CN203895459U - Image sensor module - Google Patents

Abstract

An image sensor module comprises a PCB substrate, a metal layer, image sensing chips, signal processing chips and welding projections. Holes passing through the PCB substrate are arranged in the PCB substrate. The mental layer is located on the front side of the PCB substrate. The image sensing chips are installed inversedly above the front side of the PCB substrate, and each image sensing chip comprises image induction zones and bonding pads around the image induction zones. The image induction zones are located above the holes. The bonding pads are electrically connected with the metal layer. The signal processing chips installed inversedly above the PCB substrate are electrically connected with the metal layer. The welding projections are located on the surface of the metal layer. The packaging performance of the image sensor module is improved.

Description

A kind of image sensor module

Technical field

The utility model relates to semiconductor packaging, particularly a kind of image sensor module.

Background technology

Image sensor dice is a kind of chip that can experience extraneous light and convert thereof into the signal of telecommunication.After image sensor dice completes, then by image sensor dice is carried out to a series of packaging technologies, thereby form packaged image sensor, for the various electronic equipments such as digital camera, Digital Video etc.

Traditional image sensor package method normally adopts Bonding (Wire Bonding) to encapsulate, but along with the develop rapidly of integrated circuit, longer lead-in wire makes product size cannot reach desirable requirement, therefore, wafer-level packaging (WLP:Wafer Level Package) replaces wire bond package gradually becomes a kind of comparatively conventional method for packing.Wafer level packaging has the following advantages: can process whole wafer, packaging efficiency is high simultaneously; Before cutting, carry out the test of full wafer wafer, reduced the test process in encapsulation, reduce testing cost; That packaged chip has is light, little, end, thin advantage.

In prior art, image sensor chip is dimerous by image sensing cell (CIS) and signal processing unit (DSP), wherein, image sensing cell is for receiving optical signals, and signal processing unit is for being converted into the signal of telecommunication by light signal.

But in prior art, form image sensing cell and signal processing unit on chip piece time, the image sensor module performance of chip design difficulty and formation has much room for improvement.

Utility model content

The problem that the utility model solves is to provide a kind of image sensor module, improves the encapsulation performance of image sensor module.

For addressing the above problem, the utility model provides a kind of image sensor module, comprising: PCB substrate, has the hole that runs through described PCB substrate in described PCB substrate; Be positioned at the metal level of described PCB substrate surface; The image sensor chip of upside-down mounting above PCB substrate, described image sensor chip has video sensing district and the pad around described video sensing district, and wherein, described video sensing district is positioned at hole top, described pad and metal level electrical connection; The signal processing chip of upside-down mounting above PCB substrate, described signal processing chip is electrically connected with metal level; Be positioned at the solder-bump of described layer on surface of metal.

Optionally, also comprise: be positioned at the lens assembly of PCB substrate back, described lens assembly comprises filter, microscope base and eyeglass, wherein, described eyeglass is connected with described PCB substrate back by microscope base.

Optionally, described filter is positioned at PCB substrate back or card is assigned on microscope base.

Optionally, also comprise: support portion, interfixes eyeglass and microscope base by described support portion.

Optionally, described support portion lateral wall has external screw thread, and described microscope base madial wall has internal thread, and described support portion and described microscope base are screwed togather and interfixed by screw thread.

Optionally, the size of described hole is more than or equal to the size in video sensing district.

Optionally, also comprise: the first metal coupling, described the first metal coupling, between pad and metal level, is electrically connected described pad and metal level by described the first metal coupling.

Optionally, also comprise: the second metal coupling, is electrically connected described signal processing chip and metal level by described the second metal coupling.

Optionally, described the second metal coupling contacts with signal processing chip and metal level.

Optionally, be formed with circuit and distribute in described PCB substrate, described circuit distribution is electrically connected with metal level and the second metal coupling.

Optionally, also comprise: the plastic packaging layer that is covered in layer on surface of metal, image sensor chip surface and signal processing chip surface; Be positioned at the through hole of plastic packaging layer, described via bottoms exposes layer on surface of metal, and described solder-bump is filled full described through hole, and described solder-bump top is higher than plastic packaging layer surface.

Optionally, described solder-bump top to the distance on plastic packaging layer surface is 20 μ m to 100 μ m.

Optionally, described plastic packaging layer is covered in metal level sidewall surfaces.

Optionally, also comprise: be covered in the some glue-line of image sensor chip sidewall surfaces and the first metal coupling sidewall surfaces, and solder-bump top is higher than image sensor chip surface.

Optionally, also comprise: the passive component that is positioned at described PCB substrate surface.

Compared with prior art, the technical solution of the utility model has the following advantages:

The image sensor modular structure superior performance that the utility model provides, comprises that surface has the PCB substrate of metal level; The image sensor chip of upside-down mounting above PCB substrate, the video sensing district of image sensor chip is positioned at hole top, and pad is electrically connected with metal level; The signal processing chip of upside-down mounting above PCB substrate, and signal processing chip is electrically connected with metal level; Be positioned at the solder-bump of layer on surface of metal.In encapsulating structure of the present utility model, image sensor chip and signal processing chip point are arranged, and avoid considering arranging and interconnection problems of image sensor chip and signal processing chip is set in same chip, have reduced design difficulty; And the other side arranges and the impact of area is little owing to being subject between image sensor chip and signal processing chip, therefore image sensor chip and signal processing chip all can obtain best performance, have improved the encapsulation performance of image sensor module.

Meanwhile, because image sensor chip and signal processing chip are not arranged on same chip, prior art relatively, the area of the image sensor chip of the utility model embodiment is less, and therefore, the design cost of image sensor chip reduces; And, because dividing, image sensor chip and signal processing chip be arranged, and image sensor chip and signal processing chip can combination in any, make image sensor module have higher flexibility.

Further, described image sensor module also comprises: the lens assembly that is positioned at PCB substrate back, described lens assembly comprises filter, microscope base and eyeglass, wherein, described eyeglass is connected with described PCB substrate back by microscope base, the close filter that described eyeglass can be very, and because filter is positioned at the back side of PCB substrate, therefore the close PCB substrate back that described eyeglass can be very, the thinner thickness of the image sensor module that therefore the utility model provides.

Further, plastic packaging layer is covered in metal level sidewall surfaces, prevents that metal level sidewall is exposed in external environment, prevents metal level and unnecessary being electrically connected of extraneous generation, prevent the problem that metal level is corroded simultaneously, improve the reliability of image sensor module.

Brief description of the drawings

Fig. 1 to Figure 14 is the structural representation of the utility model one embodiment image sensor module packaging process;

Figure 15 to Figure 20 is the structural representation of another embodiment image sensor module packaging process of the utility model.

Embodiment

From background technology, existingly comprise that the chip package difficulty of image sensing cell and signal processing unit is large, and the image sensor module performance forming has much room for improvement.

Find after deliberation, in prior art, conventionally image sensing cell and signal processing unit are encapsulated on same chip.On image sensor chip, form signal processing chip, consider between the two to arrange and interconnect be a technology that difficulty is higher, this will cause the increase of packaging technology difficulty; Meanwhile, the cost of image sensor chip is high, after signal processing chip is arranged on image sensor chip, in order to consider the interconnection between signal processing chip, will certainly increase the area of image sensor chip, causes packaging technology cost greatly to increase; And, due to signal processing chip and image sensor chip are encapsulated on same chip, in order to consider arranging and interconnecting between the two, signal processing chip and image sensor chip are restricted mutually, signal processing chip and image sensor chip are difficult to the performance that reaches best, therefore cause the encapsulation performance of image sensor module poor.

The above analysis is known, if image sensing cell and signal processing unit are peeled away, form two independent chips (image sensor chip and signal processing chip), and then by two independent chip packages in same encapsulating structure, so can solve the problem that packaging technology difficulty is large and encapsulation performance is poor, image sensor chip and signal processing chip can combination in any, and the flexibility of image sensor module also can improve a lot.

