JP3915722B2 - Circuit board manufacturing method and manufacturing apparatus - Google Patents

Description

【００３１】
この結果から、ほぼ全ての加圧力でシートを挟んだ方が接合率が高いとともに、加圧力が４．９×１０^４Ｐａ（０．５ｋｇｆ／ｃｍ^２ ）よりも小さいとシートのあるなしに関わらず接合率が６０％より低下している。また、ほぼ全ての加圧力においてシートを挟んだ方が割れ率が小さいとともに、加圧力が６．９×１０^５Ｐａ（７ｋｇｆ／ｃｍ^２ ）より大きくなると、シートを挟んでも割れ発生率が５０％を越えてしまう。
これらにより、製品の好ましい歩留まりとして、少なくとも５０％以上を維持するためには９．８×１０^４Ｐａ〜３．９×１０^５Ｐａ（１〜４ｋｇｆ／ｃｍ^２）の範囲に加圧力を設定することが好ましい。
【００３２】
【発明の効果】
本発明の回路基板の製造方法および製造装置によれば、複数の回路基板ユニットどうしの間にクッション性および耐熱性を有するシートを挟み込んだ状態で加圧することにより、セラミックス基板に反り、うねり、局所的な厚みムラ、または表面凹凸があった場合でも、加圧時にシートに沿って圧力が均等になるので、回路基板ユニットにおいてセラミックス基板と金属板、または、これらとろう材とを面内方向均一に加圧することが可能となり、その結果、充分な接合状態とされた回路基板を製造することが可能となるという効果を奏する。
【図面の簡単な説明】
【図１】 本発明に係る回路基板の製造方法および製造装置の一実施形態を示す正断面図である。
【図２】 本発明における実施例を示す、加圧力と接合率および割れ発生率の関係を示すグラフである。
【符号の説明】
Ｓ シート
Ｗ 回路基板（回路基板ユニット）
１ 製造装置
１１，１２ 加圧板
１５ ばね[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a circuit board manufacturing method and a manufacturing apparatus, and more particularly to a technique suitable for use in manufacturing a joined body of a ceramic substrate and a metal plate useful for manufacturing a circuit board used in a power module or the like.
[0002]
[Prior art]
Conventionally, in semiconductor devices used for power modules, Cu, Al, metal circuits such as alloys containing these metals and heat dissipation on the front and back surfaces of ceramic substrates such as alumina, beryllia, silicon nitride, and aluminum nitride. A circuit board in which a board is formed is used. Such a circuit board is characterized in that a high insulating property can be obtained more stably than a composite substrate of a resin substrate and a metal substrate or a resin substrate.
[0003]
[Patent Document 1]
JP 2000-335983 A [Patent Document 2]
Japanese Patent Laid-Open No. 08-32204 [Patent Document 3]
Japanese Patent Laid-Open No. 10-178270
As a method for joining the ceramic substrate and the metal circuit or the heat radiating plate, there are roughly classified a brazing method using a brazing material and a method not using a brazing material. A typical example of the latter is a DBC method in which a tough pitch copper plate and alumina are joined using a eutectic point of Cu-O.
[0005]
[Problems to be solved by the invention]
However, in any case, in order to obtain a sufficiently high bonding between the ceramic substrate and the metal plate, the ceramic substrate surface is free of warping and undulation by machining so that the metal plate and the ceramic substrate are sufficiently adhered during bonding. The ceramic substrate with less warpage and undulation is selected, but in this way, when machining, it costs work, and the price of the selected ceramic substrate is high, There was a problem that the productivity was low and the cost was high.
In addition, when the bonding pressure is increased to 60 × 10 ⁴ Pa or more in order to enhance the bondability of aluminum nitride having a thickness of 0.635 mm, there is a problem that the ceramic substrate is cracked and is not practical. .
[0006]
The present invention has been made in view of the above circumstances, and has an object of easily and inexpensively manufacturing a bonded body having a sufficiently high bond as a power module circuit board using a ceramic substrate that has been fired. That is what we are trying to achieve.
[0007]
[Means for Solving the Problems]
A method of manufacturing a circuit board according to the present invention includes a ceramic substrate and a metal plate brought into contact with or without a brazing material to form a circuit board unit, and a plurality of circuit board units are pressure bonded at a high temperature. When manufacturing circuit boards,
While pressing a sheet having a cushioning property and heat resistance between the plurality of circuit board units, the sheet is formed by laminating a plurality of carbon thin films and spraying a release agent on the surface. The above problem was solved.
