TWI669796B - Fan-out semiconductor package - Google Patents
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- TWI669796B TWI669796B TW107113855A TW107113855A TWI669796B TW I669796 B TWI669796 B TW I669796B TW 107113855 A TW107113855 A TW 107113855A TW 107113855 A TW107113855 A TW 107113855A TW I669796 B TWI669796 B TW I669796B
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L23/00—Details of semiconductor or other solid state devices
- H01L23/28—Encapsulations, e.g. encapsulating layers, coatings, e.g. for protection
- H01L23/31—Encapsulations, e.g. encapsulating layers, coatings, e.g. for protection characterised by the arrangement or shape
- H01L23/3107—Encapsulations, e.g. encapsulating layers, coatings, e.g. for protection characterised by the arrangement or shape the device being completely enclosed
- H01L23/3114—Encapsulations, e.g. encapsulating layers, coatings, e.g. for protection characterised by the arrangement or shape the device being completely enclosed the device being a chip scale package, e.g. CSP
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06V—IMAGE OR VIDEO RECOGNITION OR UNDERSTANDING
- G06V40/00—Recognition of biometric, human-related or animal-related patterns in image or video data
- G06V40/10—Human or animal bodies, e.g. vehicle occupants or pedestrians; Body parts, e.g. hands
- G06V40/12—Fingerprints or palmprints
- G06V40/13—Sensors therefor
- G06V40/1306—Sensors therefor non-optical, e.g. ultrasonic or capacitive sensing
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L23/00—Details of semiconductor or other solid state devices
- H01L23/48—Arrangements for conducting electric current to or from the solid state body in operation, e.g. leads, terminal arrangements ; Selection of materials therefor
- H01L23/488—Arrangements for conducting electric current to or from the solid state body in operation, e.g. leads, terminal arrangements ; Selection of materials therefor consisting of soldered or bonded constructions
- H01L23/498—Leads, i.e. metallisations or lead-frames on insulating substrates, e.g. chip carriers
- H01L23/49811—Additional leads joined to the metallisation on the insulating substrate, e.g. pins, bumps, wires, flat leads
- H01L23/49816—Spherical bumps on the substrate for external connection, e.g. ball grid arrays [BGA]
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L23/00—Details of semiconductor or other solid state devices
- H01L23/48—Arrangements for conducting electric current to or from the solid state body in operation, e.g. leads, terminal arrangements ; Selection of materials therefor
- H01L23/488—Arrangements for conducting electric current to or from the solid state body in operation, e.g. leads, terminal arrangements ; Selection of materials therefor consisting of soldered or bonded constructions
- H01L23/498—Leads, i.e. metallisations or lead-frames on insulating substrates, e.g. chip carriers
- H01L23/49827—Via connections through the substrates, e.g. pins going through the substrate, coaxial cables
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L23/00—Details of semiconductor or other solid state devices
- H01L23/52—Arrangements for conducting electric current within the device in operation from one component to another, i.e. interconnections, e.g. wires, lead frames
- H01L23/522—Arrangements for conducting electric current within the device in operation from one component to another, i.e. interconnections, e.g. wires, lead frames including external interconnections consisting of a multilayer structure of conductive and insulating layers inseparably formed on the semiconductor body
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L24/00—Arrangements for connecting or disconnecting semiconductor or solid-state bodies; Methods or apparatus related thereto
- H01L24/01—Means 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
- H01L24/18—High density interconnect [HDI] connectors; Manufacturing methods related thereto
- H01L24/23—Structure, shape, material or disposition of the high density interconnect connectors after the connecting process
- H01L24/24—Structure, shape, material or disposition of the high density interconnect connectors after the connecting process of an individual high density interconnect connector
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L2224/00—Indexing scheme for arrangements for connecting or disconnecting semiconductor or solid-state bodies and methods related thereto as covered by H01L24/00
- H01L2224/01—Means 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
- H01L2224/02—Bonding areas; Manufacturing methods related thereto
- H01L2224/04—Structure, shape, material or disposition of the bonding areas prior to the connecting process
- H01L2224/04105—Bonding areas formed on an encapsulation of the semiconductor or solid-state body, e.g. bonding areas on chip-scale packages
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L2224/00—Indexing scheme for arrangements for connecting or disconnecting semiconductor or solid-state bodies and methods related thereto as covered by H01L24/00
- H01L2224/01—Means 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
- H01L2224/10—Bump connectors; Manufacturing methods related thereto
- H01L2224/12—Structure, shape, material or disposition of the bump connectors prior to the connecting process
- H01L2224/12105—Bump connectors formed on an encapsulation of the semiconductor or solid-state body, e.g. bumps on chip-scale packages
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L2224/00—Indexing scheme for arrangements for connecting or disconnecting semiconductor or solid-state bodies and methods related thereto as covered by H01L24/00
- H01L2224/01—Means 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
- H01L2224/18—High density interconnect [HDI] connectors; Manufacturing methods related thereto
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- Engineering & Computer Science (AREA)
- Microelectronics & Electronic Packaging (AREA)
- Computer Hardware Design (AREA)
- Power Engineering (AREA)
- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Condensed Matter Physics & Semiconductors (AREA)
- Human Computer Interaction (AREA)
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- Production Of Multi-Layered Print Wiring Board (AREA)
Abstract
本發明提供一種扇出型半導體封裝,包括:第一連接構件,具有貫穿孔;半導體晶片,配置於第一連接構件的貫穿孔中,並具有主動面及與所述主動面相對的非主動面,主動面上配置有連接墊;包封體,包覆第一連接構件的至少部分及半導體晶片的至少部分;以及第二連接構件,配置於第一連接構件及半導體晶片上。第一連接構件及第二連接構件分別包括第一重佈線層及第二重佈線層,第一重佈線層及第二重佈線層電性連接至連接墊並由一個層或多個層形成,第一重佈線層中的至少一者配置於第一連接構件的多個絕緣層之間,且第二重佈線層包括辨識指紋的感應器圖案。The present invention provides a fan-out type semiconductor package, comprising: a first connecting member having a through hole; and a semiconductor wafer disposed in the through hole of the first connecting member and having an active surface and an inactive surface opposite to the active surface The active surface is provided with a connection pad; an encapsulation covering at least a portion of the first connection member and at least a portion of the semiconductor wafer; and a second connection member disposed on the first connection member and the semiconductor wafer. The first connecting member and the second connecting member respectively comprise a first redistribution layer and a second redistribution layer, and the first redistribution layer and the second redistribution layer are electrically connected to the connection pad and formed by one layer or a plurality of layers, At least one of the first redistribution layers is disposed between the plurality of insulating layers of the first connection member, and the second redistribution layer includes a sensor pattern that recognizes the fingerprint.
Description
本申請案主張於2016年8月22日在韓國智慧財產局提出申請的韓國專利申請案第10-2016-0106218號的優先權以及於2016年10月21日在韓國智慧財產局提出申請的韓國專利申請案第10-2016-0137663號的優先權,所述各韓國專利申請案的揭露內容全文併入本案供參考。This application claims the priority of Korean Patent Application No. 10-2016-0106218 filed on the Korean Intellectual Property Office on August 22, 2016, and Korea filed on October 21, 2016 at the Korea Intellectual Property Office. The priority of the patent application No. 10-2016-0137663, the entire disclosure of each of which is incorporated herein by reference.
