CN205003345U - Shooting lens - Google Patents

Shooting lens Download PDF

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Publication number
CN205003345U
CN205003345U CN201520747320.3U CN201520747320U CN205003345U CN 205003345 U CN205003345 U CN 205003345U CN 201520747320 U CN201520747320 U CN 201520747320U CN 205003345 U CN205003345 U CN 205003345U
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CN
China
Prior art keywords
lens
pick
aspheric surface
refracting power
face
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Withdrawn - After Issue
Application number
CN201520747320.3U
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Chinese (zh)
Inventor
闻人建科
戴付建
黄林
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Zhejiang Sunny Optics Co Ltd
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Zhejiang Sunny Optics Co Ltd
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Priority to CN201520747320.3U priority Critical patent/CN205003345U/en
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Abstract

The utility model discloses a shooting lens, it is included by thing side to picture side in proper order: have the first lens of positive refracting power, the thing side of these first lens is the convex surface, and the picture side of these first lens is the concave surface, have the second lens of refracting power, the picture side of these second lens is the concave surface, have the third lens of refracting power, the thing side of these third lens is the concave surface, the fourth lens that have the refracting power, the 5th lens that have the refracting power, the VI lenses who has the refracting power, have the 7th lens of refracting power, the thing side of the 7th lens is the convex surface, and the picture side of the 7th lens is located to the concave surface at the paraxial, this shooting lens satisfies following relational expression: 1.3< ff1< 2.0 wherein, f is this shooting lens's effective focal length, and f1 is the effective focal length of these first lens. The shooting lens who satisfies above -mentioned configuration is favorable to guaranteeing that the camera lens is miniaturized to effectively revise the aberration, proofread and correct the image planes distortion, realize all having high imaging performance from the center to the edge.

Description

Pick-up lens
Technical field
The utility model relates to a kind of camera technique field, particularly relates to a kind of slim pick-up lens.
Background technology
At present, the photo-sensitive cell of general optical system is nothing more than being photosensitive coupling element (CCD) or Complimentary Metal-Oxide semiconductor element (CMOS) two kinds.In recent years, along with the development of the chip technologies such as CCD or CMOS, making pick-up lens gradually toward high pixel and the development of miniaturization field, in order to meet this trend, miniaturization, high imaging performance also being required further for the pick-up lens be applied on portable type electronic product.
The pick-up lens of current main flow is generally made up of five lens, has been difficult to meet higher pixel and higher-quality parsing requirement, therefore certainly will will have increased number of lenses.But the increase of number of lenses is unfavorable for again miniaturization and the lightweight of camera lens.
Utility model content
The utility model embodiment is intended at least to solve one of technical matters existed in prior art.For this reason, the utility model embodiment needs to provide a kind of pick-up lens.
A kind of pick-up lens, is comprised to image side successively by thing side:
Have the first lens of positive refracting power, the thing side of these the first lens is convex surface, and the face, image side of these the first lens is concave surface;
Have the second lens of refracting power, the face, image side of these the second lens is concave surface;
Have the 3rd lens of refracting power, the thing side of the 3rd lens is concave surface;
There are the 4th lens of refracting power;
There are the 5th lens of refracting power;
There are the 6th lens of refracting power;
Have the 7th lens of refracting power, the thing side of the 7th lens is convex surface, and the face, image side of the 7th lens is concave surface at paraxial place;
This pick-up lens meets following relationship: 1.3<f/f1<2.0;
Wherein, f is the effective focal length of this pick-up lens, and f1 is the effective focal length of these the first lens.
The pick-up lens meeting above-mentioned configuration is conducive to ensureing camera lens miniaturization, and effectively revises aberration, corrects image planes distortion, realizes all having high imaging performance from center to edge.
In one embodiment, these second lens have negative refracting power, and this pick-up lens meets following relationship:
0<R1/R4<0.5;
Wherein, R1 is the radius-of-curvature of the thing side of these the first lens; R4 is the radius-of-curvature in the face, image side of these the second lens.
In one embodiment, this pick-up lens meets following relationship:
0.8<|f6/f7|<6;
Wherein, f6 is the effective focal length of the 6th lens; F7 is the effective focal length of the 7th lens.
In one embodiment, this pick-up lens meets following relationship:
4<T23/T34<18;
Wherein, T23 is these second lens and spacing distance on the axle of the 3rd lens; T34 is the 3rd lens and spacing distance on the axle of the 4th lens.
In one embodiment, the face, image side of the 7th lens is aspheric surface, and the face, image side of the 7th lens has a point of inflexion at least, and this pick-up lens meets following relationship:
0.3<Yc72/ImgH<0.9;
Wherein, Yc72 be the 7th lens face, image side on this point of inflexion to the vertical range of optical axis; ImgH is the half of the diagonal line length of the effective pixel area of imaging surface.
In one embodiment, this pick-up lens meets following relationship:
0.6<CT7/ET7max<1;
Wherein, CT7 is the center thickness of the 7th lens; ET7max is the maximal margin thickness of the 7th lens.
In one embodiment, this pick-up lens meets following relationship:
∑T/TTL<0.25;
Wherein, ∑ T is the length summation of airspace on optical axis between these first lens to the 7th lens between arbitrary neighborhood two lens; TTL is that the thing side of these the first lens is to distance on the axle of imaging surface.
In one embodiment, this pick-up lens meets following relationship:
TTL/ImgH<1.65;
Wherein, TTL is that the thing side of these the first lens is to distance on the axle of imaging surface; ImgH is the half of the diagonal line length of the effective pixel area of imaging surface.
The additional aspect of the utility model embodiment and advantage will part provide in the following description, and part will become obvious from the following description, or be recognized by the practice of the utility model embodiment.
Accompanying drawing explanation
Above-mentioned and/or the additional aspect of the utility model embodiment and advantage will become obvious and easy understand from accompanying drawing below combining to the description of embodiment, wherein:
Fig. 1 is the structural representation of the pick-up lens of embodiment 1;
Fig. 2 be the pick-up lens of embodiment 1 axle on chromaticity difference diagram (mm); Fig. 3 is the astigmatism figure (mm) of the pick-up lens of embodiment 1; Fig. 4 is the distortion figure (%) of the pick-up lens of embodiment 1; Fig. 5 is the ratio chromatism, figure (μm) of the pick-up lens of embodiment 1;
Fig. 6 is the structural representation of the pick-up lens of embodiment 2;
Fig. 7 be the pick-up lens of embodiment 2 axle on chromaticity difference diagram (mm); Fig. 8 is the astigmatism figure (mm) of the pick-up lens of embodiment 2; Fig. 9 is the distortion figure (%) of the pick-up lens of embodiment 2; Figure 10 is the ratio chromatism, figure (μm) of the pick-up lens of embodiment 2;
Figure 11 is the structural representation of the pick-up lens of embodiment 3;
Figure 12 be the pick-up lens of embodiment 3 axle on chromaticity difference diagram (mm); Figure 13 is the astigmatism figure (mm) of the pick-up lens of embodiment 3; Figure 14 is the distortion figure (%) of the pick-up lens of embodiment 3; Figure 15 is the ratio chromatism, figure (μm) of the pick-up lens of embodiment 3;
Figure 16 is the structural representation of the pick-up lens of embodiment 4;
Figure 17 be the pick-up lens of embodiment 4 axle on chromaticity difference diagram (mm); Figure 18 is the astigmatism figure (mm) of the pick-up lens of embodiment 4; Figure 19 is the distortion figure (%) of the pick-up lens of embodiment 4; Figure 20 is the ratio chromatism, figure (μm) of the pick-up lens of embodiment 4;
Figure 21 is the structural representation of the pick-up lens of embodiment 5;
Figure 22 be the pick-up lens of embodiment 5 axle on chromaticity difference diagram (mm); Figure 23 is the astigmatism figure (mm) of the pick-up lens of embodiment 5; Figure 24 is the distortion figure (%) of the pick-up lens of embodiment 5; Figure 25 is the ratio chromatism, figure (μm) of the pick-up lens of embodiment 5;
Figure 26 is the structural representation of the pick-up lens of embodiment 6;
Figure 27 be the pick-up lens of embodiment 6 axle on chromaticity difference diagram (mm); Figure 28 is the astigmatism figure (mm) of the pick-up lens of embodiment 6; Figure 29 is the distortion figure (%) of the pick-up lens of embodiment 6; Figure 30 is the ratio chromatism, figure (μm) of the pick-up lens of embodiment 6;
Figure 31 is the structural representation of the pick-up lens of embodiment 7;
Figure 32 be the pick-up lens of embodiment 7 axle on chromaticity difference diagram (mm); Figure 33 is the astigmatism figure (mm) of the pick-up lens of embodiment 7; Figure 34 is the distortion figure (%) of the pick-up lens of embodiment 7; Figure 35 is the ratio chromatism, figure (μm) of the pick-up lens of embodiment 7;
Figure 36 is the structural representation of the pick-up lens of embodiment 8;
Figure 37 be the pick-up lens of embodiment 8 axle on chromaticity difference diagram (mm); Figure 38 is the astigmatism figure (mm) of the pick-up lens of embodiment 8; Figure 39 is the distortion figure (%) of the pick-up lens of embodiment 8; Figure 40 is the ratio chromatism, figure (μm) of the pick-up lens of embodiment 8;
Figure 41 is the structural representation of the pick-up lens of embodiment 9;
Figure 42 be the pick-up lens of embodiment 9 axle on chromaticity difference diagram (mm); Figure 43 is the astigmatism figure (mm) of the pick-up lens of embodiment 9; Figure 44 is the distortion figure (%) of the pick-up lens of embodiment 9; Figure 45 is the ratio chromatism, figure (μm) of the pick-up lens of embodiment 9;
Figure 46 is the structural representation of the pick-up lens of embodiment 10;
Figure 47 be the pick-up lens of embodiment 10 axle on chromaticity difference diagram (mm); Figure 48 is the astigmatism figure (mm) of the pick-up lens of embodiment 10; Figure 49 is the distortion figure (%) of the pick-up lens of embodiment 10; Figure 50 is the ratio chromatism, figure (μm) of the pick-up lens of embodiment 10;
Figure 51 is the structural representation of the pick-up lens of embodiment 11;
Figure 52 be the pick-up lens of embodiment 11 axle on chromaticity difference diagram (mm); Figure 53 is the astigmatism figure (mm) of the pick-up lens of embodiment 11; Figure 54 is the distortion figure (%) of the pick-up lens of embodiment 11; Figure 55 is the ratio chromatism, figure (μm) of the pick-up lens of embodiment 11;
Figure 56 is the structural representation of the pick-up lens of embodiment 12;
Figure 57 be the pick-up lens of embodiment 12 axle on chromaticity difference diagram (mm); Figure 58 is the astigmatism figure (mm) of the pick-up lens of embodiment 12; Figure 59 is the distortion figure (%) of the pick-up lens of embodiment 12; Figure 60 is the ratio chromatism, figure (μm) of the pick-up lens of embodiment 12.
