CN104597582B - Pick-up lenss - Google Patents
Pick-up lenss Download PDFInfo
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- CN104597582B CN104597582B CN201510005832.7A CN201510005832A CN104597582B CN 104597582 B CN104597582 B CN 104597582B CN 201510005832 A CN201510005832 A CN 201510005832A CN 104597582 B CN104597582 B CN 104597582B
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- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B13/00—Optical objectives specially designed for the purposes specified below
- G02B13/001—Miniaturised objectives for electronic devices, e.g. portable telephones, webcams, PDAs, small digital cameras
-
- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B13/00—Optical objectives specially designed for the purposes specified below
- G02B13/001—Miniaturised objectives for electronic devices, e.g. portable telephones, webcams, PDAs, small digital cameras
- G02B13/0015—Miniaturised objectives for electronic devices, e.g. portable telephones, webcams, PDAs, small digital cameras characterised by the lens design
- G02B13/002—Miniaturised objectives for electronic devices, e.g. portable telephones, webcams, PDAs, small digital cameras characterised by the lens design having at least one aspherical surface
- G02B13/0045—Miniaturised objectives for electronic devices, e.g. portable telephones, webcams, PDAs, small digital cameras characterised by the lens design having at least one aspherical surface having five or more lenses
-
- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B13/00—Optical objectives specially designed for the purposes specified below
- G02B13/06—Panoramic objectives; So-called "sky lenses" including panoramic objectives having reflecting surfaces
-
- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B13/00—Optical objectives specially designed for the purposes specified below
- G02B13/18—Optical objectives specially designed for the purposes specified below with lenses having one or more non-spherical faces, e.g. for reducing geometrical aberration
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Abstract
The invention discloses a kind of pick-up lenss, which includes the first lens with positive refracting power successively by thing side to image side, its thing side is convex surface, second lens, 3rd lens, the 4th lens, its thing side are concave surface, the 5th lens with positive refracting power, the 6th lens and the 7th lens with negative refracting power;The pick-up lenss include a diaphragm, are placed between object and the second lens.The pick-up lenss meet relational expression:TTL/Img H < 2.4;1.5 < CTl/CT2 < 4;Wherein, TTL is the camera lens overall length of the pick-up lenss, and Img H are the half of pick-up lenss effective pixel area diameter on imaging surface, and CT1 is the center thickness of the first lens, and CT2 is the center thickness of the second lens.Above-mentioned condition formula is met so that the pick-up lenss of better embodiment of the present invention have the characteristics such as larger field angle (Radix Rumiciss), miniaturization and high image quality.
Description
Technical field
The present invention relates to imaging technique, more particularly, to a kind of pick-up lenss.
Background technology
With charge coupled device (charge-coupled device, CCD) and CMOS
The performance of (complementary metal-oxide semiconductor, CMOS) imageing sensor is improved and size reduces,
Corresponding pick-up lenss also need the requirement for meeting high image quality and miniaturization.
The pick-up lenss for being used on portable type electronic product at present mostly three pick-up lenss to five chips, but with
Prevailing, the drive requirement more and more higher of the miniaturization photographic head to pixel and image quality of portable type electronic product, it is existing to take the photograph
As camera lens will be unable to meet the demand of electronic product, it is therefore desirable to a kind of pick-up lenss being applied on portable type electronic product,
On the basis of possessing high pixel and high quality graphic can be obtained, while the small size performance of electronic product can be catered to.
The content of the invention
It is contemplated that at least solving one of technical problem present in prior art.
For this purpose, the present invention needs to provide a kind of pick-up lenss, which is included with positive refracting power successively by thing side to image side
First lens, its thing side are convex surface;Second lens;3rd lens;4th lens, its thing side are concave surface;With positive flexion
5th lens of power;6th lens and the 7th lens with negative refracting power;The pick-up lenss include a diaphragm, be arranged at by
Take the photograph between thing and the second lens.The pick-up lenss meet relational expression:
TTL/ImgH < 2.4;
1.5 < CT1/CT2 < 4;
Wherein, TTL is the camera lens overall length of the pick-up lenss, and ImgH is pick-up lenss valid pixel on imaging surface
The half of regional diameter, CT1 are the center thickness of the first lens, and CT2 is the center thickness of the second lens.
In some embodiments, the first lens image side surface is concave surface;5th lens image side surface is convex surface;7th is saturating
Mirror thing side is concave surface.
In some embodiments, the pick-up lenss also meet following relationship:
| f23/f | < 12;
Wherein, f23 is the combined focal length of second lens and the 3rd lens, and f is the effective of the pick-up lenss
Focal length.
In some embodiments, the pick-up lenss also meet conditional:
0 < f1/f < 2;And
- 4 < (R1+R2)/(R1-R2) < -1;
Wherein, f1 is the focal length of first lens, and R1, R2 are respectively the thing side surface and image side table of first lens
The radius of curvature in face.
In some embodiments, the pick-up lenss also meet conditional:
0 < f5/f < 6.5;And
- 2.5 < R10/f < 0
Wherein, f5 is the focal length of the 5th lens, and R10 is the radius of curvature on the image side surface of the 5th lens.
In some embodiments, the pick-up lenss also meet conditional:
- 1.5 < f7/f < 0;And
- 3.0 < R13/f < 0;
Wherein, f7 is the focal length of the 7th lens, and R13 is the radius of curvature of the thing side surface of the 7th lens.
In some embodiments, the pick-up lenss also meet conditional:
0.5 < f/f123 < 1.5;
Wherein, f123 is the first lens, the second lens, the combined focal length of the 3rd lens.
In some embodiments, second lens have negative refracting power, and for convex surface, image side surface is recessed for its thing side
Face, the 3rd lens have positive refracting power, and for convex surface, image side surface is concave surface for its thing side.
In some embodiments, the 4th lens image side surface is convex surface;
In some embodiments, the 5th lens thing side is concave surface;6th lens thing side is convex surface.
This patent also provides another kind of pick-up lenss, is included to image side successively by thing side:With positive refracting power first is saturating
Mirror, its thing side are convex surface;The second lens with negative refracting power;3rd lens, its thing side are convex surface, and image side surface is recessed
Face;4th lens;The 5th lens with positive refracting power;6th lens;The 7th lens with negative refracting power;The camera lens
Head includes a diaphragm, is arranged between object and the second lens.The pick-up lenss meet following relationship:
TTL/ImgH < 2.4;
Wherein, overall lengths of the TTL for pick-up lenss, ImgH are the half of effective pixel area diameter on imaging surface.
In some embodiments, the pick-up lenss also meet conditional:
f123/f567≤-0.3;
Wherein, f123 is the first lens, the second lens, the combined focal length of the 3rd lens, and f567 is the 5th lens, the 6th saturating
The combined focal length of mirror, the 7th lens.
In some embodiments, the second lens thing side is convex surface, and image side surface is concave surface.
In some embodiments, the first lens image side surface is concave surface, and the 5th lens image side surface is convex surface, and the 7th is saturating
Mirror thing side is concave surface.
In some embodiments, in the pick-up lenss, the 3rd lens have positive refracting power.
In some embodiments, the pick-up lenss meet following relationship:
| f23/f | < 12;
Wherein, f23 is the combined focal length of second, third lens, the whole focal length of f pick-up lenss.
In some embodiments, the pick-up lenss meet relationship below:
- 5 < f567/f < -1;
Wherein, f567 is the 5th lens, the 6th lens, the combined focal length of the 7th lens.
