WO2013106173A1 - Stackable microelectronic package structures - Google Patents
Stackable microelectronic package structures Download PDFInfo
- Publication number
- WO2013106173A1 WO2013106173A1 PCT/US2012/070477 US2012070477W WO2013106173A1 WO 2013106173 A1 WO2013106173 A1 WO 2013106173A1 US 2012070477 W US2012070477 W US 2012070477W WO 2013106173 A1 WO2013106173 A1 WO 2013106173A1
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- WIPO (PCT)
- Prior art keywords
- package
- microelectronic
- terminals
- substrate
- assembly
- Prior art date
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
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- H01L25/00—Assemblies consisting of a plurality of individual semiconductor or other solid state devices ; Multistep manufacturing processes thereof
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B81—MICROSTRUCTURAL TECHNOLOGY
- B81C—PROCESSES OR APPARATUS SPECIALLY ADAPTED FOR THE MANUFACTURE OR TREATMENT OF MICROSTRUCTURAL DEVICES OR SYSTEMS
- B81C1/00—Manufacture or treatment of devices or systems in or on a substrate
- B81C1/00015—Manufacture or treatment of devices or systems in or on a substrate for manufacturing microsystems
- B81C1/00261—Processes for packaging MEMS devices
- B81C1/00301—Connecting electric signal lines from the MEMS device with external electrical signal lines, e.g. through vias
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- H01L23/3107—Encapsulations, e.g. encapsulating layers, coatings, e.g. for protection characterised by the arrangement or shape the device being completely enclosed
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- H01L2924/1533—Connection portion the connection portion being formed on the die mounting surface of the substrate the connection portion being formed both on the die mounting surface of the substrate and outside the die mounting surface of the substrate
- H01L2924/15331—Connection portion the connection portion being formed on the die mounting surface of the substrate the connection portion being formed both on the die mounting surface of the substrate and outside the die mounting surface of the substrate being a ball array, e.g. BGA
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- H01L2924/1815—Shape
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- H01L2924/19107—Disposition of discrete passive components off-chip wires
Definitions
- the step of connecting the terminals of the second microelectronic package with the stack terminals of the first microelectronic package includes joining the package terminals to exposed ends of interconnects on an encapsulant layer of the first microelectronic package overlying the first surface of the substrate at least in the interconnect area thereof.
- the interconnects can be joined to the stack terminals opposite the exposed ends thereof.
- the step of connecting the terminals of the second microelectronic package with the stack terminals of the first microelectronic package can includes depositing conductive bond material masses into holes within an encapsulant layer of the first microelectronic package overlying the first surface of the substrate at least in the interconnect area.
- the stack terminals can be exposed at a surface of the encapsulant layer within the holes, and the conductive bond material masses can be joined to the terminals of the second package and the stack terminals of the first package.
- the step of connecting the terminals of the second microelectronic package with the stack terminals of the first microelectronic package can includes forming a plurality of holes through at least an encapsulant of the first microelectronic package overlying the first surface of the substrate in at least the interconnect area thereof.
- the plurality of holes can be aligned with respective ones of the stack terminals at first ends thereof and with corresponding ones of the terminals of the second package at second ends thereof.
- Such a method can further include filling the holes with a conductive material in contact with the stack terminals of the first microelectronic package and the package terminals of the second package.
- the holes can be further formed through the substrate of the first package and through the respective stack terminals thereof.
- the holes can be further formed through a substrate of the second package and through the corresponding terminals thereof.
- Fig. 4 is a sectional view of an alternative assembly of alternative microelectronic packages
- Fig. 13 is a section view of an assembly including additional microelectronic elements of the type shown in Fig. 8;
- Figs. 16 and 17 are top plan views of alternative microelectronic packages that can be used in the assembly shown in Fig. 14;
- some or all of the leads may be beam leads 137 which extend in a direction parallel to a surface 123 or 124 of the second substrate 120 and have portions aligned with aperture 126 and are joined to the contacts 112 of the first microelectronic element 102.
- Microelectronic elements 40 are arranged along their respective substrates 12 in package 10A, 10B such that they are spaced apart on the first surface 14 to define an interconnect area 18 therebetween.
- the microelectronic elements 40 are arranged such that respective edge surfaces 45 thereof face and are substantially parallel to each other in a spaced-apart manner to define interconnect area 18 therebetwen. It is not necessary, however for edge surfaces 45 to be parallel.
- interconnect area 18 can be bounded on two sides by the edges 45 of the microelectronic elements 40 and on the remaining two sides by edges of substrate 12.
- a method for making a microelectronic assembly 8 such as that shown in Fig. 1 can include making or forming microelectronic packages 10A and 10B in the configurations described above separately.
- Packages 10A and 10B can then be aligned with each other, such that the corresponding package terminals 26 of package 10B align with the corresponding interconnects 56 of package 10A.
