TWI549145B - Tunable three dimentional inductor - Google Patents

Tunable three dimentional inductor Download PDF

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Publication number
TWI549145B
TWI549145B TW102143909A TW102143909A TWI549145B TW I549145 B TWI549145 B TW I549145B TW 102143909 A TW102143909 A TW 102143909A TW 102143909 A TW102143909 A TW 102143909A TW I549145 B TWI549145 B TW I549145B
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Taiwan
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conductive
trace
substrate
adjustable
electrically connected
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TW102143909A
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Chinese (zh)
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TW201521051A (en
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李威弦
林冠彰
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日月光半導體製造股份有限公司
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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
    • H01L2224/42Wire connectors; Manufacturing methods related thereto
    • H01L2224/47Structure, shape, material or disposition of the wire connectors after the connecting process
    • H01L2224/48Structure, shape, material or disposition of the wire connectors after the connecting process of an individual wire connector
    • H01L2224/481Disposition
    • H01L2224/4813Connecting within a semiconductor or solid-state body, i.e. fly wire, bridge wire

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Description

可調式立體電感元件 Adjustable three-dimensional inductance component

本發明乃是關於一種電氣元件,特別是指一種可調式立體電感元件。 The present invention relates to an electrical component, and more particularly to an adjustable three-dimensional inductive component.

電子封裝常常需要被動元件,例如電感器、電容器及電阻器等,來完成特定電路調諧,例如,在許多射頻(RF)應用中常常需要透過加入電感器於電子封裝中來完成特定電路之調諧。加入離散被動元件至電子封裝通常易導致該封裝之尺寸及重量的增加。另外,在電子封裝中加入離散的被動元件常常需要一專屬的生產線,而可能需要設置附加設備及製程,此等附加設備及製程會導致較高生產成本並且可能增加製程時間。 Electronic packages often require passive components such as inductors, capacitors, and resistors to perform specific circuit tuning. For example, in many radio frequency (RF) applications, tuning of a particular circuit is often accomplished by adding an inductor to the electronic package. The addition of discrete passive components to electronic packages often results in an increase in the size and weight of the package. In addition, the inclusion of discrete passive components in electronic packaging often requires a dedicated production line, and additional equipment and processes may be required. These additional equipment and processes can result in higher production costs and may increase process time.

舉例來說,現有的技術係藉由在一積體電路裝置之主動電路上方製造被動元件來解決這些問題。然而,整合被動元件也需要各種附加製程,例如需要在積體電路裝置的上保護層上方形成介層,藉此允許被動元件連接至下方的積體電路元件。此外,此等現有技術具體例中,需要彼此堆疊之至少兩個晶粒,以完成被動元件。 For example, the prior art solves these problems by fabricating passive components over the active circuitry of an integrated circuit device. However, integrating passive components also requires a variety of additional processes, such as the need to form a via over the upper protective layer of the integrated circuit device, thereby allowing the passive components to be connected to the underlying integrated circuit components. Moreover, in these prior art embodiments, at least two dies stacked on each other are required to complete the passive component.

本發明實施例提供一種可調式立體電感元件,其透過埋設於基板中的第一走線,並結合位於基板上方的鎊線,以實現三維度成型之立體電感。 Embodiments of the present invention provide an adjustable three-dimensional inductor component that penetrates a first trace embedded in a substrate and combines a pound line located above the substrate to implement a three-dimensionally shaped three-dimensional inductor.

本發明實施例提供一種可調式立體電感元件,包括一基板、多個導電接點、多個導電件、一第一走線以及一鎊線。基板具有 一上表面,所述多個導電接點係形成於基板的所述上表面。所述多個導電件係埋設於基板內,且各導電件係電性連接於所述多個導電接點其中之一。第一走線係埋設於基板內,且第一走線係電性連接於所述多個導電件其中的兩個導電件。鎊線的兩端係接合於所述多個導電接點其中的兩個導電接點之間,且鎊線、所述多個導電件以及第一走線共同形成一立體電感路徑。 Embodiments of the present invention provide an adjustable three-dimensional inductor component, including a substrate, a plurality of conductive contacts, a plurality of conductive members, a first trace, and a pound line. The substrate has An upper surface, the plurality of conductive contacts are formed on the upper surface of the substrate. The plurality of conductive members are embedded in the substrate, and each of the conductive members is electrically connected to one of the plurality of conductive contacts. The first trace is embedded in the substrate, and the first trace is electrically connected to the two conductive members of the plurality of conductive members. The two ends of the pound line are joined between two conductive contacts of the plurality of conductive contacts, and the pound line, the plurality of conductive members and the first trace jointly form a three-dimensional inductance path.

本發明另一實施例還提供一種可調式立體電感元件,包括一基板、多個導電接點、多個導電件、多個第一走線以及多個鎊線。基板具有一上表面,所述多個導電接點係形成於基板的所述上表面。所述多個導電件係埋設於基板內,且各導電件係電性連接於所述多個導電接點其中之一。所述多個第一走線係埋設於基板內,且各第一走線係電性連接於所述多個導電件其中的兩個導電件。所述多個鎊線中的各個鎊線的兩端係接合於所述多個導電接點其中的兩個導電接點之間,所述多個鎊線、所述多個導電件以及所述多個第一走線共同形成一立體電感路徑。 Another embodiment of the present invention further provides an adjustable three-dimensional inductor component, including a substrate, a plurality of conductive contacts, a plurality of conductive members, a plurality of first traces, and a plurality of pound lines. The substrate has an upper surface, and the plurality of conductive contacts are formed on the upper surface of the substrate. The plurality of conductive members are embedded in the substrate, and each of the conductive members is electrically connected to one of the plurality of conductive contacts. The plurality of first traces are embedded in the substrate, and each of the first traces is electrically connected to two of the plurality of conductive members. Two ends of each of the plurality of pound lines are bonded between two of the plurality of conductive contacts, the plurality of pound lines, the plurality of conductive members, and the The plurality of first traces together form a three-dimensional inductance path.

本發明實施例所提供之可調式立體電感元件可使第一走線藉由電性連接於埋設於基板的導電件,而實現垂直內埋。所述可調式立體電感元件並可透過埋設於基板之第一走線以及位於基板上方的鎊線,來實現三維度成型之立體電感路徑。 The adjustable three-dimensional inductor component provided by the embodiment of the invention enables the first trace to be vertically buried by being electrically connected to the conductive member embedded in the substrate. The adjustable three-dimensional inductor component can realize a three-dimensionally shaped three-dimensional inductor path through a first trace embedded in the substrate and a pound line located above the substrate.

為了能更進一步瞭解本發明為達成既定目的所採取之技術、方法及功效,請參閱以下有關本發明之詳細說明、圖式,相信本發明之目的、特徵與特點,當可由此得以深入且具體之瞭解,然而所附圖式與附件僅提供參考與說明用,並非用來對本發明加以限制者。 In order to further understand the technology, method and effect of the present invention in order to achieve the intended purpose, reference should be made to the detailed description and drawings of the present invention. The drawings and the annexed drawings are intended to be illustrative and not to limit the invention.