In some embodiments, the pick-up lenss meet relationship below:
1≤f1/f < 2;And
- 4 < (R1+R2)/(R1-R2) < -1;
Wherein, f1 is the focal length of the first lens, and R1, R2 are respectively the radius of curvature of the first lens thing side and image side surface.
In some embodiments, the pick-up lenss meet relationship below:
0 < f5/f < 3;And
- 1 < R10/f < 0;
Wherein, f5 is the focal length of the 5th lens, and R10 is the radius of curvature of the 5th lens image side surface.
In some embodiments, the pick-up lenss meet relationship below:
- 1.5 < f7/f < 0;And
- 3.0 < R13/f < 0;
Wherein, f7 is the focal length of the 7th lens, and R13 is the radius of curvature of the 7th lens thing side.
In some embodiments, the 4th lens thing side is concave surface, and image side surface is convex surface.
In some embodiments, the 5th lens thing side is concave surface;6th lens thing side is convex surface.
The additional aspect and advantage of the present invention will be set forth in part in the description, and partly will become from the following description
Obtain substantially, or recognized by the practice of the present invention.
Description of the drawings
The above-mentioned and/or additional aspect and advantage of the present invention will become from the description with reference to accompanying drawings below to embodiment
Substantially with it is easy to understand, wherein:
Fig. 1 is the schematic diagram of the pick-up lenss of the embodiment of the present invention 1;
Fig. 2 is chromaticity difference diagram (mm) on the axle of the pick-up lenss of embodiment 1;Fig. 3 is the astigmatism figure of the pick-up lenss of embodiment 1
(mm);Fig. 4 is the distortion figure (%) of the pick-up lenss of embodiment 1;Fig. 5 is pick-up lenss ratio chromatism, figure (um) of embodiment 1;
Fig. 6 is the schematic diagram of the pick-up lenss of the embodiment of the present invention 2;
Fig. 7 is chromaticity difference diagram (mm) on the axle of the pick-up lenss of embodiment 2;Fig. 8 is the astigmatism figure of the pick-up lenss of embodiment 2
(mm);Fig. 9 is the distortion figure (%) of the pick-up lenss of embodiment 2;Figure 10 is the pick-up lenss ratio chromatism, figure of embodiment 2
(um);
Figure 11 is the schematic diagram of the pick-up lenss of the embodiment of the present invention 3;
Figure 12 is chromaticity difference diagram (mm) on the axle of the pick-up lenss of embodiment 3;Figure 13 is the astigmatism of the pick-up lenss of embodiment 3
Figure (mm);Figure 14 is the distortion figure (%) of the pick-up lenss of embodiment 3;Figure 15 is the pick-up lenss ratio chromatism, figure of embodiment 3
(um);
Figure 16 is the schematic diagram of the pick-up lenss of the embodiment of the present invention 4;
Figure 17 is chromaticity difference diagram (mm) on the axle of the pick-up lenss of embodiment 4;Figure 18 is the astigmatism of the pick-up lenss of embodiment 4
Figure (mm);Figure 19 is the distortion figure (%) of the pick-up lenss of embodiment 4;Figure 20 is the pick-up lenss ratio chromatism, figure of embodiment 4
(um);
Figure 21 is the schematic diagram of the pick-up lenss of the embodiment of the present invention 5;
Figure 22 is chromaticity difference diagram (mm) on the axle of the pick-up lenss of embodiment 5;Figure 23 is the astigmatism of the pick-up lenss of embodiment 5
Figure (mm);Figure 24 is the distortion figure (%) of the pick-up lenss of embodiment 5;Figure 25 is the pick-up lenss ratio chromatism, figure of embodiment 5
(um);
Figure 26 is the schematic diagram of the pick-up lenss of the embodiment of the present invention 6;
Figure 27 is chromaticity difference diagram (mm) on the axle of the pick-up lenss of embodiment 6;Figure 28 is the astigmatism of the pick-up lenss of embodiment 6
Figure (mm);Figure 29 is the distortion figure (%) of the pick-up lenss of embodiment 6;Figure 30 is the pick-up lenss ratio chromatism, figure of embodiment 6
(um);
Figure 31 is the schematic diagram of the pick-up lenss of the embodiment of the present invention 7;
Figure 32 is chromaticity difference diagram (mm) on the axle of the pick-up lenss of embodiment 7;Figure 33 is the astigmatism of the pick-up lenss of embodiment 7
Figure (mm);Figure 34 is the distortion figure (%) of the pick-up lenss of embodiment 7;Figure 35 is the pick-up lenss ratio chromatism, figure of embodiment 7
(um);
Figure 36 is the schematic diagram of the pick-up lenss of the embodiment of the present invention 8;
Figure 37 is chromaticity difference diagram (mm) on the axle of the pick-up lenss of embodiment 8;Figure 38 is the astigmatism of the pick-up lenss of embodiment 8
Figure (mm);Figure 39 is the distortion figure (%) of the pick-up lenss of embodiment 8;Figure 40 is the pick-up lenss ratio chromatism, figure of embodiment 8
(um);
Figure 41 is the schematic diagram of the pick-up lenss of the embodiment of the present invention 9;
Figure 42 is chromaticity difference diagram (mm) on the axle of the pick-up lenss of embodiment 9;Figure 43 is the astigmatism of the pick-up lenss of embodiment 9
Figure (mm);Figure 44 is the distortion figure (%) of the pick-up lenss of embodiment 9;Figure 45 is the pick-up lenss ratio chromatism, figure of embodiment 9
(um)。
Figure 46 is the schematic diagram of the pick-up lenss of the embodiment of the present invention 10;
Figure 47 is chromaticity difference diagram (mm) on the axle of the pick-up lenss of embodiment 10;Figure 48 is the picture of the pick-up lenss of embodiment 10
Dissipate figure (mm);Figure 49 is the distortion figure (%) of the pick-up lenss of embodiment 10;Figure 50 is the pick-up lenss multiplying power color of embodiment 10
Difference figure (um).
Figure 51 is the schematic diagram of the pick-up lenss of the embodiment of the present invention 11;
Figure 52 is chromaticity difference diagram (mm) on the axle of the pick-up lenss of embodiment 11;Figure 53 is the picture of the pick-up lenss of embodiment 11
Dissipate figure (mm);Figure 54 is the distortion figure (%) of the pick-up lenss of embodiment 11;Figure 55 is the pick-up lenss multiplying power color of embodiment 11
Difference figure (um).
Figure 56 is the schematic diagram of the pick-up lenss of the embodiment of the present invention 12;
Figure 57 is chromaticity difference diagram (mm) on the axle of the pick-up lenss of embodiment 12;Figure 58 is the picture of the pick-up lenss of embodiment 12
Dissipate figure (mm);Figure 59 is the distortion figure (%) of the pick-up lenss of embodiment 12;And Figure 60 is the pick-up lenss multiplying power of embodiment 12
Chromaticity difference diagram (u m).
Specific embodiment
Embodiments of the present invention are described below in detail, the example of the embodiment is shown in the drawings, wherein ad initio
Same or similar element or the element with same or like function are represented to same or similar label eventually.Below by ginseng
The embodiment for examining Description of Drawings is exemplary, is only used for explaining the present invention, and is not considered as limiting the invention.