Embodiment
Be described below in detail embodiment of the present utility model, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has element that is identical or similar functions from start to finish.Being exemplary below by the embodiment be described with reference to the drawings, only for explaining the utility model, and can not being interpreted as restriction of the present utility model.
In description of the present utility model, it is to be appreciated that term " first ", " second " only for describing object, and can not be interpreted as instruction or hint relative importance or the implicit quantity indicating indicated technical characteristic.Thus, be limited with " first ", the feature of " second " can express or impliedly comprise one or more described features.In description of the present utility model, the implication of " multiple " is two or more, unless otherwise expressly limited specifically.
In description of the present utility model, it should be noted that, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or connect integratedly; Can be mechanical connection, also can be electrically connected or can intercom mutually; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals or the interaction relationship of two elements.For the ordinary skill in the art, the concrete meaning of above-mentioned term in the utility model can be understood as the case may be.
Disclosing hereafter provides many different embodiments or example is used for realizing different structure of the present utility model.Of the present utility model open in order to simplify, hereinafter the parts of specific examples and setting are described.Certainly, they are only example, and object does not lie in restriction the utility model.In addition, the utility model can in different example repeat reference numerals and/or reference letter, this repetition is to simplify and clearly object, itself does not indicate discussed various embodiment and/or relation between setting.In addition, the various specific technique that the utility model provides and the example of material, but those of ordinary skill in the art can recognize the application of other techniques and/or the use of other materials.
Refer to Fig. 1, a kind of pick-up lens of the utility model preferred embodiment, is comprised to image side successively by thing side:
Have the first lens L1 of positive refracting power, the thing side S1 of the first lens L1 is convex surface, and face, the image side S2 of the first lens L1 is concave surface;
Have the second lens L2 of refracting power, face, the image side S4 of the second lens L2 is concave surface;
Have the 3rd lens L3 of refracting power, the thing side of the 3rd lens L3 is S5 concave surface;
There is the 4th lens L4 of refracting power;
There is the 5th lens L5 of refracting power;
There is the 6th lens L6 of refracting power;
Have the 7th lens L7 of refracting power, the thing side S13 of the 7th lens L7 is convex surface, and face, the image side S14 of the 7th lens L7 is concave surface at paraxial place;
Described pick-up lens meets following relationship:
1.3<f/f1<2.0;
Wherein, f is the effective focal length of pick-up lens, and f1 is the effective focal length of the first lens L1.
Meet the pick-up lens of above-mentioned configuration, be conducive to ensureing camera lens miniaturization, and effectively revise aberration, correct image planes distortion, realize, from center to edge, all there is high imaging performance.
Preferably, the second lens L2 of described pick-up lens has negative refracting power, and described pick-up lens meets following relationship: 0<R1/R4<0.5;
Wherein, R1 is the radius-of-curvature of the thing side of the first lens L1; R4 is the radius-of-curvature in the face, image side of the second lens L2.
Meet the pick-up lens of above formula requirement, be conducive to revising aberration, particularly reduce coma, promote image quality.
Preferably, described pick-up lens meets following relationship: 0.8<|f6/f7|<6;
Wherein, f6 is the effective focal length of the 6th lens L6; F7 is the effective focal length of the 7th lens L7.
Meet the pick-up lens of above formula requirement, be conducive to the focal power of reasonable distribution system, effective update the system aberration, improve resolution of lens.
Preferably, described pick-up lens meets following relationship: 4<T23/T34<18;
Wherein, T23 be the second lens L2 and the 3rd lens L3 axle on spacing distance; T34 be the 3rd lens L3 and the 4th lens L4 axle on spacing distance.
Meet the pick-up lens of above formula requirement, can airspace between reasonable distribution lens, limit the total length of camera lens rightly, be conducive to the miniaturization ensureing camera lens.
Preferably, face, the image side S14 of described 7th lens L7 is aspheric surface, and face, image side S14 has a point of inflexion at least, and pick-up lens meets following relationship: 0.3<Yc72/ImgH<0.9;
Wherein, Yc72 be the 7th lens L7 face, image side S14 on the point of inflexion to the vertical range of optical axis; ImgH is the half of the diagonal line length of the effective pixel area of imaging surface S17.
Meet the pick-up lens of above formula requirement, be conducive to correcting the incident angle of chief ray in image planes, improve the matching with sensitive chip, and ensure the brightness uniformity of whole image planes.
Preferably, described pick-up lens meets following relationship: 0.6<CT7/ET7max<1;
Wherein, CT7 is the center thickness of the 7th lens L7; ET7max is the maximal margin thickness of the 7th lens L7.
Meet the pick-up lens of above formula requirement, effectively can limit eyeglass thickness ratio, be conducive to machine-shaping.
Preferably, described pick-up lens meets following relationship: ∑ T/TTL<0.25;
Wherein, ∑ T is the length summation of airspace on optical axis between the first lens L1 to the 7th lens L7 between arbitrary neighborhood two lens; TTL is that the thing side of the first lens L1 is to distance on the axle of imaging surface S17.
Meet the pick-up lens of above formula requirement, lens construction relative compact can be made, effectively the length of restriction whole system, be conducive to the slimming ensureing camera lens.
Preferably, described pick-up lens meets following relationship: TTL/ImgH<1.65;
Wherein, TTL is that the thing side of the first lens L1 is to distance on the axle of imaging surface S17; ImgH is the half of the diagonal line length of the effective pixel area of imaging surface S17.
Meet the pick-up lens of above formula requirement, be conducive to the feature ensureing camera lens miniaturization, be convenient to be mounted in frivolous can on portable electronic product.
During imaging, light images in imaging surface S17 through after seven lens after having the optical filter L8 of thing side surface S15 and surface, image side S16.
In certain embodiments, the first lens L1, the second lens L2, the 3rd lens L3, the 4th lens L4, the 5th lens L5, the 6th lens L6 and the 7th lens L7 are non-spherical lens.
Aspheric type is determined by following formula:
x = ch 2 1 + 1 - ( k + 1 ) c 2 h 2 + &Sigma;Aih i
Wherein, h is that in aspheric surface, arbitrary point is to the height of optical axis, and c is vertex curvature, and k is conic constants, and Ai is the correction factor on aspheric surface i-th-th rank.