本揭露是關於一種扇出型半導體封裝,特定而言,是關於一種具有指紋辨識功能的扇出型半導體封裝。The present disclosure relates to a fan-out type semiconductor package, and more particularly to a fan-out type semiconductor package having a fingerprint recognition function.
近來,半導體晶片相關技術發展中的重要趨勢為減小半導體晶片的尺寸。因此,在封裝技術領域中,隨著對小型尺寸半導體晶片等的需求的快速增加,已經需要實現同時包括多個引腳的小型尺寸半導體封裝。Recently, an important trend in the development of semiconductor wafer related technology has been to reduce the size of semiconductor wafers. Therefore, in the field of packaging technology, with the rapid increase in demand for small-sized semiconductor wafers and the like, it has been required to realize a small-sized semiconductor package including a plurality of leads at the same time.
扇出型封裝即為一種滿足上述技術需求而提出的封裝技術。此種扇出型封裝具有小型的尺寸,並可藉由朝向配置有半導體晶片的區域之外對連接端子進行重新佈線而實現多個引腳。The fan-out package is a packaging technology that meets the needs of the above technology. Such a fan-out type package has a small size, and a plurality of pins can be realized by rewiring a connection terminal in a direction other than a region where a semiconductor wafer is disposed.
本揭露的一個態樣可提供一種具有指紋辨識功能的超小型、超薄化扇出型半導體封裝。One aspect of the present disclosure provides an ultra-small, ultra-thin fan-out type semiconductor package having a fingerprint recognition function.
根據本揭露的一個態樣,可提供一種扇出型半導體封裝,其中第一連接構件被導入,第一連接構件具有貫穿孔及多個重佈線層,貫穿孔中有半導體晶片配置,所述多個重佈線層在第一連接構件中形成,第二連接構件被導入至半導體晶片及第一連接構件,第二連接構件包括重佈線層,重佈線層包括感應器圖案(sensor pattern),感應器圖案實施高靈敏度指紋辨識功能。According to an aspect of the present disclosure, a fan-out type semiconductor package can be provided, wherein a first connection member is introduced, the first connection member has a through hole and a plurality of redistribution layers, and the through hole has a semiconductor wafer configuration, the plurality of The redistribution layer is formed in the first connection member, the second connection member is introduced to the semiconductor wafer and the first connection member, the second connection member includes a redistribution layer, and the redistribution layer includes a sensor pattern, the inductor The pattern implements high sensitivity fingerprint recognition.
根據本揭露的一個態樣,扇出型半導體封裝可包括:第一連接構件,具有貫穿孔;半導體晶片,配置於第一連接構件的貫穿孔中,並具有主動面及與所述主動面相對的非主動面,主動面上配置有連接墊;包封體,包封第一連接構件的至少部分及半導體晶片的至少部分,包封體填入半導體晶片與第一連接構件之貫穿孔的側面之間的區域;以及第二連接構件,配置於第一連接構件及半導體晶片上。第一連接構件及第二連接構件分別包括電性連接至連接墊且由一個或多個層形成的第一重佈線層及第二重佈線層,第一重佈線層中的至少一者配置於組成第一連接構件的多個絕緣層之間,且第二重佈線層中的至少一者包括辨識指紋的感應器圖案。According to an aspect of the disclosure, a fan-out type semiconductor package may include: a first connection member having a through hole; and a semiconductor wafer disposed in the through hole of the first connection member and having an active surface and opposite to the active surface a non-active surface, the active surface is provided with a connection pad; an encapsulation body enclosing at least a portion of the first connection member and at least a portion of the semiconductor wafer, the encapsulation body filling the side of the through hole of the semiconductor wafer and the first connection member And a second connecting member disposed on the first connecting member and the semiconductor wafer. The first connecting member and the second connecting member respectively include a first redistribution layer and a second redistribution layer electrically connected to the connection pad and formed of one or more layers, at least one of the first redistribution layers being disposed on Between the plurality of insulating layers constituting the first connecting member, and at least one of the second redistributing layers includes a sensor pattern for recognizing the fingerprint.
在下文中,將參照所附圖式說明本發明中的各例示性實施例。在所附圖式中,為清晰起見,可誇大或縮小各組件的形狀、尺寸等。Hereinafter, each exemplary embodiment of the present invention will be described with reference to the drawings. In the drawings, the shapes, dimensions, and the like of the various components may be exaggerated or reduced for clarity.
本文中所使用的用語「例示性實施例」並不指代同一例示性實施例,而是為強調與另一例示性實施例的特定特徵或特性不同的特定特徵或特性而提供。然而,本文中所提供的例示性實施例被視為能夠藉由彼此整體地或部分地組合而實施。舉例而言,即使並未在另一例示性實施例中說明在特定例示性實施例中說明的一個元件,然而除非在另一例示性實施例中提供了相反或矛盾的說明,否則所述元件亦可被理解為與另一例示性實施例相關的說明。The term "exemplary embodiment", as used herein, is not intended to refer to the same exemplary embodiments, but rather to the particular features or characteristics that are different from the specific features or characteristics of another exemplary embodiment. However, the exemplary embodiments provided herein are considered to be capable of being implemented in combination, in whole or in part, with each other. For example, an element that is illustrated in a particular exemplary embodiment is not illustrated in another exemplary embodiment, unless the opposite or contradictory description is provided in another exemplary embodiment. It can also be understood as a description related to another exemplary embodiment.
在說明書中組件與另一組件的「連接」的意義包括經由第三組件的間接連接以及在兩個組件之間的直接連接。另外,「電性連接」意為包括物理連接及物理斷接的概念。應理解,當以「第一」及「第二」來指代元件時,所述元件並非由此受到限制。使用「第一」及「第二」可能僅用於將所述元件與其他元件區分開的目的,且可不限制所述元件的順序或重要性。在一些情況下,在不背離本文中所提出的申請專利範圍的條件下,第一元件可被稱作第二元件。相似地,第二元件亦可被稱作第一元件。The meaning of "connected" to another component in the specification includes the indirect connection via the third component and the direct connection between the two components. In addition, "electrical connection" means the concept of physical connection and physical disconnection. It will be understood that when the elements are referred to as "first" and "second", the elements are not limited thereby. The use of "first" and "second" may be used only for the purpose of distinguishing the elements from the other elements and may not limit the order or importance of the elements. In some cases, a first element could be termed a second element without departing from the scope of the invention as set forth herein. Similarly, the second element may also be referred to as a first element.
在本文中,所附圖式中說明上部分、下部分、上側、下側、上表面、下表面等。舉例而言,第一連接構件配置在高於重佈線層的水平高度。然而,本申請專利範圍不以此為限。另外,垂直方向指代上述向上方向及向下方向,且水平方向指代與上述向上方向及向下方向垂直的方向。在此情況下,垂直截面意指沿垂直方向上的平面截取的情形,且垂直截面的實例可為圖式中所示的剖視圖。此外,水平截面指代沿水平方向上的平面截取的情形,且水平截面的實例可為圖式中所示的平面圖。Herein, the upper portion, the lower portion, the upper side, the lower side, the upper surface, the lower surface, and the like are illustrated in the drawings. For example, the first connecting member is disposed at a level higher than that of the redistribution layer. However, the scope of the patent application is not limited thereto. In addition, the vertical direction refers to the upward direction and the downward direction, and the horizontal direction refers to a direction perpendicular to the upward direction and the downward direction. In this case, the vertical cross section means a case taken along a plane in the vertical direction, and an example of the vertical cross section may be a cross-sectional view shown in the drawing. Further, the horizontal section refers to a case of taking a plane in the horizontal direction, and an example of the horizontal section may be a plan view shown in the drawing.
