WO2014141349A1 - 広角レンズおよび撮像装置 - Google Patents
広角レンズおよび撮像装置 Download PDFInfo
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- WO2014141349A1 WO2014141349A1 PCT/JP2013/007647 JP2013007647W WO2014141349A1 WO 2014141349 A1 WO2014141349 A1 WO 2014141349A1 JP 2013007647 W JP2013007647 W JP 2013007647W WO 2014141349 A1 WO2014141349 A1 WO 2014141349A1
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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
- G02B13/18—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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- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B13/00—Optical objectives specially designed for the purposes specified below
- G02B13/04—Reversed telephoto objectives
Definitions
- the present invention relates to a wide-angle lens and an imaging device, and more particularly to a wide-angle lens that can be suitably used for a digital camera and the like, and an imaging device including the wide-angle lens.
- a retro-focus type lens system has been frequently used.
- a retrofocus type lens system has a long back focus, a negative lens group, a stop, and a positive lens group are arranged in this order from the object side, and has an asymmetric configuration with respect to the stop.
- so-called mirrorless cameras in which no mirror is arranged between the imaging lens and its image plane, have gained popularity due to the advantages of small size and light weight. Development of lens systems for cameras is in progress.
- a wide-angle lens for a mirrorless camera does not require a long back focus, but in order to obtain a good image, it is necessary to make the angle of light incident on the image surface relatively small.
- the type is often adopted. Examples of such a negative leading lens system include those described in Patent Document 1 and Patent Document 2.
- a conventional retrofocus wide-angle lens for a single-lens reflex camera generally has a long back focus, so the lens system tends to be large, and a low symmetry with respect to a diaphragm can correct chromatic aberration of magnification well.
- the lens system described in Patent Document 1 has a long back focus, so that the lens system tends to be large.
- the lens system described in Patent Document 2 has sufficient correction of lateral chromatic aberration. It can not be said.
- the present invention has been made in view of the above circumstances, and an object of the present invention is to provide a wide-angle lens that is small and has a well-corrected chromatic aberration of magnification, and an imaging device including the wide-angle lens.
- the wide-angle lens of the present invention includes, in order from the object side, a front group having a negative refractive power, a stop, and a rear group having a positive refractive power.
- the front group has a negative refractive power in order from the object side.
- 1 meniscus lens, a second meniscus lens having negative refractive power, and the rear group includes a first cemented lens including a negative lens and a positive lens in order from the object side to the image side, and the object side of the first cemented lens
- ⁇ d1 the Abbe number of the d-line (wavelength 587.6 nm) of the positive lens constituting the first cemented lens.
- conditional expression (2) is satisfied.
- r1 at least one surface is aspheric and the paraxial radius of curvature of the object side surface of the lens having negative refractive power
- r2 at least one surface of the lens having negative refractive power and image side surface of the lens having negative refractive power The paraxial radius of curvature.
- At least one surface of the second meniscus lens is an aspherical surface.
- a second cemented lens including a positive lens and a negative lens in order from the object side is provided on the most image side of the front group, and the following conditional expression (3) is satisfied.
- ⁇ d2 is the Abbe number of the d-line (wavelength 587.6 nm) of the positive lens constituting the second cemented lens
- ⁇ d3 is the Abbe number of the d-line (wavelength 587.6 nm) of the negative lens constituting the second cemented lens.
- a third cemented lens including a negative lens and a positive lens in order from the object side is provided on the most object side in the rear group.
- conditional expression (2-1) is satisfied.
- a second cemented lens including a positive lens and a negative lens are provided in order from the object side on the most image side of the front group, and it is preferable to satisfy the following conditional expression (3-1): Is more preferable.
- An image pickup apparatus includes the above-described wide-angle lens according to the present invention.
- the wide-angle lens of the present invention includes, in order from the object side, a front group having a negative refractive power, a stop, and a rear group having a positive refractive power.
- the front group has a negative refractive power in order from the object side.
- 1 meniscus lens, a second meniscus lens having negative refractive power, and the rear group includes a first cemented lens including a negative lens and a positive lens in order from the object side to the image side, and the object side of the first cemented lens Since a lens having at least one aspherical surface and having a negative refractive power is provided adjacent to the lens, it is possible to provide a small-angle wide-angle lens in which lateral chromatic aberration is well corrected.
