JP2009218436A5 - - Google Patents

Description

Surface mount device mounting structure, repair method thereof, and printed circuit board

The present invention relates to a mounting structure for a surface mounting device used in electronic devices such as a small personal computer, a mobile phone, and a video camera, and a mounting technology capable of repairing .

  In recent years, electronic device products have been remarkably multifunctional, and demands for miniaturization and weight reduction are very high. Therefore, solder bump connection type such as BGA (Ball Grid Array) and CSP (Chip Size Package) is used instead of the lead connection type semiconductor device represented by the conventional QFP (Quad Flat Package). Many semiconductor devices are used. However, mobile devices that are supposed to be carried by people are required to have high reliability against impacts such as dropping due to carelessness of the user. In general, in a mounting structure of a solder bump connection type semiconductor device such as BGA or CSP, an impact is directly transmitted to a solder connection portion. Therefore, compared with a mounting structure of a lead connection type semiconductor device having a stress relaxation function by a lead. Connection reliability is poor. Therefore, various reinforcements are made to improve reliability. In many cases, so-called underfill, in which a thermosetting adhesive is injected between a semiconductor device and a printed circuit board to reinforce, is used.

  FIG. 13 is a cross-sectional view illustrating a configuration of a mounting structure of a solder bump connection type semiconductor device. Solder balls 54 of the semiconductor device 53 are connected to the lands 52 of the printed circuit board 51. The underfill 55 is inserted up to the mounting surface of the semiconductor device 53.

  Bump connection type semiconductor devices have increased the number of terminals for higher functionality and multi-functionality, and have become smaller and lighter, and accordingly, solder bump pitch and solder balls have been miniaturized. . Further, the land of the printed circuit board that receives this is also reduced in diameter. As a result, the connection area decreases, the strength of the connection portion decreases, and the reliability decreases. Therefore, the importance of reinforcement by underfill is increasing.

  In this method, a thermosetting resin is used as the underfill material. For this reason, it is extremely difficult to replace a BGA component when a defect in the BGA component or a connection failure between the BGA component and the printed circuit board is found after the BGA component is mounted on the printed circuit board.

In order to solve this problem, a semiconductor device mounting structure using an underfill material that can be repaired and an epoxy resin that softens at 150 ° C. as an underfill material has been proposed (for example, Patent Document 1). reference). In addition, a mounting structure of a semiconductor device using a resin composition capable of performing a process of peeling the semiconductor device from the mounting substrate while heating has been proposed (for example, see Patent Document 2). Also, by placing a jig on the upper surface of the semiconductor device via an adhesive and heating it, the jig is thermally cured and bonded to the upper surface of the semiconductor device with an adhesive, and the underfill between the printed circuit board and the semiconductor device In this state, a method for repairing a mounting structure of a semiconductor device is proposed in which the semiconductor device is physically peeled from the substrate using the jig (see Patent Documents 3 and 4).
JP 2001-220428 A JP-A-10-209342 JP-A-5-109838 JP 2006-303266 A

  In the repair methods described in Patent Documents 1 to 4, as shown in FIG. 14, the resin is softened by heating to remove the semiconductor device.

  In Patent Document 1, the repair is defined by whether or not the semiconductor device can be removed. There is no description regarding the removal of the resin residue 56, and no consideration is given to the removal of the resin residue at the time of repair.

Patent Document 2 describes a method of removing the resin residue 56 remaining on the printed board by heating to a predetermined temperature or impregnating with an organic solvent. However, in this case, there is a possibility of damaging the printed circuit board and components mounted on the periphery, and an organic solvent suitable only for removing resin residues is not always usable in the method of impregnating with an organic solvent.

Moreover, in the method described in Patent Document 3, the semiconductor device peeled off from the printed board remains fixed to the heater tool (jig) side. Therefore, the heater tool cannot be used as it is, and it cannot be reused after the semiconductor device is peeled off and, in some cases, the deposits remaining on the heater tool are removed.

On the other hand, in Patent Document 4, in order not to leave a deposit on the heater tool, which is a problem of Patent Document 3, a heat transfer plate having a heat conductivity higher than that of the upper surface of the semiconductor device is used as a thermosetting resin. Thus, a method of adhering to the entire upper surface of the semiconductor device is described. However, when the heat transfer plate is bonded to the upper surface of the semiconductor device with an adhesive, the semiconductor device may be damaged when the adhesive is peeled off from the semiconductor device, as described in Patent Document 3. Further, the repair is defined by whether or not the semiconductor device can be removed as described in Patent Document 1, and there is no description regarding the removal of the resin residue, and the removal of the resin residue at the time of repair is not considered.

