Disulfide bond formation plays a critical role in stabilizing protein tertiary structure thus maintaining its biological activity. It also infers the quality of recombinant protein pharmaceuticals. In this study, a simple and rapid method was demonstrated for disulfide bond identification of an IgG drug trastuzumab. Dimethyl labeling was applied to proteolytic peptides in nonreduced condition, which exhibit enhanced a1 ion signals in CID; multiple a1 ions can be observed due to multiple N-termini. Computational software RADAR was also developed to perform the automatic a1 ion screening followed by searching for molecular weight match among the cysteine-containing peptides. Selections of appropriate proteases combination and buffer pH for dimethyl labeling were investigated. The results (peak lists) were dealt with custom-made software RADAR to screen a1 ions, and found the corresponding molecular weight for disulfide bond assignment. Seven unique disulfide linkages of trastuzumab were successfully identified using automatic a1 ion screening and RADAR with optimized experimental conditions. This approach provides accurate and efficient solution, and it has great potential for routine structural characterization of protein pharmaceuticals.