JPH09321161A - Package of electronic component - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a package of an electronic component which has no unevenness in shape, has excellent reliability and quality, and may be easily manufactured. SOLUTION: In a package of an electronic component, a piezoelectric vibrator 4 or a semiconductor chip mounted on the surface of a board 2 is sealed by a cover member 3 via a seal member 5, and a conduction pattern 8 is formed on the board 2 in such a manner as to penetrate the seal member 5 and extend outward from inside of the cover member 3. In this package of an electronic component, a protrusion (9) regulating a seal spacing (D1) so as to cause a sealing surface 2a of the board 2 and a sealing surface 3a of the cover member 3 to be substantially parallel to each other is provided between the sealing surface 2a and the sealing surface 3a.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a package that encloses electronic parts such as a vibrator, a surface acoustic wave (SAW) element, and a semiconductor.

[0002]

2. Description of the Related Art In recent years, small size information devices such as portable computers and mobile communication devices such as mobile phones and car phones have been remarkably reduced in size and weight. As a result, electronic components mounted on a circuit board or the like in the devices have become remarkable. There is also a demand for a surface mount type package that can be miniaturized and surface mounted on a circuit board.

As a package of such electronic parts,
For example, a piezoelectric vibrator package 100 having a plan view shown in FIG. 11 and a schematic sectional view shown in FIG. 12 is known. In this piezoelectric vibrator package 100, a pair of thin-film conductive patterns 103 is formed on the surface of a substrate 101 made of an insulator such as ceramics. At one end of each conductive pattern 103, the adhesive 1
A known piezoelectric vibrating piece 105 is fixed to the substrate 101 via the substrate 06 so as to seal the piezoelectric vibrating piece 105.
A lid member 102 shown by a chain line is provided on the top. The seal member 1 is provided on the edge 102a on the back surface side of the lid member 102.
04 is piled up, and the lid member 1 is heated while heating at the time of sealing.
02 is pressed onto the substrate 101. Thereby, the lid member 1
Reference numeral 02 encloses the piezoelectric vibrating piece 105 on the surface of the substrate 101 in a state where it crosses the portions 103a and 103b of the conductive pattern 103.

[0004]

However, according to the above-mentioned prior art, the conductive pattern 103 formed on the substrate 101 is a thin film, but has a constant thickness, and the lid member 102 has a conductive pattern 103 at the time of sealing. Is sandwiched and adhered to the substrate 101. Therefore, as shown in FIG. 13, the lid member 102 is easily attached to the substrate 101 while being inclined with respect to the points (103a, 103b) crossing the conductive pattern 103 as fulcrums.

In this state, the substrate 101 and the lid member 102
The thickness of the sealing material 104 between the first and second portions becomes non-uniform, and a thin portion occurs. Therefore, when the gas pressure in the lid member 102 rises due to the heating at the time of the above-mentioned sealing, the heating at the time of mounting the package 100 on the circuit board, or the like, the sealing breaks from a thin portion and leaks. Occurs, and the frequency of the piezoelectric vibrating piece 105 changes due to moisture absorption or oxidation. Similarly, even when used for a long period of time, there is a problem in that the seal easily breaks from a thin wall portion and the life of the component is shortened. Also,
Due to the inclination of the lid member 102, the thickness of the package 100 itself may not be uniform and may vary from individual to individual.

As a method of preventing the inclination between the substrate 101 and the lid member 102 due to such a thickness of the conductive pattern 103, the substrates 101 are laminated and the conductive pattern 103 is sandwiched between the substrates 101 to form a conductive pattern. 103
Although it is possible to prevent the package from being exposed on the substrate 101, this method makes it difficult to reduce the thickness of the package 100 itself because the substrate 101 is thick, and in addition, the processing step becomes complicated. There is.

Further, since the package of the electronic component is downsized and the surface mounting type is used, it becomes very difficult to manually mount the piezoelectric vibrating reed 105 on the surface of the substrate 101. Without mechanization, it was difficult to secure the mounting position accuracy of the piezoelectric vibrating piece 105 and the position accuracy in the thickness direction. Further, due to manual work, the combination of the piezoelectric vibrating piece 105 and the package 100 may be mistaken. Even if it is mechanized, a human may set a combination of the piezoelectric vibrating piece 105 having a small difference in appearance characteristics and the package 100 having a small difference in appearance characteristics.
Incorrect settings occurred frequently.

