Theoretical analysis and simulations of the single mode condition and polarization sensitivity properties were reported for InP/InGaAsP rib waveguide, based on finite element method (FEM). The mathematic model of different rib width and height of InP rib waveguide was established, with the core height remain unchanged. With the narrow ridge width and shallow etching depth, the transmission mode characteristics is close to single mode condition. When it comes to deep etching, the mode birefringence index is much higher and easily affected by the rib width, but when it comes to shallow etching, the impact of rib width and height on the mode birefringence is very weak. And the mode birefringence index is stable at 1.2×10-3. The simulation results and analysis provide an accurate theoretical model for constructing high performance optoelectronic devices based on InP/InGaAsP rib waveguide.