Recombinant adeno-associated viral (rAAV) vectors have gained attention for human gene therapy because of their high safety and clinical efficacy profile. For factor VIII gene delivery, splitting the coding region between two AAV vectors remains a viable strategy to avoid the packaging capacity limitation (∼5.0 kb). However, it is time-consuming and labor-intensive to produce two rAAV vectors in separate batches. Here we demonstrated successful production of dual rAAV vectors for hemophilia A gene therapy in a single preparation. When the AAV vector plasmids carrying the human factor VIII heavy chain (hHC) and the light chain (hLC) expression cassettes were cotransfected into 293 cells along with the AAV rep&cap and mini-adenovirus helper plasmids, both rAAV-hHC and rAAV-hLC were produced at the desired ratio and in high titer. Interestingly, the rAAV-hHC vectors always yielded higher titers than rAAV-hLC vectors as a result of more efficient replication of rAAV-hHC genomes. The resulting vectors were effective in transducing the tissue culture cells in vitro. When these vectors were administered to hemophilia A mice, factor VIII was detected in the mouse plasma by both the activated partial thromboplastin time assay and enzyme-linked immunosorbent assay. The functional activity as well as the antigen levels of secreted factor VIII were similar to those of vectors produced by the traditional method. The dual-vector production method has been successfully extended to both AAV2 and AAV8 serotypes. In conclusion, cotransfection of vector plasmids presents an efficient method for producing dual or multiple AAV vectors at significantly reduced cost and labor.