本文介绍了采用外加光来改变等离子显示单元状态的技术。光写入法提供了这种优越性即,数据可由摄影透明片向等离子显示板进行高速平行转换。这就可使光入射在等离子单元上,产生了玻璃内表面的光放射,放射出的电子扰动壁压,并使其状态发生变化。改变单元状态所需的光强度可通过两种新技术的应用而减少,无需改变显示板的固体材料。最初由光电子产生的电子雪崩可用来减少所需光的99％。在等离子显示单元气体放电过程中,通过闪光可以进一步减少光强。 This article describes the technique of using external light to change the state of a plasma display cell. The optical writing method offers the advantage that the data can be converted from photographic transparency to plasma display panels at high speed in parallel. This allows light to be incident on the plasma cell, creating a light emission on the inner surface of the glass, the electronically disturbed wall pressure that is emitted, and changing its state. The light intensity needed to change the state of a cell can be reduced by the application of two new technologies without changing the solid material of the display panel. Electron avalanches initially created by photoelectrons can be used to reduce 99% of the light required. During the plasma display cell gas discharge, the light intensity can be further reduced by flashing light.