The passive device of arrayed waveguide grating (AWG) are the most potential and developmental devices in wavelength division multiplexing (WDM). This thesis focus on improved designing AWG in optical fiber communication and building a design of 64 × 64 channels, 50GHz AWG which have good performance based on silicon-on-insulator (SOI) wafer. In AWG, we use the technique of the constant path length difference at adjacent waveguide of waveguide array to realize the spatial and spectrum division, and discuss the waveguide separation influence at the junction of free propagation region and arrayed waveguide. We also concern the insertion loss and crosstalk affected by applying tapered waveguide at the interface between the input/output waveguide and free propagation region. In the application of 64 × 64 AWG device, we focus on the new optical wavelength selector. The optical wavelength selective switch which combines AWG structure and electro-optic switches structure. We demonstrate that some particular channel can be selected independently by controlling the corresponding electro-optical switches. Such a device can be applied into reconfigurable WDM systems in the future.