Folded, telecentric projection lenses for use with pixelized panels
First Claim
1. A projection lens for forming an enlarged image of a pixelized panel on a screen, said projection lens having an optical axis, a long conjugate side, a short conjugate side, and an effective focal length f0, said lens comprising in order from the long conjugate side to the short conjugate side:
- (A) a first lens unit having a negative power and comprising a plurality of lens elements, wherein;
(i) one of the lens elements LM is a negative lens element of overall meniscus shape which is convex towards the long conjugate side and comprises at least one aspheric surface; and
(ii) another of the lens elements has an optical surface S1 which constitutes the short conjugate end of the first lens unit;
(B) a reflective surface for folding the projection lens'"'"' optical axis; and
(C) a second lens unit having a positive power and comprising a plurality of lens elements, wherein;
(i) one of the lens elements LA is a positive lens element which comprises at least one aspheric surface; and
(ii) another of the lens elements has an optical surface S2 which constitutes the long conjugate end of the second lens unit;
wherein;
(a) the first and second lens units are the only lens units of the projection lens;
(b) the projection lens has a field of view in the direction of the long conjugate which is greater than 82 degrees;
(c) the projection lens is telecentric on the short conjugate side;
(d) the projection lens has an effective back focal length BFL which satisfies the relationship;
BFL/f0>
2.0;
(e) the projection lens has a mechanical spacing S1-2 between S1 and S2 which satisfies the relationship;
S1-2/f0>
3.5,where the mechanical spacing is the smaller of the center-to-center distance and the edge-to-edge distance between S1 and S2 for an unfolded optical axis; and
(f) the projection lens has a lateral color LC in its short conjugate focal plane which satisfies the relationships;
LCred-blue<
0.0012·
f0,
LCred-green<
0.0012·
f0, and
LCblue-green<
0.0012·
f0, where (i) the red-blue and red-green relationships are satisfied over the full field in the short conjugate focal plane, (ii) the blue-green relationship is satisfied over at least 95% of the full field in the short conjugate focal plane, and (iii) the red, green, and blue wavelengths are 0.62 micrometers, 0.55 micrometers, and 0.46 micrometers, respectively.
3 Assignments
0 Petitions
Accused Products
Abstract
Projection lenses for use with pixelized panels (PP) are provided. The projection lenses have a negative first unit (U1) separated from a positive second unit (U2) by a reflective surface (RS) which folds the lens'"'"' optical axis. The lenses are telecentric on the short conjugate side, have a large field of view in the direction of the long conjugate, and have low aberration levels, including, in particular, low levels of lateral color.
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Citations
20 Claims
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1. A projection lens for forming an enlarged image of a pixelized panel on a screen, said projection lens having an optical axis, a long conjugate side, a short conjugate side, and an effective focal length f0, said lens comprising in order from the long conjugate side to the short conjugate side:
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(A) a first lens unit having a negative power and comprising a plurality of lens elements, wherein;
(i) one of the lens elements LM is a negative lens element of overall meniscus shape which is convex towards the long conjugate side and comprises at least one aspheric surface; and
(ii) another of the lens elements has an optical surface S1 which constitutes the short conjugate end of the first lens unit;
(B) a reflective surface for folding the projection lens'"'"' optical axis; and
(C) a second lens unit having a positive power and comprising a plurality of lens elements, wherein;
(i) one of the lens elements LA is a positive lens element which comprises at least one aspheric surface; and
(ii) another of the lens elements has an optical surface S2 which constitutes the long conjugate end of the second lens unit;
wherein;
(a) the first and second lens units are the only lens units of the projection lens;
(b) the projection lens has a field of view in the direction of the long conjugate which is greater than 82 degrees;
(c) the projection lens is telecentric on the short conjugate side;
(d) the projection lens has an effective back focal length BFL which satisfies the relationship;
BFL/f0>
2.0;
(e) the projection lens has a mechanical spacing S1-2 between S1 and S2 which satisfies the relationship;
S1-2/f0>
3.5,where the mechanical spacing is the smaller of the center-to-center distance and the edge-to-edge distance between S1 and S2 for an unfolded optical axis; and (f) the projection lens has a lateral color LC in its short conjugate focal plane which satisfies the relationships;
LCred-blue<
0.0012·
f0,
LCred-green<
0.0012·
f0, and
LCblue-green<
0.0012·
f0,where (i) the red-blue and red-green relationships are satisfied over the full field in the short conjugate focal plane, (ii) the blue-green relationship is satisfied over at least 95% of the full field in the short conjugate focal plane, and (iii) the red, green, and blue wavelengths are 0.62 micrometers, 0.55 micrometers, and 0.46 micrometers, respectively. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
where te is determined at the clear aperture of the short conjugate surface of LM.
