CN2793696Y - Response characteristic tester on detector surface - Google Patents

Abstract

The utility model relates to a detector surface response characteristic tester. The tester comprises an optical focusing system, an X axis and a Y axis position control platforms, a signal amplification and acquisition system, and a control and display system. A computer is respectively connected with and controls an I/O port and an A/D converter, wherein the I/O port is respectively connected with and controls an X axis and a Y axis step motor driving circuits and a semiconductor laser, the X axis and a Y axis step motor driving circuits are respectively connected with and control an X axis and a Y axis step motors so as to control a double dimensional displacement platform. The laser beam of the semiconductor laser passes through a focusing barrel with a small hole with a diameter of 0.1 mm and forms a light spot with a diameter less than 0.1 mm. The light spot irradiates the surface of a detector arranged on an X axis and a Y axis double dimensional displacement platform, so that response electrical signals can be generated. The surface of a detector is connected with the A/D converter by an amplifier. After amplified by the amplifier, the electrical signals are converted to data signals by the A/D converter and are transferred to a computer for processing.

Description

The response characteristic of detector surface tester

Technical field

The utility model relates to measuring technology, particularly relates to a kind of test macro of light, mechanical, electrical composition that utilizes and realizes the device that response characteristic of detector surface is tested.

Background technology

How quicklook ground shows response characteristic of detector surface, is the problem that device development person and user very are concerned about.Particularly in the research process of making the large area detector technology, be timely characterization processes improvement effect, have quicklook ground to show that the response characteristic of detector surface tester just seems very important.

There is the ordinary light source of employing to carry out the response characteristic of detector surface testing apparatus at present in the prior art, one as the development of China Southwest Inst. of Technical Physics is used for avalanche photodetector homogeneity recording geometry, this recording geometry utilizes light that ordinary light source sends through the surface of an aperture radiation at detector, utilize micropositioner to change different sensing points, thereby the process opto-electronic conversion is noted the homogeneity of detector surface, and this system can only be effective to the high detector surface property detection of responsiveness.Also have and adopt infrared light supply to carry out the response characteristic of detector surface test, as an infrared little spot scan tester of No. 41 Institute of China Ministry of Electronics Industry Qingdao branch development, the radiation that this sweep chanalyst utilizes black matrix is tested the significant response area of infrared unit device and the response homogeneity in the photosurface by Focused Optical system and control platform, electronics information processing.This system exists light path to regulate loaded down with trivial details and requires explorer response rate height.

The utility model content

At the shortcoming that exists in the above-mentioned prior art, technical problem to be solved in the utility model provides a kind ofly can effectively carry out detector surface responsiveness, the response characteristic of detector surface tester of particularly low-response rate characteristic test fast.

In order to solve the problems of the technologies described above, a kind of response characteristic of detector surface tester provided by the utility model comprises:

One optical focusing system, be provided with semiconductor laser and in have the diameter can be smaller or equal to the focusing barrel of 0.1mm aperture;

One XY, two axis Position Control platforms are provided with X-axis stepper motor and y-axis stepper motor;

One signal amplifies and acquisition system, is provided with amplifier, I/O port and A/D converter;

One control and display system is provided with computing machine, is used for the modulating pulse control of semiconductor laser, the X-axis stepper motor driving circuit and the y-axis stepper motor driving circuit of control two-dimension displacement platform;

Connect respectively and control described I/O port and described A/D converter by described computing machine, described I/O port connects respectively and controls described X-axis stepper motor driving circuit, described y-axis stepper motor driving circuit and described semiconductor laser, described X-axis stepper motor driving circuit is connected respectively with described y-axis stepper motor driving circuit and controls described X-axis stepper motor and described y-axis stepper motor, thereby control XY two-dimension displacement platform, the light beam of described semiconductor laser forms hot spot less than the 0.1mm diameter through being provided with diameter less than the described focusing barrel of 0.1mm aperture, described hot spot shines in the detector surface that is located on the XY two-dimension displacement platform and makes it produce the electric signal of response, described detector surface connects described A/D converter through described amplifier, described electric signal is converted to data-signal by described A/D converter and send described Computer Processing after amplifier amplifies.

Described amplifier is the arrowband frequency-selecting amplifier.

Described stepper motor driving circuit is the stepper motor driving circuit of 8 segmentations.

Described two-dimension displacement platform is a ball-screw two-dimension displacement platform.

Described A/D converter is 12 a A/D converter.