Contact name, a semiconductor device is heated by heat conduction from the heater tool by adhering the heat Tatsuru the semiconductor device, when peeled from the printed circuit board by adsorption, the contact surface between the semiconductor device through the heater tool It is necessary to form an opening intake passage in the heater tool. For this reason, the contact area of the semiconductor device of the heater tool is reduced by the opening area of the intake passage, and heat conduction from the heater tool to the semiconductor device is deteriorated. Therefore, if the area of the intake passage is made as small as possible to increase the contact area between the heater tool and the semiconductor device, the suction force is reduced and the force for peeling off the semiconductor device is insufficient. For this reason, auxiliary work such as inserting a tool such as a knife or tweezers into the bonding portion between the semiconductor device and the printed board and prying it open is essential, and there is a risk of damaging surrounding components and the printed board.

As described above, the underfill always leaves an adhesive resin residue on the printed circuit board when it comes into contact with the entire lower surface of the semiconductor device. This causes damage to the resist on the printed circuit board and damage to the substrate itself. There is a fear. In addition, since the adhesive thickness varies, there is a risk that the difference between strong and weak adhesive force will occur at the bonding site, and the resist on the printed circuit board may be peeled off when it is heated and peeled off, causing damage to the base material itself. .

  The present invention has been made to solve such problems, and a printed circuit board capable of preventing damage when the semiconductor device is peeled off during repair work, and a surface mount device having the printed circuit board. An object is to provide a mounting structure.

In order to solve the above problems, the printed circuit board of the present invention has terminals arranged on one main surface, a mounting area on which a surface mounting device is mounted, and a periphery of the mounting area, and the surface mounting device is bonded to the mounting area. An adhesive region bonded with an agent, and the adhesive region is a foil land or a local resist. With this configuration, the adhesive is placed on the foil land or local resist, the surface mount device is fixed to the printed circuit board , and after it is assembled as a mounting structure, it can be repaired without damaging the printed circuit board. Can do.

The foil land may be covered with a resist. With this configuration, even when an adhesive is disposed on the resist covering the foil-like land and the surface-mounted device is fixed to the printed board, the repair can be performed without damaging the printed board.

The local resist may be arranged on the resist of the printed circuit board. With this configuration, even when the adhesive is disposed on the local resist on the resist of the printed board and the surface mount device is fixed to the printed board, the repair can be performed without damaging the printed board.

In order to solve the above problems, a mounting structure for a surface mounting device according to the present invention includes the above-described printed circuit board, a surface mounting device mounted by solder on the mounting area of the printed circuit board, and an adhesion area of the printed circuit board. And an adhesive for fixing the surface mount device. Since the adhesive is disposed on the foil land or the local resist of the printed circuit board, the adhesive remaining on the foil land or the local resist can be removed without damaging the printed circuit board at the time of repair.

  In addition, the adhesive may be configured using a material that softens when heated. With this configuration, the adhesive can be softened during repair, and the surface mount device can be easily peeled off.

Method for producing a surface-mounted device of the mounting structure of the present invention is soldered before Symbol surface mounted device on the mounting region of the printed circuit board, an adhesive for bonding the outer peripheral edge of the surface mounted device and the bonding region Apply and heat cure the adhesive.

Method of repairing a surface mounted device of the mounting structure of the present invention, in order to solve the above problems, after removing a portion of the adhesive by heat knife which is heated to a Jo Tokoro temperature, the surface mount devices The solder is heated to soften the adhesive, and at the same time, the solder is melted, the remaining adhesive is softened, and the surface mount device is peeled off from the printed circuit board in the melted state. Leveling. By this method, when the printed board is leveled, the adhesive residue is located on the foil land or the local resist, so that the repair can be performed without damaging the printed board.

According to the present invention, an independent adhesion area is provided around the mounting area of a printed circuit board on which a surface mounting device is mounted , and the surface mounting device is fixed to the adhesion area with an adhesive, thereby providing a semiconductor device during repair work. It is possible to provide a printed circuit board capable of preventing damage when peeling off and a mounting structure for a surface mount device having the printed circuit board.

