JP2006315766A - Manufacturing method of carrier tape - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a manufacturing method of a carrier tape which is of a simple shape, can be easily molded and stably store a semiconductor package. <P>SOLUTION: The manufacturing method of the carrier tape 1 having a plurality of storage recesses 2 capable of storing an electronic component 9 formed in the longitudinal direction includes the steps of forming the storage recesses 2 with constant intervals on the sheetlike carrier tape 1 and forming a suction layer 4 of a closed cell structure made of an elastomer on an internal bottom surface of the recess 2, and the step of punching a feed hole 3. After the storage recesses 2 are formed, the carrier tape 1 is heated to be foamed, thereby forming the suction layer 4 having voides 4a of the closed cell structure for sucking and retaining a terminal of the electronic component. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention is suitable for accommodating carrier tapes used for housing electronic components, particularly small area packages (semiconductor packages) such as BGA (Ball Grid Array), μBGA, CSP (Chip Scale Package), flip chip and bare chip. More particularly, the present invention relates to a method for manufacturing a carrier tape capable of attracting and holding a semiconductor package or the like.

  The semiconductor package described above has a plurality of terminals (solder balls or the like) arranged in a matrix or random matrix on the bottom surface of the package substrate. When such a semiconductor package is housed in a carrier tape and transported, if a solder ball or the like, which is a terminal on the bottom surface, comes into direct contact with the carrier tape, it is rubbed by vibration during transportation and the solder ball is deformed or scraped. Solder ball residue may occur. As a result, there is a problem that when the semiconductor package is mounted on a printed wiring board or the like formed with a circuit, it cannot be reliably bonded through a reflow process, and a circuit is short-circuited by a solder ball residue.

  For this reason, in the present applicant, an embossed carrier tape that prevents the terminal on the bottom surface from coming into direct contact with the carrier tape even when an area package such as BGA is accommodated is disclosed in Japanese Patent Application Laid-Open No. 8-11930. Proposed in In Japanese Patent Laid-Open No. 8-11930, there are a large number of receiving recesses opened on the surface, a shelf is formed around the receiving recess, and the bottom edge of the substrate of a semiconductor package such as a BGA is placed on the shelf. There is described an embossed carrier tape that is placed and accommodated and positioned by bringing a substrate end face of the semiconductor package into contact with the side surface of the accommodating recess.

  Further, the embossed carrier tape disclosed in Japanese Patent Laid-Open No. 8-11930 described above forms a groove on the shelf surface (upper surface) of the shelf portion at the edge on the side of the housing recess, and the shelf portion and the side wall portion due to molding restrictions. This avoids the inconvenience that the continuous part forms an arc surface. That is, the embossed carrier tape is formed by pressure forming, vacuum forming, press forming, or the like, but the shelf surface of the shelf portion may be made to continue at right angles to the side wall surface of the housing recess due to restrictions on the processing accuracy of the molding die. It is difficult, and an arc surface is inevitably formed in the continuous part of the shelf surface and the side wall surface of the shelf part. For this reason, when the semiconductor package is housed in the housing recess, the corner of the substrate end face of the semiconductor package rides on the circular arc surface, causing the semiconductor package to rattle, and the bottom terminal contacts the embossed carrier tape. As a result, the above-described problems may occur. Therefore, the embossed carrier tape described above eliminates the influence of the arc surface by the grooves formed on the shelf surface and prevents the semiconductor package from rattling.

Japanese Patent Application Laid-Open No. 8-11930 (all specifications, drawings)

  However, even in the embossed carrier tape described in the above-mentioned JP-A-8-11930, when forming by press molding, the groove forming protrusions must be finely processed in the male mold, There is a demand for a method of manufacturing a carrier tape, which is difficult to manufacture a mold, and has a simple shape and can be easily formed. In addition, there is a problem that wear is easily caused by repeating the molding by the protrusions, and the durability of the mold is inferior.