The response characteristic of detector surface tester that utilizes the utility model to provide, because

1) test uses hot spot smaller or equal to 0.1mm;

2) spacing between each test point and the adjacent test point is smaller or equal to 0.15mm;

3) AD conversion figure place is more than or equal to 10;

4) hot spot has enough energy, and the signal to noise ratio (S/N ratio) that makes tester is more than or equal to 30;

So response characteristic of detector surface tester of the present utility model can effectively carry out detector surface responsiveness, the test of particularly low-response rate response characteristic of detector surface fast.

Description of drawings

Fig. 1 is the system block diagram of the response characteristic of detector surface tester of the utility model embodiment;

Fig. 2 is the structural representation of the opticator of the utility model embodiment;

Fig. 3 is the display interface figure of the testing software of the utility model embodiment;

Fig. 4 is the structural representation of the response characteristic of detector surface tester of the utility model embodiment.

Embodiment

Below in conjunction with description of drawings embodiment of the present utility model is described in further detail, but present embodiment is not limited to the utility model, every employing analog structure of the present utility model and similar variation thereof all should be listed protection domain of the present utility model in.

Referring to shown in Figure 1, the response characteristic of detector surface tester of the utility model embodiment comprises optical focusing system, XY two axis Position Control platforms, signal amplification and acquisition system, control and display system.

The utility model embodiment is the test macro of a little luminous point, small-signal, little displacement, position control for test point is comparatively strict, below 100 μ m, hot spot is modulated to the frequency of 10Hz, the modulation of image data and hot spot must could guarantee the accuracy of image data synchronously, the response of detector has only about 40 μ v, must pick up amplification through amplifying circuit, and converts digital signal to through A/D converter and offer tester computer and handle.

Optical focusing system: optical focusing system adopts wavelength 650nm, emergent pupil power 16mw, the interface Transistor-Transistor Logic level, as shown in Figure 2, the semiconductor laser 1 that can modulate is as radiating light source, and light beam focuses on aperture 3 diaphragms of back by diameter 0.1mm through first object lens 2, it is focused into＜hot spot of 0.1mm diameter through second object lens 4 again, hot spot shines in detector surface 5 and makes it produce the electric signal of response, send Computer Processing by A/D card image data.

XY two-dimensional position control platform: just need not move again after the disposable focusing of optical focusing system is finished, the relative displacement that moving optical system produces hot spot is unpractical, therefore adopt XY two-dimensional position control platform to finish moving of hot spot, the line scanning of X-axis control hot spot, the column scan of Y-axis control hot spot, owing to require the distance of the each scanning of hot spot to have only 100 μ m and do not allow locational error, so XY two-dimensional position control platform has just adopted the control accuracy height, the stepper motor driven ball-screw two-dimension displacement platform of no cumulative errors is as the mechanical shift part of system.

Signal amplifies and acquisition system: when hot spot is radiated at detector plane, the response of detector has only about 40 μ v, so little signal is not easy to gather and handle, the utility model embodiment has designed and produced 250,000 times arrowband frequency-selecting amplifier, signal is amplified to-10v-+10v between, deliver to Computer Processing then.Acquisition system adopts the capture card of 12 A/D of pci bus with 32 road digital quantity I/O; the A/D passage is used for the collection of amplifier output analog quantity, and 32 road digital quantity I/O are used for that movement velocity, direction, the position size of output laser modulated pulse signal and two-dimensional stage are moved, the pulse and the level signal of front limit protection and back position limitation protection etc.

Control and display system: control section is divided into the control of modulating pulse and the control of two-dimensional stage again, and wherein modulating pulse is comparatively simple, directly gets final product by I/O port output 10Hz pulse with software.And the control of two-dimensional stage is comparatively complicated, the selected two-dimensional stage stepper motor of the utility model embodiment is the 42BYGH101 type, step angle 1.8 degree, and table top screw rod helical pitch 1mm, repetitive positioning accuracy＜0.005mm, in order to make platform move the steady stepper motor driving circuit that designs 8 segmentations, therefore each pulse ball-screw stroke is: 1 ÷ (360 ÷ 1.8) ÷ 8=0.000625mm, such 160 pulse platforms just move forward 0.1mm＜0.15mm and satisfy the control requirement, use other I/O mouth line traffic control motor positive and inverses simultaneously, utilize the high-low level of detection platform two ends limit switch to carry out spacing control.System finishes the display part data in real time that will handle and shows, simultaneously with data storage in data file, after finishing, data acquisition this two-dimensional data table can be depicted as the 3D figure, show response characteristic of detector surface intuitively, judge that for final the quality of detector provides the most direct foundation.