(Embodiment 1)
FIG. 1 is a plan view showing a configuration of a surface mounting device mounting structure 1a according to Embodiment 1 of the present invention. The surface mount device 3 having the four corners bonded to each other by the adhesive 4 is disposed on the printed board 2a. FIG. 2 is a plan view showing the configuration of the printed circuit board 2a. A land 5 made of, for example, copper is disposed in a mounting region where the surface mounting device 3 is mounted on the printed circuit board 2a. Adhesive lands 6 made of copper, for example, are arranged outside the four corners of the mounting area.

  3 is a cross-sectional view of the surface mounting device mounting structure 1a in FIG. The printed circuit board 2 a includes lands 5, adhesive lands 6 (foil-like lands), an insulating substrate 11, and a resist 12. The insulating substrate 11 is formed of an insulating base material such as an epoxy resin. Multi-layered wiring is laid inside the insulating substrate 11. On the surface of the insulating substrate 11, lands 5 and adhesive lands 6 are arranged. The land 5 is connected to wiring (not shown) laid on the insulating substrate 11. The resist 12 is disposed on the insulating substrate 11 in a region where the land 5 and the adhesive land 6 are not formed. The adhesion land 6 is formed as an independent land without being connected to the wiring (not shown). The resist 12 is provided to ensure the insulation between the wiring laid on the surface of the insulating substrate 11 and the outside.

  The surface mount device 3 is packaged by a surface mount IC package, for example, a BGA type or LGA type CSP, in which connection terminals for electrical connection to the printed circuit board 2a are provided on the bottom surface. Connection terminals (not shown) provided on the surface mount device 3 are connected to lands 5 formed on the insulating substrate 11 via solder balls 13.

The adhesive 4 is, for example, a thermosetting resin, and is disposed on the adhesive land 6 and adhered to the four corners of the surface mount device 3. The adhesive 4 is not formed except on the adhesive land 6 and is not bonded to the resist 12. The four corners of the surface mount devices 3 are by Rukoto bonded to the bonding lands 6 by adhesive 4, and reinforce the joining of the mounting surface mount devices 3 on the printed circuit board 2a. In particular, reinforcing the four corners is effective against dynamic forces such as drop impacts.

  Next, a method for repairing the mounting structure 1a of the surface mounting device will be described. When the surface mount device 3 mounted on the printed board 2a is found to be defective during the manufacture of the surface mount device mounting structure 1a, the defective surface mount device 3 is removed from the print board 2a, and a new The surface mount device 3 is mounted on the printed circuit board 2a. 4A to 4F are cross-sectional views taken along the line AA in FIG. 1 showing the steps of the method for repairing the mounting structure 1a of the surface-mounted device.

  First, as shown in FIG. 4A, the adhesive 4 of the surface mounting device mounting structure 1a is removed with a heat knife. At this time, since the adhesive 4 is on the adhesive land 6, the adhesive 4 can be removed without damaging the printed circuit board 2a by the heat knife. As shown in FIG. 4B, the adhesive 4 may not be completely removed. Next, the mounting structure of the surface mount device is heated to a temperature at which the adhesive 4 is softened and the solder balls 13 are melted. As a heating method, for example, the surface of the surface mount device 3 is heated by applying a heater tool. The heater tool is a jig having a heat source and a material having a high thermal conductivity such as a metal disposed in a portion in contact with the surface mount device 3. As a non-contact heating method, infrared heating or hot air heating can be used.

  When the solder balls 13 are melted, next, as shown in FIG. 4C, the surface mount device 3 is peeled off from the printed board 2a and removed. At this time, the adhesive 4 is softened, and when the surface mount device 3 is peeled off from the printed board 2a, the adhesive 4 extends and the adhesive 4 itself is cut. And a part adhere | attaches on the surface mount device 3, and the remainder remains on the adhesion land 6. FIG.

Next, as shown in FIG. 4D, the adhesive 4 on the adhesive land 6 is removed, and the printed circuit board 2a is leveled. In this step, since the adhesive 4 remains on the metal adhesive land 6, even if the adhesive 4 is removed using a tool such as a knife or tweezers, the resist 12 and the wiring of the printed circuit board 2a may be damaged. Absent. For this reason, high-quality repair work can be performed. The solder residue on the land 5 is smoothed with a solder wick (solder absorption line) or the like.

