Abstract

When displaying a square-type image with peak luminance for approximately 500 h in a 42 in. plasma display panel TV with high Xe (15%) content, halo-type boundary image sticking was observed in the nondischarge region adjacent to the discharge region. The halo-type boundary image sticking phenomenon is due mainly to the redeposit of the Mg species on the MgO layer in the nondischarge region adjacent to the discharge region, which is verified by measuring the redeposited Mg species in the boundary image sticking region using a cross-sectional scanning electron microscope. Based on this result, three kinds of solution to remove the boundary image sticking of an ac plasma display panel are introduced. First, we completely recover the boundary image sticking cells by using a full-white aging process. Second, we prohibit the inherent production of boundary image sticking by sealing the plasma display panel under vacuum. The final solution is to prohibit the inherent production of boundary image sticking by use of lower gas pressure.

© 2009 Optical Society of America

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  1. H.-S. Tae, C.-S. Park, B.-G. Cho, J.-W. Han, B. J. Shin, S.-I. Chien, and D. H. Lee, “Driving waveform for reducing temporal dark image sticking in AC plasma display panel based on perceived luminance,” IEEE Trans. Plasma Sci. 34, 996-1003(2006).
    [CrossRef]
  2. H.-S. Tae, J.-W. Han, S.-H. Jang, B.-N. Kim, B. J. Shin, B.-G. Cho, and S.-I. Chien, “Experimental observation of image sticking phenomenon in AC plasma display panel,” IEEE Trans. Plasma Sci. 32, 2189-2196 (2004).
    [CrossRef]
  3. J.-W. Han, H.-S. Tae, B. J. Shin, S.-I. Chien, and D. H. Lee, “Experimental observation of temperature-dependent characteristics for temporal dark boundary image sticking in 42 in. AC-plasma display panel,” IEEE Trans. Plasma Sci. 34, 324-330 (2006).
    [CrossRef]
  4. J. H. Kim, C.-S. Park, B.-S. Kim, K.-H. Park, and H.-S. Tae, “Comparison of temporal dark image sticking produced by face-to-face and coplanar sustain electrode structures,” J. Inf. Disp. 8, 29-33 (2007).
    [CrossRef]
  5. C.-S. Park, B.-G. Cho, and H.-S. Tae, “Reduction of the temporal bright-image sticking in AC-PDP modules using the vacuum sealing method,” J. Inf. Disp. 9, 39-44 (2008).
    [CrossRef]
  6. C.-S. Park, H.-S. Tae, Y.-K. Kwon, and E. G. Heo, “Experimental observation of halo-type boundary image sticking in AC plasma display panel,” IEEE Trans. Electron. Devices 54, 1315-1320 (2007).
    [CrossRef]
  7. C.-S. Park, H.-S. Tae, Y.-K. Kwon, and E. G. Heo, “Recovery of boundary image sticking using aging discharge in AC plasma display panel,” IEEE Trans. Plasma Sci. 35, 1511-1517(2007).
    [CrossRef]
  8. C.-S. Park, H.-S. Tae, Y.-K. Kwon, E. G. Heo, and B.-H. Lee, “Prevention of boundary image sticking in AC plasma display panel using vacuum sealing process,” IEEE Trans. Electron. Devices 55, 1345-1351 (2008).
    [CrossRef]
  9. C.-S. Park and H.-S. Tae, “A study on temporal dark image sticking in AC-PDP using vacuum-sealing method,” IEICE Trans. Electron. E92-C, 161-165 (2009).
    [CrossRef]
  10. C.-S. Park, S.-K. Jang, J.-H. Kim, H.-S. Tae, E.-Y. Jung, J.-C. Ahn, and E. G. Heo, “Influence of temporal and permanent image sticking characteristics under variable panel working gas pressure in 42 in. AC-PDPs,” in Proceedings of the International Meetings on Information Display/International Display Manufacturing Conference (Korean Information Display Society, 2008), pp. 1617-1620.
    [PubMed]
  11. T. Kosaka, K. Sakita, and K. Betsui, “Firing voltage fluctuation phenomenon caused by gas density nonuniformity in PDPs,” in Proceedings of the International Display Workshops (Institute of Image Information and Television Engineers, 2005), pp. 1469-1472.
  12. M. J. Jeon, M. S. Chung, S. C. Lee, K. S. Lee, J. S. Kim, and B. K. Kang, “Influence of wall charge on image sticking phenomena in AC plasma display panels,” Displays 30, 39-43(2009).
    [CrossRef]
  13. L. C. Pitchford, J. Wang, D. Piscitelli, and J.-P. Boeuf, “Ion and neutral energy distribution to the MgO surface and sputtering rates in plasma display panel cells,” IEEE Trans. Plasma Sci. 34, 351-359 (2006).
    [CrossRef]
  14. S. J. Kwon and C.-K. Jang, “Effects of base vacuum level on discharge characteristics in vacuum in-line sealing process for high efficient PDP,” J. Inf. Disp. 5, 7-11 (2004).
    [CrossRef]
  15. D.-J. Lee, S.-I. Moon, Y.-H. Lee, and B.-K. Ju, “Vacuum in-line packing technology of AC-PDP using direct-joint method,” in Proceedings of the International Meeting on Information Display (Korean Information Display Society, 2001), pp. 495-498.
  16. K. Uchida, G. Uchida, T. kurauchi, T. Terasawa, H. Kajiyama, and T. Shinoda, “Evaluation of discharge voltage in AC-PDP manufactured under the vacuum condition after MgO deposition,” in Proceedings of the International Display Workshops (Institute of Image Information and Television Engineers, 2006), pp. 347-350.
  17. C.-S. Park, H.-S. Tae, Y.-K. Kwon, and E. G. Heo, “Discharge characteristics of AC plasma display panel prepared using vacuum sealing method,” IEEE Trans. Plasma Sci. 36, 1925-1929 (2008).
    [CrossRef]

