CN1834716A - Telephotolens - Google Patents

Telephotolens Download PDF

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Publication number
CN1834716A
CN1834716A CN 200510065660 CN200510065660A CN1834716A CN 1834716 A CN1834716 A CN 1834716A CN 200510065660 CN200510065660 CN 200510065660 CN 200510065660 A CN200510065660 A CN 200510065660A CN 1834716 A CN1834716 A CN 1834716A
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China
Prior art keywords
lens
face
shape
telephoto
telephoto lens
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CN 200510065660
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CN100351663C (en
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佐藤贤一
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Fujinon Corp
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Fujinon Corp
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Abstract

The invention relates to a telescope lens that has aperture St, the first lens G1 and the second lens G2.0.12<R1/f<0.40, tan theta<0.45, and f is the near axial focus, R1 is the near axial radius of curvature of the first lens, and theta is the maximum incident angle.

Description

Telephoto lens
Technical field
The present invention relates to be suitable for toward for example with the telephoto lens that carries in the portable phone of camera or the PDA small information terminal devices such as (Personal DigitalAssistant).
Background technology
In recent years, be accompanied by personal computer and popularize, the digital still life camera of image information input personal computers such as the landscape taken and bust (below, only be called digital camera) can be popularized rapidly to general family etc.In addition, along with the multifunction of portable phone, the portable phone that carries the band camera of small-sized image pickup module is also popularized rapidly.In addition, carrying photographing module in small-sized Signal Terminal equipment such as PDA also popularizes.
Charge coupled cell) or CMOS imaging apparatuss such as (Complementary Metal Oxide Semiconductor) possess in the equipment of these camera functions, adopted CCD (Charge Coupled Device:.These imaging apparatuss are in recent years to very miniaturization development.Thereby on the picture pick-up device that adopts imaging apparatus such as CCD, for equipment body and carry lens on it, also require miniaturization and.In addition, in recent years, in order to realize high image quality, and the many imaging apparatuss of exploitation pixel, thereupon, also be required the performance of high resolving power more and high-contrast in lens combination.
As the imaging lens system that this picture pick-up device adopted, for example Yi Xia patent documentation 1 is described.Put down in writing the imaging lens system of 2 formations in this patent documentation 1.
Patent documentation 1: the spy opens the 2000-258684 communique
As mentioned above, imaging apparatus in recent years, miniaturization and high pixelation are developed, accompany therewith, particularly require the miniaturization of high resolving power performance and formation in the imaging lens system that digital camera is used.On the other hand, in the imaging lens system that the small information terminal devices such as portable phone of band camera are used, existing major requirement cost aspect and compactedness, and recently in the portable phone of band camera etc., the high pixelation of imaging apparatus also has the trend of development, for example the above device corresponding with the megabit pixel of 1,000,000 pixels is practical, and be also high with respect to the requirement of aspect of performance.Thereby the diversified lens of taking all factors into consideration cost aspect, aspect of performance and compactedness are developed in expectation.
As the small information terminal device imaging lens system corresponding with high pixel, existing 3 lens combinations that constitute that constitute by 1 glass lens and 2 plastic lenss and the lens combination that adopts 3 above plastic lenss etc. for example developed.But, in order to require correspondingly with in recent years miniaturization, and the expectation lens combination is to be less than 3 block of lense number and in performance direction and existing equal extent.
The described lens of above-mentioned patent documentation are a kind of with 2 and adopt aspheric lens to constitute, but the compacter and high performance lens combination of expectation exploitation also.When particularly adopting the small-sized image pickup element, ratio chromatism, is remarkable easily, therefore, can correct ratio chromatism, well as its lens combination expectation.
In addition, originally the lens that carry on the small information terminal device generally mostly are type (for example press the 35mm film and convert when representing shooting face, be equivalent to the lens combination of focal distance f=35mm), less develop the telephoto lens system.Yet,, wish the high performance telephoto lens system of compactness that exploitation also can be carried on the small information terminal device for corresponding user's multiple demand.
