Shopping cart is empty!
All Projects, IOT Projects, Arduino Projects, Core Electronics Projects, Electrical Projects, Core Electrical Projects, Electronic Products
IOT CONTROL HOME AUTOMATION BY USING BLYNK APP
5 ★
5 ★
2 Ratings
5 ★
2
4 ★
0
3 ★
0
2 ★
0
1 ★
0
(2)
Highlights:
The main objective of this project is to develop a home automation system with IoT application by using BLYNK app. As technology is advancing so houses are also getting smarter. Modern houses are gradually shifting from conventional switches to centralized control system, involving wireless controlled switches. Presently, conventional wall switches located in different parts of the house makes it difficult for the user to go near them to operate. Even more it becomes more difficult for the elderly or physically handicapped people to do so.
Highlights:
The main objective of this project is to develop a home automation system with IoT application by using BLYNK app. As technology is advancing so houses are also getting smarter. Modern houses are gradually shifting from conventional switches to centralized control system, involving wireless controlled switches. Presently, conventional wall switches located in different parts of the house makes it difficult for the user to go near them to operate. Even more it becomes more difficult for the elderly or physically handicapped people to do so.
LINE TO GROUND AND LINE TO LINE FAULT DETECTION OVER IOT
5 ★
5 ★
2 Ratings
5 ★
2
4 ★
0
3 ★
0
2 ★
0
1 ★
0
(2)
Highlights:
The objective of this project is to determine the distance of line to ground and line to line fault from base station in kilometers using an Arduino board over IOT. This system is a common practice followed in many urban areas. While a fault occurs for some reason, at that time the repairing process related to that particular cable is difficult due to not knowing the exact location of the cable fault. The proposed system is to find the exact location of the fault.
Highlights:
The objective of this project is to determine the distance of line to ground and line to line fault from base station in kilometers using an Arduino board over IOT. This system is a common practice followed in many urban areas. While a fault occurs for some reason, at that time the repairing process related to that particular cable is difficult due to not knowing the exact location of the cable fault. The proposed system is to find the exact location of the fault.
LINE TO LINE AND LINE TO GROUND FAULT DETECTION
4.3 ★
4.3 ★
3 Ratings
5 ★
2
4 ★
0
3 ★
1
2 ★
0
1 ★
0
(3)
Highlights:
The objective of this project is to determine the distance of line to ground and line to line fault from base station in kilometers using an Arduino board. This system is a common practice followed in many urban areas. While a fault occurs for some reason, at that time the repairing process related to that particular cable is difficult due to not knowing the exact location of the cable fault. The proposed system is to find the exact location of the fault
Highlights:
The objective of this project is to determine the distance of line to ground and line to line fault from base station in kilometers using an Arduino board. This system is a common practice followed in many urban areas. While a fault occurs for some reason, at that time the repairing process related to that particular cable is difficult due to not knowing the exact location of the cable fault. The proposed system is to find the exact location of the fault
All Projects, IOT Projects, Arduino Projects, Core Electronics Projects, Core Electrical Projects, Electronic Products
LOAD OR ENERGY MONITORING SYSTEM OVER IOT
4 ★
4 ★
2 Ratings
5 ★
0
4 ★
2
3 ★
0
2 ★
0
1 ★
0
(2)
Highlights:
With the prevalence of In-ternet of Things (IoT), smart meters have become one of the main components of smart city strategies. Smart energy meters generate large amounts of fine-grained data that is used to provide useful information to consumers and utility companies for decision-making. Now-a-days, smart energy meter analytics systems consist of analytical algorithms that process massive amounts of data.
Highlights:
With the prevalence of In-ternet of Things (IoT), smart meters have become one of the main components of smart city strategies. Smart energy meters generate large amounts of fine-grained data that is used to provide useful information to consumers and utility companies for decision-making. Now-a-days, smart energy meter analytics systems consist of analytical algorithms that process massive amounts of data.
