JP2004331330A5 - - Google Patents

Description

[Document Name] Statement
[Title of the Invention] adhesiveTape reel, adhesive equipment,Connection methodAnd adhesive tape connector
[Claims]
(1)
  OneadhesiveThe end of the tape and the otheradhesiveConnected to the beginning of the tape using a fasteneradhesiveTape reel, the connection part isadhesiveIt is characterized in that the fastener is covered with tapeadhesiveTape reel.
(2)
  Claim 1adhesiveTape reels,adhesiveA tape take-up reel,adhesiveIt is provided between the tape reel and the take-up reel, and is heated and pressed by a head.adhesiveTapeadhesiveA bonding device comprising a crimping portion for crimping the tape to the circuit board, and a connection portion detection means for detecting a connection portion of the tape, and when the connection portion detection means detects the connection portion of the tape, the connection portion is One side until it passes the crimpadhesiveAn adhesive device for winding a tape on a take-up reel.
(3)
  3. The bonding apparatus according to claim 2, wherein the connection detecting unit is any one of a CCD camera, a thickness detecting sensor, and a transmittance detecting sensor.
(4)
  OneadhesiveThe end of the tape and the otheradhesiveConnect the start end of the tape with the lock using a fastener.adhesiveCharacterized by covering the fastener with tapeadhesiveHow to connect the tape.
(5)
  An adhesive tape connector having a connection portion that connects a terminal end of one adhesive tape and a start end of the other adhesive tape by using a locking tool,
  An adhesive tape connection body, wherein the connection part is covered with a stopper by an adhesive tape.
DETAILED DESCRIPTION OF THE INVENTION
    [0001]
TECHNICAL FIELD OF THE INVENTION
  The present invention adheres and fixes an electronic component and a circuit board, or circuit boards, and electrically connects both electrodes.adhesiveAbout tape. Further, it is used in a semiconductor device for fixing a lead frame or bonding and fixing a semiconductor element (chip) to a lead frame die and a semiconductor element mounting support substrate.adhesiveTape, especially wound in reelsadhesiveTape reel, adhesive equipment,adhesiveHow to connect tape, And adhesive tape connection body manufactured by the connection methodAbout.
    [0002]
[Prior art]
  2. Description of the Related Art In general, a method for bonding and fixing electronic components such as a liquid crystal panel, a PDP (plasma display panel), an EL (fluorescent display) panel, and a pair chip to a circuit board and the circuit boards and electrically connecting both electrodes to each other is as follows.adhesiveTape is used. Also,adhesiveThe tape is used for a lead fixing tape of a lead frame, an LOC tape, a die bonding tape, an adhesive film such as a micro BGA / CSP, and the like, and is used to improve the productivity and reliability of the entire semiconductor device.
  Patent Document 1 discloses thatadhesiveWas appliedadhesiveA tape wound on a reel is disclosed.
  For this kind of conventional electrode connectionadhesiveThe tape has a width of about 1 to 3 mm, and the length of the tape wound on a reel is about 50 m.
  adhesiveWhen attaching the tape to the bonding machine,adhesiveWound tape on reeladhesiveAttach the tape reel to the bonding device,adhesivePull out the beginning of the tape and attach it to the take-up reel. AndadhesiveUnwound from tape reeladhesiveThe adhesive is pressed against a circuit board or the like by a heating and pressing head from the base side of the tape, and the remaining base material is wound up on a take-up reel.
  And one ofadhesiveTape reeladhesiveWhen the tape is finished, remove the finished reel and the take-up reel that has taken up the base material,adhesiveAttach the tape reel to the bonding device,adhesiveThe beginning of the tape is attached to the take-up reel.
    [0003]
[Patent Document 1] JP-A-2001-284005
    [0004]
[Problems to be solved by the invention]
  However, with the recent increase in the size of panel screens in PDPs and the like, the bonding area of circuit boards has increased, and the amount of adhesive used at one time has increased. Also, the use of adhesives has expanded, and the amount of adhesives used has increased. For this reason, electronic equipment manufacturing plantsadhesiveThe frequency of replacing tape reels increases,adhesiveThere is a problem in that the production efficiency of the electronic device cannot be improved because the replacement of the tape reel is troublesome.