In describing the invention, it is to be understood that term " first ", " second " are only used for describing purpose, and can not
It is interpreted as indicating or implying the quantity that relative importance or hidden conjunction indicate indicated technical characteristic.Thus, define " the
The feature of one ", " second " can be expressed or hidden include one or more feature with closing.In description of the invention
In, " multiple " are meant that two or more, unless otherwise expressly limited specifically.
In describing the invention, it should be noted that unless otherwise clearly defined and limited, term " installation ", " phase
Even ", " connection " should be interpreted broadly, for example, it may be being fixedly connected, or being detachably connected, or be integrally connected;Can
Being to be mechanically connected, or electrically connect or can be in communication with each other;Can be joined directly together, it is also possible to by between intermediary
Connect connected, can be connection or the interaction relationship of two elements of two element internals.For the ordinary skill of this area
For personnel, above-mentioned term concrete meaning in the present invention can be understood as the case may be.
Following disclosure provides many different embodiments or example is used for realizing the different structure of the present invention.In order to
Simplify disclosure of the invention, hereinafter the part and setting of specific examples are described.Certainly, they are only merely illustrative, and
And purpose does not lie in the restriction present invention.Additionally, the present invention can in different examples repeat reference numerals and/or reference letter,
This repetition is for purposes of simplicity and clarity, between itself not indicating discussed various embodiments and/or arranging
Relation.Additionally, the invention provides various specific technique and material example, but those of ordinary skill in the art can be with
Recognize the application of other techniques and/or the use of other materials.
Fig. 1 is referred to, the pick-up lenss of better embodiment of the present invention are included with positive flexion successively by thing side to image side
First lens E1 of power, its thing side S1 are convex surface;Second lens E2;3rd lens E3;4th lens E4, its thing side S7 are
Concave surface;The 5th lens E5 with positive refracting power;6th lens E6 and the 7th lens E7 with negative refracting power;The camera lens
Head includes a diaphragm STO, is arranged between object and the second lens E2.Pick-up lenss meet relational expression:
TTL/ImgH < 2.4;
1.5 < CT1/CT2 < 4;
Wherein, TTL is the camera lens overall length of the pick-up lenss, and ImgH is pick-up lenss valid pixel on imaging surface
The half of regional diameter, CT1 are the center thickness of the first lens, and CT2 is the center thickness of the second lens.
Both the above conditional is conducive to the miniaturization of pick-up lenss.
Specifically, the first lens E1 includes that thing side surface S1 and image side surface S2, the second lens E2 include thing side surface S3
And image side surface S4, the 3rd lens E3 include thing side surface S5 and image side surface S6, the 4th lens E4 include image side surface S7 and
Image side surface S8, the 5th lens E5 include thing side surface S9 and image side surface S10, the 6th lens E6 include thing side surface S11 and
Image side surface S12, the 7th lens E7 include thing side surface S13 and image side surface S14.
In some embodiments, the first lens E1 image side surfaces S2 is concave surface;5th lens E5 image side surfaces E10 is convex
Face;7th lens E7 things side E13 is concave surface.
So shape design can further improve image quality and promote miniaturization.
In some embodiments, the pick-up lenss also meet following relationship:
| f23/f | < 12;
Wherein, f23 is the combined focal length of the second lens E2 and the 3rd lens E3, and f is the pick-up lenss
Effective focal length.
Above formula requires the astigmatism for being conducive to correcting pick-up lenss.
In some embodiments, the pick-up lenss also meet conditional:
0 < f1/f < 2;And
- 4 < (R1+R2)/(R1-R2) < -1;
Wherein, f1 is the focal length of the first lens E1, R1, R2 be respectively the thing side surface S1 of the first lens E1 and
The radius of curvature of image side surface S2.
Restriction of two formula of the above to the first lens can ensure that this pick-up lens has the larger angle of visual field, and appropriate flexion
Power distribution contributes to the Miniaturization Design of camera lens.
In some embodiments, the pick-up lenss also meet conditional:
0 < f5/f < 6.5;And
- 2.5 < R10/f < 0
Wherein, f5 is the focal length of the 5th lens E5, and R10 is the radius of curvature of the image side surface S10 of the 5th lens E5.
Condition above formula can effectively cause the light angle of pick-up lenss gentle limiting for 5th lens E5, reduce
Tolerance sensitivities.
In some embodiments, the pick-up lenss also meet conditional:
- 1.5 < f7/f < 0;And
- 3.0 < R13/f < 0;
Wherein, f7 is the focal length of the 7th lens, and R13 is the radius of curvature of the thing side surface of the 7th lens.
Meet the 7th lens of above formula requirement, coordinating other lenses shape and focal power feature, correction system that can be good
Unite various aberrations, reduce distortion, improve the resolution of this camera lens.
In some embodiments, the pick-up lenss also meet conditional:
0.5 < f/f123 < 1.5;
Wherein, f123 is the first lens, the second lens, the combined focal length of the 3rd lens.
Meet above-mentioned condition formula to be conducive to shortening the overall length of pick-up lenss, increase the angle of visual field.
In some embodiments, second lens have negative refracting power, and for convex surface, image side surface is recessed for its thing side
Face, the 3rd lens have positive refracting power, and for convex surface, image side surface is concave surface for its thing side.
In some embodiments, the 4th lens image side surface is convex surface;
In some embodiments, the 5th lens thing side is concave surface;6th lens thing side is convex surface.
On the other hand, the present invention provides a kind of pick-up lenss, is included to image side successively by thing side:With positive refracting power
One lens, its thing side are convex surface;The second lens with negative refracting power;3rd lens, its thing side are convex surface, and image side surface is
Concave surface;4th lens;The 5th lens with positive refracting power;6th lens;The 7th lens with negative refracting power;The shooting
Camera lens includes a diaphragm, is placed between object and the second lens.
Pick-up lenss meet following relationship:
TTL/ImgH < 2.4;
Wherein, overall lengths of the TTL for pick-up lenss, ImgH are the half of effective pixel area diameter on imaging surface.
Above formula requires the miniaturization that can be conducive to camera lens.
In some embodiments, the photographic head meets following relationship:
f123/f567≤-0.3;
Wherein, f123 is the first lens, the second lens, the combined focal length of the 3rd lens, f567 be the 5th lens, the
The combined focal length of six lens, the 7th lens.
On the one hand the reasonable distribution of above formula refracting power is conducive to the miniaturization of camera lens, on the other hand can increase the angle of visual field, and
Improve the image quality of camera lens.
In some embodiments, the second lens thing side is convex surface, and image side surface is concave surface;In the pick-up lenss
3rd lens have positive refracting power;The first lens image side surface be concave surface, the 5th lens image side surface be convex surface, the 7th lens
Thing side is concave surface.
So complications power and form fit can further improve image quality and promote miniaturization.
In some embodiments, the pick-up lenss meet following relationship:
| f23/f | < 12;
Wherein, f23 is the combined focal length of second, third lens, the whole focal length of f pick-up lenss.
Above formula requires the astigmatism for being conducive to correcting pick-up lenss.
In some embodiments, the pick-up lenss meet relationship below:
- 5 < f567/f < -1;
Be conducive to the small size performance of pick-up lenss, combined shape feature improve image quality, reduce tolerance sensitivities.
In some embodiments, the pick-up lenss meet relationship below:
1≤f1/f < 2;And
- 4 < (R1+R2)/(R1-R2) < -1;
Wherein, f1 is the focal length of the first lens, and R1, R2 are respectively the radius of curvature of the first lens thing side and image side surface.