  Next, as shown in FIG. 4E, the cream solder 14 is printed on the lands 5 by cream solder printing. Next, as shown in FIG. 4F, a new surface mount device 3 is placed on the printed circuit board 2 a on which the cream solder 14 is printed so that the solder balls 13 are in contact with the cream solder 14. Next, the surface mounting device 3 is mounted on the printed circuit board 2a by heating, melting the solder, and solidifying by cooling.

Next, as shown in FIG. 4A, applying an adhesive 4 for bonding the four corners of the bonding lands 6 and the surface mount devices 3. Next, a mounting structure on which a new surface mounting device is mounted is placed in a heating furnace, and the adhesive 4 is heated and fixed. Although heating is performed according to the curing conditions of the adhesive 4 , 150 ° C. or lower is more preferable in consideration of the thermal effect on the parts. The repair of the mounting structure 1a of the surface mount device is completed through the above steps.

  Next, the manufacturing method of the mounting structure 1a of the surface mount device will be described. The manufacturing method of the mounting structure 1a of the surface mounting device prepares a printed circuit board 2a on which wirings and lands are formed. The subsequent processes are the same as the basic process after the cream solder printing process in the repair process, and the description of the following processes is omitted.

  As described above, in the mounting structure 1 a of the surface mount device according to the present embodiment, the adhesive land 6 is disposed, the adhesive 4 is disposed on the adhesive land 6, and the adhesive disposed on the adhesive land 6. 4 reinforces the mounting of the surface mount device 3 on the printed circuit board 2a.

Further, since the adhesive 4 is arranged on an independent adhesive land 6 provided around the mounting area of the surface mounting device on the printed circuit board , the adhesive land 6 is made of metal when removing the adhesive 4 at the time of repair. Therefore, the repair work can be performed without damaging the insulating substrate 11 and the wiring under the adhesive land 6. As a result, it is possible to increase the reliability and efficiency of repair work using a printed circuit board, and the reliability of connection and impact reliability between the surface mount device and printed circuit board in the mounting structure after repair will be reduced. Can be prevented.

(Embodiment 2)
FIG. 5 is a plan view showing the configuration of the printed circuit board 2b in the mounting structure 1b of the surface mount device according to the second embodiment of the present invention. FIG. 6 is a cross-sectional view of the surface mount device mounting structure 1b according to the present embodiment. The plan view of the mounting structure 1b of the surface mount device according to the present embodiment is the same as FIG.

The surface mounting device mounting structure 1b according to the present embodiment has a configuration in which the cover resist 21 is disposed only on the independent adhesive land 6 of the surface mounting device mounting structure 1a according to the first embodiment. Incidentally, adhesives 4 is not formed on other than the upper cover resist 21 does not adhere to the resist 12. In the surface mount device mounting structure 1b according to the present embodiment, the same components as those of the surface mount device mounting structure 1a are denoted by the same reference numerals, and the description thereof is omitted.

  Further, the repair process of the surface mounting device mounting structure 1b is the same as the repair process of the surface mounting device mounting structure 1a, and thus the description thereof is omitted.

  The same material as the resist 12 can be used for the cover resist 21. This configuration is the same as the conventional configuration in which the adhesive 4 is bonded to the resist 12 on the wiring laid on the insulating substrate 11 and a laminated structure of metal, resist and adhesive. For this reason, it has the adhesive force per unit area similar to the mounting structure of the conventional surface mount device, and can design the application area etc. of an adhesive agent, without newly performing an adhesive force test | inspection.

In the second embodiment, when the force that separates the adhesive land 6 and the cover resist 21 is applied, the force by which the adhesive 4 itself is cut halfway is smaller than the force that peels the cover resist 21 from the adhesive land 6 In the repair process of the mounting structure 1b of the surface mount device, the adhesive 4 is cut off halfway during the process of peeling the surface mount device 3 from the printed board 2b. In this case, repair can be performed by the same process as in the first embodiment.

  On the other hand, when the force that the adhesive 4 itself cuts halfway is larger than the force that peels the cover resist 21 from the adhesive land 6, when the surface mount device 3 is peeled off, The surface is separated and the surface mount device 3 is in a state where the adhesive 4 and the cover resist 21 are attached. Even in this case, since the resist 12 and the wiring are not damaged at all, the repair can be performed by rearranging the cover resist 21 on the adhesive land 6 in a later step.

