JP5511154B2 - Separation apparatus and method for manufacturing electronic parts - Google Patents

Description

  The present invention relates to an individualizing device and an individualizing method for manufacturing electronic components, which are used when a plurality of electronic components are manufactured by dividing a sealed substrate having a plurality of regions into regions. It is about.

  One of the methods conventionally used for the purpose of efficiently producing a plurality of electronic components is a method of dividing a sealed substrate into individual pieces. A sealed substrate which is an object to be singulated will be described with reference to FIG. FIG. 5 (1) is a perspective view schematically showing a sealed substrate as an object to be singulated from the substrate side, and FIG. 5 (2) is an example of a sealed substrate. 5 (3) is a plan view showing another example of the sealed substrate as viewed from the sealing resin side, and FIG. 5 (4) is a plan view showing the memory card. In addition, in order to make it easy to understand, any figure included in this application document is schematically omitted or exaggerated as appropriate.

  As shown in FIG. 5, the sealed substrate 91 includes a substrate 92 made of a lead frame, a printed circuit board, or the like, and a sealing resin 93 formed on one surface of the substrate 92. The substrate 92 is divided into a plurality of lattice-shaped regions 96 by a boundary line 94 in the X direction and a boundary line 95 in the Y direction, which are virtually provided. Each region 96 is mounted with a chip-like component (not shown) made of one or more semiconductor chips.

  Here, a method of manufacturing a plurality of electronic components using the sealed substrate 91 will be described. First, chip-like components (hereinafter referred to as “chips”) are respectively attached to a plurality of regions 96 provided on the substrate 92. Next, the plurality of chips mounted on the substrate 92 are collectively sealed with a sealing resin 93. Thereby, the sealed substrate 91 is completed. Next, the sealed substrate 91 is cut (separated) along the boundary lines 94 and 95. As a result, the sealed substrate 91 is divided into a plurality of electronic components respectively corresponding to the regions 96. Note that the separated electronic component having the sealing resin 93 is often called a package (see, for example, Patent Document 1).

  In the process of cutting (separating) the sealed substrate 91, a so-called individualizing device such as a cutting device (dicer) using a rotary blade as a cutting mechanism or a cutting device using laser light or the like is used. It is used. The singulation apparatus has three basic components. The three components are a receiving part that receives the sealed substrate formed in the previous process (resin sealing process), a separate part that separates the sealed substrate, and a separate part. It is a paying-out part which carries out the formed several electronic components (package) to the following process (for example, packaging process) (for example, refer patent document 1).

  Each component described above and each component in Patent Document 1 generally correspond as follows. The “substrate loading part A” in Patent Document 1 corresponds to the receiving part, the “cutting mechanism C” corresponds to the singulation part, and the “package housing part F” corresponds to the dispensing part.

  By the way, in recent years, there is a tendency for the substrate 92 to increase in size due to demands for lower prices and downsizing of electronic components. Further, the number of electronic components that can be removed from one substrate 92, that is, the number of regions 96 tends to increase (see FIG. 5B). In addition, a plurality of island portions 97 including a plurality of regions 96 and independent portions made of the sealing resin 93 may be formed on the sealed substrate 91 due to a request for preventing warpage or the like in the sealed substrate 91. Yes (see FIG. 5 (3)). As described above, in recent years, the specifications of the sealed substrate 91 are various.

  In recent years, package specifications have been varied. Specifically, a package having a plurality of stacked chips, a package of optoelectronic components having a sealing resin made of a translucent resin, and the like are employed. Along with this, first, the specifications of the substrate 92 are varied. Specifically, the base material of the substrate 92 has various materials such as metal, glass epoxy, polyimide film, ceramics, and the like. Thereby, the base material of the substrate 92 is a metal material, a composite material composed of a thermosetting resin and a glass cloth base (or a glass non-woven base), a film material composed of a soft resin, a ceramic having high hardness but brittleness It is as varied as materials.

  Second, the specifications of the sealing resin 93 are various. Specifically, as the sealing resin 93, an epoxy resin containing silica fine particles as a filler and having high hardness of the resin itself is used. Further, as the sealing resin 93, a silicone resin having low hardness and high adhesiveness to the rotary blade is used.

  From these two things, in recent years, the combination of the substrate 92 and the sealing resin 93 constituting the sealed substrate 91 has been diversified. This makes it difficult to singulate the sealed substrate 91 using one type of cutting device. Therefore, manufacturers of electronic components are urged to prepare a plurality of types of cutting devices.

