Surface plasmon resonance (SPR) phenomenon has been used in optical sensors for decades. For traditional sensor applications, we often use 50 nm gold film for optimal SPR signal. However, In the range of visible light, the FWHM(Full Width Half Maximum) of SPR curve is about 4 to 6 degrees. To improve the sensor performance, we can work on reducing FWHM and increasing active sensing area by propagation length of SPR wave. In traditional approach, which uses the sensing ability of field depth in 100~200nm perpendicular to the interface between metal and dielectric. We use the traveling wave in the plane parallel to the interface of metal and dielectric to reach the propagation length of much longer distance. This research is to investigate a special layer design to improve detection sensitivity and integrate waveguide couple method to study lateral propagation of SPR. According to our research results, long-range SPR indeed help SPR coupling. By appropriate selection of dielectric material and metal thickness, we can enhance sensing ability in designed detecting range. Most important is that the thickness of dielectric layer have to be thinner than the depth evanescent wave can reach. We developed an automatic high resolution SPR angle modulation system, that can shorten experiment time and avoid manual’s error. The resolution can reach 3.93×10-5 RIU for angle modulation and 4.66×10-7 RIU for intensity modulation. Also, this research propose a novel waveguide coupling sensing chip of lateral propagation SPR. We hope to verify the existence of lateral propagation of SPR and understand the waveguide coupling mechanism. By applying the long-range SPR layer design, a sensitive biosensor can be realized in the future.