Restriction of two formula of the above to the first lens can ensure that this pick-up lens has the larger angle of visual field, and appropriate flexion
Power distribution contributes to the Miniaturization Design of camera lens.
In some embodiments, the pick-up lenss meet relationship below:
0 < f5/f < 3;And
- 1 < R10/f < 0;
Wherein, f5 is the focal length of the 5th lens, and R10 is the radius of curvature of the 5th lens image side surface.
Condition above formula can effectively cause the light angle of pick-up lenss gentle limiting for 5th lens E5, reduce
Tolerance sensitivities.
In some embodiments, the pick-up lenss meet relationship below:
- 1.5 < f7/f < 0;And
- 3.0 < R13/f < 0;
Wherein, f7 is the focal length of the 7th lens, and R13 is the radius of curvature of the 7th lens thing side.
Meet the 7th lens of above formula requirement, coordinating other lenses shape and focal power feature, correction system that can be good
Unite various aberrations, reduce distortion, improve the resolution of this camera lens.
In some embodiments, the 4th lens thing side is concave surface, and image side surface is convex surface, the 5th lens thing side
For concave surface;6th lens thing side is convex surface.
Above formula can be conducive to further shortening camera lens overall length for the restriction of shape, improve image quality.
Diaphragm face is STO, in following specific embodiment 4,5, the thing side S3 patches of diaphragm face STO and the second eyeglass E2
It is combined, In remaining embodiment, diaphragm face STO is before the first eyeglass thing side S1.
During imaging, light is through after pick-up lenss after the optical filter E8 with thing side surface S15 and image side surface S16
Image in imaging surface S17.
In some embodiments, the first lens E1, the second lens E2, the 3rd lens E3, the 4th lens E4, the 5th lens
E5, the 6th lens E6 and the 7th lens E7 parts can be non-spherical lens.
Aspheric face shape is determined by below equation:
Wherein, h is height of arbitrary point to optical axis in aspheric surface, and c is vertex curvature, and k is conic constants, and Ai is aspheric surface
The correction factor of the i-th-th ranks.
Embodiment 1
In embodiment 1, pick-up lenss meet the condition of table below:
Table 1
Table 2
Surface number | A4 | A6 | A8 | A10 | A12 |
S1 | -6.1281E-03 | 4.3661E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S2 | -1.0340E-02 | -2.8693E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S3 | -1.0662E-01 | 1.5664E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S4 | -8.0168E-02 | 4.9781E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S5 | -1.2354E-02 | 1.9507E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S6 | -1.5146E-02 | 2.2755E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S7 | -4.8131E-02 | 4.9967E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S8 | -5.6105E-02 | 1.5113E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S9 | 3.5339E-02 | -2.9113E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S10 | 3.0582E-02 | 1.6911E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S11 | -8.8267E-02 | -6.5051E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S12 | -6.9849E-02 | 5.0946E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S13 | 3.9881E-02 | -6.9052E-03 | 1.7282E-03 | -4.3049E-04 | 3.7072E-05 |
S14 | -9.5037E-03 | 1.3831E-03 | -1.0179E-03 | 1.9753E-04 | -1.5595E-05 |
In addition, TTL=5mm;F1=5.46mm;F2=-6.86mm;F3=4.83mm;F4=-130.97mm;F5=
8.56mm;F6=9.67mm;F7=-2.79mm and f=4.39mm;Semi-FOV=34.8 °;Stop value is:2.1.
Fig. 2 is chromaticity difference diagram (mm) on the axle of the pick-up lenss of embodiment 1, and Fig. 3 is the astigmatism figure of the pick-up lenss of embodiment 1
(mm), Fig. 4 is the distortion figure (%) of the pick-up lenss of embodiment 1, and Fig. 5 is pick-up lenss ratio chromatism, figure (um) of embodiment 1,
It can be seen that, the aberration of pick-up lenss is effectively controlled.
Embodiment 2
In embodiment 2, pick-up lenss meet the condition of table below:
Table 3
Table 4
In addition, TTL=6.06mm;F1=5.25mm;F2=-7.49mm;F3=8.35mm;F4=19.3mm;F5=
6.63mm;F6=36.3mm;F7=-3.23mm and f=5mm;Semi-FOV=29.1 °;Stop value is:2.2.
Fig. 7 is chromaticity difference diagram (mm) on the axle of the pick-up lenss of embodiment 2, and Fig. 8 is the astigmatism figure of the pick-up lenss of embodiment 2
(mm), Fig. 9 is the distortion figure (%) of the pick-up lenss of embodiment 2, and Figure 10 is the pick-up lenss ratio chromatism, figure (u of embodiment 2
M), it is seen then that the aberration of pick-up lenss is effectively controlled.
Embodiment 3
In embodiment 3, pick-up lenss meet the condition of table below:
Table 5
Table 6
Surface number | A4 | A6 | A8 | A10 | A12 |
S1 | 4.1137E-03 | 4.8437E-04 | -9.0742E-03 | 1.7686E-02 | -3.1560E-02 |
S2 | -1.7156E-02 | -5.0734E-02 | -5.8181E-03 | -1.5245E-02 | 8.3683E-03 |
S3 | -6.7316E-02 | -1.8944E-02 | -3.1239E-02 | 1.2889E-02 | 2.0622E-02 |
S4 | -4.6421E-02 | 2.0324E-02 | -5.2405E-03 | -1.4123E-02 | 1.3309E-02 |
S5 | -1.1623E-02 | 1.1368E-02 | 1.7479E-02 | 2.2284E-02 | 6.3358E-03 |
S6 | -1.0431E-02 | -1.3060E-02 | 2.4245E-02 | 2.3074E-02 | 5.9134E-02 |
S7 | -6.7780E-02 | -9.0797E-02 | 5.7161E-02 | -1.1590E-01 | 9.1159E-02 |
S8 | -4.4747E-02 | 4.3948E-02 | -1.8143E-01 | 9.3766E-02 | -1.0675E-02 |
S9 | -1.8909E-02 | 2.8632E-01 | -3.7285E-01 | 1.4453E-01 | -1.7647E-02 |
S10 | -1.7181E-01 | 3.2157E-01 | -2.4013E-01 | 8.4819E-02 | -1.1901E-02 |
S11 | -4.4428E-02 | -2.6406E-02 | -3.4194E-02 | 2.1436E-02 | -3.5760E-03 |
S12 | 2.9240E-03 | -5.9897E-02 | 1.5351E-02 | -1.8595E-04 | -1.6596E-04 |
S13 | -2.4075E-02 | 1.9672E-02 | -3.6949E-03 | 2.7681E-04 | -6.2307E-06 |
S14 | -6.3963E-02 | 2.6426E-02 | -6.7816E-03 | 8.3730E-04 | -4.3511E-05 |
In addition, TTL=4.6mm;F1=3.97mm;F2=-5.98mm;F3=7.23mm;F4=11.71mm;F5=
5.65mm;F6=20.75mm;F7=-2.52mm and f=3.8mm;Semi-FOV=40.12 °;Stop value is:2.2.
Figure 12 is chromaticity difference diagram (mm) on the axle of the pick-up lenss of embodiment 3, and Figure 13 is the astigmatism of the pick-up lenss of embodiment 3
Figure (mm), Figure 14 is the distortion figure (%) of the pick-up lenss of embodiment 3, and Figure 15 is the pick-up lenss ratio chromatism, figure of embodiment 3
(um), it is seen then that the aberration of pick-up lenss is effectively controlled.