In the present invention, it is desirable to apply a pressure of 5 × 10 ⁴ Pa to ⁵ × 10 ⁵ Pa in the direction perpendicular to the ceramic substrate during high-temperature pressure bonding.
The apparatus for manufacturing a circuit board according to the present invention makes a circuit board unit by bringing a ceramic substrate and a metal plate into contact with each other with or without a brazing material, and pressurizing and bonding a plurality of circuit board units at a high temperature. An apparatus for manufacturing a circuit board,
A pressurizing means for pressurizing the plurality of circuit board units;
A sheet having a cushioning property and heat resistance, and located between the circuit board units at the time of pressurization,
Comprising
The sheet has a plurality of carbon thin films stacked on the surface and sprayed with a release agent to solve the above problems.
Further, in the present invention, the pressurizing means may employ means capable of applying a pressure of 5 × 10 ⁴ Pa to ⁵ × 10 ⁵ Pa in the vertical direction with respect to the ceramic substrate at the time of high-temperature press bonding. it can.
[0008]
In the present invention, the ceramic substrate is warped, swelled, uneven in thickness, or uneven in the surface by applying pressure in a state where a cushioning and heat-resistant sheet is sandwiched between the plurality of circuit board units. Even when the pressure is applied, the pressure is equalized along the sheet at the time of pressurization, so that it is possible to pressurize the ceramic substrate and the metal plate or these and the brazing material uniformly in the in-plane direction in the circuit board unit. It is possible to manufacture a circuit board in a sufficiently bonded state.
Thereby, for example, even when the thickness of the ceramic substrate changes in a taper shape, that is, when the inclination of the thickness occurs in the in-plane direction, the ceramic substrate and the metal plate or the brazing material and the brazing material are aligned in the in-plane direction. A circuit board having a required bonding strength can be manufactured by applying uniform pressure. Such simple deformation or uneven thickness can be dealt with by sandwiching one or more sheets between one or both of the upper and lower pressure plates.
[0009]
In the present invention, for example, when aluminum nitride having a thickness of about 100 mm × 100 mm and a thickness of about 0.635 mm is applied as the ceramic substrate, 9.8 × 10 ^{4 in the} direction perpendicular to the ceramic substrate during high-temperature pressure bonding. It is preferable to apply a pressure of ˜3.9 × 10 ⁵ Pa (1 to 4 kgf / cm ² ), and when this pressure is set, the plate bodies of the circuit board unit can be sufficiently joined together. is there. Here, when the applied pressure is smaller than the above range, it is not preferable because sufficient bonding cannot be obtained. When the applied pressure is larger than the above range, the ceramic substrate is cracked or damaged. This is not preferable because there is a possibility.
[0010]
In the present invention, a plurality of circuit board units and sheets having cushioning properties and heat resistance are alternately stacked and pressed by a pressurizing means to warp the ceramic substrate, swell, and local thickness unevenness. Even if there are surface irregularities, the sheet has cushioning properties, so the pressure is even along the sheet when pressed, so the ceramic substrate and metal plate or these in the circuit board unit It becomes possible to press the material uniformly in the in-plane direction.
In such a state where the pressure is evenly applied, the ceramic substrate and the metal plate or these and the brazing material can be uniformly joined in the in-plane direction of the ceramic substrate by heating in a heat treatment furnace or the like. Become. Therefore, it is possible to provide a manufacturing apparatus capable of manufacturing a circuit board in a sufficiently bonded state. At the same time, since the sheet has heat resistance, it becomes possible to perform the necessary bonding in the circuit board unit in a state where the heat does not exert an unnecessary influence on the circuit board unit from the sheet.
Here, the cushioning property of the seat means a state capable of realizing a pressurized state in which sufficient bonding is performed in each circuit board unit.
[0011]
In the present invention, the pressure means applies a pressure of 5 × 10 ⁴ Pa to ⁵ × 10 ⁵ Pa in the vertical direction with respect to the ceramic substrate, and the circuit board unit and the sheet are overlapped, When the metal plate is made of Al, it is about 600 to 650 ° C., and when the metal plate is made of Cu, it is put into a heating furnace that is made about 1000 ° C. Necessary joining can be performed in the circuit board unit in a state where unnecessary influence is not exerted.
