Recently, according to the great progress in biotechnology and the miniaturization techniques in engineering, the development on the technology of lab on a chip becomes one of the most important subjects for the multi-discipline integration. There are many signal detection methods applied on the biochip, such as the fluorescence detection method and the potentiometric detection method etc. Here, this study focus on the fluorescence detection method and utilize the evanescent wave to excite the fluorescence, then use micro-lens and micro-grating to modulate the fluorescent light source and promote the detective system of the biochip. The lens design focuses on the planoaspherical lens. This lens can be used to generate a homogenous irradiance on the target in the grating, which uses the fluorescent light as light source. The grating design focuses on the binary phase grating. As the binary structures are based on π-phase depth and 50﹪-duty cycle, diffraction efficiency of the binary approximation is only 40.5﹪in the +1 diffraction order. Templates with inverse images of the planoaspherical lens using casting techniques. The image of microstructures are then transferred from templates to quartz.