JP2006327591A - Carrier tape package for feeding electronic component - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a carrier tape package for feeding electronic components capable of efficiently and conveniently controlling identification of a carrier tape for feeding electronic components and information on the service history thereof. <P>SOLUTION: A carrier tape package 20 is used in an electronic component mounting device to feed electronic components by a tape feeder, and accommodates a carrier tape 22 in a wound state around a tape reel 21. An IC tag 25 in which carrier tape information including identification information of the electronic components P held by the carrier tape 22 is written in advance is attached to a holder 24, and a held data storage unit 23 is attached to the tape reel 21. When the carrier tape 22 is mounted on the tape feeder, carrier tape information is read by a reader-writer provided on the tape feeder from a data storage unit 23 attached to a tip end of the carrier tape 22. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a carrier tape package for mounting an electronic component, which is used to supply an electronic component in an electronic component mounting apparatus, and is formed by storing a carrier tape holding the electronic component in a wound state on a tape reel. .

  As a method of supplying an electronic component to a mounting head in an electronic component mounting apparatus, there is a wide range of methods of feeding an electronic component to a pickup position by the mounting head by pitch-feeding a carrier tape holding the electronic component with a tape feeder. It is used. The carrier tape is handled in the state of being wound and stored on the tape reel, and when the component mounting operation starts or the component runs out during the mounting operation, the tape reel wound and stored in the carrier tape is used as the component supply unit. Reel mounting work to be set to is performed.

Since a large number of tape reels of the same shape are mounted in the component supply unit, it is easy for an operator to mistake the identification of the tape reel in the reel mounting operation and to erroneously mount an incorrect tape reel to each tape feeder. . In order to prevent such erroneous mounting, a barcode label on which identification information about the electronic component held on the carrier tape is written is affixed to the tape reel, and this barcode label is read and identified during the reel mounting operation. A method is known (see, for example, Patent Document 1).
JP 2000-68690 A

  However, in the method using the bar code label as the identification information of the carrier tape as described above, it is necessary for the operator to operate the bar code reader every time the reel is installed, and a large number of tape reels are frequently used. When handling with, it is unavoidable that reading errors occur due to the mistake of the tape reels. Further, in the method using the bar code label, the same information written first can be repeatedly read, and new information cannot be added and written. For this reason, if an attempt is made to record information on the number of remaining parts or production history on a tape reel that has been suspended while an unused carrier tape is left, the only way is for the operator to write the necessary information on the tape reel by hand. There wasn't. As described above, an efficient and easy-to-use method has been established for managing component information related to identification and usage history of carrier tapes for supplying electronic components that are handled while being wound and stored on a tape reel. A new system was desired.

  SUMMARY OF THE INVENTION An object of the present invention is to provide a carrier tape package for supplying electronic components, which can efficiently and easily manage information relating to identification and usage history of carrier tapes for supplying electronic components.

The carrier tape package for electronic component supply of the present invention is used to supply the electronic component in an electronic component mounting apparatus that takes out the electronic component from a tape feeder and mounts it on a substrate, and a carrier tape holding the electronic component is used. A carrier tape package for mounting electronic components housed in a wound state on a tape reel, wherein the carrier tape package can be written to and read from, and identification information of the electronic components held on the carrier tape And a data storage unit that holds a storage medium pre-written with carrier tape information in a holder that can be slidably mounted on the carrier tape, and at least the time when the carrier tape is mounted on the tape feeder The data storage unit is the carrier tape It is mounted at the head end.

  According to the present invention, a data storage unit that holds a storage medium in which carrier tape information is written in advance is attached to a carrier tape package in which a carrier tape is wound around a tape reel. By reading the carrier tape information when the carrier tape is mounted on the tape feeder, the identification information included in the carrier tape information can be automatically read without causing a reading error. Furthermore, by providing a writing means for writing data to the storage medium, information relating to usage history can be written to the storage medium at any time, and management of component information relating to carrier tape identification, usage history, etc. can be performed efficiently and conveniently. .

