CN108269812B - A kind of wafer-level package process of optimization - Google Patents

Abstract

The present invention provides a kind of wafer-level package processes of optimization, wherein provides one first wafer, comprising the following steps: forms first groove structure in the first crystal column surface；Second groove structure is formed in the first crystal column surface；First groove structure and second groove structure are filled；Filled first crystal column surface is planarized, until exposing the first crystal column surface；Pad structure is formed in the first crystal column surface；The one side that first wafer is formed with pad structure is mutually bonded with one second wafer；One predetermined thickness is thinned to the first wafer；The first crystal column surface after being thinned draws metal wire, carries out subsequent encapsulating process；The utility model has the advantages that influence of the subsequent encapsulating process metal lead wire to device can be shielded completely after using new technique, simplifies current process flow and improve the reliability of product to reduce multiple tracks process flow.

Description

A kind of wafer-level package process of optimization

Technical field

The present invention relates to field of semiconductor manufacture more particularly to a kind of wafer-level package processes of optimization.

Background technique

As former back-illuminated type (Back Side Illumination, BSI) sensor CSP (Chip Scale Package, wafer-level package) packaging technology is to do metal wire pin from carrying silicon wafer face.Use pad made of prior art Structural schematic diagram as illustrated in figs. 1A and ib, including silicon base 11, shallow trench 12, metal pad 13, oxide skin(coating) 14.To ensure Metal wire can export completely, and deep hole can penetrate the pad (BSI BOND PAD) of device (device) chip and backside-illuminated sensor And stop on top of the encapsulation material, because of the thickness that depth is isolated only less than the depth of 0.3um, after subsequent device is thinned in device trenches Greater than 2um, much larger than the thickness of groove, this results in package metals lead that can contact Si, has potential shadow to device reliability It rings, needs to be dedicated to process optimization to improve product quality；

In addition, stop on top of the encapsulation material because deep hole can penetrate the pad of device chip and backside-illuminated sensor, The technique that device metal lead is exported and be connected to by backside-illuminated sensor just seems somewhat extra.

Summary of the invention

In view of the above-mentioned problems, the present invention provides a kind of wafer-level package processes of optimization, wherein provide one first Wafer, comprising the following steps:

Step S1 forms first groove structure in first crystal column surface；

Step S2 forms second groove structure in first crystal column surface；

Step S3 is filled the first groove structure and the second groove structure；

Step S4 planarizes filled first crystal column surface, until exposing first crystal column surface；

Step S5 forms pad structure in first crystal column surface；

The one side that first wafer is formed with the pad structure is mutually bonded by step S6 with one second wafer；

A predetermined thickness is thinned to first wafer in step S7；

Step S8, first crystal column surface after being thinned draw metal wire.

Wherein, the step of forming the first groove in the step S1 are as follows:

Step S11 forms one first lithography layer in first crystal column surface, patterns first lithography layer, Yu Yi Predetermined position formation process window；

Step S12 performs etching first wafer by first lithography layer, stays in first wafer One first predetermined depth；

Step S13 removes first lithography layer, forms the first groove structure.

Wherein, the step of forming the second groove structure in the step S2 are as follows:

Step S21 forms one second lithography layer in first crystal column surface, patterns second lithography layer, Yu Yi Predetermined position formation process window；

Step S22 performs etching first wafer by second lithography layer, stays in first wafer One second predetermined depth；

Step S23 removes second lithography layer, forms the second groove structure.

Wherein, first predetermined depth is less than second predetermined depth.

Wherein, it is filled in the step 3 by depositing an oxide layer.

Wherein, the depth of the first groove structure is not more than 0.3 micron.

It wherein, further include carrying out subsequent encapsulation step after the step S8.

Wherein, the second groove structure is formed in the side of the first groove structure.

Wherein, the method is suitable for back side illumination image sensor.

The utility model has the advantages that influence of the subsequent encapsulating process metal lead wire to device can be shielded completely after using new technique, Simplify current process flow and improves the reliability of product to reduce multiple tracks process flow.

Detailed description of the invention

The sectional view for the structure that Fig. 1 a prior art is formed；

The top view for the structure that Fig. 1 b prior art is formed；

Fig. 2 encapsulate in the prior art after structure sectional view；

The sectional view for the structure that Fig. 3 a present invention is formed；

The top view for the structure that Fig. 3 b present invention is formed；

Sectional view after the construction packages that Fig. 4 present invention is formed；

Fig. 5 general flow chart of the present invention；

The flow chart of Fig. 6 present invention formation first groove structure；

The flow chart of Fig. 7 present invention formation second groove structure.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, those of ordinary skill in the art without creative labor it is obtained it is all its His embodiment, shall fall within the protection scope of the present invention.

It should be noted that in the absence of conflict, the feature in embodiment and embodiment in the present invention can phase Mutually combination.

The present invention will be further explained below with reference to the attached drawings and specific examples, but not as the limitation of the invention.