W1、W2‧‧‧可調式立體電感元件 W1, W2‧‧‧ adjustable three-dimensional inductance components

100‧‧‧基板 100‧‧‧Substrate

100S‧‧‧基板的上表面 100S‧‧‧ upper surface of the substrate

T‧‧‧貫孔 T‧‧‧Tongkong

101‧‧‧基底 101‧‧‧Base

102‧‧‧第一電路層 102‧‧‧First circuit layer

104‧‧‧第二電路層 104‧‧‧Second circuit layer

106‧‧‧第三電路層 106‧‧‧ third circuit layer

1021‧‧‧第一介電層 1021‧‧‧First dielectric layer

1041‧‧‧第二介電層 1041‧‧‧Second dielectric layer

1061‧‧‧第三介電層 1061‧‧‧ Third dielectric layer

1022‧‧‧第一導電圖案 1022‧‧‧First conductive pattern

1042‧‧‧第二導電圖案 1042‧‧‧Second conductive pattern

1062‧‧‧第三導電圖案 1062‧‧‧ Third conductive pattern

1022P、1042P、1062P‧‧‧接墊 1022P, 1042P, 1062P‧‧‧ pads

103‧‧‧第一襯層 103‧‧‧First lining

105‧‧‧第二襯層 105‧‧‧Second lining

107‧‧‧第三襯層 107‧‧‧ Third lining

201‧‧‧第一導電接點 201‧‧‧First conductive contact

202‧‧‧第二導電接點 202‧‧‧Second conductive contacts

203‧‧‧第三導電接點 203‧‧‧ Third conductive contact

311‧‧‧第一導電子件 311‧‧‧First conductive component

312‧‧‧第二導電子件 312‧‧‧Second conductive component

313‧‧‧第三導電子件 313‧‧‧ Third conductive component

301‧‧‧第一導電件 301‧‧‧First conductive parts

302‧‧‧第二導電件 302‧‧‧Second conductive parts

500‧‧‧鎊線 500‧‧ ‧ pound line

400‧‧‧第一走線 400‧‧‧ first line

600‧‧‧第二走線 600‧‧‧Second line

700‧‧‧第三走線 700‧‧‧ third line

A1A1~A5A5、B1B1~B3B3‧‧‧剖線 A1A1~A5A5, B1B1~B3B3‧‧‧

圖1係本發明一實施例之可調式立體電感元件移除鎊線後的立體示意圖。 1 is a perspective view of an adjustable three-dimensional inductor component according to an embodiment of the present invention after a pound line is removed.

圖2係圖1之可調式立體電感元件沿A1-A1線的剖面示意圖。 2 is a cross-sectional view of the adjustable three-dimensional inductor component of FIG. 1 taken along line A1-A1.

圖3係圖1之可調式立體電感元件沿A2-A2線的剖面示意圖。 3 is a cross-sectional view of the adjustable three-dimensional inductor component of FIG. 1 taken along line A2-A2.

圖4係圖1之可調式立體電感元件沿A3-A3線的剖面示意圖。 4 is a cross-sectional view of the adjustable three-dimensional inductor component of FIG. 1 taken along line A3-A3.

圖5係圖1之可調式立體電感元件的上視示意圖。 FIG. 5 is a top plan view of the adjustable three-dimensional inductor component of FIG. 1. FIG.

圖6係本發明一實施例之可調式立體電感元件的立體示意圖。 6 is a perspective view of an adjustable three-dimensional inductor component according to an embodiment of the invention.

圖7係圖6之可調式立體電感元件沿A4-A4線的剖面示意圖。 7 is a cross-sectional view of the adjustable three-dimensional inductor component of FIG. 6 taken along line A4-A4.

圖8係圖6之可調式立體電感元件沿A5-A5線的剖面示意圖。 8 is a cross-sectional view of the adjustable three-dimensional inductor component of FIG. 6 taken along line A5-A5.

圖9係圖6之可調式立體電感元件的上視示意圖。 Figure 9 is a top plan view of the adjustable three-dimensional inductor component of Figure 6.

圖10至圖14分別係本發明另一實施例之可調式立體電感元件的上視示意圖。 10 to 14 are schematic top views of an adjustable three-dimensional inductor component according to another embodiment of the present invention.

圖15係本發明另一實施例之可調式立體電感元件移除鎊線後的立體示意圖。 FIG. 15 is a schematic perspective view of the adjustable three-dimensional inductor element according to another embodiment of the present invention after the pound line is removed.

圖16係圖15之可調式立體電感元件沿B1-B1線的剖面示意圖。 Figure 16 is a cross-sectional view of the adjustable three-dimensional inductor element of Figure 15 taken along line B1-B1.

圖17係圖15之可調式立體電感元件沿B2-B2線的剖面示意圖。 17 is a cross-sectional view of the adjustable three-dimensional inductor component of FIG. 15 taken along line B2-B2.

圖18係圖15之可調式立體電感元件的上視示意圖。 Figure 18 is a top plan view of the adjustable three-dimensional inductor component of Figure 15.

圖19係本發明另一實施例之可調式立體電感元件的立體示意圖。 19 is a perspective view of an adjustable three-dimensional inductor component according to another embodiment of the present invention.

圖20係圖19之可調式立體電感元件沿B3-B3線的剖面示意圖。 Figure 20 is a cross-sectional view of the adjustable three-dimensional inductor component of Figure 19 taken along line B3-B3.

圖21係圖19之可調式立體電感元件的上視示意圖。 21 is a top plan view of the adjustable three-dimensional inductor component of FIG.

請一併參照圖6至圖8,圖6係本發明一實施例之可調式立體電感元件的立體示意圖,圖7係圖6之可調式立體電感元件沿A4-A4線的剖面示意圖,而圖8係圖6之可調式立體電感元件沿A5-A5線的剖面示意圖。可調式立體電感元件W1包括基板100、多個導電接點(例如包括第一導電接點201、第二導電接點202)、多個導電件(例如包括第一導電件301、第二導電件302)、第一走線400以及鎊線500,其中導電接點係形成於基板100的上表面100S,導電件以及第一走線400皆係埋設於基板100內。鎊線500的兩端係接合於這些導電接點201、202其中的兩導電接點之間。 Please refer to FIG. 6 to FIG. 8 . FIG. 6 is a schematic perspective view of an adjustable three-dimensional inductor component according to an embodiment of the present invention, and FIG. 7 is a cross-sectional view of the adjustable three-dimensional inductor component of FIG. 6 along line A4-A4. 8 is a schematic cross-sectional view of the adjustable three-dimensional inductor component of FIG. 6 along the line A5-A5. The adjustable three-dimensional inductive component W1 includes a substrate 100, a plurality of conductive contacts (including, for example, a first conductive contact 201 and a second conductive contact 202), and a plurality of conductive members (including, for example, a first conductive member 301 and a second conductive member). 302), a first trace 400 and a pound line 500, wherein the conductive contacts are formed on the upper surface 100S of the substrate 100, and the conductive member and the first trace 400 are embedded in the substrate 100. Both ends of the pound line 500 are bonded between the two conductive contacts of the conductive contacts 201, 202.

首先,請一併參照圖1至圖3,圖1係本發明一實施例之可 調式立體電感元件移除鎊線後的立體示意圖,圖2係圖1之可調式立體電感元件沿A1-A1線的剖面示意圖,而圖3係圖1之可調式立體電感元件沿A2-A2線的剖面示意圖。基板100可為印刷電路板(Printed Wiring Board,PWB),基板100可用以支撐電子元件(圖未繪示)並可用以提供電子元件電性連接。在其他實施例中,基板100可以為任何載體,例如半導體基板、軟硬電路板(flex-rigid wiring board)或陶瓷基板(例如低溫共燒陶瓷(Low Temperature Co-fired Ceramics,LTCC))。 First, please refer to FIG. 1 to FIG. 3 together. FIG. 1 is an embodiment of the present invention. FIG. 2 is a schematic cross-sectional view of the adjustable three-dimensional inductor component along the line A1-A1, and FIG. 3 is a schematic diagram of the adjustable three-dimensional inductor component along the line A2-A2. Schematic diagram of the section. The substrate 100 can be a Printed Wiring Board (PWB). The substrate 100 can be used to support electronic components (not shown) and can be used to provide electrical connection of the electronic components. In other embodiments, the substrate 100 can be any carrier such as a semiconductor substrate, a flex-rigid wiring board, or a ceramic substrate (eg, Low Temperature Co-fired Ceramics (LTCC)).