2009 (2)

C.-S. Park and H.-S. Tae, “A study on temporal dark image sticking in AC-PDP using vacuum-sealing method,” IEICE Trans. Electron. E92-C, 161-165 (2009).
[CrossRef]

M. J. Jeon, M. S. Chung, S. C. Lee, K. S. Lee, J. S. Kim, and B. K. Kang, “Influence of wall charge on image sticking phenomena in AC plasma display panels,” Displays 30, 39-43(2009).
[CrossRef]

2008 (3)

C.-S. Park, B.-G. Cho, and H.-S. Tae, “Reduction of the temporal bright-image sticking in AC-PDP modules using the vacuum sealing method,” J. Inf. Disp. 9, 39-44 (2008).
[CrossRef]

C.-S. Park, H.-S. Tae, Y.-K. Kwon, E. G. Heo, and B.-H. Lee, “Prevention of boundary image sticking in AC plasma display panel using vacuum sealing process,” IEEE Trans. Electron. Devices 55, 1345-1351 (2008).
[CrossRef]

C.-S. Park, H.-S. Tae, Y.-K. Kwon, and E. G. Heo, “Discharge characteristics of AC plasma display panel prepared using vacuum sealing method,” IEEE Trans. Plasma Sci. 36, 1925-1929 (2008).
[CrossRef]

2007 (3)

C.-S. Park, H.-S. Tae, Y.-K. Kwon, and E. G. Heo, “Experimental observation of halo-type boundary image sticking in AC plasma display panel,” IEEE Trans. Electron. Devices 54, 1315-1320 (2007).
[CrossRef]

C.-S. Park, H.-S. Tae, Y.-K. Kwon, and E. G. Heo, “Recovery of boundary image sticking using aging discharge in AC plasma display panel,” IEEE Trans. Plasma Sci. 35, 1511-1517(2007).
[CrossRef]

J. H. Kim, C.-S. Park, B.-S. Kim, K.-H. Park, and H.-S. Tae, “Comparison of temporal dark image sticking produced by face-to-face and coplanar sustain electrode structures,” J. Inf. Disp. 8, 29-33 (2007).
[CrossRef]

2006 (3)

J.-W. Han, H.-S. Tae, B. J. Shin, S.-I. Chien, and D. H. Lee, “Experimental observation of temperature-dependent characteristics for temporal dark boundary image sticking in 42 in. AC-plasma display panel,” IEEE Trans. Plasma Sci. 34, 324-330 (2006).
[CrossRef]

H.-S. Tae, C.-S. Park, B.-G. Cho, J.-W. Han, B. J. Shin, S.-I. Chien, and D. H. Lee, “Driving waveform for reducing temporal dark image sticking in AC plasma display panel based on perceived luminance,” IEEE Trans. Plasma Sci. 34, 996-1003(2006).
[CrossRef]

L. C. Pitchford, J. Wang, D. Piscitelli, and J.-P. Boeuf, “Ion and neutral energy distribution to the MgO surface and sputtering rates in plasma display panel cells,” IEEE Trans. Plasma Sci. 34, 351-359 (2006).
[CrossRef]

2004 (2)

S. J. Kwon and C.-K. Jang, “Effects of base vacuum level on discharge characteristics in vacuum in-line sealing process for high efficient PDP,” J. Inf. Disp. 5, 7-11 (2004).
[CrossRef]

H.-S. Tae, J.-W. Han, S.-H. Jang, B.-N. Kim, B. J. Shin, B.-G. Cho, and S.-I. Chien, “Experimental observation of image sticking phenomenon in AC plasma display panel,” IEEE Trans. Plasma Sci. 32, 2189-2196 (2004).
[CrossRef]

Ahn, J.-C.

C.-S. Park, S.-K. Jang, J.-H. Kim, H.-S. Tae, E.-Y. Jung, J.-C. Ahn, and E. G. Heo, “Influence of temporal and permanent image sticking characteristics under variable panel working gas pressure in 42 in. AC-PDPs,” in Proceedings of the International Meetings on Information Display/International Display Manufacturing Conference (Korean Information Display Society, 2008), pp. 1617-1620.
[PubMed]

Betsui, K.

T. Kosaka, K. Sakita, and K. Betsui, “Firing voltage fluctuation phenomenon caused by gas density nonuniformity in PDPs,” in Proceedings of the International Display Workshops (Institute of Image Information and Television Engineers, 2005), pp. 1469-1472.

Boeuf, J.-P.

