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TW201445650A - Semiconductor device and method for manufacturing same - Google Patents

Semiconductor device and method for manufacturing same Download PDF

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Publication number
TW201445650A
TW201445650A TW102120204A TW102120204A TW201445650A TW 201445650 A TW201445650 A TW 201445650A TW 102120204 A TW102120204 A TW 102120204A TW 102120204 A TW102120204 A TW 102120204A TW 201445650 A TW201445650 A TW 201445650A
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Taiwan
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glass substrate
semiconductor device
interposers
top surface
electrical connection
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TW102120204A
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Chinese (zh)
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TWI514484B (en
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Tae-Koo Lee
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Zhen Ding Technology Co Ltd
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Publication of TWI514484B publication Critical patent/TWI514484B/en

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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01LSEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
    • H01L2224/00Indexing scheme for arrangements for connecting or disconnecting semiconductor or solid-state bodies and methods related thereto as covered by H01L24/00
    • H01L2224/01Means for bonding being attached to, or being formed on, the surface to be connected, e.g. chip-to-package, die-attach, "first-level" interconnects; Manufacturing methods related thereto
    • H01L2224/10Bump connectors; Manufacturing methods related thereto
    • H01L2224/15Structure, shape, material or disposition of the bump connectors after the connecting process
    • H01L2224/16Structure, shape, material or disposition of the bump connectors after the connecting process of an individual bump connector
    • H01L2224/161Disposition
    • H01L2224/16151Disposition the bump connector connecting between a semiconductor or solid-state body and an item not being a semiconductor or solid-state body, e.g. chip-to-substrate, chip-to-passive
    • H01L2224/16221Disposition the bump connector connecting between a semiconductor or solid-state body and an item not being a semiconductor or solid-state body, e.g. chip-to-substrate, chip-to-passive the body and the item being stacked
    • H01L2224/16225Disposition the bump connector connecting between a semiconductor or solid-state body and an item not being a semiconductor or solid-state body, e.g. chip-to-substrate, chip-to-passive the body and the item being stacked the item being non-metallic, e.g. insulating substrate with or without metallisation
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01LSEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
    • H01L2924/00Indexing scheme for arrangements or methods for connecting or disconnecting semiconductor or solid-state bodies as covered by H01L24/00
    • H01L2924/15Details of package parts other than the semiconductor or other solid state devices to be connected
    • H01L2924/151Die mounting substrate
    • H01L2924/153Connection portion
    • H01L2924/1531Connection portion the connection portion being formed only on the surface of the substrate opposite to the die mounting surface
    • H01L2924/15311Connection portion the connection portion being formed only on the surface of the substrate opposite to the die mounting surface being a ball array, e.g. BGA

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  • Engineering & Computer Science (AREA)
  • Microelectronics & Electronic Packaging (AREA)
  • Computer Hardware Design (AREA)
  • Power Engineering (AREA)
  • Dicing (AREA)
  • Physics & Mathematics (AREA)
  • Condensed Matter Physics & Semiconductors (AREA)
  • General Physics & Mathematics (AREA)
  • Manufacturing & Machinery (AREA)
  • Packaging Frangible Articles (AREA)

Abstract

The present disclosure relates to a semiconductor device. The semiconductor device includes an interposer, a chip, and a protection body. The interposer includes a glass substrate. The glass substrate includes a first top surface, a first bottom surface, and a first ring-shaped side surface connecting the first top surface and the first bottom surface. The chip is arranged on the first top surface, and is electrically connected to the wires in the glass substrate. The protection body covers the chip, a portion of the first top surface exposed from the chip, and the first ring-shaped side surface, and exposes the first bottom surface. The protection body includes a second top surface and a second bottom surface. The bottom surface is nearer to the first bottom surface than the second top surface, and the bottom surface is coplanar with the first bottom surface. The present disclosure also relates to a method for manufacturing the semiconductor device.

Description

半導體器件及其製作方法Semiconductor device and manufacturing method thereof

本發明涉及半導體器件及其製作方法。The present invention relates to a semiconductor device and a method of fabricating the same.