使用本文中所使用的用語僅為了說明例示性實施例而非限制本發明。在此情況下,除非在上下文中另有解釋,否則單數形式包括多數形式。電子裝置 The terms used herein are for illustrative purposes only and are not limiting of the invention. In this case, the singular forms include the plural forms unless otherwise indicated in the context. Electronic device
圖1為說明電子裝置系統實施例的方塊示意圖。1 is a block diagram showing an embodiment of an electronic device system.
參照圖1,電子裝置1000中可容置有主板1010。主板1010可包括物理連接或電連接至其的晶片相關組件1020、網路相關組件1030以及其他組件1040等。這些組件可連接至以下將說明的其他組件,以形成各種訊號線1090。Referring to FIG. 1 , a motherboard 1010 can be housed in the electronic device 1000 . The motherboard 1010 can include a wafer related component 1020, a network related component 1030, and other components 1040, etc. that are physically or electrically connected thereto. These components can be connected to other components as will be described below to form various signal lines 1090.
晶片相關組件1020可包括:記憶體晶片,例如揮發性記憶體(例如動態隨機存取記憶體(dynamic random access memory,DRAM))、非揮發性記憶體(例如唯讀記憶體(read only memory,ROM))、快閃記憶體等;應用處理器晶片,例如中央處理器(例如,中央處理單元(central processing unit,CPU))、圖形處理器(例如,圖形處理單元(graphic processing unit,GPU))、數位訊號處理器、密碼處理器(cryptographic processor)、微處理器、微控制器等;及邏輯晶片,例如類比至數位轉換器(analog-to-digital converter,ADC)、應用專用積體電路(application-specific integrated circuit,ASIC)等。然而,晶片相關組件1020不以此為限,而是亦可包括其他類型的晶片相關組件。另外,晶片相關組件1020可彼此組合。The wafer related component 1020 may include: a memory chip such as a volatile memory (such as a dynamic random access memory (DRAM)), and a non-volatile memory (such as a read only memory (read only memory). ROM)), flash memory, etc.; application processor chips, such as a central processing unit (eg, a central processing unit (CPU)), a graphics processor (eg, a graphics processing unit (GPU)) ), digital signal processor, cryptographic processor, microprocessor, microcontroller, etc.; and logic chips, such as analog-to-digital converters (ADCs), application-specific integrated circuits (application-specific integrated circuit, ASIC) and the like. However, wafer related component 1020 is not limited thereto, but may include other types of wafer related components. Additionally, wafer related components 1020 can be combined with each other.
網路相關組件1030可包括例如以下協定:無線保真(wireless fidelity,Wi-Fi)(電氣及電子工程師學會(Institute of Electrical And Electronics Engineers,IEEE)802.11家族等)、全球互通微波存取(worldwide interoperability for microwave access,WiMAX)(IEEE 802.16家族等)、IEEE 802.20、長期演進(long term evolution,LTE)、僅支援資料的演進(evolution data only,Ev-DO)、高速封包存取+(high speed packet access +,HSPA+)、高速下行封包存取+(high speed downlink packet access +,HSDPA+)、高速上行封包存取+(high speed uplink packet access +,HSUPA+)、增強型資料GSM環境(enhanced data GSM environment,EDGE)、全球行動通訊系統(global system for mobile communications,GSM)、全球定位系統(global positioning system,GPS)、通用封包無線電服務(general packet radio service,GPRS)、分碼多重存取(code division multiple access,CDMA)、分時多重存取(time division multiple access,TDMA)、數位增強型無線電訊(digital enhanced cordless telecommunications,DECT)、藍芽、3G協定、4G協定、5G協定以及繼上述協定之後指定的任何其他無線協定及有線協定。然而,網路相關組件1030不以此為限,而亦可包括多種其他無線標準或協定或者有線標準或協定。另外,網路相關組件1030可與上述的晶片相關組件1020一起彼此組合。Network related components 1030 may include, for example, the following protocols: wireless fidelity (Wi-Fi) (Institute of Electrical And Electronics Engineers (IEEE) 802.11 family, etc.), global interoperability microwave access (worldwide) Interoperability for microwave access (WiMAX) (IEEE 802.16 family, etc.), IEEE 802.20, long term evolution (LTE), evolution data only (Ev-DO), high speed packet access + (high speed Packet access +, HSPA+), high speed downlink packet access + (HSDPA+), high speed uplink packet access + (HSUPA+), enhanced data GSM environment (enhanced data GSM) Environment, EDGE), global system for mobile communications (GSM), global positioning system (GPS), general packet radio service (GPRS), code division multiple access (code) Division multiple access, CDMA), Time division multiple access (TDMA), digital enhanced cordless telecommunications (DECT), Bluetooth, 3G, 4G, 5G, and any other wireless agreement specified after the agreement And cable agreements. However, network related component 1030 is not limited thereto, but may include a variety of other wireless standards or protocols or wired standards or protocols. Additionally, network related components 1030 can be combined with one another as described above with wafer related components 1020.
其他組件1040可包括高頻電感器、鐵氧體電感器(ferrite inductor)、功率電感器(power inductor)、鐵氧體珠粒(ferrite bead)、低溫共燒陶瓷(low temperature co-fired ceramic;LTCC)、電磁干擾(electromagnetic interference;EMI)濾波器、多層陶瓷電容器(multilayer ceramic capacitor;MLCC)或其組合等。然而,其他組件1040不以此為限,而亦可包括用於各種其他目的的被動組件等。另外,其他組件1040可與上述晶片相關組件1020或網路相關組件1030一起彼此組合。Other components 1040 can include a high frequency inductor, a ferrite inductor, a power inductor, a ferrite bead, a low temperature co-fired ceramic; LTCC), electromagnetic interference (EMI) filter, multilayer ceramic capacitor (MLCC), or a combination thereof. However, other components 1040 are not limited thereto, and may include passive components and the like for various other purposes. Additionally, other components 1040 can be combined with one another as described above with wafer related component 1020 or network related component 1030.
