An autofocus lens system includes no conventional moving parts and has excellent speed and low power consumption. The system includes a small electronically-controlled focusing-module lens. The focusing-module lens includes two adjustable polymeric surfaces (e.g., two adjustable-surface lenses in a
An autofocus lens system includes no conventional moving parts and has excellent speed and low power consumption. The system includes a small electronically-controlled focusing-module lens. The focusing-module lens includes two adjustable polymeric surfaces (e.g., two adjustable-surface lenses in a back-to-back configuration). The curvature of the surfaces can be adjusted to change focus. The performance of the autofocus lens system is extended by adding a conventional first and second lens, or lens group, on either side of the focusing-module lens. What results is an autofocus lens system with excellent near field and far field performance.
대표청구항▼
1. A focusing-module lens, comprising: an aperture stop;two adjustable surfaces, wherein the optical power of the adjustable surfaces is controlled electronically to achieve focus;a first transparent deformable membrane having a ring-shaped piezoelectric film contiguously positioned on the first tra
1. A focusing-module lens, comprising: an aperture stop;two adjustable surfaces, wherein the optical power of the adjustable surfaces is controlled electronically to achieve focus;a first transparent deformable membrane having a ring-shaped piezoelectric film contiguously positioned on the first transparent deformable membrane's outer surface;a second transparent deformable membrane having a ring-shaped piezoelectric film contiguously positioned on the second transparent deformable membrane's outer surface; anda flexible polymer contiguously positioned between the first transparent deformable membrane and the second transparent deformable membrane, whereby the flexible polymer is in contact with the respective inner surfaces of the first transparent deformable membrane and the second transparent deformable membrane. 2. The focusing-module lens according to claim 1, wherein the focusing-module lens has a clear aperture with a diameter of between 1.3 millimeters and 1.7 millimeters. 3. The focusing-module lens according to claim 1, wherein the first transparent deformable membrane and the second transparent deformable membrane transparent each comprise glass, quartz, or sapphire. 4. The focusing-module lens according to claim 1, wherein the focusing-module lens has a focusing response time of 2 milliseconds or less. 5. The focusing-module lens according to claim 1, wherein the focusing-module lens consumes 20 milliwatts or less. 6. A lens system, comprising: a first positive lens group including a plurality of lenses fixedly positioned along an optical axis;a second positive lens group including a plurality of lenses fixedly positioned along the optical axis;a focusing-module lens fixedly positioned along the optical axis between the first positive lens group and the second positive lens group and formed from at least one adjustable surface whose optical power is electronically controlled to achieve focus, wherein the focusing-module lens (i) defines an aperture stop for the lens system and (ii) has a clear aperture whose diameter is smaller than the diameter of either the first lens group or the second lens group. 7. The lens system according to claim 6, wherein focusing-module lens comprises exactly two adjustable surfaces electronically controlled independently of one another. 8. The lens system according to claim 6, wherein the focusing-module lens consists of two adjustable-surface lenses positioned back-to-back. 9. The lens system according to claim 6, wherein the lens system has an f-number of 6 or less. 10. The lens system according to claim 6, wherein the lens system has a working distance of 10 centimeters or greater. 11. The lens system according to claim 6, wherein the focusing-module lens has a focusing response time of 2 milliseconds or less. 12. A system, comprising: a lens system, comprising (i) a first positive lens fixedly positioned along an optical axis, (ii) a second positive lens fixedly positioned along the optical axis, and (iii) a focusing-module lens fixedly positioned along the optical axis between the first positive lens and the second positive lens and formed from at least one adjustable surface, wherein the optical power of the at least one adjustable surface is controlled electronically to achieve focus of a real image of an indicia;a range finder for sensing the range of an indicia through transmitted and received radiation and for creating a range signal representing the sensed range;a lookup table stored in memory, the lookup table containing focus settings associated with range-signal values;a processor for running a process that compares the range signal with the lookup table in order to generate a corresponding control signal; anda controller for reading the control signal and for outputting electronic autofocus signals to adjust the lens system. 13. The system according to claim 12, wherein the focusing-module lens has a clear aperture whose diameter is smaller than the diameter of either the first positive lens or the second positive lens, the focusing-module lens defining an aperture stop for the lens system. 14. The system according to claim 12, wherein the first lens is a lens group comprising a plurality of lenses. 15. The system according to claim 12, wherein the second lens is a lens group comprising a plurality of lenses. 16. The system according to claim 12, wherein the first positive lens and the second positive lens each comprise a lens group comprising a plurality of lenses. 17. The system according to claim 12, wherein the focusing-module lens consists of two adjustable-surface lenses positioned in close proximity to one another. 18. The system according to claim 12, wherein the focusing-module lens comprises (i) a first glass membrane having a ring-shaped piezoelectric film contiguously positioned on the first glass membrane's outer surface, (ii) a second glass membrane having a ring-shaped piezoelectric film contiguously positioned on the second glass membrane's outer surface, and (iii) a flexible polymer contiguously positioned between the first glass membrane and the second glass membrane, whereby the flexible polymer is in contact with the respective inner surfaces of the first glass membrane and the second glass membrane. 19. The system according to claim 12, wherein the lens system has a working distance of 10 centimeters or greater. 20. The system according to claim 12, wherein the focusing-module lens consumes 20 milliwatts or less.
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