目前,具有晶片及中介板(interposer)的半導體器件的製作方法為:先將晶片構裝於中介板(interposer)的頂面上,而後在該中介板頂面側設置一個封裝膠體,該封裝膠體僅覆蓋該晶片及從該晶片露出的頂面,露出該中介板的底面及連接頂面及底面的側面。然而,上述方法所獲得半導體器件的中介板易在制程運輸過程中因外力碰撞而造成結構損傷。另外,上述方法所獲得的半導體器件的封裝膠體與中介板之間的交界面(interface)僅僅為中介板的部分頂面,且晶片工作過程中容易產生熱量,從而使得封裝膠體與中介板之間因為熱量而產生的熱剪應力(thermal shear stress)較大,降低了半導體器件的可靠性。At present, a semiconductor device having a wafer and an interposer is formed by first arranging a wafer on a top surface of an interposer, and then providing an encapsulant on a top surface side of the interposer, the encapsulant The wafer and the top surface exposed from the wafer are covered only to expose the bottom surface of the interposer and the side surfaces connecting the top surface and the bottom surface. However, the interposer of the semiconductor device obtained by the above method is liable to cause structural damage due to external force collision during process transportation. In addition, the interface between the encapsulant of the semiconductor device obtained by the above method and the interposer is only a part of the top surface of the interposer, and heat is easily generated during the operation of the wafer, thereby causing a gap between the encapsulant and the interposer. The thermal shear stress due to heat is large, which reduces the reliability of the semiconductor device.

有鑒於此,有必要提供一種可解決上述問題的半導體器件及其製作方法,以提高半導體器件的可靠性。In view of the above, it is necessary to provide a semiconductor device and a method of fabricating the same that can solve the above problems to improve the reliability of the semiconductor device.

一種半導體器件的製作方法,包括步驟:提供一個承載體,所述承載體具有一個承載面;提供多個中介板,所述多個中介板中的每個中介板均具有一個形成有導電線路的玻璃基底,所述玻璃基底具有第一頂面、與所述第一頂面相對的第一底面及連接所述第一頂面及第一底面的第一環形側面,並將多個中介板間隔地設置於所述承載面上,使得每個中介板的玻璃基底的第一底面均較相應的第一頂面靠近所述承載面;提供多個晶片,並將所述多個晶片中的每個晶片均構裝於一個所述中介板上;在所述承載體的承載面一側設置一個封裝膠體,所述封裝膠體覆蓋所述多個晶片、所述多個中介板及從所述多個中介板露出的承載面;移除所述承載體,獲得一個封裝體;以及切割所述封裝體,以獲得多個相互分離的半導體器件,所述多個半導體器件中的每個半導體器件均包括一個所述中介板、一個所述晶片及一個保護體,所述保護體為所述封裝膠體的一部分,每個保護體均具有相對的第二頂面及第二底面,所述第二底面較第二頂面靠近所述第一底面,且所述第二底面與所述第一底面共面。A method of fabricating a semiconductor device, comprising the steps of: providing a carrier having a carrier surface; providing a plurality of interposers, each of the plurality of interposers having a conductive line formed thereon a glass substrate having a first top surface, a first bottom surface opposite the first top surface, and a first annular side surface connecting the first top surface and the first bottom surface, and a plurality of interposers Arranging on the bearing surface at intervals such that the first bottom surface of the glass substrate of each interposer is closer to the bearing surface than the corresponding first top surface; providing a plurality of wafers and the plurality of wafers Each of the wafers is mounted on one of the interposers; an encapsulant is disposed on a side of the carrying surface of the carrier, the encapsulant covers the plurality of wafers, the plurality of interposers, and from the a carrier surface exposed by the plurality of interposers; removing the carrier to obtain a package; and cutting the package to obtain a plurality of mutually separated semiconductor devices, each of the plurality of semiconductor devices Each of the components includes a plurality of the interposer, a wafer, and a protective body, wherein the protective body is a part of the encapsulant, each protective body has an opposite second top surface and a second bottom surface, The second bottom surface is closer to the first bottom surface than the second top surface, and the second bottom surface is coplanar with the first bottom surface.