視電子裝置1000的類型,電子裝置1000可包括可物理連接或電性連接至主板1010的其他組件,或是可不物理連接至或不電性連接至主板1010的其他組件。這些其他組件可包括例如照相機模組1050、天線1060、顯示器裝置1070、電池1080、音訊編解碼器(未繪示)、視訊編解碼器(未繪示)、功率放大器(未繪示)、羅盤(未繪示)、加速度計(未繪示)、陀螺儀(未繪示)、揚聲器(未繪示)、大容量儲存單元(例如硬碟驅動機)(未繪示)、光碟(compact disk,CD)驅動機(未繪示)、數位多功能光碟(digital versatile disk,DVD)驅動機(未繪示)等。然而,這些其他組件不以此為限,而是視電子裝置1000的類型等亦可包括各種用途的其他組件。Depending on the type of electronic device 1000, the electronic device 1000 may include other components that may be physically or electrically connected to the motherboard 1010, or other components that may not be physically connected or electrically connected to the motherboard 1010. These other components may include, for example, a camera module 1050, an antenna 1060, a display device 1070, a battery 1080, an audio codec (not shown), a video codec (not shown), a power amplifier (not shown), a compass. (not shown), accelerometer (not shown), gyroscope (not shown), speaker (not shown), large-capacity storage unit (such as hard disk drive) (not shown), compact disk (compact disk) , CD) driver (not shown), digital versatile disk (DVD) driver (not shown), etc. However, these other components are not limited thereto, but may include other components for various purposes depending on the type of the electronic device 1000 and the like.
電子裝置1000可為智慧型電話、個人數位助理(personal digital assistant,PDA)、數位攝影機、數位照相機(digital still camera)、網路系統、電腦、監視器、平板個人電腦(tablet PC)、筆記型個人電腦、隨身型易網機個人電腦(netbook PC)、電視、視訊遊戲機(video game machine)、智慧型手錶或汽車組件等。然而,電子裝置1000不以此為限,且可為處理資料的任何其他電子裝置。The electronic device 1000 can be a smart phone, a personal digital assistant (PDA), a digital camera, a digital still camera, a network system, a computer, a monitor, a tablet PC, and a notebook. Personal computer, portable Internet PC (netbook PC), TV, video game machine, smart watch or car components. However, the electronic device 1000 is not limited thereto, and may be any other electronic device that processes data.
圖2為說明電子裝置一實施例的立體示意圖。2 is a perspective view illustrating an embodiment of an electronic device.
參照圖2,半導體封裝可於上述的電子裝置1000中使用於各種目的。舉例而言,主板1110可容置於智慧型電話1100的本體1101中,且各種電子組件1120可物理連接至或電性連接至主板1110。另外,可物理連接至或電性連接至主板1110的其他組間或可不物理連接至或不電性連接至主板1110的其他組件(例如:相機模組1130)可容置於本體1101中。電子組件1120中的一些電子組件可為晶片相關組件,且半導體封裝100可例如為晶片相關組件之間的應用程式處理器,但不以此為限。所述電子裝置不必僅限於智慧型電話1100,而是可為上述其他電子裝置。半導體封裝 Referring to FIG. 2, a semiconductor package can be used for various purposes in the electronic device 1000 described above. For example, the main board 1110 can be received in the body 1101 of the smart phone 1100, and the various electronic components 1120 can be physically connected or electrically connected to the main board 1110. In addition, other components (eg, camera module 1130) that may be physically connected or electrically connected to the motherboard 1110 or that may not be physically connected or electrically connected to the motherboard 1110 may be housed in the body 1101. Some of the electronic components 1120 may be wafer related components, and the semiconductor package 100 may be, for example, an application processor between the wafer related components, but not limited thereto. The electronic device is not necessarily limited to the smart phone 1100, but may be other electronic devices as described above. Semiconductor package
一般而言,在半導體晶片中整合有許多精密的電路。然而,半導體晶片自身不能充當已完成的半導體產品,且可能因外部物理性或化學性影響而受損。因此,半導體晶片無法單獨使用,但可封裝於電子裝置等之中且在電子裝置等中以封裝狀態使用。In general, many sophisticated circuits are integrated into a semiconductor wafer. However, the semiconductor wafer itself cannot function as a completed semiconductor product and may be damaged by external physical or chemical influences. Therefore, the semiconductor wafer cannot be used alone, but it can be packaged in an electronic device or the like and used in a package state in an electronic device or the like.
此處,在電性連接方面,由於半導體晶片與電子裝置的主板之間存在電路寬度差異而需要半導體封裝。詳言之,半導體晶片的連接墊的尺寸及半導體晶片的連接墊之間的間隔極為精密,但電子裝置中所使用的主板的組件安裝墊的尺寸及主板的組件安裝墊之間的間隔顯著地大於半導體晶片的連接墊的尺寸及間隔。因此,可能難以將半導體晶片直接安裝於主板上,並需要用於緩衝半導體晶片與主板之間的電路寬度差的封裝技術。Here, in terms of electrical connection, a semiconductor package is required due to a difference in circuit width between the semiconductor wafer and the main board of the electronic device. In detail, the size of the connection pads of the semiconductor wafer and the spacing between the connection pads of the semiconductor wafer are extremely precise, but the size of the component mounting pads of the main board used in the electronic device and the interval between the component mounting pads of the main board are remarkably Greater than the size and spacing of the connection pads of the semiconductor wafer. Therefore, it may be difficult to mount the semiconductor wafer directly on the main board, and a packaging technique for buffering a circuit width difference between the semiconductor wafer and the main board is required.
視半導體封裝的結構及目的,封裝技術所製造的半導體封裝可分類為扇入型半導體封裝或扇出型半導體封裝。Depending on the structure and purpose of the semiconductor package, the semiconductor package fabricated by the package technology can be classified into a fan-in type semiconductor package or a fan-out type semiconductor package.
將在下文中參照圖式更詳細地說明扇入型半導體封裝及扇出型半導體封裝。扇入型半導體封裝 The fan-in type semiconductor package and the fan-out type semiconductor package will be described in more detail below with reference to the drawings. Fan-in semiconductor package
圖3A及圖3B為說明扇入型半導體封裝在封裝前及封裝後狀態的剖視示意圖。3A and 3B are cross-sectional views illustrating a state of a fan-in type semiconductor package before and after packaging.
圖4為說明扇入型半導體封裝的封裝製程的剖視示意圖。4 is a cross-sectional view showing a packaging process of a fan-in type semiconductor package.
參照圖式,半導體晶片2220可為例如處於裸露狀態下的積體電路(integrated circuit,IC),半導體晶片2220包括:本體2221,包括矽(Si)、鍺(Ge)、砷化鎵(GaAs)等;連接墊2222,形成於本體2221的一個表面上且包括例如鋁(Al)等導電材料;以及鈍化層2223,例如為氧化物膜或氮化物膜等,且形成於本體2221的一個表面上,並覆蓋連接墊2222的至少部分。在此情況下,由於連接墊2222顯著地在尺寸上是小的,因此難以將積體電路(IC)安裝於中級印刷電路板(printed circuit board,PCB)上以及電子裝置的主板等上。Referring to the drawings, the semiconductor wafer 2220 may be, for example, an integrated circuit (IC) in a bare state, and the semiconductor wafer 2220 includes: a body 2221 including germanium (Si), germanium (Ge), gallium arsenide (GaAs). And a connection pad 2222 formed on one surface of the body 2221 and including a conductive material such as aluminum (Al); and a passivation layer 2223, such as an oxide film or a nitride film, etc., and formed on one surface of the body 2221 And covering at least a portion of the connection pad 2222. In this case, since the connection pad 2222 is remarkably small in size, it is difficult to mount the integrated circuit (IC) on a printed circuit board (PCB) and a motherboard or the like of the electronic device.