Embodiment 4
In embodiment 4, pick-up lenss meet the condition of table below:
Table 7
Table 8
Surface number | A4 | A6 | A8 | A10 | A12 |
S1 | -5.1416E-03 | -1.2128E-03 | -2.4734E-02 | 1.1492E-02 | -1.0847E-02 |
S2 | -2.0033E-02 | -4.2786E-02 | 1.6011E-02 | 2.2182E-04 | -6.0326E-03 |
S3 | -6.8270E-02 | 3.6065E-03 | -8.6404E-03 | 1.9859E-02 | -6.9015E-03 |
S4 | -5.4722E-02 | 3.3975E-02 | -5.4177E-03 | -4.1785E-02 | 1.2526E-02 |
S5 | -8.9509E-03 | 3.3411E-02 | 2.1274E-02 | 2.3570E-02 | -8.8472E-03 |
S6 | -4.0341E-02 | 1.5133E-02 | 2.9609E-02 | 8.5444E-03 | 6.1346E-02 |
S7 | -1.1182E-01 | -1.7736E-02 | -1.0771E-01 | 1.2388E-01 | -3.2202E-02 |
S8 | -6.1477E-02 | 8.6932E-02 | -2.8045E-01 | 1.9728E-01 | -4.4097E-02 |
S9 | 8.3204E-02 | 1.9274E-01 | -4.3565E-01 | 2.8230E-01 | -6.8409E-02 |
S10 | 3.2551E-02 | 3.7401E-02 | -3.2150E-02 | 1.0152E-02 | -1.7346E-03 |
S11 | 1.5951E-02 | -1.3179E-01 | 6.4844E-02 | -2.5399E-02 | 4.5296E-03 |
S12 | -4.4337E-02 | -2.3117E-02 | 7.0558E-04 | 2.7616E-03 | -4.0520E-04 |
S13 | -9.1441E-02 | 5.1277E-02 | -1.0945E-02 | 1.0994E-03 | -4.3547E-05 |
S14 | -5.7770E-02 | 2.4857E-02 | -6.5762E-03 | 8.3469E-04 | -4.3061E-05 |
In addition, TTL=4.6mm;F1=3.68mm;F2=-5.87mm;F3=8.17mm;F4=11.69mm;F5=
7.52mm;F6=19.49mm;F7=-3.02mm and f=3.68mm;Semi-FOV=41 °;Stop value is:1.82.
Figure 17 is chromaticity difference diagram (mm) on the axle of the pick-up lenss of embodiment 4, and Figure 18 is the astigmatism of the pick-up lenss of embodiment 4
Figure (mm), Figure 19 is the distortion figure (%) of the pick-up lenss of embodiment 4, and Figure 20 is the pick-up lenss ratio chromatism, figure of embodiment 4
(um), it is seen then that the aberration of pick-up lenss is effectively controlled.
Embodiment 5
In embodiment 5, pick-up lenss meet the condition of table below:
Table 9
Table 10
Surface number | A4 | A6 | A8 | A10 | A12 |
S1 | -5.3452E-03 | -2.7365E-03 | -2.5665E-02 | 9.1352E-03 | -8.5374E-03 |
S2 | -2.3393E-02 | -4.3487E-02 | 1.6294E-02 | 2.3406E-03 | -6.4866E-03 |
S3 | -7.4720E-02 | 2.2225E-03 | -5.7296E-03 | 2.0937E-02 | -8.1600E-03 |
S4 | -5.7589E-02 | 3.2101E-02 | -7.2057E-03 | -4.3444E-02 | 1.5521E-02 |
S5 | -8.7910E-03 | 4.2258E-02 | 2.4520E-02 | 2.3251E-02 | -9.4761E-03 |
S6 | -4.1689E-02 | 2.4085E-02 | 3.5272E-02 | 7.8986E-03 | 6.7339E-02 |
S7 | -1.0983E-01 | -1.9335E-02 | -1.0436E-01 | 1.3126E-01 | -2.9742E-02 |
S8 | -5.4740E-02 | 1.8799E-03 | -1.9343E-01 | 1.7893E-01 | -4.4518E-02 |
S9 | 1.3561E-01 | -1.2004E-02 | -2.3501E-01 | 2.3095E-01 | -7.2491E-02 |
S10 | 8.8204E-02 | -8.9585E-02 | 8.4307E-02 | -3.4605E-02 | 4.7295E-03 |
S11 | 3.3539E-02 | -2.0998E-01 | 1.6780E-01 | -7.1993E-02 | 1.1419E-02 |
S12 | -1.6374E-02 | -6.2213E-02 | 3.5748E-02 | -1.1135E-02 | 1.3256E-03 |
S13 | -6.8808E-02 | 1.8910E-02 | -8.0312E-04 | -2.2227E-04 | 2.0719E-05 |
S14 | -5.9820E-02 | 1.9903E-02 | -3.6800E-03 | 3.0981E-04 | -1.1731E-05 |
In addition, TTL=4.6mm;F1=3.84mm;F2=-6.74mm;F3=8.15mm;F4=10.85mm;F5=
8.05mm;F6=-47.24mm;F7=-3.88mm and f=3.72mm;Semi-FOV=40.7 °;Stop value is:1.82.
Figure 22 is chromaticity difference diagram (mm) on the axle of the pick-up lenss of embodiment 5, and Figure 23 is the astigmatism of the pick-up lenss of embodiment 5
Figure (mm), Figure 24 is the distortion figure (%) of the pick-up lenss of embodiment 5, and Figure 25 is the pick-up lenss ratio chromatism, figure of embodiment 5
(um), it is seen then that the aberration of pick-up lenss is effectively controlled.
Embodiment 6
In embodiment 6, pick-up lenss meet the condition of table below:
Table 11
Table 12
Surface number | A4 | A6 | A8 | A10 | A12 |
S1 | -2.6425E-03 | -1.4698E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S2 | -7.0065E-03 | -5.4218E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S3 | -1.1180E-01 | 1.9060E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S4 | -7.7056E-02 | 5.6481E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S5 | -1.1578E-02 | 2.8228E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S6 | -2.2806E-02 | -5.6465E-04 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S7 | -7.5933E-02 | 2.0409E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S8 | -5.3155E-02 | 1.6507E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S9 | 4.9898E-02 | -2.9816E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S10 | 1.9171E-02 | -9.4507E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S11 | -4.8874E-02 | -1.5298E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S12 | -3.9523E-02 | -1.4138E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S13 | 7.9724E-03 | 4.0928E-03 | -1.5660E-04 | -1.1237E-04 | 9.8831E-06 |
S14 | 1.0775E-03 | -9.3161E-03 | 2.5279E-03 | -2.8624E-04 | 9.6282E-06 |
In addition, TTL=4.71mm;F1=5.52mm;F2=-11.39mm;F3=6.58mm;F4=19.04mm;F5=
8.3mm;F6=21.9mm;F7=-3.4mm and f=3.53mm;Semi-FOV=42.2 °;Stop value is:1.9.
Figure 27 is chromaticity difference diagram (mm) on the axle of the pick-up lenss of embodiment 6, and Figure 28 is the astigmatism of the pick-up lenss of embodiment 6
Figure (mm), Figure 29 is the distortion figure (%) of the pick-up lenss of embodiment 6, and Figure 30 is the pick-up lenss ratio chromatism, figure of embodiment 6
(um), it is seen then that the aberration of pick-up lenss is effectively controlled.
