JP4619142B2 - Interposer mounting method and interposer mounted seat - Google Patents

Description

  The present invention relates to an interposer mounting method for mounting an interposer on an antenna formed sheet and an interposer mounted sheet obtained by the mounting method.

  A second non-conductive layer and a second non-conductive layer provided on an antenna-formed sheet having a first non-conductive layer and a conductive antenna provided on the first non-conductive layer As an interposer mounting method for mounting an interposer having a conductive enlarged electrode and an IC chip provided on the enlarged electrode, for example, a mounting method using a caulking process is known. FIG. 5 is a longitudinal sectional view of the interposer 10 and the antenna-formed sheet 20 when the interposer 10 is mounted on the antenna-formed sheet by a caulking process.

In this interposer mounting method, first, the interposer 10 and the antenna-formed sheet 20 are prepared, and a non-conductive adhesive is applied to one surface of the interposer 10, whereby one adhesive layer 70. Is formed on the interposer 10.
Then, the interposer 10 is mounted on the antenna-formed sheet 20 by placing the interposer 10 on the antenna-formed sheet 20 via the adhesive layer 70. Next, the caulking blade (see the chain line portion in FIG. 5) is strongly pressed from above with respect to the enlarged electrode 12 of the interposer 10 to connect the enlarged electrode 12 of the interposer 10 and the antenna 22 of the antenna-formed sheet 20. .

  Thereafter, as shown in FIG. 5, another adhesive layer 71 is applied to the antenna-formed sheet 20 by further applying a non-conductive adhesive to substantially the entire surface of the antenna-formed sheet 20 on the interposer 10 side. It is formed via the interposer 10 on the top. Finally, the release sheet 40 is placed on the adhesive layer 71, whereby an interposer-mounted sheet is formed. This interposer-mounted sheet can be adhered to the attachment object by the adhesive layer 71 by peeling off the release sheet 40.

  However, in the above-described interposer mounting method, the first adhesive layer 70 is provided in order to bond the interposer 10 and the antenna-formed sheet 20, and the antenna-formed sheet 20 is further interposed via the interposer 10. In order to adhere the release sheet 40, it is necessary to provide another adhesive layer 71. That is, since the process of forming the adhesive layer is required twice, the overall mounting method of the interposer 10 becomes complicated, and the adhesive required for forming the adhesive layers 70 and 71 is also complicated. There is a problem that the amount increases.

  The present invention has been made in consideration of such points, and can easily bond an antenna-formed sheet, an interposer, and a release sheet, and adhesion necessary for forming an adhesive layer. An object of the present invention is to provide an interposer mounting method and an interposer-mounted sheet that can reduce the amount of the agent.

The present invention provides a second non-conductive layer and a second non-conductive layer on an antenna-formed sheet having a first non-conductive layer and a conductive antenna provided on the first non-conductive layer. In an interposer mounting method for mounting an interposer having a conductive enlarged electrode provided on the substrate and an IC chip provided on the enlarged electrode, an adhesive is provided over substantially the entire surface of the antenna-formed sheet on the antenna side. A step of forming a layer, a step of bonding an interposer on an adhesive layer formed on an antenna-formed sheet, and a step of electrically connecting an enlarged electrode of the interposer and an antenna of the antenna-formed sheet And a step of placing a release sheet on the adhesive layer on the antenna-formed sheet via the interposer, and mounting the interposer.
According to such an interposer mounting method, one adhesive layer can be used both for joining the antenna-formed sheet and the interposer and joining the antenna-formed sheet and the release sheet. For this reason, since the process of forming the adhesive layer can be performed only once, the interposer can be more easily mounted, and the amount of adhesive necessary to form the adhesive layer can be reduced. Can be reduced.

In the interposer mounting method of the present invention, it is preferable that the adhesive layer is formed on the antenna-formed sheet by applying an adhesive to substantially the entire surface of the antenna-formed sheet on the antenna side.
Alternatively, the method further comprises a step of preparing an adhesive transfer sheet having a release sheet portion and an adhesive layer portion provided on the release sheet portion, and the adhesive transfer sheet is provided on the antenna side of the antenna-formed sheet. It is preferable that the adhesive layer is formed on the antenna-formed sheet by placing it on substantially the entire surface and transferring the adhesive layer portion of the adhesive transfer sheet to the antenna-formed sheet.
Alternatively, the method further includes a step of preparing an adhesive double-sided sheet having a base sheet portion and an adhesive layer portion provided on both sides of the base sheet portion, and the adhesive double-sided sheet is an antenna of the antenna-formed sheet. It is preferable that the adhesive double-sided sheet is used as an adhesive layer by being placed on substantially the entire surface of the side surface.
According to such an interposer mounting method, the adhesive layer can be easily and reliably formed on substantially the entire surface of the antenna-formed sheet.