值得一提的是,如圖2所示的實施例中,基板100可為多層印刷電路板,基板100可由基底101、多層電路層(例如包括第一電路層102、第二電路層104以及第三電路層106)以及多層襯層(例如包括第一襯層103、第二襯層105以及第三襯層107)所構成,其中多層電路層102、104、106以及多層襯層103、105、107相互堆疊地形成於基底101上方。 It should be noted that, in the embodiment shown in FIG. 2, the substrate 100 may be a multilayer printed circuit board, and the substrate 100 may be composed of a substrate 101 and a plurality of circuit layers (eg, including the first circuit layer 102, the second circuit layer 104, and the a three-circuit layer 106) and a multi-layer liner (including, for example, a first liner 103, a second liner 105, and a third liner 107), wherein the multilayer circuit layers 102, 104, 106 and the multilayer liners 103, 105, 107 are formed on top of each other on the substrate 101.

詳細而言,第二電路層104係形成於第一電路層102上方,而第三電路層106係形成於第二電路層104上方。第一襯層103係位於第一電路層102與第二電路層104之間,第二襯層105係位於第二電路層104與第三電路層106之間。第三襯層107係形成於第三電路層106上方,而第三襯層107之上表面100S暴露於環境中。 In detail, the second circuit layer 104 is formed over the first circuit layer 102, and the third circuit layer 106 is formed over the second circuit layer 104. The first liner 103 is between the first circuit layer 102 and the second circuit layer 104, and the second liner 105 is between the second circuit layer 104 and the third circuit layer 106. The third liner 107 is formed over the third circuit layer 106, while the upper liner 100S of the third liner 107 is exposed to the environment.

第一電路層102可包括第一介電層1021以及第一導電圖案1022,第二電路層104可包括第二介電層1041以及第二導電圖案1042,而第三電路層106可包括第三介電層1061以及第三導電圖案1062。每一導電圖案例如包括多個走線以及其他線路所需之連接點(圖未繪示)。第一導電圖案1022、第二導電圖案1042以及第三導電圖案1062分別還可包括至少一接墊1022P、1042P、1062P,接墊1022P、1042P、1062P是導電材料所製成,以提供電性連接。 The first circuit layer 102 may include a first dielectric layer 1021 and a first conductive pattern 1022, the second circuit layer 104 may include a second dielectric layer 1041 and a second conductive pattern 1042, and the third circuit layer 106 may include a third The dielectric layer 1061 and the third conductive pattern 1062. Each conductive pattern includes, for example, a plurality of traces and connection points (not shown) required for other lines. The first conductive pattern 1022, the second conductive pattern 1042, and the third conductive pattern 1062 may further include at least one pad 1022P, 1042P, and 1062P. The pads 1022P, 1042P, and 1062P are made of a conductive material to provide an electrical connection. .

如圖所示的實施例中,每一襯層103、105、107可具有多個 貫孔T,而各個貫孔T的兩端可延伸至多層電路層102、104、106其中之一。第一襯層103之貫孔T的兩端分別延伸至第一電路層102以及第二電路層104,第二襯層105之貫孔T的兩端分別延伸至第二電路層104以及第三電路層106,而第三襯層107之貫孔T的一端延伸至第三電路層106,第三襯層107之貫孔T的另一端暴露於基板100的上表面100S。 In the illustrated embodiment, each of the lining layers 103, 105, 107 can have multiple The through holes T, and both ends of the respective through holes T may extend to one of the multilayer circuit layers 102, 104, 106. The two ends of the through hole T of the first lining layer 103 extend to the first circuit layer 102 and the second circuit layer 104, respectively, and the two ends of the through hole T of the second lining layer 105 extend to the second circuit layer 104 and the third respectively. The circuit layer 106 extends from one end of the through hole T of the third liner 107 to the third circuit layer 106, and the other end of the through hole T of the third liner 107 is exposed to the upper surface 100S of the substrate 100.

導電接點201、202是導電材料所製成,以提供電性連接。導電接點201、202的結構例如是金屬墊、錫球或銀膠等。導電接點201、202可為形成於基板100上表面100S的金屬墊。於其他未繪示的實施例中,導電接點201、202可為導電件301、302暴露於基板100上表面100S的部分,所以圖中的導電接點201、202之形狀僅為舉例說明,並非限定本發明。另外,導電接點201、202的結構與數量可以依據實際需求而設計,本發明之實施例並不限制。在本實施例的可調式立體電感元件W1中,導電接點201、202的數量可對應於導電件301、302的數量。 The conductive contacts 201, 202 are made of a conductive material to provide an electrical connection. The structure of the conductive contacts 201, 202 is, for example, a metal pad, a solder ball or a silver paste. The conductive contacts 201, 202 may be metal pads formed on the upper surface 100S of the substrate 100. In other embodiments not shown, the conductive contacts 201, 202 may be portions of the conductive members 301, 302 exposed to the upper surface 100S of the substrate 100, so the shapes of the conductive contacts 201, 202 in the figure are merely illustrative. The invention is not limited. In addition, the structure and the number of the conductive contacts 201 and 202 can be designed according to actual needs, and the embodiment of the present invention is not limited. In the adjustable three-dimensional inductance element W1 of the present embodiment, the number of the conductive contacts 201, 202 may correspond to the number of the conductive members 301, 302.

導電件301、302係電性連接於所述多個導電接點201、202其中之一。如圖所示的實施例中,每一導電件301、302可由多個導電子件(例如第一導電子件311、第二導電子件312以及第三導電子件313)以及多個接墊(例如接墊1022P、接墊1042P以及接墊1062P)所構成。 The conductive members 301 and 302 are electrically connected to one of the plurality of conductive contacts 201 and 202. In the embodiment shown, each of the conductive members 301, 302 can be composed of a plurality of conductive members (for example, the first conductive member 311, the second conductive member 312, and the third conductive member 313) and a plurality of pads. (for example, the pad 1022P, the pad 1042P, and the pad 1062P).

詳細而言,每一襯層103、105、107的各個貫孔T內分別形成有導電子件311、312、313,而各個導電子件311、312、313的兩端可接觸於多層導電圖案1022、1042、1062其中之一。第一襯層103之貫孔T內形成有第一導電子件311,第一導電子件311的兩端分別接觸於第一導電圖案1022接墊1022P以及第二導電圖案1042接墊1042P。第二襯層105之貫孔T內形成有第二導電子件312,第二導電子件312的兩端分別接觸於第二導電圖案1042接墊1042P以及第三導電圖案1062接墊1062P。第三襯層107之 貫孔T內形成有第三導電子件313,第三導電子件313的一端接觸於第三導電圖案1062接墊1062P。第三導電子件313的另一端接觸於第一導電接點210,以電性連接於第一導電接點210。 In detail, each of the through holes T of each of the lining layers 103, 105, and 107 is formed with conductive members 311, 312, and 313, and both ends of the respective conductive members 311, 312, and 313 are in contact with the plurality of conductive patterns. One of 1022, 1042, 1062. A first conductive sub-member 311 is formed in the through hole T of the first lining layer 103. The two ends of the first conductive sub-member 311 are respectively in contact with the first conductive pattern 1022 pad 1022P and the second conductive pattern 1042 pad 1042P. A second conductive sub-member 312 is formed in the through hole T of the second lining layer 105. The two ends of the second conductive sub-member 312 are respectively in contact with the second conductive pattern 1042 pad 1042P and the third conductive pattern 1062 pad 1062P. Third lining layer 107 A third conductive sub-member 313 is formed in the through hole T, and one end of the third conductive sub-member 313 is in contact with the third conductive pattern 1062 pad 1062P. The other end of the third conductive sub-member 313 is in contact with the first conductive contact 210 to be electrically connected to the first conductive contact 210.