Embodiment 7
In embodiment 7, pick-up lenss meet the condition of table below:
Table 13
Table 14
Surface number | A4 | A6 | A8 | A10 | A12 |
S1 | 2.2668E-03 | 5.6045E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S2 | -1.3073E-02 | 6.3133E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S3 | -1.0949E-01 | 2.3381E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S4 | -9.3655E-02 | 3.5186E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S5 | -2.8729E-02 | 8.3078E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S6 | -3.8635E-02 | 3.0793E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S7 | -7.4960E-02 | 2.7970E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S8 | -9.8822E-02 | 7.5891E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S9 | -2.3394E-02 | -2.2577E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S10 | 6.5182E-03 | 1.2636E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S11 | -5.1135E-02 | -9.0605E-04 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S12 | -5.9963E-02 | 6.2650E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S13 | -2.5048E-02 | 2.2374E-02 | -5.1952E-03 | 5.4485E-04 | -2.2198E-05 |
S14 | -5.4221E-02 | 2.0748E-02 | -5.2541E-03 | 6.5785E-04 | -3.5085E-05 |
In addition, TTL=5mm;F1=4.36mm;F2=-12.25mm;F3=92.5mm;F4=14.43mm;F5=
3.76mm;F6=-45.93mm;F7=-2.41mm and f=4.36mm;Semi-FOV=36.3;Stop value is:2.1.
Figure 32 is chromaticity difference diagram (mm) on the axle of the pick-up lenss of embodiment 7, and Figure 33 is the astigmatism of the pick-up lenss of embodiment 7
Figure (mm), Figure 34 is the distortion figure (%) of the pick-up lenss of embodiment 7, and Figure 35 is the pick-up lenss ratio chromatism, figure of embodiment 7
(um), it is seen then that the aberration of pick-up lenss is effectively controlled.
Embodiment 8
In embodiment 8, pick-up lenss meet the condition of table below:
Table 15
Table 16
Surface number | A4 | A6 | A8 | A10 | A12 |
S1 | -2.1968E-03 | 7.5211E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S2 | -3.5995E-02 | -6.2508E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S3 | -1.1153E-01 | 1.7394E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S4 | -9.4307E-02 | 4.0258E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S5 | -1.8135E-02 | 1.2453E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S6 | -8.0454E-03 | 1.9044E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S7 | -4.5654E-02 | 3.4257E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S8 | -7.5216E-02 | 9.5966E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S9 | -1.6339E-02 | -3.5083E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S10 | 6.8145E-04 | 4.0310E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S11 | -7.2528E-02 | 8.6547E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S12 | -1.0426E-03 | -3.5001E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S13 | -3.0196E-02 | 6.7729E-02 | -2.7788E-02 | 4.9652E-03 | -3.5379E-04 |
S14 | -5.0899E-02 | 1.8477E-02 | -4.0970E-03 | 5.2460E-04 | -3.2776E-05 |
In addition, TTL=5mm;F1=4.71mm;F2=-6.91mm;F3=5.89mm;F4=-22.85mm;F5=
6.05mm;F6=5.68mm;F7=-2.08mm and f=4.36mm;Semi-FOV=36 °;Stop value is:2.1.
Figure 37 is chromaticity difference diagram (mm) on the axle of the pick-up lenss of embodiment 8, and Figure 38 is the astigmatism of the pick-up lenss of embodiment 8
Figure (mm), Figure 39 is the distortion figure (%) of the pick-up lenss of embodiment 8, and Figure 40 is the pick-up lenss ratio chromatism, figure of embodiment 8
(um), it is seen then that the aberration of pick-up lenss is effectively controlled.
Embodiment 9
In embodiment 9, pick-up lenss meet the condition of table below:
Table 17
Table 18
In addition, TTL=5.52mm;F1=5.42mm;F2=-8.04mm;F3=5.1mm;F4=-10.2mm;F5=
4.28mm;F6=10.11mm;F7=-2.1mm and f=5mm;Semi-FOV=30.2 °;Stop value is:2.18.
Figure 42 is chromaticity difference diagram (mm) on the axle of the pick-up lenss of embodiment 9, and Figure 43 is the astigmatism of the pick-up lenss of embodiment 9
Figure (mm), Figure 44 is the distortion figure (%) of the pick-up lenss of embodiment 9, and Figure 45 is the pick-up lenss ratio chromatism, figure of embodiment 9
(u m), it is seen then that the aberration of pick-up lenss is effectively controlled.
Embodiment 10
In embodiment 10, pick-up lenss meet the condition of table below:
Table 19
Table 20
Surface number | A4 | A6 | A8 | A10 | A12 |
S1 | -1.3352E-03 | 6.0232E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S2 | -1.8159E-02 | 2.9754E-05 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S3 | -1.1572E-01 | 1.3876E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S4 | -9.1056E-02 | 4.6865E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S5 | -1.4447E-02 | 1.8116E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S6 | -1.7845E-02 | 2.8726E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S7 | -4.0260E-02 | 5.4464E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S8 | -5.7788E-02 | 2.3057E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S9 | 2.6078E-02 | -2.6125E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S10 | 3.0520E-02 | 2.8855E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S11 | -3.4493E-02 | -8.9498E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S12 | -1.6663E-02 | -4.8296E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S13 | 3.9674E-02 | -2.0115E-02 | 3.9068E-03 | -5.2039E-04 | 3.6822E-05 |
S14 | 4.0482E-02 | -3.3334E-02 | 8.9626E-03 | -1.1828E-03 | 5.7590E-05 |
In addition, TTL=5.0mm;F1=4.94mm;F2=-8.0mm;F3=5.81mm;F4=-37.7mm;F5=
7.57mm;F6=98.2mm;F7=-4.11mm and f=4.41mm;Semi-FOV=36 °;Stop value is:2.1.
Figure 47 is chromaticity difference diagram (mm) on the axle of the pick-up lenss of embodiment 10, and Figure 48 is the picture of the pick-up lenss of embodiment 10
Figure (mm) is dissipated, Figure 49 is the distortion figure (%) of the pick-up lenss of embodiment 10, and Figure 50 is the pick-up lenss multiplying power color of embodiment 10
Difference figure (um), it is seen then that the aberration of pick-up lenss is effectively controlled.