For this reason, the utility model provides a kind of image sensor module, comprising: PCB substrate, has the hole that runs through described PCB substrate in described PCB substrate; Be positioned at the metal level of described PCB substrate surface; The image sensor chip of upside-down mounting above PCB substrate, described image sensor chip has video sensing district and the pad around described video sensing district, and wherein, described video sensing district is positioned at hole top, described pad and metal level electrical connection; The signal processing chip of upside-down mounting above PCB substrate, described signal processing chip is electrically connected with metal level; Be positioned at the solder-bump of described layer on surface of metal.The utility model, by dividing be arranged image sensor chip and signal processing chip, makes image sensor chip and signal processing chip all have best performance, thereby improves the encapsulation performance of the image sensor module forming.

For above-mentioned purpose of the present utility model, feature and advantage can more be become apparent, below in conjunction with accompanying drawing, specific embodiment of the utility model is described in detail.

Fig. 1 to Figure 13 is the structural representation of the utility model one embodiment encapsulation process.

Please refer to Fig. 1, the first wafer to be wrapped 100 is provided, described the first wafer to be wrapped 100 have first surface with relative with described first surface second, the first surface of described the first wafer to be wrapped 100 is formed with some video sensings district 101 and comprises the some chip area 110 of matrix arrangement and the first Cutting Road regions 120 between chip area 110 of being around pad 102, the first wafers to be wrapped 100 in described video sensing district 101.

In this enforcement, described the first wafer to be wrapped 100 is image sensing wafer (CIS wafer), described chip area 110 is used to form image sensor chip, follow-uply along the first Cutting Road region 120, the first wafer to be wrapped 100 is cut and forms several discrete crystal grain, each crystal grain is corresponding forms an image sensor chip.

Described chip area 110 is also formed with the metal interconnect structure (not shown) that video sensing district 101 and pad 102 are electrically connected, in described video sensing district 101, be formed with image sensor unit and the associated circuit being connected with image sensor unit, video sensing district 101 receives and converts to electrical signal by extraneous light, and by described electrical signal by the metal level of metal interconnect structure and pad 102 and follow-up formation, send external circuit to.

For the ease of wiring, video sensing district 101 is positioned at the centre position in one single chip region 110, pad 102 is positioned at the marginal position of chip area 110, and described pad 102 is positioned at four sides in video sensing district 101, rectangular distribution, each side is formed with several pads 102 (quantity of pad 102 depends on the type of chip), follow-up pad 102 is connected with metal level, by metal level, image sensor chip is connected with external circuit.

In the present embodiment, the pad 102 of different chip areas 110 is independent setting; In other embodiments, in adjacent chip area, can form the pad being connected, the pad forming is crossed over the first Cutting Road region.It should be noted that, in other embodiments, the position in pad and video sensing district can be adjusted flexibly according to the requirement of actual process.

Please continue to refer to Fig. 1, form the first metal coupling 103 on described pad 102 surfaces.

Described the first metal coupling 103 is for being electrically connected the metal level of pad 102 and follow-up formation.

Being shaped as of described the first metal coupling 103 is square or spherical.The present embodiment does exemplary illustrated so that being shaped as of described the first metal coupling 103 is square as example, and the formation technique of described the first metal coupling 103 is screen printing technique.As an embodiment, adopt screen printing technique to form described the first metal coupling 103.

The material of described the first metal coupling 103 is gold, tin or ashbury metal, and described ashbury metal can be tin silver, tin lead, SAC, tin silver zinc, tin zinc, tin bismuth indium, tin indium, Sillim, tin copper, tin zinc indium or tin silver antimony etc.

In other embodiments, being shaped as when spherical of the first metal coupling, the formation technique of described the first metal coupling is: plant ball technique or screen printing and reflux technique.

It should be noted that, in the present embodiment, before being carried out to reduction processing, the first wafer to be wrapped 100 second faces form described the first metal coupling 103, because thicker first wafer to be wrapped 100 that makes of thickness of the first wafer to be wrapped 100 has extraordinary mechanical strength, thereby avoid the technical process that forms the first metal coupling 103 to cause the first wafer to be wrapped 100 to occur the problem of breaking; And, before attenuate the first wafer to be wrapped 100, form the first metal coupling 103, the encapsulation procedure that the first wafer to be wrapped 100 after attenuate is experienced tails off, therefore, can further reduce the thickness that rear the first wafer to be wrapped 100 of follow-up attenuate the first wafer to be wrapped 100 has, make the thickness of image sensor module of follow-up formation thinner, be more conducive to meet semiconductor miniaturization, microminiaturized development trend.

In another embodiment of the utility model, also can carry out, after reduction processing, forming the first metal coupling in bond pad surface to first wafer to be wrapped the second face.In other embodiments, can also, after follow-up formation metal level, form the first metal coupling at layer on surface of metal.

Please refer to Fig. 2, the second face of described the first wafer to be wrapped 100 (please refer to Fig. 1) is carried out to reduction processing; Cut described the first wafer to be wrapped 100 along described the first Cutting Road region 120 (please refer to Fig. 1), form several image sensor chips 130.

Concrete, the back side of grinding described the first wafer to be wrapped 100, until the thickness of the first wafer to be wrapped 100 is to predetermined thickness, described grinding can be mechanical lapping or cmp.

The follow-up technique that can not carry out to the first wafer to be wrapped 100 (i.e. the image sensor chip 130 of any single) etching formation through hole in the present embodiment, the follow-up manufacturing process that image sensor chip 130 is carried out itself is less, therefore, image sensor chip 130 does not need to have very high mechanical strength, after attenuate the first wafer to be wrapped 100, image sensor chip 130 can have less predetermined thickness, makes the thickness of image sensor module of follow-up formation thin as much as possible.

Described cutting technique is laser cutting or slicer cutting.Because laser cutting parameter has less kerf width, therefore, in the present embodiment, adopt laser cutting parameter to cut described the first wafer to be wrapped 100, form some single image sensing chips 130.

In the first wafer to be wrapped 100, there is the image sensor chip 130 that some matrixes are arranged, in these image sensor chips 130, may there is the poor image sensor chip of some yields 130, the performance of the poor image sensor chip 130 of described yield does not reach design requirement, if the image sensor chip 130 poor to these yields encapsulates, the image sensor module forming is also difficult to drop in practical application, therefore, the image sensor chip 130 poor to yield encapsulates the waste that both can cause packaging cost, also can cause packaging efficiency low.

And in the present embodiment, form after some single image sensing chips 130 at cutting the first wafer to be wrapped 100, selecting the image sensor chip 130 that yield meets technological standards carries out follow-up packaging technology, avoids the waste of packaging cost and improves packaging efficiency.

Please refer to Fig. 3, several signal processing chip 140 is provided, form the second metal coupling 150 on described signal processing chip 140 surfaces.

Described signal processing chip 140 is for the treatment of the signal of telecommunication receiving, described the second metal coupling 150 is electrically connected with the circuit in signal processing chip 140, and the quantity of described the second metal coupling 150 is corresponding with quantity and the position of the pin in signal processing chip 140 with position.

As an embodiment, the formation step of described signal processing chip 140 comprises: the second wafer to be wrapped is provided; Form the second metal coupling 150 on described the second wafer to be wrapped surface; Described the second wafer to be wrapped is carried out to reduction processing; Cut described the second wafer to be wrapped and form several signal processing chips 140.

Being shaped as of described the second metal coupling 150 is square or spherical, and the material of stating the second metal coupling 150 is gold, tin or ashbury metal.The present embodiment does exemplary illustrated so that being shaped as of described the second metal coupling 150 is spherical as example.

The formation method of described the second metal coupling 150 can, with reference to the formation method of the first metal coupling 130, not repeat them here.In other embodiments, also can form the second metal coupling on subsequent metal layer surface.

Please refer to Fig. 4, PCB substrate 104 is provided, described PCB substrate 104 has front and the back side with described vis-a-vis, described PCB substrate 104 has some functional areas 112 and the second Cutting Road region 113 between adjacent functional district 112, has the hole 107 that runs through described PCB substrate 104 in the PCB substrate 104 of same functional areas 112.