The present invention has been made in order to solve the above-mentioned problems, and is excellent in reliability and quality without variations in shape.
It is an object of the present invention to provide an electronic component package that is easy to manufacture.

[0009]

According to a first aspect of the present invention, there is provided an electronic component package comprising an electronic component, a substrate on which the electronic component is mounted, and a lid member for sealing the electronic component on the substrate surface via a sealing material. , A conduction pattern formed on the substrate so as to extend through the sealing material from the inside of the lid member to the outside so that the sealing surface of the substrate and the sealing surface of the lid member are substantially parallel to each other. Further, a regulating member for regulating the seal interval is interposed between the sealing surfaces of the substrate and the lid member.

As described above, the regulating member for regulating the seal distance is interposed between the substrate and the sealing surface of the lid member so that the sealing surface of the substrate and the sealing surface of the lid member are substantially parallel to each other. Therefore, when the lid member is pressure-bonded to the substrate, the lid member does not tilt with respect to the substrate, and the thickness of the sealing material between the sealing surfaces is formed uniformly. In addition, the thickness of the package itself does not vary.

In this case, it is more preferable that the regulating member is a protrusion provided on at least one of the sealing surfaces of the substrate and the lid member.

[0012] With this configuration, the protrusion can be formed at the same time when at least one of the substrate and the lid member is formed, so that the number of manufacturing steps does not increase. Therefore, the manufacturing is easy and the cost is not increased.

In the above case, it is more preferable that the material of the protrusion is the same as that of the conductive pattern and that it is provided on the substrate.

With this configuration, when the conductive pattern is formed on the substrate, the protrusion can be formed at the same time, which does not increase the number of manufacturing steps. Therefore, the manufacturing is easy and the cost is not increased.

Further, in the above case, it is more preferable that the height of the protrusion is substantially the same as the thickness of the conductive pattern.

With this configuration, the conductive pattern can have the same function as that of the protrusion, and the lid member does not tilt with respect to the substrate when the lid member is pressure-bonded to the substrate. Therefore, since it is not necessary to provide a large number of protrusions, the labor of the manufacturing process does not increase.

In addition, in the above case, it is more preferable that the conductive pattern penetrates the seal material at two locations, and that the plurality of protrusions are provided in line symmetry with respect to the line connecting the two penetration locations. .

According to this structure, even if the load is unevenly applied when the lid member is pressure-bonded at the time of sealing, the sealing surfaces of the substrate and the lid member are surely substantially parallel to each other after the pressure-bonding, so that the sealing material is formed. Is formed to have a uniform thickness. Therefore, the reliability and quality of the electronic component package are improved.

Further, in the above case, the penetrating portion of the conductive pattern penetrating the sealing material is formed in a substantially T-shape between the narrow portion on the inner side and the wide portion on the outer side of the lid member. More preferable.

With this configuration, even if a load is unevenly applied when the lid member is pressure-bonded at the time of sealing, the sealing surface of the substrate and the lid member is surely substantially parallel to each other after the pressure-bonding. Is formed to have a uniform thickness. Further, since the load applied to the conductive pattern at the time of sealing is dispersed, the deformation of the substrate can be prevented. Therefore, the frequency change of the piezoelectric vibrating piece due to the deformation of the substrate can be prevented. Therefore, the reliability and quality of the electronic component package are improved.

Further, in the above case, the penetrating portion of the conductive pattern is disposed on the short piece side of the lid member, and the wide portion of the penetrating portion is more than half the width of the lid member on the short piece side and is 3 or more.
More preferably, it is formed with a length of less than ⅕ and a width of ⅕ or more and less than ⅓ of the width of the sealing surface of the lid member.

According to a fourth aspect of the package of the electronic component of the present invention, a plurality of protrusions are provided, and the planar shapes of the protrusions are at least two types. As described above, since a plurality of protrusions are provided and the planar shapes of the protrusions are at least two types, use the protrusions as a position recognition pattern and use the protrusions as a type or model identification pattern. Can be done easily.

