Abstract

In-plane switching (IPS) technology used for liquid crystal display (LCD) TV is reviewed. Requirements of HD TV application are listed, and the main performances are compared among various competing display technologies. IPS LCD mode shows superior performances, satisfying the requirement for HD TV application.

© 2007 IEEE

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  1. S. D. Yeo, "LCD technologies for the TV application," Soc. Inf. Display Dig. Tech. Papers (2005) pp. 1738-1741.
  2. P. Yeh, C. Gu, Optics of Liquid Crystal Displays (Wiley, 1999) pp. 213-228.
  3. M. Oh-e, K. Kondo, "Electro-optical characteristics and switching behavior of the in-plane switching mode," Appl. Phys. Lett. 67, 3895-3897 (1995).
  4. M. Oh-e, K. Kondo, "The in-plane switching of homogeneously aligned nematic liquid crystals," Liquid Crystal 22, 379-390 (1997).
  5. H. Nakamura, K. Sekiya, "Overdrive method for reducing response times of liquid crystal displays," Soc. Inf. Display Tech. Papers (2001) pp. 1256-1259.
  6. B. W. Lee, "Reducing gray-level response to one frame: Dynamic capacitance compensation," Soc. Inf. Display Tech. Papers (2001) pp. 1260-1263.
  7. T. Kurita, "Moving picture quality improvement for hold-type AM-LCDs," Soc. Inf. Display Tech. Papers (2001) pp. 986-989.
  8. Y. Kuroki, T. Nishi, "Improvement of motion image quality by high frame rate," Soc. Inf. Display Tech. Papers (2006) pp. 14-17.
  9. Y. Zhang, "Characterizing motion artifacts and flicker of PDP's," Soc. Inf. Display Tech. Papers (2006) pp. 1328-1331.
  10. J. Someya, "Correlation between perceived motion blur and MPRT measurement," Soc. Inf. Display Tech. Papers (2005) pp. 1018-1021.
  11. K. D. Kim, "Motion artifact comparison of PDP and MBR LCD: World's best MPRT LCD," Proc. Int. Display Workshop (2006).
  12. S. Endoh, "Advanced 18.1-inch diagonal super TFT-LCDs with mega wide viewing angle and fast response speed of 20 ms," Proc. Int. Display Workshop (1998) pp. 187-190.
  13. J. Chen, "Optimum film compensation modes for TN and VA LCDs," Soc. Inf. Display Tech. Papers (1998) pp. 315-319.
  14. Y. Saitoh, "Optimum film compensation of viewing angle of contrast in in-plane-switching—Mode liquid crystal display," Jpn. J. Applied Physics 37, 4822-4828 (1998) Part I.
  15. J. H. Lee, "Optical configurations of TW-IPS LC cell for for very wide viewing angle in large size TV application," Soc. Inf. Display Tech. Papers (2005) pp. 642-645.
  16. X. Zhu, Z. Ge, S. T. Wu, "Analytical solutions for uniaxial-film-compensated wide-view liquid crystal displays," J. Display Technol. 2, 2-20 (2006).
  17. D. Kajita, "IPS-LCD with high contrast ratio over 80: 1 at all viewing angles," Soc. Inf. Display Tech. Papers (2006) pp. 1162-1165.
  18. A. Takeda, "A super-high image quality multi-domain vertical alignment LCD by new rubbing-less technology," Soc. Inf. Display Tech. Papers (1998) pp. 1077-1080.
  19. K. H. Kim, "Domain divided vertical alignment mode with optimized fringe field effect," ASID98 (1998) pp. 383-386.
  20. S. S. Kim, "The World's largest (82-in.) TFT-LCD," Soc. Inf. Display Tech. Papers (2005) pp. 1842-1847.
  21. J. H. Choi, "Backlight for large-area LCD-TVs using light emitting diodes," The 6th Int. Meeting on Inf. Display (2006) pp. 1153-1156.
  22. O. K. Kwon, "Technical issues on large-size, high-resolution and high-gray-scale TFT-LCDs," Soc. Inf. Display Tech. Papers (2005) pp. 1586-1589.
  23. J. L. Fergason, Variable Intensity High Contrast Passive Display U.S.Patent 5 717 422 (1998).
  24. K. D. Kim, "Adaptive dynamic image control for IPS-mode LCD TV," Soc. Inf. Display Tech. Papers (2005) pp. 1548-1549.
  25. H. J. Hong, "Area-focused luminance control backlight for LCD TV applications," 6th Int. Meeting on Inf. Display (2006) pp. 1157-1160.
  26. T. Shirai, "RGB-LED backlight for LCD-TVs with 0D, 1D, and 2D adaptive dimming," Soc. Inf. Display Tech. Papers (2006) pp. 1520-1523.

2006

X. Zhu, Z. Ge, S. T. Wu, "Analytical solutions for uniaxial-film-compensated wide-view liquid crystal displays," J. Display Technol. 2, 2-20 (2006).