Here, the heat resistance of the sheet means that the circuit board unit is capable of realizing a pressurized state in which the above cushioning properties are not lost while the circuit board unit does not have an unnecessary influence from the sheet due to heat. Yes.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of a circuit board manufacturing method and a manufacturing apparatus according to the present invention will be described with reference to the drawings.
FIG. 1 is a front sectional view showing a manufacturing apparatus of this embodiment. In the figure, reference numeral 1 denotes a circuit board manufacturing apparatus, and W denotes a circuit board (circuit board unit).
[0013]
In the present embodiment, when the circuit board W is manufactured by bonding the metal plate and the ceramic substrate, the circuit board unit W is heated in a pressurized state. The pressure at this time is about 5 × 10 ⁴ Pa to ⁵ × 10 ⁵ Pa. It is difficult to cause the metal plate to follow the warpage or undulation of the ceramic substrate or local variations in thickness only by this pressure. In order to solve this, in the present embodiment, for each circuit board unit W to be each circuit board, the sheet S having cushioning properties and heat resistance is sandwiched and heated to thereby increase the pressure in the in-plane direction of the substrate. It is possible to disperse and pressurize the circuit board unit W evenly in the in-plane direction.
[0014]
In order to realize such a manufacturing method, the following manufacturing apparatus 1 is used in the present embodiment.
[0015]
As shown in FIG. 1, the manufacturing apparatus 1 includes a pair of parallel pressure plates 11, 12, a fixed plate 13 provided in parallel with the pressure plate 11 across the pressure plate 12, and the pressure plate 11. The pressure plate 11 and the fixed plate 13 are fixed to each other, and the position restricting portions 14 and 14 for restricting the movement position of the pressure plate 12 and the pressure plate from the fixed plate 13 toward the pressure plate 11 side. 12 and springs 15 for urging 12.
The fixing plate 12 can be translated in the direction perpendicular to the surface thereof along the position restricting portions 14 and 14, and can be simultaneously urged in the direction indicated by the arrow A by the springs 15 and 15. These constitute pressurizing means for pressurizing the circuit board unit W.
[0016]
In such a manufacturing apparatus, the circuit board unit W and the sheet S are alternately arranged between the pressurizing plates 11 and 12 in a state where the interval between the pressurizing plates 11 and 12 is widened in the opposite direction to the arrow A by fixing means (not shown). Put it on top of each other.
The circuit board unit W is configured such that a thin plate of an Al—Si alloy as a brazing material is disposed on both sides of a ceramic substrate made of aluminum nitride having a plate thickness of 0.635 mm and an aluminum plate (metal plate) is disposed on the outside thereof.
The sheet S is formed by laminating a plurality of carbon (graphite) thin films like mica so as to have cushioning properties and heat resistance, and is sprayed with BN (boron nitride) as a mold release agent on the surface. The
Fifteen circuit board units W are placed between the pressure plates 11 and 12 with the sheet S therebetween, and are subjected to a single heat treatment.
[0017]
In the manufacturing apparatus 1 on which the 15 circuit board units W are mounted as described above, the fixing means (not shown) is released and the pressure plate 12 is urged in the direction of arrow A by the springs 15 and 15. Thus, in each circuit board unit W, the ceramic substrate and the brazing material, and the brazing material and the aluminum plate are pressurized.
[0018]
Thus, when the circuit board unit W and the sheet S are alternately stacked and positioned and pressed by the pressure plates 11 and 12, the sheet S has a cushioning property, thereby warping the ceramic substrate. Even when there is undulation, local thickness unevenness, or surface unevenness, the pressure during pressing can be made uniform along the sheet. Thereby, in the circuit board unit W, the ceramic substrate and the brazing material, and the brazing material and the aluminum plate can be uniformly pressed in the in-plane direction.
Furthermore, even when the thickness of the ceramic substrate changes in a taper shape, that is, when the thickness is inclined in the in-plane direction, the ceramic substrate, the aluminum plate, and the brazing material are uniformly pressed in the in-plane direction. Can do.
