Magneto-optic(MO)coupling of guided optical waves with microwave magnetostatic waves(MSWs)simultaneously excited by multiple radio frequency(RF)signals can lead to multifrequency diffraction effects and then parallel processing of RF signals can be realized by using of the characteristics that diffraction efficiencies(DEs)are approximately in direct proportion to RF signals intensities and diffraction angles are related to frequencies of the corresponding RF signals within linear MO interaction region.In this paper,studied is the multifrequency MO Bragg diffraction in first-order MO interaction approximation,and obtained was the approximate analytical expression for principle diffraction efficiency(PDE).Also,put forward was a parallel imaging method of relative intensity of RF signals based on single-frequency diffraction.By calculation and analysis,it is shown that the relative error is not more than 0.3dB for the case of three RF signals within the frequency space of 60MHz. Magneto-optic (MO) coupling of guided optical waves with microwave magnetostatic waves (MSWs) simultaneously capable of multiple radio frequency (RF) signals can lead to multifrequency diffraction effects and then parallel processing of RF signals can be realized by using of characteristics that that diffraction efficiencies (DEs) are approximately in direct proportion to the RF signals intensities and the diffraction angles are related to the frequencies of the corresponding RF signals within the linear MO interaction region. In this paper, studied is the multifrequency MO Bragg diffraction in first-order MO interaction approximation , and obtained was the approximate analytical expression for principle diffraction efficiency (PDE). Also, put forward was a parallel imaging method of relative intensity of RF signals based on single-frequency diffraction. BY calculation and analysis, it is shown that the relative error is not more than 0.3dB for the case of three RF signals within the frequency space of 60MHz.