  Next, embodiments of the present invention will be described with reference to the drawings. 1 is a plan view of an electronic component mounting apparatus according to an embodiment of the present invention, FIG. 2 is a partial cross-sectional view of the electronic component mounting apparatus according to an embodiment of the present invention, and FIG. 3 is an embodiment of the present invention. 4 is a cross-sectional view of a component supply unit of the electronic component mounting apparatus, FIG. 4 is an explanatory diagram of the configuration of a carrier tape package used in the electronic component mounting apparatus of one embodiment of the present invention, and FIGS. FIG. 7 is an explanatory view of the structure of the data storage unit used in the electronic component mounting apparatus of the embodiment, FIG. 7 is an explanatory view of the mounting method of the data storage unit in the electronic component mounting apparatus of the embodiment of the present invention, and FIG. FIG. 9 is an explanatory diagram of data reading / writing of a data storage unit used in the electronic component mounting apparatus of one embodiment, and FIG. 9 is a block diagram showing a configuration of a control system of the electronic component mounting apparatus of one embodiment of the present invention. FIG. 10 and FIG. It is an explanatory view of the reel mounting method in the embodiment the electronic component mounting apparatus.

  First, the structure of the electronic component mounting apparatus will be described with reference to FIGS. FIG. 2 partially shows an AA cross section in FIG. In FIG. 1, a transport path 2 is disposed in the center of the base 1 in the X direction (substrate transport direction). The conveyance path 2 conveys the substrate 3 carried in from the upstream side and positions it on the mounting stage. On both sides of the conveyance path 2, component supply units 4 are arranged, and each component supply unit 4 has a plurality of tape feeders 5 arranged in parallel. The tape feeder 5 supplies the electronic components by pitch-feeding the carrier tape holding the electronic components.

  Y-axis tables 6A and 6B are disposed on both ends of the upper surface of the base 1, and two X-axis tables 7A and 7B are installed on the Y-axis tables 6A and 6B. By driving the Y-axis table 6A, the X-axis table 7A moves horizontally in the Y direction, and by driving the Y-axis table 6B, the X-axis table 7B moves horizontally in the Y direction. Mounted on the X-axis tables 7A and 7B are a mounting head 8 and a substrate recognition camera 9 that moves integrally with the mounting head 8, respectively.

  By driving the Y-axis table 6A, the X-axis table 7A, the Y-axis table 6B, and the X-axis table 7B in combination, the mounting head 8 moves horizontally, and the electronic components are picked up from the respective component supply units 4 by suction nozzles 8a (see FIG. 2) and mounted on the substrate 3 positioned in the transport path 2. The substrate recognition camera 9 that has moved onto the substrate 3 captures and recognizes the substrate 3. In addition, a component recognition camera 10 and a nozzle holding unit 11 are disposed on the route from the component supply unit 4 to the conveyance path 2.

When the mounting head 8 that has taken out the electronic component from the component supply unit 4 moves to the substrate 3 positioned on the mounting stage, the electronic component held by the suction nozzle 8 a is moved in the X direction above the component recognition camera 10. Thus, the component recognition camera 10 images the electronic component held by the suction nozzle 8a. The imaging result is recognized by a recognition processing unit (not shown), whereby the position of the electronic component held in the suction nozzle 8a is recognized and the type of the electronic component is identified. The nozzle holding unit 11 stores a plurality of types of suction nozzles 8a in a predetermined posture, and the mounting head 8 accesses the nozzle holding unit 11 to perform a nozzle replacement operation. The nozzle is replaced according to the above.

  Next, the structure of the component supply unit 4 will be described with reference to FIG. The component supply unit 4 is provided with a feeder base 12 for mounting a plurality of tape feeders 5. The tape feeder 5 is disposed in the component supply unit 4 by a feeder mounting carriage 13. The carriage 13 is provided with a reel holding portion 16 for holding a tape reel 21 that stores a carrier tape 22 in a wound state. The reel holding unit 16 includes a holding roller for rotatably holding the tape reel 21 so that the carrier tape 22 can be pulled out by rotating the tape reel 21 disposed in the component supply unit 4. It has become.

  A tape introduction section 14 is provided along with each tape feeder 5 in the tape feeding path through which the carrier tape 22 drawn from the tape reel 21 is drawn into the tape feeder 5. The tape introduction unit 14 is provided with a reader / writer 15 for reading and writing data for a data storage unit 23 described later. The carrier tape 22 drawn into the tape feeder 5 is pitch-fed by a tape feeding mechanism built in the tape feeder 5 and sequentially fed to a take-out position by the mounting head 8. Then, the electronic components are taken out by the mounting head 8 from the carrier tape 22 that has been pitch-fed and transferred and mounted on the substrate 3. That is, the tape feeder 5 on which the tape reel 21 is set in the component supply unit 4 is an electronic component supply device that supplies the electronic component held on the carrier tape 22 to the mounting head 8.