一種半導體器件包括一個中介板、一個晶片及一個保護體。所述中介板具有一個形成有導電線路的玻璃基底。所述玻璃基底具有第一頂面、第一底面及連接所述第一頂面及第一底面的第一環形側面。所述晶片構裝於所述中介板的頂面,且與所述玻璃基底的導電線路電性相連。所述保護體覆蓋所述晶片、從所述晶片露出的第一頂面及所述第一環形側面,並露出所述第一底面。所述保護體具有相對的第二頂面及第二底面,所述第二底面較第二頂面靠近所述第一底面,且所述第二底面與所述第一底面共面。A semiconductor device includes an interposer, a wafer, and a protective body. The interposer has a glass substrate formed with conductive traces. The glass substrate has a first top surface, a first bottom surface, and a first annular side surface connecting the first top surface and the first bottom surface. The wafer is mounted on a top surface of the interposer and electrically connected to a conductive line of the glass substrate. The protective body covers the wafer, a first top surface exposed from the wafer, and the first annular side surface, and exposes the first bottom surface. The protection body has opposite second top surfaces and second bottom surfaces, the second bottom surface is closer to the first bottom surface than the second top surface, and the second bottom surface is coplanar with the first bottom surface.

本技術方案的中的半導體器件的製作方法所獲得的半導體器件中,保護體覆蓋所述晶片、從所述晶片露出的第一頂面及所述第一環形側面,露出所述第一底面,從而使得所述保護體除了可以保護晶片之外,更可以為所述中介板提供更完善且有效的保護,使得所述中介板在制程運輸過程中不易因外力碰撞而造成結構損傷。此外,由於所述中介板的第一頂面及第一環形側面均被所述保護體包覆,從而可以降低了保護體與中介板之間因熱而產生的熱剪應力,提升了半導體器件的可靠性。再者,多個半導體器件同時形成,再經過切割即可獲得多個相互分離的半導體器件,生產效率也較高。In the semiconductor device obtained by the method for fabricating a semiconductor device of the present invention, the protective body covers the wafer, the first top surface exposed from the wafer, and the first annular side surface to expose the first bottom surface In addition to protecting the wafer, the protective body can provide more perfect and effective protection for the interposer, so that the interposer is not easily damaged by external force during process transportation. In addition, since the first top surface and the first annular side surface of the interposer are covered by the protective body, thermal shear stress generated by heat between the protective body and the interposer can be reduced, and the semiconductor is improved. Device reliability. Furthermore, a plurality of semiconductor devices are simultaneously formed, and a plurality of mutually separated semiconductor devices can be obtained by cutting, and the production efficiency is also high.

10...承載體10. . . Carrier

101...收容凹槽101. . . Containing groove

11...承載膠板11. . . Bearing rubber sheet

13...邊框13. . . frame

111...承載面111. . . Bearing surface

20...中介板20. . . Intermediary board

21...玻璃基底twenty one. . . Glass substrate

23...第一電性連接墊twenty three. . . First electrical connection pad

25...第二電性連接墊25. . . Second electrical connection pad

211...第一頂面211. . . First top surface

212...第一底面212. . . First bottom

213...第一環形側面213. . . First annular side

30...晶片30. . . Wafer

31...主動面31. . . Active surface

33...非主動面33. . . Inactive surface

35...電極墊35. . . Electrode pad

37...導電構件37. . . Conductive member

40...封裝膠體40. . . Encapsulant

50...封裝體50. . . Package

60...焊球60. . . Solder ball

70...半導體器件70. . . Semiconductor device

80...保護體80. . . Protector

81...第二頂面81. . . Second top surface

82...第二底面82. . . Second bottom

83...第二環形側面83. . . Second annular side

圖1是本技術方案實施例提供的承載體的俯視圖。1 is a top plan view of a carrier provided by an embodiment of the present technical solution.

圖2是圖1沿II-II線的剖視圖。Figure 2 is a cross-sectional view taken along line II-II of Figure 1.

圖3是在圖1所示的承載體上設置多個中介板後的俯視圖。Fig. 3 is a plan view showing a plurality of interposers provided on the carrier shown in Fig. 1;

圖4是圖3沿IV-IV線的剖視圖。Figure 4 is a cross-sectional view taken along line IV-IV of Figure 3.

圖5是圖4中的V部分的放大圖。Fig. 5 is an enlarged view of a portion V in Fig. 4.

圖6是在圖3所示的每個中介板上構裝一個晶片後的俯視圖。Figure 6 is a plan view of a wafer after mounting a wafer on each of the interposers shown in Figure 3.

圖7是圖6沿VII-VII線的剖視圖。Figure 7 is a cross-sectional view taken along line VII-VII of Figure 6.

