CN105354373A - Oval optical attenuation slice structure of medical photodetector and design method for oval optical attenuation slice structure - Google Patents

Abstract

The present invention discloses an oval optical attenuation slice structure of a medical photodetector and a design method for the oval optical attenuation slice structure, and belongs to the technical field of optical signals. The optical attenuation slice has a plurality of ellipses, ratios of long axes to short axes of all the ellipses are equal, focuses of all the ellipses are distributed on a same straight line, and the ellipses on the optical attenuator are sequentially arranged from inside to outside according to a size order from small to large. According to the optical attenuation slice structure and the design method therefor disclosed by the present invention, an original signal can be kept without distortion, and the optical attenuator structure with slow attenuation can be realized; the design flexibility is high, the manufacturing is simple, and the repeatability is high; and the optical attenuation slice structure and the design method therefor disclosed by the present invention can lay a good foundation for an attenuation slice type optical attenuator to get practical application in a wider field.

Description

A kind of ellipse optical attenuator chip architecture of medical photo-detector and method for designing thereof

Technical field

The invention belongs to technical field of medical equipment, especially relevant with a kind of ellipse optical attenuator chip architecture of medical photo-detector and method for designing thereof.

Background technology

Optical attenuator is a kind of Passive Optical Components that optical signalling can be carried out expection decay, has been widely used in the fields such as optical fiber communication, high power light power meter, optics Digital Video, Medical Devices photo-detector, chemical detection devices, clinical biochemical analysis, particular image analyzing and processing at present.Optical attenuator divides by its structure and principle of work, and optical attenuator common at present can be divided into displacement type, film-type, decay flap-type and liquid crystal type etc., and the flap-type that wherein decays uses the most extensive.Divide by its attenuation characteristic, decay flap-type optical attenuator can be divided into again neutral density attenuator, linear density attenuator, Graded Density attenuator etc.The neutral density attenuator dough softening is fixed, immutable, and the optical signalling for incidence carries out overall attenuation, is difficult to the attenuation ratio between the extremely strong signal of balance and pole weak signal, is not suitable for the situation that optical signalling variable gradient is large; The dough softening of linear density attenuator and Graded Density attenuator can change according to certain rule, but there is the rough problem of graded, in attenuation process, likely misses some key signals, causes original optical distorted signals.

Existing decay flap-type optical attenuator is difficult to apply at some special dimension, can retain original signal undistortedly, can smoothingly decay again, decays to a desirable degree.Existing optical attenuator chip architecture as shown in Figure 1, the anti-reflection film of total reflection film and plating that its optics leads to the plating of light face has curved edge, curved edge is linear with translational movement or approximately linear decaying shape, but this optical attenuator chip architecture, incident optical signal can be made to change according to certain rule (linear rule), but there is the rough problem of graded, in attenuation process, likely miss some key signals, cause original optical distorted signals, and its making processing is more complicated, dirigibility is not high.Therefore applicant has researched and developed a kind of ellipse optical attenuator chip architecture, and this ellipse optical attenuator chip architecture has above-mentioned advantage simultaneously.

Summary of the invention

The object of the present invention is to provide a kind of ellipse optical attenuator chip architecture and method for designing thereof of medical photo-detector, the making processing that the invention solves the existence of existing optical attenuator is more complicated, the not high defect of dirigibility.

For this reason, the present invention is by the following technical solutions: a kind of ellipse optical attenuator chip architecture of medical photo-detector, it is characterized in that, optical attenuator is by multiple ellipse, the major axis of all ellipses and being in equal proportions of minor axis, the focus of all ellipses is all distributed on same straight line, and optical attenuator is arranged in order by interior from small to large outward by oval size.

