WO2002015654A1

WO2002015654A1 - Mounting method and mounting device

Info

Publication number: WO2002015654A1
Application number: PCT/JP2001/006551
Authority: WO
Inventors: Akira Yamauchi
Original assignee: Toray Engineering Co., Ltd.
Priority date: 2000-08-04
Filing date: 2001-07-30
Publication date: 2002-02-21
Also published as: JP2002050860A; TW529061B

Abstract

A mounting method and a mounting device in which articles having an electrode are bonded by coating the electrode (3) of at least one article (2) to be bonded with nonconductive paste (20) immediately after that electrode (3) is irradiated with energy wave or energy particles (4) for cleaning. Since the electrode of the article to be bonded is prevented effectively against primary oxidation and secondary oxidation and fluxless bonding is realized, the process is simplified and the quality of a bonded article can be enhanced.

Description

Akira Itoda

Mounting method and mounting device

Technical field .

The present invention relates to a mounting method and a mounting apparatus for bonding objects to be bonded provided with electrodes (for example, a chip and a substrate).

Background technology

It is well known that an object to be bonded having electrodes, for example, a chip having a bump formed as an electrode and a substrate are bonded to each other, for example, a bonding method by heating. As a typical method, the electrodes are cleaned prior to bonding, and after cleaning, a non-conductive paste is applied to ensure the sealability of the bonded parts after bonding, as well as the reliability of bonding and the bonding of the electrodes during bonding. A method of applying a flux before joining to remove oxides is known.

However, in the conventional method as described above, after the electrode of the object to be bonded is washed to prevent primary oxidation and then the time until the application of the non-conductive paste or flux is long, the electrode of the object to be bonded, for example, a solder bump, May be oxidized.

Although secondary oxidation can be prevented to some extent by applying a flux before heat bonding, the application of flux requires the removal of flux residues after bonding, which complicates the process. Inviting.

Disclosure of the invention

Therefore, an object of the present invention is to efficiently prevent primary oxidation and secondary oxidation of an electrode of an object to be bonded and to achieve fluxless bonding, and to realize an efficient mounting in which the process can be simplified. It is to provide a method and a mounting device.

In order to achieve the above object, in a mounting method according to the present invention, at the time of joining objects to be bonded provided with electrodes, at least one of the electrodes of the object is irradiated with energy waves or energy particles. Immediately after the cleaning, a non-conductive paste is applied, and then the two objects are joined.

In this mounting method, immediately after the electrodes of at least one of the objects are cleaned by irradiating them with energy waves or energy particles, the non-conductive paste can be applied at the same position as the cleaning. Or at least one contacted When cleaning the electrode of the compound by irradiating the energy wave or the energy particles, the object to be bonded and the means for irradiating the energy wave or the energy particles are relatively moved, for example, the relative movement in the horizontal direction is performed. It can also be washed while keeping it. In this case, the non-conductive paste may be applied immediately after the cleaning at the position after the relative movement.

As a more specific embodiment of the method according to the present invention, for example, one of the objects to be bonded is a substrate or a chip on which solder bumps as electrodes are formed, and the solder bumps are cleaned by irradiating them with energy waves or energy particles. Immediately thereafter, at the same position or at a position after the relative movement, a non-conductive paste is applied on the object, and thereafter, the solder bump of the object is connected to the electrode of the other object. It is a method of matching. The other object to be bonded is either a chip or a substrate whose electrode is formed by a gold bump, or a substrate or a chip having a solder bump formed as an electrode similarly to the one object to be bonded. Is also good. In the latter case, the solder bump on the other object is also cleaned immediately after being irradiated with energy waves or energy particles, at the same position, or at a position after the relative movement. A non-conductive paste may be applied onto the object to be bonded, and then the solder bumps of both objects may be bonded. '

Regarding the joining of the solder bump electrode and the gold bump electrode, the combination of the solder bump formed substrate and the gold bump formed chip, the solder bump formed chip and the gold bump formed substrate Combination, and further, bonding in a combination of a chip on which solder bumps are formed and a chip on which gold bumps are formed, and the like are possible. As a bonding method, typically, heating bonding using a heater or the like can be applied, but not limited thereto, and ultrasonic bonding using ultrasonic waves can also be applied.