Embodiment 1
Incorporated by reference to Fig. 1 ~ Fig. 5, in embodiment 1, pick-up lens meets the condition of table 1 and table 2 below:
Table 1
Face number Surface type Radius-of-curvature Thickness Refractive index/Abbe number Circular cone coefficient
OBJ Sphere Infinite Infinite -- --
STO Sphere Infinite -0.2831 -- --
S1 Aspheric surface 1.4054 0.6994 1.544/56.11 -0.5588
S2 Aspheric surface 580.5982 0.0513 -- -99.9900
S3 Aspheric surface -17.5540 0.2385 1.640/23.53 -10.6690
S4 Aspheric surface 4.7954 0.3543 -- 27.8763
S5 Aspheric surface -5.4654 0.2380 1.640/23.53 24.6831
S6 Aspheric surface -3.9479 0.0776 -- -6.7057
S7 Aspheric surface -3.1039 0.3051 1.535/55.8 -1.0338
S8 Aspheric surface -3.6848 0.1302 -- -61.7734
S9 Aspheric surface -4.2171 0.2562 1.640/23.53 -54.2805
S10 Aspheric surface -10.4127 0.0869 -- -2.9250
S11 Aspheric surface 18.5814 0.3473 1.535/55.8 99.0000
S12 Aspheric surface -4.0182 0.1901 -- -74.0731
S13 Aspheric surface 1.6063 0.4130 1.535/55.8 -1.2761
S14 Aspheric surface 0.9231 0.2127 -- -4.2098
S15 Sphere Infinite 0.2100 1.517/64.17 --
S16 Sphere Infinite 0.7594 -- --
S17 Sphere Infinite -- -- --
Table 2
Face number A4 A6 A8 A10 A12 A14 A16
S1 2.3383E-02 7.0979E-03 -2.1908E-02 1.9294E-02 -2.2830E-02 -5.8468E-03 -8.9442E-03
S2 -4.5425E-02 -1.0739E-02 1.7895E-02 -4.5455E-02 7.0085E-03 3.6023E-03 6.8689E-03
S3 1.7038E-02 3.0450E-02 4.1156E-02 -3.9575E-02 3.3549E-02 -1.7488E-04 2.4234E-02
S4 3.8153E-02 6.9934E-02 -4.3014E-02 4.2957E-02 4.0003E-02 1.7861E-02 -3.8843E-03
S5 -1.0706E-01 -3.0586E-04 -1.1317E-02 8.2991E-02 -3.6597E-02 3.4201E-02 -1.3726E-02
S6 -8.8454E-02 1.9984E-02 -2.3785E-02 5.4407E-02 -1.8509E-02 1.0514E-02 -4.1958E-03
S7 7.0027E-03 2.0809E-03 -2.6928E-03 -2.6577E-03 -1.9277E-03 -1.6757E-03 -2.2914E-03
S8 -9.7433E-02 2.4321E-02 -3.4118E-02 4.4460E-02 -2.5322E-02 8.1008E-03 -1.6891E-03
S9 -1.0005E-01 9.4345E-03 -4.1499E-02 4.1514E-02 -2.6224E-02 8.0110E-03 -1.5488E-03
S10 -9.0133E-02 2.3347E-02 -3.5447E-02 4.3949E-02 -2.5286E-02 8.3808E-03 -1.3694E-03
S11 2.9665E-01 -4.3016E-01 3.3602E-01 -2.0144E-01 7.7956E-02 -1.5962E-02 1.2955E-03
S12 2.8652E-01 -2.3963E-01 8.0176E-02 -1.0393E-02 -9.7501E-04 4.2939E-04 -3.4140E-05
S13 -4.0929E-01 1.8264E-01 -3.1991E-02 -1.0125E-03 1.1986E-03 -1.5876E-04 6.7310E-06
S14 -2.0914E-01 1.1515E-01 -4.8394E-02 1.3307E-02 -2.1317E-03 1.7894E-04 -6.0486E-06
In addition, f1=2.58mm, f2=-5.82mm, f3=20.78mm, f4=-44.92mm, f5=-11.18mm, f6=6.19mm, f7=-5.13mm and f=3.98mm; HFOV=36.62 °; TTL=4.57mm; Fno=2.2.
Embodiment 2
Incorporated by reference to Fig. 6 ~ Figure 10, in embodiment 2, pick-up lens meets the condition of table 3 and table 4 below:
Table 3
Face number Surface type Radius-of-curvature Thickness Refractive index/Abbe number Circular cone coefficient
OBJ Sphere Infinite Infinite -- --
STO Sphere Infinite -0.2831 -- --
S1 Aspheric surface 1.4064 0.6812 1.544/56.11 -0.5485
S2 Aspheric surface 24.2276 0.0459 -- 99.9900
S3 Aspheric surface -58.0389 0.2385 1.64/23.53 -99.9900
S4 Aspheric surface 4.8092 0.3924 -- 27.9337
S5 Aspheric surface -5.3563 0.2380 1.64/23.53 26.7215
S6 Aspheric surface -4.3932 0.0329 -- -12.1075
S7 Aspheric surface -3.4310 0.3807 1.535/55.8 -2.1788
S8 Aspheric surface -3.4579 0.1397 -- -68.6050
S9 Aspheric surface -3.7950 0.2650 1.64/23.53 -61.1133
S10 Aspheric surface -8.2832 0.1135 -- 9.2014
S11 Aspheric surface 21.8390 0.3570 1.535/55.8 99.0000
S12 Aspheric surface -5.3650 0.1598 -- -74.0731
S13 Aspheric surface 1.5058 0.4389 1.535/55.8 -1.2697
S14 Aspheric surface 0.9247 0.2179 -- -3.8813
S15 Sphere Infinite 0.2100 1.517/64.17 --
S16 Sphere Infinite 0.7594 -- --
S17 Sphere Infinite -- -- --
Table 4
Face number A4 A6 A8 A10 A12 A14 A16
S1 2.4078E-02 7.2677E-03 -2.0818E-02 2.1048E-02 -2.1027E-02 -5.4517E-03 -1.2328E-02
S2 -4.3839E-02 -1.0281E-02 1.6910E-02 -4.7830E-02 3.7154E-03 5.1079E-04 5.4842E-03
S3 1.7755E-02 3.1978E-02 4.1894E-02 -4.0529E-02 3.0957E-02 -4.0353E-03 2.0032E-02
S4 3.7265E-02 7.0268E-02 -4.7107E-02 4.0973E-02 4.9235E-02 1.7861E-02 -3.8843E-03
S5 -1.1163E-01 -1.1714E-02 -2.5459E-02 7.5092E-02 -3.1625E-02 3.4201E-02 -1.3726E-02
S6 -8.4075E-02 2.2248E-02 -2.1962E-02 5.5238E-02 -1.8899E-02 9.3255E-03 -5.7814E-03
S7 1.0458E-02 6.4397E-03 5.0385E-04 3.7372E-05 3.6024E-04 -6.4864E-05 -1.6700E-03
S8 -1.0477E-01 2.0513E-02 -3.6306E-02 4.3106E-02 -2.5873E-02 8.1233E-03 -1.3097E-03
S9 -9.8398E-02 9.5421E-03 -4.1132E-02 4.2269E-02 -2.5753E-02 8.0991E-03 -1.7275E-03
S10 -9.2894E-02 2.3449E-02 -3.5286E-02 4.4035E-02 -2.5230E-02 8.4201E-03 -1.3434E-03
S11 2.8290E-01 -4.2377E-01 3.4419E-01 -2.2544E-01 9.5080E-02 -2.0955E-02 1.8229E-03
S12 2.9509E-01 -2.4356E-01 8.0202E-02 -9.0985E-03 -1.5156E-03 5.0605E-04 -3.7338E-05
S13 -4.3261E-01 2.1433E-01 -4.9530E-02 3.7159E-03 5.5641E-04 -1.1814E-04 5.8454E-06
S14 -2.2732E-01 1.4057E-01 -6.5609E-02 1.9420E-02 -3.3081E-03 2.9505E-04 -1.0620E-05
In addition, f1=2.71mm, f2=-6.88mm, f3=34.56mm, f4=208.32mm, f5=-11.12mm, f6=8.06mm, f7=-6.06mm and f=4.04mm; HFOV=36.4 °; TTL=4.67mm; Fno=2.2.