L. C. Pitchford, J. Wang, D. Piscitelli, and J.-P. Boeuf, “Ion and neutral energy distribution to the MgO surface and sputtering rates in plasma display panel cells,” IEEE Trans. Plasma Sci. 34, 351-359 (2006).
[CrossRef]

Chien, S.-I.

H.-S. Tae, C.-S. Park, B.-G. Cho, J.-W. Han, B. J. Shin, S.-I. Chien, and D. H. Lee, “Driving waveform for reducing temporal dark image sticking in AC plasma display panel based on perceived luminance,” IEEE Trans. Plasma Sci. 34, 996-1003(2006).
[CrossRef]

J.-W. Han, H.-S. Tae, B. J. Shin, S.-I. Chien, and D. H. Lee, “Experimental observation of temperature-dependent characteristics for temporal dark boundary image sticking in 42 in. AC-plasma display panel,” IEEE Trans. Plasma Sci. 34, 324-330 (2006).
[CrossRef]

H.-S. Tae, J.-W. Han, S.-H. Jang, B.-N. Kim, B. J. Shin, B.-G. Cho, and S.-I. Chien, “Experimental observation of image sticking phenomenon in AC plasma display panel,” IEEE Trans. Plasma Sci. 32, 2189-2196 (2004).
[CrossRef]

Cho, B.-G.

C.-S. Park, B.-G. Cho, and H.-S. Tae, “Reduction of the temporal bright-image sticking in AC-PDP modules using the vacuum sealing method,” J. Inf. Disp. 9, 39-44 (2008).
[CrossRef]

H.-S. Tae, C.-S. Park, B.-G. Cho, J.-W. Han, B. J. Shin, S.-I. Chien, and D. H. Lee, “Driving waveform for reducing temporal dark image sticking in AC plasma display panel based on perceived luminance,” IEEE Trans. Plasma Sci. 34, 996-1003(2006).
[CrossRef]

H.-S. Tae, J.-W. Han, S.-H. Jang, B.-N. Kim, B. J. Shin, B.-G. Cho, and S.-I. Chien, “Experimental observation of image sticking phenomenon in AC plasma display panel,” IEEE Trans. Plasma Sci. 32, 2189-2196 (2004).
[CrossRef]

Chung, M. S.

M. J. Jeon, M. S. Chung, S. C. Lee, K. S. Lee, J. S. Kim, and B. K. Kang, “Influence of wall charge on image sticking phenomena in AC plasma display panels,” Displays 30, 39-43(2009).
[CrossRef]

Han, J.-W.

J.-W. Han, H.-S. Tae, B. J. Shin, S.-I. Chien, and D. H. Lee, “Experimental observation of temperature-dependent characteristics for temporal dark boundary image sticking in 42 in. AC-plasma display panel,” IEEE Trans. Plasma Sci. 34, 324-330 (2006).
[CrossRef]

H.-S. Tae, C.-S. Park, B.-G. Cho, J.-W. Han, B. J. Shin, S.-I. Chien, and D. H. Lee, “Driving waveform for reducing temporal dark image sticking in AC plasma display panel based on perceived luminance,” IEEE Trans. Plasma Sci. 34, 996-1003(2006).
[CrossRef]

H.-S. Tae, J.-W. Han, S.-H. Jang, B.-N. Kim, B. J. Shin, B.-G. Cho, and S.-I. Chien, “Experimental observation of image sticking phenomenon in AC plasma display panel,” IEEE Trans. Plasma Sci. 32, 2189-2196 (2004).
[CrossRef]

Heo, E. G.

C.-S. Park, H.-S. Tae, Y.-K. Kwon, E. G. Heo, and B.-H. Lee, “Prevention of boundary image sticking in AC plasma display panel using vacuum sealing process,” IEEE Trans. Electron. Devices 55, 1345-1351 (2008).
[CrossRef]

C.-S. Park, H.-S. Tae, Y.-K. Kwon, and E. G. Heo, “Discharge characteristics of AC plasma display panel prepared using vacuum sealing method,” IEEE Trans. Plasma Sci. 36, 1925-1929 (2008).
[CrossRef]

C.-S. Park, H.-S. Tae, Y.-K. Kwon, and E. G. Heo, “Experimental observation of halo-type boundary image sticking in AC plasma display panel,” IEEE Trans. Electron. Devices 54, 1315-1320 (2007).
[CrossRef]

C.-S. Park, H.-S. Tae, Y.-K. Kwon, and E. G. Heo, “Recovery of boundary image sticking using aging discharge in AC plasma display panel,” IEEE Trans. Plasma Sci. 35, 1511-1517(2007).
[CrossRef]

C.-S. Park, S.-K. Jang, J.-H. Kim, H.-S. Tae, E.-Y. Jung, J.-C. Ahn, and E. G. Heo, “Influence of temporal and permanent image sticking characteristics under variable panel working gas pressure in 42 in. AC-PDPs,” in Proceedings of the International Meetings on Information Display/International Display Manufacturing Conference (Korean Information Display Society, 2008), pp. 1617-1620.
[PubMed]

Jang, C.-K.

S. J. Kwon and C.-K. Jang, “Effects of base vacuum level on discharge characteristics in vacuum in-line sealing process for high efficient PDP,” J. Inf. Disp. 5, 7-11 (2004).
[CrossRef]

Jang, S.-H.