[0019]
Next, the biasing force of the springs 15 and 15 is controlled to adjust the pressure applied in the vertical direction to the ceramic substrate as 9.8 × 10 ⁴ Pa to 3.9 × 10 ⁵ Pa (1 to ⁴ kgf / cm ² ). In this state, the manufacturing apparatus 1 that maintains the pressure applied to the circuit board unit W is placed in a heat treatment furnace or the like having a temperature condition of about 600 to 650 ° C. to perform heat bonding. Here, when the applied pressure is smaller than the above range, it is not preferable because sufficient bonding cannot be obtained. When the applied pressure is larger than the above range, the ceramic substrate is cracked or damaged. This is not preferable because there is a possibility.
[0020]
The ceramic substrate and the aluminum plate, or these, and the brazing material are uniformly joined in the in-plane direction of the ceramic substrate by placing in a heat treatment furnace or the like in a state where the pressure is uniformly applied in this way. At this time, since the sheet S has heat resistance, the cushioning property of the sheet S is not lost by heat, so that the heat treatment can be performed while maintaining the above-described pressure state. It is possible to perform necessary joining in the circuit board unit W in a state where the circuit board unit W has no unnecessary influence from S.
[0021]
After the predetermined heat treatment is completed, the circuit board W is taken out and surface treatment such as polishing is performed if necessary.
[0022]
In the present embodiment, as described above, since the circuit board unit W is heat-bonded in a state where the sheet S is sandwiched and pressed, the ceramic substrate warps, swells, local thickness unevenness, or surface unevenness. Even in this case, since the sheet S has a cushioning property, the pressure is equalized along the sheet S at the time of pressurization. Therefore, in the circuit board unit W, the ceramic substrate and the aluminum plate (metal plate) or these will be taken. It becomes possible to press the material uniformly in the in-plane direction.
By heating in such a state that the pressure is evenly applied, the ceramic substrate and the aluminum plate or these and the brazing material can be uniformly bonded in the in-plane direction of the ceramic substrate. Therefore, the circuit board W in a sufficiently bonded state can be manufactured. At the same time, since the sheet S has heat resistance, it is possible to perform necessary bonding in the circuit board unit W in a state where the heat does not exert an unnecessary influence on the circuit board unit W from the sheet S.
[0023]
The bonding temperature is 800 to 850 ° C. when an oxygen-free copper plate is bonded using an Ag—Cu—Ti brazing paste, and 600 to 650 ° C. when an Al—Si alloy foil is used as a bonding material. When copper is joined as a metal plate, the temperature is about 1000 ° C.
[0024]
When joining copper as the metal plate is a bonding temperature, it is assumed to be able to sufficiently follow the warping or undulation of the ceramic substrate at a pressure of ^{5 × 10 4 Pa~10 × 10 4} Pa, especially, Al and The Al alloy is a suitable material because it is sufficiently softened at a general brazing temperature of 500 to 640 ° C. to easily follow the unevenness of the ceramic substrate.
[0025]
Further, the metal plate may be a single layer or a laminate of two or more types of clads. Examples of the laminated body include Al—Ni, Al—Ni—Cu, Al—Mo, Al—W, and Al—Cu. These are appropriately selected depending on the purpose of use and the joining method.
[0026]
The material of the ceramic substrate is not particularly limited, and usual alumina, aluminum nitride, and silicon nitride are used. For the production of the power module circuit board, a silicon nitride substrate or an aluminum nitride substrate with good insulation is desirable.
[0027]
The brazing material may be the same as the conventional one when it is used. For example, an Al-Si based alloy foil is most commonly used for bonding an aluminum nitride substrate and an Al plate, but even if not a foil, a powdered one or a metal mixed powder having a composition thereof, Pastes with organic binders or solvents can be used.
The brazing material may be disposed on either the ceramic side or the metal plate side, and the alloy foil may be laminated with the metal plate in advance.
[0028]
As the sheet S, it is only necessary to have cushioning properties and heat resistance, and in addition to carbon (graphite), a sheet made of ceramic wool (mainly heat resistant up to 1250 ° C.) mainly composed of alumina is applicable. is there.
[0029]
【Example】
Examples of the present invention will be described below.
As described above, when the circuit board W is manufactured by joining the aluminum plate and the aluminum nitride substrate, the circuit board unit W and the sheet S are alternately stacked and pressed using the manufacturing apparatus of the present invention. When heating, the pressure for joining was changed in the range of 4.9 × 10 ⁴ Pa to 6.8 × 10 ⁵ Pa (0.5 to 7 kgf / cm ² ).
