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All Projects, Electrical Projects, Core Electrical Projects, Power Electronics, Embedded Projects, Micro Controller, Mini Project
SOFT START OF INDUCTION MOTOR USING ACPWM
4.7 ★
4.7 ★
30 Ratings
5 ★
20
4 ★
10
3 ★
0
2 ★
0
1 ★
0
(30)
Highlights:
This project attempts a soft start control technique for the single-phase a.c. induction motor. The circuit operation is controlled by an 8051 family microcontroller. The drive uses a PWM controlled MOSFET and the load in series with a bridge rectifier. The device attempted here takes advantage of both the low price of the phase angle control and the low harmonic content and high efficiency that we can get with standard converter topology.
Highlights:
This project attempts a soft start control technique for the single-phase a.c. induction motor. The circuit operation is controlled by an 8051 family microcontroller. The drive uses a PWM controlled MOSFET and the load in series with a bridge rectifier. The device attempted here takes advantage of both the low price of the phase angle control and the low harmonic content and high efficiency that we can get with standard converter topology.
Soft Start of Three Phase Induction Motor
4.3 ★
4.3 ★
13 Ratings
5 ★
4
4 ★
9
3 ★
0
2 ★
0
1 ★
0
(13)
Highlights:
The project is designed to provide a soft and smooth start to a 3 phase induction motor. The three phase induction motor during the initial starting condition draws up much higher current than its capacity and the motor instantly reaches the full speed. This results in a mechanical jerk and high electrical stress on the windings of the motor.
Highlights:
The project is designed to provide a soft and smooth start to a 3 phase induction motor. The three phase induction motor during the initial starting condition draws up much higher current than its capacity and the motor instantly reaches the full speed. This results in a mechanical jerk and high electrical stress on the windings of the motor.
All Projects, Android Projects, Arduino Projects, Core Electronics Projects, Electrical Projects, Mechanical Projects, Ultrasonic Based Projects, Core Electrical Projects, Robotics Based Projects, Bluetooth Based Projects
SOLAR GRASS CUTTER WITH OBSTACLE AVOIDANCE
4.3 ★
4.3 ★
3 Ratings
5 ★
1
4 ★
2
3 ★
0
2 ★
0
1 ★
0
(3)
Highlights:
These days we are facing the problems like pollution, power cut problem, etc. In order to overcome these problems, we have thought about the device, which can be performing its functions without causing any of these problems. So we have thought of doing the project on cutting grass, which uses renewable sources of energy for its operation like solar energy.
Highlights:
These days we are facing the problems like pollution, power cut problem, etc. In order to overcome these problems, we have thought about the device, which can be performing its functions without causing any of these problems. So we have thought of doing the project on cutting grass, which uses renewable sources of energy for its operation like solar energy.
All Projects, Sensor Based Projects, Android Projects, Arduino Projects, Core Electronics Projects, Electrical Projects, Core Electrical Projects, Ultrasonic Based Projects, Solar Based Projects, Robotics Based Projects, Electronic Products, Bluetooth Based Projects
SOLAR GRASS CUTTER WITH OBSTACLE AVOIDANCE WITH SPRAY
4.6 ★
4.6 ★
25 Ratings
5 ★
14
4 ★
11
3 ★
0
2 ★
0
1 ★
0
(25)
Highlights:
Agriculture is demographically the broadest economic sector and plays a significant role in the overall economy of India. For the growth of Indian economy, mechanization is necessary. The main purpose of mechanization in agriculture is to improve the overall productivity and production. The system control is done by the Arduino UNO R3. Automation is achieved by using sensors and Arduino UNO R3.
Highlights:
Agriculture is demographically the broadest economic sector and plays a significant role in the overall economy of India. For the growth of Indian economy, mechanization is necessary. The main purpose of mechanization in agriculture is to improve the overall productivity and production. The system control is done by the Arduino UNO R3. Automation is achieved by using sensors and Arduino UNO R3.
All Projects, Android Projects, Arduino Projects, Core Electronics Projects, Electrical Projects, Mechanical Projects, Core Electrical Projects, Solar Based Projects, Robotics Based Projects, Bluetooth Based Projects
SOLAR GRASS CUTTER WITH SPRAY
4.4 ★
4.4 ★
24 Ratings
5 ★
10
4 ★
14
3 ★
0
2 ★
0
1 ★
0
(24)
Highlights:
We present an Arduino-based automatic robotic system that is used for cutting grass or
lawns, mostly healthy grass which needs to be cut neatly like in a public park or a private
garden. The purpose of this proposed project is to design a programmable automatic pattern
design grass cutting robot with solar power which no longer requires time-consuming manual
grass-cutting and that can be operated wirelessly using an Android Smartphone via
Bluetooth from a safe distance which is capable of cutting the grass in indeed required shapes
and patterns; the cutting blade can also be adjusted to maintain the different lengths of the
grass. The main focus was to design a prototype that can work with a little or no Physical
user interaction.