第一導電件301可由第一導電子件311、第二導電子件312、第三導電子件313、第二導電圖案1042接墊1042P以及第三導電圖案1062接墊1062P所構成。第二導電件302可由第二導電子件312、第三導電子件313以及第三導電圖案1062接墊1062P所構成。 The first conductive member 301 can be composed of the first conductive sub-member 311, the second conductive sub-member 312, the third conductive sub-member 313, the second conductive pattern 1042 pad 1042P, and the third conductive pattern 1062 pad 1062P. The second conductive member 302 can be composed of the second conductive sub-member 312, the third conductive sub-member 313, and the third conductive pattern 1062 pad 1062P.

導電子件311、312、313係由填充於貫孔T中的導電材料所構成。於實務上,導電子件311、312、313例如為導電插塞,於貫孔T填充導電材料以形成導電子件311、312、313之方式可以使用鎢插塞製程、鋁插塞製程、銅插塞製程、矽化物插塞製程或其他適當的填充製程,本發明在此並不加以限制。另外,於其他實施例中,導電子件311、312、313也可以係由形成於貫孔T內壁上的導電材料層所構成,而所述導電材料層可共形地(conformingly)覆蓋於貫孔T內壁。 The electron guiding members 311, 312, and 313 are composed of a conductive material filled in the through holes T. In practice, the conductive sub-members 311, 312, and 313 are, for example, conductive plugs. The conductive material can be filled in the through-holes T to form the conductive sub-members 311, 312, and 313. The tungsten plug process, the aluminum plug process, and the copper can be used. The plug process, the telluride plug process or other suitable filling process, the invention is not limited herein. In addition, in other embodiments, the conductive sub-members 311, 312, 313 may also be formed by a layer of conductive material formed on the inner wall of the through-hole T, and the layer of conductive material may be conformally covered. The inner wall of the through hole T.

第一走線400係埋設於基板100內,且第一走線400係電性連接於所述多個導電件其中的兩個導電件,例如,第一走線400可電性連接於所述多個導電件其中的兩個第一導電件301。另外,於本實施例中,可調式立體電感元件W1還可包括第二走線600,第二走線600係埋設於基板100內,且第二走線600係電性連接於所述多個導電件其中的兩個導電件,例如,第二走線600可電性連接於所述多個導電件其中的兩個第二導電件302。 The first trace 400 is embedded in the substrate 100, and the first trace 400 is electrically connected to the two conductive members of the plurality of conductive members. For example, the first trace 400 is electrically connected to the first trace 400. Two of the plurality of conductive members are the first conductive members 301. In addition, in the embodiment, the adjustable three-dimensional inductor component W1 may further include a second trace 600, the second trace 600 is embedded in the substrate 100, and the second trace 600 is electrically connected to the plurality of wires. Two of the conductive members, for example, the second trace 600 may be electrically connected to the two second conductive members 302 of the plurality of conductive members.

如圖2以及圖3所示,第一走線400係由一導電層所構成,而第二走線600係由另一導電層所構成。舉例而言,可先形成一導電層(圖未繪示)於基底101上,接著,可圖形化此導電層,其中圖形化的導電層的一部分可作為第一導電圖案1022,而圖形化的導電層的另一部分可作為第一走線400。然後,可形成另一導電層 (圖未繪示)於第一襯層103上,接著,可圖形化此另一導電層,其中圖形化的此另一導電層的一部分可作為第二導電圖案1042,而圖形化的此另一導電層的另一部分可作為第二走線600。其中,所述這些導電層的圖案是所屬技術領域具有通常知識者可以依據實際的使用需求逕行設計。 As shown in FIGS. 2 and 3, the first trace 400 is composed of one conductive layer, and the second trace 600 is composed of another conductive layer. For example, a conductive layer (not shown) may be formed on the substrate 101. Then, the conductive layer may be patterned, wherein a portion of the patterned conductive layer may serve as the first conductive pattern 1022, and the patterned Another portion of the conductive layer can serve as the first trace 400. Then, another conductive layer can be formed (not shown) on the first liner 103, and then the other conductive layer can be patterned, wherein a portion of the patterned other conductive layer can be used as the second conductive pattern 1042, while the patterned other Another portion of a conductive layer can serve as the second trace 600. Wherein, the patterns of the conductive layers are generally known to those skilled in the art and can be designed according to actual use requirements.

請一併參照圖1、圖4以及圖5,圖4係圖1之可調式立體電感元件沿A3-A3線的剖面示意圖,而圖5係圖1之可調式立體電感元件的上視示意圖。於本實施例中,第一走線400以及第二走線600皆具有長條形狀。第一走線400以及第二走線600皆可由例如金屬材料、合金材料、導電高分子材料或上述材料之組合沉積單層或複數層導電材料所構成。另外,第一走線400以及第二走線600之形狀與尺寸是所屬技術領域具有通常知識者可以依據實際的使用情況需求逕行設計,故本發明之實施例在此不加以限制。 Referring to FIG. 1 , FIG. 4 and FIG. 5 , FIG. 4 is a schematic cross-sectional view of the adjustable three-dimensional inductor component of FIG. 1 along line A3-A3, and FIG. 5 is a top view of the adjustable three-dimensional inductor component of FIG. In this embodiment, the first trace 400 and the second trace 600 both have a strip shape. The first trace 400 and the second trace 600 may each be formed by depositing a single layer or a plurality of layers of conductive material, for example, a metal material, an alloy material, a conductive polymer material, or a combination thereof. In addition, the shape and size of the first trace 400 and the second trace 600 are generally applicable to those skilled in the art, and the embodiments of the present invention are not limited herein.

於本發明一實施例中,第一走線400可藉由圖形化導電層的方法或是鑲嵌法形成,圖形化導電層的方法中可包括下列步驟:首先,沉積一導電層(未繪示)於基底101上,之後,以微影蝕刻法圖形化導電層,以形成第一導電圖案1022以及第一走線400。之後,沉積一介電材料(未繪示)於第一導電圖案1022、第一走線400以及基底101上,以形成第一介電層1021。上述之鑲嵌法形成第一走線400可包括下列步驟:首先,形成一介電層(未繪示)於基底101上。接著,圖形化介電層,以形成複數個預定形成第一導電圖案1022以及第一走線400之開口,後續,沉積例如鎢或銅之導電材料於第一介電層1021上且填入上述開口中。其後,以例如化學機械研磨法研磨導電材料,以形成第一導電圖案1022以及第一走線400。沉積金屬導電材料材料的方式例如為噴鍍(spray coating)、電鍍(electroplating)、無電鍍(electrolessplating)、蒸鍍或濺鍍(sputtering)等。類似地,第二走線600也可藉由圖形化導電層 的方法或是鑲嵌法形成。 In an embodiment of the invention, the first trace 400 may be formed by a method of patterning a conductive layer or a damascene method. The method for patterning a conductive layer may include the following steps: first, depositing a conductive layer (not shown) On the substrate 101, afterwards, the conductive layer is patterned by photolithography to form the first conductive pattern 1022 and the first trace 400. Thereafter, a dielectric material (not shown) is deposited on the first conductive pattern 1022, the first trace 400, and the substrate 101 to form the first dielectric layer 1021. The above damascene forming the first trace 400 may include the following steps: First, a dielectric layer (not shown) is formed on the substrate 101. Next, the dielectric layer is patterned to form a plurality of openings that are intended to form the first conductive pattern 1022 and the first trace 400, and subsequently, a conductive material such as tungsten or copper is deposited on the first dielectric layer 1021 and filled in the above In the opening. Thereafter, the conductive material is ground by, for example, chemical mechanical polishing to form the first conductive pattern 1022 and the first trace 400. The manner of depositing the metal conductive material is, for example, spray coating, electroplating, electroless plating, evaporation or sputtering. Similarly, the second trace 600 can also be patterned by a conductive layer The method is formed by mosaic method.

