Multi-beam optical system using lenslet arrays in laser multi-beam printers and recorders
First Claim
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1. A multi-beam laser printer for printing onto a light-sensitive medium comprising:
- a plurality of diode lasers formed in a linear direction, each diode laser being modulated to generate a separately intensity-modulated diverging light beam;
a printing lens having an entrance pupil for forming the light beams from the linear direction which enter through the entrance pupil onto a light-sensitive medium as an array of spots;
optical means for reducing the divergence of the light beams from the plurality of diode lasers by a predetermined amount in a direction perpendicular to the linear direction, wherein the optical means comprises;
a first cylindrical lens having a first numerical aperture for collecting the diverging light beams from the linear direction, and for reducing the divergence of the beams from the linear direction by a predetermined amount; and
a second cylindrical lens system comprised of at least one cylindrical lens to further shape the beam and for collecting the light beam from the first cylindrical lens, for additional shaping of the light beams, and for continuing the direction of the light beams into the entrance pupil of the printing lens;
a first lenslet array having a separate lenslet associated with each light beam for directing the associated light beams in the linear direction towards an object plane of the printing lens to form a more uniform distribution of light in the linear direction; and
a second lenslet array spaced from the first lenslet array for imaging the first lenslet array into the entrance pupil of the printing lens in the linear direction.
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Abstract
A multi-beam laser printer for printing on light-sensitive thermal media where a monolithic array of independently modulated diode lasers is used to reduce the size of the printer. A closely spaced array of printing spots is produced from the separate diode lasers using two lenslet arrays having power in the array direction. To correct for non-straightness of the laser array, an optical arrangement is used to conjugate the far field of the lasers in a direction perpendicular to the array direction of the printing plane so that the laser array produces a straight line of printing spots on the light-sensitive medium.
122 Citations
11 Claims
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1. A multi-beam laser printer for printing onto a light-sensitive medium comprising:
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a plurality of diode lasers formed in a linear direction, each diode laser being modulated to generate a separately intensity-modulated diverging light beam; a printing lens having an entrance pupil for forming the light beams from the linear direction which enter through the entrance pupil onto a light-sensitive medium as an array of spots; optical means for reducing the divergence of the light beams from the plurality of diode lasers by a predetermined amount in a direction perpendicular to the linear direction, wherein the optical means comprises; a first cylindrical lens having a first numerical aperture for collecting the diverging light beams from the linear direction, and for reducing the divergence of the beams from the linear direction by a predetermined amount; and a second cylindrical lens system comprised of at least one cylindrical lens to further shape the beam and for collecting the light beam from the first cylindrical lens, for additional shaping of the light beams, and for continuing the direction of the light beams into the entrance pupil of the printing lens; a first lenslet array having a separate lenslet associated with each light beam for directing the associated light beams in the linear direction towards an object plane of the printing lens to form a more uniform distribution of light in the linear direction; and a second lenslet array spaced from the first lenslet array for imaging the first lenslet array into the entrance pupil of the printing lens in the linear direction. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A multi-beam laser printer onto a light-sensitive medium comprising:
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a plurality of diode lasers in a diode laser array in a single direction formed into a plurality of sub-arrays of separated diode lasers with each sub-array generating a separate intensity modulated set of diverging light beams; a printing lens having an entrance pupil for forming the light beams from the diode laser array which enter through a center of the entrance pupil onto a light sensitive medium in the form of an array of spots at its object plane; optical means for reducing the divergence of the light beams from the plurality of diode lasers by a predetermined amount, and for continuing a propagation of the light beams into the entrance pupil of the printing lens; a first lenslet array having a plurality of lenslet sub-arrays such that each lenslet sub-array corresponds to a sub-array of diode lasers, each lenslet sub-array directing each of the light beams from the corresponding diode laser sub-array towards the object plane of the printing lens such that all the beams from the individual diode lasers in the sub-array overlap in the single direction of the array at the object plane of the printing lens and such that the spots from the different sub-arrays form an array of spots in a single direction at this plane with a higher percentage of the object plane being illuminated in the single direction of the array; and a second lenslet array in the vicinity of the object plane of the printing lens for imaging the first lenslet array into the entrance pupil of the printing lens in the array direction. - View Dependent Claims (8, 9, 10)
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11. A method of using multi-beam light sources to print onto a light-sensitive medium, said method comprising the steps of:
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generating a plurality of separately intensity modulated diverging light beams; forming the light beams through an opening of an entrance pupil of a printing lens having an object plane onto a light-sensitive medium as a single direction array of spots of predetermined intensities; reducing the divergence of the light beams by a predetermined amount; directing each of the light beams in the single direction of the array toward the object plane of said printing lens to form a more uniform distribution of light in the single direction of the array; and directing an image on said object plane into the entrance pupil of the printing lens in the single direction of the array.
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Specification