An ellipse optical attenuator design method for medical photo-detector, is characterized in that, first adopts planar graph design software photoshop, proceeds as follows step:

1.1, a newly-built photoshop file, arranges picture size parameter;

1.2, open Layer panel, click " newly-built layer ", by the characteristic parameter that actual conditions setting is oval, and R, G, B tri-component values of color panel are set to 0;

1.3, click " editor ", " filling ", select " filling with foreground ";

1.4, select " Layer panel ", click the layer that upper two steps are newly-built, make it invisible;

1.5, repeat the 2nd step, chosen area increases progressively, and R, G, B tri-component values also increase progressively, and increasing progressively can be increase progressively at equal intervals, also can suitably arrange according to the actual requirements, then repeats the 3rd step and the 4th step;

1.6, when layer covers the picture size of the 1st step setting completely, make whole layer visible, and merge all visible layers;

1.7, in layer outermost, the ater frame that a pixel is 1, R=G=B=0 is drawn, as border with " pencil " instrument;

1.8, " image " is clicked, " adjustment ", " inverse ";

1.9, Quan Xuan, copies;

Then start CorelDraw software, proceed as follows step:

2.1, newly-built CorelDraw file, pastes, transfers image to polar plot, adjust picture size according to actual needs, make dimension of picture follow plate dimension to match;

2.2, click " file ", print, select Propalette8000 film to export instrument as printer, film output type is negative film;

2.3, determine, complete ellipse optical attenuator structural design.

Use the present invention can reach following beneficial effect: the present invention can retain original signal undistortedly, can realize again the optical attenuator chip architecture of slow-decay, and flexible design, making simple, laying a good foundation in the application of special dimension for widening it.

Accompanying drawing explanation

Fig. 1 is existing optical attenuator structural representation.

Fig. 2 is structural representation of the present invention.

Embodiment

Below in conjunction with accompanying drawing, the specific embodiment of the present invention is described in detail.

Embodiment: as shown in Figure 2, optical attenuator is by multiple ellipse, the major axis of all ellipses and being in equal proportions of minor axis, the focus of all ellipses is all distributed on same straight line, and optical attenuator is arranged in order by interior from small to large outward by oval size, and oval spacing increases progressively arrangement at equal intervals, oval quantity is 10, the major axis of each ellipse is identical with the ratio of minor axis, but concrete numerical value is different, can adjust according to actual conditions.

In Fig. 2, the numerical value of different oval corresponding R, G, B tri-components is different, and namely the dough softening is different, and the numerical value of R, G, B tri-components of minimum ellipse is minimum, and the dough softening is maximum, by that analogy; The dough softening between different ellipse can adjust according to actual conditions, and only need adjust the numerical difference of adjacent two oval R, G, B tri-components, can be constant numerical difference, also can be the numerical difference meeting particular/special requirement.

Embodiment: picture size (high: 5cm, wide: 3cm), oval feature parameter (major axis: minor axis=3:2), R, G, B tri-components have employed and increase progressively at equal intervals, and increment value is 25, and 10 increase progressively level altogether; Adopt 24 bitmap formats to design, R, G, B tri-components respectively account for 8, span: 0 ~ 255.When the value of R, G, B tri-components is identical, ensure that the egative film exported is black-and-white film.The R=G=B=0 dough softening is maximum, and light intensity attenuation amount is maximum.Along with the numerical value of R, G, B tri-components increases gradually, as: R=G=B=25,50,75,100 ..., the dough softening reduces gradually, and light intensity attenuation amount also reduces gradually.

This ellipse optical attenuator design method: first adopt planar graph design software photoshop, proceed as follows step:

1.1, a newly-built photoshop file, arranges picture size parameter;

1.2, open Layer panel, click " newly-built layer ", by the characteristic parameter that actual conditions setting is oval, and R, G, B tri-component values of color panel are set to 0;

1.3, click " editor ", " filling ", select " filling with foreground ";

1.4, select " Layer panel ", click the layer that upper two steps are newly-built, make it invisible;

1.5, repeat the 2nd step, chosen area increases progressively, and R, G, B tri-component values also increase progressively, and increasing progressively can be increase progressively at equal intervals, also can suitably arrange according to the actual requirements, then repeats the 3rd step and the 4th step;

1.6, when layer covers the picture size of the 1st step setting completely, make whole layer visible, and merge all visible layers;

1.7, in layer outermost, the ater frame that a pixel is 1, R=G=B=0 is drawn, as border with " pencil " instrument;

1.8, " image " is clicked, " adjustment ", " inverse ";

1.9, Quan Xuan, copies;

Then start CorelDraw software, proceed as follows step:

2.1, newly-built CorelDraw file, pastes, transfers image to polar plot, adjust picture size according to actual needs, make dimension of picture follow plate dimension to match;

2.2, click " file ", print, select Propalette8000 film to export instrument as printer, film output type is negative film;

2.3, determine, complete ellipse optical attenuator structural design.