  Take up the reeladhesiveBy increasing the number of windings of the tape, it is conceivable to increase the amount of adhesive per reel and reduce the frequency of reel replacement.adhesiveSince the tape width of the tape is as narrow as 1 to 3 mm, there is a possibility that winding collapse may occur if the number of windings is increased. In addition, when the number of windings is increased,adhesiveThe pressure acting on the tape increases, and the adhesive may ooze out from both widths of the tape and cause blocking.
  Furthermore,adhesiveWhen the number of windings of the tape is increased, the diameter of the reel also increases, which makes it difficult to mount the tape on an existing bonding apparatus, and may make it impossible to use the existing bonding apparatus.
  Therefore, the present inventionadhesiveThe tape reel can be easily replaced, and the production efficiency of electronic equipment can be improved.adhesiveTape reel, adhesive equipment,Connection method, And adhesive tape connection body manufactured by the connection methodThe purpose is to provide.
    [0005]
[Means for Solving the Problems]
  In order to solve the above-mentioned problem, the invention described in claim 1 has one side.adhesiveThe end of the tape and the otheradhesiveConnected to the beginning of the tape using a fasteneradhesiveTape reel, the connection part isadhesiveThe fastener is covered with tape.
  According to the first aspect of the present invention, the unwinding is completed.adhesiveAttach a new end to the end of the tapeadhesiveConnect to the beginning of the tape using a fastener,adhesiveSince the tape reel is replaced, a newadhesiveEasy mounting of tape reels. Also newadhesiveEach time the tape reel is replaced, the take-up tape must be replaced or a new oneadhesiveThere is no need to attach the start end of the tape to the take-up reel and set guide pins etc. in the predetermined path.adhesiveThe time required to change the tape reel is reduced, and the production efficiency of electronic devices is increased.
  adhesiveSince tapes can be used sequentially,adhesivePer tape reeladhesiveThe amount of adhesive that can be used in one exchange operation can be greatly increased without increasing the number of windings of the tape. Also,adhesiveSince the number of windings of the tape is not increased, it is possible to prevent winding collapse and the adhesive has oozed in the width direction of the tape and wound.adhesiveIt is possible to prevent so-called blocking in which the tapes adhere to each other, and further to prevent adverse effects such as elongation of the base material, which are likely to occur when the base material is elongated.
  Also, oneadhesiveThe end of the tape and the otheradhesiveAt the connection to the beginning of the tape,adhesiveBecause it is covered with tape, the appearance is good and the fasteners at the connection areadhesiveTouching the tape,adhesiveThe tape can be prevented from being damaged, and components such as the heating / pressing head and the support base of the bonding apparatus are not damaged by the locking tool.
  In addition, the locking tooladhesiveOne way to cover with tape isadhesiveThe end of the tape and the otheradhesiveAfter connecting the starting end of the tape with the locking device, the connecting portion is folded back 180 degrees in the longitudinal direction of the tape, so that the locking device is connected.adhesiveIt is preferable to cover with tape.
  Also, connect the connectionadhesiveYou may make it cover with a tape by winding with a tape.
    [0006]
  The invention described in claim 2 is the invention according to claim 1.adhesiveTape reels,adhesiveA tape take-up reel,adhesiveIt is provided between the tape reel and the take-up reel, and is heated and pressed by a head.adhesiveTapeadhesiveA bonding device having a crimping portion for crimping the circuit board of the electronic device and a connection portion detection means for detecting a connection portion of the tape, wherein the connection portion detection means detects the connection portion of the tape, Until the connection passes through the crimpadhesiveThe tape is wound on a take-up reel.
  According to the second aspect of the present invention, when the connection portion is detected by the connection portion detection means, one of the connection portions passes until the connection portion passes through the crimping portion.adhesiveSince the tape is wound on the take-up reel, it is possible to prevent a problem that the connection portion comes to the crimping portion and the crimping operation is performed. Until the connection part passes through the crimping part,adhesiveSince the tape is automatically wound on the take-up reel, the time and effort for winding can be reduced.