圖8是圖7中的VIII部分的放大圖。Figure 8 is an enlarged view of a portion VIII of Figure 7.

圖9是從圖7中移除所述承載體的邊框後所獲得的剖視圖。Figure 9 is a cross-sectional view taken after the frame of the carrier is removed from Figure 7.

圖10是在圖9所示的承載體靠近中介板一側設置封裝膠體後的剖視圖。Fig. 10 is a cross-sectional view showing the encapsulant provided on the side of the carrier shown in Fig. 9 adjacent to the interposer.

圖11是從圖10中移除所述承載體的承載膠板後的剖視圖。Figure 11 is a cross-sectional view of the carrier sheet of the carrier removed from Figure 10.

圖12是在圖11所示的中介板上形成多個焊球後所獲得的封裝體的剖視圖。Fig. 12 is a cross-sectional view of the package obtained after forming a plurality of solder balls on the interposer shown in Fig. 11.

圖13是切割圖12所示的封裝體後獲得的多個相互分離的半導體器件的剖視圖。Figure 13 is a cross-sectional view of a plurality of mutually separated semiconductor devices obtained after the package shown in Figure 12 is cut.

圖14是半導體器件的放大圖。Figure 14 is an enlarged view of a semiconductor device.

下面將結合附圖及實施例對本技術方案提供的半導體器件的製作方法及半導體器件作進一步的詳細說明。The method for fabricating the semiconductor device and the semiconductor device provided by the present technical solution will be further described in detail below with reference to the accompanying drawings and embodiments.

本技術方案實施例提供的半導體器件的製作方法包括以下步驟:A method of fabricating a semiconductor device provided by an embodiment of the present technical solution includes the following steps:

第一步,請參閱圖1及圖2,提供一個具有收容凹槽101的承載體10。承載體10包括一個承載膠板11及一個中空的邊框13。所述承載膠板11具有一個承載面111。所述邊框13設置於所述承載面111上。所述邊框13與所述承載膠板11相配合形成所述收容凹槽101。In the first step, referring to FIG. 1 and FIG. 2, a carrier 10 having a receiving recess 101 is provided. The carrier 10 includes a carrier rubber sheet 11 and a hollow bezel 13. The carrier rubber sheet 11 has a bearing surface 111. The frame 13 is disposed on the bearing surface 111. The frame 13 cooperates with the supporting rubber plate 11 to form the receiving groove 101.

第二步,請參閱圖3、圖4及圖5,提供多個中介板20。每個中介板20均具有一個形成有導電線路的玻璃基底21、多個第一電性連接墊23及多個第二電性連接墊25。所述玻璃基底21具有第一頂面211、第一底面212及連接所述第一頂面211及第一底面212的第一環形側面213。所述多個第一電性連接墊23暴露於玻璃基底21的第一頂面211一側,且與所述玻璃基底21中的導電線路電性相連。多個第二電性連接墊25暴露於玻璃基底21的第一底面212一側,且與所述玻璃基底21中的導電線路電性相連。In the second step, referring to FIG. 3, FIG. 4 and FIG. 5, a plurality of interposers 20 are provided. Each of the interposers 20 has a glass substrate 21 formed with a conductive line, a plurality of first electrical connection pads 23 and a plurality of second electrical connection pads 25. The glass substrate 21 has a first top surface 211 , a first bottom surface 212 , and a first annular side surface 213 connecting the first top surface 211 and the first bottom surface 212 . The plurality of first electrical connection pads 23 are exposed on one side of the first top surface 211 of the glass substrate 21 and are electrically connected to the conductive lines in the glass substrate 21 . The plurality of second electrical connection pads 25 are exposed on one side of the first bottom surface 212 of the glass substrate 21 and are electrically connected to the conductive lines in the glass substrate 21.

然後,將多個中介板20間隔地設置於從所述收容凹槽101露出的所述承載膠板11的承載面111上,使得每個中介板20的第一底面212均較相應的第一頂面211靠近所述承載面111。Then, a plurality of interposers 20 are spacedly disposed on the bearing surface 111 of the carrier rubber sheet 11 exposed from the receiving recess 101 such that the first bottom surface 212 of each of the interposing boards 20 is relatively first. The top surface 211 is adjacent to the bearing surface 111.