  Conventionally, since the planar shape of the package was only a rectangle (including a square), the boundary lines of the regions 96 of the substrate 92, that is, the boundary lines 94 and 95 that are lines for cutting the sealed substrate 91 are It was only a line segment. However, in recent years, although the planar shape is a substantial rectangle (in other words, the planar shape as a whole is a rectangle), packages that include a curved line or a broken line appear in a plan view. And the sealed substrate 91 which has the boundary lines 94 and 95 containing at least any one of a curve or a broken line has appeared by this. The memory card 98 shown in FIG. 5 (4) is an example of a package having a bent portion 99 including a curved line or a broken line. In addition, a broken line here means the line produced | generated by connecting the line segment (finite straight line).

  Here, a process of manufacturing the memory card 98 by separating the sealed substrate 91 into individual pieces will be described with reference to FIG. In this case, first, the sealed substrate 91 is cut by the dicer along the side of the line segment in the outer shape of the memory card 98. Next, the sealed substrate 91 is cut along a side including the bent portion 99 in the outer shape of the memory card 98 by a cutting device using laser light, water jet, or the like. In other words, two types of cutting devices having different cutting mechanisms are used to cut a side consisting of a line segment and a side including the bent portion 99, respectively.

  The applicant of the present application has proposed a singulation apparatus in which two pieces of the same kind of singulation unit are provided in response to an increase in the number of electronic components that can be taken on one substrate 92. In addition, a singulation apparatus in which two different singulation parts are provided corresponding to a package including a curved line or a polygonal line in an outer shape in plan view has been proposed. These contents are described in Japanese Patent Application No. 2006-342180 filed by the applicant of the present application (see paragraphs [0050] and [0051]).

  Note that the singulation is usually performed by completely cutting (full cut) the sealed substrate. However, individualization is also performed by partially cutting (half-cutting) the sealed substrate and then cleaving (breaking). Therefore, the term “cutting” is appropriately used as a term for dividing the sealed substrate into pieces, instead of “cutting”.

Japanese Patent Application Laid-Open No. 2004-207424 (Pages 2 and 3, FIGS. 1 and 2)

  The problem to be solved by the present invention is that when a user's required specification is changed, it is difficult to assemble / change / add / remove the separated parts in a short time according to the required specification. Is.

  The numerals and symbols in parentheses in the following description indicate the reference numerals in the drawings, and are described for the purpose of facilitating the comparison between the terms in the description and the components shown in the drawings. Further, these numbers do not mean “interpreting the terms in the description limited to the components shown in the drawings”.

In order to solve the above-described problem, the singulation apparatus for manufacturing an electronic component according to the present invention is a sealed substrate (resin-sealed by resin-sealing chips respectively mounted in a plurality of regions provided on the substrate. 3) and receiving part (A) used to manufacture a plurality of electronic components by dividing the sealed substrate (3) into regions, and receiving the sealed substrate (3) And an electronic component comprising, as constituent elements, an individualized portion ( B2 to B4) that separates the sealed substrate (3), and a payout portion (C) that delivers a plurality of individualized electronic components A singulation device ( S3 to S4) for manufacturing, wherein a plurality of singulation parts ( B2 to B4) are provided, and each of the singulation parts ( B2 to B4) is another singulation part. (B2 -B4) and a removable and Ri replaceable der plurality of individual pieces relative to other elements (a, C) The parts (B2 to B4) each use a cutting mechanism of any one of the rotary blade (7), laser light, water jet, wire saw, or band saw, and a plurality of individualized parts (B2 to B4) each use At least one of the cutting mechanisms to be performed is a different type of cutting mechanism from the other cutting mechanisms, and the different type of cutting mechanism can cut the sealed substrate (3) along a curved line or a polygonal line. It is possible to do.

  Moreover, the singulation apparatus for manufacturing an electronic component according to the present invention is the above-described singulation apparatus (S1 to S4), wherein at least one of the singulation parts (B1 to B4) is separated. The parts (B1 to B4) are characterized by finishing.

