Imaging lens
Abstract
An imaging lens includes an aperture stop, a positive first lens with a biconvex shape, a negative second lens; a negative third lens, a positive fourth lens, and a negative fifth lens arranged in this order from an object side. When the whole lens system has a focal length f, focal lengths and Abbe's numbers of the first and the second lenses are f1, νd1, f2, and νd2, focal lengths of the fourth and fifth lenses are f4 and f5, a composite focal length of the first lens L 1 and the second lens L 2 is f12, and a distance from a surface of the first lens L 1 on the object side to a surface of the fifth lens L 5 on the image side is Σd, the imaging lens satisfies the following conditional expressions: 0.7<f12/f<1.4 0.2<|f1/f2|<0.6 15<νd1−νd2 0.4<f4/f<1.0 Σd/f<1.2 |f5/f|<1.0.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1. An imaging lens, comprising:
a first lens having positive refractive power; a second lens having negative refractive power; a third lens having negative refractive power; a fourth lens having positive refractive power; and a fifth lens having negative refractive power in this order from an object side to an image side, wherein said first lens is a biconvex lens, said second lens has a concave surface facing the object side, said third lens is a meniscus lens having a concave surface facing the object side, and said fifth lens is a biconcave lens.
2. The imaging lens according to claim 1 , wherein said first lens and said second lens have a composite focal length f12 and a whole lens system has a focal length f so that the following conditional expression is satisfied:
0.7<f12/f<1.4.
3. The imaging lens according to claim 1 , wherein said first lens has a focal length f1 and said second lens has a focal length f2 so that the following conditional expression is satisfied:
0.2<f1/f21<0.6.
4. The imaging lens according to claim 1 , wherein said first lens has an Abbe's number νd1 and said second lens has an Abbe's number νd2 so that the following conditional expression is satisfied:
15<νd1−νd2.
5. The imaging lens according to claim 1 , wherein said fourth lens has a focal length f4 and a whole lens system has a focal length f so that the following conditional expression is satisfied:
0.4<f4/f<1.0.
6. The imaging lens according to claim 1 , wherein said first lens and said fifth lens are arranged so that a surface of the first lens on the object side is away from a surface of the fifth lens on the image side by a distance Σd on an optical axis and a whole lens system has a focal length f so that the following conditional expression is satisfied:
Σd/f<1.2.
7. The imaging lens according to claim 1 , wherein said fifth lens has a focal length f5 and a whole lens system has a focal length f so that the following conditional expression is satisfied:
|f5/f|<1.0.
8. An imaging lens, comprising:
a first lens having positive refractive power; a second lens having negative refractive power; a third lens having negative refractive power; a fourth lens having positive refractive power; and a fifth lens having negative refractive power in this order from an object side to an image side, wherein said first lens is a biconvex lens, said second lens has a concave surface facing the object side, said third lens is a meniscus lens having a concave surface facing the object side, and said fourth lens has a focal length f4 and a whole lens system has a focal length f so that the following conditional expression is satisfied:
0.4<f4/f<1.0.
9. The imaging lens according to claim 8 , wherein said first lens and said second lens have a composite focal length f12 and a whole lens system has a focal length f so that the following conditional expression is satisfied:
0.7<f12/f<1.4.
10. The imaging lens according to claim 8 , wherein said first lens has a focal length f1 and said second lens has a focal length f2 so that the following conditional expression is satisfied:
0.2<|f1/f2|<0.6.
11. The imaging lens according to claim 8 , wherein said first lens has an Abbe's number νd1 and said second lens has an Abbe's number νd2 so that the following conditional expression is satisfied:
15<νd1−νd2.
12. The imaging lens according to claim 8 , wherein said first lens and said fifth lens are arranged so that a surface of the first lens on the object side is away from a surface of the fifth lens on the image side by a distance Σd on an optical axis and a whole lens system has a focal length f so that the following conditional expression is satisfied:
Σd/f<1.2.
13. The imaging lens according to claim 8 , wherein said fifth lens has a focal length f5 and a whole lens system has a focal length f so that the following conditional expression is satisfied:
|f5/f1<1.0.
14. An imaging lens, comprising:
a first lens having positive refractive power; a second lens having negative refractive power; a third lens having negative refractive power; a fourth lens having positive refractive power; and a fifth lens having negative refractive power in this order from an object side to an image side, wherein said first lens is a biconvex lens, said second lens has a concave surface facing the object side, said third lens is a meniscus lens having a concave surface facing the object side, and said fifth lens has a focal length f5 and a whole lens system has a focal length f so that the following conditional expression is satisfied:
|f5/f1<1.0.
15. The imaging lens according to claim 14 , wherein said first lens and said second lens have a composite focal length f12 and a whole lens system has a focal length f so that the following conditional expression is satisfied:
0.7<f12/f<1.4.
16. The imaging lens according to claim 14 , wherein said first lens has a focal length f1 and said second lens has a focal length f2 so that the following conditional expression is satisfied:
0.2<|f1/f21<0.6.
17. The imaging lens according to claim 14 , wherein said first lens has an Abbe's number νd1 and said second lens has an Abbe's number νd2 so that the following conditional expression is satisfied:
15<νd1−νd2.
18. The imaging lens according to claim 14 , wherein said fourth lens has a focal length f4 and a whole lens system has a focal length f so that the following conditional expression is satisfied:
0.4<f4/f<1.0.