Summary of the invention
The present invention makes in view of this problem, its objective is the telephoto lens that a kind of telescopic system that is achieved as follows is provided, and it has less block of lense number, and by effectively utilizing aspheric surface to make it high-performance and very compact.
According to telephoto lens of the present invention, comprise successively from object one side: aperture; The two sides is that aspherical shape and the face that makes object one side are first lens of the meniscus shape with positive amplification ratio of convex shape; With the two sides be aspherical shape and near paraxial second lens of convex surface towards the meniscus shape with positive amplification ratio of object one side, and, satisfy following conditions formula (1), (2):
0.12<R1/f<0.40 ……… (1)
tanθ<0.45 ……… (2)
Wherein, f is the paraxial focal length of lens combination integral body, and R1 is the paraxial radius-of-curvature of face of object one side of first lens, and θ represents the maximum incident angle degree of chief ray.
In telephoto lens of the present invention, aperture is configured in the most close object side, then dispose first lens and second lens that the two sides is an aspherical shape successively from object side, and satisfy rated condition formula (1) about the shape of first lens etc., shape that (2) suitably carry out each lens, magnification distribution etc., obtain the few block of lense number as 2, and effectively utilize aspheric surface obtain with the portable phone of original band camera etc. in the employed general identical high optical property of 3 block structured lens.In addition, realize and compared originally the very telephoto lens system of compactness.
Here, preferably this telephoto lens also satisfies following conditions formula (3).Correct highly beneficial by satisfying this condition for ratio chromatism.
0.70<ΔZF/ΔZR<1.50 ……… (3)
Wherein, Δ ZF represents the face of object one side of first lens at the shape displacement of the optical axis direction at maximum effective sunlight height H F place, and Δ ZR represents that the face of picture one side of first lens is at the shape displacement of the optical axis direction at maximum effective sunlight height H R place.
In this telephoto lens, the lens material of preferred first lens and above-mentioned second lens all is a plastic material.By using plastic material, carry out aspherical mirror machining easily.
Can realize more high-performance and compact telephoto lens system by adopting these preferred structures as required.
According to telephoto lens of the present invention, aperture is configured in the most close object side, then dispose first lens and second lens that the two sides is an aspherical shape successively from object side, and satisfy rated condition formula (1) about the shape of first lens etc., (2) suitably carry out the shape, magnification distribution etc. of each lens, even less block of lense number is arranged, also can obtain more high-performance and extremely compact telephoto lens system by effectively utilizing aspheric surface.
Especially constitute under the situation of shape of first lens in the formula of satisfying condition (3), the rectification of ratio chromatism, is carried out easily, thereby can realize more high-performance and compact telephoto lens system.
Description of drawings
Fig. 1 represents the formation example of the telephoto lens of one embodiment of the present invention, is the lens cut-open view corresponding with embodiment 1;
Fig. 2 represents that another of telephoto lens of one embodiment of the present invention constitutes example, is the lens cut-open view corresponding with embodiment 2;
Fig. 3 is the key diagram about first lens shape of the telephoto lens of one embodiment of the present invention;
Fig. 4 is the aberration diagram of spherical aberration, astigmatism, distortion and ratio chromatism, of the telephoto lens of expression embodiment 1;
Fig. 5 is the aberration diagram of spherical aberration, astigmatism, distortion and ratio chromatism, of the telephoto lens of expression embodiment 2.
Among the figure: CG-cloche, St-aperture, Gj-radius-of-curvature, Di-from the j lens of object side, Ri-from the i lens face of object side from the face between i number of object side and the i+1 lens face at interval, the Z1-optical axis.
Embodiment
Describe embodiments of the present invention with reference to the accompanying drawings in detail.