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6. The projection lens of claim 1 wherein:
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(i) the second lens unit consists of first and second subunits, the second subunit being on the short conjugate side of the second lens unit; and
(ii) the projection lens can be focused by moving either the entire second lens unit or just the second subunit.
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7. The projection lens of claim 1 wherein the second lens unit comprises at least one lens element which is composed of an anomalous dispersion glass.
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8. The projection lens of claim 1 wherein an axial marginal ray traced through the projection lens from the projection lens'"'"' short conjugate focal plane intersects each lens surface of the projection lens at an angle of incidence that is greater than 1.5 degrees except for (i) the lens surfaces of LM and (ii) any lens surfaces which are on the long conjugate side of LM for which the angle of incidence may be greater than, less than, or equal to 1.5 degrees.
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9. The projection lens of claim 1 wherein the total number of lens elements in the projection lens is less than eight.
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10. The projection lens of claim 9 wherein two of the lens elements are in the form of a cemented doublet.
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11. The projection lens of claim 1 wherein in order from the long conjugate side to the short conjugate side, the first and second lens units together comprise the following seven lens elements:
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(1) LM;
(2) a biconcave negative lens element;
(3) a first biconvex positive lens element which comprises S1;
(4) a second biconvex positive lens element which comprises S2;
(5) a negative lens element;
(6) a biconvex positive lens element; and
(7) LA;
wherein the second biconvex positive lens element and the negative lens element form a color-correcting doublet.
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12. 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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13. The projection lens systems of claim 12 further comprising an illumination system which comprises a light source and illumination optics which forms an image of the light source.
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14. The projection lens system of claim 13 wherein the output of the illumination optics forms a virtual aperture stop for the projection lens.
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15. A projection lens for forming an enlarged image of a pixelized panel on a screen, said projection lens having an optical axis, a long conjugate side, a short conjugate side, and an effective focal length f0, said lens comprising in order from the long conjugate side to the short conjugate side:
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(A) a first lens unit having a negative power and consisting in order from the long conjugate side to the short conjugate side of;
(1) a negative lens element LM of overall meniscus shape which is convex towards the long conjugate side and comprises at least one aspheric surface;
(2) a biconcave negative lens element; and
(3) a biconvex positive lens element which has an optical surface S1 which constitutes the short conjugate end of the first lens unit;
(B) a reflective surface for folding the projection lens'"'"' optical axis; and
(C) a second lens unit having a positive power and consisting in order from the long conjugate side to the short conjugate side of;
(1) a color correcting doublet which consists of;
(i) a biconvex positive lens element which has an optical surface S2 which constitutes the long conjugate end of the second lens unit and (ii) a negative lens element;
(2) a biconvex positive lens element LBC; and
(3) a positive lens element LA which comprises at least one aspheric surface;
wherein;
(a) the first and second lens units are the only lens units of the projection lens;
(b) the projection lens has a field of view in the direction of the long conjugate which is greater than 82 degrees;
(c) the projection lens is telecentric on the short conjugate side;
(d) the projection lens has an effective back focal length BFL which satisfies the relationship;
BFL/f0>
2.0; and
(e) the projection lens has a spacing S1-2 between the center of S1 and the center of S2 which satisfies the relationship;
S1-2/f0>
3.5. - View Dependent Claims (16, 17, 18, 19, 20)
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Specification