77Br (T1/2 = 57 h) is an important auger electron emitter used in internal radiotherapy. For the cyclotron production of 77Br, the charged particle induced reactions namely 75As(α,2n)77Br, 77Se(p,n)77Br, 78Se(p,2n)77Br, and 80Se(p,4n)77Br were critically evaluated. Literature experimental data were normalized according to the modern standard of the decay data and monitor reactions. Three nuclear model codes (EMPIRE 3.2, TALYS 1.9, and ALICE-IPPE) were used to check the consistency and reliability of the experimental data. For each production route and corresponding radioisotopic impurity (76Br), a well-developed evaluation methodology was employed to generate the statistically fitted recommended excitation function. The recommended excitation functions were then employed to calculate the integral yield. After a comparative analysis on the basis of product yield, level of radioisotopic impurities; the reactions namely 77Se(p,n)77Br and 78Se(p,2n)77Br were suggested for high purity production of 77Br radionuclide using low and medium energy cyclotron respectively.