CN204316675U - A kind of CCD imaging system calibration calibration apparatus - Google Patents
A kind of CCD imaging system calibration calibration apparatus Download PDFInfo
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- CN204316675U CN204316675U CN201520037401.4U CN201520037401U CN204316675U CN 204316675 U CN204316675 U CN 204316675U CN 201520037401 U CN201520037401 U CN 201520037401U CN 204316675 U CN204316675 U CN 204316675U
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- baffle plate
- light
- imaging system
- ccd imaging
- parallel light
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Abstract
The utility model relates to light sensitive device performance test field, particularly a kind of CCD imaging system calibration calibration apparatus.Comprise integrating sphere light source and parallel light tube, described parallel light tube is the housing arranged along the longitudinal direction, and the front end of housing is provided with outlet light hurdle; Described parallel light tube housing side is provided with target, and described target position is near described outlet light hurdle and be 90 degree with described outlet light hurdle and arrange, and is provided with plane secondary mirror, parabolic primary mirror and more than one baffle plate in described parallel light tube; Described baffle plate is provided with light hole, and described parabolic primary mirror is positioned at described parallel light tube one end away from described outlet light hurdle.The utility model adopts multilayer baffle plate to block astigmatism, avoid astigmatism on the impact of CCD imaging system, utilize the light hole correction radiation direction on baffle plate simultaneously, at utmost avoid the impact of manual operation, accuracy of measurement is high, the collection of parameters is just realized by exchanging different targets for, easy and simple to handle, automaticity is high.
Description
Technical field
The utility model relates to light sensitive device performance test field, particularly a kind of CCD imaging system calibration calibration apparatus.
Background technology
CCD (Charge Coupled Device, writes a Chinese character in simplified form CCD, has another name called ccd image sensor, image controller) is a kind of transform light energy device, and it uses the semi-conducting material of ISO to make, and light can be transformed into electric charge and store.CCD has been widely used in the fields such as shooting, IMAQ, scanner and commercial measurement.
CCD imaging system refers to the optical imaging system (usually also including the peripheral components such as driver, filter) including the main devices such as optical lens and CCD; The characteristic of CCD imaging system is good and bad to be determined with the parameter such as focal length, systemic resolution by system optics axiality, system modulation transfer function (MTF), systematical distortion, the angle of visual field (FOV), must measure the relevant parameter of the CCD imaging system comprising this CCD and calibrate adjustment before current CCD dispatches from the factory, with the ccd sensor guaranteeing to dispatch from the factory, there is good performance.
The current mode to CCD imaging system parameters calibration adjustment is visual observation and manual analysis process, due to the impact that human factor is brought, causes measurement reproducibility poor, causes accuracy of measurement not high.
Utility model content
The purpose of this utility model is to overcome above-mentioned deficiency existing in prior art, and the utility model provides a kind of and is affected by human factors little, that accuracy of measurement is high CCD imaging system calibration calibration apparatus.In order to achieve the above object, the technical solution adopted in the utility model is: a kind of CCD imaging system calibration of the technology that the utility model adopts calibration apparatus, comprise parallel light tube, described parallel light tube front end is provided with outlet light hurdle, described parallel light tube rear end is provided with parabolic primary mirror, described parallel light tube side is provided with target, described target position is near described outlet light hurdle and be 90 degree with described outlet light hurdle and arrange, and is provided with plane secondary mirror, parabolic primary mirror and more than one baffle plate in described parallel light tube; Described baffle plate is provided with light hole, and baffle plate for stopping the light of scattering, and can reduce the personnel to operate on the impact of light uniformity by the light hole correction opticpath on baffle plate;
The light beam irradiates extremely described plane secondary mirror that described target will receive, described plane secondary mirror is for reflexing to described parabolic primary mirror by light beam by the light hole on described baffle plate, and described parabolic primary mirror is for reflexing to described outlet light hurdle by light beam by the light hole on described baffle plate.