The present invention is formed on an antenna-formed sheet having a first non-conductive layer and a conductive antenna provided on the first non-conductive layer, and substantially over the antenna-side surface of the antenna-formed sheet. An adhesive layer, a second non-conductive layer, a conductive enlarged electrode provided on the second non-conductive layer, and an IC chip provided on the enlarged electrode. An enlarged interposer electrode and an antenna of the antenna-formed sheet are electrically connected, and a release sheet is provided on the adhesive layer on the antenna-formed sheet via the interposer. It is an interposer-mounted sheet characterized by
According to such an interposer-mounted sheet, one adhesive layer can be used both for joining the antenna-formed sheet and the interposer and for joining the antenna-formed sheet and the release sheet. For this reason, when manufacturing the said interposer mounted sheet | seat, since the process of forming an adhesive bond layer can be made only once, an interposer can be mounted more simply, The amount of adhesive required to form can be reduced.

In the interposer-mounted sheet of the present invention, the adhesive layer is preferably composed of an adhesive double-sided sheet having a base sheet portion and adhesive layer portions respectively provided on both sides of the base sheet portion. .
According to such an interposer-mounted sheet, the adhesive layer can be easily and reliably formed on substantially the entire surface of the antenna-formed sheet.

  According to the interposer mounting method and the interposer mounted sheet of the present invention, one adhesive layer is used for both the bonding of the antenna formed sheet and the interposer and the bonding of the antenna formed sheet and the release sheet. It can be combined. For this reason, since the process of forming the adhesive layer can be performed only once, the interposer can be more easily mounted, and the amount of adhesive necessary to form the adhesive layer can be reduced. Can be reduced.

  Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a perspective view for explaining a method of mounting the interposer according to the present embodiment, and FIG. 2 is a vertical cross-sectional view of the interposer and antenna-formed sheet of FIG. These are the longitudinal cross-sectional views which show the adhesive agent transfer sheet used for this Embodiment.

First, an interposer-mounted sheet according to the present invention will be described with reference to FIG.
As shown in FIG. 2, the interposer-mounted sheet according to the present invention includes an antenna-formed sheet 20 having a first non-conductive layer 21 and a conductive antenna 22 provided on the first non-conductive layer 21. The adhesive layer 30 formed on substantially the entire surface of the antenna-formed sheet 20 on the antenna 22 side, the second non-conductive layer 11, and the conductive expansion provided on the second non-conductive layer 11. An interposer 10 having an electrode 12 and an IC chip 13 provided on the enlarged electrode 12 and bonded on an adhesive layer 30 is provided. In this interposer-mounted sheet, the enlarged electrode 12 of the interposer 10 and the antenna 22 of the antenna-formed sheet 20 are electrically connected, and the interposer 10 is attached to the adhesive layer 30 on the antenna-formed sheet 20. A release sheet 40 is provided therebetween.

Next, a method for manufacturing such an interposer-mounted sheet will be described.
First, a preparation process for the interposer 10 and the antenna-formed sheet 20 will be described.

  In this preparation step, for example, a metal foil made of aluminum or copper or a conductive antenna 22 made of conductive ink or the like is formed on one surface of the non-conductive first non-conductive layer 21 made of paper, resin, or the like. Thus, the antenna-formed sheet 20 having the first non-conductive layer 21 and the antenna 22 is manufactured.

  On the other hand, a conductive expanded electrode 12 such as a metal foil made of aluminum or copper or a conductive paste is formed on one surface of the nonconductive second nonconductive layer 11 made of a synthetic resin sheet. By mounting the IC chip 13 on 12, the interposer 10 having the second non-conductive layer 11, the enlarged electrode 12, and the IC chip 13 is manufactured.

  Next, a mounting process for mounting the interposer 10 on the antenna-formed sheet 20 will be described with reference to FIGS. 1 and 2.

First, as shown in FIGS. 1 and 2, a non-conductive adhesive layer 30 is formed over substantially the entire surface of the antenna-formed sheet 20 on the antenna 22 side.
Specifically, the adhesive layer 30 is formed on the antenna-formed sheet 20 by applying an adhesive to substantially the entire surface of the antenna-formed sheet 20 by spraying or gravure coating.