第三步,請參閱圖6、圖7及圖8,提供多個晶片30。每個晶片30均具有相對的主動面31及非主動面33。每個晶片30還均包括設於所述主動面31上的多個電極墊35。In the third step, referring to FIG. 6, FIG. 7, and FIG. 8, a plurality of wafers 30 are provided. Each wafer 30 has opposing active faces 31 and inactive faces 33. Each of the wafers 30 further includes a plurality of electrode pads 35 disposed on the active surface 31.

然後,將所述多個晶片30中的每個晶片30均構裝於一個所述中介板20上。每個晶片30的多個電極墊35中的每個電極墊35均通過一個導電構件37與相應的中介板20的一個第一電性連接墊23電性相連。Then, each of the plurality of wafers 30 is mounted on one of the interposers 20. Each of the plurality of electrode pads 35 of each of the wafers 30 is electrically connected to a first electrical connection pad 23 of the corresponding interposer 20 via a conductive member 37.

第四步,請參閱圖9及圖10,移除所述邊框13,並在所述承載膠板11的承載面111一側設置一個封裝膠體40。所述封裝膠體40覆蓋所述多個晶片30、所述多個中介板20及從所述中介板20露出的承載膠板11的承載面111。所述封裝膠體40的材料為環氧模塑膠(epoxy molding compound)。In the fourth step, referring to FIG. 9 and FIG. 10, the frame 13 is removed, and an encapsulant 40 is disposed on the side of the bearing surface 111 of the supporting rubber sheet 11. The encapsulant 40 covers the plurality of wafers 30, the plurality of interposers 20, and the bearing surface 111 of the carrier rubber sheet 11 exposed from the interposer 20. The material of the encapsulant 40 is an epoxy molding compound.

第五步,移除所述承載膠板11,獲得一個如圖11所示的封裝體50。In the fifth step, the carrier rubber sheet 11 is removed to obtain a package body 50 as shown in FIG.

第六步,請參閱圖12,通過印刷塗布的方法在所述多個第二電性連接墊25中的每個第二電性連接墊25上植一個焊球60。焊球60的材料一般主要包括錫。In a sixth step, referring to FIG. 12, a solder ball 60 is implanted on each of the plurality of second electrical connection pads 25 by a printed coating method. The material of the solder balls 60 generally includes mainly tin.

第七步,請參閱圖13及圖14,切割具有焊球60的所述封裝體50,以獲得多個相互分離的半導體器件70。In a seventh step, referring to FIG. 13 and FIG. 14, the package 50 having the solder balls 60 is cut to obtain a plurality of semiconductor devices 70 separated from each other.

每個半導體器件70均包括一個所述中介板20、一個所述晶片30及一個保護體80。所述保護體80為所述封裝膠體40的一部分,即,所述多個半導體器件70的多個保護體80共同組成所述封裝膠體40。所述保護體80覆蓋所述晶片30、從所述晶片30露出的第一頂面211及所述第一環形側面213,並露出所述第一底面212。每個保護體80均具有一個第二頂面81、一個與所述第二頂面81相對的第二底面82及連接於所述第二頂面81及第二底面82的第二環形側面83。所述第二底面82較第二頂面81靠近所述第一底面212,且所述第二底面82與所述第一底面212共面。Each of the semiconductor devices 70 includes one of the interposer 20, one of the wafers 30, and a protective body 80. The protective body 80 is part of the encapsulant 40, that is, the plurality of protective bodies 80 of the plurality of semiconductor devices 70 collectively constitute the encapsulant 40. The protective body 80 covers the wafer 30, the first top surface 211 and the first annular side surface 213 exposed from the wafer 30, and exposes the first bottom surface 212. Each protection body 80 has a second top surface 81, a second bottom surface 82 opposite to the second top surface 81, and a second annular side surface 83 connected to the second top surface 81 and the second bottom surface 82. . The second bottom surface 82 is closer to the first bottom surface 212 than the second top surface 81 , and the second bottom surface 82 is coplanar with the first bottom surface 212 .

