| NO | Item | Rating |
|---|---|---|
| 1 | ITO Electrode (Maintain /Scanning Electrode) | Within discharge cell, it causes discharge and maintains it. Visible light transmissivity should be high. The lower the electrode resistance, the better. |
| 2 | BUS Electrode | Relatively large resistance value compensation of transparent electrode ¡æ The same voltage supply in all(mostly) discharge cell |
| 3 | Transparent Dielectric | Discharge current constraint ¡æ Glow discharge maintenance Wall charge accumulation ¡æ Memory function, voltage decrease Required SPEC. : High internal voltage, high visible light transmissivity |
| 4 | Protective layer (MgO) | Transparent dielectric layer protection from ion collision Secondary electron release ¡æ Discharge voltage decrease |
| 5 | Address Electrode | The lower the electrode resistance, the better |
| 6 | Lower Board Dielectric Layer | Address electrode protection, high insulation destruction strength, and high light transmissivity are advantageous |
| 7 | Barrier Rib | A certain space for discharge should be insured in each discharge cell and RGB phosphors should be isolated not to be mixed. A fixed height should be formed over the whole area. Black layer on top: To increase Contrast |
| 8 | Phosphor Layer | It receives (vacuum) ultraviolet rays generated through discharge and transforms or releases them into (each RGB) visible rays. Excellent light transformation efficiency ¡æ High brightness(In particular , B) Excellent color purity ¡æ High color reproducibility provided For the improvement of discharge efficiency, high efficiency phosphor development is required. |
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