  Next, a carrier tape package 20 in which the carrier tape 22 is accommodated in the tape reel 21 will be described with reference to FIG. As shown in FIG. 4B, a plurality of embossed portions 22a are formed at a constant pitch on one side of the carrier tape 22, and as shown in FIG. Is retained. The carrier tape 22 is cut into a predetermined length and then stored on the tape reel 21 in a wound state. The tape reel 21 is handled in the form of a package housed in a box or bag-like container in units of a predetermined number, and is supplied to the electronic component mounting line in this state.

  A data storage unit 23 is attached to the carrier tape package 20 while being held near the leading end of the carrier tape 22. As shown in FIG. 4B, the data storage unit 23 has a configuration in which an IC tag 25 is held by a resin holder 24. The IC tag 25 is a sheet-like electronic storage device that incorporates an ultra-small semiconductor memory that can be freely written and read, and can write and read data without contact. In the IC tag 25, data such as carrier tape information including identification information of electronic components held on the carrier tape 22 is written in advance.

Here, the data storage unit 23 is attached to one tape reel 21 in a one-to-one correspondence. In the present embodiment, the carrier tape package in which the data storage unit 23 is mounted on the carrier tape 22 in advance by the manufacturer. 20 is supplied. The data storage unit 23 can be attached to the carrier tape package 20 in various forms. For example, the data storage unit 23 is not attached to the carrier tape 22 and is attached to the container of the carrier tape package 20 on a one-to-one basis. It may be attached in such a way as to ensure. In short, it is only necessary to ensure the correspondence between the data storage unit 23 and the carrier tape 22 in a state in which the carrier tape 22 is mounted on the tape feeder 5. In other words, at least the tape reel 21 is set in the component supply unit 4. Carrier tape 22
Is attached to the leading end portion of the carrier tape 22 at the time of attaching to the tape feeder 5.

  Next, the detailed structure of the data storage unit 23 will be described with reference to FIG. The holding body 24 is manufactured by molding a resin into a substantially square block shape, and the IC tag 25 is integrally embedded in the holding body 24. On one side (the lower surface in FIG. 5) of the holding body 24, a tape insertion portion 24a having a cross-sectional shape through which the base tape portion 22b of the carrier tape 22 can be slidably inserted is provided penetrating in the longitudinal direction. The holding body 24 is slidably mounted on the carrier tape 22 by inserting the base tape portion 22b of the carrier tape 22 through the tape insertion portion 24a.

  In the holding body 24, a mounting portion 24 b for detachably mounting and holding the holding body 24 on the tape introducing portion 14 is provided on the opposite side of the surface on which the tape insertion portion 24 a is provided. When a new tape reel 21 is set in the component supply unit 4, as shown in FIG. 7A, the carrier tape 22 is pulled into the tape feeder 5 via the tape introduction unit 14 and data storage is performed. The unit 23 is attached to the tape introduction unit 14.

  The tape introduction unit 14 has a structure in which the plate member 14a is provided with the above-described fitting plate 14b having a cross-sectional shape that can be fitted to the reader / writer 15 and the mounting unit 24b, and is held when the data storage unit 23 is mounted. The fitting plate 14b is aligned with the mounting portion 24b provided in the body 24, and the holding body 24 is slid along the fitting plate 14b as shown in FIG. 24b is fitted. Thereby, the mounting of the data storage unit 23 to the tape introduction unit 14 is completed, and the data storage unit 23 is in a state of being opposed to the reader / writer 15. In this state, the carrier tape 22 is slidably passed through the tape insertion portion 24a so that the pitch feed of the carrier tape 22 is not hindered.

  In addition, as a mounting part for detachably mounting and holding the holding body 24 on the tape introduction part 14, various mechanisms and shapes can be used in addition to the cross-sectional shape into which the fitting plate 14b is fitted. It is. For example, the holding body 24 may be locked to the plate member 14a by a locking mechanism such as a combination of a pin and a pin hole, or may be clamped by a one-touch type clamping mechanism.