因此,連接構件2240可視半導體晶片2220的尺寸而在半導體晶片2220上形成,以對連接墊2222進行重新佈線。可藉由以下步驟來形成連接構件2240:利用例如感光成像介電(photoimagable dielectric,PID)樹脂等絕緣材料在半導體晶片2220上形成絕緣層2241;形成露出連接墊2222的導通孔孔洞2243h;並接著形成佈線圖案2242及導通孔2243。接著,可形成保護連接構件2240的鈍化層2250,可形成開口2251及可形成凸塊下金屬層2260等。亦即,可藉由一系列製程來製造包括例如半導體晶片2220、連接構件2240、鈍化層2250、及凸塊下金屬層2260的扇入型半導體封裝2200。Accordingly, the connection member 2240 can be formed on the semiconductor wafer 2220 depending on the size of the semiconductor wafer 2220 to rewire the connection pads 2222. The connecting member 2240 can be formed by forming an insulating layer 2241 on the semiconductor wafer 2220 using an insulating material such as a photosensitive dielectric (PID) resin; forming a via hole 2243h exposing the connection pad 2222; and then A wiring pattern 2242 and a via hole 2243 are formed. Next, a passivation layer 2250 that protects the connection member 2240 may be formed, an opening 2251 may be formed, and an under bump metal layer 2260 or the like may be formed. That is, the fan-in type semiconductor package 2200 including, for example, the semiconductor wafer 2220, the connection member 2240, the passivation layer 2250, and the under bump metal layer 2260 can be manufactured by a series of processes.
如上所述,扇入型半導體封裝可具有其中所述扇入型半導體封裝可具有所述半導體晶片的例如輸入/輸出(input/output,I/O)端子等所有的連接墊均配置於所述半導體晶片內的封裝形式,且可具有極佳的電性特性且可以低成本進行生產。因此,已以扇入型半導體封裝形式製造出安裝於智慧型電話中的許多元件。詳細而言,已經發展許多安裝於智慧型電話的元件,其在具有相對較小尺寸時仍可以進行快速的訊號傳送。As described above, the fan-in type semiconductor package may have all of the connection pads in which the fan-in type semiconductor package may have, for example, an input/output (I/O) terminal of the semiconductor wafer, The package form in the semiconductor wafer, and can have excellent electrical characteristics and can be produced at low cost. Therefore, many components mounted in a smart phone have been manufactured in a fan-in type semiconductor package. In detail, many components installed in smart phones have been developed which can perform fast signal transmission when having a relatively small size.
然而,由於所有輸入/輸出端子需要配置於扇入型半導體封裝中的半導體晶片內部,因此扇入型半導體封裝具有較大的空間限制。因此,難以將此結構應用於具有大量輸入/輸出端子的半導體晶片或具有較小尺寸的半導體晶片。另外,由於上述缺點,扇入型半導體封裝無法在電子裝置的主板上直接安裝及使用。此處,即使藉由重佈線製程增大半導體晶片的輸入/輸出端子的尺寸及半導體晶片的各輸入/輸出端子之間的間隔,在此情況下,半導體晶片的輸入/輸出端子的尺寸及半導體晶片的各輸入/輸出端子之間的間隔可能仍不足以使扇入型半導體封裝直接安裝於電子裝置的主板上。However, since all of the input/output terminals need to be disposed inside the semiconductor wafer in the fan-in type semiconductor package, the fan-in type semiconductor package has a large space limitation. Therefore, it is difficult to apply this structure to a semiconductor wafer having a large number of input/output terminals or a semiconductor wafer having a small size. In addition, due to the above disadvantages, the fan-in type semiconductor package cannot be directly mounted and used on the main board of the electronic device. Here, even if the size of the input/output terminal of the semiconductor wafer and the interval between the input/output terminals of the semiconductor wafer are increased by the rewiring process, the size and semiconductor of the input/output terminal of the semiconductor wafer in this case The spacing between the input/output terminals of the wafer may still be insufficient to mount the fan-in type semiconductor package directly on the motherboard of the electronic device.
圖5為說明扇入型半導體封裝安裝於中介基板上且最終安裝於電子裝置的主板上之情形的剖視示意圖。FIG. 5 is a cross-sectional view showing a state in which a fan-in type semiconductor package is mounted on an interposer substrate and finally mounted on a main board of an electronic device.
圖6為說明扇入型半導體封裝嵌入中介基板中且最終安裝於電子裝置的主板上之情形的剖視示意圖。6 is a cross-sectional view showing a state in which a fan-in type semiconductor package is embedded in an interposer and finally mounted on a main board of an electronic device.
參照圖式,在扇入型半導體封裝2200中,半導體晶片2220的連接墊2222(亦即,輸入/輸出端子)可經由中介基板2301重新佈線,且扇入型半導體封裝2200在其安裝於中介基板2301上的狀態下最終可安裝於電子裝置的主板2500上。在此情況下,可藉由底部填充樹脂2280等來固定焊料球2270等,且半導體晶片2220的外部表面可以模製材料2290等覆蓋。扇入型半導體封裝2200可嵌入單獨的中介基板2302中,半導體晶片2220的連接墊2222(亦即,輸入/輸出端子)可在扇入型半導體封裝2200嵌入於中介基板2302中的狀態中經由中介基板2302重新佈線,且扇入型半導體封裝2200最終可安裝於電子裝置的主板2500上。Referring to the drawings, in the fan-in type semiconductor package 2200, the connection pads 2222 (ie, input/output terminals) of the semiconductor wafer 2220 can be rerouted via the interposer substrate 2301, and the fan-in type semiconductor package 2200 is mounted on the interposer substrate. Finally, the state on the 2301 can be mounted on the main board 2500 of the electronic device. In this case, the solder ball 2270 or the like may be fixed by the underfill resin 2280 or the like, and the outer surface of the semiconductor wafer 2220 may be covered with the molding material 2290 or the like. The fan-in type semiconductor package 2200 can be embedded in a separate interposer substrate 2302, and the connection pads 2222 (ie, input/output terminals) of the semiconductor wafer 2220 can be interposed in a state in which the fan-in type semiconductor package 2200 is embedded in the interposer substrate 2302. The substrate 2302 is re-routed, and the fan-in type semiconductor package 2200 is finally mountable on the main board 2500 of the electronic device.
如上所述,可能難以直接在電子裝置的主板上安裝及使用扇入型半導體封裝。因此,扇入型半導體封裝可安裝於單獨的中介基板上,並接著藉由封裝製程安裝於電子裝置的主板上;或者扇入型半導體封裝可在扇入型半導體封裝嵌入於中介基板中的狀態下在電子裝置的主板上安裝及使用。扇出型半導體封裝 As described above, it may be difficult to directly mount and use a fan-in type semiconductor package on the main board of the electronic device. Therefore, the fan-in type semiconductor package can be mounted on a separate interposer substrate and then mounted on the main board of the electronic device by a packaging process; or the fan-in type semiconductor package can be embedded in the interposer substrate in the fan-in type semiconductor package. Install and use on the motherboard of the electronic device. Fan-out type semiconductor package
圖7為說明扇出型半導體封裝的剖視示意圖。FIG. 7 is a cross-sectional view illustrating a fan-out type semiconductor package.
