A high speed and low chip surface temperature column driver for large TFT LCD TV applications

IEEE Transactions on Consumer Electronics

Volumn 53, Issue 4, 2007, Pages 1583-1588

  Park, Soo Yang ^a   Son, Sang Hee ^a   Chung, Won Sup ^a  

^a Chongju University   (South Korea)

Author keywords

[No Author keywords available]

Indexed keywords

CMOS INTEGRATED CIRCUITS; ELECTRIC POWER UTILIZATION; LIQUID CRYSTAL DISPLAYS; POWER CONTROL; SPICE; TEMPERATURE CONTROL; THIN FILM TRANSISTORS;

HSPICE SIMULATION; LCD TV; SURFACE TEMPERATURE;

TELEVISION SYSTEMS;

EID: 39549087262     PISSN: 00983063     EISSN: None     Source Type: Journal    
DOI: 10.1109/TCE.2007.4429255     Document Type: Article

References (7)

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2. H. Okumura et al., "Multi-Field Driving Method for Reducing LCD Power Consumption," in SOC. For Information Display Int. Sym. Digest of Tech. Papers Vol. XXVI, 1995, pp. 249-252.
3. A. Erhart et al., "Charge-Conservation Implementation in an Ultra-Low-Power AMLCD Column Driver Utilizing Pixel Inversion," in Soc. for Information Display Int. Sym. Digest of Tech. Papers Vol. XXVIII, 1995, pp. 23-26.
4. K. Meinstein et al., "A Low-Power High-Voltage Column/Dot Inversion Drive System," in Soc. For Information Display Int. Sym. Digest of Tech. Papers Vol.
5. S. T. Kim, B. D. Choi and O. K. Kwon, "A Novel Method of Charge-Recycling TFT-LCD Column Driver for Low-Power Consumption," IDW1997, PP. 155-158
6. G. Itoh and H. Okumura. "Advanced Multi-Field-Driving Method for Low Power TFT-LCD." Asia Display 95. pp. 493-496. 1995.
7. Kaustav Banerjee et al., "A Self-consistent Junction Temperature Estimation Methodology for Nanometer Scale ICs with Implications for Performance and Thermal Management," in IEEE IEDM, 2003, pp. 887-890.