本技術方案的中的半導體器件70的製作方法所獲得的半導體器件70中,保護體80覆蓋所述晶片30、從所述晶片30露出的第一頂面211及所述第一環形側面213,露出所述第一底面212,從而使得所述保護體80除了可以保護晶片30之外,更可以為所述中介板20提供更完善且有效的保護,使得所述中介板20在制程運輸過程中不易因外力碰撞而造成結構損傷。此外,由於所述中介板20的第一頂面211及第一環形側面213均被所述保護體80包覆,從而可以降低了保護體80與中介板20之間因熱而產生的熱剪應力,提升了半導體器件70的可靠性。再者,多個半導體器件70同時形成,再經過切割即可獲得多個相互分離的半導體器件70,生產效率也較高。In the semiconductor device 70 obtained by the method of fabricating the semiconductor device 70 of the present invention, the protective body 80 covers the wafer 30, the first top surface 211 exposed from the wafer 30, and the first annular side surface 213. The first bottom surface 212 is exposed, so that the protective body 80 can provide more perfect and effective protection for the interposer 20, in addition to protecting the wafer 30, so that the interposer 20 is in the process of transportation. It is not easy to cause structural damage due to external force collision. In addition, since the first top surface 211 and the first annular side surface 213 of the interposer 20 are both covered by the protection body 80, heat generated by heat between the protection body 80 and the interposer 20 can be reduced. The shear stress increases the reliability of the semiconductor device 70. Furthermore, a plurality of semiconductor devices 70 are simultaneously formed, and a plurality of semiconductor devices 70 separated from each other can be obtained by dicing, and the production efficiency is also high.

其他實施例中,上述的第六步驟可以在切割封裝體50獲得多個相互分離的半導體器件70步驟之後再進行,也就是說,獲得封裝體50之後,先切割封裝體50獲得多個相互分離的無焊球60的半導體器件,而後再在每個半導體器件的多個第二電性連接墊25中的每個第二電性連接墊25上植焊球60。In other embodiments, the sixth step described above may be performed after the step of obtaining a plurality of mutually separated semiconductor devices 70 by the dicing package 50, that is, after the package 50 is obtained, the package 50 is first etched to obtain a plurality of separations. The semiconductor device of the solderless ball 60, and then the solder ball 60 is implanted on each of the plurality of second electrical connection pads 25 of each semiconductor device.

其他實施例中,所述邊框13也可以省略不要,此時,移除所述邊框13這個步驟也可以省略不要。In other embodiments, the frame 13 may also be omitted. In this case, the step of removing the frame 13 may also be omitted.

綜上所述,本發明確已符合發明專利之要件,遂依法提出專利申請。惟,以上所述者僅為本發明之較佳實施方式,自不能以此限制本案之申請專利範圍。舉凡熟悉本案技藝之人士援依本發明之精神所作之等效修飾或變化,皆應涵蓋於以下申請專利範圍內。In summary, the present invention has indeed met the requirements of the invention patent, and has filed a patent application according to law. However, the above description is only a preferred embodiment of the present invention, and it is not possible to limit the scope of the patent application of the present invention. Equivalent modifications or variations made by persons skilled in the art in light of the spirit of the invention are intended to be included within the scope of the following claims.

20...中介板20. . . Intermediary board

211...第一頂面211. . . First top surface

212...第一底面212. . . First bottom

213...第一環形側面213. . . First annular side

30...晶片30. . . Wafer

60...焊球60. . . Solder ball

70...半導體器件70. . . Semiconductor device

80...保護體80. . . Protector

81...第二頂面81. . . Second top surface

82...第二底面82. . . Second bottom

83...第二環形側面83. . . Second annular side

Claims (8)