Embodiment 3
Incorporated by reference to Figure 11 ~ Figure 15, in embodiment 3, pick-up lens meets the condition of table 5 and table 6 below:
Table 5
Face number Surface type Radius-of-curvature Thickness Refractive index/Abbe number Circular cone coefficient
OBJ Sphere Infinite Infinite -- --
STO Sphere Infinite -0.2831 -- --
S1 Aspheric surface 1.3714 0.6300 1.544/56.11 -0.5279
S2 Aspheric surface 20.0171 0.0482 -- 99.9900
S3 Aspheric surface -99.4567 0.2385 1.640/23.53 99.9900
S4 Aspheric surface 4.6166 0.3500 -- 26.9045
S5 Aspheric surface -5.4359 0.2380 1.640/23.53 26.3681
S6 Aspheric surface -3.8517 0.0529 -- -15.5557
S7 Aspheric surface -3.1203 0.3822 1.535/55.80 -2.9652
S8 Aspheric surface -3.1398 0.1545 -- -85.1757
S9 Aspheric surface -3.4414 0.2500 1.640/23.53 -99.9900
S10 Aspheric surface -9.7536 0.0693 -- 15.3378
S11 Aspheric surface 16.9864 0.3119 1.535/55.80 99.0000
S12 Aspheric surface -4.6187 0.1643 -- -74.0731
S13 Aspheric surface 1.3871 0.4002 1.535/55.80 -1.3224
S14 Aspheric surface 0.8638 0.2123 -- -3.9503
S15 Sphere Infinite 0.2100 1.517/64.17 --
S16 Sphere Infinite 0.7594 -- --
S17 Sphere Infinite -- -- --
Table 6
Face number A4 A6 A8 A10 A12 A14 A16
S1 2.5795E-02 6.0735E-03 -2.0482E-02 1.9824E-02 -2.3069E-02 -9.1952E-03 -2.4381E-02
S2 -4.2677E-02 -1.2226E-02 1.1217E-02 -5.4578E-02 -2.1995E-03 -6.9207E-04 1.5645E-02
S3 1.7570E-02 3.3742E-02 4.4315E-02 -4.1802E-02 2.8188E-02 -1.6345E-03 4.2212E-02
S4 3.1824E-02 7.5284E-02 -5.4741E-02 3.8768E-02 7.3148E-02 1.7861E-02 -3.8843E-03
S5 -1.1256E-01 -2.4349E-02 -4.2050E-02 6.8222E-02 -1.1977E-03 3.4201E-02 -1.3726E-02
S6 -8.5496E-02 1.8123E-02 -2.1467E-02 5.8710E-02 -1.6288E-02 1.0125E-02 -7.0234E-03
S7 1.6116E-02 1.3415E-02 2.5754E-03 6.6373E-06 3.3007E-04 -1.5238E-04 -2.7004E-03
S8 -1.2352E-01 2.1187E-02 -3.5089E-02 4.2714E-02 -2.6120E-02 8.7270E-03 -1.3622E-04
S9 -8.4718E-02 -1.1536E-03 -4.9174E-02 4.1828E-02 -2.4998E-02 7.9633E-03 -2.7399E-03
S10 -9.3895E-02 2.3213E-02 -3.5524E-02 4.3908E-02 -2.5255E-02 8.4339E-03 -1.3223E-03
S11 3.5776E-01 -5.9910E-01 4.9643E-01 -3.2784E-01 1.4563E-01 -3.4737E-02 3.3066E-03
S12 4.7089E-01 -5.5067E-01 3.1831E-01 -1.1523E-01 2.6621E-02 -3.6536E-03 2.2705E-04
S13 -4.6153E-01 2.1686E-01 -4.1889E-02 -7.6224E-04 1.6796E-03 -2.5077E-04 1.1792E-05
S14 -2.4886E-01 1.5880E-01 -8.1430E-02 2.6649E-02 -4.9849E-03 4.8605E-04 -1.9078E-05
In addition, f1=2.66mm, f2=-6.84mm, f3=19.36mm, f4=160.12mm, f5=-8.38mm, f6=6.8mm, f7=-5.82mm and f=3.85mm; HFOV=37.73 °; TTL=4.47mm; Fno=2.2.
Embodiment 4
Incorporated by reference to Figure 16 ~ Figure 20, in embodiment 4, pick-up lens meets the condition of table 7 and table 8 below:
Table 7
Face number Surface type Radius-of-curvature Thickness Refractive index/Abbe number Circular cone coefficient
OBJ Sphere Infinite Infinite -- --
STO Sphere Infinite -0.2831 -- --
S1 Aspheric surface 1.4503 0.5954 1.544/56.11 -0.5446
S2 Aspheric surface 28.4547 0.0313 -- 99.9900
S3 Aspheric surface 59.1579 0.2385 1.640/23.53 -99.9900
S4 Aspheric surface 4.9920 0.4537 -- 28.3272
S5 Aspheric surface -5.8771 0.2503 1.640/23.53 23.4465
S6 Aspheric surface 33.4352 0.0504 -- -99.9900
S7 Aspheric surface 100.0000 0.5055 1.535/55.80 -99.9900
S8 Aspheric surface -5.6140 0.1818 -- -99.9900
S9 Aspheric surface -4.9043 0.3576 1.640/23.53 -10.2201
S10 Aspheric surface -4.5629 0.1060 -- 4.3631
S11 Aspheric surface 15.0722 0.5412 1.535/55.80 99.0000
S12 Aspheric surface 500.0000 0.1513 -- -74.0731
S13 Aspheric surface 1.9297 0.4312 1.535/55.80 -1.2043
S14 Aspheric surface 1.0827 0.1994 -- -4.5669
S15 Sphere Infinite 0.2100 1.517/64.17 --
S16 Sphere Infinite 0.5446 -- --
S17 Sphere Infinite -- -- --
Table 8
Face number A4 A6 A8 A10 A12 A14 A16
S1 2.4446E-02 7.0348E-03 -1.9571E-02 1.5859E-02 -2.4422E-02 -3.4529E-03 -1.3756E-02
S2 -3.6483E-02 -8.8539E-03 2.3732E-02 -3.9383E-02 8.7614E-03 -7.6880E-03 -5.6133E-04
S3 5.0122E-03 3.2088E-02 4.6348E-02 -2.8066E-02 4.4783E-02 -4.6617E-03 4.4253E-03
S4 2.0390E-02 5.1195E-02 -3.2734E-02 5.3101E-02 1.6154E-02 1.7753E-02 -3.8843E-03
S5 -1.0748E-01 3.3904E-03 -2.9883E-02 6.4720E-02 -4.0455E-02 2.2109E-02 -1.3726E-02
S6 -7.9032E-02 2.6688E-02 -2.1518E-02 5.3604E-02 -1.9775E-02 9.4879E-03 -6.2534E-03
S7 -1.0869E-02 2.4165E-04 2.6054E-03 4.3232E-03 3.4965E-03 1.1220E-03 -2.4800E-03
S8 -9.5925E-02 3.3101E-02 -3.4178E-02 4.1078E-02 -2.7583E-02 7.7857E-03 -7.0093E-04
S9 -8.6314E-02 1.2854E-02 -3.9014E-02 4.4970E-02 -2.4087E-02 8.5432E-03 -2.0707E-03
S10 -8.9663E-02 2.3007E-02 -3.5635E-02 4.3940E-02 -2.5181E-02 8.4958E-03 -1.2715E-03
S11 -8.8507E-01 -1.2316E-01 4.5343E-02 -2.5005E-03 4.4934E-03 1.8762E-03 9.2793E-04
S12 2.2497E-01 -2.2724E-01 1.1099E-01 -3.1661E-02 5.0800E-03 -4.0415E-04 1.1162E-05
S13 -3.3116E-01 1.8562E-01 -5.5790E-02 9.1630E-03 -7.7237E-04 2.7146E-05 -1.3453E-07
S14 -1.8697E-01 1.1096E-01 -5.2896E-02 1.6557E-02 -3.0001E-03 2.8221E-04 -1.0599E-05
In addition, f1=2.78mm, f2=-8.47mm, f3=-7.74mm, f4=9.92mm, f5=72.09mm, f6=28.94mm, f7=-5.59mm and f=4.33mm; HFOV=27.84 °; TTL=4.85mm; Fno=2.5.