In addition, in the method for singulation for manufacturing an electronic component according to the present invention, a sealed substrate (3) is formed by resin-sealing chips each mounted on a plurality of regions provided on the substrate, It is used when manufacturing a plurality of electronic components by dividing the sealed substrate (3) into regions, and receiving the sealed substrate (3); and a plurality of divided parts (B3, B4) is an individualization method for manufacturing an electronic component comprising a step of cutting the sealed substrate (3) using each of the steps, and a step of discharging a plurality of individualized electronic components, In the step of performing, at least one cutting mechanism (7) among the cutting mechanisms of each of the plurality of individualized parts (B3, B4), and a different type of cutting mechanism (7) from the other cutting mechanisms using a cutting mechanism sequentially cutting the sealing already substrate (3) of the step of cutting a plurality of pieces A step of cutting the sealed substrate (3) along a curved line or a polygonal line using at least one individualized part (B3, B4) among the individualized parts (B2 to B4), and a plurality of individualized parts A step of cutting the sealed substrate (3) along the line segment using the other singulated part (B2) among the parts (B2 to B4) .

  In addition, in the individualization method for manufacturing an electronic component according to the present invention, in the above-described individualization method, the cutting step is performed by dividing at least one of the plurality of individualization parts (B1 to B4). It has the process of performing a finishing process using a part (B2, B4).

According to the present invention, each of the plurality of individualized parts (B1 to B4) is detachable and replaceable with respect to the other individualized parts (B1 to B4) and other components. As a result, when the user's required specifications are changed, the following can be easily realized in a short time. First, it can be changed to individualized parts (B1 to B4) having a desired cutting mechanism in place of the installed individualized parts (B1 to B4) according to the required specifications. Secondly, according to the required specifications, in addition to the mounted individualized parts (B1 to B4), individualized parts (B1 to B4) having a desired cutting mechanism can be added. Thirdly, the individualized parts (B1 to B4) that are no longer needed can be removed. In addition, at least one of the cutting mechanisms used by each of the plurality of individualized parts (B2 to B4) is of a different type from the other cutting mechanisms. In addition, at least one individual part (B3, B4) among the plurality of individual parts (B2 to B4) cuts the sealed substrate (3) along a curve or a broken line. By these, cutting along the side which consists of a line segment, and cutting along the side containing a curve or a broken line can be performed by one unitization device (S3, S4).

  Further, according to the present invention, at least one singulated portion (B1 to B4) among the plurality of singulated portions (B1 to B4) is intended for finishing. Therefore, finishing can be performed by one piece separation device (S1 to S4).

The electronic device individualizing device (S1) includes a receiving unit (A), individualizing units (B2 to B4), and a dispensing unit (C). Each of the individualized parts (B2 to B4) has a rotary blade (7) as a cutting mechanism, and separates the individualized parts (B2 to B4) from each other and the receiving part (A) that is another component. It is provided so as to be detachable with respect to the part (C), and is appropriately selected according to the user's required specifications to be assembled, changed, added or removed. The cutting mechanism of the individualized parts (B2 to B4) includes a rotary blade (7), a water jet, a laser beam, a wire saw, or a band saw. At least one cutting mechanism among the cutting mechanisms used by each of the plurality of individualized parts (B2 to B4) is of a different type from the other cutting mechanisms. In addition, at least one individual part (B3, B4) among the plurality of individual parts (B2 to B4) cuts the sealed substrate (3) along a curve or a broken line.

  A first embodiment of the singulation apparatus for manufacturing an electronic component according to the present invention will be described with reference to FIG. FIG. 1 is a schematic plan view showing a singulation apparatus for manufacturing an electronic component according to the present embodiment. The singulation apparatus S1 shown in FIG. 1 is an singulation apparatus that divides a sealed substrate into a plurality of electronic components. As shown in FIG. 1, the singulation apparatus S1 includes a receiving unit A, a singulation unit B1, a singulation unit B2, and a payout unit C as components (modules).

  In the present embodiment, a plurality of (two in FIG. 1) individualized parts, i.e., individualized parts B1 and B2 are provided. In addition, the receiving part A, the individualized part B1, the individualized part B2, and the payout part C are configured to be detachable and replaceable with respect to other components. In addition, each of the receiving unit A, the individualized unit B1, the individualized unit B2, and the payout unit C is prepared in advance so as to have a plurality of different specifications according to the expected required specifications. . Furthermore, in the present invention, the basic unit 1 is configured to include the receiving portion A, the singulated portion B1, the singulated portion B2, and the payout portion C.

  As shown in FIG. 1, a prestage 2 is provided in the receiving part A. In this pre-stage 2, a sealed substrate 3 is received from a resin sealing device that is a device in the previous process. This sealed substrate 3 corresponds to the sealed substrate 91 shown in FIG. The sealed substrate 3 is disposed on the prestage 2 with the sealing resin 93 side shown in FIG. In the prestage 2, the sealed substrate 3 is aligned as necessary. As in the sealed substrate 91 shown in FIG. 5, in the sealed substrate 3, chips are mounted in a plurality of lattice-shaped regions, and the plurality of chips are collectively sealed with resin. Yes.