參照圖式,在扇出型半導體封裝2100中,舉例而言,半導體晶片2120的外側面由包封體2130保護,且半導體晶片2120的連接墊2122可藉由連接構件2140而朝向半導體晶片2120之外進行重新佈線。在此情況下,在連接構件2140上可進一步形成鈍化層2150,且在鈍化層2150的開口中可進一步形成凸塊下金屬層2160。焊球2170可進一步形成於凸塊下金屬層2160上。半導體晶片2120可為包括本體2121、連接墊2122、鈍化層(圖中未繪示)等的積體電路。連接構件2140可包括絕緣層2141、形成於絕緣層2141上的重佈線層2142以及將連接墊2122與重佈線層2142彼此電性連接的導通孔2143。Referring to the drawings, in the fan-out type semiconductor package 2100, for example, the outer surface of the semiconductor wafer 2120 is protected by the encapsulation 2130, and the connection pads 2122 of the semiconductor wafer 2120 can be directed toward the semiconductor wafer 2120 by the connection member 2140. Reroute outside. In this case, the passivation layer 2150 may be further formed on the connection member 2140, and the under bump metal layer 2160 may be further formed in the opening of the passivation layer 2150. Solder balls 2170 may be further formed on the under bump metal layer 2160. The semiconductor wafer 2120 can be an integrated circuit including a body 2121, a connection pad 2122, a passivation layer (not shown), and the like. The connecting member 2140 may include an insulating layer 2141, a redistribution layer 2142 formed on the insulating layer 2141, and a via hole 2143 electrically connecting the connection pad 2122 and the redistribution layer 2142 to each other.
如上所述,扇出型半導體封裝可具有其中半導體晶片的輸入/輸出端子經由在半導體晶片上所形成的連接部件朝向半導體晶片之外重新佈線與配置的形式。如上所述,在扇入型半導體封裝中,半導體晶片的所有輸入/輸出端子均需要配置於半導體晶片內。因此,當半導體晶片的尺寸減小時,需要減小球的尺寸及間距,進而使得無法在扇入型半導體封裝中使用標準化球佈局(standardized ball layout)。另一方面,如上所述,所述扇出型半導體封裝具其中半導體晶片的輸入/輸出端子藉由形成於半導體晶片上的連接構件而朝向半導體晶片之外進行重新佈線與配置的形式。因此,即使在半導體晶片的尺寸減小的情況下,標準化球佈局亦可照樣用於扇出型半導體封裝中,使得扇出型半導體封裝可安裝於電子裝置的主板上而無需使用單獨的中介基板,如下文所述。As described above, the fan-out type semiconductor package may have a form in which an input/output terminal of a semiconductor wafer is rerouted and configured toward a semiconductor wafer via a connection member formed on the semiconductor wafer. As described above, in the fan-in type semiconductor package, all of the input/output terminals of the semiconductor wafer need to be disposed in the semiconductor wafer. Therefore, when the size of the semiconductor wafer is reduced, it is necessary to reduce the size and pitch of the balls, thereby making it impossible to use a standardized ball layout in the fan-in type semiconductor package. On the other hand, as described above, the fan-out type semiconductor package has a form in which an input/output terminal of a semiconductor wafer is rewired and arranged outside the semiconductor wafer by a connection member formed on the semiconductor wafer. Therefore, even in the case where the size of the semiconductor wafer is reduced, the standardized ball layout can be used in the fan-out type semiconductor package as well, so that the fan-out type semiconductor package can be mounted on the main board of the electronic device without using a separate interposer. , as described below.
圖8為說明扇出型半導體封裝安裝於電子裝置的主板上之情況的剖視示意圖。FIG. 8 is a cross-sectional view showing a state in which a fan-out type semiconductor package is mounted on a main board of an electronic device.
參照圖式,扇出型半導體封裝2100可經由焊球2170等安裝於電子裝置的主板2500上。亦即,如上所述,扇出型半導體封裝2100包括連接構件2140,連接構件2140形成於半導體晶片2120上且能夠將連接墊2122重新佈線至半導體晶片2120的區域外的扇出區域,進而使得實際上可在扇出型半導體封裝2100中使用標準化球佈局。因此,扇出型半導體封裝2100可在不使用單獨的中介基板等的條件下安裝於電子裝置的主板2500上。Referring to the drawings, the fan-out type semiconductor package 2100 may be mounted on the main board 2500 of the electronic device via solder balls 2170 or the like. That is, as described above, the fan-out type semiconductor package 2100 includes the connection member 2140 formed on the semiconductor wafer 2120 and capable of rewiring the connection pad 2122 to the fan-out area outside the area of the semiconductor wafer 2120, thereby making the actual A standardized ball layout can be used in the fan-out type semiconductor package 2100. Therefore, the fan-out type semiconductor package 2100 can be mounted on the main board 2500 of the electronic device without using a separate interposer or the like.
如上文所述,由於扇出型半導體封裝可安裝於電子裝置的主板上而無需使用單獨的中介基板,因此扇出型半導體封裝可在其厚度小於使用中介基板的扇入型半導體封裝的厚度的情況下實施。因此,可使扇出型半導體封裝小型化且薄化。另外,扇出型半導體封裝具有極佳的熱特性及電性特性,進而使得扇出型半導體封裝尤其適合用於行動產品。因此,可以比使用印刷電路板(PCB)的一般疊層封裝(package-on-package;POP)類型更小型的形式來實施扇出型半導體封裝,且所述扇出型半導體封裝可解決起因於彎曲現象的問題。As described above, since the fan-out type semiconductor package can be mounted on the main board of the electronic device without using a separate interposer, the fan-out type semiconductor package can be thinner than the thickness of the fan-in type semiconductor package using the interposer substrate. Implemented in the case. Therefore, the fan-out type semiconductor package can be miniaturized and thinned. In addition, the fan-out type semiconductor package has excellent thermal and electrical characteristics, which makes the fan-out type semiconductor package particularly suitable for use in mobile products. Therefore, the fan-out type semiconductor package can be implemented in a smaller form than a general package-on-package (POP) type using a printed circuit board (PCB), and the fan-out type semiconductor package can solve the cause The problem of bending.
同時,扇出型半導體封裝意指一種封裝技術,如上文所述用於將半導體晶片安裝於電子裝置的主板等上且保護半導體晶片免受外部影響,且與諸如中介基板等的印刷電路板(PCB)在概念方面不同,印刷電路板具有與扇出型半導體封裝不同的規格及目的等且具有扇入型半導體封裝嵌入其中。Meanwhile, the fan-out type semiconductor package means a packaging technique as described above for mounting a semiconductor wafer on a main board or the like of an electronic device and protecting the semiconductor wafer from external influence, and with a printed circuit board such as an interposer substrate ( The PCB is different in concept, and the printed circuit board has a different specification and purpose from the fan-out type semiconductor package and has a fan-in type semiconductor package embedded therein.
以下將參照圖式說明一種具有指紋辨識功能的超小型、超薄化扇出型半導體封裝。An ultra-small, ultra-thin fan-out type semiconductor package having a fingerprint recognition function will be described below with reference to the drawings.
圖9為說明扇出型半導體封裝的一實施例的剖視示意圖。Figure 9 is a cross-sectional view showing an embodiment of a fan-out type semiconductor package.
圖10為沿圖9的扇出型半導體封裝的剖線I-I’所截取的平面示意圖。Fig. 10 is a plan view schematically taken along line I-I' of the fan-out type semiconductor package of Fig. 9.