Preferably, parallel light tube in described CCD imaging system calibration calibration apparatus is provided with 5 baffle plates, described 5 baffle plates are near described plane secondary mirror one end, what interval increased successively is set in parallel between affiliated plane secondary mirror and described parabolic primary mirror, the quantity of baffle plate is more, the more favourable obstruction with astigmatism, make the light uniformity being finally irradiated to CCD imaging system better, but baffle plate quantity increase the cost that can increase equipment, and baffle plate quantity increase also can on baffle plate light hole arrange complexity require increase.
Further, described baffle plate is made of metal, its surperficial painted black, and the metal baffle plate of painted black is more conducive to the obstruction of astigmatism and prevents from generating new reflection astigmatism.
Further, the angle of described parabolic primary mirror and described plane secondary mirror and position are adjustable; Wherein, the luffing angle of described parabolic primary mirror and the luffing angle of described plane secondary mirror all can regulate in positive and negative 2 degree of its predetermined angle;
Further, described target center is provided with aperture, and it calibrates the optics axiality of adjustment system for measuring described CCD.
Compared with prior art, the beneficial effects of the utility model: a kind of CCD imaging system calibration calibration apparatus that the utility model provides adopts multilayer baffle plate to block astigmatism, avoid astigmatism on the impact of CCD imaging system, utilize the light hole correction radiation direction on baffle plate simultaneously, at utmost avoid the impact of manual operation, accuracy of measurement is high, just realizes the collection of parameters by exchanging different targets for, easy and simple to handle.
Accompanying drawing illustrates:
Fig. 1 is parallel light tube internal structure schematic diagram in the utility model embodiment.
Mark in figure: 1-target, 2-plane secondary mirror, 3-parabolic primary mirror, 4-baffle plate, 5-exports light hurdle.
Embodiment
Below in conjunction with drawings and the specific embodiments, the utility model is described in further detail.But this should be interpreted as that the scope of the above-mentioned theme of the utility model is only limitted to following embodiment, all technology realized based on the utility model content all belong to scope of the present utility model.
Embodiment 1: as shown in Figure 1, the present embodiment provides a kind of and is affected by human factors little, that accuracy of measurement is high, automaticity is high CCD imaging system calibration calibration apparatus, comprise parallel light tube (not showing in figure), the front end of parallel light tube is provided with outlet light hurdle 5, and the rear end of parallel light tube is provided with parabolic primary mirror 3; Described parallel light tube side is provided with target 1 (described target 1 can be changed arbitrarily according to the difference of required test parameter), described target 1 position is near described outlet light hurdle 5 and be 90 degree with described outlet light hurdle and arrange, and is provided with plane secondary mirror 2, parabolic primary mirror 3 and more than one baffle plate 4 in described parallel light tube; Described baffle plate 4 is provided with light hole.Plane secondary mirror 2 be positioned at parallel light tube Inner Front End part and be positioned at outlet light hurdle 5 after, parabolic primary mirror 3 is positioned at parallel light tube rear end part and before being positioned at parabolic primary mirror 3, baffle plate 4 is between plane secondary mirror 2 and parabolic primary mirror 3, baffle plate for stopping the light of scattering, and can be reduced the personnel to operate on the impact of light uniformity by the light hole correction opticpath on baffle plate.
During use, described target is outside equipped with integrating sphere light source, described integrating sphere light source is for generation of light beam and by described target 1 by light beam irradiates extremely described plane secondary mirror 2, described plane secondary mirror 2 is for reflexing to described parabolic primary mirror 3 by irradiating the light beam of coming through target 1 by the light hole on described baffle plate 4, described parabolic primary mirror 3 reflexes to described outlet light hurdle 5 for the light beam reflected back by plane secondary mirror 2 by the light hole on described baffle plate 4, and described CCD imaging system to be measured is arranged on outlet light hurdle 5 place.It is generally acknowledged CCD imaging system just at described outlet light hurdle 5 place, the actual range between itself and outlet light hurdle 5 can be ignored.
Preferably, parallel light tube in described CCD imaging system calibration calibration apparatus comprises 5 baffle plates, described 5 baffle plates are near described plane secondary mirror 2 one end, what interval increased successively is set in parallel between affiliated plane secondary mirror 2 and described parabolic primary mirror 3, the quantity of baffle plate is more, the more favourable obstruction with astigmatism, the light uniformity being finally irradiated to CCD imaging system can be made better, but baffle plate quantity increase the cost that can increase equipment, and baffle plate quantity increase also can on baffle plate light hole arrange complexity require increase.
