Charge deposition print head and method of printing
First Claim
1. A method of forming a charge image on a curved imaging member, said method comprising the steps ofproviding an odd number of first electrodes all extending parallel to each other in a cross-scan direction,providing a plurality of zig-zag shaped second electrodes extending substantially parallel to each other in a direction transverse to said first electrodes to define an array of crossing points at which actuation of one of said first electrodes and one of said second electrodes generates a charge image dot on the curved imaging member, wherein said first electrodes each have a different position offset along a print feed direction and define said crossing points that generate a charge that varies with said position to form strong and weak dots on the curved imaging member, wherein said weak dots are generated by said first electrodes with greater offset from a central position of the curved imaging member along said print feed direction, andactuating the first and second electrodes to deposit an image of said strong and weak charge image dots on the curved imaging member when the first electrodes are actuated in a sequence corresponding to said position of said first and second electrodes, such that said strong and weak dots alternate along an image line to form a substantially uniform charge distribution.
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Accused Products
Abstract
A print head has a matrix array of charge generating loci defined by crossings of a first set of electrodes which are parallel to each other and extend across the region to be printed and a second set of electrodes that extend obliquely across the first electrodes so that the crossings are closely spaced lattice points. The charge deposited by a lattice point varies with the position of the first electrode defining the point, but the electrodes are arranged so charge carriers are generated or gated for projection onto a latent imaging member with local charge dot uniformity. In one embodiment of the invention, there are an odd number of first electrodes, and the second electrodes are arranged such that when electrodes are actuated, pairs of adjacent dots are deposited by pairs of lattice points having complementary variations in charge. As viewed or measured along the print line, each pair of deposited dots has a substantially uniform level of charge, and doubling and extreme discontinuities do not occur. The second electrodes may overlap in a cross scan direction to interleave their deposited charge dots. Alternatively, using zig-zag but non-overlapping electrodes, each electrode may deposit a continuous uninterrupted sequence of dots while still achieving a uniform regional charge distribution. In another aspect, the second electrodes include first and second subsets of electrodes having a different pitch defining two sets of charge loci at lattice points slightly shifted in the cross-scan direction to interleave strong dots with weak dots without doubling. This embodiment includes print heads with an even number of first electrodes without introducing aliasing patterns of charge density.
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Citations
11 Claims
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1. A method of forming a charge image on a curved imaging member, said method comprising the steps of
providing an odd number of first electrodes all extending parallel to each other in a cross-scan direction, providing a plurality of zig-zag shaped second electrodes extending substantially parallel to each other in a direction transverse to said first electrodes to define an array of crossing points at which actuation of one of said first electrodes and one of said second electrodes generates a charge image dot on the curved imaging member, wherein said first electrodes each have a different position offset along a print feed direction and define said crossing points that generate a charge that varies with said position to form strong and weak dots on the curved imaging member, wherein said weak dots are generated by said first electrodes with greater offset from a central position of the curved imaging member along said print feed direction, and actuating the first and second electrodes to deposit an image of said strong and weak charge image dots on the curved imaging member when the first electrodes are actuated in a sequence corresponding to said position of said first and second electrodes, such that said strong and weak dots alternate along an image line to form a substantially uniform charge distribution.
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6. A print head for recording on a curved imaging member, comprising
a plurality of n drive electrodes extending parallel to each other in a first layer along a print width direction, the drive electrodes each being successively offset along a print feed direction, and a plurality of zig-zag shaped m finger electrodes in electrical communication with one or more of the drive electrodes and disposed in a second layer parallel to and separated from said first layer by a layer of dielectric material and extending in a direction transverse to said print width direction to define a m× - u lattice array of crossing points where said drive and finger electrodes overlap, wherein the crossing points generate charge carriers to form charge image dots opposed thereto when the drive electrodes and finger electrodes are actuated,
wherein some of said drive electrodes define weak charge image dots and other of said drive electrodes define strong charge image dots, and wherein n is an odd integer and the m finger electrodes are disposed such that all the crossing points span a line in the print width direction, and such that when actuated said arrangement of said drive and finger electrodes intersperses strong charge dots with weak charge dots to deposit a charge image of substantially uniform charge density free of adjacent dot pairs having extreme charge values on the curved imaging member, whereby striping of said image is prevented. - View Dependent Claims (7, 8)
- u lattice array of crossing points where said drive and finger electrodes overlap, wherein the crossing points generate charge carriers to form charge image dots opposed thereto when the drive electrodes and finger electrodes are actuated,
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9. A print head comprising
a plurality of n drive electrodes extending parallel to each other in a first layer along a print width direction, the drive electrodes each being successively offset along a print feed direction, and a plurality of zig-zag shaped m finger electrodes in electrical communication with one or more of the drive electrodes and disposed in a second layer parallel to and separated from said first layer by a layer of dielectric material and extending in a direction transverse to said print width direction To define a m× - n lattice array of crossing points where said drive and finger electrodes overlap, wherein the crossing points generate charge carriers to form charge image dots opposed thereto when the drive electrodes and finger electrodes are actuated,
wherein n is an odd integer and the m finger electrodes are disposed such that all the crossing points span a line in the print width direction.
- n lattice array of crossing points where said drive and finger electrodes overlap, wherein the crossing points generate charge carriers to form charge image dots opposed thereto when the drive electrodes and finger electrodes are actuated,
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10. A method of forming a charge image on a curved imaging member, said method comprising the steps of
providing a plurality of n drive electrodes extending parallel to each other along a print width direction, providing a plurality of zig-zag shaped m finger electrodes disposed in electrical communication with one or more of the drive electrodes and extending in a direction transverse to said print width direction to define an m× - n lattice array of crossing points where said drive and finger electrodes overlap, wherein the crossing points generate charge carriers to form charge image dots on the imaging member when the drive electrodes and finger electrodes are actuated,
configuring some of said drive electrodes to define weak charge image dots on the curved imaging member and configuring other of said drive electrodes to define strong charge image dots on the curved imaging member when actuated, and wherein n is an odd integer and the m finger electrodes are disposed such that all the crossing points span a line in the print width direction. - View Dependent Claims (11)
- n lattice array of crossing points where said drive and finger electrodes overlap, wherein the crossing points generate charge carriers to form charge image dots on the imaging member when the drive electrodes and finger electrodes are actuated,
Specification
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- Resources
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Current AssigneeDelphax Technologies Inc.
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Original AssigneeDelphax Systems (Xerox Holdings Corp.)
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InventorsFotland, Richard A., Kubelik, Igor
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Primary Examiner(s)Yockey, David F.
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Application NumberUS08/639,851Time in Patent Office1,068 DaysField of Search347/55, 347/112, 347/120, 347/127, 347/141, 347/142, 347/143, 347/144, 347/145US Class Current347/120CPC Class CodesB41J 2/415 by passing charged particle...G03G 15/321 by charge transfer onto the...