H.-S. Tae, J.-W. Han, S.-H. Jang, B.-N. Kim, B. J. Shin, B.-G. Cho, and S.-I. Chien, “Experimental observation of image sticking phenomenon in AC plasma display panel,” IEEE Trans. Plasma Sci. 32, 2189-2196 (2004).
[CrossRef]

Jang, S.-K.

C.-S. Park, S.-K. Jang, J.-H. Kim, H.-S. Tae, E.-Y. Jung, J.-C. Ahn, and E. G. Heo, “Influence of temporal and permanent image sticking characteristics under variable panel working gas pressure in 42 in. AC-PDPs,” in Proceedings of the International Meetings on Information Display/International Display Manufacturing Conference (Korean Information Display Society, 2008), pp. 1617-1620.
[PubMed]

Jeon, M. J.

M. J. Jeon, M. S. Chung, S. C. Lee, K. S. Lee, J. S. Kim, and B. K. Kang, “Influence of wall charge on image sticking phenomena in AC plasma display panels,” Displays 30, 39-43(2009).
[CrossRef]

Ju, B.-K.

D.-J. Lee, S.-I. Moon, Y.-H. Lee, and B.-K. Ju, “Vacuum in-line packing technology of AC-PDP using direct-joint method,” in Proceedings of the International Meeting on Information Display (Korean Information Display Society, 2001), pp. 495-498.

Jung, E.-Y.

C.-S. Park, S.-K. Jang, J.-H. Kim, H.-S. Tae, E.-Y. Jung, J.-C. Ahn, and E. G. Heo, “Influence of temporal and permanent image sticking characteristics under variable panel working gas pressure in 42 in. AC-PDPs,” in Proceedings of the International Meetings on Information Display/International Display Manufacturing Conference (Korean Information Display Society, 2008), pp. 1617-1620.
[PubMed]

Kajiyama, H.

K. Uchida, G. Uchida, T. kurauchi, T. Terasawa, H. Kajiyama, and T. Shinoda, “Evaluation of discharge voltage in AC-PDP manufactured under the vacuum condition after MgO deposition,” in Proceedings of the International Display Workshops (Institute of Image Information and Television Engineers, 2006), pp. 347-350.

Kang, B. K.

M. J. Jeon, M. S. Chung, S. C. Lee, K. S. Lee, J. S. Kim, and B. K. Kang, “Influence of wall charge on image sticking phenomena in AC plasma display panels,” Displays 30, 39-43(2009).
[CrossRef]

Kim, B.-N.

H.-S. Tae, J.-W. Han, S.-H. Jang, B.-N. Kim, B. J. Shin, B.-G. Cho, and S.-I. Chien, “Experimental observation of image sticking phenomenon in AC plasma display panel,” IEEE Trans. Plasma Sci. 32, 2189-2196 (2004).
[CrossRef]

Kim, B.-S.

J. H. Kim, C.-S. Park, B.-S. Kim, K.-H. Park, and H.-S. Tae, “Comparison of temporal dark image sticking produced by face-to-face and coplanar sustain electrode structures,” J. Inf. Disp. 8, 29-33 (2007).
[CrossRef]

Kim, J. H.

J. H. Kim, C.-S. Park, B.-S. Kim, K.-H. Park, and H.-S. Tae, “Comparison of temporal dark image sticking produced by face-to-face and coplanar sustain electrode structures,” J. Inf. Disp. 8, 29-33 (2007).
[CrossRef]

Kim, J. S.

M. J. Jeon, M. S. Chung, S. C. Lee, K. S. Lee, J. S. Kim, and B. K. Kang, “Influence of wall charge on image sticking phenomena in AC plasma display panels,” Displays 30, 39-43(2009).
[CrossRef]

Kim, J.-H.

C.-S. Park, S.-K. Jang, J.-H. Kim, H.-S. Tae, E.-Y. Jung, J.-C. Ahn, and E. G. Heo, “Influence of temporal and permanent image sticking characteristics under variable panel working gas pressure in 42 in. AC-PDPs,” in Proceedings of the International Meetings on Information Display/International Display Manufacturing Conference (Korean Information Display Society, 2008), pp. 1617-1620.
[PubMed]

Kosaka, T.

T. Kosaka, K. Sakita, and K. Betsui, “Firing voltage fluctuation phenomenon caused by gas density nonuniformity in PDPs,” in Proceedings of the International Display Workshops (Institute of Image Information and Television Engineers, 2005), pp. 1469-1472.

kurauchi, T.

K. Uchida, G. Uchida, T. kurauchi, T. Terasawa, H. Kajiyama, and T. Shinoda, “Evaluation of discharge voltage in AC-PDP manufactured under the vacuum condition after MgO deposition,” in Proceedings of the International Display Workshops (Institute of Image Information and Television Engineers, 2006), pp. 347-350.

Kwon, S. J.

S. J. Kwon and C.-K. Jang, “Effects of base vacuum level on discharge characteristics in vacuum in-line sealing process for high efficient PDP,” J. Inf. Disp. 5, 7-11 (2004).
[CrossRef]

Kwon, Y.-K.