  Alternatively, as shown in FIG. 3, an adhesive transfer sheet 31 having a release sheet portion 31a and an adhesive layer portion 31b provided on the release sheet portion 31a is prepared in advance, and adhesive transfer is performed. The adhesive transfer sheet 31 is placed on the antenna-formed sheet 20 so that the surface on the adhesive layer portion 31b side of the sheet 31 and the surface on the antenna 22 side of the antenna-formed sheet 20 are joined. Then, by transferring the adhesive layer portion 31 b on the adhesive transfer sheet 31 onto the antenna-formed sheet 20, the adhesive layer 30 is formed on the antenna-formed sheet 20.

  Next, the interposer 10 is bonded onto the adhesive layer 30 formed on the antenna-formed sheet 20. At this time, as shown in FIG. 2, the IC chip 13 side surface of the interposer 10 may be adhered to the adhesive layer 30 on the antenna-formed sheet 20, or the back surface of the interposer 10 (the IC chip 13 is provided). The surface not formed) may be bonded to the adhesive layer 30.

Then, with the interposer 10 bonded to the adhesive layer 30 on the antenna-formed sheet 20, the enlarged electrode 12 of the interposer 10 and the antenna 22 of the antenna-formed sheet 20 are electrically joined.
As a method of electrically joining the enlarged electrode 12 to the antenna 22, for example, a method of a caulking process in which a caulking blade (see a chain line portion in FIG. 2) is strongly pressed against the enlarged electrode 12 from above, or a heated caulking blade is used. A method using a heat caulking process for melting the second non-conductive layer 11 and the adhesive layer 30 of the interposer 10 by using the second non-conductive layer 11 and the adhesion by irradiating the enlarged electrode 12 with laser light from above. A method using a laser bonding process for decomposing the agent layer 30 or a method using an ultrasonic bonding process for removing the second non-conductive layer 11 and the adhesive layer 30 by applying ultrasonic vibration with an ultrasonic roller or the like is used.

Then, in a state where the interposer 10 is adhered to the adhesive layer 30 on the antenna-formed sheet 20, the release sheet 40 is placed on the adhesive layer 30 via the interposer 10, thereby interleaving the interposer 10. A positioner-mounted sheet is formed.
Finally, by cutting the belt-like interposer-mounted sheet for each interposer 10, individual interposer-mounted sheets are formed. The interposer-mounted sheet cut for each interposer 10 can be adhered to the attachment object by the adhesive layer 30 by peeling the release sheet 40.

  As described above, according to the mounting method of the interposer 10 of the present embodiment, before placing the interposer 10 on the antenna-formed sheet 20, substantially the entire surface of the antenna-formed sheet 20 on the antenna 22 side. The adhesive layer 30 is formed in advance. For this reason, in the mounting method of the conventional interposer 10, the process of forming the adhesive layer is required twice, whereas in the present embodiment, one adhesive layer 30 is combined with the antenna-formed sheet 20. It can be used both for joining with the interposer 10 and joining the antenna-formed sheet 20 and the release sheet 40. For this reason, since the process of forming the adhesive layer 30 can be performed only once, the interposer 10 can be more easily mounted, and the adhesive necessary for forming the adhesive layer 30 can be formed. The amount can be reduced.

  Also, the adhesive transfer sheet 31 having the release sheet portion 31a and the adhesive layer portion 31b is applied to the antenna-formed sheet 20 by applying an adhesive to substantially the entire surface of the antenna-formed sheet 20 on the antenna 22 side. By placing the adhesive layer portion 31b of the adhesive transfer sheet 31 on the antenna-formed sheet 20 and placing the adhesive layer 30 on the antenna 22 side of the antenna, the adhesive layer 30 can be formed easily and reliably. It can be formed on substantially the entire surface of the sheet 20.

  According to the interposer-mounted sheet formed by the mounting method of the interposer 10 according to the present embodiment, one adhesive layer 30 is bonded to the antenna-formed sheet 20 and the interposer 10 and the antenna-formed sheet 20. And the release sheet 40 can be jointly used. For this reason, when manufacturing the said interposer mounted sheet | seat, since the process of forming the adhesive bond layer 30 can be made only once, the interposer 10 can be more simply mounted, and adhesive agent The amount of adhesive required to form layer 30 can be reduced.

The interposer 10 mounting method and the interposer-mounted sheet according to the present invention are not limited to the above-described embodiments, and various modifications can be made.
Next, an interposer mounting method according to the present invention and a modified example of the interposer mounted sheet will be described with reference to FIG. 4, the same parts as those in the embodiment shown in FIGS. 1 and 2 are denoted by the same reference numerals, and detailed description thereof is omitted.
As shown in FIG. 4, an adhesive double-sided sheet 32 having a base sheet portion 32a and adhesive layer portions 32b and 32b respectively provided on both sides of the base sheet portion 32a is used as the adhesive layer 30. Also good.