The term “electrode” as used in the present invention refers to an electrode which is formed in a flat shape at the same level as or slightly higher than the surface of an object to be bonded, and It is a concept that includes a so-called bump form formed on the surface of an object so as to protrude in a convex shape. Therefore, the bonding between electrodes is a concept that includes the bonding between bumps and the bonding between bumps and flat electrodes. - As an energy wave or an energy particle in the present invention, plasma, ion beam, atomic beam, radical beam, laser, or the like can be used.Atmospheric pressure plasma is used particularly in view of cleaning effect and simplification of the device configuration. Is preferred. For atmospheric pressure plasma, it is desirable to apply a voltage in the tube so as not to charge the workpiece.

A mounting apparatus according to the present invention is a mounting apparatus for joining objects to be joined provided with electrodes, and means for cleaning at least one of the electrodes of the objects by irradiating the electrodes with energy waves or energy particles. A cleaning means and a non-conductive paste coating means which can be moved substantially integrally. The above-mentioned cleaning means is preferably configured to be a means that can be relatively moved with respect to the article to be cleaned, whereby desired cleaning can be performed while being relatively moved. Also, the means for applying the non-conductive paste can be configured as a means that can be relatively moved with respect to the workpiece. For example, if the non-conductive paste applying means is arranged at a fixed distance from the above-mentioned cleaning means, it can be moved substantially integrally with the cleaning means and can be moved relative to the workpiece. However, it becomes possible to apply the non-conductive paste immediately after performing the necessary cleaning. Further, the coating means of the non-conductive base may be configured to be movable relative to the object to be bonded independently of the cleaning means after the cleaning by the cleaning means. However, in this case, the cleaning means which has completed the cleaning may move integrally with the non-conductive paste applying means. In this way, the position of the cleaning means and the means of applying the non-conductive paste are adjusted substantially by being integrally moved, so that the non-conductive paste can be applied at the same position immediately after the cleaning. become. Alternatively, the cleaning means and the means for applying the non-conductive paste are integrally movable so as to have a predetermined positional relationship. Immediately after the cleaning, a nonconductive paste can be applied at a position after the relative movement.

In the present invention, the purpose of cleaning by irradiating energy waves or energy particles is to remove contaminants (contamination) existing on the surface. The term “contamination” refers to adhesion to a substrate electrode or the like. Organic matter, oxides and other impurities. In addition, the joint in the present invention is formed of ordinary lead / The concept includes a joint made of what is called an alternative solder, such as tin / silver, Bi / In, and a joint made of gold / tin and gold-Z gold, in addition to a joint made of tin solder. Further, the electrode in the present invention includes not only an electrode with an electric wiring but also a dummy electrode without an electric wiring. Further, the chip in the present invention refers to everything on the side to be joined to the substrate, for example, IC chip, semiconductor chip, optical element, surface mount component, wafer, etc. irrespective of the type and size. Also, the term “substrate” means, for example, a resin substrate, a glass substrate, a film substrate, a chip, a wafer, and the like, irrespective of the type and size thereof, everything on the side joined to the chip.

In the mounting method and the mounting apparatus according to the present invention as described above, since the non-conductive paste is applied immediately after the electrode is cleaned, it is not left for a long time before the paste is applied after the cleaning. In addition, the coating with the non-conductive paste reliably prevents the primary oxidation of the washed electrode. In addition, since the non-conductive paste is applied immediately after the cleaning at the same position as the cleaning or immediately after the relative movement, the positional accuracy of the coating is easily secured, and the cleaned electrode is A precise non-conductive paste is applied to ensure that it is covered.

In this state, the objects to be joined are joined together (for example, by heat joining), so that the electrode covered with the non-conductive paste immediately after washing has no chance to come into contact with the surrounding atmosphere until joining, and the secondary Oxidation will also be prevented. In addition, by covering the electrode surface immediately after cleaning with a non-conductive paste as described above, not only prevention of oxidation but also a reaction with a metal surface other than oxidation or an undesired one that hinders a subsequent bonding step is undesirable. Adhesion of foreign substances and reactants (for example, adsorption of CO, etc.) can be prevented. Therefore, fluxless joining becomes possible, and by using fluxless, a series of steps until joining is completed is greatly simplified. In addition, in the joining process, a non-conductive paste has already been applied, and the flux process and the residue removal process are not necessary. You. In addition, it is possible to effectively prevent both primary oxidation and secondary oxidation of the electrode of the object to be bonded, and also to effectively prevent contamination such as foreign matter, thereby ensuring excellent quality of the bonded product. .