Embodiment 5
Incorporated by reference to Figure 21 ~ Figure 25, in embodiment 5, pick-up lens meets the condition of table 9 and table 10 below:
Table 9
Face number Surface type Radius-of-curvature Thickness Refractive index/Abbe number Circular cone coefficient
OBJ Sphere Infinite Infinite -- --
STO Sphere Infinite -0.2831 -- --
S1 Aspheric surface 1.4364 0.6357 1.544/56.11 -0.5516
S2 Aspheric surface 53.9884 0.0251 -- 99.9900
S3 Aspheric surface 4090.9550 0.2385 1.640/23.53 99.9900
S4 Aspheric surface 5.0371 0.4229 -- 27.8706
S5 Aspheric surface -5.5806 0.2380 1.640/23.53 27.5298
S6 Aspheric surface -14.7462 0.0250 -- -99.9900
S7 Aspheric surface -5.8811 0.5410 1.535/55.80 1.8769
S8 Aspheric surface -2.6807 0.0869 -- -40.4492
S9 Aspheric surface -3.2231 0.3067 1.640/23.53 -34.1308
S10 Aspheric surface -4.5202 0.0734 -- 2.9261
S11 Aspheric surface 26.0389 0.4156 1.535/55.80 99.0000
S12 Aspheric surface -8.0454 0.1631 -- -74.0731
S13 Aspheric surface 1.6467 0.4115 1.535/55.80 -1.3314
S14 Aspheric surface 0.9330 0.2064 -- -4.2817
S15 Sphere Infinite 0.2100 1.517/64.17 --
S16 Sphere Infinite 0.5446 -- --
S17 Sphere Infinite -- -- --
Table 10
Face number A4 A6 A8 A10 A12 A14 A16
S1 2.3768E-02 6.9389E-03 -2.2526E-02 1.8852E-02 -2.2402E-02 -6.7930E-03 -1.7281E-02
S2 -3.7961E-02 -6.7158E-03 1.7429E-02 -5.1120E-02 -1.4915E-03 -3.1946E-03 7.4116E-03
S3 1.5110E-02 3.2404E-02 4.4092E-02 -3.6751E-02 3.3710E-02 -5.5235E-03 1.2054E-02
S4 3.2846E-02 6.6032E-02 -4.3212E-02 4.6424E-02 5.7366E-02 2.6542E-02 -3.8843E-03
S5 -1.0936E-01 -1.4203E-03 -3.2930E-02 7.0338E-02 -2.5938E-02 4.1211E-02 -1.3726E-02
S6 -7.4492E-02 2.6280E-02 -1.8708E-02 5.6337E-02 -1.9111E-02 8.8257E-03 -6.7843E-03
S7 5.5151E-03 8.5028E-03 3.1064E-03 3.6616E-03 3.5014E-03 9.7852E-04 -2.9830E-03
S8 -1.1640E-01 2.3029E-02 -3.5247E-02 4.1827E-02 -2.7043E-02 7.8565E-03 -8.2587E-04
S9 -8.5127E-02 1.1896E-02 -4.1074E-02 4.3262E-02 -2.4811E-02 8.5058E-03 -1.8520E-03
S10 -9.1296E-02 2.4737E-02 -3.4616E-02 4.4284E-02 -2.5126E-02 8.4735E-03 -1.3151E-03
S11 3.0247E-01 -5.9942E-01 5.5851E-01 -4.1365E-01 1.9660E-01 -4.8640E-02 4.7469E-03
S12 4.1960E-01 -4.7324E-01 2.6397E-01 -8.7843E-02 1.7368E-02 -1.8696E-03 8.3570E-05
S13 -4.1051E-01 2.2798E-01 -6.2367E-02 7.6469E-03 -9.4075E-05 -5.8745E-05 3.5477E-06
S14 -2.2709E-01 1.5164E-01 -8.2059E-02 2.8832E-02 -5.8013E-03 6.0135E-04 -2.4758E-05
In addition, f1=2.69mm, f2=-7.82mm, f3=-14.07mm, f4=8.67mm, f5=-19.21mm, f6=11.5mm, f7=-5.02mm and f=4.00mm; HFOV=37.62 °; TTL=4.54mm; Fno=2.2.
Embodiment 6
Incorporated by reference to Figure 26 ~ Figure 30, in embodiment 6, pick-up lens meets the condition of table 11 and table 12 below:
Table 11
Face number Surface type Radius-of-curvature Thickness Refractive index/Abbe number Circular cone coefficient
OBJ Sphere Infinite Infinite -- --
STO Sphere Infinite -0.2831 -- --
S1 Aspheric surface 1.4364 0.6357 1.544/56.11 -0.5516
S2 Aspheric surface 53.9884 0.0251 -- 99.9900
S3 Aspheric surface 4090.9550 0.2385 1.640/23.53 99.9900
S4 Aspheric surface 5.0371 0.4229 -- 27.8706
S5 Aspheric surface -5.5806 0.2380 1.640/23.53 27.5298
S6 Aspheric surface -14.7462 0.0250 -- -99.9900
S7 Aspheric surface -5.8811 0.5410 1.535/55.80 1.8769
S8 Aspheric surface -2.6807 0.0869 -- -40.4492
S9 Aspheric surface -3.2231 0.3067 1.640/23.53 -34.1308
S10 Aspheric surface -4.5202 0.0734 -- 2.9261
S11 Aspheric surface 26.0389 0.4156 1.535/55.80 99.0000
S12 Aspheric surface -8.0454 0.1631 -- -74.0731
S13 Aspheric surface 1.6467 0.4115 1.535/55.80 -1.3314
S14 Aspheric surface 0.9330 0.2064 -- -4.2817
S15 Sphere Infinite 0.2100 1.517/64.17 --
S16 Sphere Infinite 0.5446 -- --
S17 Sphere Infinite -- -- --
Table 12
Face number A4 A6 A8 A10 A12 A14 A16
S1 2.3093E-02 6.4563E-03 -2.2438E-02 1.8966E-02 -2.3079E-02 -6.8281E-03 -1.2245E-02
S2 -4.3393E-02 -1.0562E-02 1.5913E-02 -4.9437E-02 2.1105E-03 -1.5337E-04 7.2086E-03
S3 1.8406E-02 3.3358E-02 4.4024E-02 -3.7744E-02 3.3497E-02 -3.2224E-03 1.6849E-02
S4 3.7076E-02 6.6899E-02 -4.6092E-02 4.6895E-02 5.9101E-02 1.7861E-02 -3.8843E-03
S5 -1.1089E-01 -7.2463E-03 -2.2225E-02 7.6721E-02 -3.2804E-02 3.4201E-02 -1.3726E-02
S6 -8.1366E-02 2.4244E-02 -2.1437E-02 5.4733E-02 -1.9618E-02 8.8533E-03 -5.7556E-03
S7 7.9107E-03 5.1900E-03 9.8729E-04 1.3912E-03 1.4388E-03 -1.5067E-04 -3.4405E-03
S8 -1.0462E-01 2.1862E-02 -3.5923E-02 4.2984E-02 -2.6108E-02 8.0233E-03 -1.2348E-03
S9 -1.0126E-01 6.2460E-03 -4.2456E-02 4.1928E-02 -2.5651E-02 8.3057E-03 -1.5624E-03
S10 -9.1027E-02 2.3645E-02 -3.5256E-02 4.4057E-02 -2.5212E-02 8.4339E-03 -1.3336E-03
S11 3.1150E-01 -5.1019E-01 4.2468E-01 -2.7924E-01 1.1991E-01 -2.7166E-02 2.4314E-03
S12 3.4419E-01 -3.4771E-01 1.6592E-01 -4.5782E-02 7.1315E-03 -5.5449E-04 1.5438E-05
S13 -4.5275E-01 2.3750E-01 -5.8393E-02 4.9212E-03 5.7602E-04 -1.3562E-04 6.9001E-06
S14 -2.4698E-01 1.6085E-01 -8.1821E-02 2.6966E-02 -5.1477E-03 5.1191E-04 -2.0377E-05
In addition, f1=2.66mm, f2=-7.71mm, f3=-18.02mm, f4=20.27mm, f5=-30.13mm, f6=10.82mm, f7=-5.50mm and f=4.05mm; HFOV=37.32 °; TTL=4.50mm; Fno=2.3.
Embodiment 7
Incorporated by reference to Figure 31 ~ Figure 35, in embodiment 7, pick-up lens meets the condition of table 13 and table 14 below:
Table 13
Face number Surface type Radius-of-curvature Thickness Refractive index/Abbe number Circular cone coefficient
OBJ Sphere Infinite Infinite -- --
STO Sphere Infinite -0.2831 -- --
S1 Aspheric surface 1.4376 0.6299 1.544/56.11 -0.5571
S2 Aspheric surface 103.1281 0.0333 -- 99.9900
S3 Aspheric surface -110.6080 0.2385 1.640/23.53 99.9900
S4 Aspheric surface 4.9348 0.4626 -- 28.2480
S5 Aspheric surface -5.7100 0.2515 1.640/23.53 27.4845
S6 Aspheric surface -21.9954 0.0330 -- -97.3390
S7 Aspheric surface -6.9912 0.4971 1.535/55.80 4.2051
S8 Aspheric surface -3.8561 0.1114 -- -54.1562
S9 Aspheric surface -4.5101 0.3275 1.640/23.53 -25.8409
S10 Aspheric surface -5.0370 0.1462 -- 3.6764
S11 Aspheric surface 15.3178 0.4700 1.535/55.80 99.0000
S12 Aspheric surface 500.0000 0.1440 -- -74.0731
S13 Aspheric surface 1.7035 0.4420 1.535/55.80 -1.2705
S14 Aspheric surface 1.0619 0.1938 -- -4.3197
S15 Sphere Infinite 0.2100 1.517/64.17 --
S16 Sphere Infinite 0.5446 -- --
S17 Sphere Infinite -- -- --
Table 14
Face number A4 A6 A8 A10 A12 A14 A16
S1 2.3660E-02 7.1377E-03 -2.2530E-02 1.5606E-02 -2.3843E-02 -4.0671E-03 -1.2677E-02
S2 -3.7444E-02 -6.4289E-03 2.3509E-02 -4.2442E-02 5.3289E-03 -6.0571E-03 3.5948E-04
S3 1.2336E-02 3.6192E-02 4.8625E-02 -2.9255E-02 4.1514E-02 -6.3560E-03 4.4253E-03
S4 2.8505E-02 5.6236E-02 -3.4324E-02 5.4836E-02 2.6992E-02 1.7861E-02 -3.8843E-03
S5 -1.1295E-01 -5.8532E-03 -3.0597E-02 6.6679E-02 -3.6256E-02 2.9802E-02 -1.3726E-02
S6 -7.9201E-02 2.4553E-02 -2.1239E-02 5.4953E-02 -1.9410E-02 9.1096E-03 -6.2932E-03
S7 4.8980E-03 6.7728E-03 4.0247E-03 4.3151E-03 3.5052E-03 9.6273E-04 -3.1289E-03
S8 -1.0109E-01 3.0400E-02 -3.4359E-02 4.1970E-02 -2.6918E-02 7.9475E-03 -8.7565E-04
S9 -8.8649E-02 1.2265E-02 -3.9213E-02 4.4639E-02 -2.4280E-02 8.5700E-03 -1.9374E-03
S10 -8.8724E-02 2.3483E-02 -3.5388E-02 4.4016E-02 -2.5179E-02 8.4779E-03 -1.2901E-03
S11 -8.1754E-01 -1.3363E-01 5.7661E-02 -1.0307E-02 3.3554E-03 1.5822E-03 1.3970E-03
S12 2.4861E-01 -2.6239E-01 1.3120E-01 -3.8566E-02 6.5464E-03 -5.8189E-04 2.0414E-05
S13 -3.6602E-01 1.9497E-01 -5.3231E-02 7.1427E-03 -3.0780E-04 -1.9937E-05 1.6458E-06
S14 -2.0613E-01 1.2468E-01 -6.1358E-02 2.0054E-02 -3.8120E-03 3.7658E-04 -1.4845E-05
In addition, f1=2.66mm, f2=-7.32mm, f3=-12.04mm, f4=15.18mm, f5=-88.43mm, f6=29.43mm, f7=-6.92mm and f=4.31mm; HFOV=29.11 °; TTL=4.75mm; Fno=2.4.
