Research Article
BibTex RIS Cite

THE OPTICAL MEASUREMENT SUSCEPTIBILITY OF THE PHOTODIODE AND LDR LIGHT SENSORS

Year 2018, Volume: 3 Issue: 1, 25 - 33, 31.01.2018

Abstract



Electrical parameters
such as current, voltage and resistance are produced by the light-sensitive
sensor elements depending on the light. Therefore, optically sensitive sensors
are widely used in light measurement and light control systems. LDR (A Light
Dependent Resistor) and Photodiode, which are widely used in light detection
systems, have been discussed in the study,
they have been exposed to different lighting values in an indoor
environment. Their electrical reaction values have been measured and
susceptibility analysis has been conducted. In the light of the findings
obtained, it has been seen that with 9.44 standard deviation rate photodiode
has shown more light sensitivity than LDR.





References

  • Coskun A., Sevil H.E., Ozdemir S. (2011). Cost Effective Localization in Distributed Sensory Networks, Engineering Applications of Artificial Intelligence, 24: 232–237.
  • Fathabadi H. (2016). Comparative Study between Two Novel Sensorless and Sensor Based Dual-Axis Solar Trackers, Solar Energy, 138:67–76.
  • Gentile N., Laike T., Dubois M.C. (2016). Lighting Control Systems in Individual Officies Rooms at High Latitude : Measurements of Electricity Savings and Occupants’ Satisfaction, Solar Energy, 127, 113-123.
  • Ghassan M.S., Hashimah I., Debnath N., Nadya A. (2015). Optimal Light Power Consumption Using LSDR Sensor. IEEE International Symposium on Robotics and Intelligent Sensors (IEEE IRIS2015), 144-148.
  • Lau K.T., Baldwin S., O’Toole M. (2006). A Low-Cost Optical Sensing Device Based on Paired Emitter-Detector Light Emitting Diodes, Analytica Chimica Acta 557:111–116.
  • Laskar S., Bordoloi S., (2013). Microcontroller-based instrumention system for measurement of refractive index of liquid using bare, tapered and bent fibre as sensor, IET Optoelectronics, 7(6):117-124.
  • LDR-Light Dependent Resistors (2016). https://tr.scribd.com/doc/78366781/LIGHT-DEPENDENT-RESISTOR-LDR Juan F.D.P, Bajo J., Rodriguez S., Villarubia G., Corchado J.M. (2016). Intelligent system for lighting control in smart cities. Information Sciences, 372:241–255.
  • Ozcelik M.A. (2016). Light Sensor Control for Energy Saving in DC Grid Smart LED Lighting System Based on PV System. Journal of Optoelectronics and Advanced Materials, 18:5-6, 468-474.
  • Toufiq I., Afshari S., Sandipan M.(2016). An Experimental Survey of Feedback Control Methodologies for Advanced Lighting Systems, Energy and Building, 130:600–612.
  • Vishay Semiconductors (2016). BPW34, Document Number 81521, http://www.vishay.com/docs/81521/bpw34.pdf
  • Wang X., Duan N., Chen H., Campbell J.C. (2007). InGaAs–InP Photodiodes with High Responsivity and High Saturation Power, IEEE Photonics Technology Letters, Vol.19, No.16, 1272-1274.
  • Williams D. (2015), Design a Lux-meter using a Light Dependent Resistor, http://www.allaboutcircuits.com/projects/design-a-luxmeter
  • Zhang P., Xiupu Z., Rong Z., (2016). Design of broad band and high-output power uni-traveling-carrier photodiodes, Optics Communications, 365:194–207.
Year 2018, Volume: 3 Issue: 1, 25 - 33, 31.01.2018