Embodiment 11
In embodiment 11, pick-up lenss meet the condition of table below:
Table 21
Surface number | Surface type | Radius of curvature | Thickness | Refractive index/Abbe | Effective aperture | Circular cone coefficient |
Coefficient | ||||||
obj | Sphere | It is infinite | It is infinite | It is infinite | 0.0000 | |
STO | Sphere | It is infinite | -0.3565 | 1.0500 | 0.0000 | |
S1 | Aspheric surface | 1.7159 | 0.5819 | 1.54,56.1 | 1.0642 | 0.0173 |
S2 | Aspheric surface | 3.8105 | 0.0579 | 1.0588 | 9.2363 | |
S3 | Aspheric surface | 2.3211 | 0.2394 | 1.64,23.8 | 1.0788 | 1.4578 |
S4 | Aspheric surface | 1.6730 | 0.2640 | 1.0735 | -1.1853 | |
S5 | Aspheric surface | 4.7478 | 0.4006 | 1.54,56.1 | 1.1023 | -21.6324 |
S6 | Aspheric surface | -14.8783 | 0.1875 | 1.1916 | -10.6411 | |
S7 | Aspheric surface | -4.5713 | 0.2359 | 1.54,56.1 | 1.2146 | -60.8643 |
S8 | Aspheric surface | -5.1674 | 0.5283 | 1.2645 | -54.3911 | |
S9 | Aspheric surface | -29.0425 | 0.2850 | 1.54,56.1 | 1.4440 | -99.2644 |
S10 | Aspheric surface | -9.7739 | 0.2230 | 1.7153 | 18.8194 | |
S11 | Aspheric surface | 4.3680 | 0.3543 | 1.64,23.8 | 1.8054 | -30.1238 |
S12 | Aspheric surface | -113.4699 | 0.2717 | 2.0921 | 47.7461 | |
S13 | Aspheric surface | -3.8686 | 0.2521 | 1.54,56.1 | 2.3178 | -1.0005 |
S14 | Aspheric surface | 3.2844 | 0.2500 | 2.4929 | -38.7682 | |
S15 | Sphere | It is infinite | 0.2100 | 1.52,64.2 | 2.8099 | 0.0000 |
S16 | Sphere | It is infinite | 0.6865 | 2.8700 | 0.0000 | |
S17 | Sphere | It is infinite | 3.1845 | 0.0000 |
Table 22
Surface number | A4 | A6 | A8 | A10 | A12 |
S1 | -4.0134E-03 | 7.1500E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S2 | -3.0943E-02 | -6.0379E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S3 | -1.1013E-01 | 2.6265E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S4 | -6.0757E-02 | 5.3177E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S5 | -5.2997E-03 | 6.8294E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S6 | -1.9562E-02 | 1.7328E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S7 | -7.5556E-02 | 2.3310E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S8 | -9.6740E-02 | 6.1506E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S9 | -2.2250E-02 | -2.5318E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S10 | -7.6243E-03 | 1.7176E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S11 | -3.4769E-02 | -5.0305E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S12 | -1.0115E-02 | -2.1405E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S13 | -5.4269E-02 | 5.1557E-02 | -1.5913E-02 | 2.1966E-03 | -1.1471E-04 |
S14 | -1.7013E-02 | -1.6409E-04 | 6.3244E-04 | -2.2280E-04 | 1.8203E-05 |
In addition, TTL=5.03mm;F1=5.25mm;F2=-11.12mm;F3=6.7mm;F4=-85.0mm;F5=
27.07mm;F6=6.7mm;F7=-3.24mm and f=4.4mm;Semi-FOV=36 °;Stop value is:2.1.
Figure 52 is chromaticity difference diagram (mm) on the axle of the pick-up lenss of embodiment 11, and Figure 53 is the picture of the pick-up lenss of embodiment 11
Figure (mm) is dissipated, Figure 54 is the distortion figure (%) of the pick-up lenss of embodiment 11, and Figure 55 is the pick-up lenss multiplying power color of embodiment 11
Difference figure (um), it is seen then that the aberration of pick-up lenss is effectively controlled.
Embodiment 12
In embodiment 12, pick-up lenss meet the condition of table below:
Table 23
Table 24
Surface number | A4 | A6 | A8 | A10 | A12 |
S1 | -3.1295E-03 | -9.3657E-04 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S2 | -2.5849E-02 | -2.2194E-04 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S3 | -7.1894E-02 | 8.8495E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S4 | -3.8474E-02 | 3.8289E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S5 | 1.5806E-02 | 3.7937E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S6 | 1.0327E-02 | 1.7867E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S7 | -5.1188E-02 | 4.0425E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S8 | -4.3124E-02 | 1.2066E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S9 | 2.8885E-02 | -1.1791E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S10 | 2.5107E-02 | -2.2291E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S11 | -4.4871E-02 | -1.5157E-02 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S12 | -6.2404E-02 | 7.0044E-03 | 0.0000E+00 | 0.0000E+00 | 0.0000E+00 |
S13 | 1.7420E-02 | -6.3214E-04 | 1.3154E-03 | -4.0534E-04 | 3.1978E-05 |
S14 | 1.4388E-02 | -6.3657E-03 | -3.7915E-04 | 3.0347E-04 | -3.0336E-05 |
In addition, TTL=6.35mm;F1=4.89mm;F2=18.07mm;F3=-30.1mm;F4=-11.4mm;F5=
5.72mm;F6=39mm;F7=-5.37mm and f=5.3mm;Semi-FOV=28 °;Stop value is:2.23.
Figure 57 is chromaticity difference diagram (mm) on the axle of the pick-up lenss of embodiment 12, and Figure 58 is the picture of the pick-up lenss of embodiment 12
Figure (mm) is dissipated, Figure 59 is the distortion figure (%) of the pick-up lenss of embodiment 12, and Figure 60 is the pick-up lenss multiplying power color of embodiment 12
Difference figure (um), it is seen then that the aberration of pick-up lenss is effectively controlled.
In embodiment 1-12, each conditional meets the condition of table below:
Table 25
Embodiment | 1 | 2 | 3 | 4 | 5 | 6 |
TTL/ImgH | 1.62 | 2.1 | 1.44 | 1.44 | 1.44 | 1.6 |
CT1/CT2 | 2.25 | 2.1 | 2.04 | 2.28 | 2.28 | 1.96 |
f123/f567 | -0.41 | -0.57 | -0.61 | -0.51 | -0.59 | -0.37 |
f23/f | 4.16 | -11.4 | -7.74 | -1.1 | -1.09 | 4.74 |
f1/f | 1.24 | 1.05 | 1.05 | 1 | 1.04 | 1.58 |
(R1+R2)/(R1-R2) | -3 | -1.9 | -1.87 | -1.32 | -1.44 | -3 |
f5/f | 1.95 | 1.32 | 1.49 | 2.04 | 2.16 | 2.37 |
R10/f | -0.51 | -0.33 | -0.33 | -0.33 | -0.33 | -0.64 |
f7/f | -0.64 | -0.65 | -0.66 | -0.82 | -1.04 | -0.97 |
R13/f | -0.38 | -0.72 | -0.74 | -1.43 | -2.55 | -0.63 |
f/f123 | 1.03 | 0.91 | 0.88 | 0.87 | 0.9 | 0.83 |
f567/f | -2.36 | -1.92 | -1.87 | -2.26 | -1.87 | -3.28 |
Table 26
Embodiment | 7 | 8 | 9 | 10 | 11 | 12 |
TTL/ImgH | 1.55 | 1.58 | 1.9 | 1.56 | 1.56 | 2.31 |
CT1/CT2 | 2.32 | 2.13 | 2.24 | 2.25 | 2.43 | 3.39 |
f123/f567 | -0.63 | -0.3 | -0.31 | -0.3 | -0.38 | 0.2 |
f23/f | -3.19 | 10 | 3 | 5.4 | 3.93 | 9.7 |
f1/f | 1 | 1.07 | 1.22 | 1.12 | 1.2 | 0.92 |
(R1+R2)/(R1-R2) | -1.8 | -2.24 | -2.65 | -2.58 | -2.64 | -1.49 |
f5/f | 0.86 | 1.37 | 0.86 | 1.72 | 6.15 | 1.08 |
R10/f | -0.37 | -0.74 | -0.35 | -0.36 | -2.22 | -0.43 |
f7/f | -0.55 | -0.47 | -0.46 | -0.93 | -0.74 | -1.01 |
R13/f | -0.58 | -0.52 | -0.47 | -0.45 | -0.88 | -0.4 |
f/f123 | 0.78 | 1.04 | 1.03 | 1.07 | 1.04 | 1.11 |
f567/f | -2.04 | -3.23 | -2.65 | -3.15 | -2.55 | 4.55 |
In the description of this specification, reference term " embodiment ", " some embodiments ", " schematically enforcement
The description of mode ", " example ", " specific example ", or " some examples " etc. means what is described with reference to the embodiment or example
Specific features, structure, refractive index/Abbe number or feature are contained at least one embodiment or example of the present invention.