Embodiment 8
Incorporated by reference to Figure 36 ~ Figure 40, in embodiment 8, pick-up lens meets the condition of table 15 and table 16 below:
Table 15
Face number Surface type Radius-of-curvature Thickness Refractive index/Abbe number Circular cone coefficient
OBJ Sphere Infinite Infinite -- --
STO Sphere Infinite -0.2500 -- --
S1 Aspheric surface 1.4521 0.5876 1.544/56.11 -0.5434
S2 Aspheric surface 31.1058 0.0270 -- 57.9396
S3 Aspheric surface 72.7640 0.2385 1.640/23.53 99.9900
S4 Aspheric surface 5.0252 0.4580 -- 28.3019
S5 Aspheric surface -6.4284 0.2397 1.640/23.53 23.7780
S6 Aspheric surface 12.2593 0.0500 -- -53.3619
S7 Aspheric surface 10.1967 0.5065 1.535/55.80 -99.8180
S8 Aspheric surface 91.6363 0.1652 -- -99.9900
S9 Aspheric surface 50.0000 0.4317 1.640/23.53 -85.9988
S10 Aspheric surface -6.9119 0.1060 -- 6.7595
S11 Aspheric surface 14.9142 0.4799 1.535/55.80 99.0234
S12 Aspheric surface -748.5352 0.1547 -- 114324.5000
S13 Aspheric surface 1.9537 0.3915 1.535/55.80 -1.1940
S14 Aspheric surface 1.0565 0.2067 -- -4.4558
S15 Sphere Infinite 0.2100 1.517/64.17 --
S16 Sphere Infinite 0.5446 -- --
S17 Sphere Infinite -- -- --
Table 16
Face number A4 A6 A8 A10 A12 A14 A16
S1 2.4628E-02 6.3663E-03 -2.0288E-02 1.5083E-02 -2.5328E-02 -4.6078E-03 -1.5226E-02
S2 -3.6269E-02 -9.1396E-03 2.3046E-02 -4.0366E-02 7.5391E-03 -8.6097E-03 -5.4421E-04
S3 4.8091E-03 3.2061E-02 4.6376E-02 -2.8059E-02 4.4873E-02 -5.0214E-03 4.4292E-03
S4 2.0082E-02 5.1883E-02 -3.2101E-02 5.2992E-02 1.4191E-02 1.6545E-02 -3.8361E-03
S5 -1.0947E-01 5.3872E-03 -2.9842E-02 6.2662E-02 -4.3456E-02 2.0116E-02 -1.3713E-02
S6 -7.8660E-02 2.5946E-02 -2.1532E-02 5.3835E-02 -1.9676E-02 9.2850E-03 -6.7940E-03
S7 -1.1637E-02 2.1882E-04 2.3156E-03 4.0632E-03 3.3711E-03 1.1224E-03 -2.3936E-03
S8 -9.4930E-02 3.1958E-02 -3.4419E-02 4.1112E-02 -2.7524E-02 7.8182E-03 -6.9129E-04
S9 -9.2746E-02 1.3148E-02 -3.8909E-02 4.4930E-02 -2.4136E-02 8.5147E-03 -2.0821E-03
S10 -9.1802E-02 2.1764E-02 -3.6028E-02 4.3814E-02 -2.5225E-02 8.4798E-03 -1.2780E-03
S11 -9.3570E-01 -1.0933E-01 4.0018E-02 -1.5378E-03 3.8389E-03 2.1555E-03 8.4879E-04
S12 2.2497E-01 -2.2724E-01 1.1099E-01 -3.1661E-02 5.0800E-03 -4.0415E-04 1.1162E-05
S13 -3.3321E-01 1.8891E-01 -5.7839E-02 9.7428E-03 -8.5348E-04 3.2617E-05 -2.7679E-07
S14 -1.9458E-01 1.1856E-01 -5.8021E-02 1.8498E-02 -3.3977E-03 3.2361E-04 -1.2310E-05
In addition, f1=2.77mm, f2=-8.39mm, f3=-6.51mm, f4=21.33mm, f5=9.45mm, f6=27.25mm, f7=-5.06mm and f=4.3mm; HFOV=28.03 °; TTL=4.8mm; Fno=2.5.
Embodiment 9
Incorporated by reference to Figure 41 ~ Figure 45, in embodiment 9, pick-up lens meets the condition of table 17 and table 18 below:
Table 17
Face number Surface type Radius-of-curvature Thickness Refractive index/Abbe number Circular cone coefficient
OBJ Sphere Infinite Infinite -- --
STO Sphere Infinite -0.2500 -- --
S1 Aspheric surface 1.4566 0.5662 1.544/56.11 -0.5569
S2 Aspheric surface 73.4394 0.0250 -- -99.9900
S3 Aspheric surface -166.9555 0.2385 1.640/23.53 -99.9900
S4 Aspheric surface 5.0924 0.4135 -- 28.0972
S5 Aspheric surface -7.0687 0.2640 1.640/23.53 22.0280
S6 Aspheric surface 8.4220 0.0500 -- -83.0660
S7 Aspheric surface 6.6129 0.4954 1.535/55.80 -72.0495
S8 Aspheric surface 518.2774 0.1785 -- 99.9900
S9 Aspheric surface 9.4526 0.3930 1.640/23.53 -99.9900
S10 Aspheric surface -50.0000 0.1539 -- 99.9900
S11 Aspheric surface 15.2553 0.4642 1.535/55.80 99.0234
S12 Aspheric surface -175.0649 0.1657 -- 5726.8510
S13 Aspheric surface 1.9879 0.4009 1.535/55.80 -1.1925
S14 Aspheric surface 1.0789 0.1910 -- -4.6382
S15 Sphere Infinite 0.2100 1.517/64.17 --
S16 Sphere Infinite 0.5446 -- --
S17 Sphere Infinite -- -- --
Table 18
Face number A4 A6 A8 A10 A12 A14 A16
S1 2.4008E-02 5.3469E-03 -2.1596E-02 1.3449E-02 -2.7385E-02 -7.2203E-03 -1.8790E-02
S2 -3.6644E-02 -9.1635E-03 2.3406E-02 -4.0138E-02 6.9406E-03 -1.0969E-02 -5.4421E-04
S3 5.4613E-03 3.2419E-02 4.6349E-02 -2.7856E-02 4.6432E-02 -2.1382E-04 4.4292E-03
S4 1.8905E-02 4.9150E-02 -3.4709E-02 5.2555E-02 1.7996E-02 1.6545E-02 -3.8361E-03
S5 -1.0741E-01 5.5263E-03 -2.9364E-02 6.4183E-02 -4.1135E-02 2.0506E-02 -1.3713E-02
S6 -7.9275E-02 2.6590E-02 -2.0974E-02 5.4063E-02 -1.9603E-02 9.4310E-03 -6.4019E-03
S7 -1.2052E-02 -5.9892E-04 1.8455E-03 3.8903E-03 3.3158E-03 1.0713E-03 -2.4859E-03
S8 -9.5623E-02 3.2645E-02 -3.3906E-02 4.1301E-02 -2.7499E-02 7.7883E-03 -7.2558E-04
S9 -9.7759E-02 1.1249E-02 -3.9791E-02 4.4566E-02 -2.4268E-02 8.4727E-03 -2.0942E-03
S10 -1.0210E-01 1.9700E-02 -3.6515E-02 4.3670E-02 -2.5272E-02 8.4639E-03 -1.2825E-03
S11 -9.3146E-01 -1.1453E-01 4.6187E-02 -2.5040E-03 3.0470E-03 1.7618E-03 8.4329E-04
S12 2.2497E-01 -2.2724E-01 1.1099E-01 -3.1661E-02 5.0800E-03 -4.0415E-04 1.1162E-05
S13 -3.4942E-01 2.0816E-01 -6.7702E-02 1.2306E-02 -1.2036E-03 5.6356E-05 -9.0592E-07
S14 -2.0148E-01 1.2571E-01 -6.0896E-02 1.8994E-02 -3.4291E-03 3.2338E-04 -1.2248E-05
In addition, f1=2.71mm, f2=-7.66mm, f3=-5.92mm, f4=12.47mm, f5=12.37mm, f6=26.16mm, f7=-5.20mm and f=4.28mm; HFOV=27.91 °; TTL=4.75mm; Fno=2.5.