Fig. 1 represents the formation example of the telephoto lens of one embodiment of the present invention.This constitutes the lens arrangement of the corresponding first numerical value embodiment (table 1, table 2) described later of example.In addition, Fig. 2 represents another formation example of the telephoto lens of present embodiment.The lens arrangement of the corresponding second value embodiment described later of the formation example of Fig. 2 (table 3, table 4).In addition, among Fig. 1, Fig. 2, symbol Ri represents to be No. 0, to be No. 1 with the lens important document face of nearest object side with aperture St, along with the radius-of-curvature of coming i (i=0~6) face of diacritic successively towards picture side (imaging side) with increasing.Symbol Di represents i face and (i+1) face face on optical axis Z1 at interval.Therefore in addition, each constitutes example all is essentially identical structure, illustrates based on the structure of telephoto lens shown in Figure 1 below.
This telephoto lens carries on the picture pick-up device that for example especially uses the small-sized image pickup element with small information terminal device, the digital cameras etc. such as portable phone of camera and uses.This telephoto lens is the structure that disposes aperture St, the first lens G1 and the second lens G2 from object one side along optical axis Z1 successively.
The imaging apparatus of the unshowned CCD of the last configuration of the imaging surface (shooting face) of this telephoto lens etc.Near the cloche CG of the configuration protection shooting face shooting face of CCD.Between the second lens G2 and the imaging surface (shooting face) except that cloche CG, other opticses of also configurable infrared ray cut off filter and low-pass filter etc.
The two sides of the first lens G1 all is an aspherical shape, and for being the meniscus shape with positive amplification ratio of convex shape with the face of object one side.
The two sides of the second lens G2 all is an aspherical shape, and near paraxial with the meniscus shape with positive amplification ratio of convex surface towards object one side.About the aspherical shape of the second lens G2, hope is for example in the effective radius scope, and the face of object one side is the closer to periphery, the weak more aspherical shape of positive amplification ratio.Thus, the second lens G2 for example is: the face of object one side is concave for convex shape at periphery near paraxial.
In addition, in the present embodiment, near the lens shape paraxial in aspheric surface formula described later (A) for example, part (part except the polynomial segment that coefficient Ai the relates to) expression that relates to by COEFFICIENT K.
This telephoto lens satisfies following conditions formula (1), (2).F is the paraxial focal length of lens combination integral body in the conditional (1), (2), and R1 is the paraxial radius-of-curvature of face of object one side of first lens, and θ represents the maximum incident angle degree of chief ray.
0.12<R1/f<0.40 ……… (1)
tanθ<0.45 ……… (2)
Preferably this telephoto lens also satisfies following conditions formula (3).
0.70<ΔZF/ΔZR<1.50 ……… (3)
Here, as shown in Figure 3, Δ ZF represents the face of object one side of the first lens G1 at the shape displacement of the optical axis direction at height H F place, and Δ ZR represents that the face of picture one side of the first lens G1 is at the shape displacement of the optical axis direction at height H R place.Height H F is the maximum height of the face of effective sunlight object one side of passing through the first lens G1.Height H Z is the maximum height of the face of the effective sunlight picture side of passing through the first lens G1.
This telephoto lens is because the two sides of the first lens G1 and the second lens G2 is an aspherical shape all, and aspect processability, the lens material of preferred first lens G1 and the above-mentioned second lens G2 all is a plastic material.
The effect and the effect of the above telephoto lens that constitutes then are described.
In this telephoto lens, St is configured in the most close object side with aperture, then dispose the first lens G1 and the second lens G2 that the two sides is an aspherical shape successively from object side, and satisfy rated condition formula (1) about the shape of the first lens G1 etc., shape that (2) suitably carry out each lens, magnification distribution etc., make that it is the few block of lense number as 2, and effectively utilize aspheric surface, can realize high-performance and extremely compact telephoto lens system.In addition, by the formula of satisfying condition (3), can realize further high performance.