Highlights:
We present an Arduino-based automatic robotic system that is used for cutting grass or
lawns, mostly healthy grass which needs to be cut neatly like in a public park or a private
garden. The purpose of this proposed project is to design a programmable automatic pattern
design grass cutting robot with solar power which no longer requires time-consuming manual
grass-cutting and that can be operated wirelessly using an Android Smartphone via
Bluetooth from a safe distance which is capable of cutting the grass in indeed required shapes
and patterns; the cutting blade can also be adjusted to maintain the different lengths of the
grass. The main focus was to design a prototype that can work with a little or no Physical
user interaction.
All Projects, Automation Projects, Arduino Projects, Core Electronics Projects, Mechanical Projects, Core Electrical Projects, Solar Based Projects, Robotics Based Projects
SOLAR PANEL CLEANING MECHANISM WITH WATER SUPPLY
4.6 ★
4.6 ★
5 Ratings
5 ★
3
4 ★
2
3 ★
0
2 ★
0
1 ★
0
(5)
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Solar Power Vaccine Storage Refrigerator
4.7 ★
4.7 ★
3 Ratings
5 ★
2
4 ★
1
3 ★
0
2 ★
0
1 ★
0
(3)
Highlights:
Large areas of many developing countries have no grid electricity. This is a serious challenge that threatens the continuity of the vaccine cold chain. The main alternatives to electrically powered refrigerators available for many years???kerosene- and gas-driven refrigerators???are plagued by problems with gas supply interruptions, low efficiency, poor temperature control, and frequent maintenance needs. There are currently no kerosene- or gas-driven refrigerators that qualify under the minimum standards established by the World Health Organization (WHO) Performance, Quality, and Safety (PQS) system.
Highlights:
Large areas of many developing countries have no grid electricity. This is a serious challenge that threatens the continuity of the vaccine cold chain. The main alternatives to electrically powered refrigerators available for many years???kerosene- and gas-driven refrigerators???are plagued by problems with gas supply interruptions, low efficiency, poor temperature control, and frequent maintenance needs. There are currently no kerosene- or gas-driven refrigerators that qualify under the minimum standards established by the World Health Organization (WHO) Performance, Quality, and Safety (PQS) system.
All Projects, Core Electronics Projects, Electrical Projects, Core Electrical Projects, Micro Controller, Electronic Products
Speed Control Of Induction Motor Using Firing Angle Control
4.3 ★
4.3 ★
3 Ratings
5 ★
1
4 ★
2
3 ★
0
2 ★
0
1 ★
0
(3)
Highlights:
The main object of this project is to develop speed control of two induction motor using firing angle control system which is helpful to control the speed of an induction motor using microcontroller
In this project, the zero-crossing point of the voltage waveform is detected by a comparator whose output is then fed to the microcontroller. Then, it provides the required delayed triggering pulses to a pair of TRIAC through an opto-isolator connected to this circuit. Finally, power is applied to the load through the TRIAC. Four push-button switches are interfaced to the controller for increasing and decreasing the AC power to the load. In this project, a lamp is used in the place of induction motor demonstration purposes. The motor speed variation depends on the power reduction.
Highlights:
The main object of this project is to develop speed control of two induction motor using firing angle control system which is helpful to control the speed of an induction motor using microcontroller
In this project, the zero-crossing point of the voltage waveform is detected by a comparator whose output is then fed to the microcontroller. Then, it provides the required delayed triggering pulses to a pair of TRIAC through an opto-isolator connected to this circuit. Finally, power is applied to the load through the TRIAC. Four push-button switches are interfaced to the controller for increasing and decreasing the AC power to the load. In this project, a lamp is used in the place of induction motor demonstration purposes. The motor speed variation depends on the power reduction.
All Projects, Automation Projects, IR Based Projects, Electrical Projects, Core Electrical Projects, Power Electronics, Embedded Projects, Micro Controller, School project
STREET LIGHT THAT GLOWS ON DETECTING VEHICLE MOVEMENT
4.1 ★
4.1 ★
25 Ratings
5 ★
4
4 ★
20
3 ★
1
2 ★
0
1 ★
0
(25)
Highlights:
This project is designed to detect a vehicle movement on road to switch on only a block of street lights that are ahead of the vehicle, and to switch off the glowing lights when the vehicle passes away from the lights. This will help to save electrical energy.
Highlights:
This project is designed to detect a vehicle movement on road to switch on only a block of street lights that are ahead of the vehicle, and to switch off the glowing lights when the vehicle passes away from the lights. This will help to save electrical energy.