  A cutting table 4 is provided in each of the individualized parts B1 and B2. The cutting table 4 is movable in the Y direction in the figure and is rotatable in the θ direction. A cutting stage 5 is attached on the cutting table 4. Two spindles 6 are provided in the inner part of each of the singulation parts B1 and B2. In each of the singulation parts B1 and B2, the two spindles 6 can move independently in the X direction. Each of the two spindles 6 is provided with a rotary blade 7. Each of these rotary blades 7 cuts the sealed substrate 3 into individual pieces by rotating in a plane along the Y direction. Therefore, in the present embodiment, the cutting mechanism using the rotary blade 7 is provided in each of the individualized part B1 and the individualized part B2.

  The payout portion C is provided with a tray 8. The tray 8 accommodates an assembly 9 composed of a plurality of electronic components separated into individual pieces B1 and B2 from the cutting stage 5 via a main transport mechanism (not shown). And the some electronic component accommodated in the tray 8 is conveyed by the following process (for example, test | inspection process).

  In the present embodiment, the main transport mechanism (not shown) is a position that is commonly applied to each component composed of the receiving part A, the individualizing part B1, the individualizing part B2, and the payout part C. Is provided. In FIG. 1, this position is indicated by an arrow (thick solid line arrow) extending rightward along the X direction.

  Here, the individual parts B1 and B2 will be described. The individualized part B1 is configured to be detachable and replaceable with respect to other components, that is, the receiving part A and the individualized part B2. The singulation part B2 is configured to be detachable and replaceable with respect to other components, that is, the singulation part B1 and the payout part C. By these things, when the demand with respect to the electronic component manufactured by individualizing the sealed board | substrate 3 reduces, either individualization part B1 or individualization part B2 can be removed. Further, when the demand for an electronic component manufactured by separating the sealed substrate 3 into individual pieces increases, one piece having two spindles 6 between the separate piece portion B2 and the payout portion C. A singulated portion (not shown) can be further mounted.

  Further, in the whole of the present invention, it is possible to use a cutting mechanism other than the rotary blade 7 and the same kind as the individualized part B1 and the individualized part B2. For example, as both the singulation part B1 and the singulation part B2, cutting having any one of a laser beam, a water jet (regardless of whether or not used together with an abrasive), a wire saw, a band saw, or the like. A mechanism can be selected and used. For example, when manufacturing an electronic component having a planar shape such as a rectangle, in other words, an electronic component having only a side consisting of a line segment, the rotary blade 7 or the band saw is used as the individualized part B1 and the individualized part B2. What is necessary is just to use the cutting mechanism which has. Further, when manufacturing an electronic component having a planar shape including a curved line, a broken line, etc., a cutting mechanism having a laser beam, a water jet, or a wire saw is used as the individualized part B1 and the individualized part B2. do it.

  Moreover, various components can be adopted as the payout portion C throughout the present invention. For example, it is possible to employ a payout unit C having a function of accommodating a plurality of electronic components in a tray, a mechanism of accommodating in a tube, a function of transferring and carrying out a bulk as it is.

  Hereinafter, the operation of the singulation apparatus S1 for manufacturing an electronic component according to the present embodiment will be described. First, the sealed substrate 3 is received in the receiving part A.

  Next, after the sealed substrate 3 is transferred to the separation part B1, the sealed substrate 3 is cut into pieces by the rotary blade 7. In the meantime, after receiving the next sealed substrate 3 in the receiving part A and transferring this sealed substrate 3 to the individualizing part B2, the sealed substrate 3 is cut by the rotary blade 7 and separated into pieces. Turn into. Thereby, the sealed substrate 3 can be separated into pieces by the rotary blade 7 in each of the separated parts B1 and B2.

  Next, the assembly 9 composed of a plurality of electronic components separated in the individualized part B1 is accommodated in the tray 8 from the cutting stage 5 via a main transport mechanism (not shown). Thereafter, the assembly 9 is transported from the tray 8 to the next process (for example, an inspection process).

  Next, the assembly 9 composed of a plurality of electronic parts separated in the individualization part B2 is accommodated in the tray 8 from the cutting stage 5 via a main transport mechanism (not shown). Thereafter, the assembly 9 is transported from the tray 8 to the next process.

