Membrane fouling is the main obstacle that hinders the widespread applications of membrane bioreactors (MBRs). Numerous studies have been conducted to deal with membrane fouling. However, this phenomenon is still inevitable in MBRs. The occurrence of fouling not only reduces the permeability, but deteriorates the membrane lifespan, leading to accelerating the operation costs. In order to overcome this drawback, a combination of electro-coagulation process with MBR (electro-MBR) was built to investigate the capacity of electro-coagulation on reducing membrane fouling under different electric currents (ECs) applied modes. The effect of electro-coagulation process on the change of sludge characteristics, microbial activities, and effluent qualities was investigated in this study. The optimal EC was firstly ascertained from the batch-scale experiments within a range of ECs between 10 A/m2 and 40 A/m2. Then, this value was further applied for the long-time operations with electro-MBR. In this study, the contents of extracellular polymeric substances (EPS) was quantified in both soluble and bound types, while sludge characteristics such as particle size mean (PSM), aspect ratio (AR), and sludge floc morphology were monitored through the Portable Series FlowCAM. The results demonstrated that electro-coagulation at EC of 20 A/m2 was suitable for the long-time operation of electro-MBR according to its efficacy in reducing fouling and enhancing floc agglomeration. In long-time electro-MBR study, the excellent performance on the removal of total organic compunds (> 98%) and ammonia (> 98%) were obtained. The fouling rates in both continuous and intermittent modes of electro-MBR were 5.7 and 7.8 times less than that in control-MBR during 15 days of operation, respectively. No chemical cleaning was used in the case of intermittent mode, whereas only one time cleaning was conducted in the continuous mode. The most striking observations in this study were that electro-MBR can be operated without the problem of filamentous bulking, and electro-coagulation significantly alternated the structural and morphological sludge flocs. The results implied that the sweep-coagulation and electro-oxidation might be the key factors for the success in fouling mitigation in electro-MBR.