Air-cathode MFC was utilized for this study, the reactor volume is 600 mL. In this study, the performance of microbial fuel cells (MFCs) was investigated by two kind of substrates, artificial wastewater and swine wastewater, and both of them have two different loading rate (10 g/L,6 g/L).In this study, MFCs using carbon cloth as the anode and platinum titanium net as the cathode, the anaerobic sludge of a three-stage swine wastewater treatment system was used as the seeding bacteria and immobilized cells were packed into reactors 100%. Experimental results show that the speed of acidification in artificial wastewater is very fast, the anode anaerobic fermentation tank stays acidification stage, and artificial wastewater electricity production was better than swine wastewater so it is estimated that electricity production is better when the reactor’s pH is acid. Single MFC artificial wastewater 10 g/L, artificial wastewater 6 g/L, swine waste water plus artificial wastewater 10 g/L and swine wastewater 6 g/L, the average voltage values were 0.83, 0.74, 0.76 and 0.75 V, average maximum current values were 0.85, 0.71 ,0.43 and 0.35 mA, respectively. Electricity production was increasing when loading rate increased, however, its average coulombic efficiency was not occurred at the loading rate of 10 g/L. These results showed that the performance of MFCs would be increased by feeding high loading rate substrate but electricity production efficiency is not proportional increase. Two air-cathode MFCs were connected in series or parallel as a MFC’s system to increase the output voltage or output current. MFC’s system storage power to super capacitor (3.3 F, 10 F) through charge pump then use the boost converter to boost the output voltage to 3.3 V then activating the load(5 mm red LED lights). The experimental results showed that it could sustain lightening a red LED for around 8 seconds when voltage was charged to 1V for a 3.3F super capacity and sustain lightening a red LED for around 32 seconds when voltage was charged to 1 V for a 10 F super capacity.