第一走線400可透過第一導電圖案1022之接墊1022P以電性連接於第一導電件301,而第二走線600可透過第二導電圖案1042之接墊1042P以電性連接於第二導電件302。藉此,第一導電件301可用以電性連接第一走線400以及位於基板100上表面100S的第一導電接點201,第二導電件302可用以電性連接第二走線600以及位於基板100上表面100S的第二導電接點202,以將第一走線400或第二走線600之電性導通上移。於其他未繪示的實施例中,第一走線400也可直接接觸於第一導電件301以完成電性連接,或者第二走線600也可直接接觸於第二導電件302以完成電性連接,所以圖中的第一走線400或第二走線600之形狀、第一走線400與第一導電件301的連接關係以及第二走線600與第二導電件302的連接關係僅為舉例說明,並非限定本發明。 The first trace 400 is electrically connected to the first conductive member 301 through the pad 1022P of the first conductive pattern 1022, and the second trace 600 is electrically connected to the second via conductive pad 1042. Two conductive members 302. Thereby, the first conductive member 301 can be electrically connected to the first trace 400 and the first conductive contact 201 located on the upper surface 100S of the substrate 100, and the second conductive member 302 can be electrically connected to the second trace 600 and located The second conductive contact 202 of the upper surface 100S of the substrate 100 moves the electrical conductivity of the first trace 400 or the second trace 600 upward. In other embodiments not shown, the first trace 400 may also directly contact the first conductive member 301 to complete the electrical connection, or the second trace 600 may also directly contact the second conductive member 302 to complete the electrical connection. Sexual connection, so the shape of the first trace 400 or the second trace 600 in the figure, the connection relationship between the first trace 400 and the first conductive member 301, and the connection relationship between the second trace 600 and the second conductive member 302 It is merely illustrative and not limiting of the invention.

值得一提的是,可調式立體電感元件W1包括有多個第一走線400以及多個第二走線600。多個第一走線400其中的各個第一走線400之間係相互並排,多個第二走線600其中的各個第二走線600之間亦係相互並排。多個第一走線400皆埋設於基板100的同一層,多個第二走線600亦皆埋設於基板100的同一層,而第一走線400與第二走線600係位於基板100的不同層,其中第二走線600可位於第一走線400上方或下方。此外,第一走線400與第二走線600不互相重疊,也就是說,第一走線400於上表面100S的投影與第二走線600於上表面100S的投影不互相重疊。多個第一走線400例如可皆形成於基板100的基底101上。也就是說,第一導電圖案1022以及多個第一走線400其中的各個第一走線400可分別為基底101上的圖形化的導電材料層的一部分。多個第二走線600例如可皆形成於第一襯層103上。也就是說,第二導電圖案1042以及多個第二走線600其中的各個第二走線600可分別為第一襯層103上的圖形化的導電材料層的一部分。 It is worth mentioning that the adjustable three-dimensional inductance component W1 includes a plurality of first traces 400 and a plurality of second traces 600. Each of the plurality of first traces 400 is arranged side by side with each other, and each of the plurality of second traces 600 is also arranged side by side with each other. The plurality of first traces 400 are embedded in the same layer of the substrate 100 , and the plurality of second traces 600 are also buried in the same layer of the substrate 100 , and the first traces 400 and the second traces 600 are located on the substrate 100 . Different layers, wherein the second trace 600 can be located above or below the first trace 400. In addition, the first trace 400 and the second trace 600 do not overlap each other, that is, the projection of the first trace 400 on the upper surface 100S and the projection of the second trace 600 on the upper surface 100S do not overlap each other. A plurality of first traces 400 may be formed on the substrate 101 of the substrate 100, for example. That is, each of the first conductive patterns 1022 and the plurality of first traces 400 may be a portion of the patterned conductive material layer on the substrate 101. A plurality of second traces 600 may be formed, for example, on the first liner 103. That is, each of the second conductive patterns 1042 and the plurality of second traces 600 may be a portion of the patterned conductive material layer on the first liner layer 103, respectively.

如圖4所示,各個走線之間能以基板100的結構相隔離,詳細而言,多個第一走線400其中的各個第一走線400之間能以第一介電層1021相隔離,多個第二走線600其中的各個第二走線600之間能以第二介電層1041相隔離,而第一走線400與第二走線600之間能以第一襯層103相隔離。值得注意的是,雖然基板100的各個襯層103、105、107於圖僅繪示單一沉積層,但於所屬技術領域具有通常知識者應可明瞭,各個襯層103、105、107亦可用以表示疊合多個介電層的的複合式介電材料層。 As shown in FIG. 4, each of the traces can be separated by the structure of the substrate 100. In detail, each of the plurality of first traces 400 can be separated by a first dielectric layer 1021. In isolation, each of the plurality of second traces 600 can be separated by a second dielectric layer 1041, and the first trace 400 and the second trace 600 can be separated by a first liner. 103 phase isolation. It should be noted that although the various lining layers 103, 105, 107 of the substrate 100 are only shown as a single deposited layer, it should be apparent to those skilled in the art that the various lining layers 103, 105, 107 can also be used. Represents a layer of composite dielectric material overlying a plurality of dielectric layers.

如圖2以及圖3所示,一對第一導電件301係分別連接於第一走線400的兩端部,一對第二導電件302係分別連接於第二走線600的兩端部。於其他未繪示實施例中,第一導電件301可連接於第一走線400的中間段,而第二導電件302也可連接於第二走線600的中間段。 As shown in FIG. 2 and FIG. 3, a pair of first conductive members 301 are respectively connected to both ends of the first trace 400, and a pair of second conductive members 302 are respectively connected to both ends of the second trace 600. . In other embodiments, the first conductive member 301 can be connected to the middle portion of the first trace 400, and the second conductive member 302 can also be connected to the middle portion of the second trace 600.

多個導電接點中的一些導電接點(例如第一導電接點201)係分別對應於多個第一導電件301,而多個導電接點中的一些導電接點(例如第二導電接點202)係分別對應於多個第二導電件302。舉例而言,一對第一導電接點201係分別對應於一對第一導電件301,而一對第二導電接點202係分別對應於一對第二導電件302。如圖4所示,第一導電接點201呈兩排直線而配置,第二導電接點202也呈兩排直線而配置,而第一導電接點201與第二導電接點202係交錯配置。 Some of the plurality of conductive contacts (eg, the first conductive contacts 201) respectively correspond to the plurality of first conductive members 301, and some of the plurality of conductive contacts (eg, the second conductive contacts) Point 202) corresponds to a plurality of second conductive members 302, respectively. For example, a pair of first conductive contacts 201 respectively correspond to a pair of first conductive members 301, and a pair of second conductive contacts 202 respectively correspond to a pair of second conductive members 302. As shown in FIG. 4, the first conductive contacts 201 are arranged in two rows of straight lines, and the second conductive contacts 202 are also arranged in two rows of straight lines, and the first conductive contacts 201 and the second conductive contacts 202 are alternately arranged. .

