- Potential Transformer
- Current Transformer
- AC Load (Bulb)
- Inverter
- Vero Board
- Relay 12volt
- Optocoupler
- Diode (IN4007)
- Divider Circuit
- Variable Resistor
- Led’s
- Arduino UNO
Description of engineering projects:
In this Final Year Project (FYP) we protection of our load system. We use PT (potential transformer) and CT (Current Transformer) in this system. Potential transformer use for measuring the main Ac Voltage of wapda and current transformer for measuring the current that we use in our system as a load. We use divider circuit to divide the output voltage of PT and CT through variable resistor and give output to Arduino UNO Microcontroller. Output of PT and CT is a analog. In Arduino UNO has built in ADC to convert analog to digital output. Arduino process this input and display the voltage and Current value on LCD. We also use keypad with microcontroller to set the value of voltage and current to operate the circuit breaker and trip our system and load is off. We set the value with keypad and give the information to microcontroller. Arduino Microcontroller take this information data and process. Then we input voltage reached to set value then controller send to command and our circuit breaker is trip. After this first of all we remove the faults in over system and then restart our system then he’s working safely. We use electromagnetic relay as a circuit breaker to make break the point and our load is ON and OFF according to our set value. For this procedure we load is properly safe and no any loss in our system.
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