CN1346988A - Miniature tunable infrared filter and its preparing process - Google Patents
Miniature tunable infrared filter and its preparing process Download PDFInfo
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- CN1346988A CN1346988A CN 01117636 CN01117636A CN1346988A CN 1346988 A CN1346988 A CN 1346988A CN 01117636 CN01117636 CN 01117636 CN 01117636 A CN01117636 A CN 01117636A CN 1346988 A CN1346988 A CN 1346988A
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Abstract
A tunable miniature infrared filter is composed of a substrate, the fixing end, main body and slide end of a raster, the leading wire, electrode and main body of a driver, coil, air gap, and iron core, and is made up by quasi-LIGA technology. Its advantages are simplified preparing process, low cost, high efficiency and wide application range.
Description
The invention belongs to micro-optical device, relate to a kind of be used for the tunable IR light filter of infrared imaging and the improvement of manufacture craft.
The prior art present situation: the tunable IR light filter that is used for infrared imaging at present in the world has acousto-optic method, Fabry-Perot method and Fourier frequency conversion spectrographic technique etc., all has advantages such as high transmission, wide acceptance angle and the focal plane frequency conversion of wide adjustable type.Its common deficiency is that volume is excessive.Also proposed miniaturization structure and method for making in recent years abroad, and, made the manufacturing of light filter solve this key issue of process compatible that exists in microminiaturization, the integrated process fully because its each several part adopts micromechanics and mechanical means to make respectively.
Existing structure (T.R.Ohnstein, J.D.Zook, Deng Proc.MEMS ' 95, MICROElectro Mechanical Sytems, PP170-174, IEEE, Amsterdam (1995)) to form by supporter, grating stiff end, adjustable grating main body, grating plunger, driver, the miniature tunable grating comprises grating stiff end, grating main body and grating plunger.The two ends of adjustable grating main body are connected with grating stiff end and grating plunger respectively, the air-gap of driver and grating plunger insertion driver air-gap relative with the grating plunger, the supporter of adjustable grating and driver be positioned at the two under, supporter and grating stiff end and driver are for fixedlying connected, do not have supporter below the adjustable grating main body, the grating plunger is suspended in the supporter top.
Though the grating plunger is suspended in supporter top and reduces friction in the existing structure, be unfavorable for that technology makes, easily cause simultaneously adjustable grating with supporter plane vertical direction on cause the bending of grating main body, reduce the device operating accuracy.Former document does not provide the concrete structure of driver, and only illustrating it has electromagnet and air-gap.
Existing manufacture craft is: the integrated form driver use macroscopical technology to make to be assemblied on the supporter then or have sliding end and the adjustable grating structure electroforming of grating main body on sacrifice layer, discharge then and be assemblied on the substrate, substrate has prepared activation configurations such as magnetic pole and attachment post are arranged before this.Adjustable grating and driver are made respectively by LIGA technology, and electroforming material is a permalloy.
The problem that exists in the processing step: at first adopt assembly method to make this device, be unfavorable for that batch making and other device and circuit are integrated; Simultaneously also increase the rigging error that causes by technology, reduced the device precision.Secondly, adopt LIGA fabrication techniques grating and activation configuration, because synchrotron radiation operating cost costliness makes element manufacturing cost height; Because of the thick absorber mask of LIGA arts demand makes complex process; Because of also having LIGA industrial siding open all year round at present, China do not make process cycle long; Seldom make its method popularization poor because of synchrotron radiation light source quantity again.
The objective of the invention is to solve the above problem of prior art, a kind of integrated micro tunable infrared filter and preparation technology's method will be provided.The batch making that is beneficial to of typical micromechanical process and microelectronics combination is reached and other device and circuit integrated technology process.
The present invention comprises as shown in Figure 1: the integrated preparation of upper surface at substrate (1) has grating stiff end (2), grating main body (3), grating sliding end (4), driver (5), driver lead-in wire (6), (7), actuator electrode (8), (9), coil (10), air-gap (11), iron core (12).