In Fig. 2, this ellipse optical attenuator exports instrument by the film of specialty to export, when egative film output machine exports a black and white negative film, can former figure be projected on egative film, the brighter pixel of former figure can expose more, after egative film washes out, this pixel is more black, for obtaining the egative film identical with former figure, before output, former attenuator need be carried out inverse process.The principle of inverse process obtains new R, G, B numerical value by the value that maximal value deducts original R, G, B tri-components respectively to each pixel, and the corresponding a kind of new color of new R, G, B numerical value, finally with this pixel of this color filling.

Optical attenuator chip architecture of the present invention also can be formed from interior being arranged in order outward by triangle, trapezoidal etc.

Instant invention overcomes the shortcoming of prior art one, devising one can retain original signal undistortedly, can realize again the optical attenuator chip architecture of slow-decay; And design flexibility is high, make simple, repeatability is high; The present invention lays a good foundation for decay flap-type optical attenuator can obtain practical application in wider field.

More than show and describe ultimate principle of the present invention and principal character and advantage of the present invention.The technician of the industry should understand; the present invention is not restricted to the described embodiments; what describe in above-described embodiment and instructions just illustrates principle of the present invention; without departing from the spirit and scope of the present invention; the present invention also has various changes and modifications, and these changes and improvements all fall in the claimed scope of the invention.Application claims protection domain is defined by appending claims and equivalent thereof.

Claims (5)

1. the ellipse optical attenuator chip architecture of a medical photo-detector, it is characterized in that: optical attenuator is made up of multiple ellipse, the major axis of all ellipses and being in equal proportions of minor axis, the focus of all ellipses is all distributed on same straight line, and optical attenuator is arranged in order by interior from small to large outward by oval size.

2. an ellipse optical attenuator design method for medical photo-detector, is characterized in that: first adopt planar graph design software photoshop, proceed as follows step:

1.1, a newly-built photoshop file, arranges picture size parameter;

1.2, open Layer panel, click " newly-built layer ", by the characteristic parameter that actual conditions setting is oval, and R, G, B tri-component values of color panel are set to 0;

1.3, click " editor ", " filling ", select " filling with foreground ";

1.4, select " Layer panel ", click the layer that upper two steps are newly-built, make it invisible;

1.5, repeat the 1.2nd step, chosen area increases progressively, and R, G, B tri-component values also increase progressively, and increasing progressively can be increase progressively at equal intervals, also can suitably arrange according to the actual requirements, then repeats the 1.3rd step and the 1.4th step;

1.6, when layer covers the picture size of the 1st step setting completely, make whole layer visible, and merge all visible layers;

1.7, in layer outermost, the ater frame that a pixel is 1, R=G=B=0 is drawn, as border with " pencil " instrument;

1.8, " image "-" adjustment "-" inverse " is clicked;

1.9, Quan Xuan, copies;

Then start CorelDraw software, proceed as follows step:

2.1, newly-built CorelDraw file, pastes, transfers image to polar plot, adjust picture size according to actual needs, make dimension of picture follow plate dimension to match;

2.2, click " file ", print, select Propalette8000 film to export instrument as printer, film output type is negative film;

2.3, determine, complete ellipse optical attenuator structural design.

3. the ellipse optical attenuator chip architecture of a kind of medical photo-detector according to claim 1, is characterized in that: described oval spacing increases progressively arrangement at equal intervals.

4. the ellipse optical attenuator chip architecture of a kind of medical photo-detector according to claim 1, is characterized in that: described oval quantity is 10.

5. the ellipse optical attenuator chip architecture of a kind of medical photo-detector according to claim 1, is characterized in that: described optical attenuator chip architecture can be formed from interior being arranged in order outward by triangle, trapezoidal etc.