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All Journal Mechatronics, Electrical Power, and Vehicular Technology Perfecting a Video Game with Game Metrics PROCEEDING IC-ITECHS 2014 ELKOMIKA: Jurnal Teknik Energi Elektrik, Teknik Telekomunikasi, & Teknik Elektronika JEEMECS (Journal of Electrical Engineering, Mechatronic and Computer Science) Energi & Kelistrikan INTEK: Jurnal Penelitian JAREE (Journal on Advanced Research in Electrical Engineering) Jurnal Techno Bahari Jurnal Nasional Teknik Elektro dan Teknologi Informasi
Renny Rakhmawati, Safira Nur Hanifah, Renny Rakhmawati,
Politeknik Elektronika Negeri Surabaya
Computer Science & IT Control & Systems Engineering Education Electrical & Electronics Engineering Energy Engineering Mechanical Engineering Transportation

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Journal : PROCEEDING IC-ITECHS 2014

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LIGHTING SYSTEM WITH HYBRID ENERGY SUPPLY FOR ENERGY EFFICIENCY AND SECURITY FEATURE OF THE BUILDING Safira Nur Hanifah, Renny Rakhmawati,
PROCEEDING IC-ITECHS 2014 PROCEEDING IC-ITECHS 2014
Publisher : PROCEEDING IC-ITECHS 2014

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Abstract

Recently, many buildings’ outside corridors have less lighting system at night, becausetheir lamps mostly depend upon electrical energy from PLN (State Electrical Company). It affects the whole electrical power used. Due to this condition, we need to arrange the lamps’ light  to  reduce  electrical  power.  This  research  is  going  to  create  an  automatic  lighting efficiency system which is located outside of the building’s corridor; and it uses time setting with the application of RTC (Real Time Clock) to detect human motion with motion-sensor detector  (PIR).  The  primary  aim  of  this  research  is  to  manage  electrical  energy  more efficiently and to make a safety measure for the building itself. When PIR sensor detects any motion in safety-time-range that has been set before, it will send a short message to the central security system. It is supplied by hybrid system between solar cell and PLN electrical power. Though the use of the solar cell, an output voltage of 17-19 volt will be reduced through the buck converter to stabilize enough  while filling 12-volt the accumulator. The output electrical voltage derived from accumulator will be converted from 12 Vdc  to 12 Vac by an inverter; and then it will be increased to 220 Vac by step up voltage regulator to supply its lighting load. Otherwise, if the accumulator is not able to fulfill the supply, a microcontroller will force swith circuit to gain the lighting load another supply from PLN electrical power source. By implementing this management system, total energy within 10 hours (17.00-03.00 WIB) is 420Wh; and it reduces the energy for 105 Wh with 25% efficiency.
Lighting System With Hybird Energy Supply For Energy Efficiency and Security Feature of the Building Renny Rakhmawati; Safira Nur Hanifah
IC-ITECHS Vol 1 (2014): Prosiding IC-ITECHS 2014
Publisher : IC-ITECHS

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1483.508 KB)

Abstract

Recently, many buildings’ outside corridors have less lighting system at night, because their lamps mostly depend upon electrical energy from PLN (State Electrical Company). It affects the whole electrical power used. Due to this condition, we need to arrange the lamps’ light to reduce electrical power. This research is going to create an automatic lighting efficiency system which is located outside of the building’s corridor; and it uses time setting with the application of RTC (Real Time Clock) to detect human motion with motion-sensor detector (PIR). The primary aim of this research is to manage electrical energy more efficiently and to make a safety measure for the building itself. When PIR sensor detects any motion in safety-time-range that has been set before, it will send a short message to the central security system. It is supplied by hybrid system between solar cell and PLN electrical power. Though the use of the solar cell, an output voltage of 17-19 volt will be reduced through the buck converter to stabilize enough while filling 12-volt the accumulator. The output electrical voltage derived from accumulator will be converted from 12 Vdc to 12 Vac by an inverter; and then it will be increased to 220 Vac by step up voltage regulator to supply its lighting load. Otherwise, if the accumulator is not able to fulfill the supply, a microcontroller will force swith circuit to gain the lighting load another supply from PLN electrical power source. By implementing this management system, total energy within 10 hours (17.00-03.00 WIB) is 420 Wh; and it reduces the energy for 105 Wh with 25% efficiency.
Co-Authors Ahmad Firyal Adila Aura Aulia Azmil Anil Yamin Fajrus Sodiq Diah Septi Yanaratri Enggar Bima Ihza Febian Era Purwanto Farid Dwi Murdianto FITROTIN NAFISA OKTAVIANI GALIH FEBRYANTA ASWA YUDHISTIRA Hendik Eko Hadi Suharyanto Irianto Irianto Lucky Pradigta Setiya Raharja MANICHA MIFTACHUL HUSNAH Muhammad Abdul Haq Muhammad Aditya Ardiansyah Muhammad Wildan Alim Novie Ayub Windarko Putu Agus Mahadi Putra Rachma Prilian Eviningsih Rizal Nurdiansyah Safira Nur Hanifah Suhariningsih Suhariningsih Suhariningsih sutedjo Sutedjo Yahya Chusna Arif Zhafira Rana Khalisa Permana