This thesis investigates the design of fuzzy-logic-based solar power maximum power point tracking (MPPT) algorithm using different fuzzy input variables. Six fuzzy MPPT algorithms based on different input-variables are considered in the study. The fuzzy logic based MPPT function is accomplished through a buck-boost power converter. Based on the solar cell properties, details of the determinations and considerations of the fuzzy rules for each MPPT algorithms are presented in the thesis. Advantages and disadvantages of the considered algorithms are also summarized in the paper. Among them, the algorithm using the sum of the angle of the conductance and the angle of the increment of the conductance as the fuzzy input variable is the most promising one considered in the research. The algorithm is then used to design a voltage-regulated solar power MPPT system. Computer simulations based on MATLAB/SIMULINK and PLECS simulation tool are conducted to verify the design.