Abstract:
Inthepowersector of the Sri Lanka, 65% of required energy is generatedby using Fuels.
Today,the cost of electricity is very high in Sri Lanka due to all necessary fuels being
imported from other countries.
Renewable sources of energy including solar power, small scale hydro power have
emerged as an economical and sustainable alternative source to promote medium term
electricitygenerationto the rural isolated houses. Since Sri Lanka is situated close to the
Equator,solar radiation over the island does not show discernible seasonal variations.
The average solar radiation remains at 5.0 kilo Watt-hour/square meter/day, and thus,
substantial potential exists for harvesting renewable solar energy.
In the long run, electricity generation through fuel will be more expensive compared to
solar powered lighting system with white LEDs. Solar lighting system with a smart
charge controller developed in this work is an ideal solution to light remote houses.
Exceptfor the initial cost, there will not be no other bill to settle.
The smart charge controller designed here is specially developed for a battery charging
application. The charging current is used to change the duty cycle of the dc/dc converter
control signal. This smart charge controller is developed using low cost, low power
consumption PIC 16F877A microcontroller. The PIC microcontroller gives design
flexibility. In this smart charge controller used Maximum Power Point Tracking (MPPT)
techniques.
The results presented in this thesis show that the MPPT process has increased the
charging current. The measurements show that percentage increase in charging current
comparing to the 12.5 V regulations is above 112% (on average) even under cloudy
conditions.