The effect of each conditional is as follows.Conditional (1) relates to the radius-of-curvature of face of object one side of the first lens G1, in the time of outside this numerical range, especially is difficult to correct frame aberration and ratio chromatism,, is not suitable.Conditional (2) relates to the maximum incident angle degree of chief ray, and in the time of outside this numerical range, the effect of looking in the distance of this telephoto lens system is remote, also is unsuitable.Conditional (3) relates to the face shape of the first lens G1, in the time of outside this numerical range, is difficult to correct ratio chromatism,, is not suitable.
Like this, according to the telephoto lens of present embodiment,, can obtain the middle general equal high optical properties of 3 block structured lens that use such as portable phone with original band camera by effectively utilizing aspheric surface with block of lense number few as 2.In addition, can realize and compare originally the extremely telephoto lens system of compactness (for example press the 35mm film and convert when representing shooting face, be equivalent to the lens combination of focal distance f=70mm).
[embodiment]
The concrete numerical value embodiment of the telephoto lens of present embodiment then is described.Gathering the first and second numerical value embodiment (embodiment 1,2) below illustrates.Table 1, table 2 are represented the concrete lens data (embodiment 1) of the structure of telephoto lens corresponding shown in Figure 1.Table 3, table 4 are represented the concrete lens data (embodiment 2) of the structure of telephoto lens corresponding shown in Figure 2.Basic data division in the lens data of expression embodiment in table 1 and the table 3, the data division relevant in the lens data of expression embodiment in table 2 and the table 4 with aspherical shape.
Table 1
Embodiment 1 basic lens data
Si (face sequence number) Ri (radius-of-curvature) Di (face at interval) Ndj (refractive index) υ dj (Abbe number)
0 (aperture) 0.0 0.10
*1 *2 1.3694 1.3388 1.20 0.60 1.50614 56.4
*3 *4 3.3996 5.1383 0.85 3.40 1.50614 56.4
5 6 0.0 0.0 0.30 1.51680 64.2
(*: aspheric surface) (f=6.78mm, FNO.=5.6,2 ω=37.7 °)
Table 2
Embodiment 1 aspherical surface data
Asphericity coefficient The face sequence number
The 1st The 2nd The 3rd The 4th
K -2.6917E+00 -1.4019E+00 -5.0107E+00 -1.3104E+01
A3 - - -3.4199E-02 -6.1089E-02
A4 1.7133E-01 1.580E-01 7.2050E-02 1.445E-01
A5 - - -1.1363E-01 -1.7482E-01
A6 -4.3960E-02 1.5350E-01 4.970E-02 4.7195E-02
A7 - - 6.4963E-02 4.6892E-02
A8 -5.0041E-04 -4.4437E-02 1.6065E-03 -1.6917E-02
A9 - - -2.0051E-02 -7.1234E-03
A10 5.0369E-03 1.6781E-02 -3.9186E-03 3.7643E-03
Table 3
Embodiment 2 basic lens datas
Si (face sequence number) Ri (radius-of-curvature) Di (face at interval) Ndj (refractive index) υ dj (Abbe number)
0 (aperture) 0.0 0.10
*1 *2 1.3457 1.5589 1.20 0.60 1.49023 57.5
*3 *4 4.5101 4.1160 0.70 3.35 1.49023 57.5
5 6 0.0 0.0 0.30 1.51680 64.2
(*: aspheric surface) (f=6.79mm, FNO.=5.6,2 ω=37.1 °)
Table 4
Embodiment 2 aspherical surface datas
Asphericity coefficient The face sequence number
The 1st The 2nd The 3rd The 4th
K -2.6664E+00 7.0025E-02 5.0646E-01 -1.2392E+01
A3 - - -5.0729E-02 -6.6929E-02
A4 1.8095E-01 6.3126E-02 5.4714E-02 1.4304E-01
A5 - - -1.5489E-01 -1.8310E-01
A6 -4.5645E-02 1.5779E-01 4.7304E-02 4.8379E-02
A7 - - 6.2181E-02 4.6011E-02
A8 -8.2493E-04 -4.0507E-02 6.1038E-04 -1.8285E-02
A9 - - -2.1476E-02 -1.0159E-02
A10 4.8394E-03 1.7088E-02 -4.1619E-03 2.9977E-03