[0023]

DETAILED DESCRIPTION OF THE INVENTION Referring to the accompanying drawings,
A piezoelectric vibrator to which an electronic component package according to an embodiment of the present invention is applied will be described. A plan view is shown in Fig. 1.
In the piezoelectric vibrator whose schematic sectional views are shown in FIG. 2,
A piezoelectric vibrating reed 4 which is an electronic component is enclosed in a package 1 formed of a substrate 2 and a lid member 3.

The substrate 2 is formed as a substantially rectangular plate made of an insulating material such as ceramic, and the surface 2a surrounded by a chain line in FIG. 1 constitutes a sealing surface. Also, FIG.
The lid member 3 indicated by the chain line is made of, for example, ceramic, and the top plate portion and the side plate portion are integrally formed in a U-shaped cross section. The edge portion on the back surface side of the lid member 3, that is, the end surface 3a of the side plate portion constitutes a sealing surface.

The sealing surface 3a of the lid member 3 and the sealing surface 2a of the substrate 2 are adhered to each other via the sealing material 5, whereby the piezoelectric vibrating piece 4 is sealed in the package 1 while maintaining airtightness. It has been stopped. As the sealing material 5, low melting point glass, epoxy resin adhesive, solder or the like is used.

The piezoelectric vibrating reed 4 is made of thin plate quartz, and thin film excitation electrodes 6a and 6b made of Ag or the like are formed on both front and back surfaces of the piezoelectric vibrating reed 4 by vapor deposition or the like. Each excitation electrode 6a, 6b is fixed to each conductive pattern 8 (described later) printed on the substrate 2 via a pair of conductive adhesives 7.

As a result, the piezoelectric vibrating piece 4 is packaged in the package 1.
The substrate 2 and the lid member 3 are cantilevered by a conductive adhesive 7 so as to be substantially parallel to the top plate portion of the cover member 3, and the excitation electrodes 6a and 6b hold a pair of conductive adhesives 7. It conducts to the conductive pattern 8 via the. This conductive adhesive 7
For this, a thermosetting conductive adhesive containing epoxy, polyimide, silicone or the like as a main component is used.

On the other hand, after a pair of conductive patterns is screen-printed with metal such as tungsten on the surface of the substrate 2, A
It is formed into a thin film by performing processing such as u plating.

Each conductive pattern 8 extends in a crank shape from one end 8a, 8b to the other end 8c, 8d, and one end 8
The above-mentioned piezoelectric vibrating piece 4 is fixed to a and 8b via a conductive adhesive 7. Further, each conductive pattern 8 penetrates the sealing material 5 from the inside to the outside of the lid member 3 at the through portions 8e and 8f before the other ends 8c and 8d, and further from the other ends 8c and 8d to the side surface portion of the substrate 2. Through to a bottom surface portion (not shown). Conductive pattern 8 extending to this bottom surface
Forms an external connection terminal (not shown).

A pair of substantially circular projections 9a and 9b are provided on the sealing surface 2a of the substrate 2 at equal intervals. The pair of protrusions 9a and 9b are formed by the same method when the conductive pattern 8 is formed on the substrate 2. That is, like the conductive pattern 8, it is simultaneously formed by screen printing or the like. Therefore, the conductive pattern 8 is formed on the substrate 2 to have the same height as that of the conductive pattern 8 and the same material.

As a result, when the lid member 3 is pressure-bonded to the substrate 2 during sealing, as shown in FIG. 4, the protrusions 9a and 9b and the sealing material penetrating portions 8e and 8f of the conductive pattern 8 are provided on the surface and the lid member. 3, the sealing surface 5a of the substrate 2 and the sealing surface 3 of the lid member 3 are interposed while the very thin sealing material 5 is interposed between the sealing surface 3a and the sealing surface 3a.
The seal distance D1 is regulated so that a is substantially parallel to each other.

The procedure for manufacturing the package 1 of the piezoelectric vibrator having the above-described structure will be described. As described above, the surface of the substrate 2 is subjected to processing such as printing and plating to form the thin film conductive pattern 8 and the protrusions. 9 and 9 are formed at the same time. On the other hand, the excitation electrodes 6a and 6b are formed on both the front and back surfaces of the piezoelectric vibrating piece 4 by a separate process by vapor deposition or the like.