Device of the present invention is made up of adjustable grating and driver and substrate three parts.The miniature tunable grating comprises grating stiff end (2), grating main body (3) and grating sliding end (4).The two ends of grating main body (3) are connected with an end of grating stiff end (2) and an end of grating sliding end (4) respectively, the part of grating sliding end (4) other end is inserted the openend of driver (5), substrate (1) as the supporter of adjustable grating and driver (5) be positioned at the two under, the upper surface of substrate (1) is fixedlyed connected with the lower surface of grating stiff end (2) and the lower surface of driver (5), preparation has air-gap (11) on substrate (1) body, grating main body (3) places the top of air-gap (11), driver lead-in wire (6) (7) and electrode (8) (9) are positioned at the upper surface of substrate (1), be connected for contact slidably between grating sliding end (4) and substrate (1), be noncontact between grating main body (3) and substrate (1), the coil (10) in the driver (5) is wound on iron core (12) on every side.
Processing step of the present invention and order are as follows:
(1), with two-sided chemical polishing of substrate and cleaning:
(2), at the two-sided certain thickness insulation course of growing respectively of substrate;
(3), making on the surface of insulating layer of substrate, photoetching, corrosion form the sacrifice layer of grating sliding end;
(4), at the certain thickness electroforming negative electrode of the surface sputtering of step 3;
(5), carve the photoresist figure of the coiling of driver coil bottom and actuator electrode, outer lead with the ultraviolet photolithographic method on the surface of step 4;
(6), make driver coil bottom coiling and actuator electrode, outer lead on the surface of step 5 with electroforming;
(7), remove the photoresist on step 5 surface, and the copper film on dry etching surface;
(8), evenly apply one deck photosensitive insulating material, photoetching, developing stays driver coil bottom coiling surface portion, to guarantee and core insulation on the surface of step 7;
(9), at the surface sputtering adjustable grating of step 8 and the electroforming negative electrode of iron core;
(10), form adjustable grating and iron core rubber moulding on the surface of step 9 with thick resist lithography;
(11), make adjustable grating and iron-core coil on the surface of step 10;
(12), at the surface removal thick photoresist and the etching electroforming negative electrode of step 11;
(13), at the photomask surface of step 12, the etching photosensitive insulating material, in driver coil bottom coiling two ends perforate so that continued growth coil lead middle layer part;
(14), make the electroforming negative electrode, thick resist lithography is also made the coil middle level on the surface of step 13.
(15), step 14 is removed thick photoresist, removed the electroforming negative electrode again;
(16), at step 15 surface coating and photoetching insulation course as driver iron core and coil upper strata;
(17), form the coil upper strata in step 16 photomask surface, electroforming;
(18), in the substrate back photoetching and lose deeply, form adjustable grating main body back side air-gap;
(19), remove coil upper strata insulation course in addition;
(20), the silicon dioxide of corrosion grating sliding end bottom, discharge the grating sliding end, produce miniature tunable infrared filter.
Principle of work of the present invention such as Fig. 2:
When driver was not worked (being not making alive of actuator electrical interpolar), adjustable grating was in free state, and the adjustable grating spacing is a.When the actuator electrical interpolar adds DC voltage V, in driver coil, there is electric current I to pass through.The magnetic field of driver openend makes the grating sliding end move to the driver direction, thereby causes to grating space and evenly increase Δ a.At this moment grating space becomes a+ Δ a.Regulate actuator voltage V by additional circuit, grating space is continuously changed within the specific limits, the adjustable grating operation wavelength changes in the 3-13 micrometer range, thereby makes tunable IR light filter output image-forming information.
The invention has the advantages that:
1, adopts accurate LIGA technology as fundamental technology of the present invention, compare, have work simplification, low cost, high efficiency distinguishing feature with the LIGA technology;
2, it is integrated with adjustable grating and driver that the present invention adopts typical three-dimensional fine process technology, is convenient to make low-light electro-mechanical system chip; Reduce the site error of each several part in the device, improve the reliability and the yield rate of device.Solve prior art and adopt separation member assembly production device, be unfavorable for batch making, can not be integrated with other device and circuit; Simultaneously also increase the site error that causes by technology, reduced the problem of device precision.