  As described above, in the surface mount device mounting structure 1b according to the present embodiment, the laminate of the adhesive land 6 and the cover resist 21 is disposed on the insulating substrate 11, and the adhesive 4 is provided on the cover resist 21. Has been placed. The mounting of the surface mount device 3 on the printed circuit board 2b is reinforced by the adhesive 4 arranged on the cover resist 21.

Further, since the laminated body of the adhesive land 6 on which the adhesive 4 is disposed and the cover resist 21 are independent, when removing the adhesive 4, repair work can be performed without damaging the resist 12 and the wiring. it can. As a result, it becomes possible to high reliability and efficiency of the re pair work, after repair, the connection reliability and impact reliability between the surface mounted device and the printed circuit board can be prevented from being lowered.

  Further, since the laminate is a laminate of a metal and a resist as in the conventional resist on the wiring, the adhesive data of the conventional configuration is used to determine the adhesiveness of the adhesive 4 to the cover resist 21. The data can be used as it is, and the labor for newly measuring the adhesiveness can be saved.

(Embodiment 3)
FIG. 7 is a plan view showing the configuration of the printed circuit board 2c in the surface mounting device mounting structure 1c according to the third embodiment of the present invention. FIG. 8 is a cross-sectional view of the surface mount device mounting structure 1c according to the present embodiment. Note that a plan view of the surface mounting device mounting structure 1c according to the present embodiment is the same as FIG.

The surface mount device mounting structure 1c according to the present embodiment is replaced with the adhesive land 6 of the surface mount device mounting structure 1a according to the first embodiment, and the resist 12 and the local resist 22 are arranged on the resist 12. ing. That is, the resist 12 is provided in place of the adhesive land 6 on the insulating substrate 11 in the first embodiment, and the local resist 22 is provided at the four corners of the mounting region of the printed board 2c on which the surface mounting device 3 is mounted. On the outer resist 12. Incidentally, adhesives 4 is not formed on other than top local resist 22 does not adhere to the resist 12. In the surface mount device mounting structure 1c according to the present embodiment, the same components as those of the surface mount device mounting structure 1a are denoted by the same reference numerals, and the description thereof is omitted.

  Further, the repair process of the surface mount device mounting structure 1c is the same as the repair process of the surface mount device mounting structure 1a, and thus the description thereof is omitted.

  As the local resist 22, a silk resist can be used. The silk resist preferably has a color different from the color of the resist 12.

In the process of repairing the surface mounting device mounting structure 1c, most of the adhesive 4 has been removed during the process of peeling the surface mounting device 3 from the printed circuit board 2c, so that the force to peel the local resist 22 from the resist 12 is removed. However, it is stronger than the force with which the remaining adhesive 4 itself can be cut off. For this reason, when the surface mount device 3 is peeled off from the printed board 2c, the adhesive 4 is cut off halfway. In this case, repair can be performed by the same process as in the first embodiment.

  Further, when the adhesive 4 remaining on the local resist 22 is removed with a knife after the surface mount device 3 is removed from the printed circuit board 2c at the time of repair, the local resist 22 is colored differently from the color of the resist 12 If so, it can be seen at a glance whether or not the adhesive 4 has been removed. For this reason, it is possible to prevent the resist 12 and the wiring from being damaged by excessively removing the adhesive 4.

  As described above, in the surface mounting device mounting structure 1 c according to the present embodiment, the local resist 22 is disposed on the resist 12, and the adhesive 4 is disposed on the local resist 22. The mounting of the surface mounting device 3 on the printed circuit board 2c is reinforced by the adhesive 4 arranged on the local resist 22.

Further, with the configuration in which the local resist 22 is arranged between the resist 12 and the adhesive 4, when removing the adhesive 4 at the time of repair, the repair work can be performed without damaging the resist 12 and the wiring. As a result, it is possible to prevent the reliability and efficiency of the re pair work is possible, after the repair, the connection reliability and impact reliability between the surface mounted device and the printed circuit board in a mounting structure drops .

In the first to third embodiments, an example of an adhesion region in which adhesion lands, cover resists, or local resists are arranged outside the four corners of the surface mounting device mounting region on the printed circuit boards 2a to 2c has been described. However, the printed circuit board of the present invention is not limited to this configuration. 9 to 12 are plan views showing printed circuit boards having other configurations. For example, as shown in FIG. 9, the adhesive lands 6 b may be arranged on a part of the periphery in the mounting area in addition to the outside of the four corners of the surface mounting device. Furthermore, as shown in FIG. 10, the adhesive land 6c can be formed to completely surround the mounting area of the surface mount device.