Follow-up above 112 fronts, PCB substrate 104 functional areas upside-down mounting image sensor chip 130 and signal processing chip 140 are set, and, image sensor chip 130 and signal processing chip 140 are electrically connected; And last in packaging technology, cuts PCB substrate 104 along the second Cutting Road region 113, to form single encapsulating structure; 112 back sides, described PCB substrate 104 functional areas are for follow-up formation lens assembly.

The area in the area of described functional areas 112 and the second Cutting Road region 113 can be set according to actual package process requirements.

Described PCB substrate 104 is for image sensor chip 130 and signal processing chip 140 provide a supporting role, follow-up after PCB substrate 104 forming metal layer on surfaces, by metal level, image sensor chip 130 and signal processing chip 140 is electrically connected.

Cheap due to PCB substrate 104, can reduce packaging cost greatly; And, it is very large that the area of PCB substrate 104 can do, therefore follow-up can be above PCB substrate 104 image sensor chip 130 of upside-down mounting a greater number, carry out after a series of packaging technology, can form more image sensor module, effectively raise packaging efficiency; Meanwhile, due to particularity and the existing PCB processing procedure of the material of PCB substrate 104, make the technical process of follow-up formation plastic packaging layer can adopt plastic packaging (molding) technique in PCB processing procedure to carry out, can further reduce packaging cost.

The position of described hole 107 corresponding to 130 upside-down mountings of successive image sensing chip after the position in video sensing district 101.The object that forms described hole 107 is: after follow-up formation image sensor module, extraneous light is transmitted to video sensing district 101 by described hole 107, and video sensing district 101 accepts light and is converted into electrical signal.

In the present embodiment, in order to make video sensing district 101 farthest accept extraneous light, the size of hole 107 is more than or equal to the size in video sensing district 101.The horizontal plane section shape of described hole 107 is square, circular or other shapes, and the present embodiment does exemplary illustrated as square as example taking the horizontal plane section shape of described hole 107.

Adopt punching press or bore process to form described hole 107.

Please continue to refer to Fig. 4, at described PCB substrate 104 functional areas 112 forming metal layer on surfaces 108, there is opening 109 at the metal level 108 on 112 surfaces, same functional areas.

In the present embodiment, owing to having hole 107 in PCB substrate 104, described opening 109 is positioned at the top of hole 107, and in order to simplify processing step, to reduce technology difficulty, the shape of described opening 109 is identical with hole 107 shapes, and the width of described opening 109 is identical with the width of hole 107.

In the present embodiment, the metal level 108 on 112 surfaces, adjacent functional district is connected, be that metal level 108 is except being positioned at 112 surfaces, PCB substrate 104 functional areas, described metal level 108 is also covered in 113 surfaces, the second Cutting Road region, forms the metal level 108 that is covered in PCB substrate 104 surfaces with hole 107; Because the second Cutting Road region 113 is finally can being cut and holding of packaging technology, cut the opening of metal level 108 in described leap the second Cutting Road region 113, therefore can not affect the performance of single encapsulating structure.

The material of described metal level 108 is Cu, Al, W, Sn, Au or Sn-Au alloy.Because described PCB substrate 104 has special performance, therefore, can adopt conventional PCB processing procedure to form described metal level 108, for example, adopt sputtering technology or depositing operation to form described metal level 108.

In described metal level 108, there are some openings 109, follow-up after pad 102 is connected with metal level 108 video sensing district 101 be positioned at above opening 109.In the present embodiment, the width of described opening 109 is more than or equal to the width in video sensing district 101, so that the extraneous light of reception of video sensing district 101 energy maximum magnitudes.

In the utility model embodiment, 112 surfaces, the same functional areas of PCB substrate 104 form some discrete metal levels 108, and the quantity of discrete metal level 108 is corresponding with quantity and the position of the pad 102 that position has with single image sensor chip 130, for example, video sensing district 101 4 sides of image sensor chip 130 are all formed with pad 102, four sides of opening 109 are all formed with metal level 108, and the quantity of the discrete metal level 108 of opening 109 each side is identical with the quantity of the pad 102 of the corresponding side in video sensing district 101, and each discrete metal level 108 correspondence is connected with a pad 102, in other embodiment of the utility model, relative both sides, video sensing district are formed with pad, and the both sides that opening is relative are formed with metal level, and the quantity of the discrete metal level of each side of opening is identical with the quantity of the pad of the corresponding side in video sensing district.

In the present embodiment, it is very large that PCB substrate 104 areas can do, make PCB substrate 104 there are more functional areas 112, image sensor module of the corresponding follow-up formation in each functional areas 112, therefore, on the basis of a PCB substrate 104, follow-uply within an encapsulation cycle can form a large amount of image sensor modules, packaging efficiency is improved.

Please refer to continuation Fig. 4, form adhesive tape layer 106 at PCB substrate 104 back sides, adhesive tape layer 106 seals described hole 107 one end.

Described adhesive tape layer 106, for cap holes 107 one end, can prevent that in follow-up potting process video sensing district 101 is exposed in external environment condition, prevents that video sensing district 101 is contaminated or damages.

In the present embodiment; the material of described adhesive tape layer 106 is UV (Ultraviolet Rays; ultraviolet ray) dispergation rubber belt material or pyrolysis glue rubber belt material or other suitable rubber belt materials; described adhesive tape layer 106 is directly pasted the back side that is formed on PCB substrate 104; formation technique is simple, and in encapsulation process, adhesive tape layer 106 can well protect the video sensing district 101 can be contaminated or damage.After encapsulating structure forms, can very easily adhesive tape layer 106 be removed by the mode of UV irradiation or heating follow-up, while removing, Ye Buhuidui video sensing district 101 produces damage or pollutes.

As an embodiment, described adhesive tape layer 106 is covered in the whole back side of PCB substrate; As other embodiment, described adhesive tape layer 106 cap holes 107 one end.

Please refer to Fig. 5, described image sensor chip 130 upside-down mountings are placed in to positive top, PCB substrate 104 functional areas 112, and described pad 102 and metal level 108 are electrically connected.

In the present embodiment, select image sensor chip 130 upside-down mountings that yield meets standard and be placed in the top of PCB substrate 114.

Concrete, described pad 102 is connected by the first metal coupling 103 with metal level 108, and each pad 102 is corresponding to a discrete metal level 108.Adopt solder bonds technique that pad 102 is connected with metal level 108, described pad 102 and metal level 108 weld together by the material in the first metal coupling 103.

Described solder bonds technique is eutectic bonding, ultrasonic thermocompression, thermal compression welding, ultrasonic wire bonding etc.For example, in the time that the material of described metal level 108 is Al, the material of described the first metal coupling 103 is Au, and solder bonds technique is ultrasonic thermocompression mode; In the time that the material of described metal level 108 is Au, the material of described the first metal coupling 103 is Sn, and solder bonds technique is eutectic bonding mode.

After pad 102 is connected with metal level 108, video sensing district 101 is positioned at opening 109 and hole 107 tops, extraneous light, is beneficial to video sensing district 101 and receives extraneous light through the video sensing district 101 that is transmitted to opening 109 tops after PCB substrate 104 by hole 107; And in the present embodiment, the size of opening 109 and hole 107 is greater than the size in video sensing district 101, can make video sensing district 101 receive to greatest extent extraneous light, improve the light utilization in video sensing district 101.

Please continue to refer to Fig. 5, described signal processing chip 140 upside-down mountings are placed in to PCB substrate 104 positive tops, functional areas 112, and described signal processing chip 140 is electrically connected with metal level 108.