C.-S. Park, H.-S. Tae, Y.-K. Kwon, E. G. Heo, and B.-H. Lee, “Prevention of boundary image sticking in AC plasma display panel using vacuum sealing process,” IEEE Trans. Electron. Devices 55, 1345-1351 (2008).
[CrossRef]

C.-S. Park, H.-S. Tae, Y.-K. Kwon, and E. G. Heo, “Discharge characteristics of AC plasma display panel prepared using vacuum sealing method,” IEEE Trans. Plasma Sci. 36, 1925-1929 (2008).
[CrossRef]

C.-S. Park, H.-S. Tae, Y.-K. Kwon, and E. G. Heo, “Recovery of boundary image sticking using aging discharge in AC plasma display panel,” IEEE Trans. Plasma Sci. 35, 1511-1517(2007).
[CrossRef]

C.-S. Park, H.-S. Tae, Y.-K. Kwon, and E. G. Heo, “Experimental observation of halo-type boundary image sticking in AC plasma display panel,” IEEE Trans. Electron. Devices 54, 1315-1320 (2007).
[CrossRef]

Lee, B.-H.

C.-S. Park, H.-S. Tae, Y.-K. Kwon, E. G. Heo, and B.-H. Lee, “Prevention of boundary image sticking in AC plasma display panel using vacuum sealing process,” IEEE Trans. Electron. Devices 55, 1345-1351 (2008).
[CrossRef]

Lee, D. H.

H.-S. Tae, C.-S. Park, B.-G. Cho, J.-W. Han, B. J. Shin, S.-I. Chien, and D. H. Lee, “Driving waveform for reducing temporal dark image sticking in AC plasma display panel based on perceived luminance,” IEEE Trans. Plasma Sci. 34, 996-1003(2006).
[CrossRef]

J.-W. Han, H.-S. Tae, B. J. Shin, S.-I. Chien, and D. H. Lee, “Experimental observation of temperature-dependent characteristics for temporal dark boundary image sticking in 42 in. AC-plasma display panel,” IEEE Trans. Plasma Sci. 34, 324-330 (2006).
[CrossRef]

Lee, D.-J.

D.-J. Lee, S.-I. Moon, Y.-H. Lee, and B.-K. Ju, “Vacuum in-line packing technology of AC-PDP using direct-joint method,” in Proceedings of the International Meeting on Information Display (Korean Information Display Society, 2001), pp. 495-498.

Lee, K. S.

M. J. Jeon, M. S. Chung, S. C. Lee, K. S. Lee, J. S. Kim, and B. K. Kang, “Influence of wall charge on image sticking phenomena in AC plasma display panels,” Displays 30, 39-43(2009).
[CrossRef]

Lee, S. C.

M. J. Jeon, M. S. Chung, S. C. Lee, K. S. Lee, J. S. Kim, and B. K. Kang, “Influence of wall charge on image sticking phenomena in AC plasma display panels,” Displays 30, 39-43(2009).
[CrossRef]

Lee, Y.-H.

D.-J. Lee, S.-I. Moon, Y.-H. Lee, and B.-K. Ju, “Vacuum in-line packing technology of AC-PDP using direct-joint method,” in Proceedings of the International Meeting on Information Display (Korean Information Display Society, 2001), pp. 495-498.

Moon, S.-I.

D.-J. Lee, S.-I. Moon, Y.-H. Lee, and B.-K. Ju, “Vacuum in-line packing technology of AC-PDP using direct-joint method,” in Proceedings of the International Meeting on Information Display (Korean Information Display Society, 2001), pp. 495-498.

Park, C.-S.

C.-S. Park and H.-S. Tae, “A study on temporal dark image sticking in AC-PDP using vacuum-sealing method,” IEICE Trans. Electron. E92-C, 161-165 (2009).
[CrossRef]

C.-S. Park, B.-G. Cho, and H.-S. Tae, “Reduction of the temporal bright-image sticking in AC-PDP modules using the vacuum sealing method,” J. Inf. Disp. 9, 39-44 (2008).
[CrossRef]

C.-S. Park, H.-S. Tae, Y.-K. Kwon, E. G. Heo, and B.-H. Lee, “Prevention of boundary image sticking in AC plasma display panel using vacuum sealing process,” IEEE Trans. Electron. Devices 55, 1345-1351 (2008).
[CrossRef]

C.-S. Park, H.-S. Tae, Y.-K. Kwon, and E. G. Heo, “Discharge characteristics of AC plasma display panel prepared using vacuum sealing method,” IEEE Trans. Plasma Sci. 36, 1925-1929 (2008).
[CrossRef]

C.-S. Park, H.-S. Tae, Y.-K. Kwon, and E. G. Heo, “Recovery of boundary image sticking using aging discharge in AC plasma display panel,” IEEE Trans. Plasma Sci. 35, 1511-1517(2007).
[CrossRef]

J. H. Kim, C.-S. Park, B.-S. Kim, K.-H. Park, and H.-S. Tae, “Comparison of temporal dark image sticking produced by face-to-face and coplanar sustain electrode structures,” J. Inf. Disp. 8, 29-33 (2007).
[CrossRef]

C.-S. Park, H.-S. Tae, Y.-K. Kwon, and E. G. Heo, “Experimental observation of halo-type boundary image sticking in AC plasma display panel,” IEEE Trans. Electron. Devices 54, 1315-1320 (2007).
[CrossRef]

