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Model Design for an Efficient Multi Functional Power Saver

Received: 20 November 2016     Accepted: 14 January 2017     Published: 9 February 2017
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Abstract

We have designed a system which acts as power saver cum temperature display. It provides power to the fan and works only when somebody is in the room. In the absence of persons in the room, power is turned off and fan stops rotating. In addition, when somebody is in the room it will display the temperature and set the fan speed based on the temperature. The higher the temperature the higher the speed of the fan. The study details the design procedure along with construction and test information. A block of the entire power saver has been done. The block shows connections of the different modules. PCB design and testing of the entire system is analyzed.

Published in American Journal of Science, Engineering and Technology (Volume 2, Issue 1)
DOI 10.11648/j.ajset.20170201.15
Page(s) 24-32
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2017. Published by Science Publishing Group

Keywords

Power Saver, Fan, Printed Circuit Board, Modules

References
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[2] Deshmukh, A. v. (2005) Microcontrollers theory and applications. Tata McGraw Hill Education Private Ltd. Pushp print services, New Delhi.
[3] Kamal, R. (2006) Embedded systems Architecture programming and design. Tata McGraw Hill Education Private Ltd, Newdelhi.
[4] Pal, A., (2011) Microcontrollers principles and applications. PHI learning private ltd. Raj press, New Delhi.
[5] Mathivanan, N. (2012) Microcontrollers pc hardware and interfacing. PHI learning private ltd, New Delhi.
[6] Peatman, J. B (2006). Design with pc Microcontrollers. PHI learning private ltd. Dorling Kindersley pvt Ltd, New Delhi.
[7] Milliman, J. and Arvin, G. (1987) microelectronics. McGraw Hill international editions. Singapore.
[8] Swahney, A. K (2013) A course in Electrical and Electronic measurements and instrumentation. Dhanpat Rai and company pvt ltd. Educational and technical publishers, Newdelhi.
[9] Mano, M. (2012) Digital logic and computer design. Dorling Kindersley pvt Ltd. Gopsons papers ltd, New Delhi.
[10] Fiore, J. M (1999) Operational amplifiers and linear integrated circuits. Jaico publishing house, Mumbai.
[11] Wakerly, J. F (2001) Digital design principles and practices. Chennai microprint pvt ltd, Newdelhi.
[12] Milliman, J., Faub, H., and et al. (2010) pulse, digital and switching waveforms. Tata McGraw Hill Education Private Ltd, Newdelhi.
[13] The US navy bureau of personnel (1973) Basic electronics. Dover publications, inc Newyork, USA.
[14] Gothman, H. (2001) Digital electronics an introduction to theory and practice. Prentice hall of India private ltd, Newdelhi.
[15] Milliman, J., Halkias, c. and et al (2010) Electronic devices and circuits. McGraw Hill Education, Newdelhi.
[16] S. Mehta and K. S. Kwak (2010): A power efficient back off for wireless sensor networks, International Journal of Wireless and Mobile Networks, Vol 2, No. 1.
[17] Arindam Banerjee, Prateek Agrawal and N. Ch. S. N. Iyengar (2013): Energy Efficiency Model for Cloud Computing, International Journal of Energy, Information and Communications Vol. 4, Issue 6 (2013), pp. 29-42.
[18] Yao-Liang Chung (2016): A Novel Algorithm for Efficient Downlink Packet Scheduling for Multiple-Component-Carrier Cellular Systems, Energies 2016, 9, 950; doi:10.3390/en9110950.
Cite This Article
  • APA Style

    Titus Mutavi Mutunga, Nicholas Muthama Mutua, Nicodemus Muoki Sakayo. (2017). Model Design for an Efficient Multi Functional Power Saver. American Journal of Science, Engineering and Technology, 2(1), 24-32. https://doi.org/10.11648/j.ajset.20170201.15

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    ACS Style

    Titus Mutavi Mutunga; Nicholas Muthama Mutua; Nicodemus Muoki Sakayo. Model Design for an Efficient Multi Functional Power Saver. Am. J. Sci. Eng. Technol. 2017, 2(1), 24-32. doi: 10.11648/j.ajset.20170201.15

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    AMA Style

    Titus Mutavi Mutunga, Nicholas Muthama Mutua, Nicodemus Muoki Sakayo. Model Design for an Efficient Multi Functional Power Saver. Am J Sci Eng Technol. 2017;2(1):24-32. doi: 10.11648/j.ajset.20170201.15

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  • @article{10.11648/j.ajset.20170201.15,
      author = {Titus Mutavi Mutunga and Nicholas Muthama Mutua and Nicodemus Muoki Sakayo},
      title = {Model Design for an Efficient Multi Functional Power Saver},
      journal = {American Journal of Science, Engineering and Technology},
      volume = {2},
      number = {1},
      pages = {24-32},
      doi = {10.11648/j.ajset.20170201.15},
      url = {https://doi.org/10.11648/j.ajset.20170201.15},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ajset.20170201.15},
      abstract = {We have designed a system which acts as power saver cum temperature display. It provides power to the fan and works only when somebody is in the room. In the absence of persons in the room, power is turned off and fan stops rotating. In addition, when somebody is in the room it will display the temperature and set the fan speed based on the temperature. The higher the temperature the higher the speed of the fan. The study details the design procedure along with construction and test information. A block of the entire power saver has been done. The block shows connections of the different modules. PCB design and testing of the entire system is analyzed.},
     year = {2017}
    }
    

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    T1  - Model Design for an Efficient Multi Functional Power Saver
    AU  - Titus Mutavi Mutunga
    AU  - Nicholas Muthama Mutua
    AU  - Nicodemus Muoki Sakayo
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    T2  - American Journal of Science, Engineering and Technology
    JF  - American Journal of Science, Engineering and Technology
    JO  - American Journal of Science, Engineering and Technology
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    AB  - We have designed a system which acts as power saver cum temperature display. It provides power to the fan and works only when somebody is in the room. In the absence of persons in the room, power is turned off and fan stops rotating. In addition, when somebody is in the room it will display the temperature and set the fan speed based on the temperature. The higher the temperature the higher the speed of the fan. The study details the design procedure along with construction and test information. A block of the entire power saver has been done. The block shows connections of the different modules. PCB design and testing of the entire system is analyzed.
    VL  - 2
    IS  - 1
    ER  - 

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Author Information
  • School of Science & Informatics, Mathematics & Informatics Department, Taita Taveta University, Voi, Kenya

  • School of Science & Informatics, Mathematics & Informatics Department, Taita Taveta University, Voi, Kenya

  • School of Science & Informatics, Mathematics & Informatics Department, Taita Taveta University, Voi, Kenya

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