저소비전력 LCD 구동방법

References

1. S. T. Kim et al., 'A novel method of charge recycling TFT-LCD source driver for low power consumption,' in Proc. of IDW'97, pp.155~158, 1997
2. H. Okada et al., 'An 8.4 in. TFT-LCD System for a Note Size Computer Using 3 Bit Digital Data Drivers,' in Proc. of IDRC., pp. 475-478, 1992
3. T. Otose et al., 'A 230ppi 2.6 in. Poly Si TFT Reflective LCD with Partial Display Function for Mobile Applications,' in Proc. of IDW'01, pp. 351-354, 2001
4. H. Okumura et al., 'Multi Field Driving Method for Reducing LCD Power Consumption,' in SZD Digest of Tech. Papers VoI. XXVI, pp. 249-252, 1995
5. G. Itoh et al., 'Advanced Multi Field Driving Method for Low Power TFT-LCD,' in Asia Dis pIay'95, pp. 493-496, 1995
6. H. Kimura et al., 'A 2.15 inch QCIF Reflective Color TFT-LCD with Digital Memory on Glass (DMOG),' in SZD Digest of Tech. Papers Vol. XXXII, pp. 268-271, 2001
7. M. Inoue et al., 'Low Power Consumption TFT LCD with 4-bit Dynamic Memories Embedded in Each Pixel,' in IDW'01, pp. 1599-1602, 2001
8. A. Erhart et al., 'Charge Conservation Implemen tation in an Ultra Low Power AMLCD Column Driver Utilizing Pixel Inversion,' in SID Digest of Tech. Papers VoI XXVIII, pp. 23-26, 1997
9. Y. C. Sung et al., 'A Low-Power Data Driver for TFT-LCDs,' in SID Digest of Tech. Papers Vol. XXXI, pp. 142-145, 2000
10. L. J. Svensson et al., 'Driving a Capacitive Load without Dissipating fC$V^2$,' in Proc. of the 1994 IEEE Symposium on Low Power Design, pp. 100-101, 1994
11. B. D. Choi et al., 'A Low Power Data Driver with Stepwise Driving Method for TFT-LCDs,' in SID Digest of Tech. Papers Vol. XXXII, pp. 273-276, 2001