In the present embodiment, owing to being formed with the second metal coupling 150 on signal processing chip 140 surfaces, therefore, described the second metal coupling 150 directly contacts with metal level 108 with signal processing chip 140, is electrically connected signal processing chip 140 and metal level 108 by described the second metal coupling 150; And because metal level 108 is electrically connected with image sensor chip 130, therefore, in the present embodiment, realize being electrically connected between signal processing chip 140 and image sensor chip 130 by metal level 108.The benefit arranging is like this:

First, avoid image sensor chip 130 and signal processing chip 140 to be arranged on same chip, reduced the design difficulty of packaging technology; Secondly, the present embodiment signal processing chip 140 is not arranged in image sensor chip 130, therefore little many of the area of image sensor chip 130 compared with prior art, thus reduce packaging cost; Again, by changing position and the quantity of metal level 108, can arbitrarily image sensor chip 130 and signal processing chip 140 be combined, make packaging technology there is higher flexibility; Finally, by image sensor chip 130 and signal processing chip 140 are separately arranged on PCB substrate, image sensor chip 130 can not be subject to the restriction of signal processing chip 140, therefore image sensor chip 130 has optimum performance, synchronous signal process chip 140 is not subject to the restriction of image sensor chip 130 yet, signal processing chip 140 also has optimum performance, therefore can make the encapsulation performance of the final image sensor module forming better.

And in prior art, image sensor chip and signal processing chip design on same chip, in order to consider arranging and interconnection problems between image sensor chip and signal processing chip, conventionally image sensor chip is difficult to the performance that reaches best, makes the encapsulation performance of the image sensor module forming poor.

In the present embodiment, can also comprise step: provide passive component, passive component upside-down mounting is placed in to 112 fronts, PCB substrate 104 functional areas, connects described passive component, image sensor chip 130 and signal processing chip 140 by metal level 108, described passive component is resistance or electric capacity.

It should be noted that, in the present embodiment, after signal processing chip 140 upside-down mountings are placed on PCB substrate 104, the second metal coupling 150 directly contacts with metal level 108, directly be electrically connected described signal processing chip 140 and metal level 108 by the second metal coupling 150,, directly realize the electrical connection between signal processing chip 140 and image sensor chip 130 by the second metal coupling 150 and metal level 108.In other embodiment of the utility model, as shown in Figure 6, after signal processing chip 140 upside-down mountings are placed on PCB substrate, if while not being formed with metal level 108 in the position of corresponding upside-down mounting signal processing chip 140, distribute 105 at the PCB substrate 104 interior formation circuits in functional areas 112, described circuit distribution 105 is electrically connected with metal level 108, and described circuit distribution 105 is also electrically connected with the second metal coupling 150, by described circuit distribution 105 electrical connection the second metal coupling 150 and metal levels 108, that is to say, distribute 105 by circuit, metal level 108 and the second metal coupling 150 are electrically connected image sensor chip 130 and signal processing chip 140.

Please refer to Fig. 7, form the plastic packaging layer 111 that is covered in described metal level 108 surfaces, image sensor chip 130 surfaces and signal processing chip 140 surfaces.

Described plastic packaging layer 111 plays the effect of protection image sensor chip 130 and signal processing chip 140, prevent the image sensor chip 130 and signal processing chip 140 performance failures that under the impact of external environment, cause, prevent that moisture from being invaded, being insulated with external electrical by outside; Described plastic packaging layer 111 is also played a supporting role, and after encapsulation completes, makes image sensor module not fragile; In addition, described plastic packaging layer 111 also plays the effect of the solder-bump of fixing follow-up formation, for solder-bump provides protection.

Adopt plastic package process (molding) to form described plastic packaging layer 111, described plastic package process adopts branch mode or pressing mode, and the top surface of described plastic packaging layer 111 flushes with image sensor chip 130 second faces or higher than 130 second of image sensor chips.

Owing to providing PCB substrate 104 to support image sensor chip 130 in the present embodiment, according to the particularity of PCB substrate 104, and image sensor chip 130 quantity of PCB substrate 104 tops more (area of PCB substrate 104 is larger), described plastic package process can adopt the plastic package process in PCB processing procedure to carry out, compared with the plastic package process adopting in wafer level packaging processing procedure, the cost of the plastic package process in PCB processing procedure is lower.The present embodiment adopts the plastic package process in PCB processing procedure to form described plastic packaging layer 111, has obviously reduced the difficulty of plastic package process, and has reduced packaging cost.Adopt the mode of whole module or some separate modules to form described plastic packaging layer 111.

In the present embodiment, adopt the mode of whole module to form described plastic packaging layer 111,, metal level 108, image sensor chip 130 and the signal processing chip 140 of PCB substrate 104 tops to monoblock carry out plastic package process, the plastic packaging layer 111 forming, except being covered in metal level 108, image sensor chip 130 and the signal processing chip 140 of functional areas 140, is also covered in metal level 108 surfaces in the second Cutting Road region 113.While adopting the mode of whole module to form plastic packaging layer 111, can avoid alignment issues, thereby reduce the difficulty of plastic package process.

In other embodiments; while adopting the mode of some separate modules to form described plastic packaging layer 111; the plastic packaging layer 111 of a module is at least covered in 130 second of a metal level on functional areas 112 108 surfaces and image sensor chips; described plastic packaging layer 111 can cover the metal level 108 of whole functional areas 112; also the metal level 108 of covering function district 112 part areas only; but ensure that plastic packaging layer 111 is covered in image sensor chip 130 sidewall surfaces and top surface completely, so that plastic packaging layer 111 plays the effect of protection image sensor chip 130.

The material of described plastic packaging layer 111 is resin or anti-solder ink material, for example, and epoxy resin or acrylic resin.

Please refer to Fig. 8, at the interior formation through hole of described plastic packaging layer 111, described via bottoms exposes metal level 108 surfaces; Form the solder-bump 115 of filling full described through hole, and described solder-bump 115 tops are higher than plastic packaging layer 111 surface.

Adopt laser drilling technique or etching technics to form described through hole.The quantity of the through hole forming is identical with the quantity of pad 102, in other words, the quantity of described through hole is identical with the quantity of discrete metal level 108, each discrete metal level 108 top is all formed with a through hole, and each pad 102 of image sensor chip 130 all can be electrically connected with external circuit.

In the present embodiment, by the mode at the interior formation through hole of plastic packaging layer 111, realize the object that pad 102 is electrically connected with external circuit, avoided the harmful effect that brings at the interior formation through hole of image sensor chip 130, improved the performance of the image sensor module of follow-up formation.

Forming in the technical process of through hole, due to the existence of adhesive tape layer 106, video sensing district 101, in an annular seal space, prevents that the technique that forms through hole from causing damage or impurity to enter in video sensing district 101 to video sensing district 101.

By described solder-bump 115, pad 102, the second metal coupling 150 are electrically connected with external circuit, thereby image sensor chip 130 and signal processing chip 140 are normally worked.

Described solder-bump 115 top surfaces are shaped as arc, the material of solder-bump 115 is gold, tin or ashbury metal, and described ashbury metal can be tin silver, tin lead, SAC, tin silver zinc, tin zinc, tin bismuth indium, tin indium, Sillim, tin copper, tin zinc indium or tin silver antimony etc.

As an embodiment, the material of solder-bump 115 is tin, and the step that forms described solder-bump 115 comprises: form the metal material of filling full described through hole, adopt reflux technique, form described solder-bump 115.

As a specific embodiment, the distance between described solder-bump 115 tops to plastic packaging layer 111 top is 20 μ m to 100 μ m.

Most solder-bump 115 surfaces are coated by plastic packaging layer 111, only retain few solder-bump 115 surfaces in external environment, effectively prevent that solder-bump 115 is oxidized by external environment, improve the reliability and stability of the image sensor module of follow-up formation.And, in the interior formation solder-bump 115 of plastic packaging layer 111, the top of described solder-bump 115 is a little more than plastic packaging layer 111 surface, can make image sensor chip 130 be electrically connected with external circuit, and solder-bump 115 tops a little more than plastic packaging layer 211 surface (solder-bump 115 tops to the distance on plastic packaging layer 111 surface be 20 μ m to 100 μ m), the integral thickness that can further reduce the image sensor module of follow-up formation, is conducive to improve encapsulation and integration degree.

In the present embodiment, described through hole is looped around the surrounding of image sensor chip 130 and signal processing chip 140, and the solder-bump 115 of formation is looped around the surrounding of image sensor chip 130 and signal processing chip 140.In other embodiments, can be according to the position that need to determine through hole of actual package technique.