In Fig. 1, connect respectively and control I/O port and A/D converter by computing machine, the I/O port connects respectively and controls the X-axis stepper motor driving circuit, y-axis stepper motor driving circuit and semiconductor laser 11, I/O port output motor gating pulse 18 control X-axis stepper motor driving circuit and y-axis stepper motor driving circuits, the X-axis stepper motor driving circuit is connected respectively with the y-axis stepper motor driving circuit and controls X-axis stepper motor 15 and y-axis stepper motor 17, thereby control XY two-dimension displacement platform 16, by the light beam of the semiconductor laser 11 of 10Hz modulating pulse 10 controls of I/O port output hot spot through 13 one-tenth＜0.1mm of the focus lamp tubular diameter that is provided with diameter 0.1mm aperture 12, hot spot shines in the detector surface 14 that is located on the XY two-dimension displacement platform and makes it produce the electric signal of response, detector surface 14 connects A/D converter through amplifier, electric signal is converted to data-signal by A/D converter and send Computer Processing after amplifier amplifies.

The test philosophy of detector surface response test instrument of the present utility model is as follows:

Detector is made by semiconductor material, and semiconductor material is to the absorption of light, and except partly levying absorption and the impurity absorption of direct generation photo-generated carrier, the lattice that does not directly produce charge carrier in addition absorbs.The generation heat caused the lattice vibration aggravation after lattice absorbed luminous energy, and conductor temperature is raise.Become free electron, free hole so electronics on the bound level or hole are released, or the electron excitation in the valence band becomes free carrier to conduction band, thereby cause the conductivity marked change.When the light incident power is P _s=P ₀e ^{J ω t}The time change in resistance be: $\mathrm{\ΔR}={\stackrel{\‾}{\mathrm{\α}}}_T{R}_0\frac{{\mathrm{\αP}}_0}{{G(1+{\mathrm{\ω}}^2{\mathrm{\τ}}_T^2)}^{1/2}}$

Wherein ω is a modulating frequency, and α is the absorptivity of material for detector, and G is the surrounding environment thermal conductance, τ _T=C/G is the detector thermal time constant, R ₀It is the resistance in the dark value of object before the illumination.Detector is connected into bridge circuit usually, can get output voltage V when change in resistance Δ R _LWith the incident radiation power P ₀Relation $V_S=\frac{V_A{R}_{L_1}{\stackrel{\‾}{\mathrm{\α}}}_T\mathrm{\α}{P}_0{R}_1}{{(R_1+R_{L_1})}^{2}G\sqrt{1+{\left(\mathrm{\ω\τ}\right)}^2}},$ Wherein, R ₁, R ₂Be that duplicate thermal sensing element is respectively at a brachium pontis, R _L1, R _L2Be two pull-up resistors, one of them is adjustable, α _TThe average temperature coefficient that is called object in the Δ T temperature interval.By this change in voltage of acquisition process just can the test analysis detector response characteristic.

The display interface of testing software as shown in Figure 3, this application program is worked out with VB6.0, mainly is made up of three parts:

Test data table 203 is two-dimensional data table, is used for showing in real time the response data of each test point, the variation of observed data dynamically.

Test point coordinate viewing area 201 is used for showing in real time the response data of coordinate He this point of the current point of testing, and makes the user clearly understand the exact position of each test point at detector plane, has also shown testing progress here.

Two-dimensional stage control zone 202 has comprised all platform control knobs and drafting 3 D figure here and has preserved data button, is the manipulation district of software.

This software can be finished the scanner uni data acquisition and the storage of hundreds of points of detector plane automatically once operation, and can draw the three-dimensional picture of plane response.