Represent telephoto lens in each table in the face sequence number Si hurdle of the lens data of expression for each embodiment, be the 0th, be No. 1 with aperture St, along with the sequence number of coming i (i=0~6) face of diacritic with increasing towards order as side with the lens important document face of nearest object side.Radius-of-curvature symbol Ri hurdle and Fig. 1, subsidiary symbol Ri correspondence among Fig. 2, the radius-of-curvature of the i face that expression begins from object one side.About face interval D i hurdle, corresponding with symbol subsidiary among Fig. 1, Fig. 2, expression begins i face Si and the interval of (i+1) face Si+1 on optical axis Z1 from object one side.The unit of the value of radius of curvature R i and face interval D i is a millimeter (mm).Ndj, υ dj hurdle represent also to comprise cloche CG respectively, from object one side begin j number (j=1~3) lens important document with respect to the refractive index of d line (587.6nm) and the value of Abbe number.In addition, the radius of curvature R 5 on the two sides of cloche CG, the value of R6 are 0, and this represents the plane.In addition, the value of the radius of curvature R 0 of aperture St is 0 (zero), and this represents imaginary plane.
As all data, express paraxial focal distance f (mm), F sequence number (FNO.), the field angle 2 ω (ω: value angle of half field-of view) of total system simultaneously in table 1 and the table 3.In addition, the telephoto lens of each embodiment has the performance that is equivalent to focal distance f=70mm when converting expression shooting face with the 35mm film.
In each lens data of table 1 and table 3, the subsidiary mark * in the left side of face sequence number represents that this lens face is an aspherical shape.Two sides S3, the S4 of two sides S1, the S2 of the first lens G1 and the second lens G2 are aspherical shape among each embodiment.In the basic lens data,, express near near the numerical value of the radius-of-curvature of optical axis (paraxial) as these aspheric radius-of-curvature.
In the numerical value of each aspherical surface data of table 2 and table 4, mark E represents that then its numerical value is the end " power exponent " with 10, and expression will be that the numerical value shown in the exponential function at the end is taken the numerical value before the E with 10 with this.For example, if " 1.0E-02 ", then expression " 1.0 * 10 -2".
Remembering in each aspherical surface data by each the coefficient A in the formula of the aspherical shape of following formula (A) expression i, K value.Say that more specifically Z represents the length (mm) that begins to drop to the vertical line that connects plane (perpendicular to the plane of optical axis) on aspheric summit for the point on the aspheric surface of position of height h apart from optical axis from being positioned at.
Z=C·h 2/{1+(1-K·C 2·h 2) 1/2}+A 3·h 3+A 4·h 4+A 5·h 5+A 6·h 6+A 7·h 7+A 8·h 8+A 9·h 9+A 10·h 10……(A)
Wherein,
Z: the aspheric degree of depth (mm)
H: the distance from the optical axis to the lens face (highly) (mm)
K: eccentricity
C: paraxial curvature=1/R (R: paraxial radius-of-curvature)
Ai: the asphericity coefficient of the i time (i=3~10)
Among each embodiment, the aspherical shape of two sides S1, the S2 of the first lens G1 is only that even number is inferior coefficient A 4, A 6, A 8, A 10Effectively as asphericity coefficient.The two sides S3 of the second lens G2, the aspherical shape of S4 is only that odd number is inferior coefficient A 3, A 7, A 9Effectively as asphericity coefficient.
In addition, expression gathers the value that above-mentioned conditional (1)~(3) relate to for each embodiment in the following table 5.As shown in table 5, the value of each embodiment is in the numerical range of each conditional (1)~(3).
