High-speed driving waveform based on reset and address discharge analysis using a vt closed curve in ACPDPs

Byung Gwon Cho; Heung Sik Tae

doi:10.1889/1.2835034

High-speed driving waveform based on reset and address discharge analysis using a v_t closed curve in ACPDPs

Byung Gwon Cho
, Heung Sik Tae

School of Electronics Engineering

Kyungpook National University

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

Driving waveforms having both high-speed address and low background were developed using V_t closed curve analysis. To prevent a misfired discharge during a sustain period, the voltage difference at the end of the ramp setup between the X-Y electrodes remains constant. Because background luminance becomes higher (although the address discharge time lag becomes shorter) as the voltage difference between the A-Y electrodes becomes larger, a low reset voltage and an address bias voltage were adopted during the ramp-up period.

Original language	English
Pages (from-to)	47-53
Number of pages	7
Journal	Journal of the Society for Information Display
Volume	16
Issue number	1
DOIs	https://doi.org/10.1889/1.2835034
State	Published - Jan 2008

Keywords

ACPDP
Discharge characteristics
Driving method
Plasma display
V closed curve

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10.1889/1.2835034

Cite this

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abstract = "Driving waveforms having both high-speed address and low background were developed using Vt closed curve analysis. To prevent a misfired discharge during a sustain period, the voltage difference at the end of the ramp setup between the X-Y electrodes remains constant. Because background luminance becomes higher (although the address discharge time lag becomes shorter) as the voltage difference between the A-Y electrodes becomes larger, a low reset voltage and an address bias voltage were adopted during the ramp-up period.",

keywords = "ACPDP, Discharge characteristics, Driving method, Plasma display, V closed curve",

author = "Cho, \{Byung Gwon\} and Tae, \{Heung Sik\}",

year = "2008",

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AU - Tae, Heung Sik

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N2 - Driving waveforms having both high-speed address and low background were developed using Vt closed curve analysis. To prevent a misfired discharge during a sustain period, the voltage difference at the end of the ramp setup between the X-Y electrodes remains constant. Because background luminance becomes higher (although the address discharge time lag becomes shorter) as the voltage difference between the A-Y electrodes becomes larger, a low reset voltage and an address bias voltage were adopted during the ramp-up period.

AB - Driving waveforms having both high-speed address and low background were developed using Vt closed curve analysis. To prevent a misfired discharge during a sustain period, the voltage difference at the end of the ramp setup between the X-Y electrodes remains constant. Because background luminance becomes higher (although the address discharge time lag becomes shorter) as the voltage difference between the A-Y electrodes becomes larger, a low reset voltage and an address bias voltage were adopted during the ramp-up period.

KW - ACPDP

KW - Discharge characteristics

KW - Driving method

KW - Plasma display

KW - V closed curve

UR - https://www.scopus.com/pages/publications/54249136921

U2 - 10.1889/1.2835034

DO - 10.1889/1.2835034

M3 - Article

AN - SCOPUS:54249136921

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JO - Journal of the Society for Information Display

JF - Journal of the Society for Information Display

IS - 1

ER -

High-speed driving waveform based on reset and address discharge analysis using a v_t closed curve in ACPDPs

Abstract

Keywords

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