  FIG. 8 shows the mounted state of the data storage unit 23. That is, the position of the holding body 24 is held by the fitting plate 14b. In this state, the IC tag 25 held by the holding body 24 is held at a predetermined posture and interval with respect to the reader / writer 15, and the reader 24 The data can be read / written by the writer 15. That is, the reader / writer 15 writes data to the IC tag 25 to the data reading unit that reads data from the IC tag 25 of the data storage unit 23 that is slidably mounted on the carrier tape 22. The writing means is combined. As shown in FIG. 6, instead of integrally embedding the IC tag 25 in the holding body 24, the data storage unit is constituted by a holding body 24A having a structure in which the IC tag 25 is bonded and held by an adhesive or the like. The data storage unit 23A may be configured.

Next, the configuration of the control system will be described with reference to FIG. FIG. 9 shows only a control system related to a component supply system that takes out an electronic component from the component supply unit 4 and supplies it to the mounting head 8 in the electronic component mounting apparatus. In FIG. 9, the tape feeder 5 is individually provided with a feeder control unit 27, and the feeder control unit 27 controls operations of the tape feeding mechanism 28 and the cover tape discharging mechanism 29. The tape feeding mechanism 28 pitch-feeds the carrier tape 22 drawn into the tape feeder 5. The cover tape discharging mechanism 29 is a mechanism for feeding back the cover tape peeled off from the carrier tape 22 before the electronic component removal position by the mounting head 8 in the tape feeding direction.

  Each of the tape feeders 5 includes a connector 26 for external connection. When the tape feeder 5 is mounted on the feeder base 12, the connector 26 is connected to the control unit 30 of the electronic component mounting apparatus main body. . A feeder control unit 27 and a reader / writer 15 are connected to the connector 26. When the tape feeder 5 is attached to the component supply unit 4, the reader / writer 15 and the feeder control unit 27 of the tape feeder 5 are controlled. Connected to the unit 30.

  In the IC tag 25 of the data storage unit 23, a storage area for writing identification information 25a, remaining part number data 25b, and production history data 25c is set. The identification information 25a is information relating to the electronic component held on the carrier tape 22, and includes a component code indicating a component document, a manufacturer name, a manufacturing date, a manufacturing lot number, and the like.

  The remaining part number data 25b is data indicating the remaining part number when the use is interrupted in a state where the carrier tape 22 wound and accommodated on the tape reel 21 is partially consumed. The number of remaining parts is calculated by subtracting the number of consumed parts from the total number of known stored parts. As a method for calculating the number of consumed parts, either the number of pitch feeds by the tape feeder 5 or the method based on the number of times taken out by the mounting head 8 can be used.

  The production history data 25c is a history that is used for production after the tape reel 21 is mounted, that is, data for specifying the used date and the mounted mounting line / mounting device, together with the identification information 25a. It is used to ensure traceability in the subsequent process.

  The control unit 30 includes a mounting control unit 31, a storage unit 32, an identification processing unit 33, a remaining part number calculation unit 34, a read / write processing unit 35, a display unit 36, and an operation / input unit 37. The mounting control unit 31 controls the operation of the tape feeder 5 by controlling the operation of the component mounting mechanism for moving the mounting head 8 and outputting an operation command to the feeder control unit 27. The storage unit 32 is a program for executing various processing operations such as a mounting operation, mounting data used for the operation execution, and various data such as reference data for determining whether the carrier tape 22 is correct by referring to the identification information 25a. Remember.

  The identification processing unit 33 compares the identification information 25a included in the carrier tape information read from the IC tag 25 by the reader / writer 15 with the above-described reference data stored in the storage unit 32. It is determined whether the carrier tape 22 attached to the feeder 5 is correct, that is, whether the carrier tape 22 is a regular carrier tape 22 that supplies correct components. That is, the identification processing unit 33 serves as an identification unit that identifies whether the carrier tape 22 is correct based on the identification information included in the read carrier tape information.

  Based on the data on the number of operations of the mounting head 8, the remaining component number calculation unit 34 is retained on the carrier tape 22 and wound around the tape reel 21 while remaining unused. Calculate the number of parts. Therefore, the remaining component number calculation unit 34 serves as a remaining component number calculation unit that calculates the number of remaining components in the tape reel 21.