請復一併參照圖6至圖9,其中圖9係圖6之可調式立體電感元件的上視示意圖。參考圖7,當一鎊線500兩端接合於所述多個導電接點其中的兩個導電接點(例如第一導電接點201與第二導電接點202)之間時,鎊線500、這些導電件(例如第一導電件301)以及第一走線400可共同形成一立體電感路徑。也就是說,鎊線500可作為立體電感路徑的一部分,而所述立體電感路徑係由鎊線500、第一走線400以及電性連接於第一走線400之兩個第一導電 件301所構成。同理,參考圖8,鎊線500與第二走線600可形成另一種立體電感路徑。又,參考圖9,當多條鎊線500其中的每一條鎊線500的一端接合於一第一導電接點201,而鎊線500的另一端接合於一第二導電接點202,即每一條鎊線500可對角線地接合於第一導電接點201與相鄰的第二導電接點202之間,將第一走線400電性連接至第二走線600,可形成又一種立體電感路徑。前述任一立體電感路徑即可實現本發明實施例之可調式之立體電感元件W1,換言之,本發明實施例之可調式之立體電感元件W1可透過改變如前述任一立體電感路徑之設計而實現其可規劃(Tunable)之特性。 Please refer to FIG. 6 to FIG. 9, which is a top view of the adjustable three-dimensional inductor component of FIG. Referring to FIG. 7, when both ends of a pound line 500 are bonded between two conductive contacts (for example, the first conductive contact 201 and the second conductive contact 202) of the plurality of conductive contacts, the pound line 500 The conductive members (eg, the first conductive member 301) and the first trace 400 may collectively form a three-dimensional inductance path. That is, the pound line 500 can be used as a part of the three-dimensional inductance path, and the three-dimensional inductance path is composed of the pound line 500, the first trace 400, and the two first conductive lines electrically connected to the first trace 400. The component 301 is composed of. Similarly, referring to FIG. 8, the pound line 500 and the second trace 600 may form another three-dimensional inductance path. Further, referring to FIG. 9, when one end of each of the plurality of pound lines 500 is joined to a first conductive contact 201, and the other end of the pound line 500 is joined to a second conductive contact 202, that is, each A pound line 500 can be diagonally joined between the first conductive contact 201 and the adjacent second conductive contact 202, and the first trace 400 is electrically connected to the second trace 600, which can form another Stereoductive path. The adjustable three-dimensional inductor component W1 of the embodiment of the present invention can be implemented by using any of the three-dimensional inductor paths. In other words, the adjustable three-dimensional inductor component W1 of the embodiment of the present invention can be implemented by changing the design of any of the foregoing three-dimensional inductor paths. It can be characterized as Tunable.

於本實施例中,當鎊線500兩端接合於所述多個導電接點其中的兩導電接點之間時,可調式立體電感元件W1可利用位於基板100上方且具Z方向(意即基板100上表面100S之法線方向)的鎊線,再結合採垂直內埋(Vertical Embedded)於基板100中的第一走線400或第二走線600,來實現X-Y-Z維度成型之立體電感路徑,且可經由調整鎊線之配置而使所述可調式立體電感元件W1具有多種組態變化。具體而言,埋設於基板100中的第一走線400或第二走線600可透過電性連接於具Z方向的導電件,而實現垂直內埋。 In this embodiment, when the two ends of the pound line 500 are bonded between the two conductive contacts of the plurality of conductive contacts, the adjustable three-dimensional inductor component W1 can be located above the substrate 100 and has a Z direction (ie, The pound line in the normal direction of the upper surface 100S of the substrate 100 is combined with the first trace 400 or the second trace 600 vertically embedded in the substrate 100 to realize the three-dimensional inductance path of the XYZ dimension molding. And the adjustable stereo inductance element W1 can have various configuration changes by adjusting the configuration of the pound line. Specifically, the first trace 400 or the second trace 600 embedded in the substrate 100 can be vertically buried by being electrically connected to the conductive member having the Z direction.

第一走線400及第二走線600的尺寸以及其配置深度可改變立體電感路徑的面積。也就是說,可透過調整第一走線400或者第二走線600而使立體電感路徑具有較佳穩定性。再者,埋設於基板100內的第一走線400以及第二走線600不容易因外部環境影響而發生坍塌落位移等現象。另外,在後續的元件封裝製程(例如膜封製程)或者鎊線過程中,第一走線400以及第二走線600亦因埋設於基板100內而具有較佳穩定性。一般而言,立體電感路徑之電感值可隨著第一走線400及第二走線600的尺寸以及其配置深度增加而增加。 The size of the first trace 400 and the second trace 600 and the depth of their configuration can change the area of the three-dimensional inductance path. That is to say, the stereoscopic inductance path can be better stabilized by adjusting the first trace 400 or the second trace 600. Furthermore, the first trace 400 and the second trace 600 embedded in the substrate 100 are less likely to cause collapse or the like due to external environmental influences. In addition, in the subsequent component packaging process (eg, film encapsulation process) or pound line process, the first trace 400 and the second trace 600 are also better stabilized by being embedded in the substrate 100. In general, the inductance value of the three-dimensional inductance path may increase as the size of the first trace 400 and the second trace 600 and the depth of their configuration increase.

另外,前述平行相鄰的連續立體電感路徑可形成一螺旋型(spiral)電感,藉由調整第一走線400及/或第二走線600之間的密度,可增加電感值。同時,基板100內的多個第一走線400及/或第二走線600之間可透過基板100的結構相隔離,以避免產生寄生電容。 In addition, the parallel adjacent continuous three-dimensional inductance paths may form a spiral inductor, and the inductance value may be increased by adjusting the density between the first trace 400 and/or the second trace 600. At the same time, the plurality of first traces 400 and/or the second traces 600 in the substrate 100 are permeable to each other through the structure of the substrate 100 to avoid parasitic capacitance.

請參考圖10至圖14,圖10至圖14分別係本發明另一實施例之可調式立體電感元件的上視示意圖。所述可調式立體電感元件W1不僅具有三維結構,並可透過調整鎊線500之配置位置而實現其可調式(Tunable)之特性。詳細而言,參考圖10及圖13,當鎊線500兩端接合於所述多個導電接點其中的兩第一導電接點201之間時,鎊線500可與第一走線400形成兩種立體電感路徑。參考圖11及圖14,當鎊線500兩端接合於所述多個導電接點其中的兩第二導電接點202之間時,鎊線500可與第二走線600形成另兩種立體電感路徑。參考圖12,當鎊線500兩端接合於所述多個導電接點其中的一第一導電接點201與一第二導電接點202之間時,鎊線500可將第一走線400電性連接至第二走線600,可以形成又一種立體電感路徑。 Please refer to FIG. 10 to FIG. 14 . FIG. 10 to FIG. 14 are respectively top views of the adjustable three-dimensional inductor component according to another embodiment of the present invention. The adjustable three-dimensional inductor component W1 not only has a three-dimensional structure, but also can realize its Tunable characteristics by adjusting the position of the pound line 500. In detail, referring to FIG. 10 and FIG. 13 , when both ends of the pound line 500 are joined between the two first conductive contacts 201 of the plurality of conductive contacts, the pound line 500 may form with the first trace 400 Two stereo inductive paths. Referring to FIG. 11 and FIG. 14, when the two ends of the pound line 500 are joined between the two second conductive contacts 202 of the plurality of conductive contacts, the pound line 500 and the second trace 600 form two other three-dimensional shapes. Inductance path. Referring to FIG. 12, when both ends of the pound line 500 are bonded between a first conductive contact 201 and a second conductive contact 202 of the plurality of conductive contacts, the pound line 500 may be the first trace 400. Electrically connected to the second trace 600, a further three-dimensional inductive path can be formed.

請一併參考圖15、圖16、圖17以及圖18,圖15係本發明另一實施例之可調式立體電感元件移除鎊線後的立體示意圖,圖16係圖15之可調式立體電感元件沿B1-B1線的剖面示意圖,圖17係圖15之可調式立體電感元件沿B2-B2線的剖面示意圖,而圖18係圖15之可調式立體電感元件的上視示意圖。本實施例之可調式立體電感元件W2與前述實施例之可調式立體電感元件W1相似之處不再描述,而以下僅針對本實施例與前述實施例之間的不同之處進行詳細說明。如圖所示,本實施例之可調式立體電感元件W2還包括第三走線700,第三走線700係形成於基板100的上表面100S,且第三走線700係電性連接於所述多個導電接點其中的兩個導電接點(例如第三導電接點203)。另外,本實施例之可 調式立體電感元件W2可不具有第二走線600(參圖8)。 Referring to FIG. 15 , FIG. 16 , FIG. 17 and FIG. 18 , FIG. 15 is a perspective view of the adjustable three-dimensional inductor component after removing the pound line according to another embodiment of the present invention, and FIG. 16 is an adjustable stereo inductor of FIG. 15 . FIG. 17 is a schematic cross-sectional view of the adjustable three-dimensional inductor component of FIG. 15 along the line B2-B2, and FIG. 18 is a top view of the adjustable three-dimensional inductor component of FIG. The similarities between the adjustable three-dimensional inductive component W2 of the present embodiment and the adjustable three-dimensional inductive component W1 of the foregoing embodiment are not described, and only the differences between the present embodiment and the foregoing embodiments will be described in detail below. As shown in the figure, the adjustable three-dimensional inductor component W2 of the present embodiment further includes a third trace 700, the third trace 700 is formed on the upper surface 100S of the substrate 100, and the third trace 700 is electrically connected to the Two of the plurality of conductive contacts (eg, the third conductive contact 203). In addition, the embodiment can The modulated three-dimensional inductive component W2 may not have the second trace 600 (see FIG. 8).

