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All Projects, Core Electronics Projects, Electrical Projects, Core Electrical Projects, PIC Microcontroller
AUTOMATIC LOAD SHARING BY PARALLEL TRANSFORMER USING PIC MICRO-CONTROLLER
4.4 ★
4.4 ★
31 Ratings
5 ★
13
4 ★
18
3 ★
0
2 ★
0
1 ★
0
(31)
All Projects, Core Electronics Projects, Electrical Projects, Core Electrical Projects, PIC Microcontroller, Electronic Products
AUTOMATIC PHASE SELECTION USING PIC MICROCONTROLLER
4.5 ★
4.5 ★
4 Ratings
5 ★
2
4 ★
2
3 ★
0
2 ★
0
1 ★
0
(4)
All Projects, Electrical Projects, Core Electrical Projects, Power Electronics, Embedded Projects, Micro Controller
AUTOMATIC POWER FACTOR COMPENSATION FOR INDUSTRIAL POWER USE TO MINIMIZE PENALTY
4.5 ★
4.5 ★
30 Ratings
5 ★
16
4 ★
13
3 ★
1
2 ★
0
1 ★
0
(30)
Highlights:
The project is designed to minimize penalty for industrial units using automatic power factor correction unit. The micro-controller used in this project belongs to 8051 family.??In this proposed system, two zero crossing detectors are used for detecting zero crossing of voltage and current.
Highlights:
The project is designed to minimize penalty for industrial units using automatic power factor correction unit. The micro-controller used in this project belongs to 8051 family.??In this proposed system, two zero crossing detectors are used for detecting zero crossing of voltage and current.
AUTOMATIC POWER FACTOR CORRECTION USING ARDUINO
4.3 ★
4.3 ★
31 Ratings
5 ★
10
4 ★
20
3 ★
0
2 ★
1
1 ★
0
(31)
Highlights:
In this proposed system, two zero crossing detectors are used for detecting zero crossing of voltage and current. The project is designed to minimize penalty for industrial units using automatic power factor correction unit.
Highlights:
In this proposed system, two zero crossing detectors are used for detecting zero crossing of voltage and current. The project is designed to minimize penalty for industrial units using automatic power factor correction unit.
All Projects, Core Electronics Projects, Electrical Projects, Core Electrical Projects, PIC Microcontroller, Electronic Products
AUTOMATIC POWER FACTOR CORRECTION USING PIC- MICROCONTROLLER
4.8 ★
4.8 ★
5 Ratings
5 ★
4
4 ★
1
3 ★
0
2 ★
0
1 ★
0
(5)
Highlights:
In this proposed system, two zero crossing detectors are used for detecting?? zero crossing of voltage and current. The project is designed to minimize?? penalty for industrial units?? using automatic power factor correction unit. The PIC microcontroller used in this project .
The time lag between the zero-voltage pulse and zero-current pulse is duly generated by suitable operational amplifier circuits in comparator mode is fed to two interrupt pins of a microcontroller. The program takes over to actuate appropriate number of relays from its output to bring shunt capacitors into load circuit to get the power factor till it reaches near unity.
Highlights:
In this proposed system, two zero crossing detectors are used for detecting?? zero crossing of voltage and current. The project is designed to minimize?? penalty for industrial units?? using automatic power factor correction unit. The PIC microcontroller used in this project .
The time lag between the zero-voltage pulse and zero-current pulse is duly generated by suitable operational amplifier circuits in comparator mode is fed to two interrupt pins of a microcontroller. The program takes over to actuate appropriate number of relays from its output to bring shunt capacitors into load circuit to get the power factor till it reaches near unity.
Automatic power factor correction with measurement of real power ,reactive power, apparent power
4.6 ★
4.6 ★
5 Ratings
5 ★
3
4 ★
2
3 ★
0
2 ★
0
1 ★
0
(5)
Highlights:
Automatic Power Factor Correction with measurement of real power, reactive power, and apparent power.?? Two zero crossing detectors are used for detecting zero crossing of voltage and current.
Highlights:
Automatic Power Factor Correction with measurement of real power, reactive power, and apparent power.?? Two zero crossing detectors are used for detecting zero crossing of voltage and current.
Automatic Star Delta Starter using Relays and Adjustable Electronic Timer for Induction Motor
4.3 ★
4.3 ★
30 Ratings
5 ★
10
4 ★
20
3 ★
0
2 ★
0
1 ★
0
(30)
Highlights:
The proposed project aims at providing low voltage to induction motors through star to delta conversion. Star Delta is basically used to lower the current rate applied to motor at start and after that full load current is applied.
Highlights:
The proposed project aims at providing low voltage to induction motors through star to delta conversion. Star Delta is basically used to lower the current rate applied to motor at start and after that full load current is applied.
All Projects, IR Based Projects, Core Electronics Projects, Electrical Projects, Core Electrical Projects, Mini Project, School project
COIN BASED MOBILE CHARGER
4.5 ★
4.5 ★
15 Ratings
5 ★
7
4 ★
8
3 ★
0
2 ★
0
1 ★
0
(15)
Highlights:
The main objective of this project is to develop Coin based mobile charger by using a Timer IC along with circuits of IR sensor which we putting the coin inside it and relay of the charger is automatically ON for particular time.
Highlights:
The main objective of this project is to develop Coin based mobile charger by using a Timer IC along with circuits of IR sensor which we putting the coin inside it and relay of the charger is automatically ON for particular time.
