RU173290U1 - LENS WITH EXTENDED PASSENGER - Google Patents

Abstract

The lens can be used as a lens of a video camera with image formation on a CCD matrix. The lens contains four components. The first component is a negative meniscus facing a concave surface to the space of objects, the second component is a biconvex lens, the third component is positive and glued from a negative meniscus facing a concave surface to a space of objects, and the biconvex lens, the fourth component is a negative meniscus facing a concave surface to image space. The thicknesses of the first and fourth components are at least 0.14 of the focal length of the entire lens. The technical result is an increase in the relative aperture, field of view and improving the quality of the images throughout the field of view with the input pupil. 6 ill., 1 tab.

Description

The utility model relates to optical instrumentation, namely, to lenses and can be used as a lens of a video camera with image formation on a CCD matrix.

A known lens with a pupil [1] made out of five components, the first of which is a single positive lens, the second component is made in the form of a negative meniscus facing a concave surface to the space of objects and glued from a negative and positive lenses, the third component is a positive meniscus facing a concave surface to the space of objects, the fourth component is made positive in the form of two single lenses, the fifth component is made in the form of a negative meniscus facing a concave surface Resistance to image space and glued from biconvex and biconcave lenses. This lens design with a relative aperture of 1: 3 and a field of view angle of 2W = 24 ^° and the entrance pupil is removed from the first surface by a distance less than 0.5 of the focal length of the lens has good image quality in the spectral range (450 ... 650) nm. The disadvantage of this design is not wide enough spectral range, as well as a large length of the lens from the first surface of the lens to the image plane, which is at least 2.6 of the focal length of the lens.

Closest to the proposed lens is a lens [2], consisting of four components, the first component of which is made in the form of a negative meniscus facing a concave surface to the space of objects, the second component is made in the form of a biconvex lens, the third component is made in the form of a negative meniscus facing concave surface to the image space, and glued from negative and positive lenses, the fourth component is made in the form of a positive meniscus facing a concave surface space for image space.

This design provides high quality images with an angular field of view of up to 12 ^° , a relative aperture of 1: 3.4. The disadvantage of the prototype is the lack of relative aperture and field of view.

The objective of the utility model is to increase the relative aperture, field of view and improve the quality of the images throughout the field of view with the input pupil.

A lens with a remote entrance pupil consists of four components arranged sequentially on the optical axis, the first component is made in the form of a negative meniscus facing a concave surface to the space of objects, the second component is made in the form of a biconvex lens, the third component is made of double-glued, the fourth component is made in the form of a meniscus facing a concave surface to the image space, unlike the prototype, the third component is made positive and glued from the negative ska concave surface facing to the space objects, and a biconvex lens component a fourth negative meniscus is formed, the thickness of the first and the fourth component is at least 0.14 total focal length lens.

The design of the third component, made in the form of a positive double-glued lens, consisting of a negative meniscus facing the space of images and a biconvex lens, the construction of the fourth component in the form of a negative meniscus, the choice of the thickness of the negative menisci of the first and fourth components of at least 0.14 of the focal length of the lens , allows you to increase the relative aperture by reducing spherochromatic aberration, provides the ability to carry the pupil at a distance not less than 0.4 of the focal length of the lens, and also allows you to increase the field of view and improve image quality throughout the field due to the correction of aberrations of wide inclined beams and coma.

The proposed lens with a remote pupil operates in the spectral range: λ = (600 ... 900) nm, has a focal length of 35.6 mm, a relative aperture of 1: 3, angular field of view 2W = 22 ^° . Polychromatic modulation transmission coefficients (T) for the spatial frequency N = 90 mm ^-1 at a point on the axis (y '= 0) of at least 0.7, in the field of view 2W = 22 ^{° of} at least 0.5.

In FIG. 1 shows an optical diagram of the proposed lens with a remote entrance pupil.

In FIG. Figure 2 shows the design parameters of the objective lenses and the characteristics of glasses, where R is the radius of curvature of the lens surfaces, D is the distance between the lens surfaces, n _e is the refractive index of the lens glasses for the e line (λ = 546 nm), and ν _{e is the} Abbe number for the e line .

In FIG. 3 is a graph of the transverse spherical aberration of the lens.

In FIG. Figure 4 shows the aberration plots of wide inclined beams of the meridional section of the angle of the field of view 2W = 22 ^° .

In FIG. 5 is a graph of the calculated polychromatic frequency-contrast characteristic (T) for a point on the axis.

In FIG. Figure 6 shows a graph of the calculated polychromatic frequency-contrast characteristic (T) for a point on the edge of the field of view 2W = 22 ^° .

The frequency-contrast characteristics of the lens are calculated in accordance with the table of spectral efficiency coefficients of the actinic radiation flux given below.

The lens with a remote entrance pupil (figure 1) consists of four components and a light filter. The first component is made in the form of a negative meniscus 1, facing a concave surface to the space of objects, the second component is made in the form of a biconvex lens 2, the third component is made in the form of a positive two-glued lens, consisting of a negative meniscus 3, facing a concave surface to the image space, and a biconvex lens 4, the fourth component is made in the form of a negative meniscus 5 facing a concave surface to the image space. The lens is designed with a light filter 6, which serves to highlight the spectral range. The entrance pupil of the lens is 15 mm from the first surface of the lens. The thickness of the first and fourth components along the optical axis is 5 mm and 6.5 mm, which is 0.14 and 0.18 of the focal length of the entire lens, respectively.

The aberration plots shown in FIG. 3 and 4, as well as graphs of a polychromatic frequency-contrast characteristic for a point on the axis and for an angle of view 2W = 22 ^° shown in FIG. 5 and 6 confirm that the pupil lens has good image quality over the entire field of view.

A lens with a remote pupil works as follows: a parallel beam of light with a field of view angle of 2W = 22 ^° passes through the entrance pupil of the lens, 11.9 mm in diameter, 15 mm removed from the first surface of the lens and refracted through the lens surfaces of the four components and the filter focuses in the image plane where the CCD is located.

Information sources

1. RU 2393515 C1 (GOUVPO "Tula State University) 06/27/2010, the entire document.

2. BY 9510 U (OJSC "Peleng") 08/30/2013, the entire document is a prototype.

Claims (1)

A lens with an entrance pupil of four components arranged sequentially on the optical axis, the first component of which is made in the form of a negative meniscus facing a concave surface to the space of objects, the second component is made in the form of a biconvex lens, the third component is double-glued, the fourth component is made in the form of a meniscus facing a concave surface to the image space, characterized in that the third component is made positive and glued from a negative a ska facing a concave surface to the space of objects and a biconvex lens, the meniscus of the fourth component is negative, and the thicknesses of the first and fourth components are at least 0.14 of the focal length of the entire lens.

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