圖11為說明圖9中扇出型半導體封裝的M1與M2一實施例之示意圖。FIG. 11 is a schematic view showing an embodiment of M1 and M2 of the fan-out type semiconductor package of FIG. 9.
圖12為說明圖9中扇出型半導體封裝的M1與M2另一實施例的示意圖。FIG. 12 is a schematic view showing another embodiment of M1 and M2 of the fan-out type semiconductor package of FIG. 9.
參照圖式,根據本揭露例示性實施例的扇出型半導體封裝100A可包括第一連接構件110、半導體晶片120、包封體130以及第二連接構件140。第一連接構件110具有貫穿孔110H。半導體晶片120配置於第一連接構件110的貫穿孔110H中,並具有主動面以及與主動面相對的非主動面,主動面上配置有連接墊122。包封體130包封第一連接構件110的至少部分及半導體晶片120的至少部分。第二連接構件140配置於第一連接構件110及半導體晶片120的主動面上。第一連接構件110可經由第二連接構件140而連接至半導體晶片120。第一連接構件110可包括電性連接至連接墊122的多個重佈線層112a、重佈線層112b以及重佈線層112c。第二連接構件140可包括多個電性連接至連接墊122的重佈線層142。第一連接構件110的所述多個重佈線層112a、重佈線層112b以及重佈線層112c中的一個重佈線層112b可配置於形成第一連接構件110的多個絕緣層111a與絕緣層111b之間。在第二連接構件140的所述多個重佈線層142之中,重佈線層M1及重佈線層M2配置於第二連接構件140的外側,重佈線層M1及重佈線層M2可包括感應器圖案Tx以及感應器圖案Rx,感應器圖案Tx以及感應器圖案Rx能夠藉由精確偵測電容(capacitance)中的變化而辨識指紋。Referring to the drawings, a fan-out type semiconductor package 100A according to an exemplary embodiment of the present disclosure may include a first connection member 110, a semiconductor wafer 120, an encapsulant 130, and a second connection member 140. The first connection member 110 has a through hole 110H. The semiconductor wafer 120 is disposed in the through hole 110H of the first connecting member 110 and has an active surface and an inactive surface opposite to the active surface. The active surface is provided with a connection pad 122. The encapsulant 130 encloses at least a portion of the first connection member 110 and at least a portion of the semiconductor wafer 120. The second connection member 140 is disposed on the active surfaces of the first connection member 110 and the semiconductor wafer 120. The first connection member 110 may be connected to the semiconductor wafer 120 via the second connection member 140. The first connection member 110 may include a plurality of redistribution layers 112a, a redistribution layer 112b, and a redistribution layer 112c electrically connected to the connection pads 122. The second connection member 140 may include a plurality of redistribution layers 142 that are electrically connected to the connection pads 122. The one of the plurality of redistribution layers 112a, the redistribution layer 112b, and the redistribution layer 112c of the first connection member 110 may be disposed on the plurality of insulation layers 111a and the insulation layers 111b forming the first connection member 110. between. Among the plurality of redistribution layers 142 of the second connection member 140, the redistribution layer M1 and the redistribution layer M2 are disposed outside the second connection member 140, and the redistribution layer M1 and the redistribution layer M2 may include a sensor The pattern Tx and the sensor pattern Rx, the sensor pattern Tx, and the sensor pattern Rx can recognize the fingerprint by accurately detecting a change in capacitance.
根據相關技術領域的指紋辨識感應器結構通常為以包銅層板(copper clad laminate,CCL)為基礎的四層核心型(four-layer cored-type)一般球柵陣列(ball grid array,BGA)的基板結構。舉例而言,使用連接零件在球柵陣列基板的下表面上安裝半導體晶片表面,所述基板的下表面上有具有指紋辨識感應器功能的圖案形成。焊球等形成在相同水平高度上,以將下表面上表面安裝有半導體晶片的球柵陣列基板安裝在電子裝置的主板上。在此基板結構中,難以在Tx層及Rx層上形成精密佈線並使Tx層及Rx層超薄化(此在改善感應器的傳送接收的靈敏度方面相當重要),且技術上難以確保最外接觸層的完全平坦度。另外,需要使用鐵電(ferroelectric)絕緣材料,以改善包括Tx層及Rx層的觸控感應效率,但難以使用現有基板材料以外的材料。另外,由於半導體晶片及被動組件安裝在基板的下端部分上,因此半導體晶片的厚度及被動組件的厚度有所限制,且焊球的高度需為高的。此外,近期客戶對於以下需求已經增加:將指紋辨識感應器的整體厚度易於從超薄型改變至厚板型而不改變佈線層,以使指紋辨識感應器適合各種應用。因此,對於使指紋辨識感應器適合各種應用的新型結構之發展已有高度需求。The fingerprint identification sensor structure according to the related art is generally a four-layer cored-type general ball grid array (BGA) based on a copper clad laminate (CCL). Substrate structure. For example, a semiconductor wafer surface is mounted on a lower surface of a ball grid array substrate using a connection member having a pattern formation having a fingerprint recognition sensor function on a lower surface thereof. Solder balls or the like are formed at the same level to mount the ball grid array substrate on which the semiconductor wafer is mounted on the lower surface on the main board of the electronic device. In this substrate structure, it is difficult to form fine wiring on the Tx layer and the Rx layer and to make the Tx layer and the Rx layer ultra-thin (this is important in improving the sensitivity of transmission and reception of the inductor), and it is technically difficult to ensure the outermost The complete flatness of the contact layer. In addition, ferroelectric insulating materials are required to improve the touch sensing efficiency including the Tx layer and the Rx layer, but it is difficult to use materials other than the existing substrate materials. In addition, since the semiconductor wafer and the passive component are mounted on the lower end portion of the substrate, the thickness of the semiconductor wafer and the thickness of the passive component are limited, and the height of the solder ball needs to be high. In addition, recent customers have increased the demand for the overall thickness of the fingerprint sensor to be easily changed from ultra-thin to thick without changing the wiring layer, so that the fingerprint sensor is suitable for various applications. Therefore, there has been a high demand for the development of new structures that make fingerprint identification sensors suitable for various applications.
根據例示性實施例的扇出型半導體封裝100A中,包括感應器圖案Tx及感應器圖案Rx的第二連接構件140的重佈線層142可由半導體方法製造,使得絕緣層能夠超精細圖案化及薄化,從而改善感應器的傳送與接收靈敏度。另外,在半導體晶片120的厚度可視所需規格而容易改變的情況下,藉由調整第一連接構件110,可容易調整扇出型半導體封裝100A的整體厚度。另外,半導體晶片120可配置於第一連接構件110的貫穿孔110H中,使得用於扇出型半導體封裝連接至電子裝置的主板之連接端子170的高度可減小。另外,重佈線層112a、重佈線層112b以及重佈線層112c可在第一連接構件110中形成,以進一步減小厚度並改善扇出型半導體封裝100A的效能。特定而言,重佈線層112b可在組成第一連接構件110的絕緣層111a及絕緣層111b之間形成,以顯著地提升此效果。In the fan-out type semiconductor package 100A according to the exemplary embodiment, the redistribution layer 142 of the second connection member 140 including the inductor pattern Tx and the inductor pattern Rx can be fabricated by a semiconductor method, so that the insulating layer can be ultra-fine patterned and thin To improve the transmission and reception sensitivity of the sensor. Further, in the case where the thickness of the semiconductor wafer 120 can be easily changed depending on the required specifications, the overall thickness of the fan-out type semiconductor package 100A can be easily adjusted by adjusting the first connection member 110. In addition, the semiconductor wafer 120 may be disposed in the through hole 110H of the first connection member 110 such that the height of the connection terminal 170 for the fan-out type semiconductor package to be connected to the main board of the electronic device may be reduced. In addition, the redistribution layer 112a, the redistribution layer 112b, and the redistribution layer 112c may be formed in the first connection member 110 to further reduce the thickness and improve the performance of the fan-out type semiconductor package 100A. In particular, the redistribution layer 112b may be formed between the insulating layer 111a constituting the first connection member 110 and the insulating layer 111b to remarkably enhance this effect.
