The  Implementation and Design of  an Automatic LED Emergency Light System for Power Outages

SAJJAD LIWAA TAREQ

doi:10.61132/venus.v2i5.499

Authors

SAJJAD LIWAA TAREQ Computers Techniques Engineering Department , Al Esraa College, Iraq

DOI:

https://doi.org/10.61132/venus.v2i5.499

Keywords:

Power outages, Automatic LED emergency light, energy efficiency, Rechargeable battery, Voltage regulation

Abstract

Growing demand for electricity savings has led to the development of an automatic LED emergency light system. It is based on providing light when the power is cut off. Once fully charged, the battery ceases charging, and in the event of a power failure, the LEDs are automatically powered by the battery. The project focuses on two primary functions: it automatically activates during power outages to give illumination, eliminating the need to search for the switch, and the battery rapidly begins recharging as the main power is restored. The emergency light is crucial due to the inconsistent voltage distribution and frequent power outages in operational regions of communities and diverse enterprises.

The system includes a power supply that converts 230V AC to 12V DC, a relay that uses a control pulse to alternate between connecting the battery to the LEDs and isolating it, and a rechargeable Li-ion battery that supplies power to the LEDs during blackouts. The parallel-connected LEDs light up during a power outage in the circuits. The circuit architecture shown here serves to mitigate the entire discharge of the battery, hence enhancing the battery's longevity.

Key components of the system include a step-down transformer, a bridge circuit to convert AC to DC, a Zener diode to maintain voltage stability, capacitors for energy storage, and various diodes to control current flow. The project highlights the advantages of LED emergency lights, such as efficiency, longevity, and minimal energy waste, though it acknowledges the higher initial cost and temperature sensitivity as disadvantages.

The automatic LED emergency light is suitable for use in homes, offices, retail shops, and other commercial settings. The project demonstrates a cost-effective and compact solution that enhances daily life by providing reliable lighting during power failures.

References

G Americas. (2014). GSM global system for mobile communications. Archived from the original on February 8, 2014. Retrieved March 22, 2014.

Bohn, D. A. (1988). Environmental effects on the speed of sound. Journal of Audio Engineering Society, 36(4), 252-258.

Chavan, S. S. (2009). Assessment design: Intelligent traffic light controller using embedded system. In Proceedings of the Second International Conference on Emerging Trends in Engineering and Technology (pp. 27-30).

Ganiyu, R. A., & Arulogun, O. T. (2014). Development of a microcontroller-based traffic light system for road intersection control. International Journal of Science & Technology Research, 3(5), 14-19.

Hussain, R. (2013). WSN applications: Automated intelligent traffic control system using sensors. International Journal of Soft Computing and Engineering, 3(3), 230-233.

Jaiswal, S. (2013). Intelligent traffic control unit. International Journal of Electrical, Electronics and Computer Engineering, 2(3), 10-12. ISSN 2277-2626.

Millman, J., & Halkias, C. C. (1967). Electronic devices & circuits. McGraw-Hill.

Parsic Italia. (n.d.). HC-SR04 datasheet. Retrieved from http://www.parsicitalia.it/files/HC-SR04-Datasheet

Sinhmar, A. M. P. (2012). Intelligent traffic light and density control using IR sensors and microcontroller. International Journal of Advanced Technology & Engineering Research, 22(2), 25-29.

Srivastava, M. D., Prerna, S., Sachin, S., & Sharma, S. (n.d.). Automated traffic control system.

Texas Instruments Incorporated. (2006). ULN2803A.