A method for generating ultra-wide-band (UWB) pulse is proposed based on cross-phase modulation (XPM) in dispersion shifted fiber (DSF). In this method, the low-power continuous wave probe light is phase modulated by the high-power pump light using the XPM in DSP, then the following fiber Bragg grating (FBG) is served as a frequency discriminator to convert the PM to IM. Finally, a monocycle UWB signal is achieved. By using the software of Optisystem7.0, and two UWB pulses with the center frequencies at 7GHz and 6.95GHz, and the fraction bandwidths as 143% and 145% are obtained. The impacts of the input signal pulse width, the reflectivities of FBG and the different frequency discriminators on the generated UWB monocycle pulse are numerically simulated and studied. The results show that this scheme has good tolerance to the input signal pulse width. Optical Gaussian band-pass filters, wavelength division multiplexer and FBG can be used as the frequency discriminators. FBG has more advantages due to the flexibility of adjusting the waveform of the generated UWB pulse signal by changing the reflectivities of FBG.