Modified Reset Waveform to Widen Driving Margin under Low Address Voltage in AC-Plasma Display Panel
スポンサーリンク
概要
- 論文の詳細を見る
- 2008-02-01
著者
-
TAE Heung-Sik
School of Electrical Engineering and Computer Science, Kyungpook National University
-
Tae Heung-sik
School Of Electrical Engineering And Computer Science Kyungpook National University
-
PARK Hyung
School of Electrical Engineering and Computer Science, Kyungpook National University
-
Park Hyung
School Of Electrical Engineering And Computer Science Kyungpook National University
-
Park Hyung
Kyungpook National Univ. Daegu Kor
-
PARK Hyung
School of Avionics and Telecommunications, Hankuk Aviation University
関連論文
- New Cost-Effective Driving Circuit for Plasma-TV
- Design of a Multi Beam Feed Using a Nonradiative Dielectric Rotman Lens
- ICCD Observation on Discharge Characteristics in AC Plasma Display Panel Prepared by Vacuum Sealing Process
- Modified Reset Waveform to Widen Driving Margin under Low Address Voltage in AC-Plasma Display Panel
- A Study on Temporal Dark Image Sticking in AC-PDP Using Vacuum-Sealing Method
- Effects of Address-on-Time on Wall Voltage Variation during Address-Period in AC Plasma Display Panel
- New Cost-Effective Driving Circuit for Plasma-TV
- Bipolar Scan Waveform for Fast Address in AC Plasma Display Panel(Electronic Displays)
- Modified Reset Waveform for High Speed Address under High Ambient Temperature in AC Plasma Display Panel
- Influence of Ion Bombardment onto Phosphor Layer on Temporal Image Sticking in Alternating-Current Plasma Display Panel
- Performance Analysis of an Adaptive Hybrid Search Code Acquisition Algorithm for DS-CDMA Forward Links(Wireless Communication Technologies)
- Slow-Wave Microstrip Lines Using Ground Slots for Enhanced Impedance Control
- A Cost-Effective Energy-Recovering Sustain Driving Circuit for ac Plasma Display Panels
- Dual Surface Discharge Mode for Improving Luminous Efficacy in AC Plasma Display Panel
- Effects of Surface and Plate-Gap Discharges on Panel-Aging Characteristics in Alternating-Current Plasma Display Panel
- Comparison of Chemical Vapor Sensing Properties between Graphene and Carbon Nanotubes
- Improvement of Address Discharge Delay Time Using Modified Reset Waveform in AC Plasma Display Panel