A kind of response characteristic of detector surface method of testing provided by the utility model, its step is as follows:

A) optical focusing system＜hot spot of 0.1mm diameter shines in detector surface and makes it produce the electric signal of response;

B) this electric signal picks up amplification through the amplifying circuit of arrowband frequency-selecting amplifier;

C) electric signal after amplifying converts digital signal to through 12 A/D converter;

D) digital signal offers tester computer and handles, and computing machine is according to can get output voltage V when change in resistance Δ R _LWith the incident radiation power P ₀Relation $V_S=\frac{V_A{R}_{L_1}{\stackrel{\‾}{\mathrm{\α}}}_T\mathrm{\α}{P}_0{P}_1}{{(R_1+R_{L_1})}^{2}G\sqrt{1+{\left(\mathrm{\ω\τ}\right)}^2}}$ Handle, calculate the response data of this test point;

E) response data of coordinate He this point of the point of being tested is imported and shown to computer testing software in real time;

F) adopt the XY ball-screw two-dimension displacement platform that drives by 8 segmentation stepper motor driving circuits to finish moving of hot spot test point;

G) repeating step is a) to test, input and the demonstration of step e) to carry out new test point response data;

H) response data by each test point of acquisition process just can test analysis and is obtained the surface respond characteristic of detector, is depicted as the 3D figure with this two-dimensional data table after promptly data acquisition is finished, and shows response characteristic of detector surface intuitively.

The structure of the detector surface response test instrument of the utility model embodiment as shown in Figure 4, comprise and be provided with base and column playscript with stage directions body 31, be arranged on the electronic two-dimension translational platform 35 on the base, be arranged on prime amplifier 32 on the electronic two-dimension translational platform 35 and to be measured 34, be arranged on the optical tubes 33 on the column platform support, the electric control gear 36 that connects electronic two-dimension translational platform 35, the computing machine 37 of connection electric control gear 36, prime amplifier 32 and optical tubes 33.

The basic machine of detector surface response test instrument is made up of optical tubes, column platform, shielding box, two-dimentional electronic control translation stage and five parts of base.

Detection instrument component-assembled relation:

1) base is placed on the worktable;

2) two-dimentional electronic control translation stage and column platform side by side by screw retention on base;

3) shielding box by screw retention on two-dimentional electronic control translation stage;

4) optical tubes is fixed on the column platform by the clamping limb of column platform, and can move up and down along column along with clamping limb.

The light source of the utility model embodiment is selected semiconductor laser for use, and for the spot size and the energy that obtain to meet the demands, the utility model embodiment adopts the optical system of focusing-imaging.

For the ease of the adjusting of optical system, utilize physical construction to guarantee coaxial between the optical frames group among the utility model embodiment, aperture is through focusing location in advance, and leaves the on-line fine function, and the adjusting when being beneficial to replace is required.The overall optical group can be carried out coarse adjustment up and down and accurate adjustment focusing.

For the original signal of detector output is amplified, designed a low-noise preamplifier among the utility model embodiment, the original signal of detector output is amplified to meets the required level of capture card.

The mobile requirement that reaches the test difference by computer control bidimensional platform.

Claims (5)

1. a response characteristic of detector surface tester is characterized in that, comprising:

One optical focusing system, be provided with semiconductor laser and in the focusing barrel of diameter 0.1mm aperture is arranged;

One XY, two axis Position Control platforms are provided with X-axis stepper motor and y-axis stepper motor;

One signal amplifies and acquisition system, is provided with amplifier, I/O port and A/D converter;

One control and display system is provided with computing machine, is used for the modulating pulse control of semiconductor laser, the X-axis stepper motor driving circuit and the y-axis stepper motor driving circuit of control two-dimension displacement platform;

Connect respectively and control described I/O port and described A/D converter by described computing machine, described I/O port connects respectively and controls described X-axis stepper motor driving circuit, described y-axis stepper motor driving circuit and described semiconductor laser, described X-axis stepper motor driving circuit is connected respectively with described y-axis stepper motor driving circuit and controls described X-axis stepper motor and described y-axis stepper motor, thereby control XY two-dimension displacement platform, the light beam process of described semiconductor laser is provided with the hot spot of the described focusing barrel formation＜0.1mm diameter of diameter 0.1mm aperture, described hot spot shines in the detector surface that is located on the XY two-dimension displacement platform and makes it produce the electric signal of response, described detector surface connects described A/D converter through described amplifier, described electric signal is converted to data-signal by described A/D converter and send described Computer Processing after amplifier amplifies.

2. response characteristic of detector surface tester according to claim 1 is characterized in that, described amplifier is the arrowband frequency-selecting amplifier.

3. response characteristic of detector surface tester according to claim 1 is characterized in that, described stepper motor driving circuit is the stepper motor driving circuit of 8 segmentations.

4. response characteristic of detector surface tester according to claim 1 is characterized in that, described two-dimension displacement platform is a ball-screw two-dimension displacement platform.

5. response characteristic of detector surface tester according to claim 1 is characterized in that, described A/D converter is 12 a A/D converter.

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