- the imaging apparatus of the present invention includes the wide-angle lens of the present invention, the apparatus can be downsized and high-quality images can be obtained.
- Sectional drawing which shows the lens structure of the wide angle lens (common to Example 1) concerning one Embodiment of this invention.
- Sectional drawing which shows the lens structure of the wide angle lens of Example 2 of this invention Sectional drawing which shows the lens structure of the wide angle lens of Example 3 of this invention
- Aberration diagrams (A to D) of the wide-angle lens of Example 3 of the present invention 1 is an external view showing a configuration example of a mirrorless single-lens camera as an imaging apparatus according to an embodiment of the present invention.
- FIG. 1 is a cross-sectional view showing a lens configuration of a wide-angle lens (common to Example 1) according to an embodiment of the present invention.
- the configuration example shown in FIG. 1 is common to the configuration of the wide-angle lens of Example 1 described later.
- the left side is the object side
- the right side is the image side.
- the wide-angle lens includes, in order from the object side along the optical axis Z, a front group G1 having a negative refractive power, an aperture stop St, and a rear group G2 having a positive refractive power.
- the aperture stop St shown in FIG. 1 does not necessarily indicate the size or shape, but indicates the position on the optical axis Z.
- FIG. 1 shows an example in which a parallel plane plate-like optical member PP that assumes these is arranged between the rear group G2 and the image plane Sim.
- the front group G1 includes, in order from the object side, a first meniscus lens L11 having a negative refractive power and a second meniscus lens L12 having a negative refractive power.
- the rear group G2 includes a first cemented lens including a negative lens L24 and a positive lens L25 in order from the object side closest to the image side. At least one surface is aspheric and adjacent to the object side of the first cemented lens. A lens L23 having a refractive power of 1 is provided.
- the front group G1 includes, in order from the object side, the first meniscus lens L11 having a negative refractive power and the second meniscus lens L12 having a negative refractive power. It is advantageous.
- the rear group By providing a cemented lens composed of the negative lens L24 and the positive lens L25 in order from the object side on the most image side of G2, it becomes advantageous for correcting the lateral chromatic aberration, and good optical performance can be obtained.
- a first meniscus lens having a negative refractive power with respect to the aperture stop St is provided by providing the lens L23 adjacent to the object side of the cemented lens and having at least one aspherical surface and having a negative refractive power. Since the symmetry with L11 and the second meniscus lens L12 having negative refractive power can be enhanced, it is possible to correct the field curvature well.
- the lens adjacent to the object side of the cemented lens can maintain a better balance between spherical aberration and astigmatism than when a lens having positive refractive power or a spherical lens is used. This is preferable because it is not necessary to increase the number of lenses in order to correct the curvature well.
- conditional expression (1) is satisfied. Satisfying the conditional expression (1) is advantageous in correcting lateral chromatic aberration, particularly in correcting higher-order lateral chromatic aberration.
- ⁇ d1 the Abbe number of the d-line (wavelength 587.6 nm) of the positive lens constituting the first cemented lens.
- conditional expression (2) it is preferable that the following conditional expression (2) is satisfied.
- the lower limit of conditional expression (2) it is possible to suppress the negative power of the lens from becoming too strong, and to keep astigmatism small.
- the upper limit of conditional expression (2) it is possible to suppress the correction of field curvature can be maintained within an appropriate range. If the following conditional expression (2-1) is satisfied, better characteristics can be obtained.
- r1 a paraxial curvature radius of the object side surface of the lens L23
- r2 a paraxial curvature radius of the image side surface of the lens L23
- At least one surface of the second meniscus lens L12 is an aspherical surface.
- the first meniscus lens L11 is manufactured with a smaller outer diameter compared to the case where the first meniscus lens L11 has an aspherical surface, it is advantageous in terms of cost and manufacturing difficulty.
- the second meniscus lens L12 does not have an aspherical surface, even if the light beam is bent largely with a small number of negative lenses, distortion and field curvature can be corrected well, and the lens system can be configured with a small number of lenses. It can be made compact.
- a second cemented lens including a positive lens L16 and a negative lens L17 in order from the object side is provided on the most image side of the front group G1, and the following conditional expression (3) is satisfied.
- Providing such a cemented lens is advantageous for correcting axial chromatic aberration, but by satisfying conditional expression (1), correction of axial chromatic aberration can be maintained within an appropriate range. If the following conditional expression (3-1), more preferably conditional expression (3-2) is satisfied, better characteristics can be obtained.
