针对全息波导显示系统中输入光栅、转折光栅和输出光栅的光栅参量不一致, 导致系统设计和光栅制作难度增大的问题.对比正常配置和锥形配置下的光栅方程, 可得全息波导显示系统中全息光栅具有相同周期需要满足转向光栅60°锥形配置.由此提出波导侧面装有反射镜的三光栅单波导板显示构型, 其中三个光栅周期完全相同, 输入光栅和转向光栅条纹走向一致.使用光学设计软件CODE V对该构型进行仿真, 验证了该构型的可行性.与传统全息波导显示构型相比, 侧面反射镜的光路折叠作用使得该构型系统无效显示面积和耦合效率损失减小；三个光栅周期相同且输入光栅和转向光栅条纹走向一致, 可以降低系统设计和全息光栅制作难度.该构型可以用于虚拟现实显示或者头戴式显示.

In a holographic waveguide display system, the inconformity of grating parameters of input grating, turning grating and output leads to a lot of difficulties in system design and gratings fabrication process. The main condition that the turning grating should be in 60° conical mounting, on which all the gratings in a waveguide holographic display configuration have uniform grating periods, was presented by comparing the grating equations in normal mounting and conical mounting. Under this condition, a novel efficient display was proposed by using a waveguide holographic configuration with three holographic gratings of the same grating periods recorded on a single substrate and a reflector placed on the side face of the substrate. The validity of this configuration was proved by the simulation carried out by the optical design software CODE V. The coupling efficiency loss and invalid area can be dramatically reduced by the reflector on the side face, compared with the traditional configuration. Moreover, the complexity of system design and holographic manufacture can be decreased because all gratings used in the proposed design have uniform grating periods and two of them have uniform orientation. The configuration can be applied to virtual reality display or wearable display.