Claims
- 33. A planar laser illumination and imaging system for illuminating an object and forming an image thereof, said planar laser illumination and imaging system comprising:
an image formation and detection module having a field of view (FOV) focused at an image detecting array; and a planar laser illumination array (PLIA) constructed from an plurality of planar laser illumination modules (PLIMs) arranged in rectilinear manner, wherein each said planar laser illumination module comprises a visible laser diode (VLD), a focusing lens, and a cylindrical optical element arranged therewith to produce a planar laser illumination beam component; and wherein said individual planar laser illumination beam components produced from said plurality of planar laser illumination modules are optically combined to produce a composite substantially planar laser illumination beam having substantially-planar spatial distribution characteristics that extend through the field of view (FOV) of said image formation and detection module, so that laser light reflected off an object illuminated by said planar laser illumination beam is focused along said field of view and onto said image detecting array to form an image of said illuminated object.
- 34. The planar laser illumination and imaging system of claim 33, wherein said composite substantially planar laser illumination beam has substantially uniform power density characteristics over the entire spatial extend thereof and thus the working range of the system.
- 35. The planar laser illumination and imaging system of claim 33, wherein each planar laser illumination beam component is focused so that the minimum beam width thereof occurs at a point or plane which is the farthest or maximum object distance at which the system is designed to acquire images, thereby compensating for decreases in the power density of the incident planar laser illumination beam due to the fact that the width of the planar laser illumination beam increases in length for increasing object distances away from the imaging optics.
- 36. The planar laser illumination and imaging system of claim 33, wherein said planar light illumination beam (PLIB) and the magnified field of view (FOV) projected onto an object during conveyor-type illumination and imaging applications, wherein the height dimension of the PLIB is substantially greater than the height dimension of the magnified field of view of each image detection element in the linear CCD image detection array so as to decrease the range of tolerance that must be maintained between the PLIB and the FOV.
- 37. The planar laser illumination and imaging system of claim 33, wherein said visible laser diodes are configured together along a linear array of electronic image detection cells so as to produce said substantially planar beam of laser illumination which extends in substantially the same plane as the field of view of the linear array of electronic image detection cells of the system, along at least a portion of its optical path within its working distance.
- 38. The planar laser illumination and imaging system of claim 37, wherein the linear array of electronic image detection cells are realized using charge-coupled device (CCD) technology.
- 39. The planar laser illumination and imaging system of claim 33, wherein a fixed focal length imaging subsystem is employed, and a laser beam focusing technique is employed to compensate for decreases in the power density of the incident planar illumination beam due to the fact that the width of the planar laser illumination beam for increases increasing distances away from the imaging subsystem.
- 40. The planar laser illumination and imaging system of claim 33, wherein the principle of Gaussian summation of light intensity distributions is employed to produce a planar laser illumination beam having a power density across the width the beam which is substantially the same for both far and near fields of the system.
- 41 A planar laser illumination and imaging (PLIIM) based system with automatic laser beam power density compensation, said PLIIM based system comprising:
an image formation and detection module having a field of view (FOV) focused at an image detecting array; and a planar laser illumination array (PLIA) for producing a planar laser illumination beam having substantially-planar spatial distribution characteristics that extend through the field of view (FOV) of said image formation and detection module, so that laser light reflected off an object illuminated by said planar laser illumination beam is focused along said field of view and onto said image detecting array to form an image of said illuminated object; wherein said planar laser illumination beam having a beam width which increases as a function of increasing object distance in said PLIIM-based system; and wherein the height of said planar laser illumination beam decreased as the object distance increases, compensating for the increase in beam width in said planar laser illumination beam which occurs for an increase in object distance, thereby yielding a laser beam power density on the target object which increases as a function of increasing object distance over a substantial portion of the object distance range of said PLIIM-based system.
- 42. The PLIIM-based system of claim 41, wherein the beam height of said PLIB is substantially constant (e.g. 1 mm) over the entire portion of the object distance range of said PLIIM-based system.
- 43. A PLIIM-based system having near and far field regions, comprising:
a planar laser illumination array (PLIA) having a plurality of visible laser diodes (VLDs), wherein the power density contributions of the individual visible laser diodes in the planar laser illumination array are additively combined to produce a planar laser illumination beam (PLIB) having substantially uniform power density characteristics in the near and far field regions of the system.
- 44. A method of illuminating an object and forming an image thereof, comprising the steps of:
providing a field of view (FOV) focused at an image detecting array; and producing a planar laser illumination beam having substantially-planar spatial distribution characteristics that extend through said field of view (FOV) so that laser light reflected off an object illuminated by said planar laser illumination beam is focused along said field of view and onto said image detecting array to form an image of said illuminated object.
- 45. The method of claim 44, wherein said step (b) comprise:
producing a plurality of laser beams from a plurality of visible laser diodes (VLDs); focusing each said laser beam through a focusing lens, and expanding the focused laser beam through a cylindrical optical element so as to produce a substantially planar laser illumination beam component; optically combining the plurality of planar laser illumination beam components produce a composite substantially planar laser illumination beam having substantially uniform power density characteristics over the entire spatial extend thereof and thus the working range of the system.
- 46. The method of claim 45, wherein each planar laser illumination beam component is focused so that the minimum beam width thereof occurs at a point or plane which is the farthest or maximum object distance at which the system is designed to acquire images, thereby compensating for decreases in the power density of the incident planar laser illumination beam due to the fact that the width of the planar laser illumination beam increases in length for increasing object distances away from the imaging optics.
CROSS-REFERENCE TO RELATED U.S. APPLICATIONS
[0001] This is a Continuation of copending U.S. application Ser. No. 09/721,885 filed Nov. 24, 2000, which is a Continuation-in-Part of copending application Ser. No. 09/327,756 filed Jun. 7, 1999, and PCT/US00/15624 filed Jun. 7, 2000, published as WO 00/75856 A1; each said application being commonly owned by Assignee, Metrologic Instruments, Inc., of Blackwood, N.J., and incorporated herein by reference as if fully set forth herein.
Continuations (1)
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Number |
Date |
Country |
Parent |
09721885 |
Nov 2000 |
US |
Child |
10059047 |
Jan 2002 |
US |
Continuation in Parts (2)
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Number |
Date |
Country |
Parent |
09327756 |
Jun 1999 |
US |
Child |
09721885 |
Nov 2000 |
US |
Parent |
PCT/US00/15624 |
Jun 2000 |
US |
Child |
09721885 |
Nov 2000 |
US |