1998

Y. Saitoh, "Optimum film compensation of viewing angle of contrast in in-plane-switching—Mode liquid crystal display," Jpn. J. Applied Physics 37, 4822-4828 (1998) Part I.

1997

M. Oh-e, K. Kondo, "The in-plane switching of homogeneously aligned nematic liquid crystals," Liquid Crystal 22, 379-390 (1997).

1995

M. Oh-e, K. Kondo, "Electro-optical characteristics and switching behavior of the in-plane switching mode," Appl. Phys. Lett. 67, 3895-3897 (1995).

Appl. Phys. Lett.

M. Oh-e, K. Kondo, "Electro-optical characteristics and switching behavior of the in-plane switching mode," Appl. Phys. Lett. 67, 3895-3897 (1995).

J. Display Technol.

X. Zhu, Z. Ge, S. T. Wu, "Analytical solutions for uniaxial-film-compensated wide-view liquid crystal displays," J. Display Technol. 2, 2-20 (2006).

Jpn. J. Applied Physics

Y. Saitoh, "Optimum film compensation of viewing angle of contrast in in-plane-switching—Mode liquid crystal display," Jpn. J. Applied Physics 37, 4822-4828 (1998) Part I.

Liquid Crystal

M. Oh-e, K. Kondo, "The in-plane switching of homogeneously aligned nematic liquid crystals," Liquid Crystal 22, 379-390 (1997).

Other

H. Nakamura, K. Sekiya, "Overdrive method for reducing response times of liquid crystal displays," Soc. Inf. Display Tech. Papers (2001) pp. 1256-1259.

B. W. Lee, "Reducing gray-level response to one frame: Dynamic capacitance compensation," Soc. Inf. Display Tech. Papers (2001) pp. 1260-1263.

T. Kurita, "Moving picture quality improvement for hold-type AM-LCDs," Soc. Inf. Display Tech. Papers (2001) pp. 986-989.

Y. Kuroki, T. Nishi, "Improvement of motion image quality by high frame rate," Soc. Inf. Display Tech. Papers (2006) pp. 14-17.

Y. Zhang, "Characterizing motion artifacts and flicker of PDP's," Soc. Inf. Display Tech. Papers (2006) pp. 1328-1331.

J. Someya, "Correlation between perceived motion blur and MPRT measurement," Soc. Inf. Display Tech. Papers (2005) pp. 1018-1021.

K. D. Kim, "Motion artifact comparison of PDP and MBR LCD: World's best MPRT LCD," Proc. Int. Display Workshop (2006).

S. Endoh, "Advanced 18.1-inch diagonal super TFT-LCDs with mega wide viewing angle and fast response speed of 20 ms," Proc. Int. Display Workshop (1998) pp. 187-190.

J. Chen, "Optimum film compensation modes for TN and VA LCDs," Soc. Inf. Display Tech. Papers (1998) pp. 315-319.

D. Kajita, "IPS-LCD with high contrast ratio over 80: 1 at all viewing angles," Soc. Inf. Display Tech. Papers (2006) pp. 1162-1165.

A. Takeda, "A super-high image quality multi-domain vertical alignment LCD by new rubbing-less technology," Soc. Inf. Display Tech. Papers (1998) pp. 1077-1080.

K. H. Kim, "Domain divided vertical alignment mode with optimized fringe field effect," ASID98 (1998) pp. 383-386.

S. S. Kim, "The World's largest (82-in.) TFT-LCD," Soc. Inf. Display Tech. Papers (2005) pp. 1842-1847.

J. H. Choi, "Backlight for large-area LCD-TVs using light emitting diodes," The 6th Int. Meeting on Inf. Display (2006) pp. 1153-1156.

O. K. Kwon, "Technical issues on large-size, high-resolution and high-gray-scale TFT-LCDs," Soc. Inf. Display Tech. Papers (2005) pp. 1586-1589.

J. L. Fergason, Variable Intensity High Contrast Passive Display U.S.Patent 5 717 422 (1998).

K. D. Kim, "Adaptive dynamic image control for IPS-mode LCD TV," Soc. Inf. Display Tech. Papers (2005) pp. 1548-1549.

H. J. Hong, "Area-focused luminance control backlight for LCD TV applications," 6th Int. Meeting on Inf. Display (2006) pp. 1157-1160.

T. Shirai, "RGB-LED backlight for LCD-TVs with 0D, 1D, and 2D adaptive dimming," Soc. Inf. Display Tech. Papers (2006) pp. 1520-1523.

J. H. Lee, "Optical configurations of TW-IPS LC cell for for very wide viewing angle in large size TV application," Soc. Inf. Display Tech. Papers (2005) pp. 642-645.

S. D. Yeo, "LCD technologies for the TV application," Soc. Inf. Display Dig. Tech. Papers (2005) pp. 1738-1741.

P. Yeh, C. Gu, Optics of Liquid Crystal Displays (Wiley, 1999) pp. 213-228.

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