  In addition, for other moldings including press molding, the groove formation at the edge on the side wall of the housing recess is not necessarily the groove formed by the mold due to the influence of sheet thickness and sheet stretchability during molding. Forming along was difficult. In particular, recently studied semiconductor packages such as μBGA and CSP have a small package outer diameter (substrate outer dimensions) and various shapes are adopted by semiconductor manufacturers. Embossed carrier tapes having different concave shapes had to be prepared individually, and there was a problem that there were a wide variety of products to be manufactured.

  Furthermore, since recent semiconductor packages tend to have a narrower pitch between terminals formed on the bottom surface of the substrate and to form a large number of terminals, the terminals located on the bottom surface of the semiconductor package also have a short outside the substrate. The size from the outermost terminal to the outer edge of the package board must be reduced as it approaches, and the method of storing the board bottom edge on the shelf surface of the shelf also requires only a small shelf size. Not only is it extremely difficult to form a groove in the edge on the side wall of the recess, but also the formation of the shelf itself is required to reduce the shelf width, so a method for placing and storing a semiconductor package on the shelf Even in such a difficult situation, there is a demand for a method for manufacturing a carrier tape that has a simple shape and can be easily formed.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide a method for manufacturing a carrier tape that has a simple shape, can be easily molded, and can stably store a semiconductor package.

  In order to achieve the above object, the invention of claim 1 is a method of manufacturing a sheet-like carrier tape in which a plurality of storage recesses capable of storing electronic components are formed at regular intervals in the longitudinal direction. A method for producing a carrier tape, characterized by forming a heat-crosslinked adsorption layer having an independent foam structure, and the invention according to claim 2 is the carrier tape production method according to claim 1. And forming the suction layer by forming the housing recess and then heating and foaming the carrier tape to suck and hold the terminal portion of the electronic component. This is a method for manufacturing a carrier tape.

  According to a third aspect of the present invention, in the method for manufacturing a carrier tape according to the first aspect, the adsorption layer is formed in the foamed shape by stirring and mixing with air in the storage recess after the storage recess is formed. It is a method for producing a carrier tape, characterized in that it is formed by coating a foaming agent-containing emulsion, and then heating and crosslinking the coated emulsion together with the carrier tape.

  The invention of claim 4 is the method for producing a carrier tape according to any one of claims 1 to 3, wherein the carrier tape is made of a foamed elastomer sheet.

  In the carrier tape manufacturing method of the present invention, a plurality of receiving recesses capable of receiving electronic components are formed at regular intervals in the longitudinal direction, and an independent foam structure adsorption layer made of elastomer is formed on the inner bottom surface of the receiving recesses. A carrier tape provided so as to be freely adsorbable / removable is manufactured, the adsorption layer has sponge-type holes, the opening diameter of the holes is 1 to 150 μm, and the opening area of the holes is 20 to 80% of the total area. The hardness (JIS K6253) was set to 1-50. And the carrier tape by this invention can form an adsorption layer from a polyurethane resin.

  The carrier tape is formed of a thermoplastic resin sheet such as polystyrene resin, polyvinyl chloride resin, amorphous polyethylene terephthalate (APET), polycarbonate, or polypropylene resin by vacuum molding, pressure molding, pressure plug assist molding, press molding, or the like. In this carrier tape, a large number of receiving recesses are formed at regular intervals in the longitudinal direction, and a large number of feed holes are formed at regular intervals on one side or both sides in parallel with the receiving recesses. In this carrier tape, after the electronic component is accommodated in the accommodating recess, the top cover tape is bonded to the opening-side surface of the accommodating recess.

  Containing recesses are compliant with JIS C0806, open on one surface of the carrier tape, a large number are formed at regular intervals in the longitudinal direction of the carrier tape, and accommodate electronic components typified by area packages such as μBGA and CPS. . The housing recess has a planar shape corresponding to the planar shape of the electronic component, usually a square or a rectangular shape, and the depth from the upper surface of the adsorption layer is at least greater than the thickness including the terminals of the electronic component. The value is preferably formed by adding 0.1 to 0.3 mm to the thickness of the electronic component. And since this accommodation recessed part positions the electronic component accommodated in contact with the side wall surface, the dimension between the side walls is a value corresponding to the outer dimension of the electronic component, preferably the outer dimension of the electronic component and the carrier tape. In consideration of this variation, a value obtained by adding about 0.1 to 0.3 mm to the external dimension of the electronic component is used.