19. The imaging lens according to claim 14 , wherein said first lens and said fifth lens are arranged so that a surface of the first lens on the object side is away from a surface of the fifth lens on the image side by a distance Σd on an optical axis and a whole lens system has a focal length f so that the following conditional expression is satisfied:
Σd/f<1.2.
20. An imaging lens, comprising:
a first lens having positive refractive power; a second lens; a third lens having negative refractive power; a fourth lens; and a fifth lens, arranged in this order from an object side to an image side, wherein said third lens is formed in a meniscus shape, said fifth lens has a concave surface facing the image side, said concave surface being formed in an aspheric shape having an inflection point, and said first lens has an Abbe's number νd1 and said second lens has an Abbe's number νd2 so that the following conditional expression is satisfied:
15<νd1−νd2.
21. The imaging lens according to claim 20, wherein said first lens and said second lens have a composite focal length f12 so that the following conditional expression is satisfied:
0.7<f12/f<1.4, where f is a focal length of a whole lens system.
22. The imaging lens according to claim 20, wherein said first lens has a focal length f1 and said second lens has a focal length f2 so that the following conditional expression is satisfied:
0.2<|f1/f2|<0.6.
23. The imaging lens according to claim 20, wherein said fourth lens has a focal length f4 so that the following conditional expression is satisfied:
0.4<f4/f<1.0, where f is a focal length of a whole lens system.
24. The imaging lens according to claim 20, wherein said first lens and said fifth lens are arranged so that a surface of the first lens on the object side is away from a surface of the fifth lens on the image side by a distance Σd on an optical axis so that the following conditional expression is satisfied:
Σd/f<1.2,
where f is a focal length of a whole lens system.
25. The imaging lens according to claim 20, wherein said fifth lens has a focal length f5 so that the following conditional expression is satisfied:
|f5/f|<1.0, where f is a focal length of a whole lens system.
26. An imaging lens, comprising:
a first lens having positive refractive power; a second lens; a third lens; a fourth lens having positive refractive power; and a fifth lens, arranged in this order from an object side to an image side, wherein said second lens is formed in a meniscus shape, said third lens has surfaces facing the object side and the image side and formed in aspheric shapes, said fifth lens has a concave surface facing the image side, said concave surface being formed in an aspheric shape having an inflection point, and said fourth lens has a focal length f4 so that the following conditional expression is satisfied:
0.4<f4/f<1.0,
where f is a focal length of a whole lens system.
27. The imaging lens according to claim 26, wherein said fourth lens has a convex surface facing the image side.
28. The imaging lens according to claim 26, wherein said first lens and said second lens has a composite focal length f12 so that the following conditional expression is satisfied:
0.7<f12/f<1.4.
29. The imaging lens according to claim 26, wherein said first lens has a focal length f1 and said second lens has a focal length f2 so that the following conditional expression is satisfied:
0.2<|f1/f2|<0.6.
30. The imaging lens according to claim 26, wherein said first lens has an Abbe's number νd1 and said second lens has an Abbe's number νd2 so that the following conditional expression is satisfied:
15<νd1−νd2.
31. The imaging lens according to claim 26, wherein said first lens and said fifth lens are arranged so that a surface of the first lens on the object side is away from a surface of the fifth lens on the image side by a distance Σd on an optical axis so that the following conditional expression is satisfied:
Σd/f<1.2.
32. The imaging lens according to claim 26, wherein said fifth lens has a focal length f5 so that the following conditional expression is satisfied:
|f5/f|<1.0.
33. An imaging lens, comprising:
a first lens having positive refractive power; a second lens; a third lens having negative refractive power; a fourth lens; and a fifth lens, arranged in this order from an object side to an image side, wherein said third lens has surfaces facing the object side and the image side and formed in aspheric shapes, said fourth lens has surfaces facing the object side and the image side and formed in aspheric shapes, said fifth lens has a surface facing the object side and formed in an aspheric shape, said fifth lens has a concave surface facing the image side and formed in an aspheric shape, and said first lens and said fifth lens are arranged so that a surface of the first lens on the object side is away from a surface of the fifth lens on the image side by a distance Σd on an optical axis so that the following conditional expression is satisfied:
Σd/f<1.2,
where f is a focal length of a whole lens system.
34. The imaging lens according to claim 33, wherein said fourth lens has a convex surface facing the image side.
35. The imaging lens according to claim 33, wherein said first lens and said second lens has a composite focal length f12 so that the following conditional expression is satisfied:
0.7<f12/f<1.4.
36. The imaging lens according to claim 33, wherein said first lens has a focal length f1 and said second lens has a focal length f2 so that the following conditional expression is satisfied:
0.2<|f1/f2|<0.6.
37. The imaging lens according to claim 33, wherein said first lens has an Abbe's number νd1 and said second lens has an Abbe's number νd2 so that the following conditional expression is satisfied:
15<νd1−νd2.
38. The imaging lens according to claim 33, wherein said fourth lens has a focal length f4 so that the following conditional expression is satisfied:
0.4<f4/f<1.0.
39. The imaging lens according to claim 33, wherein said fifth lens has a focal length f5 so that the following conditional expression is satisfied:
|f5/f|<1.0.Cited by (0)
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