Abstract

References

  • Coskun A., Sevil H.E., Ozdemir S. (2011). Cost Effective Localization in Distributed Sensory Networks, Engineering Applications of Artificial Intelligence, 24: 232–237.
  • Fathabadi H. (2016). Comparative Study between Two Novel Sensorless and Sensor Based Dual-Axis Solar Trackers, Solar Energy, 138:67–76.
  • Gentile N., Laike T., Dubois M.C. (2016). Lighting Control Systems in Individual Officies Rooms at High Latitude : Measurements of Electricity Savings and Occupants’ Satisfaction, Solar Energy, 127, 113-123.
  • Ghassan M.S., Hashimah I., Debnath N., Nadya A. (2015). Optimal Light Power Consumption Using LSDR Sensor. IEEE International Symposium on Robotics and Intelligent Sensors (IEEE IRIS2015), 144-148.
  • Lau K.T., Baldwin S., O’Toole M. (2006). A Low-Cost Optical Sensing Device Based on Paired Emitter-Detector Light Emitting Diodes, Analytica Chimica Acta 557:111–116.
  • Laskar S., Bordoloi S., (2013). Microcontroller-based instrumention system for measurement of refractive index of liquid using bare, tapered and bent fibre as sensor, IET Optoelectronics, 7(6):117-124.
  • LDR-Light Dependent Resistors (2016). https://tr.scribd.com/doc/78366781/LIGHT-DEPENDENT-RESISTOR-LDR Juan F.D.P, Bajo J., Rodriguez S., Villarubia G., Corchado J.M. (2016). Intelligent system for lighting control in smart cities. Information Sciences, 372:241–255.
  • Ozcelik M.A. (2016). Light Sensor Control for Energy Saving in DC Grid Smart LED Lighting System Based on PV System. Journal of Optoelectronics and Advanced Materials, 18:5-6, 468-474.
  • Toufiq I., Afshari S., Sandipan M.(2016). An Experimental Survey of Feedback Control Methodologies for Advanced Lighting Systems, Energy and Building, 130:600–612.
  • Vishay Semiconductors (2016). BPW34, Document Number 81521, http://www.vishay.com/docs/81521/bpw34.pdf
  • Wang X., Duan N., Chen H., Campbell J.C. (2007). InGaAs–InP Photodiodes with High Responsivity and High Saturation Power, IEEE Photonics Technology Letters, Vol.19, No.16, 1272-1274.
  • Williams D. (2015), Design a Lux-meter using a Light Dependent Resistor, http://www.allaboutcircuits.com/projects/design-a-luxmeter
  • Zhang P., Xiupu Z., Rong Z., (2016). Design of broad band and high-output power uni-traveling-carrier photodiodes, Optics Communications, 365:194–207.
There are 13 citations in total.

Details

Primary Language English
Journal Section Articles
Authors

Mehmet Ali Özçelik 0000-0003-0984-5707

Publication Date January 31, 2018
Acceptance Date February 8, 2018
Published in Issue Year 2018 Volume: 3 Issue: 1

Cite

APA Özçelik, M. A. (2018). THE OPTICAL MEASUREMENT SUSCEPTIBILITY OF THE PHOTODIODE AND LDR LIGHT SENSORS. The International Journal of Energy and Engineering Sciences, 3(1), 25-33.

IMPORTANT NOTES

No part of the material protected by this copyright may be reproduced or utilized in any form or by any means, without the prior written permission of the copyright owners, unless the use is a fair dealing for the purpose of private study, research or review. The authors reserve the right that their material can be used for purely educational and research purposes. All the authors are responsible for the originality and plagiarism, multiple publication, disclosure and conflicts of interest and fundamental errors in the published works.

*Please note that  All the authors are responsible for the originality and plagiarism, multiple publication, disclosure and conflicts of interest and fundamental errors in the published works. Author(s) submitting a manuscript for publication in IJEES also accept that the manuscript may go through screening for plagiarism check using IThenticate software. For experimental works involving animals, approvals from relevant ethics committee should have been obtained beforehand assuring that the experiment was conducted according to relevant national or international guidelines on care and use of laboratory animals.  Authors may be requested to provide evidence to this end.
 
**Authors are highly recommended to obey the IJEES policies regarding copyrights/Licensing and ethics before submitting their manuscripts.


Copyright © 2023. AA. All rights reserved