- ⁇ d2 is the Abbe number of the d-line (wavelength 587.6 nm) of the positive lens constituting the second cemented lens
- ⁇ d3 is the Abbe number of the d-line (wavelength 587.6 nm) of the negative lens constituting the second cemented lens.
- a third cemented lens including a negative lens L21 and a positive lens L22 in order from the object side is provided on the most object side of the rear group G2. This is advantageous for correcting axial chromatic aberration.
- the material disposed closest to the object side specifically, glass is preferably used, or transparent ceramics may be used.
- a protective multilayer coating when the wide-angle lens is used in a harsh environment, it is preferable to apply a protective multilayer coating. Further, in addition to the protective coat, an antireflection coat for reducing ghost light during use may be applied.
- the optical member PP is disposed between the lens system and the image plane Sim.
- a low-pass filter various filters that cut a specific wavelength range, and the like are used as the lens system.
- These various filters may be arranged between the lenses instead of being arranged between the image plane Sim, or the lens surface of any lens is coated with a coating having the same action as the various filters. May be.
- Example 1 A cross-sectional view showing the lens configuration of the wide-angle lens of Example 1 is shown in FIG. 1 and FIGS. 2 and 3 corresponding to Examples 2 and 3 to be described later, the optical member PP is also shown.
- the left side is the object side
- the right side is the image side
- St does not necessarily indicate the size or shape, but indicates the position on the optical axis Z.
- Table 1 shows basic lens data of the wide-angle lens of Example 1
- Table 2 shows data related to specifications.
- the meaning of the symbols in the table will be described using the example 1 as an example, but the same applies to the examples 2 and 3.
- Ri column indicates the radius of curvature of the i-th surface
- Di column indicates the surface spacing on the optical axis Z between the i-th surface and the i + 1-th surface.
- the column of ⁇ dj the Abbe number for the d-line (wavelength 587.6 nm) of the j-th optical element is also shown.
- the sign of the radius of curvature is positive when the surface shape is convex on the object side and negative when the surface shape is convex on the image side.
- the basic lens data includes the aperture stop St and the optical member PP. In the surface number column of the surface corresponding to the aperture stop St, the phrase (aperture) is written together with the surface number.
- the data on the specifications in Table 2 include focal length f ′, back focus BF ′, F value FNo. And the value of the total angle of view 2 ⁇ .
- degrees are used as the unit of angle, and mm is used as the unit of length, but the optical system can be used even with proportional enlargement or reduction. Any suitable unit can also be used.
- the surface number of the aspheric surface is marked with *, and the paraxial radius of curvature is shown as the radius of curvature of the aspheric surface.
- the data relating to the aspheric coefficients in Table 3 shows the surface numbers Si of the aspheric surfaces and the aspheric coefficients related to these aspheric surfaces.
- Zd C ⁇ h 2 / ⁇ 1+ (1 ⁇ KA ⁇ C 2 ⁇ h 2 ) 1/2 ⁇ + ⁇ Am ⁇ h m (A)
- Zd Depth of aspheric surface (length of a perpendicular line drawn from a point on the aspherical surface at height h to a plane perpendicular to the optical axis where the aspherical vertex contacts)
- h Height (distance from the optical axis)
- C Reciprocal KA of paraxial radius of curvature
- FIGS. 4A to 4D show aberration diagrams of the wide-angle lens of Example 1.
- FIG. 4A to 4D show spherical aberration, astigmatism, distortion, and lateral chromatic aberration, respectively.
- Each aberration diagram representing spherical aberration, astigmatism, and distortion shows aberrations with the d-line (wavelength 587.6 nm) as the reference wavelength.
- the aberrations for the d-line (wavelength 587.6 nm), the C-line (wavelength 656.3 nm), and the F-line (wavelength 486.1 nm) are shown by a solid line, a broken line, and a dotted line, respectively.
- sagittal and tangential aberrations are indicated by a solid line and a dotted line, respectively.
- the aberrations for the C line (wavelength 656.3 nm) and the F line (wavelength 486.1 nm) are indicated by a broken line and a dotted line, respectively.
- Fno Means F value, and ⁇ in other aberration diagrams means half angle of view.
- FIG. 1 A sectional view showing the lens configuration of the wide-angle lens of Example 2 is shown in FIG.