第三走線700與導電接點(例如第一導電接點201以及第三導電接點203)係由同一導電層所構成。如圖16所示,基板100的上表面100S可先形成一導電層(圖未繪示),接著,可圖形化此導電層,其中圖形化的導電層的一部分可作為第三走線700,而圖形化的導電層的另一部分可作為導電接點,所述導電層的圖案是所屬技術領域具有通常知識者可以依據實際的使用需求逕行設計。第三走線700之兩端可接觸於所述多個導電接點其中的兩個第三導電接點203,以完成電性連接。 The third trace 700 and the conductive contacts (eg, the first conductive contact 201 and the third conductive contact 203) are composed of the same conductive layer. As shown in FIG. 16, the upper surface 100S of the substrate 100 may first form a conductive layer (not shown). Then, the conductive layer may be patterned, wherein a portion of the patterned conductive layer may serve as the third trace 700. Another portion of the patterned conductive layer can serve as a conductive contact. The pattern of the conductive layer is generally known to those skilled in the art and can be designed according to actual use requirements. Both ends of the third trace 700 may contact two of the plurality of conductive contacts to complete the electrical connection.

第三走線700具有長條形狀,且第三走線700可由例如金屬材料、合金材料、導電高分子材料或上述材料之組合沉積單層或複數層導電材料所構成。另外,第三走線700之形狀與尺寸是所屬技術領域具有通常知識者可以依據實際的使用情況需求逕行設計,故本發明之實施例在此不加以限制。 The third trace 700 has a strip shape, and the third trace 700 may be formed of, for example, a metal material, an alloy material, a conductive polymer material, or a combination of the above materials to deposit a single layer or a plurality of layers of conductive material. In addition, the shape and size of the third routing 700 are generally applicable to those skilled in the art, and the embodiments of the present invention are not limited herein.

值得一提的是,於本實施例中,可調式立體電感元件W2包括有多個第一走線400以及多個第三走線700。多個第一走線400其中的各個第一走線400之間係相互並排,多個第三走線700其中的各個第三走線700之間亦係相互並排。第一走線400與第三走線700不互相重疊,也就是說,第一走線400於上表面100S的投影與第三走線700於上表面100S的投影不互相重疊。另外,如圖17所示,第一走線400與第三走線700之間能以基板100的結構相隔離。 It is to be noted that, in this embodiment, the adjustable three-dimensional inductor component W2 includes a plurality of first traces 400 and a plurality of third traces 700. Each of the plurality of first traces 400 is arranged side by side with each other, and each of the plurality of third traces 700 is also arranged side by side with each other. The first trace 400 and the third trace 700 do not overlap each other, that is, the projection of the first trace 400 on the upper surface 100S and the projection of the third trace 700 on the upper surface 100S do not overlap each other. In addition, as shown in FIG. 17, the first trace 400 and the third trace 700 can be isolated from each other by the structure of the substrate 100.

一對第三導電接點203係分別連接於第三走線700的兩端部。如圖18所示,第一導電接點201呈兩排直線而配置,第三導電接點203也呈兩排直線而配置,而第一導電接點201與第三導電接點203係交錯配置。 A pair of third conductive contacts 203 are respectively connected to both end portions of the third trace 700. As shown in FIG. 18, the first conductive contact 201 is arranged in two rows of straight lines, and the third conductive contact 203 is also arranged in two rows of straight lines, and the first conductive contact 201 and the third conductive contact 203 are alternately arranged. .

請一併參考圖19、圖20以及圖21,圖19係本發明另一實施例之可調式立體電感元件的立體示意圖,圖20係圖19之可調式 立體電感元件沿B3-B3線的剖面示意圖,而圖21係圖19之可調式立體電感元件的上視示意圖。本實施例之可調式立體電感元件W2與前述實施例之可調式立體電感元件W1相似之處不再描述,而以下僅針對本實施例與前述實施例之間的不同之處進行詳細說明。參考圖20,當一鎊線500兩端接合於所述多個導電接點其中的兩個導電接點201、203之間時,鎊線500可將第一走線400電性連接至第三走線700,以線形成一立體電感路徑。 Please refer to FIG. 19, FIG. 20 and FIG. 21 together. FIG. 19 is a perspective view of an adjustable three-dimensional inductor component according to another embodiment of the present invention, and FIG. 20 is a schematic diagram of FIG. A schematic cross-sectional view of the three-dimensional inductor component along the line B3-B3, and FIG. 21 is a top view of the adjustable three-dimensional inductor component of FIG. The similarities between the adjustable three-dimensional inductive component W2 of the present embodiment and the adjustable three-dimensional inductive component W1 of the foregoing embodiment are not described, and only the differences between the present embodiment and the foregoing embodiments will be described in detail below. Referring to FIG. 20, when both ends of a pound line 500 are bonded between two conductive contacts 201, 203 of the plurality of conductive contacts, the pound line 500 can electrically connect the first trace 400 to the third Trace 700 lines form a three-dimensional inductive path.

參考圖21,當多條鎊線500其中的每一條鎊線500的一端接合於一第一導電接點201,而鎊線500的另一端接合於一第三導電接點203,可將第一走線400電性連接至第三走線700,形成一個連續立體電感路徑。前述任一立體電感路徑即可實現本發明實施例之可調式立體電感元件W2。舉例而言,每一條鎊線500可對角線地接合於第一導電接點201對與相鄰的第三導電接點203對之間。圖15至圖18以及圖19至圖21中的其餘製程細節如圖1至圖5、圖6至圖9以及圖10至圖14所述,本技術領域具有通常知識者應可輕易推知其實施方式,在此不加贅述。 Referring to FIG. 21, when one end of each of the plurality of pound lines 500 is joined to a first conductive contact 201, and the other end of the pound line 500 is joined to a third conductive contact 203, the first The trace 400 is electrically connected to the third trace 700 to form a continuous three-dimensional inductance path. The adjustable three-dimensional inductor component W2 of the embodiment of the invention can be implemented by any of the foregoing three-dimensional inductor paths. For example, each pound line 500 can be diagonally joined between a pair of first conductive contacts 201 and a pair of adjacent third conductive contacts 203. The remaining process details in FIGS. 15 to 18 and FIGS. 19 to 21 are as described in FIGS. 1 to 5, 6 to 9, and 10 to 14, and those skilled in the art can easily infer the implementation thereof. The way is not mentioned here.

以上所述僅為本發明的實施例,其並非用以限定本發明的專利保護範圍。任何熟習相像技藝者,在不脫離本發明的精神與範圍內,所作的更動及潤飾的等效替換,仍為本發明的專利保護範圍內。 The above is only an embodiment of the present invention, and is not intended to limit the scope of the invention. It is still within the scope of patent protection of the present invention to make any substitutions and modifications of the modifications made by those skilled in the art without departing from the spirit and scope of the invention.

