Imaging reader with non-uniform magnification within a field of view
First Claim
1. A reader for electro-optically reading a target by image capture, comprising:
- a housing having a window;
a solid-state imager supported by the housing, and having an array of sensors with a field of view in which the target is located during reading;
an imaging lens assembly having an optical axis, and operative for capturing return light through the window from the target located in a range of working distances along the optical axis away from the window, and for projecting the captured return light onto the array, the imaging lens assembly being optically modified for non-uniform magnification within, and increasing resolution at an outer peripheral region of, the field of view in an imaging plane generally perpendicular to the optical axis, the magnification at least partly increasing in the imaging plane with increasing radial distance away from the optical axis, to enable reading of the target when tilted relative to the optical axis and located at the outer peripheral region of the field of view; and
wherein the optically modified imaging lens assembly gradually increases the magnification in the imaging plane with increasing radial distance away from the optical axis until the outer peripheral region of the field of view is reached, and then gradually decreases the magnification in the imaging plane with increasing radial distance away from the optical axis as the outer peripheral region of the field of view is traversed.
4 Assignments
0 Petitions
Accused Products
Abstract
An imaging lens assembly captures return light through a window of a vertical slot scanner from a target located in a range of working distances along an optical axis away from the window, and projects the captured return light onto an array of a solid-state imager. The imaging lens assembly is optically modified for non-uniform magnification within, and for increasing resolution at an outer peripheral region of, a field of view of the array, in an imaging plane generally perpendicular to the optical axis. The magnification is at least partly increased in the imaging plane with increasing radial distance away from the optical axis, to enable reading of the target when tilted relative to the optical axis and located at the outer peripheral region of the field of view.
4 Citations
16 Claims
-
1. A reader for electro-optically reading a target by image capture, comprising:
-
a housing having a window; a solid-state imager supported by the housing, and having an array of sensors with a field of view in which the target is located during reading; an imaging lens assembly having an optical axis, and operative for capturing return light through the window from the target located in a range of working distances along the optical axis away from the window, and for projecting the captured return light onto the array, the imaging lens assembly being optically modified for non-uniform magnification within, and increasing resolution at an outer peripheral region of, the field of view in an imaging plane generally perpendicular to the optical axis, the magnification at least partly increasing in the imaging plane with increasing radial distance away from the optical axis, to enable reading of the target when tilted relative to the optical axis and located at the outer peripheral region of the field of view; and wherein the optically modified imaging lens assembly gradually increases the magnification in the imaging plane with increasing radial distance away from the optical axis until the outer peripheral region of the field of view is reached, and then gradually decreases the magnification in the imaging plane with increasing radial distance away from the optical axis as the outer peripheral region of the field of view is traversed. - View Dependent Claims (2, 3, 4, 5, 6)
-
-
7. A reader for electro-optically reading a target by image capture, comprising:
-
a housing having a window; a solid-state imager supported by the housing, and having an array of sensors with a field of view in which the target is located during reading; an imaging lens assembly having an optical axis, and operative for capturing return light through the window from the target located in a range of working distances along the optical axis away from the window, and for projecting the captured return light onto the array, the imaging lens assembly being optically modified for non-uniform magnification within, and increasing resolution at an outer peripheral region of, the field of view in an imaging plane generally perpendicular to the optical axis, the magnification at least partly increasing in the imaging plane with increasing radial distance away from the optical axis, to enable reading of the target when tilted relative to the optical axis and located at the outer peripheral region of the field of view; and wherein the optically modified imaging lens assembly comprises non-rotationally symmetrical optics; and wherein the non-rotationally symmetrical optics include at least one of a toroidal lens, a cylindrical lens, an aspherical toroidal lens and an aspherical cylindrical lens. - View Dependent Claims (8)
-
-
9. A method of electro-optically reading a target by image capture, comprising the steps of:
-
locating the target in a field of view of an array of sensors of a solid-state imager during reading; capturing return light through a window from the target located in a range of working distances along an optical axis of an imaging lens assembly; projecting the captured return light onto the array; optically modifying the imaging lens assembly for non-uniform magnification within, and for increasing resolution at an outer peripheral region of, the field of view, in an imaging plane generally perpendicular to the optical axis, by at least partly increasing the magnification in the imaging plane with increasing radial distance away from the optical axis, to enable reading of the target when tilted relative to the optical axis and located at the outer peripheral region of the field of view; and wherein the optically modifying step is performed by gradually increasing the magnification in the imaging plane with increasing radial distance away from the optical axis until the outer peripheral region of the field of view is reached, and then gradually decreasing the magnification in the imaging plane with increasing radial distance away from the optical axis as the outer peripheral region of the field of view is traversed. - View Dependent Claims (10, 11, 12, 13, 14)
-
-
15. A method of electro-optically reading a target by image capture, comprising the steps of:
-
locating the target in a field of view of an array of sensors of a solid-state imager during reading; capturing return light through a window from the target located in a range of working distances along an optical axis of an imaging lens assembly; projecting the captured return light onto the array; optically modifying the imaging lens assembly for non-uniform magnification within, and for increasing resolution at an outer peripheral region of, the field of view, in an imaging plane generally perpendicular to the optical axis, by at least partly increasing the magnification in the imaging plane with increasing radial distance away from the optical axis, to enable reading of the target when tilted relative to the optical axis and located at the outer peripheral region of the field of view; configuring the optically modified imaging lens assembly of non-rotationally symmetrical optics; and configuring the non-rotationally symmetrical optics as at least one of a toroidal lens, a cylindrical lens, an aspherical toroidal lens, and an aspherical cylindrical lens. - View Dependent Claims (16)
-
Specification