  In the adsorption layer, the opening diameter of the holes, the ratio of the opening area, the hardness and the like are defined in the above-described range. However, when applied to a CSP having a solder ball diameter of about 300 μm, the opening diameter of the holes is 30 to 30 mm. It is desirable that the thickness be about 80 μm, and it is desirable to use a polyurethane resin that is less likely to contaminate solder balls or the like. This adsorbing layer is formed directly on the bottom surface of the receiving recess of the carrier tape, or an adsorbing sheet in which the adsorbing layer is formed on the base sheet or a foamed elastomer sheet having an entirely independent foam structure is formed in advance. An elastomer sheet is provided by adhering to the bottom surface of the housing recess with an adhesive or the like. In addition, even a through-type (continuous foam structure) sheet has no problem as long as the bottom surface is in close contact with the bottom surface of the housing recess and the bottom surface of the sheet is closed.

  For example, when the adsorption layer is formed directly, the bottom surface or the like (portion where the adsorption layer is formed) of the receiving recess of the carrier tape is subjected to a primer treatment or a roughening treatment by corona discharge. A foaming agent-containing acrylic emulsion, polyurethane emulsion, or the like that is stirred and mixed to form a foam is applied (coated) to a predetermined thickness, and then heated to be crosslinked.

  Moreover, if an example in the case of sticking an adsorption sheet is given, an adsorption sheet will be shape | molded as follows. In other words, it contains a foaming agent that is subjected to primer treatment or roughening treatment on one surface of a base material sheet such as polyester resin, polypropylene resin, or polystyrene resin, and mixed with air on the treated surface of this base material sheet to form a foam. An acrylic emulsion, a polyurethane emulsion, or the like is applied (applied) to a predetermined thickness, and then crosslinked by heating to form an adsorption layer. And this adsorbing sheet is cut and adhesives such as polyurethane resin, vinyl chloride-vinyl acetate copolymer, ethylene-vinyl acetate copolymer, acrylic adhesive, isopropyl butadiene rubber, rubber system such as styrene butadiene rubber, etc. A rubber adhesive containing an elastomer is used to adhere to the bottom surface of the housing recess.

  Furthermore, to give an example in the case of sticking a foamed elastomer sheet, a foamed elastomer sheet is produced as follows, and the foamed elastomer sheet is cut and applied to the bottom surface of the housing recess using the above-mentioned adhesive or the like. Glue. The foamed elastomer sheet is formed by heating and kneading a polyurethane-based resin, polystyrene-based resin, polyolefin-based resin, polyester-based resin or the like with an extruder or the like, and adding a foaming agent to form a sheet. Next, the molded sheet is foamed and polymerized by heating or the like, and then cut and completed.

  The polyurethane resin used for the foamed elastomer sheet has a urethane bond, the polystyrene resin is a polymer mainly composed of a styrene vinyl monomer such as styrene, and the polyolefin resin is a polyester resin such as polyethylene. Examples thereof include polyethylene terephthalate, and examples of the foaming agent include organic ones such as hydrocarbons and azodicarbonamide.

  As described above, the invention according to claim 1 is a method of manufacturing a sheet-like carrier tape in which a plurality of storage recesses capable of storing electronic components are formed at regular intervals in the longitudinal direction, and the storage recesses are heated. A method for producing a carrier tape, characterized in that an adsorption layer having a cross-linked closed-cell foam structure is formed. Further, in the invention according to claim 2, in the method for producing a carrier tape according to claim 1, in the carrier tape, A step of punching a feed hole to be fed, and the formation of the adsorption layer is performed by forming a hole of an independent foam structure for adsorbing and holding the terminal portion of the electronic component by a step of heating and foaming the carrier tape after forming the storage recess. Since the carrier tape manufacturing method is characterized in that it is formed, a shelf or groove for placing the electronic component on the bottom surface of the housing recess for housing the electronic component There is no need to form, a sponge type adsorption layer with an independent foam structure is provided by heat foaming, and the electronic component is pressed and held from the negative holes generated in this adsorption layer, and is easy to manufacture, In addition, the electronic components are not rubbed during transportation and the like, so that it is possible to prevent a subsequent solder failure and the like, the shape of the housing recess can be simplified, and it can be manufactured inexpensively and easily.

