Raspberry Pi Based Digital Tachometer Using IR Sensor

Call for Price

Raspberry Pi Based Digital Tachometer Using IR Sensor

SKU: Raspberry Pi Based Digital Tachometer Using IR Sensor Category:

Description

ABSTRACT

Tachometer is a device that measures the rotational speed of any shaft or disc. The unit of the measurement is usually revolutions per minute or RPM. The traditional method of measuring RPM of a rotating shaft was based on velocity feedback concept where a dc generator is hooked to the rotating shaft so that the voltage induced across the generator’s terminals is proportional to the speed of the shaft. Today, we are going to make a digital tachometer based on a Raspberry Pi that requires no physical contact with the rotating shaft to measure its rotational speed. The physical contact is avoided by using an optical detection technique that requires an infrared light emitting diode in conjunction with a photo detecting diode. Raspberry pi is a single board computer which we are using to calculate the speed which is programmed using Python. This tachometer can measure speeds up to without being in contact with the shaft. The result is shown on a web page using a small network area.

INTRODUCTION

The idea behind this is to make a system to measure the speed of the shaft using the IR sensor. The contact with the rotating shaft is avoided with an optical sensing mechanism that uses an infrared (IR) light emitting diode and a photo detecting diode. The IR LED transmits an infrared light towards the rotating disc and the photo detecting diode receives the reflected light beam. This way it can measure the speed. If the surface is bright a black color is used and if the surface is dull then a white color is used to measure the speed using IR sensor. A small network is used to make display the speed on the webpage.

EXISTING SYSTEM

In the existing system, the traditional method of measuring RPM of a rotating shaft was based on velocity feedback concept where a dc generator is hooked to the rotating shaft so that the voltage induced across the generator’s terminals is proportional to the speed of the shaft.

PROPOSED SYSTEM

In this proposed system, we are going to make a digital tachometer based on a Raspberry Pi that requires no physical contact with the rotating shaft to measure its rotational speed. The physical contact is avoided by using an optical detection technique that requires an infrared light emitting diode in conjunction with a photo detecting diode

BLOCK DIAGRAM

raspberry_pi_digital_tachometer_using_ir_sensor1

MONITORING SECTION

raspberry_pi_digital_tachometer_using_ir_sensor2

BLOCK DIAGRAM DESCRIPTION

  • In this project IR Sensor module is used which will act as the tachometer.
  • Similarly DC motor with high speed is used to calculate the RPM.
  • The speed is display on the web page using a small server.
  • Connect power supply for Raspberry pi
  • Plug the HDMI cable in Raspberry pi from the monitor using VGA to HDMI converter cable
  • Connect USB Mouse and USB keyboard to the Raspberry pi

HARDWARE REQUIREMENTS

  • Raspberry Pi
  • IR Module
  • DC MOTOR
  • SD card
  • Monitor

SOFTWARE REQUIREMENTS

  • Raspbian Jessie
  • Language – Linux
  • Python

CONCLUSION

A digital tachometer based on an infrared light reflection technique has been demonstrated successfully. Its major advantage is that it doesn’t require any physical contact with the rotating shaft to measure its speed. This project can be extended further by adding data logging feature to it. This is required in certain applications where the RPM of a rotating shaft is needed to be monitored. The data logger will keep the records of varying RPM over time, and those records can be later transferred to a PC through the USB interface.

REFERENCES

[1] “Compact electronic tachometer for unmanned aerial vehicles” in 2015 IEEE International Conference Actual Problems of Unmanned Aerial Vehicles Developments (APUAVD).

[2] “Rotational speed measurement through digital imaging and image processing” in 2017 IEEE International Instrumentation and Measurement Technology Conference (I2MTC).

[3] “DC Motor Cruise Control by Interfacing IR Sensor Tachometer and SIMULINK, Regardless Motor Specifications and Change of Shaft Load” in 2018 IEEE International Conference on Electro/Information Technology (EIT)

Additional information

Weight 1.000000 kg

Reviews

There are no reviews yet.

Be the first to review “Raspberry Pi Based Digital Tachometer Using IR Sensor”

Your email address will not be published. Required fields are marked *

This site uses Akismet to reduce spam. Learn how your comment data is processed.