一種半導體器件的製作方法,包括步驟:
提供一個承載體,所述承載體具有一個承載面;
提供多個中介板,所述多個中介板中的每個中介板均具有一個形成有導電線路的玻璃基底,所述玻璃基底具有第一頂面、與所述第一頂面相對的第一底面及連接所述第一頂面及第一底面的第一環形側面,並將多個中介板間隔地設置於所述承載面上,使得每個中介板的玻璃基底的第一底面均較相應的第一頂面靠近所述承載面;
提供多個晶片,並將所述多個晶片中的每個晶片均構裝於一個所述中介板上;
在所述承載體的承載面一側設置一個封裝膠體,所述封裝膠體覆蓋所述多個晶片、所述多個中介板及從所述多個中介板露出的承載面;
移除所述承載體,獲得一個封裝體;以及
切割所述封裝體,以獲得多個相互分離的半導體器件,所述多個半導體器件中的每個半導體器件均包括一個所述中介板、一個所述晶片及一個保護體,所述保護體為所述封裝膠體的一部分,每個保護體均具有相對的第二頂面及第二底面,所述第二底面較第二頂面靠近所述第一底面,且所述第二底面與所述第一底面共面。
A method of fabricating a semiconductor device, comprising the steps of:
Providing a carrier having a bearing surface;
Providing a plurality of interposers, each of the plurality of interposers having a glass substrate formed with a conductive line, the glass substrate having a first top surface, the first opposite the first top surface a bottom surface and a first annular side surface connecting the first top surface and the first bottom surface, and a plurality of interposers are spaced apart from each other on the bearing surface, so that the first bottom surface of the glass substrate of each interposer is a corresponding first top surface is adjacent to the bearing surface;
Providing a plurality of wafers, and assembling each of the plurality of wafers on one of the interposers;
Providing an encapsulant on a side of the carrying surface of the carrier, the encapsulant covering the plurality of wafers, the plurality of interposers, and a bearing surface exposed from the plurality of interposers;
Removing the carrier to obtain a package; and cutting the package to obtain a plurality of mutually separated semiconductor devices, each of the plurality of semiconductor devices including one of the interposers, one The wafer and a protective body, the protective body is a part of the encapsulant, each protective body has an opposite second top surface and a second bottom surface, and the second bottom surface is closer to the second top surface than the second top surface a first bottom surface, and the second bottom surface is coplanar with the first bottom surface.
如申請專利範圍第1項所述的半導體器件的製作方法,其中,每個中介板均具有多個第一電性連接墊,所述多個第一電性連接墊暴露於所述玻璃基板的第一頂面一側,且與所述玻璃基底中的導電線路電性相連,每個晶片均具有一個主動面及設於所述主動面上的多個電極墊,在將所述多個晶片中的每個晶片均構裝於一個所述中介板上的步驟中,每個晶片的多個電極墊中的每個電極墊均通過一個導電構件與相應的中介板的一個第一電性連接墊電性相連。The method of fabricating the semiconductor device of claim 1, wherein each of the interposers has a plurality of first electrical connection pads, and the plurality of first electrical connection pads are exposed to the glass substrate. a first top surface side, and electrically connected to the conductive lines in the glass substrate, each wafer has an active surface and a plurality of electrode pads disposed on the active surface, wherein the plurality of wafers are In the step of each of the wafers being mounted on one of the interposers, each of the plurality of electrode pads of each wafer is electrically connected to a first one of the corresponding interposer through a conductive member The mat is electrically connected. 如申請專利範圍第1項所述的半導體器件的製作方法,其中,每個中介板均具有多個第二電性連接墊,所述多個第二電性連接墊暴露於所述玻璃基板的第一底面一側,且與所述玻璃基底中的導電線路電性相連,在移除所述承載膠板步驟之後及切割所述封裝體步驟之前,所述半導體器件的製作方法還包括在所述多個第二電性連接墊中的每個第二電性連接墊上均植一個焊球的步驟。The method of fabricating a semiconductor device according to claim 1, wherein each of the interposers has a plurality of second electrical connection pads, and the plurality of second electrical connection pads are exposed to the glass substrate. a first bottom surface side, and electrically connected to the conductive line in the glass substrate, after the step of removing the carrier rubber sheet and before the step of cutting the package body, the manufacturing method of the semiconductor device further includes A step of implanting a solder ball on each of the plurality of second electrical connection pads. 如申請專利範圍第1項所述的半導體器件的製作方法,其中,每個中介板均具有多個第二電性連接墊,所述多個第二電性連接墊暴露於所述玻璃基板的第一底面一側,且與所述玻璃基底中的導電線路電性相連,在切割所述封裝體步驟之後,所述半導體器件的製作方法還包括在每個半導體器件的多個第二電性連接墊中的每個第二電性連接墊上均植一個焊球的步驟。