H.-S. Tae, C.-S. Park, B.-G. Cho, J.-W. Han, B. J. Shin, S.-I. Chien, and D. H. Lee, “Driving waveform for reducing temporal dark image sticking in AC plasma display panel based on perceived luminance,” IEEE Trans. Plasma Sci. 34, 996-1003(2006).
[CrossRef]

C.-S. Park, S.-K. Jang, J.-H. Kim, H.-S. Tae, E.-Y. Jung, J.-C. Ahn, and E. G. Heo, “Influence of temporal and permanent image sticking characteristics under variable panel working gas pressure in 42 in. AC-PDPs,” in Proceedings of the International Meetings on Information Display/International Display Manufacturing Conference (Korean Information Display Society, 2008), pp. 1617-1620.
[PubMed]

Park, K.-H.

J. H. Kim, C.-S. Park, B.-S. Kim, K.-H. Park, and H.-S. Tae, “Comparison of temporal dark image sticking produced by face-to-face and coplanar sustain electrode structures,” J. Inf. Disp. 8, 29-33 (2007).
[CrossRef]

Piscitelli, D.

L. C. Pitchford, J. Wang, D. Piscitelli, and J.-P. Boeuf, “Ion and neutral energy distribution to the MgO surface and sputtering rates in plasma display panel cells,” IEEE Trans. Plasma Sci. 34, 351-359 (2006).
[CrossRef]

Pitchford, L. C.

L. C. Pitchford, J. Wang, D. Piscitelli, and J.-P. Boeuf, “Ion and neutral energy distribution to the MgO surface and sputtering rates in plasma display panel cells,” IEEE Trans. Plasma Sci. 34, 351-359 (2006).
[CrossRef]

Sakita, K.

T. Kosaka, K. Sakita, and K. Betsui, “Firing voltage fluctuation phenomenon caused by gas density nonuniformity in PDPs,” in Proceedings of the International Display Workshops (Institute of Image Information and Television Engineers, 2005), pp. 1469-1472.

Shin, B. J.

H.-S. Tae, C.-S. Park, B.-G. Cho, J.-W. Han, B. J. Shin, S.-I. Chien, and D. H. Lee, “Driving waveform for reducing temporal dark image sticking in AC plasma display panel based on perceived luminance,” IEEE Trans. Plasma Sci. 34, 996-1003(2006).
[CrossRef]

J.-W. Han, H.-S. Tae, B. J. Shin, S.-I. Chien, and D. H. Lee, “Experimental observation of temperature-dependent characteristics for temporal dark boundary image sticking in 42 in. AC-plasma display panel,” IEEE Trans. Plasma Sci. 34, 324-330 (2006).
[CrossRef]

H.-S. Tae, J.-W. Han, S.-H. Jang, B.-N. Kim, B. J. Shin, B.-G. Cho, and S.-I. Chien, “Experimental observation of image sticking phenomenon in AC plasma display panel,” IEEE Trans. Plasma Sci. 32, 2189-2196 (2004).
[CrossRef]

Shinoda, T.

K. Uchida, G. Uchida, T. kurauchi, T. Terasawa, H. Kajiyama, and T. Shinoda, “Evaluation of discharge voltage in AC-PDP manufactured under the vacuum condition after MgO deposition,” in Proceedings of the International Display Workshops (Institute of Image Information and Television Engineers, 2006), pp. 347-350.

Tae, H.-S.

C.-S. Park and H.-S. Tae, “A study on temporal dark image sticking in AC-PDP using vacuum-sealing method,” IEICE Trans. Electron. E92-C, 161-165 (2009).
[CrossRef]

C.-S. Park, B.-G. Cho, and H.-S. Tae, “Reduction of the temporal bright-image sticking in AC-PDP modules using the vacuum sealing method,” J. Inf. Disp. 9, 39-44 (2008).
[CrossRef]

C.-S. Park, H.-S. Tae, Y.-K. Kwon, E. G. Heo, and B.-H. Lee, “Prevention of boundary image sticking in AC plasma display panel using vacuum sealing process,” IEEE Trans. Electron. Devices 55, 1345-1351 (2008).
[CrossRef]

C.-S. Park, H.-S. Tae, Y.-K. Kwon, and E. G. Heo, “Discharge characteristics of AC plasma display panel prepared using vacuum sealing method,” IEEE Trans. Plasma Sci. 36, 1925-1929 (2008).
[CrossRef]

C.-S. Park, H.-S. Tae, Y.-K. Kwon, and E. G. Heo, “Recovery of boundary image sticking using aging discharge in AC plasma display panel,” IEEE Trans. Plasma Sci. 35, 1511-1517(2007).
[CrossRef]

C.-S. Park, H.-S. Tae, Y.-K. Kwon, and E. G. Heo, “Experimental observation of halo-type boundary image sticking in AC plasma display panel,” IEEE Trans. Electron. Devices 54, 1315-1320 (2007).
[CrossRef]

J. H. Kim, C.-S. Park, B.-S. Kim, K.-H. Park, and H.-S. Tae, “Comparison of temporal dark image sticking produced by face-to-face and coplanar sustain electrode structures,” J. Inf. Disp. 8, 29-33 (2007).
[CrossRef]