- Table 4 shows basic lens data of the wide-angle lens of Example 2
- Table 5 shows data concerning specifications
- Table 6 shows data concerning aspheric coefficients
- FIG. 5A to FIG. 5D show aberration diagrams. Show.
- FIG. 3 is a cross-sectional view showing the lens configuration of the wide-angle lens of Example 3.
- the basic lens data of the wide-angle lens of Example 3 is shown in Table 7, the data relating to the specifications is shown in Table 8, the data relating to the aspheric coefficient is shown in Table 9, and the aberration diagrams are shown in FIGS. Show.
- Table 10 shows values corresponding to the conditional expressions (1) to (3) of the wide-angle lenses of Examples 1 to 3.
- the d-line is used as the reference wavelength, and the values shown in Table 10 below are at this reference wavelength.
- FIG. 7 is an external view showing a configuration example of a mirrorless single-lens camera using the wide-angle lens of the embodiment of the present invention as an example of the imaging device of the embodiment of the present invention.
- FIG. 7A shows the appearance of the camera viewed from the front side
- FIG. 7B shows the appearance of the camera viewed from the back side.
- This camera includes a camera body 10, and a release button 32 and a power button 33 are provided on the upper surface side of the camera body 10.
- a display unit 36 and operation units 34 and 35 are provided on the back side of the camera body 10.
- the display unit 36 is for displaying a captured image.
- An imaging aperture through which light from an imaging target is incident is provided at the center of the front side of the camera body 10, and a mount 37 is provided at a position corresponding to the imaging aperture. It comes to be installed.
- the interchangeable lens 20 has a lens member housed in a lens barrel.
- an image sensor such as a CCD that outputs an image signal corresponding to the subject image formed by the interchangeable lens 20, and a signal processing circuit that processes the image signal output from the image sensor and generates an image , And a recording medium or the like for recording the generated image.
- a recording medium or the like for recording the generated image.
- the entire camera can be miniaturized and a high-quality image in which the lateral chromatic aberration is corrected well can be obtained.
- the present invention has been described with reference to the embodiments and examples. However, the present invention is not limited to the above-described embodiments and examples, and various modifications can be made.
- the values of the radius of curvature, the surface spacing, the refractive index, the Abbe number, etc. of each lens component are not limited to the values shown in the above numerical examples, but can take other values.
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Abstract
Description
ただし、νd1:第1接合レンズを構成する正レンズのd線(波長587.6nm)のアッベ数とする。