Next, one end portions 8a, 8 of each conductive pattern 8 are formed.
A predetermined amount of conductive adhesive 7 is applied to b, and the piezoelectric vibrating reed 4 is held at a predetermined position shown in FIG. In this state, after heating at a predetermined temperature for a predetermined time, the conductive adhesive 7 is cured. As a result, the piezoelectric vibrating piece 4 is fixed in a conductive state to the conductive pattern 8 via the conductive adhesive 7.

After that, Ag is further vapor-deposited on the excitation electrode 6 to adjust the piezoelectric vibrating piece 4 to have a predetermined frequency.
After the adjustment is completed, the sealing surface 3a of the lid member 3 is coated (temporarily adhered) with a predetermined amount of the sealing material 5 in advance, as shown in FIG.
The piezoelectric vibrating piece 4 is placed on the substrate 2 as shown in FIG. In this state, the lid member 3 is pressure-bonded to the substrate 2 while heating at a predetermined temperature to melt the sealing material 5. In this pressure-bonded state, since the thickness of the conductive pattern 8 and the height of the protrusions 9a and 9b are substantially the same, the thin strip portions 8c and 8d of the conductive pattern 8 and the protrusions 9a and 9b are sealed on the surface and the lid member 3. The sealing distance D1 is regulated so that the sealing surface 2a of the substrate 2 and the sealing surface 3a of the lid member 3 are substantially parallel to each other while interposing a very thin sealing material 5 between the sealing surface 3a and the stop surface 3a. Then, the sealing material 5 is cured by cooling or the like.

As a result, as shown in FIG. 4, the sealing 3a of the lid member 3 is sealed while being kept substantially parallel to the sealing surface 2a of the substrate 2, and the sealing surface 2a and the sealing surface 2a are sealed. The thickness of the sealing material 5 is formed uniformly between 3a and 3a.

Therefore, the sealing property is improved and the thickness D2 (FIG. 4) of the package 1 can be made constant. Therefore, the sealing property of the sealing portion is improved, and thus the reliability and quality of the package of the electronic component are improved. Further, since the projection is made of the same material as the conductive pattern and can be formed at the same time when the conductive pattern is formed, it is only necessary to form a small hole for the projection in the mask for forming the conductive pattern. It does not lead to an increase in the manufacturing process. Thereby, the manufacturing is easy and the cost is not increased.

In this embodiment, the lid member 3 shown in FIG.
The width of the protrusion D4 is set to ⅔ or less (2/3 · D3 ≧ D4) with respect to the width D3 of the sealing surface 3a, and the thickness D2 of the package 1 and the occurrence rate of leakage are measured, and the measurement result is the conventional value. The comparison with the product is shown in FIGS. 5 and 6, respectively.

According to FIG. 5, the thickness D2 of the conventional package 1 is approximately 1.175 (mm) to 1.265 (m).
m), while in the present embodiment, it is almost 1.
The range is from 155 (mm) to 1.225 (mm). Therefore, according to the present embodiment, the thickness of the package 1 is thinner than that of the conventional product and does not vary, so that the quality is improved.

Further, according to FIG. 6, the conventional package 1
The leak occurrence rate is about 0.095%, whereas it is about 0.034% in the present embodiment. As described above, according to the present embodiment, the leak occurrence rate is lower than that of the conventional product, and the reliability is improved. Therefore, the yield of the piezoelectric vibrator can be significantly improved.

Although the protrusions are formed on the substrate 2 at two places in the above embodiment, the protrusions 9a, 9b, 9c and 9d are formed at the four corners of the sealing surface 2a as shown in FIG. 7 in the second embodiment. It may be formed in. In this case, even if an eccentric load is applied when the lid member 3 is pressure-bonded at the time of sealing, the substrate 2 after pressure-bonding is applied.
And the lid member 3 are substantially parallel to each other. Moreover, since the load applied to the conductive pattern 8 at the time of pressure bonding is dispersed, the deformation of the substrate 2 can be prevented. Therefore, the frequency change of the piezoelectric vibrating piece due to the deformation of the substrate 2 can be prevented. Further, if the conductive patterns 8 having the same height are used as in the above embodiment, even if only one protrusion 9 is formed on the substrate 2,
After pressure bonding, the substrate 2 and the lid member 3 can be made substantially parallel.