H.-S. Tae, C.-S. Park, B.-G. Cho, J.-W. Han, B. J. Shin, S.-I. Chien, and D. H. Lee, “Driving waveform for reducing temporal dark image sticking in AC plasma display panel based on perceived luminance,” IEEE Trans. Plasma Sci. 34, 996-1003(2006).
[CrossRef]

J.-W. Han, H.-S. Tae, B. J. Shin, S.-I. Chien, and D. H. Lee, “Experimental observation of temperature-dependent characteristics for temporal dark boundary image sticking in 42 in. AC-plasma display panel,” IEEE Trans. Plasma Sci. 34, 324-330 (2006).
[CrossRef]

H.-S. Tae, J.-W. Han, S.-H. Jang, B.-N. Kim, B. J. Shin, B.-G. Cho, and S.-I. Chien, “Experimental observation of image sticking phenomenon in AC plasma display panel,” IEEE Trans. Plasma Sci. 32, 2189-2196 (2004).
[CrossRef]

C.-S. Park, S.-K. Jang, J.-H. Kim, H.-S. Tae, E.-Y. Jung, J.-C. Ahn, and E. G. Heo, “Influence of temporal and permanent image sticking characteristics under variable panel working gas pressure in 42 in. AC-PDPs,” in Proceedings of the International Meetings on Information Display/International Display Manufacturing Conference (Korean Information Display Society, 2008), pp. 1617-1620.
[PubMed]

Terasawa, T.

K. Uchida, G. Uchida, T. kurauchi, T. Terasawa, H. Kajiyama, and T. Shinoda, “Evaluation of discharge voltage in AC-PDP manufactured under the vacuum condition after MgO deposition,” in Proceedings of the International Display Workshops (Institute of Image Information and Television Engineers, 2006), pp. 347-350.

Uchida, G.

K. Uchida, G. Uchida, T. kurauchi, T. Terasawa, H. Kajiyama, and T. Shinoda, “Evaluation of discharge voltage in AC-PDP manufactured under the vacuum condition after MgO deposition,” in Proceedings of the International Display Workshops (Institute of Image Information and Television Engineers, 2006), pp. 347-350.

Uchida, K.

K. Uchida, G. Uchida, T. kurauchi, T. Terasawa, H. Kajiyama, and T. Shinoda, “Evaluation of discharge voltage in AC-PDP manufactured under the vacuum condition after MgO deposition,” in Proceedings of the International Display Workshops (Institute of Image Information and Television Engineers, 2006), pp. 347-350.

Wang, J.

L. C. Pitchford, J. Wang, D. Piscitelli, and J.-P. Boeuf, “Ion and neutral energy distribution to the MgO surface and sputtering rates in plasma display panel cells,” IEEE Trans. Plasma Sci. 34, 351-359 (2006).
[CrossRef]

Displays (1)

M. J. Jeon, M. S. Chung, S. C. Lee, K. S. Lee, J. S. Kim, and B. K. Kang, “Influence of wall charge on image sticking phenomena in AC plasma display panels,” Displays 30, 39-43(2009).
[CrossRef]

IEEE Trans. Electron. Devices (2)

C.-S. Park, H.-S. Tae, Y.-K. Kwon, and E. G. Heo, “Experimental observation of halo-type boundary image sticking in AC plasma display panel,” IEEE Trans. Electron. Devices 54, 1315-1320 (2007).
[CrossRef]

C.-S. Park, H.-S. Tae, Y.-K. Kwon, E. G. Heo, and B.-H. Lee, “Prevention of boundary image sticking in AC plasma display panel using vacuum sealing process,” IEEE Trans. Electron. Devices 55, 1345-1351 (2008).
[CrossRef]

IEEE Trans. Plasma Sci. (6)

H.-S. Tae, C.-S. Park, B.-G. Cho, J.-W. Han, B. J. Shin, S.-I. Chien, and D. H. Lee, “Driving waveform for reducing temporal dark image sticking in AC plasma display panel based on perceived luminance,” IEEE Trans. Plasma Sci. 34, 996-1003(2006).
[CrossRef]

H.-S. Tae, J.-W. Han, S.-H. Jang, B.-N. Kim, B. J. Shin, B.-G. Cho, and S.-I. Chien, “Experimental observation of image sticking phenomenon in AC plasma display panel,” IEEE Trans. Plasma Sci. 32, 2189-2196 (2004).
[CrossRef]

J.-W. Han, H.-S. Tae, B. J. Shin, S.-I. Chien, and D. H. Lee, “Experimental observation of temperature-dependent characteristics for temporal dark boundary image sticking in 42 in. AC-plasma display panel,” IEEE Trans. Plasma Sci. 34, 324-330 (2006).
[CrossRef]

C.-S. Park, H.-S. Tae, Y.-K. Kwon, and E. G. Heo, “Recovery of boundary image sticking using aging discharge in AC plasma display panel,” IEEE Trans. Plasma Sci. 35, 1511-1517(2007).
[CrossRef]

C.-S. Park, H.-S. Tae, Y.-K. Kwon, and E. G. Heo, “Discharge characteristics of AC plasma display panel prepared using vacuum sealing method,” IEEE Trans. Plasma Sci. 36, 1925-1929 (2008).
[CrossRef]