Please refer to Fig. 9, cut described PCB substrate 104 along the second Cutting Road region 113 (please refer to Fig. 8); Remove described adhesive tape layer 106 (please refer to Fig. 8).

In the present embodiment, adopt slicer cutting or laser cutting parameter to cut described plastic packaging layer 111, metal level 108 and PCB substrate 104, form some single image sensor modules.

Due to aforementioned, the first wafer to be wrapped is being carried out after reduction processing, forming and had compared with the image sensor chip of minimal thickness 130, therefore, the thinner thickness of the image sensor module that the present embodiment forms; Simultaneously, the packaging technology that the present embodiment forms image sensor module is simple, and the encapsulation procedure that image sensor chip 130 is carried out few (encapsulation procedure that image sensor chip 130 itself has only experienced attenuate, formed the first metal coupling 103 and once cut), avoid the cutting process own to image sensor chip 130, make image sensor module have extraordinary encapsulation performance, encapsulation yield gets a promotion; Finally, the present embodiment can be selected the good image sensor chip 130 of yield and encapsulate, thereby has further improved encapsulation yield, effectively reduces packaging cost.

In the time that the material of described adhesive tape layer 106 is UV dispergation adhesive tape, adopt adhesive tape layer 106 described in UV irradiation, then remove described adhesive tape layer 106, expose the video sensing district 101 of hole 107 tops.

In the time that the material of described adhesive tape layer 106 is pyrolysis glue adhesive tape, described adhesive tape layer 106 is heated, then remove described adhesive tape layer 106.

In another embodiment of the utility model, please refer to Figure 10, before forming solder-bump 115, comprise step: form some glue-line 114 at image sensor chip 130 sidewalls and signal processing chip 140 sidewalls, and described some glue-line 114 is also covered in the first metal coupling 103 sidewall surfaces and the second metal coupling 150 sidewall surfaces.

Described some glue-line 114 plays the effect of protection image sensor chip 130 and signal processing chip 140, makes video sensing district 201 in sealing state; Form solder-bump 115 on metal level 108 surfaces, and described solder-bump 115 tops are higher than image sensor chip 130 surfaces.

Concrete, employing is planted ball technique and is formed described solder-bump 115, and solder-bump 115 tops to the distance on crystal grain 230 surfaces is 20 μ m to 100 μ m.

When image sensor chip 130 sidewall surfaces and signal processing chip 140 sidewall surfaces form while having a some glue-line 114, cut after described PCB substrate 104, the encapsulating structure of formation is as shown in figure 11.

Please refer to Figure 12, form lens assembly at described PCB substrate 104 back sides, described lens assembly comprises filter 180, microscope base 191 and eyeglass 190, and wherein, described eyeglass 190 is connected with described PCB substrate 104 by microscope base 191.

Concrete, in the present embodiment, form filter 180, described filter 180 cap holes 107 one end at PCB substrate 104 back sides.

Because any object more than absolute zero (237 DEG C) is all externally launched infrared ray (infrared light), that is to say, video sensing district 201 can sense visible ray and infrared light simultaneously, can draw: wavelength is longer, and refractive index is less according to the refraction of light dispersion law far away; Wavelength is shorter, and refractive index is larger.Therefore, when visible ray and infrared light enter behind video sensing district 101 simultaneously, visible ray and infrared light can be in different target surface imagings, visible ray be imaged as color graphics, infrared light be imaged as black and white imaging, after image that visible ray becomes is debugged, infrared light can form the virtual image at target surface, thereby affects the shade and quality of image, therefore, need to above video sensing district 101, form filter 180, by the infrared light elimination in light, solve the problem of image color distortion.

In order to increase light transmittance, improve the utilance of video sensing district 101 to light, described filter 180, except comprising the rete of filtering infrared light, also comprises antireflection rete (AR Coating).

The size of described filter 180 is more than or equal to the size of described video sensing district 101 and hole 107, and described filter 180 be at least covered in video sensing district 101 directly over, the infrared light that makes to arrive in the light in video sensing district 101 is cut.

In the present embodiment, form after image sensor module, filter 180 is arranged on to the back side of PCB substrate 104, therefore filter 180 does not experience the potting process that forms image sensor module, make the best performance of the optical filtering of filter 180, thereby ensure that the image sensor module forming has higher yield.

Described microscope base 191 is hollow structure, between microscope base 191 and PCB substrate 104, form groove, eyeglass 190 is positioned at described groove or groove top, the position of described eyeglass 190 is corresponding to the position of opening 109 and hole 107, be that the position of described eyeglass 190 is corresponding to the position in described video sensing district 101, and the size of eyeglass 190 is more than or equal to the size of hole 107, makes extraneous light can see through described eyeglass 190 and be irradiated to 101 surfaces, video sensing district.

In the present embodiment, in PCB substrate 104 formation support portions, the back side 192, eyeglass 190 is connected with microscope base 191 by support portion 192, and, lateral wall in described support portion 192 forms external screw thread, accordingly, form corresponding internal thread at the madial wall of described microscope base 191, by mutually screwing togather between described external screw thread and internal thread, eyeglass 190 and microscope base 191 are interfixed, and, can regulate the position of eyeglass 190 by rotating described support portion 192, make eyeglass 190 close filter 180 very.Because filter in the present embodiment 180 is positioned at the back side of PCB substrate 104, therefore the close PCB substrate 104 that eyeglass 190 described in the present embodiment can be very, can effectively reduce the thickness of the image sensor module of formation, be conducive to the development trend of the miniaturization that meets product.Meanwhile, because filter 180 has only experienced the packaging technology that forms microscope base 191 and eyeglass 190, therefore filter 180 has kept higher yield, thereby makes the higher yield of having of the image sensor module that forms.

In the present embodiment, after cutting PCB substrate 104, form the lens assemblies such as filter 108, eyeglass 190 and microscope base 191.In other embodiments, can also, before cutting PCB substrate 104, remove adhesive tape layer 106, then form the lens assemblies such as filter 180, eyeglass 190 and microscope base 191, described filter 180 cap holes 107 one end at PCB substrate 104 back sides; After filter 180 and lens assembly form, cutting PCB substrate 104 forms several image sensor modules, and described image sensor module has filter 180, eyeglass 190 and microscope base 191 lens assemblies.

In the present embodiment, form filter 180 at PCB substrate 104 back sides, in other embodiment of the utility model, as shown in figure 13, form filter 180 on microscope base 191, described filter 180 cards are assigned on microscope base 191.

In other embodiment of the utility model, when signal processing chip 140 and image sensor chip 130 sidewall surfaces form while having a some glue-line 114, the image sensor module of formation as shown in figure 14.

Accordingly, the present embodiment provides a kind of image sensor module, please refer to Figure 12, and described image sensor module comprises:

PCB substrate 104, described PCB substrate 104 has front and the back side with described vis-a-vis, has the hole 107 that runs through described PCB substrate 104 in described PCB substrate 104; Be positioned at the metal level 108 in described PCB substrate 104 fronts; The image sensor chip 130 of upside-down mounting above PCB substrate 104 fronts, described image sensor chip 130 has video sensing district 101 and the pad 102 around described video sensing district 101, wherein, described video sensing district 101 is positioned at hole 107 tops, and described pad 102 and metal level 108 are electrically connected; The signal processing chip 140 of upside-down mounting above PCB substrate front side, described signal processing chip 140 is electrically connected with metal level 108; Be positioned at the solder-bump 115 on described metal level 108 surfaces.

Described PCB substrate 104 provides a supporting role for image sensor module, and described PCB substrate 104 surfaces are formed with metal level 108, metal level 108 is electrically connected with pad 102, and metal level 108 is also electrically connected with signal processing chip 140, therefore can realize being electrically connected between signal processing chip 140 and image sensor chip 130 by metal level 108.