The method of fabricating a semiconductor device according to claim 1, wherein each of the interposers has a plurality of second electrical connection pads, and the plurality of second electrical connection pads are exposed to the glass substrate. a first bottom surface side, and electrically connected to the conductive line in the glass substrate, after the step of cutting the package body, the manufacturing method of the semiconductor device further includes a plurality of second electrical properties in each semiconductor device A step of implanting a solder ball on each of the second electrical connection pads in the connection pad. 如申請專利範圍第1項所述的半導體器件的製作方法,其中,所述承載體為具有收容凹槽的承載體,所述承載體包括一個承載膠板及一個中空的邊框,所述承載膠板具有所述承載面,所述邊框設置於所述承載面上,所述邊框與所述承載膠板相配合形成所述收容凹槽,在將多個中介板間隔地設置於所述承載面上的步驟中,所述多個中介板中的每個中介板均收容於所述收容凹槽中,在將所述多個晶片中的每個晶片均構裝於一個所述中介板上步驟之後,在所述承載體的承載面一側設置一個封裝膠體步驟之前,所述半導體器件的製作方法還包括移除所述邊框的步驟。The method of manufacturing the semiconductor device according to the first aspect of the invention, wherein the carrier is a carrier having a receiving groove, the carrier comprises a carrier rubber plate and a hollow frame, the carrier tape The board has the bearing surface, the frame is disposed on the bearing surface, and the frame cooperates with the supporting rubber plate to form the receiving groove, and the plurality of interposers are spaced apart from the bearing surface. In the above step, each of the plurality of interposers is received in the receiving groove, and each of the plurality of wafers is configured on one of the interposers. Thereafter, before the step of providing an encapsulant on the side of the carrying surface of the carrier, the method of fabricating the semiconductor device further includes the step of removing the bezel. 一種半導體器件,其包括一個中介板、一個晶片及一個保護體,所述中介板具有一個形成有導電線路的玻璃基底,所述玻璃基底具有第一頂面、第一底面及連接所述第一頂面及第一底面的第一環形側面,所述晶片構裝於所述中介板的頂面,且與所述玻璃基底的導電線路電性相連,所述保護體覆蓋所述晶片、從所述晶片露出的第一頂面及所述第一環形側面,並露出所述第一底面,所述保護體具有相對的第二頂面及第二底面,所述第二底面較第二頂面靠近所述第一底面,且所述第二底面與所述第一底面共面。A semiconductor device comprising an interposer, a wafer and a protective body, the interposer having a glass substrate formed with a conductive line, the glass substrate having a first top surface, a first bottom surface, and a connection to the first a top surface and a first annular side surface of the first bottom surface, the wafer is mounted on a top surface of the interposer, and is electrically connected to a conductive line of the glass substrate, the protective body covers the wafer, The first top surface and the first annular side surface of the wafer are exposed, and the first bottom surface is exposed, the protection body has opposite second top surfaces and second bottom surfaces, and the second bottom surface is second The top surface is adjacent to the first bottom surface, and the second bottom surface is coplanar with the first bottom surface. 如申請專利範圍第6項所述的半導體器件,其中,所述中介板還具有多個第一電性連接墊,所述多個第一電性連接墊暴露於所述玻璃基板的第一頂面一側,且與所述玻璃基底中的導電線路電性相連,所述晶片具有一個主動面及設於所述主動面上的多個電極墊,所述多個電極墊中的每個電極墊均通過一個導電構件與所述中介板的一個第一電性連接墊電性相連。The semiconductor device of claim 6, wherein the interposer further has a plurality of first electrical connection pads, the plurality of first electrical connection pads being exposed to the first top of the glass substrate a side of the surface, and electrically connected to the conductive line in the glass substrate, the wafer has an active surface and a plurality of electrode pads disposed on the active surface, each of the plurality of electrode pads The pads are electrically connected to a first electrical connection pad of the interposer through a conductive member. 如申請專利範圍第6項所述的半導體器件,其中,所述中介板還具有多個第二電性連接墊,所述多個第二電性連接墊暴露於所述玻璃基板的第一底面一側,且與所述玻璃基底中的導電線路電性相連,所述半導體器件還包括多個焊球,所述多個焊球中的每個焊球均設置於一個所述第二電性連接墊上。
The semiconductor device of claim 6, wherein the interposer further has a plurality of second electrical connection pads, the plurality of second electrical connection pads being exposed to the first bottom surface of the glass substrate One side, and electrically connected to the conductive line in the glass substrate, the semiconductor device further includes a plurality of solder balls, each of the plurality of solder balls being disposed on one of the second electrical Connect the pad.
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