Further, described baffle plate 4 is made of metal, its surperficial painted black, and the metal baffle plate of painted black is more conducive to the obstruction of astigmatism, can prevent the appearance of new astigmatism simultaneously.
Further, the angle of described parabolic primary mirror 3 and described plane secondary mirror 2 and position are adjustable; Wherein, the luffing angle of described parabolic primary mirror 3 and the luffing angle of described plane secondary mirror 2 all can regulate in positive and negative 2 degree of its predetermined angle.
Further, described target 1 center is provided with aperture, and it calibrates the optics axiality of adjustment system for measuring described CCD.
CCD imaging system to be measured is fixed on described outlet light hurdle place, before other parameters of measurement, first the system optics axiality of described CCD imaging system calibration calibration apparatus should be adjusted (when referring to that the optical lens adjusted in described CCD imaging system aims at a common point of observation with CCD, be in the same position in system visual field, the i.e. optical axis of optical lens and the optical axis coincidence of CCD), adjustment mode is as follows:
Adopt centering mode, adjust to coaxial by the optical axis of optical lens in CCD imaging system with the geometric center of CCD.Adopt laser collimator (requiring that laser is monofilm) as the instrument of centering, before laser collimator is placed on target (can think described laser collimator instead of integrating sphere light source position or between integrating sphere light source and target), ensureing under the absolute firmly condition in the geometric position of CCD imaging system, install imaging optical system (described imaging optical system comprises optical lens and CCD and its peripheral components), and focusing reaches optimum state, judge whether spot center departs from the geometric center of CCD by IMAQ, whether coaxial to measure system, final adjustment laser collimator makes spot center drop on the center of CCD.
Further, adjusting the parameter such as the angle of visual field, focal length, modulation transfer function, systemic resolution, systematical distortion of the laggard one step surveying of system optics axiality CCD imaging system to be measured of described CCD imaging system calibration calibration apparatus, during test, CCD should be operated in (namely the illuminance of integrating sphere light source is below the saturated illumination of CCD to be measured) in its linear characteristic region, and its principle is as follows:
(1) angle of visual field FOV of CCD imaging system to be measured and focal distance f
sys: use glass sieve plate to make target, focal distance f
syscomputing formula as follows:
In formula, f
collimatorfor the focal length of collimating light pipe, be about 2000mm here; l
livePairfor the glass sieve printed line selected is to spacing, l
cCDfor corresponding glass sieve printed line is to the size of spacing imaging on CCD; CCD imaging system multiplication factor is
The angle of visual field is recording imaging optical system focal distance f
syscan calculate with the physical dimension of the effective photosurface of CCD.The angle of visual field refers to the maximum perpendicular that imaging system can be observed and level angle, represents respectively with formula below:
In formula, D
x, D
ybe respectively the physical dimension in CCD device horizontal and vertical direction.
(2) modulation transfer function of CCD imaging system to be measured: select " edge of a knife target " target; Described modulation transfer function is the characterisitic parameter for characterizing device image quality, and reflection device exports the relation of modulation degree and incident light spatial frequency.It is by within the scope of nyquist frequency, device output signal modulation degree M under the incident light modulated effect of various sine space frequency
o(ν) with incident optical signal modulation degree M
i(ν) ratio determines, computing formula is:
MTF=M
o(ν)/M
i(ν)
Wherein, ν is spatial frequency (cy/mrad).
(3) the systemic resolution Res of CCD imaging system to be measured: general after the modulation transfer function measuring CCD to be measured, limit of utilization resolution, spatial frequency corresponding during MTF=0.05 is the resolution of system.
(4) the systematical distortion q of CCD imaging system to be measured: select distortion standard target, systematical distortion q is for magnification ratio different of the center magnification ratio from centrifugal place that represent CCD to be measured, represent the degrees of offset of the ideal position of point or line and imaging, its pole span be defined as between the physical location of point source imaging and ideal position is worth divided by visual field.Distortion q is obtained by following formula:
The magnification ratio M of the optical system wherein optical axis center of imaging owing to causing the reason of geometric distortion
owith the magnification ratio M at edge
bdifferent and cause, because its distortion represents with following formula again:
When q>0 is called pincushion distortion, otherwise q<0 is called barrel distortion.