Furthermore, a non-conductive paste is applied substantially simultaneously with the cleaning. Since the secondary oxidation is prevented, it is not necessary to consider the time until the bonding process. As a result, for example, it is possible to stock in a state where a non-conductive paste is applied, and it is possible to provide a buffer in a series of production processes as necessary.

Brief explanation of drawings

FIG. 1 is a schematic configuration diagram of a mounting device according to an embodiment of the present invention.

FIG. 2 is an enlarged schematic side view showing a state of washing and application of a non-conductive paste in the apparatus of FIG.

FIG. 3 is a schematic sectional view showing the state of the substrate after the application of the non-conductive paste. FIG. 4 is a schematic cross-sectional view showing a state of joining between objects to be joined.

BEST MODE FOR CARRYING OUT THE INVENTION

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings. FIG. 1 shows a mounting device according to an embodiment of the present invention. In FIG. 1, the mounting device 1 is a means for cleaning at least one electrode of the substrate 2 as an object to be bonded, in this embodiment, a solder bump 3 formed on the substrate 2 by irradiation of energy waves or energy particles 4. And bonding means 7 for bonding the chip 6 as the other object to be bonded to the substrate 2. In this embodiment, the gold bump 8 is formed on the chip 6, and it is desirable to remove the contamination on the surface of the gold bump 8 by, for example, Ar plasma. No paste application is performed because there is no problem. The gold bump 8 can be formed, for example, as a metal bump.

The cleaning means 5 is provided in the cleaning chamber 9 in the present embodiment, and plasma is used as the energy wave or the energy particles 4. If atmospheric pressure plasma is used, the cleaning chamber 9 can be omitted. In the vicinity of the cleaning means 5, a non-conductive paste application means (dispenser) 10 which is movable integrally with the cleaning means is provided. The application means 10 is adapted to apply the non-conductive paste at the same position immediately after cleaning by the cleaning means 5. In the above-described cleaning, as described above, the substrate 2 to be cleaned and the cleaning means 5 are moved relative to each other, for example, in a horizontal direction, and the cleaning is performed during the relative movement. At the position after the relative movement where An electrically conductive paste may be applied.

In the present embodiment, the substrate 2 which has been washed and coated with the non-conductive paste is transported to the bonding means 7 provided in the bonding chamber 12 by the transport port 11. The joining chamber 12 does not need to be particularly provided, but if the joining chamber 12 is provided, the inside of the joining chamber 12 can be set to, for example, an inert gas atmosphere or a reduced pressure atmosphere as necessary. . In order to seal the inside of the cleaning chamber 9 or to make the inside of the cleaning chamber 9 and the inside of the joining chamber 12 different atmospheres, it is preferable to provide a shutter means 13 between them.

The bonding means 7 heats and bonds the solder bumps 3 of the substrate 2 to which the non-conductive paste has been washed and the gold bumps 8 of the chip 6. The joining means 7 has, for example, a stage 14 for holding the substrate 2 and a tool 15 for holding the chip 6. In this embodiment, the position of the stage 14 can be adjusted in the X and Y directions (horizontal direction) or in the X and Y directions (horizontal direction) and the rotation direction (direction). Tool 15 can be adjusted in the Z direction (vertical direction), or can be adjusted in the Z direction (vertical direction) and the rotation direction (0 direction). In the present invention, these position adjustment methods are not particularly limited. In addition, the upper and lower workpieces are positioned between the stage 14 and the tool 15 in order to detect the amount of positional deviation between the upper and lower workpieces and to adjust the position within the desired position accuracy range based on that. Recognition means 16 for reading the recognition mark attached to the joint side is provided so as to be able to advance and retreat. As the recognizing means 16, any means such as a CCD camera, an infrared camera, an X-ray camera, and a sensor may be used as long as it is a means for recognizing the recognition mark regardless of the type or size. The recognition means 16 can also be adjusted in the X and Y directions (and, in some cases, further in the Z direction (vertical direction)). Further, the recognition means may be configured as another recognition means which separately reads the recognition marks provided on the upper and lower workpieces, respectively. The alignment may be performed on either the tool side or the stage side, or on both sides.

Using the mounting apparatus 1 configured as described above, the mounting method according to the present invention is implemented as follows.

