Patent ID: 8606148

Claim:
A method of preparing a rotatable photoreceptor in an electrophotographic (EP) printer, comprising: providing the EP printer having the rotatable photoreceptor; providing a charger, an exposure subsystem, a development station, a transfer station, an erase lamp, and a cleaning station arranged in that order around the photoreceptor in the direction of rotation thereof; providing a first corona electrode disposed within 3 cm of a surface of the photoreceptor, but not in contact therewith, between the transfer station and the erase lamp, the transfer station and the erase lamp being less than 2 cm apart; providing a second corona electrode disposed within 3 cm of the surface of the photoreceptor, but not in contact therewith, between the erase lamp and the cleaning station, the erase lamp and the cleaning station being less than 2 cm apart; and rotating the photoreceptor, and while it rotates, performing the following steps in order: charging a selected active area of the photoreceptor with charge of a selected polarity to a selected surface potential using the charger; image-wise exposing the photoreceptor to reduce the magnitude of surface charge in exposed portions of the active area using the exposure subsystem; selectively applying toner to the active area using the development station; transferring some of the applied toner from on the active area to a receiver using the transfer station; applying a first bias to the first corona electrode to charge the exposed and unexposed portions of the active area to respective selected pre-erase potentials of the same polarity as the selected surface potential and to charge toner remaining in the active area after transfer to a charge of the selected polarity; irradiating the photoreceptor in the active area using the erase lamp to neutralize charge on the surface of the photoreceptor in the active area, so that the electrostatic force of attraction between toner on the photoreceptor and the surface of the photoreceptor is reduced; applying a second bias to the second corona electrode to increase the magnitude of the surface potential of the photoreceptor in the active area, whereby trapped charges in the photoreceptor are removed; and applying a third bias to the cleaning station to produce an electric field that exerts a selected force away from the photoreceptor on toner particles in the active area; so that toner is removed from the active area of the photoreceptor, whereby the photoreceptor is prepared for charging.