The present invention is along with the further investigation of device principle, technology and little integrated technology, it is not only used as miniature IR-cut filter, also can be used for electronic scales, pressure transducer, acceleration transducer, strain/temperature measuring device and the displacement transducer etc. of high-precision micro weight test with it as critical elements.With this device is that the microminiaturized instrument of main body manufacturing will be expected to be used for fields such as remote sensing, solar spectrum, heat radiation detection, space science, environmental science, optical fiber communication.
Description of drawings:
Fig. 1 is master's cut-away view of the present invention
Fig. 2 is the vertical view of Fig. 1
Embodiments of the invention are as shown in Figure 1: include substrate (1), grating stiff end (2), grating main body (3), grating sliding end (4), driver (5), driver lead-in wire (6), (7), actuator electrode (8), (9), coil (10), air-gap (11), iron core (12).
Substrate (1) adopts 3 o'clock (100) crystal orientation silicon chips, with the two-sided chemical polishing of substrate.Grating stiff end (2), grating main body (3), grating sliding end (4), iron core (12) adopt the permalloy material to make.Grating main body (3) adopts transmission grating.Driver (5) adopts micro electromagnetic actuator.Driver lead-in wire (6), (7) and actuator electrode (8), (9), coil (10) adopt copper product.Air-gap (11) is in substrate (1) back side photoetching and carries out wet etching with KOH solution.
Substrate cleaning step is:
1), with organism such as removal greasy dirt such as toluene, acetone, ethanol;
2), boil the removal metallic ion with chloroazotic acid;
3), use deionized water ultrasonic cleaning, absolute ethyl alcohol dehydration back oven dry;
The substrate two-sided about 1 micron silicon nitride dielectric layer of growth thickness respectively of PECVD method;
In the step 3: radio-frequency sputtering thickness is the silica membrane of 500 nanometers on the insulating silicon nitride laminar surface of substrate, adopt thin glue photoetching, wet etching in the microelectric technique, between grating sliding end (4) silicon nitride film, form the sacrifice layer of grating sliding end (4);
The electroforming negative electrode of the coiling of driver coil bottom, actuator electrode, outer lead is the metallic copper of thickness 700 nanometers;
At the driver coil bottom coiling on step 6 surface and actuator electrode, outer lead is to make of accurate Pulse Electric cast copper;
Coated photochromics is a polyimide on 8 steps;
Electroforming negative electrode at the surface sputtering of step 9 is a permalloy;
Adopt the electroforming permalloy as adjustable grating and iron-core coil on step 11 surface;
The also electroforming negative electrode of dry etching permalloy material removes photoresist on the surface of step 12;
At step 13 photomask surface, the photosensitive insulating material of dry etching is a polyimide;
Surface sputtering copper film in step 14 is made the electroforming negative electrode, and thick resist lithography and copper electroforming are as the coil middle level.
Form the coil upper strata in step 17 photomask surface, copper electroforming;
The substrate back photoetching also uses KOH solution to lose deeply as corrosive liquid, forms adjustable grating main body back side air-gap; Dry etching is removed the insulation course beyond the coil upper strata.
Claims (2)
1, miniature tunable infrared filter, comprise grating stiff end (2), grating main body (3), grating sliding end (4), it is characterized in that: the integrated preparation of upper surface at substrate (1) has grating stiff end (2), grating main body (3), grating sliding end (4), driver (5), driver lead-in wire (6), (7), actuator electrode (8), (9), coil (10), air-gap (11), iron core (12), the two ends of grating main body (3) are connected with an end of grating stiff end (2) and an end of grating sliding end (4) respectively, the other end of grating sliding end (4) partly inserts the openend of driver (5), substrate (1) as the supporter of adjustable grating and driver (5) be positioned at the two under, the upper surface of substrate (1) is fixedlyed connected with the lower surface of grating stiff end (2) and the lower surface of driver (5), preparation has air-gap (11) on substrate (1) body, grating main body (3) places the top of air-gap (11), driver lead-in wire (6) (7) and electrode (8) (9) are positioned at the upper surface of substrate (1), be connected for contact slidably between grating sliding end (4) and substrate (1), be noncontact between grating main body (3) and substrate (1), the coil (10) in the driver (5) is wound on iron core (12) on every side.