′ In this embodiment, as shown in FIG. Then, the solder bumps 3 on the substrate 2 are cleaned, and immediately thereafter, the non-conductive paste 20 is applied to the cleaned solder bumps 3 by the application means 10 which was aligned with the cleaning means 5. Is done. This operation is repeated according to the number of the solder bumps 3 formed on the substrate 2 ゃ the formation area of the solder bumps 3. Since cleaning is performed by atmospheric pressure plasma, no special atmosphere forming means is required, and the structure of the cleaning means can be simple. After the cleaning and the application of the non-conductive base, the cleaned solder bumps 3 are covered with the non-conductive paste 20 as shown in FIG. The coating amount of the non-conductive base 20 may be adjusted by appropriately adjusting the coating means 10, but it is preferable that the coating amount is not too large. A non-conductive paste 20 is applied to the solder bumps 3 on the substrate 2 immediately after or substantially simultaneously with the cleaning, and the cleaned solder bumps 3 are substantially completely non-conductive paste 20. As a result, the primary oxidation of the cleaned solder bump 3 is effectively prevented. The washed solder bumps 3 will not be exposed to the air thereafter, so they can be left as they are, for example, stocked as a production buffer. .

The substrate 2 on which the non-conductive paste 20 has been applied is transported to the bonding means 7 by the transport robot 11 and held at a predetermined position on the stage 14. After the position of the chip 6 held by the tool 15 and the position of the substrate 2 held by the stage 14 are aligned, the objects to be joined are heated and joined. As shown in FIG. 4, the heat bonding is performed by bonding the gold bumps 8 of the chip 6 which is not liable to be oxidized in the non-conductive paste 20 and the substrate 2 which has been prevented from being oxidized by the non-conductive paste 20. Since the solder bumps 3 are joined together, and especially the solder bumps 3 are heated in the non-conductive paste 20, secondary oxidation due to heating is also effectively prevented.

Heat bonding is performed in a state where both primary oxidation and secondary oxidation are prevented, so that the flux conventionally used is basically unnecessary for this bonding. In other words, 'fluxless bonding is possible. Since it is fluxless, there is no need for a flux coating process or flux residue removal process, greatly simplifying a series of processes and shortening the tact time.

Predetermined bonding between substrate 2 and chip 6 is performed while preventing primary oxidation and secondary oxidation Therefore, the quality after bonding is extremely excellent, even though it is a simple series of steps. As the non-conductive paste, one containing conductive particles can be used. Therefore, even when the non-conductive paste remains between the bumps to be joined, The reliability of joining can be increased. The form of the article to be joined is not particularly limited as long as it conforms to the object of the present invention.

Further, the present invention is effective not only for solder bumps but also for any electrode that undergoes primary oxidation and / or secondary oxidation.

Industrial availability

The mounting method and the mounting apparatus of the present invention can be applied to any mounting that joins objects to be bonded provided with electrodes. By applying the present invention, a series of processes can be simplified, and the quality of the bonded object can be improved. Can be improved.

Claims

Scope of demand

1. At the time of joining objects to be joined equipped with electrodes, a non-conductive paste is applied immediately after at least the electrodes of one of the objects are cleaned by irradiating them with energy waves or energy particles. A mounting method characterized by joining both workpieces later.

2. The mounting method according to claim 1, wherein the non-conductive paste is applied at the same position immediately after at least one of the electrodes of the object is cleaned by irradiating it with energy waves or energy particles.

3. When cleaning at least one of the electrodes of the object by irradiating the energy wave or the energy particles with the energy wave or the energy particles, cleaning the electrode while the object and the means for irradiating the energy wave or the energy particles are relatively moved. The implementation method of claim 1.

4. At least one of the objects to be bonded is a substrate or a chip on which solder bumps are formed as electrodes. 2. The mounting method according to claim 1, wherein the solder bump is applied on the object to be bonded, and then the solder bump of the object to be bonded and an electrode of the other object are bonded.

5. The mounting method according to claim 1, wherein atmospheric pressure plasma is used as energy waves or energy particles.

6. A mounting device for joining objects to be joined provided with electrodes, wherein at least one of the objects to be joined is cleaned by irradiating energy waves or energy particles to the electrodes; A coating device for applying a non-conductive paste that can be moved integrally integrally.

7. The cleaning means according to claim 6, wherein the cleaning means comprises means capable of moving relative to the workpiece.

8. The mounting apparatus according to claim 6, wherein the means for applying the non-conductive paste comprises means capable of moving relative to the workpiece.

9. The mounting apparatus according to claim 7, wherein the non-conductive paste applying means is provided at a predetermined interval from the cleaning means.

10. The mounting apparatus according to claim 6, wherein the means for applying the non-conductive paste is a means capable of moving relative to the object after being cleaned by the cleaning means.