The read / write processing unit 35 performs processing of reading data from the IC tag 25 by the reader / writer 15 and writing data to the IC tag 25. That is, in the present embodiment, the read / write processing unit 35 controls the reader / writer 15 to read the carrier tape information from the IC tag 25, and the IC tag 25 to the carrier tape information. Write control means for performing processing for writing information relating to the carrier tape 22 stored in the tape reel 21 to the IC tag 25 by controlling the reader / writer 15. It has a form with.

  The read / write processing unit 35 writes data relating to the number of remaining components calculated by the remaining component number calculating unit 34 to the IC tag 25 by the reader / writer 15. The display unit 36 is a display device, displays an input command for operation and an operation screen at the time of data input, and displays and notifies the result of identification processing by the identification processing unit 33. The operation / input unit 37 is an input means such as a keyboard or a touch panel, and performs operation input and data input.

  FIG. 10 shows a work operation when a new carrier tape package 20 is mounted on the component supply unit 4 in the electronic component mounting apparatus. When a new carrier tape 22 is attached to the tape feeder 5, as shown in FIG. 10A, the tape reel 21 around which the carrier tape 22 is wound is placed and held on the reel holder 16. . At this time, the data storage unit 23 attached to the tape reel 21 is attached to the leading end of the carrier tape 22.

  When the tape reel 21 is placed on the reel holder 16, the leading end of the carrier tape 22 is drawn into the tape feeder 5 via the tape inlet 14 as shown in FIG. At this time, the data storage unit 23 is slid downstream (upward) along the carrier tape 22, and the mounting portion 24 b of the holding body 24 is fitted to the fitting plate 14 b of the tape introducing portion 14. As a result, as shown in FIG. 10C, the data storage unit 23 is set at a position facing the reader / writer 15 and enters the state shown in FIG.

  In this state, the reading / writing processing unit 35 controls the reader / writer 15, whereby carrier tape information written in advance in the IC tag 25, that is, identification information 25a, remaining part count data 25b, production history data 25c. Among them, information required at that time is read out. Then, if the identification processing unit 33 performs identification processing on the read identification information 25a and it is determined that the carrier tape 22 holds a regular part, a mounting operation is started. If it is determined that the part is not a regular part, the fact is displayed on the display unit 36 and the operation of the apparatus is stopped.

  In the process of repeatedly executing the mounting operation, that is, the operation of sequentially pulling out the carrier tape 22 from the tape reel 21 by the tape feeder 5 and pitch-feeding the carrier tape 22 to the electronic component take-out position by the mounting head 8, the number of remaining parts is calculated. Is executed. In other words, the number of operations of the transfer mounting operation by the mounting head 8 or the pitch feeding operation by the tape feeder 5 is counted by the remaining component number calculation unit 34, and the number of components consumed by these operations is sequentially subtracted from the total number of stored components. The remaining parts at the timing of the tape reel 21 are calculated in real time.

Then, the calculated remaining number of parts is written to the IC tag 25 by the reader / writer 15 at a predetermined timing set as the data writing timing (for example, when the operation of the apparatus is interrupted or when the model is switched). As a result, the remaining parts of the tape reel 21 are always stored in the IC tag 25 of the data storage unit 23 attached to each tape reel 21. When the operation of the apparatus is interrupted and the tape reel 21 is removed, the production history data 25c described above is written into the IC tag 25. The production history data 25c is referred to when it is necessary to trace a component supplied from the same tape reel 21 when a defect due to a component defect is found in a later process.

  When the tape reel 21 is used again, the control unit 30 of the electronic component mounting apparatus reads the remaining component number data 25b from the IC tag 25 by attaching the data storage unit 23 to the tape introducing unit 14. It is possible to grasp the remaining parts of the reel 21 and start the mounting operation. Accordingly, it is possible to predict the timing of occurrence of component breakage in the tape feeder 5 to which the supply reel 21 is mounted, and it is possible to prevent the apparatus from being stopped due to sudden component breakage.

  That is, when the carrier tape package 20 is mounted, when the tape reel 21 is held by the reel holding portion 16 and the carrier tape 22 is mounted on the tape feeder 5, the carrier tape 22 pulled out from the tape reel 21 is the tape feeder. The carrier tape information is read out from the IC tag 25 of the data storage unit 23 by the reader / writer 15 disposed in the tape feeding path drawn into 5. Based on the identification information 25a included in the read carrier tape information, the correctness of the carrier tape is identified. In the execution process of the mounting operation, a process of writing data relating to the number of remaining parts in the tape reel to the IC tag 25 is executed.