Table 5
The value that conditional relates to
Conditional (1) R1/f Conditional (2) tan θ Conditional (3) Δ ZF/ Δ ZR
Embodiment 1 0.20 0.34 0.85
Embodiment 2 0.20 0.34 1.06
Spherical aberration, astigmatism, distortion (distortion aberration) and the ratio chromatism, of the telephoto lens of Fig. 4 (A)~(D) expression embodiment 1.Expression is the aberration of reference wavelength with the d line in each aberration diagram, but also represents the aberration for g line (wavelength 435.8nm), C line (wavelength 656.3nm) among spherical aberration diagram and the ratio chromatism, figure.Among the astigmatism figure, solid line is represented aberration radially, the aberration that dotted line is represented tangential direction.ω represents angle of half field-of view.Equally, each aberration about embodiment 2 is also illustrated among Fig. 5 (A)~(D).
From above each numeric data and each aberration diagram as can be known, for each embodiment, can realize block of lense number seldom and carry out aberration correction well, extremely compact telephoto lens system.
In addition, the present invention is not limited to the respective embodiments described above and each embodiment, can implement various distortion.For example, the radius-of-curvature of each lens composition, face at interval and the value of refractive index etc. be not limited to the value shown in above-mentioned each numerical value embodiment, desirable other values.

Claims (3)

1. a telephoto lens is characterized in that,
Have successively from object one side: aperture, the two sides is first lens that the face of aspherical shape and object one side is set as the meniscus shape with positive amplification ratio of convex shape, with the two sides be aspherical shape and near second lens that convex surface had paraxial the meniscus shape of positive amplification ratio towards object one side
And, satisfy following conditions formula (1), (2):
0.12<R1/f<0.40 ..........(1)
tanθ<0.45 ..........(2)
Wherein, f is the paraxial radius-of-curvature of the face of the paraxial focal length of lens combination integral body, object one side that R1 is first lens, the maximum incident angle degree that θ is chief ray.
2. telephoto lens according to claim 1 is characterized in that: also satisfy following conditions formula (3):
0.70<ΔZF/ΔZR<1.50 ..........(3)
Wherein, Δ ZF is that the face of object one side of first lens is at the shape displacement of the optical axis direction at maximum effective sunlight height H F place;
Δ ZR is that the face of picture one side of first lens is at the shape displacement of the optical axis direction at maximum effective sunlight height H R place.
3. telephoto lens according to claim 1 and 2 is characterized in that: the lens material of above-mentioned first lens and above-mentioned second lens all is a plastic material.
CNB2005100656609A 2005-03-16 2005-03-16 Telephotolens Expired - Fee Related CN100351663C (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102590800A (en) * 2012-03-09 2012-07-18 哈尔滨工业大学 2 mu m coherent wind detection lidar beam pre-expansion system
CN108614342A (en) * 2016-12-13 2018-10-02 财团法人工业技术研究院 Composite array camera lens module

Family Cites Families (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5251069A (en) * 1989-12-28 1993-10-05 Asahi Kogaku Kogyo K.K. Imaging lens system
JP3295054B2 (en) * 1998-06-26 2002-06-24 旭光学工業株式会社 Variable magnification eyepiece system
US6577456B2 (en) * 2001-03-29 2003-06-10 Fuji Photo Optical Co., Ltd. Single focus lens
JP2003241082A (en) * 2002-02-20 2003-08-27 Fuji Photo Optical Co Ltd Low cost short focal length lens
JP4074203B2 (en) * 2003-02-14 2008-04-09 フジノン株式会社 Single focus lens
JP4125179B2 (en) * 2003-05-30 2008-07-30 株式会社タムロン Single focus lens for visible and near infrared light
JP2005062213A (en) * 2003-08-08 2005-03-10 Canon Inc Observation optical system

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102590800A (en) * 2012-03-09 2012-07-18 哈尔滨工业大学 2 mu m coherent wind detection lidar beam pre-expansion system
CN108614342A (en) * 2016-12-13 2018-10-02 财团法人工业技术研究院 Composite array camera lens module

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