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Do-It-Yourself Kit

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  • • Product of choice for Engineering & Diploma students worldwide.
  • • Real-time applications.
  • • Mapped to the curriculum.
  • • Learning by doing.
  • • Clearly defined problem statement.
Solderable DIY kit with
"Assembled & Tested Prototype board"

DIY kit comes with an Assembled and Tested prototype board and pre-programmed controller ensuring 100% output guarantee. Includes complete hardware & tools with plain PCB for assembling project from scratch.

Extensive documentation for project execution including step-by-step instructions for Circuit building, Assembly procedure and Troubleshooting. Thorough understanding from the Problem definition to Circuit Design to Programming, Simulation, Testing, Troubleshooting and finally building a working Hardware Prototype.

400+ end to end unique project solutions in wide areas of Electronics, Electrical, Embedded, Communication, IoT, Arduino and more.

PROJECT DESCRIPTION
The main purpose of this project is to control any load through the Internet network over cloud remotely on the basic principle of the Internet of things (IOT). For this real-time scenario we use webpage with user configurable front end to control and monitor the load. The data sent from from a password protected webpage returns commands through allotted IP fed to it. A Wi-Fi Module is configured with any nearby wireless modem to access internet. The received internet commands are fed to the Wi-Fi module. The program within the Wi-Fi Module execute the received commands based on which the load gets activated through TRIAC and Opto-coupler interfaced to Wi-Fi Module. The status of the load also will be displayed on the web page. Here in this project program in written within the Wi-Fi module, No extra microcontroller has been used to drive the load. The power supply consists of 5V SMPS board and 3.3V voltage regulator for a Wi-Fi module. 5V SMPS board will give 5V DC out from 230V AC, this we fed to 3.3V voltage regulator which supply power to Wi-Fi module and remaining circuit.
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The main purpose of this project is to control any load through the Internet network over cloud remotely on the basic principle of the Internet of things (IOT). For this real-time scenario we use webpage with user configurable front end to control and monitor the load. The data sent from from a password protected webpage returns commands through allotted IP fed to it. A Wi-Fi Module is configured with any nearby wireless modem to access internet. The received internet commands are fed to the Wi-Fi module. The program within the Wi-Fi Module execute the received commands based on which the load gets activated through TRIAC and Opto-coupler interfaced to Wi-Fi Module. The status of the load also will be displayed on the web page. Here in this project program in written within the Wi-Fi module, No extra microcontroller has been used to drive the load. The power supply consists of 5V SMPS board and 3.3V voltage regulator for a Wi-Fi module. 5V SMPS board will give 5V DC out from 230V AC, this we fed to 3.3V voltage regulator which supply power to Wi-Fi module and remaining circuit.
BLOCK DIAGRAM
Hardware Requirements
  • Microcontroller
  • LCD display
  • A to D converter
  • Temperature sensors
  • Relay
  • Resistors
  • Capacitors
  • Diodes
  • Transformer
  • Voltage Regulator
  • Transistors
  • relays
  • WiFi module as required
×
  • Microcontroller
  • LCD display
  • A to D converter
  • Temperature sensors
  • Relay
  • Resistors
  • Capacitors
  • Diodes
  • Transformer
  • Voltage Regulator
  • Transistors
  • relays
  • WiFi module as required
Software Requirements
  • Keil compiler
  • Language: Embedded C or Assembly.
×
  • Keil compiler
  • Language: Embedded C or Assembly.
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