By providing on the outside than in the region of the four corners of the mounting region of the bonded area surface mounted device for bonding with an adhesive surface mounted devices to printed circuit board, mounting on a printed circuit board surface mounted device 3 reinforcement (especially for static force) can be more increased.

In the configuration shown in FIG. 11, the land 5 is connected to the wiring 23 laid on the insulating substrate 11 (see FIG. 3), and this extends outward from the mounting region of the surface mount device. The adhesive land 6 b has a passage portion of the wiring 23 removed so as not to be connected to the wiring 23.

In the configuration shown in FIG. 12, the lands 5, the insulating substrate 11 wiring 23 laid on are connected, which extends outwardly from the mounting area of the surface mounted device. The local resist 22 is disposed so as to straddle the wiring 23. Since the local resist 22 is made of an insulating material, it does not affect the contact with the wiring 23.

  By arranging the wiring 23 as shown in FIGS. 11 and 12, the degree of freedom of wiring on the printed circuit board can be increased.

The adhesive region to which the adhesive is applied may be provided from other than the adhesive land, the cover resist, and the local resist 22.

The mounting structure of the present invention has an effect that a repair can be performed by separating the surface mount device and the printed board without damaging the resist and wiring of the printed board, and mounting the semiconductor device on the printed board. Is available.

The top view which shows the structure of the mounting structure of the surface mount device which concerns on Embodiment 1 of this invention The top view which shows the structure of the printed circuit board which concerns on Embodiment 1. AA sectional view in FIG. Sectional drawing which shows the repair process of the mounting structure of the surface mount device which concerns on Embodiment 1 Sectional drawing which shows the next process of FIG. 4A Sectional drawing which shows the next process of FIG. 4B Sectional drawing which shows the process following FIG. 4C Sectional drawing which shows the next process of FIG. 4D Sectional drawing which shows the process following FIG. 4E The top view which shows the structure of the printed circuit board concerning Embodiment 2 of this invention. Sectional drawing of the mounting structure of the surface mount device concerning Embodiment 2 The top view which shows the structure of the printed circuit board concerning Embodiment 3 of this invention. Sectional drawing of the mounting structure of the surface mount device concerning Embodiment 3 The top view which shows the structure of the printed circuit board of this invention The top view which shows the structure of the printed circuit board of this invention The top view which shows the structure of the printed circuit board of this invention The top view which shows the structure of the printed circuit board of this invention Sectional drawing which shows the structure of the mounting structure of the conventional surface mount device Sectional drawing which shows the process of peeling a surface mounting device from a printed circuit board in the repair method of the mounting structure of the conventional surface mounting device

1a, 1b, 1c Surface mount device mounting structures 2a, 2b, 2c Printed circuit board 3 Surface mount device 4 Adhesive 5 Land 6, 6b, 6c Adhesive land 11 Insulating substrate 12 Resist 13 Solder ball 14 Cream solder 21 Cover resist 22 Local resist 23 wiring

Claims (5)

A connection board provided on the surface mount device is a printed circuit board on which the surface mount device is mounted by being connected to the land by solder,
In the periphery of the mounting area of the printed circuit board on which the surface mounting device is mounted, an independent bonding area for bonding the surface mounting device to the printed circuit board with an adhesive is provided,
The printed circuit board in which the adhesion area is a foil land or a local resist. The printed circuit board according to claim 1, wherein the adhesive region made of the foil-like land is covered with a resist. The printed circuit board according to claim 1 , wherein the adhesion region made of the local resist is provided on a resist formed on the printed circuit board. The printed circuit board according to any one of claims 1 to 3,
A surface mount device mounted by solder on the mounting area of the printed circuit board;
A mounting structure for a surface mounting device, comprising: an adhesive for fixing the surface mounting device to an adhesion region of the printed circuit board. A method for repairing a mounting structure of a surface mount device according to claim 4 ,
After removing a portion of the adhesive by a heated heat knife, by heating pressurizing said surface mount device, wherein at the same time softening the remaining adhesive to melt the solder,
In the state where the remaining adhesive is softened and the solder is melted, the surface mounting device is peeled off from the printed circuit board,
A method for repairing a mounting structure of a surface mounting device for leveling the printed board.