  Here, in the step of accommodating each of the two sets 9 and sequentially transporting them to the next step, the sealed substrate 3 is cut into individual pieces by the rotary blades 7 in each of the individual parts B1 and B2. can do. As described above, according to the separation method for manufacturing an electronic component according to the present embodiment, the processing capability when separating the sealed substrate 3 is significantly improved.

  The characteristics of the singulation apparatus S1 for manufacturing an electronic component according to the present embodiment are as follows. First, the singulation device S1 is provided with a plurality of singulation parts B1 and B2 having the same type of cutting mechanism. Second, the singulation units B1 and B2 are prepared in advance so as to have different types of specifications according to the expected required specifications. Third, the individualized parts B1 and B2 are detachable and replaceable with respect to other components.

  According to the present embodiment, due to these features, the same kind of singulation parts among the plural kinds of singulation parts prepared in advance so as to have different kinds of specifications according to the expected required specifications. The singulation device is assembled using the singulation parts B1, B2,. As a result, the singulation apparatus S1 having the optimum singulation units B1, B2,... According to the required specifications and demands of a certain user is realized in a short time.

  Further, in response to an increase or decrease in demand for electronic components that are manufactured by separating the sealed substrate 3, the individualized portions B1 and B2 can be provided with additional individualized portions, or the individualized portions B1. , B2 can be removed from the individualized part. Thus, by changing the current singulation device, the singulation device corresponding to the increase or decrease in demand is realized in a short time. In addition, since a part unnecessary for the user is not included in the individualizing device, it is possible to reduce the footprint and cost of the individualizing device.

  Moreover, it is good also as a different specification regarding the rotary blade 7 which each fragmentation part B1 and B2 has. This specification may be, for example, an abrasive grain size or a rotational speed. For example, the abrasive grain size of the rotary blade 7 included in the singulated part B1 is set to a specification suitable for substrate cutting, and the abrasive grain size of the rotary blade 7 included in the singulated part B2 is specified to be suitable for cutting sealing resin. To. Thereby, a board | substrate can be cut using the rotary blade 7 which the singulation part B1 has, and sealing resin can be cut using the rotary blade 7 which the singulation part B2 has after that. Therefore, the sealed substrate 3 can be separated into pieces by the rotary blade 7 having optimum specifications corresponding to each of the substrate and the sealing resin constituting the sealed substrate 3.

  In addition, in consideration of the influence of the cutting mechanism on the sealed substrate 3, the specifications regarding the rotary blades 7 included in the individualized parts B1 and B2 may be different. For example, the abrasive grain size of the rotary blade 7 of the individualized part B1 used earlier is suitable for rough cutting and the abrasive grain size of the rotary blade 7 of the individualized part B2 used later is used. Can be made suitable for fine cutting. Thereby, finishing can be performed by the individualized part B2 used later. Therefore, the cutting quality can be improved.

  Furthermore, in the whole of the present invention, the individualized parts B1, B2,... Have different specifications from the individualized parts B1, B2,. Thus, an optimal singulation apparatus can be realized by replacing the singulation unit with the same type of specification. For example, when the demand for electronic parts having a planar shape including a curve, a broken line, etc., such as a memory card, increases, the individualized parts B1, B2,... That use a cutting mechanism having a rotary blade 7 are used. What is necessary is just to replace | exchange for a suitable piece part. As the newly installed individualized part, there is an individualized part using a laser beam, a water jet, or a wire saw. For example, all of the individualized parts B1, B2,... May be replaced with individualized parts using laser light, or may be replaced with individualized parts using a water jet. It may be replaced with an individualized part that uses.

  A second embodiment of the singulation apparatus for manufacturing an electronic component according to the present invention will be described with reference to FIG. FIG. 2 is a schematic plan view showing the singulation apparatus for manufacturing an electronic component according to the present embodiment. As shown in FIG. 2, the singulation apparatus S <b> 2 for manufacturing an electronic component according to this embodiment includes a receiving unit A, singulation units B <b> 1 and B <b> 2, a cleaning unit D, an inspection unit E, and a dispensing unit C. And each as a component (module). The singulation device S2 is configured by providing a cleaning unit D and an inspection unit E between the singulation unit B2 and the dispensing unit C in the singulation device S1 shown in FIG. . Further, a main transport mechanism (not shown) is provided at a position that is commonly applied to the receiving part A, the singulation parts B1 and B2, the cleaning part D, and the payout part C among the constituent elements. .