Embodiment 10
Incorporated by reference to Figure 45 ~ Figure 50, in embodiment 10, pick-up lens meets the condition of table 19 and table 20 below:
Table 19
Face number Surface type Radius-of-curvature Thickness Refractive index/Abbe number Circular cone coefficient
OBJ Sphere Infinite Infinite -- --
STO Sphere Infinite -0.2500 -- --
S1 Aspheric surface 1.4561 0.5647 1.544/56.11 -0.5593
S2 Aspheric surface 35.0651 0.0250 -- -99.9900
S3 Aspheric surface 113.1848 0.2385 1.640/23.53 99.9900
S4 Aspheric surface 5.0821 0.4094 -- 28.1229
S5 Aspheric surface -7.0496 0.2665 1.640/23.53 22.3712
S6 Aspheric surface 8.7511 0.0508 -- -87.8333
S7 Aspheric surface 6.8800 0.4739 1.535/55.80 -77.9183
S8 Aspheric surface 182.4515 0.1790 -- -99.9900
S9 Aspheric surface 8.1809 0.3974 1.640/23.53 -99.9900
S10 Aspheric surface 50.0000 0.1791 -- -99.9900
S11 Aspheric surface 15.2319 0.4648 1.535/55.80 99.0234
S12 Aspheric surface -116.5268 0.1602 -- 2757.0440
S13 Aspheric surface 1.9809 0.4240 1.535/55.80 -1.2012
S14 Aspheric surface 1.1000 0.1915 -- -4.6623
S15 Sphere Infinite 0.2100 1.517/64.17 --
S16 Sphere Infinite 0.5446 -- --
S17 Sphere Infinite -- -- --
Table 20
Face number A4 A6 A8 A10 A12 A14 A16
S1 2.4008E-02 5.3469E-03 -2.1596E-02 1.3449E-02 -2.7385E-02 -7.2203E-03 -1.8790E-02
S2 -3.6644E-02 -9.1635E-03 2.3406E-02 -4.0138E-02 6.9406E-03 -1.0969E-02 -5.4421E-04
S3 5.4613E-03 3.2419E-02 4.6349E-02 -2.7856E-02 4.6432E-02 -2.1382E-04 4.4292E-03
S4 1.8905E-02 4.9150E-02 -3.4709E-02 5.2555E-02 1.7996E-02 1.6545E-02 -3.8361E-03
S5 -1.0741E-01 5.5263E-03 -2.9364E-02 6.4183E-02 -4.1135E-02 2.0506E-02 -1.3713E-02
S6 -7.9275E-02 2.6590E-02 -2.0974E-02 5.4063E-02 -1.9603E-02 9.4310E-03 -6.4019E-03
S7 -1.2052E-02 -5.9892E-04 1.8455E-03 3.8903E-03 3.3158E-03 1.0713E-03 -2.4859E-03
S8 -9.5623E-02 3.2645E-02 -3.3906E-02 4.1301E-02 -2.7499E-02 7.7883E-03 -7.2558E-04
S9 -9.7759E-02 1.1249E-02 -3.9791E-02 4.4566E-02 -2.4268E-02 8.4727E-03 -2.0942E-03
S10 -1.0210E-01 1.9700E-02 -3.6515E-02 4.3670E-02 -2.5272E-02 8.4639E-03 -1.2825E-03
S11 -9.3146E-01 -1.1453E-01 4.6187E-02 -2.5040E-03 3.0470E-03 1.7618E-03 8.4329E-04
S12 2.2497E-01 -2.2724E-01 1.1099E-01 -3.1661E-02 5.0800E-03 -4.0415E-04 1.1162E-05
S13 -3.4942E-01 2.0816E-01 -6.7702E-02 1.2306E-02 -1.2036E-03 5.6356E-05 -9.0592E-07
S14 -2.0148E-01 1.2571E-01 -6.0896E-02 1.8994E-02 -3.4291E-03 3.2338E-04 -1.2248E-05
In addition, f1=2.77mm, f2=-8.26mm, f3=-6.02mm, f4=13.31mm, f5=15.12mm, f6=25.13mm, f7=-5.54mm and f=4.32mm; HFOV=34.76 °; TTL=4.78mm; Fno=2.52.
Embodiment 11
Incorporated by reference to Figure 51 ~ Figure 55, in embodiment 11, pick-up lens meets the condition of table 21 and table 22 below:
Table 21
Face number Surface type Radius-of-curvature Thickness Refractive index/Abbe number Circular cone coefficient
OBJ Sphere Infinite Infinite -- --
STO Sphere Infinite -0.2300 -- --
S1 Aspheric surface 1.4054 0.6994 1.544/56.11 -0.5588
S2 Aspheric surface 580.5982 0.0513 -- -99.9900
S3 Aspheric surface -17.5540 0.2385 1.640/23.53 -10.6690
S4 Aspheric surface 4.7954 0.3543 -- 27.8763
S5 Aspheric surface -5.4654 0.2380 1.640/23.53 24.6831
S6 Aspheric surface -3.9479 0.0776 -- -6.7057
S7 Aspheric surface -3.1039 0.3051 1.535/55.80 -1.0338
S8 Aspheric surface -3.6848 0.1302 -- -61.7734
S9 Aspheric surface -4.2171 0.2562 1.640/23.53 -54.2805
S10 Aspheric surface -10.4127 0.0869 -- -2.9250
S11 Aspheric surface 18.5814 0.3473 1.535/55.80 99.0000
S12 Aspheric surface -4.0182 0.1901 -- -74.0731
S13 Aspheric surface 1.6063 0.4130 1.535/55.80 -1.2761
S14 Aspheric surface 0.9231 0.2127 -- -4.2098
S15 Sphere Infinite 0.2100 1.517/64.17 --
S16 Sphere Infinite 0.5446 -- --
S17 Sphere Infinite -- -- --
Table 22
Face number A4 A6 A8 A10 A12 A14 A16
S1 2.3383E-02 7.0979E-03 -2.1908E-02 1.9294E-02 -2.2830E-02 -5.8468E-03 -8.9442E-03
S2 -4.5425E-02 -1.0739E-02 1.7895E-02 -4.5455E-02 7.0085E-03 3.6023E-03 6.8689E-03
S3 1.7038E-02 3.0450E-02 4.1156E-02 -3.9575E-02 3.3549E-02 -1.7488E-04 2.4234E-02
S4 3.8153E-02 6.9934E-02 -4.3014E-02 4.2957E-02 4.0003E-02 1.7861E-02 -3.8843E-03
S5 -1.0706E-01 -3.0586E-04 -1.1317E-02 8.2991E-02 -3.6597E-02 3.4201E-02 -1.3726E-02
S6 -8.8454E-02 1.9984E-02 -2.3785E-02 5.4407E-02 -1.8509E-02 1.0514E-02 -4.1958E-03
S7 7.0027E-03 2.0809E-03 -2.6928E-03 -2.6577E-03 -1.9277E-03 -1.6757E-03 -2.2914E-03
S8 -9.7433E-02 2.4321E-02 -3.4118E-02 4.4460E-02 -2.5322E-02 8.1008E-03 -1.6891E-03
S9 -1.0005E-01 9.4345E-03 -4.1499E-02 4.1514E-02 -2.6224E-02 8.0110E-03 -1.5488E-03
S10 -9.0133E-02 2.3347E-02 -3.5447E-02 4.3949E-02 -2.5286E-02 8.3808E-03 -1.3694E-03
S11 2.9665E-01 -4.3016E-01 3.3602E-01 -2.0144E-01 7.7956E-02 -1.5962E-02 1.2955E-03
S12 2.8652E-01 -2.3963E-01 8.0176E-02 -1.0393E-02 -9.7501E-04 4.2939E-04 -3.4140E-05
S13 -4.0929E-01 1.8264E-01 -3.1991E-02 -1.0125E-03 1.1986E-03 -1.5876E-04 6.7310E-06
S14 -2.0914E-01 1.1515E-01 -4.8394E-02 1.3307E-02 -2.1317E-03 1.7894E-04 -6.0486E-06
In addition, f1=2.58mm, f2=-5.82mm, f3=20.78mm, f4=-44.92mm, f5=-11.18mm, f6=6.19mm, f7=-5.13mm and f=3.98mm; HFOV=37.79 °; TTL=4.36mm; Fno=2.6.
