Single Axis Pv-Panel Tracking for Automated Street Light Controller

10 Pages Posted: 13 Jun 2019

See all articles by Keerthana A

Keerthana A

KPR Institute of Engineering and Technology - Department of Electronics and Communication Engineering

Suresh Kumar K

La Trobe University

Date Written: May 30, 2019

Abstract

A Street Light Control framework which works naturally is least demanding as well as the canny framework. This project describes a street lighting application developed utilizing a hybrid power generation technology that combines solar energy into a single, unified power generation system. Solar energy vitality is quickly picking up notoriety as an essential method for growing renewable vitality assets. Solar energy following permits more vitality to be delivered in light of the fact that the sun oriented vitality has the capacity stay adjusted to sun. The force from the sun blocked by the earth is roughly 1.8*1011MW, which is numerous a huge number of times bigger than the present utilization rate on the earth of all business vitality sources. The design objective of the solar renewable street-light system is to develop a self-sufficient street lighting system that generates and stores electric power whenever solar radiation are available, and then provides lighting during the night time. The bureau for the battery stockpiling and controller circuits ought to be sufficiently little with the goal that it can be promptly installable in many areas.

A Light Dependent Resistor is used to activate street light during night time. The RTC is a device which counts data and time. Depending upon time the RTC provides a voltage source which will trigger the motor solar panel to rotate in a direction of light source. There by the solar panel will get activated and provide voltage to the battery to operate depend on load requirement.

Keywords: PIC16F877A, LCD Display, RTC, Solar panel, LDR

Suggested Citation

A, Keerthana and K, Suresh Kumar, Single Axis Pv-Panel Tracking for Automated Street Light Controller (May 30, 2019). Available at SSRN: https://ssrn.com/abstract=3396448 or http://dx.doi.org/10.2139/ssrn.3396448

Keerthana A (Contact Author)

KPR Institute of Engineering and Technology - Department of Electronics and Communication Engineering

Coimbatore, Tamil Nadu 641407
India

Suresh Kumar K

La Trobe University

Department of Economics and Finance
Victoria 3552, 3086
Australia

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