  Here, in the present embodiment, in addition to the first embodiment, the cleaning unit D and the inspection unit E are configured to be detachable and replaceable with respect to other components. In addition, each of the cleaning unit D and the inspection unit E is prepared in advance so as to have a plurality of different specifications according to expected required specifications.

  Hereinafter, the components of the singulation apparatus S2 shown in FIG. 2 that are different from the singulation apparatus S1 shown in FIG. 1 will be described. As shown in FIG. 2, the cleaning unit D is provided with a cleaning mechanism 10. The cleaning mechanism 10 is provided with a cleaning roller 11 made of a water-absorbing material such as a sponge so as to be rotatable about an axis along the Y direction. A water tank (not shown) is provided below the cleaning roller 11. The cleaning roller 11 rotates in a state where the water stored in the water tank is sucked.

  Also, above the cleaning mechanism 10, an assembly 9 composed of a plurality of electronic components (packages) formed by cutting the sealed substrate 3 is disposed. The assembly 9 is adsorbed and fixed by a main transport mechanism (not shown) on the substrate side surface (the front side surface of the paper in the figure). In other words, the assembly 9 is adsorbed and fixed on the surface of the substrate 92 shown in FIG. Then, the assembly 9 attracted and fixed by the main transport mechanism moves from the left to the right in the figure. Along with the movement, the surface of the assembly 9 on the side of the sealing resin (the surface on the back side of the paper in the figure) comes into contact with the cleaning roller 11 that rotates while sucking water. Thereby, the surface of the assembly 9 on the sealing resin side is cleaned. Thereafter, air (preferably hot air) is sprayed over the entire width of the cleaned assembly 9. Thereby, the water adhering to the aggregate 9 is blown off, and the surface of the aggregate 9 is dried.

  As shown in FIG. 2, the inspection unit E is provided with an inspection table 12, and the inspection table 12 can be rotated in the θ direction. An inspection stage 13 is attached on the inspection table 12. A plurality of cleaned electronic components are transferred to the inspection stage 13 from a sub-transport mechanism (not shown) branched from the main transport mechanism that holds and fixes the assembly 9 composed of a plurality of electronic components. In FIG. 2, the movement path of the sub transport mechanism between the cleaning unit D and the inspection unit E is indicated by a thick solid arrow along the Y direction.

  The inspection unit E is a part that performs an appearance inspection of the electronic component. And in the back part of the test | inspection part E, the camera 14 which image | photographs the still image of an electronic component is provided. The camera 14 is movable in the X direction and the Y direction. Here, the inspection unit E is provided with a control unit (not shown). The control unit performs image processing based on a still image of the electronic component received from the camera 14, and compares the obtained image data with previously stored data to determine whether the electronic component is a good product or a defective product. It is determined whether it is. And a control part memorizes data (what is called map data) about a good article and a defective article in aggregate 9 as needed.

  On the tray 8 provided in the dispensing unit C, an assembly 9 composed of a plurality of electronic components separated into individual parts B, cleaned in the cleaning part D, and inspected by the inspection part E is provided in the cleaning part Housed from the D side via a main transport mechanism (not shown). In the present embodiment, based on the map data stored in the control unit (not shown), the non-defective product among the electronic components stored in the tray 8 is conveyed to the next process (for example, a packaging process). Further, defective products are accommodated in a defective product tray (not shown).

  According to the present embodiment, the singulation apparatus S2 having the optimum singulation parts B1, B2,..., The cleaning part D, and the inspection part E is manufactured in a short time. In addition, the optimum singulation apparatus S2 corresponding to the increase or decrease in demand is realized in a short time.

  In this embodiment, in the cleaning unit D, instead of cleaning using the cleaning roller 11 and water, for example, cleaning using steam or a cleaning agent can be used. Further, in the inspection unit E, for example, a current inspection or the like can be performed instead of the appearance inspection (optical inspection).

  A third embodiment of the singulation apparatus for manufacturing an electronic component according to the present invention will be described with reference to FIG. FIG. 3 is a schematic plan view showing the singulation apparatus for manufacturing the electronic component according to the present embodiment. The singulation apparatus S3 for manufacturing electronic components according to the present embodiment differs from the singulation apparatus S2 of the second embodiment in the following points. That is, a plurality of individualized parts are constituted by an individualized part B2 and an individualized part B3 having different types of specifications.

  Specifically, instead of the individualized part B1 of the second embodiment, an individualized part B3 that uses a water jet as a cutting mechanism is mounted. A water jet unit 15 is provided in the singulation part B3. By this, the side | part containing a curve, a broken line, etc. can be cut | disconnected by the separated part B3 which uses a water jet, and the side which consists of a line segment can be cut | disconnected by the separated part B2 which uses the rotary blade 7. FIG.