In this modification, first, an adhesive double-sided sheet 32 having a base sheet portion 32a as shown in FIG. 4 and adhesive layer portions 32b and 32b respectively provided on both sides of the base sheet portion 32a. prepare.
Here, the base sheet portion 32a is made of a PET base material or a nonwoven fabric, and is configured so that the adhesive layer portions 32b and 32b do not peel off.
Then, the adhesive double-sided sheet 32 is placed on substantially the entire surface of the antenna 22 in the antenna-formed sheet 20, and one adhesive layer portion 32 b of the adhesive double-sided sheet 32 is adhered to the surface of the antenna-formed sheet 20. . Thus, the adhesive double-sided sheet 32 can be used as the adhesive layer 30 that joins the antenna-formed sheet 20 and the interposer 10 and joins the antenna-formed sheet 20 and the release sheet 40.

  According to the mounting method of the interposer 10 and the interposer mounted sheet, since the adhesive double-sided sheet 32 is used as the adhesive layer 30, the adhesive layer 30 can be easily and reliably attached to the antenna-formed sheet 20. It can be formed on substantially the entire upper surface.

It is a perspective view explaining the mounting method of the interposer of this Embodiment. It is an AA arrow longitudinal cross-sectional view of the interposer and antenna formed sheet of FIG. It is a longitudinal cross-sectional view which shows the adhesive agent transfer sheet used for this Embodiment. It is a longitudinal cross-sectional view which shows the adhesive double-sided sheet used for the modification of this Embodiment. It is a longitudinal cross-sectional view of the interposer and the antenna formed sheet when the conventional interposer is mounted on the antenna formed sheet.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Interposer 11 2nd nonelectroconductive layer 12 Enlarged electrode 13 IC chip 20 Antenna formed sheet 21 1st nonelectroconductive layer 22 Antenna 30 Adhesive layer 31 Adhesive transfer sheet 31a Release sheet part 31b Adhesive layer part 32 Adhesive both sides Sheet 32a Base sheet portion 32b Adhesive layer portion 40 Release sheet 70 One adhesive layer 71 Other adhesive layer

Claims (6)

A second non-conductive layer and a second non-conductive layer provided on an antenna-formed sheet having a first non-conductive layer and a conductive antenna provided on the first non-conductive layer In the mounting method of the interposer for mounting the interposer having the conductive expanding electrode and the IC chip provided on the expanding electrode,
Forming an adhesive layer over substantially the entire surface of the antenna-formed sheet on the antenna side;
Adhering the interposer on the adhesive layer formed on the antenna-formed sheet;
Electrically connecting the enlarged electrode of the interposer and the antenna of the antenna-formed sheet;
Placing a release sheet on the adhesive layer on the antenna-formed sheet via an interposer;
An interposer mounting method characterized by comprising:   The interposer mounting method according to claim 1, wherein the adhesive layer is formed on the antenna-formed sheet by applying an adhesive to substantially the entire surface of the antenna-formed sheet on the antenna side. A step of preparing an adhesive transfer sheet having a release sheet portion and an adhesive layer portion provided on the release sheet portion;
The adhesive transfer sheet is placed on substantially the entire surface of the antenna-formed sheet on the antenna side, and the adhesive layer is transferred to the antenna-formed sheet by transferring the adhesive layer portion of the adhesive transfer sheet to the antenna-formed sheet. The interposer mounting method according to claim 1, wherein the interposer is formed on a sheet. Further comprising a step of preparing an adhesive double-sided sheet having a base sheet portion and an adhesive layer portion provided on both sides of the base sheet portion,
2. The interposer mounting method according to claim 1, wherein the adhesive double-sided sheet is placed on substantially the entire surface of the antenna-formed sheet on the antenna side, and the adhesive double-sided sheet is used as an adhesive layer. An antenna-formed sheet having a first non-conductive layer and a conductive antenna provided on the first non-conductive layer;
An adhesive layer formed over substantially the entire area of the antenna-side surface of the antenna-formed sheet;
An interposer having a second non-conductive layer, a conductive enlarged electrode provided on the second non-conductive layer, and an IC chip provided on the enlarged electrode, and adhered to the adhesive layer; With
The enlarged electrode of the interposer and the antenna of the antenna-formed sheet are electrically connected,
An interposer-mounted sheet, wherein a release sheet is provided on an adhesive layer on an antenna-formed sheet via an interposer.   6. The interposer mounted according to claim 5, wherein the adhesive layer comprises an adhesive double-sided sheet having a base sheet portion and adhesive layer portions respectively provided on both sides of the base sheet portion. Sheet.

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