W1‧‧‧可調式立體電感元件 W1‧‧‧Adjustable Stereo Inductive Components

100‧‧‧基板 100‧‧‧Substrate

100S‧‧‧基板的上表面 100S‧‧‧ upper surface of the substrate

101‧‧‧基底 101‧‧‧Base

102‧‧‧第一電路層 102‧‧‧First circuit layer

104‧‧‧第二電路層 104‧‧‧Second circuit layer

106‧‧‧第三電路層 106‧‧‧ third circuit layer

1022P‧‧‧接墊 1022P‧‧‧ pads

103‧‧‧第一襯層 103‧‧‧First lining

105‧‧‧第二襯層 105‧‧‧Second lining

107‧‧‧第三襯層 107‧‧‧ Third lining

201‧‧‧第一導電接點 201‧‧‧First conductive contact

202‧‧‧第二導電接點 202‧‧‧Second conductive contacts

301‧‧‧第一導電件 301‧‧‧First conductive parts

400‧‧‧第一走線 400‧‧‧ first line

500‧‧‧鎊線 500‧‧ ‧ pound line

Claims (10)

一種可調式立體電感元件,包括:一基板,具有一上表面;多個導電接點,係形成於該上表面;多個導電件,係埋設於該基板內,且各該導電件係電性連接於該些導電接點其中之一;一第一走線,係埋設於該基板內,且該第一走線係電性連接於該些導電件其中的兩導電件;一第二走線,該第二走線係埋設於該基板內,且該第二走線係電性連接於該些導電件其中的兩導電件;以及一鎊線,該鎊線兩端係接合於該些導電接點其中的兩導電接點之間,以形成一立體電感路徑。 An adjustable three-dimensional inductor component comprises: a substrate having an upper surface; a plurality of conductive contacts formed on the upper surface; a plurality of conductive members embedded in the substrate, and each of the conductive members is electrically Connected to one of the conductive contacts; a first trace is embedded in the substrate, and the first trace is electrically connected to the two conductive members of the conductive members; a second trace The second trace is embedded in the substrate, and the second trace is electrically connected to the two conductive members of the conductive members; and a pound line, the two ends of the pound line are bonded to the conductive The two conductive contacts are connected to each other to form a three-dimensional inductance path. 如請求項1所述之可調式立體電感元件,其中該第一走線與該第二走線係埋設於該基板的不同層。 The adjustable three-dimensional inductor component of claim 1, wherein the first trace and the second trace are embedded in different layers of the substrate. 如請求項2所述之可調式立體電感元件,其中該第一走線與該第二走線不互相重疊。 The adjustable three-dimensional inductor component of claim 2, wherein the first trace and the second trace do not overlap each other. 如請求項1所述之可調式立體電感元件,其中該第一走線係電性連接於該些導電件其中的兩第一導電件,且該第一走線係分別透過該兩第一導電件電性連接至該些導電接點其中的兩第一導電接點,該鎊線一端係接合於該兩第一導電接點之一。 The adjustable three-dimensional inductor component of claim 1, wherein the first trace is electrically connected to the two first conductive members of the conductive members, and the first trace is respectively transmitted through the two first conductive The first electrical contact is electrically connected to one of the conductive contacts, and one end of the pound wire is bonded to one of the two first conductive contacts. 如請求項4所述之可調式立體電感元件,其中該第二走線係電性連接於該些導電件其中的兩第二導電件,且該第二走線係分別透過該兩第二導電件電性連接至該些導電接點其中的兩第二導電接點,該鎊線另一端係接合於該兩第二導電接點之一。 The adjustable three-dimensional inductor component of claim 4, wherein the second trace is electrically connected to the two second conductive members of the conductive members, and the second trace is respectively transmitted through the two second conductive The second electrical contact is electrically connected to one of the conductive contacts, and the other end of the pound wire is bonded to one of the two second conductive contacts. 如請求項1所述之可調式立體電感元件,更包括一第三走線,係形成於該基板的該上表面,且該第三走線係電性連接於該 些導電接點其中的兩導電接點,其中當該鎊線兩端接合於該些導電接點其中的兩導電接點之間時,該鎊線將該第一走線電性連接至該第三走線,以形成該立體電感路徑。 The adjustable three-dimensional inductor component of claim 1, further comprising a third trace formed on the upper surface of the substrate, and the third trace is electrically connected to the The two conductive contacts of the conductive contacts, wherein when the two ends of the pound line are joined between the two conductive contacts of the conductive contacts, the pound line electrically connects the first trace to the first Three traces are formed to form the three-dimensional inductance path. 如請求項6所述之可調式立體電感元件,其中該第一走線與該第三走線不互相重疊。 The adjustable three-dimensional inductor component of claim 6, wherein the first trace and the third trace do not overlap each other. 如請求項6所述之可調式立體電感元件,其中該第一走線係電性連接於該些導電件其中的兩第一導電件,且該第一走線係分別透過該兩第一導電件電性連接至該些導電接點其中的兩第一導電接點,而該第三走線係電性連接於該些導電接點其中的兩第三導電接點,該鎊線一端係接合於該兩第一導電接點之一,而該鎊線另一端係接合於該兩第三導電接點之一。 The adjustable three-dimensional inductor component of claim 6, wherein the first trace is electrically connected to the two first conductive members of the conductive members, and the first trace is respectively transmitted through the two first conductive The first wire is electrically connected to the two first conductive contacts of the conductive contacts, and the third wire is electrically connected to the two third conductive contacts of the conductive contacts. And one of the two first conductive contacts, and the other end of the pound line is bonded to one of the two third conductive contacts. 如請求項1所述之可調式立體電感元件,其中該基板為選自下列其中至少之一:半導體基板、印刷電路板以及陶瓷基板。 The tunable three-dimensional inductor component of claim 1, wherein the substrate is at least one selected from the group consisting of a semiconductor substrate, a printed circuit board, and a ceramic substrate. 一種可調式立體電感元件,包括一基板,具有一上表面;多個導電接點,係形成於該上表面;多個導電件,係埋設於該基板內,且各該導電件係電性連接於該些導電接點其中之一;多個第一走線,係埋設於該基板內,且各該第一走線係電性連接於該些導電件其中的兩導電件;多個第二走線,係埋設於該基板內,且各該第二走線係電性連接於該些導電件其中的兩導電件;以及多個鎊線,各該鎊線兩端係接合於該些導電接點其中的兩導電接點之間,以形成一立體電感路徑。 An adjustable three-dimensional inductor component includes a substrate having an upper surface; a plurality of conductive contacts are formed on the upper surface; a plurality of conductive members are embedded in the substrate, and each of the conductive members is electrically connected One of the conductive contacts; the plurality of first traces are embedded in the substrate, and each of the first traces is electrically connected to the two conductive members of the conductive members; The wires are embedded in the substrate, and each of the second traces is electrically connected to the two conductive members of the conductive members; and a plurality of pound wires, each of which is coupled to the conductive wires The two conductive contacts are connected to each other to form a three-dimensional inductance path.
TW102143909A 2013-11-29 2013-11-29 Tunable three dimentional inductor TWI549145B (en)

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Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TW424308B (en) * 1999-07-05 2001-03-01 Subtron Technology Co Ltd Substrate structure for chip packaging and the processing method
TW506045B (en) * 2000-08-14 2002-10-11 Megic Corp Method for forming high performance system-on-chip using post passivation process
TWI342598B (en) * 2004-04-28 2011-05-21 Megica Corp High performance system-on-chip passive device using post passivation process

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TW424308B (en) * 1999-07-05 2001-03-01 Subtron Technology Co Ltd Substrate structure for chip packaging and the processing method
TW506045B (en) * 2000-08-14 2002-10-11 Megic Corp Method for forming high performance system-on-chip using post passivation process
TWI342598B (en) * 2004-04-28 2011-05-21 Megica Corp High performance system-on-chip passive device using post passivation process

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