MPPT technique is often used in PV systems to solve low efficiency problem in energy conversion which is deeply affected by surroundings. In MPPT, methods based on the concept of P&O are very popular since their algorithms are simple and easy to implement. However, this kind of methods has a slower response and often encounters severe oscillation during steady status. Such oscillation causes the average output power level deviated from MPP and makes the voltage chattering around MPP. Therefore, this thesis proposes a FLC method to improve the above shortcomings. Simulation results show that the FLC not only has a fast response, but also eliminates the oscillation to keep the output power steady and smooth the voltage without chattering. Similar to the simulation, the experimental results show that the FLC can fast drive the system to MPP in 5 seconds and highly reduce the oscillation so that the ratio of voltage chattering is below 1%. In addition, this thesis uses the compass sensor and solar trajectory to set up a dual-axis solar tracking system. A simple sundial used to check the angle between the solar panel and sunlight is less than 5 degrees in most of the day, which implies a good performance of solar tracking.