Herein, we describe the receiving (Rx) near-field measurement of digital active phased array antennas applicable to multifunction radars. Because of the structural differences with analog active phased array antennas, it is difficult to apply the conventional Rx near-field test configuration. Therefore, we have proposed a configuration of a near-field test suitable for digital active phased arrays. In the simulation, the results are presented for the beam pattern distorted by the leakage signal generated in the near field test and the beam pattern corrected for these leakage signal. After which, based on these results, the measured near-field data is reviewed. Furthermore, by converting seven near-field data measured simultaneously with far-field patterns, multiple digital beam-forming features were verified, and for the boresight, the beam patterns and its main findings were presented. Finally, sum/difference patterns were generated with multiple Rx beams, and the monopulse slope was calculated. By demonstrating that all the measured results are very similar to the ideal beam patterns and the calculation results, the validity of the proposed Rx near-field test configuration with the measurement results is verified.