    [0007]
  According to a third aspect of the present invention, in the second aspect, the connecting portion detecting means is any one of a CCD camera, a thickness detecting sensor, and a transmittance detecting sensor.
  According to the third aspect of the invention, the same operation and effect as those of the second aspect of the invention can be obtained, and the connection portion can be detected with a simple configuration. Can be increased.
  For example, when a CCD camera is used as the connection detecting means, the connection part is detected by capturing the surface of the connection part on a monitor screen and comparing the density of pixels. When a thickness detection sensor is used, the thickness of the connectionadhesiveSince the thickness is larger than the thickness of the tape, the connection portion is detected by comparing the change in the thickness. Further, when the transmittance sensor is used, the connection portion becomes thicker and the transmittance is reduced due to the presence of the locking member, and the connection portion is detected by comparing the transmittance values.
    [0008]
  Claim 4adhesiveOne way to connect the tapeadhesiveThe end of the tape and the otheradhesiveConnect the start end of the tape with the lock using a fastener.adhesiveThe fastener is covered with a tape.
  In the fourth aspect of the present invention, the unwinding is completed.adhesiveAttach a new end to the end of the tapeadhesiveConnect to the beginning of the tape using a fastener,adhesiveSince the tape reel is replaced, a newadhesiveEasy mounting of tape reels. Also newadhesiveEach time the tape reel is replaced, the take-up tape must be replaced or a new oneadhesiveThere is no need to attach the start end of the tape to the take-up reel and set guide pins etc. in the predetermined path.adhesiveThe time required to change the tape reel is reduced, and the production efficiency of electronic devices is increased.
  adhesiveSince tapes can be used sequentially,adhesivePer tape reeladhesiveThe amount of adhesive that can be used in one exchange operation can be greatly increased without increasing the number of windings of the tape. Also,adhesiveSince the number of windings of the tape is not increased, it is possible to prevent winding collapse and the adhesive has oozed in the width direction of the tape and wound.adhesiveIt is possible to prevent so-called blocking in which the tapes adhere to each other, and further to prevent adverse effects such as elongation of the base material, which are likely to occur when the base material is elongated.
  Also, oneadhesiveThe end of the tape and the otheradhesiveAt the connection to the beginning of the tape,adhesiveBecause it is covered with tape, the appearance is good and the fasteners at the connection areadhesiveTouching the tape,adhesiveThe tape can be prevented from being damaged, and components such as the heating / pressing head and the support base of the bonding apparatus are not damaged by the locking tool.
  In addition, the locking tooladhesiveOne way to cover with tape isadhesiveThe end of the tape and the otheradhesiveAfter connecting the starting end of the tape with the locking device, the connecting portion is folded back 180 degrees in the longitudinal direction of the tape, so that the locking device is connected.adhesiveIt is preferable to cover with tape.
  Also, connect the connectionadhesiveYou may make it cover with a tape by winding with a tape.
  An adhesive tape connection body according to claim 5, further comprising a connection portion for connecting a terminal end of one adhesive tape and a start end of the other adhesive tape by using a locking tool. The body is characterized in that the connection portion is covered with a locking member by an adhesive tape.
    [0009]
BEST MODE FOR CARRYING OUT THE INVENTION
  Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings. First, a first embodiment of the present invention will be described with reference to FIGS. FIG. 1 shows the first embodiment.adhesiveIt is a figure which shows a tape reel, (a) isadhesiveIt is a perspective view which shows a tape reel, (b) is a front view in (a), (c) is sectional drawing of the connection part in (a), FIG. FIG. 3 is a cross-sectional view showing the bonding between circuit boards, FIG. 4 is a perspective view showing a use state of an adhesive in a PDP, and FIG.adhesiveIt is a flowchart showing a manufacturing method of a tape.