  According to the singulation method for manufacturing an electronic component according to the present embodiment, first, the sealed substrate 3 is received in the receiving portion A.

  Next, the sealed substrate 3 is transferred to the separation unit B3. Thereafter, the water jet unit 15 is used to cut the sides of the sealed substrate 3 including curved lines, broken lines, and the like.

  Next, the sealed substrate 3 is transferred to the separation unit B2. Then, the side which consists of a line segment in the sealed substrate 3 is cut using the rotary blade 7.

  As described above, according to the singulation method for manufacturing an electronic component according to the present embodiment, the sealed substrate 3 is formed using different types of cutting mechanisms according to the characteristics of the sealed substrate 3. The sealed substrate 3 is separated into pieces by cutting sequentially. Therefore, the sealed substrate 3 can be separated into pieces using a plurality of optimum cutting mechanisms according to the characteristics of the sealed substrate 3 using a single singulation device.

  Further, according to the present embodiment, the singulation unit B1 shown in FIG. 1 can be replaced with the singulation unit B3 using a water jet. As a result, the singulation device S1 (see FIG. 1) that is currently used for manufacturing a package having a rectangular planar shape can be changed to the singulation device S3 suitable for manufacturing a memory card in a short time. Can do.

  Note that the singulation unit B3 may be replaced with a singulation unit that uses laser light. Moreover, you may replace | isolate the singulation part B3 with the singulation part which uses a wire saw. Further, the positions of the individualized part B3 using the water jet and the individualized part B2 using the rotary blade 7 can be exchanged.

  Further, in consideration of the influence of the cutting mechanism on the sealed substrate 3, the specifications regarding the cutting mechanism used by the individualized parts B3 and B2 may be different. For example, the cutting mechanism of the individualized part B3 used earlier can be a laser beam, and the cutting mechanism of the individualized part B2 used later can be a water jet. In this case, there is a possibility that a substance generated by melting the sealing resin may adhere to a portion cut (fused) by using laser light. This adhered material (melted deposit) is removed by using a water jet. Thereby, finishing can be performed using a water jet by the individualized part B2 used later. Therefore, the cutting quality can be improved.

  A fourth embodiment of the singulation apparatus for manufacturing an electronic component according to the present invention will be described with reference to FIG. FIG. 4 is a schematic plan view showing a singulation apparatus for manufacturing an electronic component according to the present embodiment. The singulation apparatus S4 for manufacturing an electronic component according to the present embodiment has three singulation parts B3, B4, and B2. The individualized parts B3 and B4 use the same type of cutting mechanism, for example, a water jet. Further, the singulation part B <b> 2 has two spindles 6. Then, the increase / decrease of the singulation parts B3, B4 having the water jet unit 15 and the increase / decrease of the singulation part B2 having the two spindles 6 can be performed in a short time.

  According to the present embodiment, the sides including curved lines and broken lines are cut by the two individualized parts B3 and B4 each having the water jet unit 15, and the segmented parts B2 having the rotary blade 7 are made of line segments. Cut the edges. Thereby, the specification and the number can be changed in a short time for the singulation unit that cuts a side including a curve, a broken line, and the like and the singulation unit that cuts a side consisting of a line segment. Therefore, it is possible to adjust the ability to cut a side including a curve, a broken line, and the like and the ability to cut a side made of a line segment in a short time.

  Also in the present embodiment, the two singulation parts B3 and B4 using the water jet can be replaced with two singulation parts using the laser light. Also, the two singulation parts B3 and B4 can be replaced with two singulation parts using a wire saw. Further, the positions of the individualized parts B3 and B4 that use the water jet and the individualized part B2 that uses the rotary blade 7 can be exchanged. In addition, the number of singulation parts using the water jet can be one, and the number of singulation parts using the rotary blade 7 can be two.

  Moreover, it is good also as a different specification regarding the water jet which individualization part B3 and B4 each use. This specification may be, for example, the abrasive grain size or the pressure of the processing water. For example, the abrasive grain size of the water jet of the individualized part B3 used earlier is set to a specification suitable for cutting the substrate, and the abrasive grain size of the water jet of the individualized part B4 used later is sealed. Use specifications suitable for resin cutting. Thereby, a board | substrate can be cut using the separated part B3, and sealing resin can be cut using the separated part B4 after that. Therefore, the sealed substrate 3 can be cut into individual pieces with optimum specifications corresponding to each of the substrate and the sealing resin constituting the sealed substrate 3.

