Optical: systems and elements – Lens – Multiple component lenses
Reexamination Certificate
2000-09-22
2002-09-10
Schwartz, Jordan M. (Department: 2873)
Optical: systems and elements
Lens
Multiple component lenses
C359S717000, C359S753000
Reexamination Certificate
active
06449105
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to an image pickup lens system for use with a CCD or CMOS used in, for example, a monitor camera of a mobile apparatus, a monitor camera of a cellular phone, a monitor camera of a lap-top computer, or a TV camera.
2. Description of the Related Art
An image pickup lens system for use with such a CCD or CMOS has undergone reduction in the number of glass lenses or employment of a plastic lens in order to reduce cost and size.
However, some image pickup lens systems have attained a reduction in the number of glass lenses and size, but involve an increase in cost due to use of an aspheric mold glass lens. Other image pickup lens systems have reduced cost through employment of an aspheric plastic lens, but involve an increase in lens diameter or overall length, thereby failing to reduce size.
Because of a continuing tendency toward a reduction in the size of CCDs and CMOSs, demand exists to greatly decrease the distance between the first surface of a first lens and an image surface in an image pickup lens system.
The conventional image pickup lens systems fail to attain a satisfactory reduction in cost and size.
For employment in future compact apparatus using a CCD or CMOS such as mobile apparatus, lap-top computers, and cellular phones, an image pickup lens system must clear a hurdle of still greater reduction in the lens diameter and overall length, as compared with the conventional lens systems, so as to be compatible with a CCD or CMOS of greatly reduced size.
SUMMARY OF THE INVENTION
An object of the present invention is to provide an image pickup lens system for use with highly advanced CCDs or CMOSs used in, for example, cameras, monitors or TV cameras, providing brightness equivalent to an F-number of about 2, assuming a 2-lens configuration, and featuring low cost and being highly compact in lens diameter and overall length.
Another object of the present invention is to provide an image pickup lens system employing plastic lenses for weight reduction.
To achieve the above objects, the present invention provides an image pickup lens system configured in the following manner (see FIG.
1
).
The image pickup lens system of the present invention comprises a first lens (L
1
), a stop, and a second lens (L
2
) arranged in a row from an object side to an image side. The first lens (L
1
) is a meniscus lens having negative power and oriented such that a convex surface thereof faces the object side. The second lens (L
2
) is a meniscus lens having positive power and oriented such that a convex surface thereof faces the image side.
The image pickup lens system has at least two aspheric lens surfaces such that the first lens (L
1
) has at least one aspheric surface and such that the second lens (L
2
) has at least one aspheric surface. Through employment of the aspheric lens surfaces and the above-mentioned configurational feature, various kinds of aberrations can be corrected appropriately, and plastic can be used effectively as lens material.
The image pickup lens system satisfies the following three configurational conditions.
3.2
f≦|r
3
|≦50
f
(1)
0.9
f≦d≦
1.5
f
(2)
0.1
<|f
2
|/|
f
1
|<0.9 (3)
where
f: focal length of the image pickup lens system;
f
1
: focal length of the first lens (L
1
);
f
2
: focal length of the second lens (L
2
);
d: distance between the convex surface (first surface) of the first lens (L
1
) and the convex surface (second surface) of the second lens (L
2
) (overall length of the image pickup lens system); and
r
3
: radius of curvature of the concave surface (first surface) of the second lens (L
2
) facing the object side.
The first lens (L
1
) and the second lens (L
2
) are of resin.
The second surface of the first lens (L
1
) may be aspheric, and the opposite surfaces of the second lens (L
2
) may be aspheric.
The number of lenses used in the present invention is as low as two, thereby reducing the size of the image pickup lens system for CCD or CMOS. In order to attain compactness and considerable brightness, two or more lens surfaces are aspheric.
Condition (1) specifies the distribution of power between the first surface (r
3
) and the second surface (r
4
) of the second lens (L
2
). When the absolute radius of curvature of the first surface (r
3
) of the second lens (L
2
) is less than the lower limit of condition (1), the radius of curvature of the second surface (r
4
) of the second lens (L
2
) decreases accordingly, causing an increase in spherical aberration and coma aberration. In this case, even when an aspheric profile is imparted to each of the first and second. surfaces (r
3
and r
4
), the thus-increased aberrations is difficult to correct, resulting in failure to produce a quality image.
When the absolute radius of curvature of the first surface (r
3
) of the second lens (L
2
) is in excess of the upper limit of condition (1), the radius of curvature of the first surface (r
3
) of the second lens (L
2
) becomes excessively large. In this case, even when an aspheric profile is imparted to the first surface (r
3
), correction of the aberrations is difficult , resulting in failure to produce a quality image.
Condition (2) specifies the size of the image pickup lens system. When the overall length (d) of the image pickup lens system is less than the lower limit of condition (2), the spacing between the first lens (L
1
) and the second lens (L
2
) and the thickness of the second lens (L
2
) decrease, resulting in an increase in the focal length (f) of the image pickup lens system. Thus, the focal length (f) must be corrected through decrease in the radius of curvature of the second surface (r
4
) of the second lens (L
2
). That is, the image pickup lens system encounters difficulty in correcting spherical aberration and coma aberration, resulting in failure to produce a quality image.
When the overall length (d) is in excess of the upper limit of condition (2), a marginal-lumination ratio decreases. For correction of this decrease in marginal-lumination ratio, the diameter of the first lens (L
1
) must be increased. Thus, the image pickup lens system encounters difficulty in decreasing the overall length thereof and lens diameter.
Condition (3) specifies the distribution of power between the first lens (L
1
) and the second lens (L
2
). When the |f
2
|/|f
1
| value is less than the lower limit of condition (3), power of the second lens (L
2
) increases, resulting in a decrease in the radius of curvature of the second surface (r
4
) of the second lens (L
2
). Thus, the image pickup lens system encounters difficulty in correcting spherical aberration and coma aberration.
When the |f
2
|/|f
1
| value is in excess of the upper limit of condition (3), power of the second lens (L
2
) weakens, resulting in an increase in the focal length (f) and the back focal length (bf) of the image pickup lens system, resulting in an increase in the length of the overall optical path. Thus, the size of the image pickup lens system cannot be decreased.
When power of the first lens (L
1
) increases, and the |f
2
|/|f
1
| value is in excess of the upper limit of condition (3), the image pickup lens system encounters difficulty in correcting optical aberrations caused by the first lens (L
1
), resulting in failure to produce a quality image.
Through satisfaction of conditions (1) to (3), the image pickup lens system of the present invention attains compactness and excellent characteristics.
As described above, although the image pickup lens system of the present invention assumes a 2-group 2-lens configuration; i.e., includes a reduced number of lenses, the image pickup lens system of the present invention enables use of a plastic lens and attains high compactness, high performance, low cost, light weight, and good compatibility with CCDs and CMOSs.
REFERENCES:
patent: 5619380 (1997-04-01), Ogasawara et al.
Koda & Androlia
Milestone Co., Ltd.
Schwartz Jordan M.
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