  In the above-described embodiment, the reader / writer 15 is controlled by the control unit 30 of the electronic component mounting apparatus, thereby reading data from the IC tag 25 and writing data to the IC tag 25. Although the identification of the tape 22 and the calculation of the number of remaining parts of the tape reel 21 are performed, these functions may be provided to the respective tape feeders 5.

  That is, in FIG. 9, depending on the control function of the electronic component mounting apparatus by providing the feeder control unit 27 with the functions of the identification processing unit 33, the remaining component number calculation unit 34, and the read / write processing unit 35. In addition, component information management such as identification of the carrier tape 22, calculation of the number of remaining components and updating of the number of remaining components written in the IC tag 25 can be performed by the tape feeder 5 alone. In this case, the feeder control unit 27 provided in the component supply device serves as the above-described data read control unit, data write control unit, and remaining component number calculation unit.

  As described above, in the present embodiment, the data storage unit 23 including the IC tag 25 that can freely read and write data is attached to the carrier tape package 20 that supplies the carrier tape 22 holding the electronic components. I try to let them. As a result, compared to the conventional method using a bar code label as identification information of the carrier tape, it is not necessary for the operator to operate the bar code reader every time the reel is installed, resulting in a mistake in the tape reel. It is possible to reliably prevent occurrence of reading errors.

  Furthermore, since new information can be written to the IC tag 25, when the use of the tape reel 21 is interrupted with an unused carrier tape remaining, information on the number of remaining parts and the production history at that time are displayed. The data can be automatically recorded in the data storage unit 23 attached to the tape reel 21. As a result, it is possible to manage component information related to identification and usage history of electronic component supply carrier tapes that are handled while being wound and stored on a tape reel in an efficient and easy-to-use manner. ing.

  The carrier tape package of the present invention has an effect that the management of component information relating to identification and usage history of the carrier tape can be efficiently and conveniently performed, and the electronic component mounting field in which the component is supplied by the carrier tape. Useful for.

The top view of the electronic component mounting apparatus of one embodiment of this invention The fragmentary sectional view of the electronic component mounting device of one embodiment of the present invention Sectional drawing of the component supply part of the electronic component mounting apparatus of one embodiment of this invention Structure explanatory drawing of the carrier tape package used for the electronic component mounting apparatus of one embodiment of this invention Structure explanatory drawing of the data storage unit used in the electronic component mounting apparatus of one embodiment of this invention Structure explanatory drawing of the data storage unit used in the electronic component mounting apparatus of one embodiment of this invention Explanatory drawing of the mounting method of the data storage unit in the electronic component mounting apparatus of one embodiment of this invention Explanatory drawing of the data reading / writing of the data storage unit used in the electronic component mounting apparatus of one embodiment of this invention The block diagram which shows the structure of the control system of the electronic component mounting apparatus of one embodiment of this invention Explanatory drawing of the reel mounting method in the electronic component mounting apparatus of one embodiment of this invention

Explanation of symbols

DESCRIPTION OF SYMBOLS 3 Board | substrate 4 Component supply part 5 Tape feeder 8 Mounting head 14 Tape introduction part 15 Reader / writer 20 Carrier tape package 21 Tape reel 22 Carrier tape 23 Data storage unit 24 Holding body 24a Tape insertion part 24b Mounting part 25 IC tag 27 Feeder control Part 30 Control part

Claims (3)

An electronic component that is used to supply the electronic component in an electronic component mounting apparatus that takes out the electronic component from a tape feeder and mounts it on a substrate, and is formed by storing a carrier tape holding the electronic component in a wound state on a tape reel A carrier tape package for mounting,
The carrier tape package is readable and writable, and a storage medium pre-written with carrier tape information including identification information of electronic parts held on the carrier tape can be slidably mounted on the carrier tape. A data storage unit held by a holding body is attached, and at least when the carrier tape is attached to the tape feeder, the data storage unit is attached to the leading end of the carrier tape. Carrier tape package for mounting electronic components.   The carrier tape package for mounting electronic components according to claim 1, wherein the storage medium is an IC tag. The holding body is provided with a tape insertion portion through which the carrier tape is slidably inserted, and a mounting portion for detachably mounting the holding body on the tape feeder. A carrier tape package for mounting electronic components according to 1.

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