    [0010]
  According to the present embodimentadhesiveThe tape reel A has a plurality ofadhesiveA winding portion (hereinafter, winding portion) 2, 2a of the tape 1 is provided.adhesiveIt has reels 3 and 3a around which a tape 1 is wound. Each reel 3, 3a has a winding core 5adhesiveSide plates 7 arranged on both width sides of the tape 1 are provided. As shown in FIG.adhesiveThe tape 1 includes a base material 9 and an adhesive 11 applied to one side surface of the base material 9.
  Wound around one of the winding portions 2 among the plurality of winding portions 2 and 2aadhesiveTape (hereinafter, one ofadhesiveTape) wound around the end portion 30 of the tape 1 and the other winding portion 2aadhesiveTape (hereinafter the otheradhesiveThe tape (tape) 1 is connected to the start end 32 by using a locking tool 43. The locking tool 43 is, for example, a locking pin having a substantially U-shaped cross section.adhesiveThe end portion 30 of the tape 1 and the other endadhesiveThe start end 32 of the tape 1 is overlapped, and a locking pin is inserted into the overlapped portion to connect the two.
  Further, in the present embodiment, as shown in FIG. 1C, the connecting portion 41 is connected in the longitudinal direction of the tape after the terminal portion 30 and the starting end portion 32 are connected by the locking tool 43, as shown in FIG. By folding back 180 degrees, the locking tool 43adhesiveCovered with tape 1.
    [0011]
  As the substrate 9, OPP (stretched polypropylene), polytetrafluoroethylene, silicon-treated PET (polyethylene terephthalate), or the like is used from the viewpoint of strength and releasability of the adhesive constituting the anisotropic conductive material, but is not limited thereto. Not something.
  As the adhesive 11, a thermoplastic resin, a thermosetting resin, or a mixed system of a thermoplastic resin and a thermosetting resin is used. Typical examples of such a resin include a styrene resin type and a polyester resin type as a thermoplastic resin type, and an epoxy resin type, an acrylic resin type and a silicone resin type as a thermosetting resin type.
  The conductive particles 13 may be dispersed in the adhesive 11. Examples of the conductive particles 13 include metal particles such as Au, Ag, Pt, Ni, Cu, W, Sb, Sn, and solder, carbon, graphite, and the like, and / or non-conductive glass, ceramics, plastics, and the like. The above-mentioned conductive layer may be formed on a polymer core material or the like by coating or the like. Furthermore, insulating coated particles obtained by coating the above-described conductive particles with an insulating layer, a combination of conductive particles and insulating particles, and the like are also applicable. A conductive layer formed on a hot-melt metal, such as solder, or a polymer nucleus material, such as plastic, has deformability due to heating and pressurizing or pressurizing, and the distance between the electrodes after connection decreases. This is preferable because the contact area with the circuit is increased and the reliability is improved. Particularly when a polymer is used as a nucleus, it does not show a melting point like solder, so that a softened state can be widely controlled by a connection temperature, and a connection member which can easily cope with variations in electrode thickness and flatness is more preferable. .
    [0012]
  Next, according to the present embodiment.adhesiveA method of using the tape reel will be described. As shown in FIG.adhesiveThe tape reel A and the take-up reel 17 are mounted,adhesiveThe start end 32 of the tape 1 is hung on the guide pin 22 and attached to the take-up reel 17,adhesiveThe tape 1 is paid out (arrow E in FIG. 2). Then, on the circuit board 21adhesiveThe tape 1 is disposed, and the heating and pressing head 19 disposed between the reels 3 and 17 is used.adhesiveThe tape 1 is pressed from the base material 9 side, and the adhesive 11 is pressed against the circuit board 21. Thereafter, the substrate 9 is wound around a take-up reel 17.
  Next, as shown in FIG. 3, a wiring circuit (or an electronic component) 23 is arranged on the adhesive 11 which has been crimped to the circuit board 21, and a heating / pressing head is placed via a polytetrafluoroethylene material 24 as a cushion material. By 19, the wiring circuit 23 is heated and pressed on the circuit board 21. Thus, the electrode 21a of the circuit board 21 and the electrode 23a of the wiring circuit 23 are connected.
