• Journal of the Korean Institute of Electrical and Electronic Material Engineers
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• v.21 no.3
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• pp.272-278
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• 2008

This paper investigated the a-si:H gate driver with the stepwise gate signal. In 1-chip type mobile LCD application the stepwise gate signal for low power consumption can be used by adding simple switching circuit. The power consumption of the a-Si:H gate driver can be decreased by employing the stepwise gate signal in the conventional circuit. In conventional one, the effect of stepwise gate signal can decrease slew rate and increase the fluctuation of gate-off state voltage, In order to increase the slew rate and decrease the gate off state fluctuation, we proposed a new a-Si:H TFT gate driver circuit. The simulation data of the new circuit show that the slew rate and the gate-off state fluctuation are improved, so the circuit can work reliably.

• 한국정보디스플레이학회:학술대회논문집
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• 2003.07a
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• pp.219-222
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• 2003

The Capacitor DAC with gamma correction is proposed for TFT-LCD (Liquid Crystal Display) driver application. It is based on two ideas. First, 6bit digital code is converted 8bit digital code by memory circuit (Look Up Table) for gamma correction. second, weighted voltage ratio DAC is proposed for reducing area and power consumption.

• 한국정보디스플레이학회:학술대회논문집
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• 2004.08a
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• pp.389-392
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• 2004

A new dithering algorithm, "Hi-FRC", to enable full (16,777,216) color display on LCD panel with 6-bit source D-IC's is presented. The conventional FRC can display only 16,194,277 colors. In addition, The LCD panel with Hi-FRC can meet the color grayscale linearity of TCO '03 because it can improve the color shift problem.

• The Journal of Korean Institute of Communications and Information Sciences
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• v.25 no.12A
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• pp.1897-1903
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• 2000

산업용 칼라 액정 패널 비젼 시스템은 공장 자동화 시스템 및 고속도로 등의 모니터링을 위해 필요한 시스템이다. 본 논문에서는 산업용 액정 패널 비젼에서 입력신호인 NTSC, SECAM, PAL 및 컴퓨터의 RGB 신호를 받아 이를 그래픽 처리하여 LCD 패널에 디스플레이 하여 대형 스크린에 투사하기 위한 LCD 드라이버 인터페이스를 카드를 개발하였다. 개발된 인터페이스 카드는 XGA(1024X768)급의 성능을 가진다. 카드의 성능을 테스트하기 위해 적합성 시험을 하였으며, 테스트 결과 만족할 만한 결과를 얻을 수 있었다.

• 한국정보디스플레이학회:학술대회논문집
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• 2005.07a
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• pp.285-288
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• 2005

A 2.8 inch fully integrated SOP employing a high performance LTPS CMOS TFT technology has been developed for mobile display applications. The LCD module is directly interfaced with 3V 6-bit RGB source via timing control circuitry. The integrated data driver comprises a 6-bit hybrid type DAC with low power analog buffer.

• Journal of the Institute of Electronics Engineers of Korea SD
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• v.45 no.6
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• pp.111-118
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• 2008

In this paper, novel latch-up prevention method that employs power-up sequential switches has been proposed to relieve latch-up problem in liquid crystal display (LCD) driver ICs. These sequential switches are inserted in the 2'nd and 3'rd boosting stages, and are used to short the emitter-base terminals of parasitic p-n-p-n circuit before relevant boosting stages are activated during power-up sequence. To verily the performance of the proposed method, test chips were designed and fabricated in a 0.13-um CMOS process technology. The measurement results indicated that, while the conventional LCD driver If entered latch-up mode at $50^{\circ}C$ accompanying a significant amount of excess current, the driver IC adopting the proposed method showed no latch-up phenomenon up to $100^{\circ}C$ and maintained normal current level of 0.9mA.

• 한국정보디스플레이학회:학술대회논문집
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• 2004.08a
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• pp.69-74
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• 2004

System-on-glass technology made with low temperature poly-Si TFT has been rapidly advancing in recent years. We have developed a low-power, narrow edged frame, 1.9inch system-on-glass LCD which fully integrates a 16-bit RGB interface driver and all power circuits required for driving the LCD. In this paper, the latest poly-Si TFT circuit technologies used in the newly developed LCD are discussed. The development trends are also reviewed.

• 한국정보디스플레이학회:학술대회논문집
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• 2007.08b
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• pp.1168-1171
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• 2007

Integrating systems on TFT-LCD panels is more and more popular for the mobile display application. However, it may not be necessary to use LTPS TFT devices. A-Si TFTs are used to integrate systems on TFT-LCD panels, especially scan (gate) drivers. To further reduce the chip size of driver IC, the triplegate pixel structure is developed. Therefore, the number of the source lines is reduced to 1/3 times.

• 한국정보디스플레이학회:학술대회논문집
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• 2009.10a
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• pp.1236-1239
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• 2009

Each LCD TFT panel requires a power supply IC on the panel board. The IC provides the power rails for the timing controller, source and gated driver IC and others. The industry trend moves towards higher integrated devices. The challenge for the panel manufacturer is the development and implementation of such an IC in cooperation with the semiconductor supplier. If not done carefully the solution will not reduce the overall solution cost or can't provide the expected performance and reliability. This paper discusses the key considerations to successfully develop and integrate a highly integrated LCD bias IC into the system.

• Journal of the Institute of Electronics Engineers of Korea SD
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• v.46 no.1
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• pp.98-106
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• 2009

This work proposes a 1280-RGB $\times$ 800-Dot 70.78mW 0.l3um CMOS LCD driver IC (LDI) for high-performance 16M-color low temperature poly silicon (LTPS) thin film transistor liquid crystal display (TFT-LCD) systems such as ultra mobile PC (UMPC) and mobile applications simultaneously requiring high resolution, low power, and small size at high speed. The proposed LDI optimizes power consumption and chip area at high resolution based on a resistor-string based architecture. The single column driver employing a 1:12 MUX architecture drives 12 channels simultaneously to minimize chip area. The implemented class-AB amplifier achieves a rail-to-rail operation with high gain and low power while minimizing the effect of offset and output deviations for high definition. The supply- and temperature-insensitive current reference is implemented on chip with a small number of MOS transistors. A slew enhancement technique applicable to next-generation source drivers, not implemented on this prototype chip, is proposed to reduce power consumption further. The prototype LDI implemented in a 0.13um CMOS technology demonstrates a measured settling time of source driver amplifiers within 1.016us and 1.072us during high-to-low and low-to-high transitions, respectively. The output voltage of source drivers shows a maximum deviation of 11mV. The LDI with an active die area of $12,203um{\times}1500um$ consumes 70.78mW at 1.5V/5.5V.