Projection lenses for use with reflective pixelized panels
First Claim
Patent Images
1. A projection lens having an aperture stop, an optical axis, a long conjugate side, a short conjugate side, a power Φ
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0, and a back focal length BFL, said projection lens being adapted to form an image of a pixelized panel and consisting in order from said long conjugate side to said short conjugate side of;
(A) a first lens unit having a power Φ
U1 and comprising at least one aspheric surface; and
(B) a second lens unit having a power Φ
U2 and consisting in order from said long conjugate side to said short conjugate side of;
(i) a first lens subunit having a power Φ
S1;
(ii) a second lens subunit having a power Φ
S2 and an overall meniscus shape which is concave towards the short conjugate; and
(iii) a third lens subunit having a power Φ
S3 and a surface S3 at its long conjugate side;
wherein;
(a) Φ
U1<
0;
(b) Φ
U2>
0;
(c) Φ
S1>
0;
(d) Φ
S2<
0;
(e) Φ
S3>
0;
(f) BFL•
Φ
0≧
1.0; and
(g) the aperture stop is either within the third lens subunit or spaced from surface S3 in the direction of the long conjugate by a distance D which satisfies the relationship;
D•
Φ
0≦
0.1.
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Accused Products
Abstract
Projection lenses (13) for use with pixelized panels (PP) are provided. The projection lenses have a negative first unit (U1) which has at least one aspheric surface and a positive second unit (U2) which has three subunits (US1, US2, US3) which have a positive/negative/positive configuration. The lens'"'"' aperture stop (AS) is located at the short conjugate end of the lens and is either in the third subunit (US3) or close to that subunit. The lenses are particularly well-suited for use in the manufacture of compact projection systems which employ side illumination of a reflective pixelized panel.
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Citations
17 Claims
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1. A projection lens having an aperture stop, an optical axis, a long conjugate side, a short conjugate side, a power Φ
-
0, and a back focal length BFL, said projection lens being adapted to form an image of a pixelized panel and consisting in order from said long conjugate side to said short conjugate side of;
(A) a first lens unit having a power Φ
U1 and comprising at least one aspheric surface; and
(B) a second lens unit having a power Φ
U2 and consisting in order from said long conjugate side to said short conjugate side of;
(i) a first lens subunit having a power Φ
S1;
(ii) a second lens subunit having a power Φ
S2 and an overall meniscus shape which is concave towards the short conjugate; and
(iii) a third lens subunit having a power Φ
S3 and a surface S3 at its long conjugate side;
wherein;
(a) Φ
U1<
0;
(b) Φ
U2>
0;
(c) Φ
S1>
0;
(d) Φ
S2<
0;
(e) Φ
S3>
0;
(f) BFL•
Φ
0≧
1.0; and
(g) the aperture stop is either within the third lens subunit or spaced from surface S3 in the direction of the long conjugate by a distance D which satisfies the relationship;
D•
Φ
0≦
0.1.- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
D•
Φ
0≦
0.05.
-
0, and a back focal length BFL, said projection lens being adapted to form an image of a pixelized panel and consisting in order from said long conjugate side to said short conjugate side of;
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3. The projection lens of claim 1 wherein:
BFL•
Φ
0≧
1.2.
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4. The projection lens of claim 1 wherein:
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|Φ
U1|/Φ
0≧
0.7; and
Φ
U2/Φ
0≧
0.8.
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5. The projection lens of claim 1 wherein:
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|Φ
U1|/Φ
0≧
0.9; and
Φ
U2/Φ
0≧
0.9.
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6. The projection lens of claim 1 wherein the second and third lens subunits have a combined optical power Φ
-
S2+S3 and wherein;
Φ
S1/Φ
0≧
0.8; and
Φ
S2+S3/Φ
0≦
0.6.
-
S2+S3 and wherein;
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7. The projection lens of claim 1 wherein the second and third lens subunits have a combined optical power Φ
-
S2+S3 and wherein;
Φ
S1/Φ
0≧
0.9; and
Φ
S2+S3/Φ
0≦
0.5.
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S2+S3 and wherein;
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8. The projection lens of claim 1 wherein the first lens unit comprises at least one negative lens element having an overall meniscus shape which is convex towards the long conjugate side.
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9. The projection lens of claim 1 wherein the first lens unit consists of two negative lens elements, each of which has an overall meniscus shape which is convex towards the long conjugate side.
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10. The projection lens of claim 1 wherein the first lens subunit consists of a biconvex lens element.
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11. The projection lens of claim 1 wherein the second lens subunit consists of a doublet.
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12. The projection lens of claim 1 wherein the third lens subunit consists of a doublet.
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13. The projection lens of claim 1 wherein the projection lens consists of eight or less lens elements.
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14. The projection lens of claim 1 wherein the projection lens consists of seven lens elements.
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15. The projection lens of claim 1 wherein:
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(i) the projection lens has a field of view θ
in the direction of the long conjugate side of the lens; and
(ii) θ
satisfies the relationship;
θ
>
50°
.
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16. A projection lens system comprising:
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(a) a pixelized panel; and
(b) the projection lens of claim 1.
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17. The projection lens system of claim 16 further comprising an illumination system which has an optical axis which intersects the projection lens'"'"' optical axis at an acute angle.
Specification
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Current AssigneeRegents of The University of Minnesota (University of Minnesota)
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Original AssigneeCorning Precision Lens, Inc. (3M Company)
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InventorsKreitzer, Melvyn H.
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Primary Examiner(s)Sugarman, Scott J.
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Application NumberUS09/797,018Time in Patent Office615 DaysField of Search359/649, 359/650, 359/651, 359/752, 359/753, 359/762, 359/770US Class Current359/649CPC Class CodesG02B 13/04 Reversed telephoto objectives
