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Arduino based 4 Quadrant DC Motor Control
Model: 410    
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Do-It-Yourself Kit

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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 project is designed to develop a four-quadrant speed-control system for a DC motor. The motor is operated in four quadrants: clockwise, counter clock-wise, forward brake and reverse brake. It also has a feature of speed control.

The four-quadrant operation of the DC motor is best suited for industries wherein motors are used according to the requirement. They can rotate in clockwise, counter-clockwise directions. And also one can apply brakes immediately in both the directions. In case of a specific operation in industrial environment, the motor needs to be stopped immediately. In such a scenario, this proposed system is very apt as forward brake and reverse brake are its integral features.

 Instantaneous brake in both the directions happens as a result of applying a reverse voltage across the running motor for a brief period and the speed control of the motor can be achieved with  PWM pulses generated by the Arduino Board. Arduino Development Board is used for this operation . Push buttons are provided for the operation of the motor which are interfaced to the Arduino that provides  input signal to it and in turn controls the speed of the motor through a motor driver IC. Speed control feature by push-button operation is also available in this project.

This project can be enhanced by using higher power electronic devices to operate high capacity DC motors. Regenerative braking for optimizing the power consumption can also be incorporated. 

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The project is designed to develop a four-quadrant speed-control system for a DC motor. The motor is operated in four quadrants: clockwise, counter clock-wise, forward brake and reverse brake. It also has a feature of speed control.

The four-quadrant operation of the DC motor is best suited for industries wherein motors are used according to the requirement. They can rotate in clockwise, counter-clockwise directions. And also one can apply brakes immediately in both the directions. In case of a specific operation in industrial environment, the motor needs to be stopped immediately. In such a scenario, this proposed system is very apt as forward brake and reverse brake are its integral features.

 Instantaneous brake in both the directions happens as a result of applying a reverse voltage across the running motor for a brief period and the speed control of the motor can be achieved with  PWM pulses generated by the Arduino Board. Arduino Development Board is used for this operation . Push buttons are provided for the operation of the motor which are interfaced to the Arduino that provides  input signal to it and in turn controls the speed of the motor through a motor driver IC. Speed control feature by push-button operation is also available in this project.

This project can be enhanced by using higher power electronic devices to operate high capacity DC motors. Regenerative braking for optimizing the power consumption can also be incorporated. 

PROJECT HIGHLIGHTS
Easy to use, Self-explanatory kit.
All-inclusive solution kit.
Extensive audio-visuals available.
Branding-free material.
Call/mail for Tech Support from 10 am - 7 pm IST.
×
Easy to use, Self-explanatory kit.
All-inclusive solution kit.
Extensive audio-visuals available.
Branding-free material.
Call/mail for Tech Support from 10 am - 7 pm IST.
BLOCK DIAGRAM
Arduino based 4 Quadrant DC Motor Control
Hardware Requirements
  • Arduino develop board
  • Crystal
  • DC Motor
  • Motor Driver IC
  • LED
  • Resistors
  • Capacitors
  • Diodes
  • Transformer
  • Voltage Regulator
  • Push Buttons.
×
  • Arduino develop board
  • Crystal
  • DC Motor
  • Motor Driver IC
  • LED
  • Resistors
  • Capacitors
  • Diodes
  • Transformer
  • Voltage Regulator
  • Push Buttons.
Software Requirements
  • Arduino software
  • Language: Arduino programming language
×
  • Arduino software
  • Language: Arduino programming language
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