All Projects, Core Electronics Projects, Electrical Projects, Temprature Based Projects, Core Electrical Projects, Electronic Products
Dc Motor Rotation In The Clock Wise And Anti Clock Wise Direction Using Rf Remote
4.6 ★
4.6 ★
5 Ratings
5 ★
3
4 ★
2
3 ★
0
2 ★
0
1 ★
0
(5)
Highlights:
DC Motors are commonly used in electronics and electrical projects. It may be a line-following robot, a remote-controlled car, electronic shutters and doors, digital locks, drones, and choppers, etc; the DC motors are used in a variety of applications. This project is a simple demonstration of remote controlling a DC motor by switching it on or off and changing the direction of its rotation clockwise or anticlockwise
Highlights:
DC Motors are commonly used in electronics and electrical projects. It may be a line-following robot, a remote-controlled car, electronic shutters and doors, digital locks, drones, and choppers, etc; the DC motors are used in a variety of applications. This project is a simple demonstration of remote controlling a DC motor by switching it on or off and changing the direction of its rotation clockwise or anticlockwise
All Projects, Electrical Projects, Core Electrical Projects, Power Electronics, Mini Project, School project
DC MOTOR SPEED CONTROL USING 555 TIMER IC
4.5 ★
4.5 ★
15 Ratings
5 ★
8
4 ★
7
3 ★
0
2 ★
0
1 ★
0
(15)
Highlights:
This project is designed to control the speed of a DC motor using PWM control using 555 IC. The speed of the DC motor is directly proportional to the voltage applied across its terminals. Hence, if the voltage across the motor terminal is varied, then the speed can also be varied.
Highlights:
This project is designed to control the speed of a DC motor using PWM control using 555 IC. The speed of the DC motor is directly proportional to the voltage applied across its terminals. Hence, if the voltage across the motor terminal is varied, then the speed can also be varied.
All Projects, Sensor Based Projects, Arduino Projects, Core Electronics Projects, Electrical Projects, Core Electrical Projects, Robotics Based Projects
Driver Safety System Using Sensors Like Eye Blink, Alcohol, Temperature, Smoke, Accident Prevention, Using Arduino
5 ★
5 ★
1 Rating
5 ★
1
4 ★
0
3 ★
0
2 ★
0
1 ★
0
(1)
Highlights:
This aims to create a framework to keep the car safe and secure through critical activity. When we run in ignorance we cannot take care of our own. If we make all vehicles with an automatic safety system that gives the driver a high level of protection, an alarm will also be issued. The device has an installed eye blink sensor. Once the driver has started the engine, the sensors automatically detect the blink of an eye. On this device, the output of the sensor is provided for comparison with ARDUINO. When the value reaches the set level, the buzzer automatically vibrates, the LED glows, and the car stops automatically when the eye blink sensor receives a signal from the transmission module.
Nowadays There has been a very large increase in road accidents due to the drowsiness of drivers while driving which leads to enormous fatal accidents. The driver loses control when he falls asleep which leads to an accident. This is because when the driver is not able to control his vehicle at a very high speed on the road. Driver in-alertness is an important cause of most accidents related to vehicle crashes. Driver fatigue resulting from sleep deprivation or sleep disorders is an important factor in the increasing number of accidents on today???s roads. A drowsy driver warning system can form the basis of the system to possibly reduce the accidents related to driver drowsiness. This project can generate a model which can prevent such accidents. To prevent this, we outlined a very simple and economical system that deals with this issue. In this project, when a driver falls asleep, an alarm is raised to warn the driver attached to the rear of the vehicle. The alarm continues for a minimum of 10 seconds so that the driver wakes and gets ready to steady the vehicle he drives. Thus we can control major accidents.
There has been a very large increase in road accidents due to drowsiness of drivers while driving which leads to enormous fatal accidents. The driver loses control when he falls asleep which leads to an accident. This is because when the driver is not able to control his vehicle at a very high speed on the road. This project can generate a model which can prevent such accidents. Temperature sensors and smoke sensors are used for further safety systems in the vehicle.
Highlights:
This aims to create a framework to keep the car safe and secure through critical activity. When we run in ignorance we cannot take care of our own. If we make all vehicles with an automatic safety system that gives the driver a high level of protection, an alarm will also be issued. The device has an installed eye blink sensor. Once the driver has started the engine, the sensors automatically detect the blink of an eye. On this device, the output of the sensor is provided for comparison with ARDUINO. When the value reaches the set level, the buzzer automatically vibrates, the LED glows, and the car stops automatically when the eye blink sensor receives a signal from the transmission module.
Nowadays There has been a very large increase in road accidents due to the drowsiness of drivers while driving which leads to enormous fatal accidents. The driver loses control when he falls asleep which leads to an accident. This is because when the driver is not able to control his vehicle at a very high speed on the road. Driver in-alertness is an important cause of most accidents related to vehicle crashes. Driver fatigue resulting from sleep deprivation or sleep disorders is an important factor in the increasing number of accidents on today???s roads. A drowsy driver warning system can form the basis of the system to possibly reduce the accidents related to driver drowsiness. This project can generate a model which can prevent such accidents. To prevent this, we outlined a very simple and economical system that deals with this issue. In this project, when a driver falls asleep, an alarm is raised to warn the driver attached to the rear of the vehicle. The alarm continues for a minimum of 10 seconds so that the driver wakes and gets ready to steady the vehicle he drives. Thus we can control major accidents.
There has been a very large increase in road accidents due to drowsiness of drivers while driving which leads to enormous fatal accidents. The driver loses control when he falls asleep which leads to an accident. This is because when the driver is not able to control his vehicle at a very high speed on the road. This project can generate a model which can prevent such accidents. Temperature sensors and smoke sensors are used for further safety systems in the vehicle.