Abstract 　　A micro-fluid system usually involves micro channel, micro valve, micro actuator, and micro sensor. It can be applied to different areas as integrating with other devices. This study employs FEM computational software to investigate how a cantilever type valve acts under various pressures and to develop a micro valve which can be operated under low pressure. PDMS material has Young’s modulus of 1.4 MPa and Poisson ratio 0.49 favorable for a passive micro valve. This study uses PDMS material to manufacture cantilever type valves. 　　Before numerical simulation, the grid independence has been tested in order to assure the accuracy of simulation. Simulation results shows a linear relationship between displacements of valves and the driven pressures. Results of 2D and 3D simulations are also compared. 　　Bases on the numerical works, micro valves were fabricated by MEMS techniques, and a syringe pump was used as an actuating source. Two sizes of micro valves were fabricated. The performance of the two valves are compared based on the infuse/withdraw ratio. The ratio of the valve with 290 μm length shows a better pumping capability of 1.6 under 0.25 Hz operating frequency.