All Projects, Automation Projects, Core Electronics Projects, Electrical Projects, Mechanical Projects, Core Electrical Projects, Mechatronics
MAGNETIC,NON MAGNETIC AND HEIGHT BASED SEGREGATION SYSTEM
4.5 ★
4.5 ★
2 Ratings
5 ★
1
4 ★
1
3 ★
0
2 ★
0
1 ★
0
(2)
₹13,000.00 ₹14,000.00 7% Off
All Projects, IOT Projects, DHT Sensor Based Projects, Arduino Projects, Core Electronics Projects, PIR Based Projects, Electrical Projects, Core Electrical Projects, Ultrasonic Based Projects, Electronic Products
PATIENT HEALTH MONITARING OVER IOT .
4.3 ★
4.3 ★
3 Ratings
5 ★
1
4 ★
2
3 ★
0
2 ★
0
1 ★
0
(3)
All Projects, Arduino Projects, Core Electronics Projects, Electrical Projects, Core Electrical Projects, GSM Based Projects, Electronic Products
PHASE SELECTION USING ARDUINO AND GSM
4.3 ★
4.3 ★
3 Ratings
5 ★
1
4 ★
2
3 ★
0
2 ★
0
1 ★
0
(3)
All Projects, Sensor Based Projects, Core Electronics Projects, Electrical Projects, Core Electrical Projects, Electronic Products, RFID Based Projects
Power Generation Using Piezoelectric Sensor
4.6 ★
4.6 ★
9 Ratings
5 ★
5
4 ★
4
3 ★
0
2 ★
0
1 ★
0
(9)
Highlights:
Day by day, the population of the country is increasing and the requirement of the power is also increasing. At the same time the wastage of energy is also increasing in many ways. So, reforming this energy back to usable form is the major solution. In this footstep power generation project, we are generating power with the help of human???s footsteps; this power is then used to charge battery. The power is stored in a battery that can be used to charge. This system is powered by Atmega 328, it consists of Arduino IDE, RFID sensor, USB cable and LCD. When we power on the system, the system enters into registration mode.
Highlights:
Day by day, the population of the country is increasing and the requirement of the power is also increasing. At the same time the wastage of energy is also increasing in many ways. So, reforming this energy back to usable form is the major solution. In this footstep power generation project, we are generating power with the help of human???s footsteps; this power is then used to charge battery. The power is stored in a battery that can be used to charge. This system is powered by Atmega 328, it consists of Arduino IDE, RFID sensor, USB cable and LCD. When we power on the system, the system enters into registration mode.
All Projects, Arduino Projects, Core Electronics Projects, Electrical Projects, Core Electrical Projects, GSM Based Projects
PRIORITY BASED SUPPLY SELECTION OVER GSM
4.2 ★
4.2 ★
12 Ratings
5 ★
3
4 ★
8
3 ★
1
2 ★
0
1 ★
0
(12)
Highlights:
The main objective of this project is to provide priority-wise power supply to a load, by selecting the supply source from any available one out of 4 such as mains, generator, inverter, and solar in the absence of power supply. The demand for electricity is increasing every day and frequent power cut is causing many problems in various areas like industries, hospitals, and houses. An alternative arrangement for a power source is thus desirable.
Highlights:
The main objective of this project is to provide priority-wise power supply to a load, by selecting the supply source from any available one out of 4 such as mains, generator, inverter, and solar in the absence of power supply. The demand for electricity is increasing every day and frequent power cut is causing many problems in various areas like industries, hospitals, and houses. An alternative arrangement for a power source is thus desirable.
All Projects, Core Electronics Projects, Electrical Projects, Core Electrical Projects, PIC Microcontroller
PRIORITY BASED SUPPLY SELECTION USING PIC MICRO-CONTROLLER
4.5 ★
4.5 ★
2 Ratings
5 ★
1
4 ★
1
3 ★
0
2 ★
0
1 ★
0
(2)