In this manual, identical embodiment or example are not necessarily referring to the schematic representation of above-mentioned term.And, description
Specific features, structure, refractive index/Abbe number or feature can be in one or more any embodiments or example
Combine in an appropriate manner.
While embodiments of the present invention have been illustrated and described, it will be understood by those skilled in the art that:
These embodiments can be carried out in the case of principle and objective without departing from the present invention with various changes, modification, replacement and become
Type, the scope of the present invention are limited by claim and its equivalent.
Claims (22)
1. a kind of pick-up lenss, it is characterised in that included to image side successively by thing side:
The first lens with positive refracting power, its thing side are convex surface;
Second lens;
3rd lens;
4th lens, its thing side are concave surface;
The 5th lens with positive refracting power;
6th lens;
The 7th lens with negative refracting power;
The pick-up lenss include a diaphragm, are arranged between object and the second lens;
The pick-up lenss meet following relationship:TTL/ImgH < 2.4;1.5 < CT1/CT2 < 4;
Wherein, overall lengths of the TTL for pick-up lenss, ImgH are the half of effective pixel area diameter on imaging surface, and CT1 is first saturating
The center thickness of mirror, CT2 are the center thickness of the second lens.
2. pick-up lenss as claimed in claim 1, it is characterised in that the first lens image side surface is concave surface, the 5th lens
Image side surface is convex surface, and the 7th lens thing side is concave surface.
3. pick-up lenss as described in claim 1-2 any one, it is characterised in that the camera lens meets following relationship:|
F23/f | < 12;
Wherein, f23 is the combined focal length of second, third lens, and f is the effective focal length of the pick-up lenss.
4. pick-up lenss as described in claim 1-2 any one, it is characterised in that the camera lens meets relationship below:0
< f1/f < 2;And -4 < (R1+R2)/(R1-R2) < -1;
Wherein, f1 is the focal length of the first lens, and R1, R2 are respectively the radius of curvature of the first lens thing side and image side surface, and f is institute
State the effective focal length of pick-up lenss.
5. pick-up lenss as described in claim 1-2 any one, it is characterised in that the camera lens meets relationship below:0
< f5/f < 6.5;And -2.5 < R10/f < 0;
Wherein, f5 is the focal length of the 5th lens, and R10 is the radius of curvature of the 5th lens image side surface, and f is having for the pick-up lenss
Effect focal length.
6. pick-up lenss as described in claim 1-2 any one, it is characterised in that the camera lens meets relationship below:-
1.5 < f7/f < 0;And -3.0 < R13/f < 0;
Wherein, f7 is the focal length of the 7th lens, and R13 is the radius of curvature of the 7th lens thing side, and f is having for the pick-up lenss
Effect focal length.
7. pick-up lenss as described in claim 1-2 any one, it is characterised in that the camera lens meets relationship below:
0.5 < f/f123 < 1.5;
Wherein, f123 is the first lens, the second lens, the combined focal length of the 3rd lens, and f is effective Jiao of the pick-up lenss
Away from.
8. pick-up lenss as described in claim 1-2 any one, it is characterised in that second lens have negative flexion
Power, for convex surface, image side surface is concave surface for its thing side, and the 3rd lens have positive refracting power, and for convex surface, image side surface is for its thing side
Concave surface.
9. pick-up lenss as described in claim 1-2 any one, it is characterised in that the 4th lens image side surface is convex
Face.
10. pick-up lenss as described in claim 1-2 any one, it is characterised in that the 5th lens thing side is recessed
Face;6th lens thing side is convex surface.
11. a kind of pick-up lenss, it is characterised in that included to image side successively by thing side:
The first lens with positive refracting power, its thing side are convex surface;
The second lens with negative refracting power;
3rd lens, for convex surface, image side surface is concave surface for its thing side;
4th lens;
The 5th lens with positive refracting power;
6th lens;
The 7th lens with negative refracting power;
The pick-up lenss include a diaphragm, are placed between object and the second lens;
The pick-up lenss meet following relationship:TTL/ImgH < 2.4;
Wherein, overall lengths of the TTL for pick-up lenss, ImgH are the half of effective pixel area diameter on imaging surface.
12. pick-up lenss as claimed in claim 11, it is characterised in that the photographic head meets following relationship:f123/
f567≤-0.3;
Wherein, f123 is the first lens, the second lens, the combined focal length of the 3rd lens, and f567 is the 5th lens, the 6th saturating
The combined focal length of mirror, the 7th lens.
13. pick-up lenss as claimed in claim 11, it is characterised in that the second lens thing side be convex surface, image side surface
For concave surface.
14. pick-up lenss as claimed in claim 11, it is characterised in that the first lens image side surface is concave surface, and the 5th is saturating
Mirror image side is convex surface, and the 7th lens thing side is concave surface.
15. pick-up lenss as claimed in claim 11, it is characterised in that the 3rd lens have positive bending in the pick-up lenss
Folding power.
16. pick-up lenss as described in claim 12-15 any one, it is characterised in that the pick-up lenss meet following
Relational expression:| f23/f | < 12;
Wherein, f23 is the combined focal length of second, third lens, and the whole focal length of f pick-up lenss, f are having for the pick-up lenss
Effect focal length.
17. pick-up lenss as described in claim 12-15 any one, it is characterised in that the pick-up lenss meet following
Relational expression:- 5 < f567/f < -1;
Wherein, f567 is the 5th lens, the 6th lens, the combined focal length of the 7th lens, and f is the effective of the pick-up lenss
Focal length.
18. pick-up lenss as described in claim 12-15 any one, it is characterised in that the pick-up lenss meet following
Relational expression:1≤f1/f < 2;And -4 < (R1+R2)/(R1-R2) < -1;
Wherein, f1 is the focal length of the first lens, and R1, R2 are respectively the radius of curvature of the first lens thing side and image side surface, and f is institute
State the effective focal length of pick-up lenss.
19. pick-up lenss as described in claim 12-15 any one, it is characterised in that the pick-up lenss meet following
Relational expression:0 < f5/f < 3;And -1 < R10/f < 0;
Wherein, f5 is the focal length of the 5th lens, and R10 is the radius of curvature of the 5th lens image side surface, and f is having for the pick-up lenss
Effect focal length.
20. pick-up lenss as described in claim 12-15 any one, it is characterised in that the pick-up lenss meet following
Relational expression:- 1.5 < f7/f < 0;And -3.0 < R13/f < 0;
Wherein, f7 is the focal length of the 7th lens, and R13 is the radius of curvature of the 7th lens thing side, and f is having for the pick-up lenss
Effect focal length.
21. pick-up lenss as described in claim 12-15 any one, it is characterised in that the 4th lens thing side is
Concave surface, image side surface are convex surface.
22. pick-up lenss as described in claim 12-15 any one, it is characterised in that the 5th lens thing side is concave surface;
6th lens thing side is convex surface.
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