  FIG. 4 shows the present embodiment.adhesiveAs shown in the connection portion of the PDP 26 using the tape 1, the adhesive 11 is pressure-bonded over the entire periphery of the PDP 26, and the amount of the adhesive 11 used at one time may be significantly increased as compared with the related art. it is obvious. Therefore,adhesiveThe amount of tape 1 used also increased, and it was wound on reels 3 and 3a.adhesiveThe tape 1 is wound up on the take-up reel 17 in a relatively short time.
    [0013]
  In the present embodiment, one ofadhesiveWhen the unwinding of the tape 1 is completed, the connecting portion 41 is removed from the notch 42, and then the other portion is removed.adhesiveThe tape 1 is fed (FIG. 1b). In the present embodiment, one ofadhesiveThe end portion 30 of the tape 1 and the other endadhesiveSince the starting end 32 of the tape 1 is connected with the locking tool 43,adhesiveWhen the unwinding of the tape 1 is completed, the otheradhesiveThe feeding of the tape 1 can be started. Therefore, oneadhesiveAfter unwinding of tape 1, a newadhesiveThe work of attaching the tape 1 to the take-up reel 17 becomes unnecessary, and the production efficiency of the electronic device is increased. In addition, the connecting portion 41 includes a locking member 43.adhesiveSince it is covered with the tape 1, the appearance is good and the locking tool 43 of the connecting portion 41 isadhesiveAfter touching tape 1,adhesiveThe tape 1 can be prevented from being damaged.
  Further, as shown in FIG. 2, the bonding device 15 includes a thickness detection sensor as the connection portion detection sensor 47, optically detects the connection portion 41, and connects the connection portion 41 to the portion of the heating / pressing head 19. Is skipped. OneadhesiveTape 1 and the otheradhesiveAs shown in FIG. 1C, a connection portion 41 with the tape 1adhesiveThe connection portion 41 is recognized by detecting the difference in the thickness, which is larger than the thickness of the tape 1. The thickness detection sensor 47 isadhesiveThe thickness of the tape 1 is constantly detected, and the detection signal is transmitted to the control device 51.
  The control device 51 that has received the detection signal outputs a control signal to a motor that drives both reels 3 and 17 of the bonding device 15 and starts outputting a drive pulse to the motor via a motor driver. Then, the motor rotates according to the number of pulses applied from the motor driver, and while rotating both reels 3 and 17 at a speed higher than the normal speed, a predetermined distance corresponding to the length of the connection portion 41 in the transport direction. OnlyadhesiveThe tape 1 is moved in the unwinding direction.
  This allows the otheradhesiveSince the tape 1 is transported to the position of the heating and pressing head 19, one and the otheradhesiveIt is possible to prevent such a problem that the connection portion 41 of the tape 1 comes to the position of the heating / pressing head 19 and the pressing operation is performed. Until the connecting portion 41 passes through the heating / pressing head 19,adhesiveSince the tape 1 is automatically wound on the take-up reel 17, the time and effort for winding can be saved.
  In addition, if the thickness detection sensor 47 recognizes the leading end 41a and the rear end 41b of the connecting portion 41 and can skip only the connecting portion 41,adhesiveThe tape 1 can be used effectively.
  In addition, since only the base material 9 is wound on the take-up reel 17,adhesiveSince several tape reels can be wound, the number of times of replacing the take-up reel 17 can be reduced, and work efficiency is good.
    [0014]
  Here, according to the present embodiment with reference to FIG.adhesiveA method for manufacturing the tape 1 will be described.
  The base material (separator) unwound from the unwinding machine 25 is coated with an adhesive in which the resin and the conductive particles 13 are mixed by the coater 27 and dried in the drying furnace 29. Take up. Wound upadhesiveThe raw material of the tape is cut into a predetermined width by a slitter 33 and wound on a core. Then, the side plates 7, 7 are attached to the core from both sides and packed together with a dehumidifying material. (5 ° C. to −10 ° C.) before being shipped.
    [0015]
  Next, another embodiment of the present invention will be described. In the embodiment described below, the same portions as those in the above-described embodiment are denoted by the same reference numerals, and a detailed description of the portions will be given. The description will be omitted, and the points different from the above-described embodiment will be mainly described.