L. C. Pitchford, J. Wang, D. Piscitelli, and J.-P. Boeuf, “Ion and neutral energy distribution to the MgO surface and sputtering rates in plasma display panel cells,” IEEE Trans. Plasma Sci. 34, 351-359 (2006).
[CrossRef]

IEICE Trans. Electron. (1)

C.-S. Park and H.-S. Tae, “A study on temporal dark image sticking in AC-PDP using vacuum-sealing method,” IEICE Trans. Electron. E92-C, 161-165 (2009).
[CrossRef]

J. Inf. Disp. (3)

J. H. Kim, C.-S. Park, B.-S. Kim, K.-H. Park, and H.-S. Tae, “Comparison of temporal dark image sticking produced by face-to-face and coplanar sustain electrode structures,” J. Inf. Disp. 8, 29-33 (2007).
[CrossRef]

C.-S. Park, B.-G. Cho, and H.-S. Tae, “Reduction of the temporal bright-image sticking in AC-PDP modules using the vacuum sealing method,” J. Inf. Disp. 9, 39-44 (2008).
[CrossRef]

S. J. Kwon and C.-K. Jang, “Effects of base vacuum level on discharge characteristics in vacuum in-line sealing process for high efficient PDP,” J. Inf. Disp. 5, 7-11 (2004).
[CrossRef]

Other (4)

D.-J. Lee, S.-I. Moon, Y.-H. Lee, and B.-K. Ju, “Vacuum in-line packing technology of AC-PDP using direct-joint method,” in Proceedings of the International Meeting on Information Display (Korean Information Display Society, 2001), pp. 495-498.

K. Uchida, G. Uchida, T. kurauchi, T. Terasawa, H. Kajiyama, and T. Shinoda, “Evaluation of discharge voltage in AC-PDP manufactured under the vacuum condition after MgO deposition,” in Proceedings of the International Display Workshops (Institute of Image Information and Television Engineers, 2006), pp. 347-350.

C.-S. Park, S.-K. Jang, J.-H. Kim, H.-S. Tae, E.-Y. Jung, J.-C. Ahn, and E. G. Heo, “Influence of temporal and permanent image sticking characteristics under variable panel working gas pressure in 42 in. AC-PDPs,” in Proceedings of the International Meetings on Information Display/International Display Manufacturing Conference (Korean Information Display Society, 2008), pp. 1617-1620.
[PubMed]

T. Kosaka, K. Sakita, and K. Betsui, “Firing voltage fluctuation phenomenon caused by gas density nonuniformity in PDPs,” in Proceedings of the International Display Workshops (Institute of Image Information and Television Engineers, 2005), pp. 1469-1472.

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Figures (10)

Fig. 1
Fig. 1

Schematic diagram of the experimental setup used in this research.

Fig. 2
Fig. 2

(a) Image sticking pattern captured under full-white background of a 42 in. panel and (b) imaging pattern showing luminance difference among regions A, B, and C in (a) measured with an imaging colorimeter: region A, image sticking cells; region B, halo-type boundary image sticking cells; region C, normal working cells.

Fig. 3
Fig. 3

(a) IR ( 828 nm ) emission intensities measured from regions A, B, and C during a sustained period under full-white background after 500 h sustained discharge and (b) IR emission profiles measured at the peak of IR emission in (a) by use of the gate mode of the ICCD.

Fig. 4
Fig. 4

Comparison of the (a) plane SEM image of the MgO surface and (b) the cross-sectional SEM image of the MgO layer for regions A, B, and C after 500 h sustained discharge.

Fig. 5
Fig. 5

(a) IR ( 828 nm ) emission intensities measured from regions A, B, and C during the sustained period under a full-white background after full-white aging discharge in a 42 in. test panel with boundary image sticking and (b) IR emission profiles measured at the peak of IR emission in (a) by use of the gate mode of the ICCD.

Fig. 6
Fig. 6

Plane SEM images of MgO surfaces for regions A, B, and C after full-white aging discharge.

Fig. 7
Fig. 7

(a) IR ( 828 nm ) emission intensities measured from regions A, B, and C during the sustained period under a full-white background after 500 h sustained discharge in a 42 in. test panel prepared by use of vacuum sealing and (b) IR emission profiles measured at the peak of IR emission in (a) by use of the gate mode of the ICCD.

Fig. 8
Fig. 8

Plane SEM images of MgO surfaces for regions A, B, and C after 500 h sustained discharge in a test panel prepared by use of vacuum sealing.

Fig. 9
Fig. 9

IR ( 828 nm ) emission intensities measured from regions A, B, and C during a sustained period under full-white background after 500 h sustained discharge in a 42 in. test panel prepared by use of low (100 Torr) gas pressure and (b) IR emission profiles measured at the peak of IR emission in (a) by use of the gate mode of the ICCD.

Fig. 10
Fig. 10

Plane SEM images of MgO surfaces for regions A, B, and C after 500 h sustained discharge in a 42 in.. test panel prepared by use of low (100 Torr) gas pressure.

Tables (2)

Tables Icon

Table 1 Specifications of the 42 in. ac PDP Used in This Study

Tables Icon

Table 2 Comparison of Image-Sticking Production Conditions and Full-White Aging Discharge Conditions

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