51.4: Mechanism of Luminous Efficiency Improvement of High γ and High Xe Discharge

Abstract: The combination use of high Xe content and high γ protective layer can improve luminous efficacy without a lot of firing voltage increase. In this paper, the discharge characteristic of high Xe and high γ PDP has been analyzed by both of experiments and simulation.

“…One of disvantage of using high Xe content with conventional MgO is the increase of discharging voltage which lead the increase of circuit cost and difficulty to drive the panel. Many materials such as SrO、 MgO-NiO、 MgO-TiO2、 MgO-ZnO、 Mg-Zr-O which have high secondary electron emission induced by Xe ions have been studied [4][5][6][7][8][9]. But CMO is one of the best candidates to replace conventional MgO as the protective layer of PDP[10] [11].…”

13.3: CaMgO(CMO) Film Properties Study

“…One of disvantage of using high Xe content with conventional MgO is the increase of discharging voltage which lead the increase of circuit cost and difficulty to drive the panel. Many materials such as SrO、 MgO-NiO、 MgO-TiO2、 MgO-ZnO、 Mg-Zr-O which have high secondary electron emission induced by Xe ions have been studied [4][5][6][7][8][9]. But CMO is one of the best candidates to replace conventional MgO as the protective layer of PDP[10] [11].…”

13.3: CaMgO(CMO) Film Properties Study