Apparatus and method for detecting and eliminating diode laser mode hopping
First Claim
1. In a printer having a recording member on which images to be printed are formed through exposure, said recording member being movable in a first scanning direction, a laser for generating a beam of high intensity light for exposing said member in accordance with an image signal, a rotatable holographic disc having a succession of beam diffraction gratings, said disc being disposed relative to said laser so that the beam emitted by said laser is in the path of rotation of said disc whereby said beam impinges on said facets in succession as said disc rotates to provide an exposure beam for scanning said recording member in a second scanning direction, the combination of:
- (a) wavelength compensating means for compensating for temperature induced laser mode hop of said beam in said first scanning direction, said compensating means being between said laser and said disc and providing in cooperation with said disc diffraction gratings a non-exposure beam;
(b) a beam position detector;
(c) means for focusing said non-exposure beam on said position detector;
(d) said beam position detector outputting a signal representative of the current point where said non-imaging beam impinges on said beam position detector;
(e) comparator means for comparing the signal output of said beam position detector with a reference signal representing a preselected point within a non-mode hop region of said laser beam and outputting a control signal when said current point and said preselected point of beam impingement on said beam position detector differ;
(f) temperature controlling means for controlling temperatures of said laser; and
(g) control means for operating said temperature controlling means in response to said control signal to adjust the temperature of said laser so that said non-imaging beam impinges at substantially said preselected point on said beam position detector whereby mode hop of said laser beam in said second scanning direction is avoided.
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Accused Products
Abstract
A printer having holographic scanning disc for scanning the imaging beam from a laser diode across a recording member, with a detector for detecting a shift in wavelength of the diode utilizing the zero order beam passing through the holographic scanning disc and a temperature control for controlling diode temperatures, the detector actuating the temperature control to adjust the temperature of the diode when a shift in the wavelength of the zero order beam from a non-mode hop wavelength to another wavelength is detected, adjustment of the diode temperature shifting the beam wavelength back toward the non-mode hop wavelength region.
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Citations
12 Claims
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1. In a printer having a recording member on which images to be printed are formed through exposure, said recording member being movable in a first scanning direction, a laser for generating a beam of high intensity light for exposing said member in accordance with an image signal, a rotatable holographic disc having a succession of beam diffraction gratings, said disc being disposed relative to said laser so that the beam emitted by said laser is in the path of rotation of said disc whereby said beam impinges on said facets in succession as said disc rotates to provide an exposure beam for scanning said recording member in a second scanning direction, the combination of:
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(a) wavelength compensating means for compensating for temperature induced laser mode hop of said beam in said first scanning direction, said compensating means being between said laser and said disc and providing in cooperation with said disc diffraction gratings a non-exposure beam; (b) a beam position detector; (c) means for focusing said non-exposure beam on said position detector; (d) said beam position detector outputting a signal representative of the current point where said non-imaging beam impinges on said beam position detector; (e) comparator means for comparing the signal output of said beam position detector with a reference signal representing a preselected point within a non-mode hop region of said laser beam and outputting a control signal when said current point and said preselected point of beam impingement on said beam position detector differ; (f) temperature controlling means for controlling temperatures of said laser; and (g) control means for operating said temperature controlling means in response to said control signal to adjust the temperature of said laser so that said non-imaging beam impinges at substantially said preselected point on said beam position detector whereby mode hop of said laser beam in said second scanning direction is avoided. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A method for detecting and eliminating laser mode hoping in a printer having a recording member movable in a first scanning direction, a diode laser, and a rotatable holographic disc with gratings disposed in the path of the beam output of said laser to scan said beam across said recording member in a second scanning direction substantially perpendicular to said first scanning direction, comprising the steps of:
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(a) compensating for temperature induced mode hopping of said laser in said first scanning direction by disposing a stationary wavelength compensating grating in the path of the laser beam between the laser and said holographic disc to prevent laser mode hopping in said first scanning direction, said grating cooperating with said holographic disc gratings to produce a zero order beam; and (b) compensating for temperature induced mode hopping of said laser in said second scanning direction by (1) focusing said zero order beam on a beam position detector to provide a first signal representing the point where said zero order beam impinges on said beam position detector; (2) comparing said first signal from said beam position detector with a second reference signal representing a desired point of impingement of said beam on said beam position detector within a laser non-mode hop region and providing a corrective signal where said first and second signals are different; and (3) adjusting the temperature of said laser in response to said corrective signal so that said zero order beam impinges on said beam position detector at said desired point of impingement to prevent laser mode hopping in said second scanning direction.
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Specification