ただし、r1:少なくとも一面が非球面であり負の屈折力を有するレンズの物体側の面の近軸曲率半径、r2:少なくとも一面が非球面であり負の屈折力を有するレンズの像側の面の近軸曲率半径とする。
ただし、νd2:第2接合レンズを構成する正レンズのd線(波長587.6nm)のアッベ数、νd3:第2接合レンズを構成する負レンズのd線(波長587.6nm)のアッベ数とする。
また、前群の最も像側に物体側から順に正レンズと負レンズからなる第2接合レンズを備え、下記条件式(3-1)を満足することが好ましく、下記条件式(3-2)を満足すればさらに好ましい。
0<vd2-vd3<4 …(3-2)
本発明の撮像装置は、上記記載の本発明の広角レンズを備えたことを特徴とするものである。
ただし、νd1:第1接合レンズを構成する正レンズのd線(波長587.6nm)のアッベ数とする。
-15.0<(r1+r2)/(r1-r2)<-5.0 …(2-1)
ただし、r1:レンズL23の物体側の面の近軸曲率半径、r2:レンズL23の像側の面の近軸曲率半径とする。
0<vd2-vd3<5 …(3-1)
0<vd2-vd3<4 …(3-2)
ただし、νd2:第2接合レンズを構成する正レンズのd線(波長587.6nm)のアッベ数、νd3:第2接合レンズを構成する負レンズのd線(波長587.6nm)のアッベ数とする。
ただし、
Zd:非球面深さ(高さhの非球面上の点から、非球面頂点が接する光軸に垂直な平面に下ろした垂線の長さ)
h:高さ(光軸からの距離)
C:近軸曲率半径の逆数
KA、Am:非球面係数(m=3、4、5、…20)
Claims (11)
- 物体側から順に、負の屈折力を有する前群、絞り、正の屈折力を有する後群からなり、
前記前群は、物体側から順に、負の屈折力を有する第1メニスカスレンズ、負の屈折力を有する第2メニスカスレンズを備え、
前記後群は、最も像側に物体側から順に負レンズと正レンズからなる第1接合レンズを備え、該第1接合レンズの物体側に隣接して、少なくとも一面が非球面であり負の屈折力を有するレンズを備える
ことを特徴とする広角レンズ。 - 下記条件式を満足する
ことを特徴とする請求項1記載の広角レンズ。
80<vd1 …(1)
ただし、
νd1:前記第1接合レンズを構成する正レンズのd線(波長587.6nm)のアッベ数
とする。 - 下記条件式を満足する
ことを特徴とする請求項1または2記載の広角レンズ。
-20.0<(r1+r2)/(r1-r2)<0.0 …(2)
ただし、
r1:前記少なくとも一面が非球面であり負の屈折力を有するレンズの物体側の面の近軸曲率半径。
r2:前記少なくとも一面が非球面であり負の屈折力を有するレンズの像側の面の近軸曲率半径。
とする。 - 前記第2メニスカスレンズは、少なくとも1面が非球面である
ことを特徴とする請求項1から3のいずれか1項記載の広角レンズ。 - 前記前群の最も像側に物体側から順に正レンズと負レンズからなる第2接合レンズを備え、
下記条件式を満足する
ことを特徴とする請求項1から4のいずれか1項記載の広角レンズ。
vd2-vd3<5 …(3)
ただし、
νd2:前記第2接合レンズを構成する正レンズのd線(波長587.6nm)のアッベ数
νd3:前記第2接合レンズを構成する負レンズのd線(波長587.6nm)のアッベ数
とする。 - 前記後群の最も物体側に物体側から順に負レンズと正レンズからなる第3接合レンズを備える
ことを特徴とする請求項1から5のいずれか1項記載の広角レンズ。 - 前記後群を光軸方向に移動させることで合焦を行う
ことを特徴とする請求項1から6のいずれか1項記載の広角レンズ。 - 下記条件式を満足する
ことを特徴とする請求項1から7のいずれか1項記載の広角レンズ。
-15.0<(r1+r2)/(r1-r2)<-5.0 …(2-1)
ただし、
r1:前記少なくとも一面が非球面であり負の屈折力を有するレンズの物体側の面の近軸曲率半径。
r2:前記少なくとも一面が非球面であり負の屈折力を有するレンズの像側の面の近軸曲率半径。
とする。 - 前記前群の最も像側に物体側から順に正レンズと負レンズからなる第2接合レンズを備え、
下記条件式を満足する
ことを特徴とする請求項1から8のいずれか1項記載の広角レンズ。
0<vd2-vd3<5 …(3-1)
ただし、
νd2:前記第2接合レンズを構成する正レンズのd線(波長587.6nm)のアッベ数
νd3:前記第2接合レンズを構成する負レンズのd線(波長587.6nm)のアッベ数
とする。 - 前記前群の最も像側に物体側から順に正レンズと負レンズからなる第2接合レンズを備え、
下記条件式を満足する
ことを特徴とする請求項1から9のいずれか1項記載の広角レンズ。
0<vd2-vd3<4 …(3-2)
ただし、
νd2:前記第2接合レンズを構成する正レンズのd線(波長587.6nm)のアッベ数
νd3:前記第2接合レンズを構成する負レンズのd線(波長587.6nm)のアッベ数
とする。 - 請求項1記載の広角レンズを備えたことを特徴とする撮像装置。
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JP2015505092A JP5844496B2 (ja) | 2013-03-15 | 2013-12-26 | 広角レンズおよび撮像装置 |
CN201380074475.9A CN105190393B (zh) | 2013-03-15 | 2013-12-26 | 广角镜头及摄像装置 |
US14/848,945 US9835833B2 (en) | 2013-03-15 | 2015-09-09 | Wide angle lens and imaging apparatus |
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- 2013-12-26 JP JP2015505092A patent/JP5844496B2/ja active Active
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2015
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JP5844496B2 (ja) | 2016-01-20 |
US9835833B2 (en) | 2017-12-05 |
CN105190393B (zh) | 2017-08-25 |
US20150378136A1 (en) | 2015-12-31 |
CN105190393A (zh) | 2015-12-23 |
JPWO2014141349A1 (ja) | 2017-02-16 |
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