Here, the circuit board unit W has an Al—Si alloy thin plate as a brazing material on both sides of a ceramic substrate made of aluminum nitride having a thickness of 0.635 mm and an aluminum plate (metal plate) on the outside thereof. The sheet S is formed by laminating a plurality of carbon (graphite) thin films like mica so as to have cushioning properties and heat resistance, and the surface is sprayed with BN (boron nitride) or the like as a release agent. In the circuit board unit W, 15 sheets are placed between the pressure plates 11 and 12 with the sheet S interposed therebetween, and subjected to one heat treatment.
After making 200 circuit boards W at each pressure, the bonding state is observed by ultrasonic flaw detection (SAT), and when a non-bonded portion of 1 mmφ or more or a non-bonded area of 5% or more is recognized as a bonding failure. did. Moreover, the presence or absence of cracks in the ceramic substrate was measured. The results are shown in Table 1.
[0030]
[Table 1]

[0031]
From this result, it is found that the sheet is sandwiched with almost all the applied pressure, the joining rate is higher, and if the applied pressure is smaller than 4.9 × 10 ⁴ Pa (0.5 kgf / cm ² ), there is no sheet. The joining rate is lower than 60%. In addition, the cracking rate is smaller when the sheet is sandwiched at almost all the pressing force, and when the pressing force is greater than 6.9 × 10 ⁵ Pa (7 kgf / cm ² ), the cracking rate is 50% even when the sheet is sandwiched. Will be exceeded.
As a result, in order to maintain at least 50% or more as a preferable yield of the product, the pressing force is set in a range of 9.8 × 10 ⁴ Pa to 3.9 × 10 ⁵ Pa (1 to ⁴ kgf / cm ² ). It is preferable.
[0032]
【The invention's effect】
According to the circuit board manufacturing method and the manufacturing apparatus of the present invention, the ceramic substrate is warped, swelled, locally, by applying pressure in a state where a sheet having cushioning properties and heat resistance is sandwiched between a plurality of circuit board units. Even if there is general thickness unevenness or surface unevenness, the pressure is equalized along the sheet when pressed, so the ceramic substrate and metal plate, or these and the brazing material in the circuit board unit are in-plane uniform As a result, it is possible to produce a circuit board in a sufficiently bonded state.
[Brief description of the drawings]
FIG. 1 is a front sectional view showing an embodiment of a circuit board manufacturing method and manufacturing apparatus according to the present invention.
FIG. 2 is a graph showing the relationship between the applied pressure, the bonding rate, and the crack generation rate, showing an example in the present invention.
[Explanation of symbols]
S Sheet W Circuit board (Circuit board unit)
1 Manufacturing Equipment 11, 12 Pressure Plate 15 Spring

Claims (4)

When a ceramic substrate and a metal plate are brought into contact with or without a brazing material to form a circuit board unit, and a plurality of circuit board units are pressure-bonded at a high temperature to produce a circuit board,
While pressing a sheet having a cushioning property and heat resistance between the plurality of circuit board units, the sheet is formed by laminating a plurality of carbon thin films and spraying a release agent on the surface. A method of manufacturing a circuit board characterized by the above. 2. The circuit board manufacturing method according to claim 1, wherein a pressure of 5 * 10 < ⁴ > Pa to 5 * 10 < ⁵ > Pa is applied in a direction perpendicular to the ceramic substrate during high-temperature pressure bonding. An apparatus for manufacturing a circuit board by press-bonding a plurality of circuit board units under high temperature while bringing a ceramic substrate and a metal plate into contact with or without a brazing material to form a circuit board unit. There,
A pressurizing means for pressurizing the plurality of circuit board units;
A sheet having a cushioning property and heat resistance, and located between the circuit board units at the time of pressurization,
Comprising
2. The circuit board manufacturing apparatus according to claim 1 , wherein the sheet is formed by laminating a plurality of carbon thin films and spraying a release agent on the surface . 4. The circuit according to claim 3, wherein the pressurizing means can apply a pressure of 5 * 10 < ⁴ > Pa to 5 * 10 < ⁵ > Pa in a direction perpendicular to the ceramic substrate during high-temperature press bonding. Board manufacturing equipment.

Images