- the corresponding package terminals 26 of package 10B can then be electrically connected with the ends 58 of their respective interconnects 56 by joining together using, for example a conductive bonding material such as solder or the like in the form of masses 62.
- Adhesive layer 60 can then be injected or otherwise deposited between facing surfaces 16 and 54 and around the bonding metal masses 62 to secure packages 10A and 10B together.
- the substrate wiring 22 extends along front surface 14 and includes stack terminals 28 that are displaced from vias 30.
- Embodiments of a package such as package 10A that includes displaced package terminals 26 can also overlie another package (such as in the place of package 10B) and such displacement can compensate for different spatial placement of interconnects 56 in different packages or can redistribute the particular connections .
- a method for making a package 8 as shown in Fig. 2 can be similar to the method described above for making the package 8 of Fig. 1 with additional, similar steps included to attach additional packages IOC and 10D therewith.
- packages 110A and HOB are similar in structure to packages 10A and 10B, respectively, as shown in Fig. 1.
- interconnects 156 are in the form of conductive masses, e.g. of a bonding metal, e.g. solder, tin, indium, gold, or combinations thereof, or other conductive bond material such as conductive paste, a conductive matrix material, amont others.
- Masses 156 can then be heated to re-flow the bonding material for joining with package terminals 126 of package HOB.
- openings 136 can be left unfilled prior to assembly, at which point bonding metal can be deposited therein in a flowable state and can be further joined with package terminals 126 of package 10B.
- openings 136 can be filled with bond metal interconnects 136 that are substantially even with surface 154 of molded dielectric 152. At assembly additional bonding metal can be added thereto and joined with package terminals 126 of package HOB.
- the openings are then filled with a conductive material such as copper or another wiring metal discussed herein.
- a conductive material such as copper or another wiring metal discussed herein.
- Such conductive metals can be deposited in openings by plating or the like.
- a conductive paste or bonding metal can be deposited in the openings to achieve the desired electrical connection.
- the vias 356 discussed with respect to Fig. 5B for connection between packages 310A and 310B can be used to form similar connections in the other examples of packages and assemblies thereof discussed herein.
- packages 510A and 510B are both wafer level packages including two microelectronic elements 540.
- the substrate can be omitted such that the microelectronic packages 510A and 510B can be in form of a microelectronic elements 540 having packaging structure which includes an electrically conductive redistribution layer overlying the front faces 542 of the microelectronic elements 540.
- interconnects 556 such as pins or the like can extend through molded dielectric 552 and, if necessary through dielectric layer 538, to end surfaces 558 thereof that are exposed on surface 554.
- This structure allows package 510B to be assembled over package 510A with the package terminals of package 510B connected with interconnect end surfaces 558.
- this connection configuration facilitates a number of different particular connections between the components of the packages 510A and 510B and connection therewith to external components, such as by connection of package terminals 526 of package 510A to circuit contacts of a PCB or the like. Such a connection can be achieved, as shown in Fig.
- any of the assemblies discussed above in Figs. 1-13 can be adapted to include more than two microelectronic elements in each package.
- Figs. 14-17 show further examples of an assembly of the type shown in Fig. 8 having four microelectronic elements 640 in each package 610.
- Fig. 15 shows a top schematic view of a package 610 that can be used in the assembly of Fig. 14.
- microelectronic elements 640 are arranged such that edges 645 are arranged in a square along surface 614 of substrate 612. This arrangement defines interconnect area 618 in the square area defined by edges 645.
- the stack terminals 628 in the outer interconnect areas 620 can be at too disparate a distance between opposite microelectronic elements (such as microelectronic elements 640A and 640B) to carry common signals. This can be due to the additional time required for such signals to reach the farther of the microelectronic elements 640. Conversely, the stack terminals 628 within interconnect area 618 can be close enough in distance to all microelectronic elements 640 to reliably carry common signals.
Abstract
Description
Claims
Priority Applications (4)
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JP2014551265A JP2015503850A (en) | 2012-01-09 | 2012-12-19 | Stackable microelectronic package structure |
EP12816397.9A EP2803087A1 (en) | 2012-01-09 | 2012-12-19 | Stackable microelectronic package structures |
CN201280070704.5A CN104137260A (en) | 2012-01-09 | 2012-12-19 | Stackable microelectronic package structures |
KR1020147021931A KR101925427B1 (en) | 2012-01-09 | 2012-12-19 | Stackable microelectronic package structures |
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US13/346,167 US8680684B2 (en) | 2012-01-09 | 2012-01-09 | Stackable microelectronic package structures |
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US20140199811A1 (en) | 2014-07-17 |
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TW201342546A (en) | 2013-10-16 |
US9911717B2 (en) | 2018-03-06 |
CN104137260A (en) | 2014-11-05 |
US20130175699A1 (en) | 2013-07-11 |
KR20140110052A (en) | 2014-09-16 |
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