The size of hole 107 is more than or equal to the size in video sensing district 101.In described metal level 108, there is opening 109, the size of described opening 109 and hole 107 measure-alike; Described video sensing district 101 is positioned at opening 109 tops, and video sensing district 101 can receive extraneous light by described opening 109, and in the present embodiment, described opening 109 width are greater than video sensing district 101 width, improves the utilance of video sensing district 101 to light.

The position of described metal level 108 is corresponding with position and the quantity of pad 102 with quantity.Concrete, in the time that video sensing district 101 4 sides all have some pads 102, hole 107 4 sides all have some discrete metal levels 108, and each discrete metal level 108 is connected corresponding to a pad 102.In other embodiments, in the time that video sensing district 101 1 sides have some pads, described hole one side has the discrete metal level of equal number.

The material of described metal level 108 is Cu, Al or W.

In the present embodiment, described metal level 108 flushes with the sidewall of PCB substrate 104 away from the sidewall of described opening 109.

Also comprise: the first metal coupling 103, described the first metal coupling 103, between pad 102 and metal level 108, is electrically connected described pad 102 and metal level 108 by described the first metal coupling 103; The second metal coupling 150, described the second metal coupling 150, between signal processing chip 140 and metal level 108, is electrically connected described signal processing chip 140 and metal level 108 by described the second metal coupling 150.

The quantity of described the first metal coupling 103 is corresponding with quantity and the position of pad 102 with position, the quantity of the first metal coupling 103 is identical with the quantity of pad 102, and the spacing of the spacing of adjacent the first metal coupling 103 and adjacent pad 102 equates, so that each pad 102 all can be connected with a metal level 108, thereby realize the object that pad 102 is electrically connected with external circuit.

The quantity of described the second metal coupling 150 is corresponding with quantity and the position of the pin of signal processing chip 140 with position, so that each pin of signal processing chip 140 all can be connected with second metal coupling 150, therefore signal processing chip 140 each pin all can be connected with corresponding metal level 108, thereby realize the object that signal processing chip 140 is electrically connected with image sensor chip 130.

Being shaped as of described the first metal coupling 103 or the second metal coupling 150 is square or spherical, and the material of described the first metal coupling 103 or the second metal coupling 150 is tin, gold or ashbury metal.

It should be noted that, in the present embodiment, the second metal coupling 150 contacts with signal processing chip 140 and metal level 108, is electrically connected signal processing chip 140 and image sensor chip 130 by the second metal coupling 150 and metal level 108.In other embodiment of the utility model, if when the position that the second metal coupling is set in correspondence is not formed with metal level, in PCB substrate, being formed with circuit distributes, described circuit distributes and is electrically connected with metal level, and described circuit distributes and is also electrically connected with the second metal coupling, by described circuit distribute electrical connection the second metal coupling and metal level, by circuit distributes, the second metal coupling and metal level be electrically connected image sensor chip and signal processing chip.

The image sensor module that the present embodiment provides also comprises: the plastic packaging layer 111 that is covered in metal level 108 surfaces, image sensor chip 130 surfaces and signal processing chip 140 surfaces; Be positioned at the through hole of plastic packaging layer 111, described via bottoms exposes metal level 108 surfaces, and the full described through hole of described solder-bump filling, and solder-bump 115 tops are higher than plastic packaging layer 111 surface.

The material of described plastic packaging layer 111 is resin or anti-solder ink material, for example, and epoxy resin or acrylic resin.

In the present embodiment, the top shape of described solder-bump 115 is spherical, and the material of described solder-bump 115 is tin, gold or ashbury metal.

As a specific embodiment, the distance between described solder-bump 115 tops to plastic packaging layer 111 top is 20 μ m to 100 μ m.

Plastic packaging layer 111 envelopes image sensor chip 130, prevents that external environment from causing harmful effect to image sensor chip 130, improves the reliability and stability of image sensor module; In plastic packaging layer 111, be formed with the through hole that exposes metal level 108 surfaces, in through hole, be formed with solder-bump 115, by solder-bump 115, pad 112 is electrically connected with external circuit, both avoided damage or pollution that image sensor chip 130 is caused itself, the encapsulation performance of image sensor module is improved; And, solder-bump 115 major parts are enveloped by plastic packaging layer 111, reduced the area that solder-bump 115 contacts with external environment, thereby it is oxidized or be subject to the possibility of other damages to have reduced greatly solder-bump 115, further improves the reliability of image sensor module.

And, because solder-bump 115 tops are very little to the distance on plastic packaging layer 111 surface, be 20 μ m to 100 μ m, therefore, it is very little that solder-bump 115 is exposed to area in external environment, effectively improves the reliability of image sensor module; Meanwhile, because solder-bump 115 tops are very little to the distance on plastic packaging layer 111 surface, further reduced the thickness of image sensor module.

Image sensor chip 130 and signal processing chip 140 are separated setting by the present embodiment, concrete, at PCB substrate 104 positive point of be arranged image sensor chip 130 and signal processing chip 140, avoid considering arranging and interconnection problems of image sensor chip 130 and signal processing chip 140 is set in same chip, reduced design difficulty; And, owing to being subject between image sensor chip 130 and signal processing chip 140, the other side arranges and the impact of area is little, therefore image sensor chip 130 and signal processing chip 140 all can obtain best performance, have improved the encapsulation performance of image sensor module; Meanwhile, because image sensor chip 130 and signal processing chip 140 are not arranged on same chip, prior art relatively, the area of the image sensor chip 130 of the utility model embodiment is less, and therefore, the design cost of image sensor chip 130 reduces; Finally, because 140 points of image sensor chip 130 and signal processing chips are arranged, image sensor chip 130 and signal processing chip 140 can combination in any, make image sensor module have higher flexibility.

Image sensor module also comprises: be positioned at the lens assembly at PCB substrate 104 back sides, described lens assembly comprises filter 180, microscope base 191 and eyeglass 190, and wherein, described eyeglass 190 is connected with described PCB substrate 104 by microscope base 191; Support portion 192; By described support portion 192, eyeglass 190 and microscope base 191 are interfixed.

In the present embodiment, described filter 180 is positioned at PCB substrate 104 back sides, and described filter 180 seals one end of described hole 107.

The size of described filter 180 is more than or equal to the size of video sensing district 101, hole 107; , and, filter 180 be at least covered in video sensing district 101 directly over.

Described support portion 192 lateral walls have external screw thread, described microscope base 191 madial walls have internal thread, described support portion 192 and described microscope base 191 are screwed togather and are interfixed by screw thread, by rotating described support portion 192, can adjust the distance between eyeglass 190 and filter 180.

By regulating described support portion 192, can make eyeglass 190 very near filter 180, and because filter in the present embodiment 180 is positioned at PCB substrate 104 back sides, therefore eyeglass 190 is very near PCB substrate 104 back sides, thereby further reduce the thickness of image sensor module.

In other embodiment of the utility model, as shown in figure 13, described filter 180 cards are assigned on microscope base 191.

In another embodiment of the utility model, as shown in figure 14, image sensor module also comprises: the some glue-line 114 that is covered in described image sensor chip 130 sidewall surfaces and signal processing chip 140 sidewall surfaces, and described some glue-line 114 is also covered in the first metal coupling 103 sidewall surfaces and the second metal coupling 150 sidewall surfaces, and solder-bump 115 tops are higher than image sensor chip 130 surfaces.Described some glue-line 114 plays the effect of protection image sensor chip 130 and signal processing chip 140, prevents that external environment from causing harmful effect to image sensor chip 130 and signal processing chip 140, improves the reliability of encapsulating structure.

As a specific embodiment, solder-bump 115 tops to the vertical range on image sensor chip 130 surfaces is 20 μ m to 100 μ m.

Described image sensor module also comprises: be positioned at the passive component in PCB substrate 104 fronts, be electrically connected described passive component, signal processing chip 140 and image sensor chip 130 by metal level 108, described passive component is resistance or electric capacity.

The utility model another embodiment also provide a kind of method for packing, Figure 15 to Figure 20 is the cross-sectional view of another embodiment encapsulation process of the utility model, it should be noted that, in the present embodiment, the restriction such as parameter and effect of structure same with the above-mentioned embodiment repeats no more in the present embodiment, specifically please refer to above-described embodiment.