Further, as shown in FIG. 8 as the third embodiment, the portion where the conductive pattern 8 overlaps the sealing surface 2a (the portion that penetrates the sealing material 5) has a substantially "T" shape. You can In the overlapping portion of the conductive pattern 8, the details (narrow portions) 8e and 8f of the conductive pattern 8 extending substantially orthogonal to the short side portion of the lid member 3 are sealed at a position near the outer periphery of the side plate portion of the lid member 3. The ends 8h and 8g having a predetermined length L1 and a predetermined width W1 are formed by widening the width in the extending direction of the stop surface 3a.

The predetermined length L1 and the predetermined width W1 of the overlapping portions (wide portions) of the end portions 8h and 8g are such that the short piece side width of the substantially rectangular lid member 3 is L and the sealing surface 3a (or the sealing surface). When the width of 2a) is W, the size is preferably such that the following expression holds.

[0043]

[Equation 1]

In this way, the lid member 3 can be supported by the protrusions 9a and 9b and the overlapping portions of the end portions 8h and 8g of the conductive pattern when sealing, and in addition, the end portion 8h and
The 8 g overlap portion is a long and narrow lid member 3 having a predetermined length L1.
Can be supported, so that the lid member 3 and the substrate 2 after sealing are more surely substantially parallel to each other. Further, if the predetermined length L1 and the predetermined width W1 of the overlap portion are formed as in the above formula, the adhesion of the sealing member after sealing does not decrease.

In addition, in the above embodiment, the case where the vibrator is used as the electronic component has been described. However, as shown in FIG. 9, a semiconductor chip 10 may be used as the electronic component, or a surface acoustic wave (SAW) element or the like. May be used.

Further, although the projection is provided on the substrate in the above embodiment, it may be provided on the sealing surface of the lid member. The shape of the protrusion is not limited to a substantially circular shape, but may be any shape having an appropriate area such as an oval or a substantially rectangular shape.

In addition, in the above embodiment, the protrusion is used as the regulating member for regulating the seal interval so that the sealing surface of the substrate and the sealing surface of the lid member are substantially parallel to each other. When forming the sealing material on the sealing surface of the lid member instead of the portion, for example, a spherical body or a disc body having a predetermined thickness may be sealed in the sealing material in advance as a regulating member. With this configuration, when the lid member is bonded to the substrate, the sphere or the disc body acts as a regulating member that regulates the seal interval, and the sealing surface of the substrate and the sealing surface of the lid member are mutually opposed. It becomes almost parallel.

As a fourth embodiment, as shown in FIG. 10, the projection 9e may be substantially circular and 9f may be substantially rectangular. That is, the planar shape of the protrusion may be two or more. The protrusions 9e and 9f are formed by the same method when forming the conductive pattern 8 on the substrate 2. Thereby, the conductive pattern 8
The positions of the protrusions 9e and 9f with respect to the substrate 2 are constant.

An automatic machine (not shown) for mounting the piezoelectric vibrating piece 4 on the substrate 2 has a function of optically recognizing the positions and patterns of the projections 9e and 9f. Automatic machine has a protrusion 9
By recognizing the positions and patterns of e and 9f, the piezoelectric vibrating piece 4 associated with the positions and patterns of the protrusions 9e and 9f is selected, and the piezoelectric vibrating piece 4 is moved to a predetermined position associated with the surface of the substrate 2. Can be installed.

It is desirable that the protrusions have different areas. Since the protrusion is made of the same conductive material as the conductive pattern, a recognition method based on electrostatic capacitance is also possible. As a method of recognizing the protrusion, in addition to the method of recognizing by electrostatic capacity, by adopting the method of recognizing the optical position and pattern,
The accuracy and reliability of mounting electronic components on the board are further enhanced.