Embodiment 12
Incorporated by reference to Figure 56 ~ Figure 60, in embodiment 12, pick-up lens meets the condition of table 23 and table 24 below:
Table 23
Face number Surface type Radius-of-curvature Thickness Refractive index/Abbe number Circular cone coefficient
OBJ Sphere Infinite Infinite -- --
STO Sphere Infinite -0.2831 -- --
S1 Aspheric surface 1.4289 0.6089 1.544/56.11 -0.5372
S2 Aspheric surface 24.6448 0.0461 -- 99.9900
S3 Aspheric surface -54.2050 0.2385 1.640/23.53 95.5235
S4 Aspheric surface 5.0646 0.4462 -- 27.7082
S5 Aspheric surface -5.4686 0.2408 1.640/23.53 26.6514
S6 Aspheric surface -5.1742 0.0250 -- -10.1375
S7 Aspheric surface -3.7150 0.4302 1.535/55.80 -1.6386
S8 Aspheric surface -2.3289 0.1336 -- -54.3057
S9 Aspheric surface -2.4784 0.3315 1.640/23.53 -67.7623
S10 Aspheric surface -5.5570 0.0472 -- 10.6323
S11 Aspheric surface -19.0367 0.3048 1.640/23.53 99.0000
S12 Aspheric surface 58.5042 0.0861 -- -74.0731
S13 Aspheric surface 1.2143 0.6439 1.535/55.80 -1.3397
S14 Aspheric surface 1.0888 0.2373 -- -3.1221
S15 Sphere Infinite 0.2100 1.517/64.17 --
S16 Sphere Infinite 0.5446 -- --
S17 Sphere Infinite -- -- --
Table 24
Face number A4 A6 A8 A10 A12 A14 A16
S1 2.4964E-02 6.6476E-03 -2.1263E-02 2.0755E-02 -2.1933E-02 -8.7141E-03 -2.0851E-02
S2 -4.1600E-02 -1.0848E-02 1.4614E-02 -5.0878E-02 1.3832E-03 -5.1085E-04 4.9215E-03
S3 1.3870E-02 2.8926E-02 4.0243E-02 -4.1227E-02 3.0284E-02 -4.4931E-03 2.1907E-02
S4 4.0405E-02 7.5238E-02 -4.7488E-02 4.1587E-02 6.1500E-02 1.7861E-02 -3.8843E-03
S5 -1.0367E-01 -8.1076E-03 -2.4695E-02 7.8912E-02 -2.8799E-02 3.4201E-02 -1.3726E-02
S6 -8.4024E-02 2.3886E-02 -1.9938E-02 5.5712E-02 -1.9282E-02 8.9132E-03 -6.2427E-03
S7 8.5328E-03 5.8125E-03 5.6872E-04 1.5247E-03 2.1018E-03 8.3635E-04 -1.9357E-03
S8 -9.6740E-02 2.0380E-02 -3.6479E-02 4.2568E-02 -2.6260E-02 8.1027E-03 -1.0978E-03
S9 -9.4817E-02 1.4590E-02 -4.0238E-02 4.2618E-02 -2.5449E-02 8.3013E-03 -1.5768E-03
S10 -9.6070E-02 2.3537E-02 -3.4995E-02 4.4249E-02 -2.5093E-02 8.5005E-03 -1.2985E-03
S11 3.5301E-01 -5.3947E-01 4.0702E-01 -2.1892E-01 7.6903E-02 -1.4643E-02 1.1097E-03
S12 2.9586E-01 -3.4810E-01 1.9609E-01 -6.8933E-02 1.4866E-02 -1.7808E-03 9.0888E-05
S13 -4.2927E-01 2.1841E-01 -6.3933E-02 1.1189E-02 -1.0653E-03 4.5197E-05 -4.4632E-07
S14 -2.0497E-01 1.2018E-01 -5.4509E-02 1.6050E-02 -2.7452E-03 2.4647E-04 -8.9255E-06
In addition, f1=2.75mm; F2=-7.17mm, f3=112.91mm, f4=10.49mm, f5=-7.25mm, f6=-22.25mm, f7=24.78mm and f=3.97mm; HFOV=38.14 °; TTL=4.57mm; Fno=2.2.
In embodiment 1 ~ 12, each conditional meets the condition of form below:
In the description of this instructions, specific features, structure, material or feature that the description of reference term " embodiment ", " some embodiments ", " illustrative examples ", " example ", " concrete example " or " some examples " etc. means to describe in conjunction with described embodiment or example are contained at least one embodiment of the present utility model or example.In this manual, identical embodiment or example are not necessarily referred to the schematic representation of above-mentioned term.And the specific features of description, structure, material or feature can combine in an appropriate manner in any one or more embodiment or example.
In addition, term " first ", " second " only for describing object, and can not be interpreted as instruction or hint relative importance or imply the quantity indicating indicated technical characteristic.Thus, be limited with " first ", the feature of " second " can express or impliedly comprise at least one this feature.In description of the present utility model, the implication of " multiple " is at least two, such as two, three etc., unless otherwise expressly limited specifically.
Although illustrate and described embodiment of the present utility model above, be understandable that, above-described embodiment is exemplary, can not be interpreted as restriction of the present utility model, those of ordinary skill in the art can change above-described embodiment, revises, replace and modification in scope of the present utility model.

Claims (8)

1. a pick-up lens, is characterized in that, is comprised successively to image side by thing side:
Have the first lens of positive refracting power, the thing side of these the first lens is convex surface, and the face, image side of these the first lens is concave surface;
Have the second lens of refracting power, the face, image side of these the second lens is concave surface;
Have the 3rd lens of refracting power, the thing side of the 3rd lens is concave surface;
There are the 4th lens of refracting power;
There are the 5th lens of refracting power;
There are the 6th lens of refracting power;
Have the 7th lens of refracting power, the thing side of the 7th lens is convex surface, and the face, image side of the 7th lens is concave surface at paraxial place;
This pick-up lens meets following relationship: 1.3<f/f1<2.0;
Wherein, f is the effective focal length of this pick-up lens, and f1 is the effective focal length of these the first lens.
2. pick-up lens according to claim 1, is characterized in that: these second lens have negative refracting power, and this pick-up lens meets following relationship:
0<R1/R4<0.5;
Wherein, R1 is the radius-of-curvature of the thing side of these the first lens; R4 is the radius-of-curvature in the face, image side of these the second lens.
3. pick-up lens according to claim 1, is characterized in that: this pick-up lens meets following relationship:
0.8<|f6/f7|<6;
Wherein, f6 is the effective focal length of the 6th lens; F7 is the effective focal length of the 7th lens.
4. pick-up lens according to claim 1, is characterized in that: this pick-up lens meets following relationship:
4<T23/T34<18;
Wherein, T23 is these second lens and spacing distance on the axle of the 3rd lens; T34 is the 3rd lens and spacing distance on the axle of the 4th lens.
5. pick-up lens according to claim 1, is characterized in that: the face, image side of the 7th lens is aspheric surface, and the face, image side of the 7th lens has a point of inflexion at least, and this pick-up lens meets following relationship:
0.3<Yc72/ImgH<0.9;
Wherein, Yc72 be the 7th lens face, image side on this point of inflexion to the vertical range of optical axis; ImgH is the half of the diagonal line length of the effective pixel area of imaging surface.
6. pick-up lens according to claim 1, is characterized in that: this pick-up lens meets following relationship:
0.6<CT7/ET7max<1;
Wherein, CT7 is the center thickness of the 7th lens; ET7max is the maximal margin thickness of the 7th lens.
7. pick-up lens according to claim 1, is characterized in that: this pick-up lens meets following relationship:
∑T/TTL<0.25;
Wherein, ∑ T is the length summation of airspace on optical axis between these first lens to the 7th lens between arbitrary neighborhood two lens; TTL is that the thing side of these the first lens is to distance on the axle of imaging surface.
8. pick-up lens according to claim 1, is characterized in that: this pick-up lens meets following relationship:
TTL/ImgH<1.65;
Wherein, TTL is that the thing side of these the first lens is to distance on the axle of imaging surface; ImgH is the half of the diagonal line length of the effective pixel area of this imaging surface.
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