CHARGING AND DISCHARGING SYSTEM FOR PHOTORECEPTOR

CHARGING AND DISCHARGING SYSTEM FOR PHOTORECEPTOR

PROBLEM TO BE SOLVED: To reduce a cost of various components and a power supply necessary for charging and discharging functions.SOLUTION: Two thick film charging devices 200 and 300 or a common thick film charging device with two separated surface conductors, which share a common power supply, are...

Ausführliche Beschreibung

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Bibliographische Detailangaben
Hauptverfasser: MICHAEL A DUDY, GERALD F DALOIA
Format: Patent
Sprache:eng ; jpn
Schlagworte:
CINEMATOGRAPHY
ELECTROGRAPHY
ELECTROPHOTOGRAPHY
HOLOGRAPHY
MAGNETOGRAPHY
PHOTOGRAPHY
PHYSICS
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Beschreibung
Zusammenfassung:PROBLEM TO BE SOLVED: To reduce a cost of various components and a power supply necessary for charging and discharging functions.SOLUTION: Two thick film charging devices 200 and 300 or a common thick film charging device with two separated surface conductors, which share a common power supply, are used for charging and discharging for photoreceptor 110. The thick film charging devices use a set of AC biased electrodes supported on dielectric material, and the dielectric material supports counter electrodes on an opposite side of a dielectric. A DC offset applied to the counter electrodes is used to set photoreceptor charging level. One DC voltage is used for photoreceptor charging and zero or near zero DC voltage is used to erase residual charge for the photoreceptor 110.SELECTED DRAWING: Figure 1A 【課題】帯電および除電機能に必要な種々のコンポーネントおよび電源のコストを低減する。【解決手段】共通の電源を共有する、2つの厚膜フィルム帯電デバイス200、300または2つの分離した表面導体を有する共通の厚膜フィルム帯電デバイスが、感光体110の帯電および除電に用いられる。厚膜フィルム帯電デバイスは、誘電体材料上に支持される一式の交流バイアス電極を用い、この誘電体材料は、その誘電体の対向側上の対向電極をも支持する。対向電極に加えられる直流オフセットは、感光体帯電レベルを設定するのに用いられる。一直流電圧が感光体の帯電に用いられ、ゼロまたは約ゼロの直流電圧が、感光体110に対して残留する電荷を消去するのに用いられる。【選択図】図1A