As shown in figure 5, proposing a kind of wafer-level package process of optimization, wherein provide one first wafer 31, packet Include following steps:

Step S1 forms first groove structure 32 in 31 surface of the first wafer；

Step S2 forms second groove structure 33 in 31 surface of the first wafer；

Step S3 is filled the first groove structure 32 and the second groove structure 33；

Step S4 planarizes filled first wafer, 31 surface, until exposing 31 table of the first wafer Face forms structure as shown in Figure 3a and Figure 3b shows；

Step S5 forms pad structure in 31 surface of the first wafer；

The one side that first wafer 31 is formed with the pad structure is mutually bonded by step S6 with one second wafer；

A predetermined thickness is thinned to first wafer 31 in step S7；

Metal wire is drawn on step S8,31 surface of the first wafer after being thinned.

Above-mentioned technical proposal can shield influence of the subsequent encapsulating process metal lead wire to device completely, simplify current work Skill process improves the reliability of product to reduce multiple tracks process flow.

In a preferred embodiment, as shown in fig. 6, the step of forming first groove 32 in the step S1 Are as follows:

Step S11 forms one first lithography layer in 31 surface of the first wafer, patterns first lithography layer, in One predetermined position formation process window；

Step S12 performs etching first wafer 31 by first lithography layer, stays in first wafer One first predetermined depth in 1；

Step S13 removes first lithography layer, forms the first groove structure 32.

In a preferred embodiment, as shown in fig. 7, forming the step of the second groove structure 33 in the step S2 Suddenly are as follows:

Step S21 forms one second lithography layer in 31 surface of the first wafer, patterns second lithography layer, in One predetermined position formation process window；

Step S22 performs etching first wafer 31 by second lithography layer, stays in first wafer One second predetermined depth in 31；

Step S23 removes second lithography layer, forms the second groove structure 33.

In a preferred embodiment, the first predetermined depth is less than the second predetermined depth, i.e. first groove structure 32 Depth is less than the depth of second groove structure 33.

There are differences in height can guarantee preferably isolation effect between two kinds of groove structures in above-mentioned technical proposal.

In a preferred embodiment, it is filled in the step 3 by depositing an oxide layer.

In above-mentioned technical proposal, isolation effect can be better ensured that by being filled using an oxide layer.

In a preferred embodiment, the depth of the first groove structure is not more than 0.3 micron.

It in a preferred embodiment, further include carrying out subsequent encapsulation step after the step S8.

In above-mentioned technical proposal, subsequent encapsulation step is technological means commonly used in the art, therefore is not described here in detail.

In a preferred embodiment, the second groove structure is formed in the side of the first groove structure.

In above-mentioned technical proposal, there are differences in height can play better isolation effect with first groove for second groove.

In a preferred embodiment, the method is suitable for back side illumination image sensor.

In above-mentioned technical proposal, as shown in Figure 2 and Figure 4, the sensor sectional view after making, encapsulating according to the method for the present invention Significant difference is had no with the sensor sectional view of prior art production, encapsulation.

In above-mentioned technical proposal, method of the invention reduces multiple steps on the basis of existing technology, is reaching phase In the case where with purpose, manufacturing cost is greatly saved.

The foregoing is merely preferred embodiments of the present invention, are not intended to limit embodiments of the present invention and protection model It encloses, to those skilled in the art, should can appreciate that all with made by description of the invention and diagramatic content Equivalent replacement and obviously change obtained scheme, should all be included within the scope of the present invention.

Claims (9)

1. a kind of wafer-level package process of optimization, which is characterized in that provide one first wafer, comprising the following steps:

Step S1 forms first groove structure in first crystal column surface；

Step S2 forms second groove structure in first crystal column surface；

Step S3 is filled the first groove structure and the second groove structure；

Step S4 planarizes filled first crystal column surface, until exposing first crystal column surface；

Step S5 forms pad structure in first crystal column surface；

The one side that first wafer is formed with the pad structure is mutually bonded by step S6 with one second wafer；

A predetermined thickness is thinned to first wafer in step S7；

Step S8, first crystal column surface after being thinned draw metal wire.

2. the method according to claim 1, wherein the step of forming the first groove in the step S1 Are as follows:

Step S11 forms one first lithography layer in first crystal column surface, patterns first lithography layer, predetermined in one Position formation process window；

Step S12 performs etching first wafer by first lithography layer, stays in one in first wafer One predetermined depth；

Step S13 removes first lithography layer, forms the first groove structure.

3. according to the method described in claim 2, it is characterized in that, forming the step of the second groove structure in the step S2 Suddenly are as follows:

Step S21 forms one second lithography layer in first crystal column surface, patterns second lithography layer, predetermined in one Position formation process window；

Step S22 performs etching first wafer by second lithography layer, stays in one in first wafer Two predetermined depths；

Step S23 removes second lithography layer, forms the second groove structure.

4. according to the method described in claim 3, it is characterized in that, first predetermined depth is less than the described second pre- depthkeeping Degree.

5. the method according to claim 1, wherein being filled out in the step S3 by depositing an oxide layer It fills.

6. the method according to claim 1, wherein the depth of the first groove structure is not more than 0.3 micron.

7. the method according to claim 1, wherein further including carrying out subsequent encapsulation step after the step S8 Suddenly.

8. the method according to claim 1, wherein the second groove structure is formed in the first groove knot The side of structure.

9. the method according to claim 1, wherein the method is suitable for back side illumination image sensor.