  In each of the embodiments so far, the configuration in which one cutting table 4 is provided in each of the singulation parts B1 to B4 has been described. Not limited to this configuration, two or more cutting tables 4 may be provided in each of the singulation parts B1 to B4. For example, the two spindles shown in FIG. 1 can correspond to each of the cutting tables 4. According to this, the processing capability of the singulation apparatus is further improved.

  In addition to the components described in the embodiments, other components can be mounted. For example, another inspection unit can be attached to the inspection unit E in accordance with the user's required specifications, and another inspection for the package can be performed by the other inspection unit. As this another inspection, an electric current inspection, an appearance inspection on the surface opposite to the surface to be inspected by the inspection unit E, or the like can be adopted.

  In addition, the present invention is not limited to the above-described embodiments, and may be arbitrarily combined, changed, or selected as necessary without departing from the spirit of the present invention. It can be done.

FIG. 1 is a schematic plan view showing a singulation apparatus for manufacturing an electronic component according to Embodiment 1 of the present invention. FIG. 2 is a schematic plan view showing a singulation apparatus for manufacturing an electronic component according to Embodiment 2 of the present invention. FIG. 3 is a schematic plan view showing a singulation apparatus for manufacturing an electronic component according to Embodiment 3 of the present invention. FIG. 4 is a schematic plan view showing a singulation apparatus for manufacturing an electronic component according to Embodiment 4 of the present invention. FIG. 5 (1) is a perspective view schematically showing a sealed substrate as an object to be singulated from the substrate side, and FIG. 5 (2) is an example of a sealed substrate. 5 (3) is a plan view showing another example of the sealed substrate as viewed from the sealing resin side, and FIG. 5 (4) is a plan view showing the memory card.

A Receiving part B1, B2, B3, B4 Dividing part C Dispensing part D Cleaning part E Inspection part S1, S2, S3, S4 Dividing apparatus 1 Basic unit 2 Prestage 3 Sealed substrate 4 Cutting table 5 Cutting Stage 6 Spindle 7 Rotary Blade (Cutting Mechanism)
8 tray 9 assembly 10 cleaning mechanism 11 cleaning roller 12 inspection table 13 inspection stage 14 camera 15 water jet unit

Claims (4)

A sealed substrate is formed by resin-sealing chips mounted in a plurality of regions provided on the substrate, and a plurality of electronic components are obtained by dividing the sealed substrate into individual regions. A receiving unit that receives the sealed substrate; and a separating unit that separates the sealed substrate; and a dispensing unit that dispenses the plurality of separated electronic components. A singulation apparatus for manufacturing electronic components comprising:
A plurality of the individualized parts are provided,
Each of the plurality of singulation unit Ri detachable and replaceable der to other of said singulated unit and other of said components,
The plurality of individualized parts each use a cutting mechanism of any one of a rotary blade, laser light, water jet, wire saw, or band saw,
Among the cutting mechanisms used by each of the plurality of individualized parts, at least one cutting mechanism is a different type of cutting mechanism from other cutting mechanisms,
The singulation apparatus for manufacturing an electronic component, wherein the different types of cutting mechanisms can cut the sealed substrate along a curved line or a broken line . The singulation apparatus for manufacturing an electronic component according to claim 1,
An individualizing apparatus for manufacturing an electronic component, wherein at least one individualizing part among the plurality of individualizing parts is for finishing. A sealed substrate is formed by resin-sealing chips mounted in a plurality of regions provided on the substrate, and a plurality of electronic components are obtained by dividing the sealed substrate into individual regions. A step of receiving the sealed substrate, a step of cutting the sealed substrate using each of a plurality of individualized parts, and a plurality of the separated electronic components used in manufacturing; A method of singulation for manufacturing an electronic component comprising a payout step,
In the cutting step, at least one of the cutting mechanisms included in each of the plurality of singulated parts, and a different type of cutting mechanism from the other cutting mechanisms and the other cutting mechanism are used. Cutting the sealed substrate sequentially ,
The cutting step includes a step of cutting the sealed substrate along a curved line or a broken line using at least one individualized part among the plurality of individualized parts, and the plurality of individualized parts. And a step of cutting the sealed substrate along a line segment using another singulation part among the parts. In the singulation method for manufacturing an electronic component according to claim 3,
The step of cutting includes a step of performing a finishing process using at least one individualized part among the plurality of individualized parts.

Images