[0051]

As described above, according to the electronic component package of the present invention, the regulation of the sealing interval is simply controlled so that the sealing surface of the substrate and the sealing surface of the lid member are substantially parallel to each other. By only interposing the member between the sealing surfaces of the substrate and the lid member, leakage does not occur in the sealing portion, and the reliability and quality of the electronic component package are improved. Moreover, since the thickness of the package of the electronic component does not vary, the quality is improved. Therefore, the yield at the time of manufacturing an electronic component can be improved.

Furthermore, by associating the shape and arrangement of the restriction member with the type and model of the electronic component and the mounting position of the electronic component on the board, automation without fear of human error is facilitated and work efficiency is improved. Is improved.

[Brief description of drawings]

FIG. 1 is a plan view of an electronic component package according to a first embodiment of the present invention.

FIG. 2 is a schematic cross-sectional view from the front of the package of the electronic component according to the first embodiment.

FIG. 3 is a view taken along the line AA of FIG. 1 showing a state in which a lid member is placed on the substrate before the start of sealing the electronic component.

FIG. 4 is a view taken along the line AA of FIG. 1 showing a state in which a lid member is bonded onto the substrate after the sealing of the electronic component is completed.

FIG. 5 is a diagram showing the result of measuring the thickness of the package of the electronic component according to the first embodiment and comparing it with a conventional product.

FIG. 6 is a diagram showing a result of measuring a leak occurrence rate of the package of the electronic component according to the first embodiment and comparing it with a conventional product.

FIG. 7 is a plan view of an electronic component package according to a second embodiment of the present invention.

FIG. 8 is a plan view of an electronic component package according to a third embodiment of the present invention.

FIG. 9 is a diagram in which a semiconductor chip is used as an electronic component in the electronic component package of the present invention.

FIG. 10 is a plan view of an electronic component package according to a fourth embodiment of the present invention.

FIG. 11 is a plan view of a package of a conventional electronic component.

FIG. 12 is a schematic sectional view from the front of a package of a conventional electronic component.

13 is a BB arrow view of FIG. 10 showing a sealed state of a package of a conventional electronic component.

[Explanation of symbols]

 1 Electronic Component Package 2 Substrate 3 Lid Member 4 Piezoelectric Vibrating Reed (Electronic Component) 5 Sealing Material 8 Conductive Pattern 9 Projection (Regulating Member) 10 Semiconductor Chip (Electronic Component) D1 Seal Interval

Claims (8)

[Claims] 1. An electronic component, a substrate on which the electronic component is mounted, a lid member for sealing the electronic component on the substrate surface via a sealing material, and the lid member penetrating the sealing material. In a package of an electronic component having a conductive pattern formed on the substrate so as to extend from the inside to the outside, the sealing surface of the substrate and the sealing surface of the lid member are substantially parallel to each other. A package for an electronic component, characterized in that a regulating member for regulating a seal interval is interposed between sealing surfaces of the substrate and the lid member. 2. The electronic component package according to claim 1, wherein the restriction member is a protrusion provided on at least one of the sealing surfaces of the substrate and the lid member. 3. The electronic component package according to claim 2, wherein the material of the protrusion is the same as that of the conductive pattern and is provided on the substrate. 4. The electronic component package according to claim 2, wherein a plurality of the protrusions are provided, and the planar shapes of the protrusions are at least two types. 5. The electronic component package according to claim 2, wherein the height of the protrusion is substantially the same as the thickness of the conductive pattern. 6. The conductive pattern penetrates the sealing material at two locations, and the plurality of protrusions are provided in line symmetry with respect to a line connecting the two penetration locations. The electronic component package according to claim 2. 7. The penetrating portion of the conductive pattern penetrating the sealing material is formed in a substantially T-shape with a narrow portion on the inner side and a wide portion on the outer side of the lid member. The package of the electronic component according to any one of claims 2 to 6. 8. The penetrating portion of the conductive pattern is arranged on the short piece side of the lid member, and the wide portion of the penetrating portion is half or more and two-thirds of the width of the lid member on the short piece side. The electronic component according to claim 7, wherein the electronic component has a length of less than 1/5 and a width of 1/5 or more and less than 1/3 of the width of the sealing surface of the lid member. package.