Please refer to Figure 15, some single image sensor chips 230 are provided, described image sensor chip 230 has video sensing district 201 and the pad 202 around described video sensing district 201.

Please refer to Figure 16, some single signal processing chips 240 are provided.

Please refer to Figure 17, PCB substrate 204 is provided, described PCB substrate 204 has front and the back side with described vis-a-vis, described PCB substrate 204 comprises some functional areas 212 and the second Cutting Road region 213 between adjacent functional district 212, at the positive metal level 208 that forms of described PCB substrate 204; Run through the hole 207 of PCB substrate 204 in the described PCB substrate 204 interior formation in functional areas 212; At described PCB substrate 204 forming metal layer on surfaces 208, and there is opening 209 in the metal level 208 of same functional areas 212; Form the first metal coupling 203 and the second metal coupling 250 on described metal level 208 surfaces; Form filter 280, described filter 280 cap holes 207 one end at 212 back sides, described PCB substrate 204 functional areas.

In the present embodiment, described metal level 208 is only positioned at functional areas 212, does not form metal level 208 on 213 surfaces, the second Cutting Road region.Can adopt PCB making technology to form described metal level 208, for example, sputter or depositing operation, in conjunction with etching technics at PCB substrate 204 functional areas 212 forming metal layer on surfaces 208.

In the present embodiment, after forming described metal level 208, expose 212 surfaces, PCB substrate 204 functional areas between metal level 208 sidewalls and 213 borders, the second Cutting Road region, its benefit is, follow-up in the time forming plastic packaging layer, 212 surfaces, PCB substrate 204 functional areas that expose described in plastic packaging layer is covered in, thereby metal level 208 sidewalls are enveloped by plastic packaging layer, there is unnecessary being electrically connected with external circuit in the sidewall that prevents metal level 208, the material that can also prevent metal level 208 is oxidized, thereby improves the reliability of follow-up formation image sensor module.In other embodiments, the sidewall of described metal level 208 also can be positioned at the boundary in the second Cutting Road region 213.

The quantity of described the first metal coupling 203 and position are corresponding to quantity and the position of pad 202, the spacing of adjacent the first metal coupling 203 equates with the spacing of adjacent pad 202, that is to say, follow-up by image sensor chip 230 upside-down mountings on PCB substrate 204 time, each first metal coupling 203 contacts corresponding to pad 202 surfaces; The quantity of described the second metal coupling 250 and be positioned at quantity and the position corresponding to the pin of signal processing chip 240.

In the present embodiment, form the first metal coupling 203 on PCB substrate 204 metal level 208 surfaces, avoid forming on pad 202 surfaces the encapsulation procedure of the first metal coupling 203, therefore the encapsulation procedure that image sensor chip 230 experiences itself further reduces, thereby the harmful effect of avoiding encapsulation procedure to bring image sensor chip 230, makes image sensor chip 230 keep higher performance; Same, the performance of signal processing chip 240 is also improved.

It should be noted that, in the present embodiment, the second metal coupling 250 directly contacts with metal level 208,, forms the second metal coupling 250 on metal level 208 surfaces that is; In other embodiment of the utility model, if when the position that the second metal coupling is set in correspondence is not formed with metal level, in PCB functional substrate district, forming circuit distributes, described circuit distributes and is electrically connected with metal level, and described circuit distributes and is also electrically connected with the second metal coupling, by described circuit distribute electrical connection the second metal coupling and metal level, follow-up by circuit distributes, the second metal coupling and metal level be electrically connected image sensor chip and signal processing chip.

Described filter 280 not only plays filter action, can also play the effect in protection video sensing district 201, prevents that the impurity in follow-up potting process from dropping in video sensing district 201.

The size of described filter 280 is more than or equal to the size of described hole 207, described opening 209.

In the present embodiment, described filter 280 is only positioned at 212 surfaces, functional areas, thereby can avoid follow-up cutting technique to cause cutting to filter 280, improve the yield of the image sensor module of follow-up formation, described filter 280 ensures one end of cap holes 207.In other embodiments, described filter 280 can also be positioned at the second Cutting Road region 213.

In other embodiments, while not forming filter, form adhesive tape layer at the back side, PCB functional substrate district at the back side, PCB functional substrate district, concrete can be with reference to the explanation of previous embodiment.

Please refer to Figure 18, described image sensor chip 230 upside-down mountings are placed in to positive top, PCB substrate 204 functional areas 212, and described pad 202 and metal level 208 are electrically connected; Signal processing chip 240 upside-down mountings are placed in to PCB substrate 204 positive tops, functional areas 212, and signal processing chip 240 and metal level 208; Formation is covered in the plastic packaging layer 211 on described metal level 208 surfaces, image sensor chip 230 surfaces and signal processing chip 240 surfaces; At the interior formation through hole of described plastic packaging layer 211, described via bottoms exposes metal level 208 surfaces; Form the solder-bump 215 of filling full described through hole, and described solder-bump 215 tops are higher than plastic packaging layer 211 surface.

Described upside-down mounting method can, with reference to previous embodiment, not repeat them here.

In the present embodiment, adopt the mode of some separate modules to form plastic packaging layer 211, and, the plastic packaging layer 211 of each module is covered in image sensor chip 230 surfaces completely, plastic packaging layer 211 is covered in metal level 208 sidewall surfaces of same functional areas 212 simultaneously, because same functional areas 212 are for image sensor module of follow-up formation, metal level 208 sidewall surfaces on any functional areas 212 are covered by plastic packaging layer 211, thereby prevent that metal level 208 sidewalls are exposed in external environment, improve the reliability of image sensor module.

Please refer to Figure 19, form microscope base 291 and eyeglass 290 at 212 back sides, PCB substrate 204 functional areas, wherein, described eyeglass 290 is connected with described PCB substrate 204 by microscope base 291.

Described filter 280, microscope base 291 and eyeglass 290 are the lens assembly of image sensor module.Also comprise step: in 212 formation support portions, the back side 292, PCB substrate 204 functional areas.

Description about microscope base 291, eyeglass 290 and support portion 292 can, with reference to previous embodiment, not repeat them here.

In the present embodiment, before forming plastic packaging layer 211, form filter 280 at PCB substrate 204 back sides, in other embodiment of the utility model, before forming plastic packaging layer, form adhesive tape layer at PCB substrate back, before cutting PCB substrate, remove adhesive tape layer, form lens assembly at the back side, PCB functional substrate district, concrete, form filter at the back side, PCB functional substrate district, form microscope base at the back side, PCB functional substrate district, by microscope base, eyeglass is settled and PCB substrate back, or filter card is assigned on microscope base, specifically can be with reference to the explanation of previous embodiment.

In the present embodiment, before cutting PCB substrate 204, form lens assembly at 212 back sides, PCB substrate 204 functional areas, further simplified packaging technology step, improve packaging efficiency.

Please refer to Figure 20, cut described PCB substrate 204 along the second Cutting Road region 213 (please refer to Figure 19).

In the present embodiment, metal level 208 sidewalls have certain distance from 213 borders, the second Cutting Road region, therefore, cut PCB substrate 204 along the second Cutting Road region 213, form some single image sensor modules.Due to not cutting metal layer 208 of cutting technique, therefore metal level 208 sidewalls are still covered by plastic packaging layer 211, thereby prevent that metal level 208 sidewalls from exposing in external environment, improved the reliability and stability of image sensor module.

Compared with wafer-level packaging technique, the packaging technology condition milder in the present embodiment, after the packaging technology in experience the present embodiment, filter 280 still can keep higher yield, thereby improves the yield that forms image sensor module.

It should be noted that, in other embodiment of the utility model, in the time not forming plastic packaging layer, before forming solder-bump, also comprise step: form the some glue-line that is covered in described image sensor chip sidewall surfaces and the first metal coupling sidewall surfaces.About the description of some glue-line can be with reference to the explanation of previous embodiment.