  According to a third aspect of the present invention, in the first aspect of the present invention, after the storage recess is formed, a foaming agent-containing emulsion made into a foam by stirring and mixing with air is applied to the storage recess. Since the method is a method for producing a carrier tape, in which the coated emulsion is heated and crosslinked to form an adsorption layer, there is an advantage that the production is easy.

  According to a fourth aspect of the present invention, since the carrier tape is a foamed elastomer sheet, the carrier tape manufacturing method according to any one of the first to third aspects, the electronic component is made of an elastomer sheet. There is an advantage that it is easy to manufacture a carrier tape that can be adsorbed and held in the foam layer.

  In addition, according to the carrier tape of the present invention, the sponge-type adsorption layer made of an elastomer having a hardness of 1 to 50 is provided on the bottom surface of the accommodating recess for accommodating the electronic component, and the negative generated in the pores of the adsorption layer. Since the electronic component is sucked and held by pressure, the electronic component is not rubbed during transportation or the like, so that it is possible to prevent a subsequent solder failure or the like, and the shape of the housing recess can be simplified, and can be manufactured inexpensively and easily.

  In addition, the carrier tape according to the present invention is provided with an adsorption layer on the surface, for example, on both sides in the width direction, so that the top cover tape can be adsorbed and held by the adsorption layer. No agent is required, and the top cover tape can be easily bonded.

  Furthermore, the carrier tape according to the present invention can be easily formed without the need to form a shelf or the like because the electronic component (semiconductor package) adsorbs and holds the solder balls and the like because the adsorbing layer on the bottom surface of the accommodating recess. . In the semiconductor package, since the solder balls are adsorbed on the adsorption layer, the solder balls are not rubbed during transportation or the like, and subsequent occurrence of solder defects can be prevented. And the carrier tape concerning this invention can make a top cover tape adsorb | suck to an adsorption layer by providing an adsorption layer also in the surface (surface) of the opening side of an accommodation crevice. There is no need to bond and the top cover tape can be easily attached.

  Embodiments of a method for producing a carrier tape according to the present invention will be described below with reference to the drawings. 1 to 4 show a carrier tape according to an embodiment of the present invention. FIG. 1 is a partial plan view, FIG. 2 is a cross-sectional view of the carrier tape, and FIG. 3 is an enlarged view of a part of the carrier tape. FIG. 4 is a plan view of the same part.

  1 and 2, reference numeral 1 denotes a carrier tape. The carrier tape 1 is formed with a large number of receiving recesses 2 opened on the surface at regular intervals in the longitudinal direction, and penetrates the front and back on one side in the width direction. A number of feed holes 3 are formed at regular intervals. The housing recess 2 has a substantially rectangular parallelepiped shape, and houses a semiconductor package (electronic component) 9 such as a CSP. The housing recess 2 has a plan view shape slightly larger than the plan view shape of the semiconductor package 9, positions the semiconductor package 9 on the side surface, and a depth from the upper surface of the adsorption layer to be described later is slightly larger than the thickness of the semiconductor package 9. . Although a detailed description is omitted, in the semiconductor package 9, a plurality of solder balls 9b protrude in a matrix form on the bottom surface of the main body 9a. In addition, 4 is an adsorption layer and 7 is a detection hole formed in the bottom part of the accommodation recessed part 2. FIG.