  In the second embodiment shown in FIG. 6, a plurality of winding portions 2 and 2a are provided.adhesiveWith one winding part without using the tape reel AadhesiveThe tape reel 2c is used. in this case,adhesiveThe tape 1 is wound on a take-up reel 17, and one of theadhesiveWhen the end mark 28 is exposed on the tape 1,adhesiveNew tape reel 2badhesiveTo replace the tape reel 2c,adhesiveThe end 30 of the tape 1 and the other endadhesiveThe tape 1 is connected to the start end 32.
  Also in this case, the connection portion 41 skips the heating / pressing head 19 by detecting the connection portion 41 with the thickness detection sensor 47 as the connection portion detection means.
  The present invention is not limited to the above-described embodiment, but can be variously modified without departing from the gist of the present invention.
  For example, in the first and second embodiments described above,adhesiveThe locking tool 43 for connecting the tapes 1 is not limited to a locking pin, but may be a member that fixes the overlapping portion of both tapes with an elastically deformable clip having a substantially U-shaped cross section, or the overlapping portion of the two. May be sandwiched between metal pieces having a substantially U-shaped cross section, and the holding pieces may be crushed from both sides of the overlapped portion to connect them.
  In the first and second embodiments, the connection portion 41 is recognized by detecting the thickness of the connection portion 41 using the thickness detection sensor 47. However, the present invention is not limited to this. The connection portion may be detected by capturing the surface of the connection portion on a monitor screen using a camera that recognizes the connection portion 41 using a CCD camera, and comparing the density of pixels.
    [0016]
  7 and 8 show the fixing of the lead frame and the connection between the semiconductor element and the support substrate for mounting the semiconductor element or the die of the lead frame.adhesiveAn example of a LOC (Leadon Chip) structure for fixing a lead frame and bonding and fixing a semiconductor element to the lead frame among tapes is shown.
  FIG. 7A shows a structure in which an adhesive layer 52 such as a 25 μm-thick polyamide-imide adhesive layer is provided on both sides of a support film 50 such as a polyimide film having a surface treatment having a thickness of 50 μm.adhesiveUsing the tape, a semiconductor device having a LOC structure shown in FIG. 7B is obtained. As shown in FIG.adhesiveThe tape is punched in a strip shape using a punching die 59 (male (convex) 67, female (recess) 68) of the bonding apparatus shown in FIG. The inner lead having a 0.2 mm interval and a 0.2 mm width is placed on the lead frame, and pressed at 400 ° C. under a pressure of 3 MPa for 3 seconds to produce a lead frame with an adhesive film for a semiconductor. Next, in a separate step, the semiconductor element is pressed against the adhesive layer surface of the lead frame with an adhesive film for a semiconductor at 350 ° C. at a pressure of 3 MPa for 3 seconds, and then the lead frame and the semiconductor element are bonded with a gold wire. Wire bonding is performed and transfer molding is performed using a sealing material such as an epoxy resin molding material to obtain a semiconductor device as shown in FIG. 7B. In FIGS. 7A and 7B, 53 isadhesiveAn adhesive film for semiconductor punched from a tape, 54 is a semiconductor element, 55 is a lead frame, 56 is a sealing material, 57 is a bonding wire, and 58 is a bus bar. 8 (a), 8 (b) and 8 (c) show the bonding apparatus. In FIGS. 8 (a) and 8 (b), 59 is a punching die, 60 is a lead frame transport section, and 61 is an adhesive tape punching and sticking. Section, 62 is a heater section, 63 isadhesiveTape reel (adhesiveTape unwinding section), 64adhesiveTape (adhesive film for semiconductor), 65adhesiveIt is a tape unwinding roller. In FIG. 8C, 66 isadhesiveTape (adhesive film for semiconductor), 67 is a male type (convex portion), 68 is a female type (concave portion), and 69 is a film holding plate.adhesiveTape 64adhesiveTape reel (adhesiveContinuously unwound from the tape unwinding unit) 63adhesiveThe sheet is punched in a strip shape at a tape punching and sticking section 61, adhered to a lead portion of a lead frame, and transported as a lead frame with an adhesive film for a semiconductor from a lead frame transport section. PerforatedadhesiveTape isadhesiveIt is carried out from the tape unwinding roller 65.