2, the preparation technology of miniature tunable infrared filter is characterized in that: processing step and order are as follows:
(1), with two-sided chemical polishing of substrate and cleaning;
(2), at the two-sided certain thickness insulation course of growing respectively of substrate;
(3), making on the surface of insulating layer of substrate, photoetching, corrosion form the sacrifice layer of grating sliding end;
(4), at the certain thickness electroforming negative electrode of the surface sputtering of step 3;
(5), carve the photoresist figure of the coiling of driver coil bottom and actuator electrode, outer lead with the ultraviolet photolithographic method on the surface of step 4;
(6), make driver coil bottom coiling and actuator electrode, outer lead on the surface of step 5 with electroforming;
(7), remove the photoresist on step 5 surface, and the copper film on dry etching surface;
(8), evenly apply one deck photosensitive insulating material, photoetching, developing stays driver coil bottom coiling surface portion, to guarantee and core insulation on the surface of step 7;
(9), at the surface sputtering adjustable grating of step 8 and the electroforming negative electrode of iron core;
(10), form adjustable grating and iron core rubber moulding on the surface of step 9 with thick resist lithography;
(11), make adjustable grating and iron-core coil on the surface of step 10;
(12), at the surface removal thick photoresist and the etching electroforming negative electrode of step 11;
(13), at the photomask surface of step 12, the etching photosensitive insulating material, in driver coil bottom coiling two ends perforate so that continued growth coil lead middle layer part;
(14), make the electroforming negative electrode, thick resist lithography is also made the coil middle level on the surface of step 13.
(15), step 14 is removed thick photoresist, removed the electroforming negative electrode again;
(16), at step 15 surface coating and photoetching insulation course as driver iron core and coil upper strata;
(17), form the coil upper strata in step 16 photomask surface, electroforming;
(18), in the substrate back photoetching and lose deeply, form adjustable grating main body back side air-gap;
(19), remove coil upper strata insulation course in addition;
(20), the silicon dioxide of corrosion grating sliding end bottom, discharge the grating sliding end, produce miniature tunable infrared filter.
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CNB011176369A CN1150409C (en) | 2001-04-30 | 2001-04-30 | Miniature tunable infrared filter and its preparing process |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102096133A (en) * | 2010-12-27 | 2011-06-15 | 北京航空航天大学 | Adjustable nano grating, nano grating accelerometer and processing method of adjustable nano grating or nano grating accelerometer |
CN108549125A (en) * | 2018-04-28 | 2018-09-18 | 西安柯莱特信息科技有限公司 | A kind of Multifunctional optical filter and its control method |
-
2001
- 2001-04-30 CN CNB011176369A patent/CN1150409C/en not_active Expired - Fee Related
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102096133A (en) * | 2010-12-27 | 2011-06-15 | 北京航空航天大学 | Adjustable nano grating, nano grating accelerometer and processing method of adjustable nano grating or nano grating accelerometer |
CN102096133B (en) * | 2010-12-27 | 2012-07-18 | 北京航空航天大学 | Adjustable nano grating, nano grating accelerometer and processing method of adjustable nano grating or nano grating accelerometer |
CN108549125A (en) * | 2018-04-28 | 2018-09-18 | 西安柯莱特信息科技有限公司 | A kind of Multifunctional optical filter and its control method |
CN108549125B (en) * | 2018-04-28 | 2021-08-06 | 湖北华鑫光电有限公司 | Multifunctional optical filter and control method thereof |
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CN1150409C (en) | 2004-05-19 |
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