Arbitrary feature disclosed in this specification (comprising any accessory claim, summary and accompanying drawing), unless specifically stated otherwise, all can be replaced by other equivalences or the alternative features with similar object.That is, unless specifically stated otherwise, each feature is an example in a series of equivalence or similar characteristics.
Claims (5)
1. a CCD imaging system calibration calibration apparatus, comprise parallel light tube, it is characterized in that, described parallel light tube front end is provided with outlet light hurdle, described parallel light tube rear end is provided with parabolic primary mirror, described parallel light tube side is provided with target, and described target position is near described outlet light hurdle and be 90 degree with described outlet light hurdle and arrange, and is provided with plane secondary mirror, parabolic primary mirror and more than one baffle plate in described parallel light tube; Described baffle plate is provided with light hole;
Described baffle plate is for stopping astigmatism, light beam exposes to described plane secondary mirror by described target, described plane secondary mirror is for reflexing to described parabolic primary mirror by light beam by the light hole on described baffle plate, and described parabolic primary mirror is for reflexing to described outlet light hurdle by light beam by the light hole on described baffle plate.
2. a kind of CCD imaging system calibration calibration apparatus as claimed in claim 1, it is characterized in that, 5 baffle plates are provided with in described parallel light tube, described 5 baffle plates are near described plane secondary mirror one end, and what interval increased successively is set in parallel between affiliated plane secondary mirror and described parabolic primary mirror.
3. a kind of CCD imaging system calibration calibration apparatus as claimed in claim 2, it is characterized in that, described baffle plate is made of metal, its surperficial painted black, and ferrous metal baffle plate produces for preventing new reflection astigmatism.
4. a kind of CCD imaging system calibration calibration apparatus as claimed in claim 1, it is characterized in that, angle and the position of described parabolic primary mirror and described plane secondary mirror are adjustable; Wherein, the luffing angle of described parabolic primary mirror and the luffing angle of described plane secondary mirror all can regulate in positive and negative 2 degree of its predetermined angle.
5. a kind of CCD imaging system calibration calibration apparatus as claimed in claim 1, it is characterized in that, described target center is provided with aperture, and it calibrates the optics axiality of adjustment system for measuring described CCD.
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104581146A (en) * | 2015-01-20 | 2015-04-29 | 中测测试科技有限公司 | CCD imaging system calibration and adjustment device |
CN108931357A (en) * | 2017-05-22 | 2018-12-04 | 宁波舜宇车载光学技术有限公司 | Test target and corresponding camera lens MTF detection system and method |
CN110514405A (en) * | 2019-08-30 | 2019-11-29 | 云南北方驰宏光电有限公司 | A kind of uncooled ir lens imaging quick quality testing system and method |
CN114598787A (en) * | 2020-11-19 | 2022-06-07 | 爱思开海力士有限公司 | Image sensing device |
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2015
- 2015-01-20 CN CN201520037401.4U patent/CN204316675U/en not_active Expired - Fee Related
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104581146A (en) * | 2015-01-20 | 2015-04-29 | 中测测试科技有限公司 | CCD imaging system calibration and adjustment device |
CN108931357A (en) * | 2017-05-22 | 2018-12-04 | 宁波舜宇车载光学技术有限公司 | Test target and corresponding camera lens MTF detection system and method |
CN108931357B (en) * | 2017-05-22 | 2020-10-23 | 宁波舜宇车载光学技术有限公司 | Test target and corresponding lens MTF detection system and method |
CN110514405A (en) * | 2019-08-30 | 2019-11-29 | 云南北方驰宏光电有限公司 | A kind of uncooled ir lens imaging quick quality testing system and method |
CN114598787A (en) * | 2020-11-19 | 2022-06-07 | 爱思开海力士有限公司 | Image sensing device |
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Granted publication date: 20150506 Termination date: 20220120 |