  As shown in FIGS. 3 and 4, an adsorption layer 4 having an independent foam structure having a plurality of sponge-type holes 4 a is formed on the inner bottom surface of the housing recess 2. The adsorption layer 4 is made of polyurethane elastomer or the like having a hardness (using JIS K6253 type D durometer) of about 1 to 50, and the opening diameter of the holes 4a is 1 to 150 μm. Open to ~ 80%. Reference numeral 5 denotes a top cover tape which is provided on the surface of the carrier tape 1 and closes the opening of the housing recess 2. The top cover tape 5 is attached with an adhesive or the like after the semiconductor package 9 is housed in the housing recess 2. The

  In the carrier tape 1 according to this embodiment, the semiconductor package 9 is held by a pick-and-press suction nozzle or the like of a taping machine, and the solder ball 9b is loaded into the housing recess 2 with the suction layer facing the suction layer. During this loading, the pick and press suction nozzle lightly presses the semiconductor package 9 toward the suction layer 4 to elastically deform the suction layer 4. For this reason, in the semiconductor package 9, the solder balls 9 b are adsorbed and held by the negative pressure of the holes 4 a of the adsorption layer 4. Thereafter, the top cover tape 5 is bonded to the surface of the carrier tape 1 so that the opening of the housing recess 2 is closed, and the carrier tape 1 is wound around a reel or the like. Then, transportation or the like is performed with the carrier tape 1 wound around a reel or the like.

  Here, the semiconductor package 9 housed in the housing recess 2 of the carrier tape 1 is sucked and held by the negative pressure in which the solder balls 9 b are generated in the holes 4 a of the suction layer 4. For this reason, the solder balls 9b and the carrier tape 1 are not rubbed even when vibrations are applied during transportation or the like, and it is possible to prevent the occurrence of poor bonding or the like in subsequent mounting or the like. And since it is not necessary to shape | mold fine shapes, such as a shelf part, in the accommodation recessed part 2, the whole shape can be simplified and it can shape | mold easily and cheaply.

  The carrier tape 1 according to this embodiment is manufactured as described below. That is, first, the accommodating recess 2 is formed by pressure forming or the like, and the feed hole 3 and the detection hole 7 are formed and wound around the reel. Next, the carrier tape 1 is pulled out from the reel and traveled, and the bottom surface of the housing recess 2 of the traveling carrier tape 1 is roughened by corona discharge or the like, and then mixed with air on the bottom surface of the housing recess 2. A foaming agent-containing polyurethane emulsion made into a foam is applied to a predetermined thickness. Then, the carrier tape 1 is run in a heating furnace at a temperature at which the carrier tape 1 is not deformed, and the adsorption layer 4 is formed by crosslinking and foaming.

  In addition, although the carrier tape 1 according to the above-described embodiment forms the adsorption layer 4 only on the bottom surface of the accommodating recess 2, the adsorption layer 4 can be formed on the entire surface of the carrier tape 1 as shown in FIG. Moreover, as shown in FIG. 6, it is also possible to form the adsorption layer 4 on the whole surface except the side surface of the accommodation recessed part 2 of the carrier tape 1. And in these aspects, since the top cover tape 5 can be adsorbed and held on the adsorption layer 4, no adhesive is required for attaching the top cover tape 5, and the bonding can be performed easily.

  FIG. 7 shows a carrier tape according to another embodiment of the present invention, and is a cross-sectional view similar to FIG. In this embodiment and the embodiments described later, the same reference numerals are used for the same parts as those of the above-described embodiments, and illustration and description thereof are omitted.

  In this embodiment, an adsorbing sheet 10 in which an adsorbing layer 12 is laminated on one surface of a base sheet 11 is formed, and this adsorbing sheet 10 is adhered to the bottom surface of the housing recess 2 of the carrier tape 1 with an adhesive 13. The base sheet 11 of the adsorption sheet 10 is made of a sheet such as a polyester resin, and the adhesive 13 is an adhesive such as an ethylene-vinyl acetate copolymer.

  And the adsorption sheet 10 is manufactured as described below. That is, first, a primer treatment or a roughening treatment is performed on one surface of a polyester resin substrate sheet 11, and the treated surface of the substrate sheet 11 is stirred and mixed with air to form a foaming agent-containing acrylic emulsion. Is coated to a predetermined thickness and crosslinked by heating to form the adsorption layer 12, and then cut into a predetermined size to complete. Then, the cut adsorbing sheet 10 is bonded to the bottom surface of the housing recess 2 of the carrier tape 1 with the adhesive 13 described above.