Accordingly, the present embodiment provides a kind of image sensor module, please refer to Figure 20, and described image sensor module comprises:

PCB substrate 204, described PCB substrate 204 has front and the back side with described vis-a-vis, has the hole 207 that runs through described PCB substrate 204 in described PCB substrate 204; Be positioned at the metal level 208 in described PCB substrate 204 fronts; The image sensor chip 230 of upside-down mounting above PCB substrate 204 fronts, described image sensor chip 230 has video sensing district 201 and the pad 202 around described video sensing district 201, wherein, described video sensing district 201 is positioned at hole 207 tops, and described pad 202 and metal level 208 are electrically connected; The signal processing chip 240 of upside-down mounting above PCB substrate front side, and described signal processing chip 240 is electrically connected with metal level 208; Be covered in the plastic packaging layer 211 on metal level 208 surfaces, image sensor chip 230 surfaces and signal processing chip 240 surfaces; Be positioned at the through hole of plastic packaging layer 211, described via bottoms exposes metal level 208 surfaces, fill the solder-bump 215 of full described through hole, and described solder-bump 215 tops is higher than plastic packaging layer 211 surface.

In described metal level 208, there is opening 209, the size of described opening 209 and hole 207 measure-alike; Described video sensing district 201 is positioned at opening 209 tops, and video sensing district 201 can receive extraneous light by described opening 209, and in the present embodiment, described opening 209 width are greater than video sensing district 201 width, improves the utilance of video sensing district 201 to light.

In the present embodiment, described metal level 208 exposes PCB substrate 204 part surfaces away from described opening 209, PCB substrate 204 part surfaces that expose described in described plastic packaging layer 211 is covered in, and described plastic packaging layer 211 is covered in metal level 208 sidewall surfaces, the sidewall that prevents metal level 208 is exposed in external environment, there is unnecessary being electrically connected with external circuit in the metal level 208 of avoiding being exposed in external environment, the material that can also prevent metal level 208 is oxidized by external environment, has improved the reliability of image sensor module.

Also comprise: the first metal coupling 203, described the first metal coupling 203, between pad 202 and metal level 208, is electrically connected described pad 202 and metal level 208 by described the first metal coupling 203; The second metal coupling 250, described the second metal coupling 250, between signal processing chip 240 and metal level 208, is electrically connected described signal processing chip 240 and metal level 208 by described the second metal coupling 250.

It should be noted that, in the present embodiment, the second metal coupling 250 directly contacts with metal level 208; In other embodiment of the utility model, if when the position that the second metal coupling is set in correspondence is not formed with metal level, in PCB substrate, being formed with circuit distributes, described circuit distributes and is electrically connected with metal level, and described circuit distributes and is also electrically connected with the second metal coupling, distribute and be electrically connected the second metal coupling and metal level by described circuit, distribute and metal level electrical connection image sensor chip and signal processing chip by circuit.

Image sensor module also comprises: be positioned at the lens assembly at PCB substrate 204 back sides, described lens assembly comprises filter 280, microscope base 291 and eyeglass 290, and wherein, described eyeglass 290 is connected with described PCB substrate 204 by microscope base 291; Support portion 292; By described support portion 292, eyeglass 290 and microscope base 291 are interfixed.

The description of described filter 280, eyeglass 290, microscope base 291 and support portion 292 can, with reference to previous embodiment, not repeat them here.

In PCB substrate 204 fronts, image sensor chip 230 and signal processing chip 240 are set, avoid considering arranging and interconnection problems of image sensor chip 230 and signal processing chip 240 is set in same chip, reduced design difficulty; And, owing to being subject between image sensor chip 230 and signal processing chip 240, the other side arranges and the impact of area is little, therefore image sensor chip 230 and signal processing chip 240 all can obtain best performance, have improved the encapsulation performance of image sensor module; Meanwhile, because image sensor chip 230 and signal processing chip 240 are not arranged on same chip, prior art relatively, the area of the image sensor chip 230 of the utility model embodiment is less, and therefore, the design cost of image sensor chip 230 reduces; Finally, because 240 points of image sensor chip 230 and signal processing chips are arranged, image sensor chip 230 and signal processing chip 240 can combination in any, make image sensor module have higher flexibility.

And, by regulating described support portion 292, can make eyeglass 290 very near filter 280, and because filter in the present embodiment 280 is positioned at PCB substrate 204 back sides, therefore eyeglass 290 is very near PCB substrate 204 back sides, thereby further reduces the thickness of image sensor module.

In other embodiment of the utility model, image sensor module also comprises: be covered in the some glue-line of image sensor chip sidewall surfaces and the first metal coupling sidewall surfaces, and solder-bump top is higher than image sensor chip surface.Specifically can be with reference to the description of previous embodiment.

Although the utility model discloses as above, the utility model is not defined in this.Any those skilled in the art, not departing from spirit and scope of the present utility model, all can make various changes or modifications, and therefore protection range of the present utility model should be as the criterion with claim limited range.

Claims (15)

1. an image sensor module, is characterized in that, comprising:

PCB substrate, has the hole that runs through described PCB substrate in described PCB substrate;

Be positioned at the metal level of described PCB substrate surface;

The image sensor chip of upside-down mounting above PCB substrate, described image sensor chip has video sensing district and the pad around described video sensing district, and wherein, described video sensing district is positioned at hole top, described pad and metal level electrical connection;

The signal processing chip of upside-down mounting above PCB substrate, described signal processing chip is electrically connected with metal level;

Be positioned at the solder-bump of described layer on surface of metal.

2. image sensor module as claimed in claim 1, is characterized in that, also comprise: be positioned at the lens assembly of PCB substrate back, described lens assembly comprises filter, microscope base and eyeglass, wherein, described eyeglass is connected with described PCB substrate back by microscope base.

3. image sensor module as claimed in claim 2, is characterized in that, described filter is positioned at PCB substrate back or card is assigned on microscope base.

4. image sensor module as claimed in claim 2, is characterized in that, also comprises: support portion, interfixes eyeglass and microscope base by described support portion.

5. image sensor module as claimed in claim 4, is characterized in that, described support portion lateral wall has external screw thread, and described microscope base madial wall has internal thread, and described support portion and described microscope base are screwed togather and interfixed by screw thread.

6. image sensor module as claimed in claim 1 or 2, is characterized in that, the size of described hole is more than or equal to the size in video sensing district.

7. image sensor module as claimed in claim 1 or 2, is characterized in that, also comprises: the first metal coupling, described the first metal coupling, between pad and metal level, is electrically connected described pad and metal level by described the first metal coupling.

8. image sensor module as claimed in claim 1 or 2, is characterized in that, also comprises: the second metal coupling, is electrically connected described signal processing chip and metal level by described the second metal coupling.

9. image sensor module as claimed in claim 8, is characterized in that, described the second metal coupling contacts with signal processing chip and metal level.

10. image sensor module as claimed in claim 8, is characterized in that, is formed with circuit and distributes in described PCB substrate, and described circuit distribution is electrically connected with metal level and the second metal coupling.

11. image sensor modules as claimed in claim 1 or 2, is characterized in that, also comprise: the plastic packaging layer that is covered in layer on surface of metal, image sensor chip surface and signal processing chip surface; Be positioned at the through hole of plastic packaging layer, described via bottoms exposes layer on surface of metal, and described solder-bump is filled full described through hole, and described solder-bump top is higher than plastic packaging layer surface.

12. image sensor modules as claimed in claim 11, is characterized in that, described solder-bump top to the distance on plastic packaging layer surface is 20 μ m to 100 μ m.

13. image sensor modules as claimed in claim 11, is characterized in that, described plastic packaging layer is covered in metal level sidewall surfaces.

14. image sensor modules as claimed in claim 7, is characterized in that, also comprise: be covered in the some glue-line of image sensor chip sidewall surfaces and the first metal coupling sidewall surfaces, and solder-bump top is higher than image sensor chip surface.

15. image sensor modules as claimed in claim 1, is characterized in that, also comprise: the passive component that is positioned at described PCB substrate surface.