  As above,adhesiveThe semiconductor element is connected to the semiconductor element mounting support substrate using a tape. Similarly, the die of the lead frame and the semiconductor element are connected and bonded.adhesiveThe tape is used for the purpose of simply bonding and fixing, or by contacting the electrodes, or electrically connecting via conductive particles according to the purpose. May be.
    [0017]
【The invention's effect】
  According to the first aspect of the present invention,adhesiveThe end of the tape and the otheradhesiveAt the connection to the beginning of the tape,adhesiveBecause it is covered with tape, the appearance is good and the fasteners at the connection areadhesiveIn contact with the tapeadhesiveDamage to the tape and the adhesive device can be prevented.
  According to the invention as set forth in claim 2, when the connection portion is detected by the connection portion detection means, one of the connection portions is passed until the connection portion passes through the crimping portion.adhesiveSince the tape is wound on the take-up reel, it is possible to prevent a problem that the connection portion comes to the crimping portion and the crimping operation is performed. Until the connection part passes through the crimping part,adhesiveSince the tape is automatically wound on the take-up reel, the time and effort for winding can be reduced.
  According to the third aspect of the invention, the same operation and effect as those of the second aspect of the invention can be obtained, and the connection portion can be detected with a simple configuration, and the detection accuracy is improved by using these means. Can be enhanced.
[Brief description of the drawings]
    FIG. 1 is related to a first embodiment.adhesiveIt is a figure which shows a tape reel, (a) isadhesiveIt is a perspective view which shows a tape reel, (b) is a front view in (a), (c) is sectional drawing of the connection part in (a).
    FIG. 2 is a schematic view showing a pressure bonding step of an adhesive in a bonding apparatus.
    FIG. 3 is a cross-sectional view showing adhesion between a circuit board and a wiring circuit (electronic component).
    FIG. 4 is a perspective view showing a use state of an adhesive in a PDP.
    FIG. 5 adhesiveIt is a flowchart showing a manufacturing method of a tape.
    FIG. 6 shows a second embodiment of the present invention.adhesiveIt is a perspective view which shows a tape reel.
    FIG. 7 of the present invention.adhesiveTape reeladhesive(A) when the tape is used for a semiconductor device having a LOC structureadhesiveIt is a sectional view of a tape and (b) a sectional view of a semiconductor device having a LOC structure.
    FIG. 8 of the present invention.adhesiveIt is the schematic of the bonding apparatus using a tape reel, (a) is a front view, (b) is a side view, (c) is in (b)adhesiveFIG. 3 is an enlarged view of a main part of a tape punching and sticking unit 9.
[Explanation of symbols]
A, 2b, 2c.adhesiveTape reel, 1.adhesivetape,
2, 2a. Winding part, 3, 3a. Reel, 4. 6. winding core; Side plate,
9. 10. a substrate; Adhesive, 13. 14. conductive particles; Bonding equipment,
17. Take-up reel, 19. Heating and pressing head, 21. Circuit board,
22. Guide pin, 23. Wiring circuit (electronic component), 25. Unwinder,
26. PDP, 27. Coater, 28. End mark, 29. drying furnace,
30. End portion, 31. Winder, 32. Start end, 33. Slitter,
41. Connection part, 42. Notch, 43. Fasteners,
47. 50. connection part detecting means (thickness detecting sensor); Support film
51. Control device, 52. Adhesive layer,
53. Adhesive film for semiconductor (adhesivetape),
54. Semiconductor device, 55. Lead frame, 56. Sealing material,
57. Bonding wire, 58. Busbar, 59. Punching dies,
60. Lead frame transport section, 61.adhesiveTape punching, sticking part,
62. Heater part, 63.adhesiveTape reel (adhesiveTape unwinding section),
64.adhesiveTape, 65.adhesiveTape unwind roller,
66.adhesiveTape, 67. Male type (convex portion), 68. Female part (recess),
69. Film holding plate.