  FIG. 8 shows a carrier tape according to still another embodiment of the present invention, and is a cross-sectional view similar to FIG. In this embodiment, a foamed elastomer sheet (adsorption layer) 20 having an entirely foamed structure is formed as a whole, and this foamed elastomer sheet 20 is adhered to the bottom surface of the housing recess 2 of the carrier tape 1 with an adhesive 21. The foamed elastomer sheet 20 is made of a polystyrene-based elastomer or the like, and the adhesive 21 is the same as the adhesive 13 of the above-described embodiment.

  The foamed elastomer sheet 20 is manufactured as follows. That is, first, a polyolefin-based resin or the like is heated and kneaded by an extruder and melted, and a foaming agent is added to the melted resin, followed by extrusion into a sheet. Next, the extruded sheet is heated to foam, and then cut to complete the foamed elastomer sheet 20. The cut foamed elastomer sheet is bonded to the bottom surface of the housing recess 2 of the carrier tape 1 with an adhesive 21.

  Even in the configuration shown in FIG. 7, the semiconductor package 9 has the solder balls 9b adsorbed and held by the adsorbing layer 12 of the adsorbing sheet 10, and also in the configuration shown in FIG. Is adsorbed and held. For this reason, it is possible to prevent the solder balls 9b from being rubbed during transportation or the like.

  7 and 8, the suction sheet 10 and the foamed elastomer sheet 20 are bonded around the opening of the housing recess 2 on the surface of the carrier tape 1, and the top cover tape 5 is attached to the sheets 10 and 20. It is also possible to configure so as to adsorb and hold.

  Moreover, in this invention, it is also possible to comprise the whole carrier tape 1 with the foamed elastomer sheet 20 mentioned above. When the entire carrier tape 1 is composed of the foamed elastomer sheet 20, the housing recess 2 is formed by press molding or the like on the sheet extruded by the extruder, then heated and foamed, and then the feed hole 3. Etc. are formed by punching.

  As an example of utilization of this invention, it can utilize for the carrier tape which accommodates an electronic component and uses it for conveyance.

It is a top view of a part of carrier tape by one embodiment of this invention. It is a cross-sectional view of the carrier tape. It is the schematic cross section which expanded the principal part of the carrier tape. It is the model top view to which the principal part was expanded. It is a cross-sectional view which shows the other aspect of the carrier tape. It is a cross-sectional view which shows the other aspect of the carrier tape. It is a cross-sectional view of a carrier tape according to another embodiment of the present invention. It is a cross-sectional view of a carrier tape according to still another embodiment of the present invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Carrier tape 2 Receiving recessed part 3 Feeding hole 4 Adsorption layer 4a Air hole 5 Top cover tape 7 Detection hole 9 Semiconductor package (electronic component)
9b Solder ball (terminal)
DESCRIPTION OF SYMBOLS 10 Adsorption sheet 11 Adsorption layer 13 Adhesive 20 Foamed elastomer sheet 21 Adhesive

Claims (4)

  A method of manufacturing a sheet-like carrier tape in which a plurality of storage recesses capable of storing electronic components are formed at regular intervals in the longitudinal direction, and forming an adsorption layer having an independent foam structure that is heat-crosslinked to the storage recesses A method for manufacturing a carrier tape. In the manufacturing method of the carrier tape of Claim 1,
In addition to having a step of punching a feed hole for feeding a carrier tape, the formation of the adsorption layer has an independent foam structure in which the terminal portion of the electronic component is adsorbed and held by a step of heating and foaming the carrier tape after forming the storage recess. A method for producing a carrier tape, wherein the carrier tape is formed by providing holes. In the manufacturing method of the carrier tape of Claim 1,
After forming the storage recess, the adsorption layer is formed by applying a foaming agent-containing emulsion that is stirred and mixed with air into the storage recess, and then applying the applied emulsion to a carrier tape. A method for producing a carrier tape, wherein the carrier tape is formed by heating and crosslinking together.   The said carrier tape consists of a foamed elastomer sheet, The manufacturing method of the carrier tape in any one of Claims 1-3 characterized by the above-mentioned.

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