同時,感應器圖案Tx及感應器圖案Rx可包括Tx(傳送電晶體(Transfer Transistor))圖案及Rx(重設電晶體(Reset Transistor))圖案,Tx圖案及Rx圖案在不同的層M1及層M2上形成。在此情況下,相對於透明表面,Tx圖案及Rx圖案可以網狀(mesh)的形式配置。另外,當在圖案形成中應用精密電路技術時,可形成Rx圖案,使得Rx圖案的線寬Wr為窄且Rx圖案之間的間隔Sr為寬,而且可形成Tx圖案,使得線寬Wt為寬且Tx圖案之間的間隔St為窄。此處,Tx圖案的線寬Wt大於Rx圖案的線寬Wr,且Tx圖案之間的間隔St小於Rx圖案之間的間隔Sr。因此,Tx圖案可容易經過寬廣區域傳送被辨識的訊號至Rx圖案,且被傳送的訊號可經由導通孔傳送至其他層M3及層M4。Meanwhile, the sensor pattern Tx and the sensor pattern Rx may include a Tx (Transfer Transistor) pattern and an Rx (Reset Transistor) pattern, and the Tx pattern and the Rx pattern are in different layers M1 and layers. Formed on M2. In this case, the Tx pattern and the Rx pattern may be arranged in a mesh form with respect to the transparent surface. In addition, when a precision circuit technique is applied in pattern formation, an Rx pattern can be formed such that the line width Wr of the Rx pattern is narrow and the interval Sr between the Rx patterns is wide, and the Tx pattern can be formed such that the line width Wt is wide And the interval St between the Tx patterns is narrow. Here, the line width Wt of the Tx pattern is larger than the line width Wr of the Rx pattern, and the interval St between the Tx patterns is smaller than the interval Sr between the Rx patterns. Therefore, the Tx pattern can easily transmit the recognized signal to the Rx pattern through a wide area, and the transmitted signal can be transmitted to the other layers M3 and M4 via the via hole.
或者,感應器圖案Tx及感應器圖案Rx可包括在相同層M1上形成的Tx圖案及Rx圖案。在此情況下,可省略一個M2層,與圖式中所示情況不同。亦即,感應器圖案Tx及感應器圖案Rx可使用精密間隔技術在相同層M1上形成。在此情況下,Tx圖案及Rx圖案或可以菱形配置,同時圖案間具有預定間隔g,以顯著地提升感應靈敏度。Tx圖案的獨立接墊可在低於層M1的層M3上經由導通孔再次彼此連接,以改善感應靈敏度。Rx圖案的接墊可在最外的層M1上經由精密電路而彼此連接。Tx圖案及Rx圖案或可以菱形配置,同時Tx圖案及Rx圖案之間具有預定間隔g。Tx圖案及Rx圖案的特定形式不受特別限制。舉例而言,個別圖案的角落可為圓的,與圖式中所示者不同。Alternatively, the sensor pattern Tx and the sensor pattern Rx may include a Tx pattern and an Rx pattern formed on the same layer M1. In this case, an M2 layer can be omitted, which is different from the case shown in the drawing. That is, the sensor pattern Tx and the inductor pattern Rx can be formed on the same layer M1 using a fine spacing technique. In this case, the Tx pattern and the Rx pattern may be arranged in a diamond shape with a predetermined interval g between the patterns to significantly enhance the sensing sensitivity. The individual pads of the Tx pattern can be connected to each other again via the via holes on the layer M3 below the layer M1 to improve the sensing sensitivity. The pads of the Rx pattern can be connected to each other via the precision circuit on the outermost layer M1. The Tx pattern and the Rx pattern may be arranged in a diamond shape with a predetermined interval g between the Tx pattern and the Rx pattern. The specific form of the Tx pattern and the Rx pattern is not particularly limited. For example, the corners of the individual patterns may be round, as shown in the figures.
同時,鈍化層150可進一步在第二連接構件140上配置。在此情況下,鈍化層150的介電常數(dielectric constant)可大於組成第二連接構件140的絕緣層141的介電常數。亦即,具有高介電常數的絕緣材料(例如:鐵電絕緣材料)可在鈍化層150中使用,鈍化層150上有感應器圖案Tx及感應器圖案Rx配置。在此情況下,可更有效提升感應靈敏度。At the same time, the passivation layer 150 may be further disposed on the second connection member 140. In this case, the dielectric constant of the passivation layer 150 may be greater than the dielectric constant of the insulating layer 141 constituting the second connection member 140. That is, an insulating material having a high dielectric constant (for example, a ferroelectric insulating material) can be used in the passivation layer 150, and the passivation layer 150 has a sensor pattern Tx and a sensor pattern Rx configuration. In this case, the sensitivity of the induction can be more effectively improved.
同時,第二連接構件140的重佈線層142的至少一個層M3可包括電磁波阻擋圖案(electromagnetic wave blocking pattern)。電磁波阻擋圖案可例如為板狀。電磁波阻擋圖案可阻擋半導體晶片120、在重佈線層142中具有路徑圖案(routing pattern)的層M4等所產生的電磁波。視配置形式,電磁波阻擋圖案亦可阻擋其他組件所產生的電磁波。Meanwhile, at least one layer M3 of the redistribution layer 142 of the second connection member 140 may include an electromagnetic wave blocking pattern. The electromagnetic wave blocking pattern may be, for example, a plate shape. The electromagnetic wave blocking pattern can block electromagnetic waves generated by the semiconductor wafer 120, the layer M4 having a routing pattern in the redistribution layer 142, and the like. Depending on the configuration, the electromagnetic wave blocking pattern can also block electromagnetic waves generated by other components.
以下將更詳細說明根據例示性實施例的扇出型半導體封裝100A中所包括的個別組件。The individual components included in the fan-out type semiconductor package 100A according to an exemplary embodiment will be described in more detail below.
第一連接構件110可視特定材料而維持扇出型半導體封裝100A的剛性,且第一連接構件110可用於確保包封體130的厚度的均勻性。半導體晶片120及第二連接構件120可藉由第一連接構件110經由連接端子170等而電性連接至電子裝置的主板。第一連接構件110可包括所述多個重佈線層112a、重佈線層112b以及重佈線層112c,以有效地對半導體晶片120的連接墊122進行重新佈線,且第一連接構件110可提供寬佈線設計區域(wide wiring design region),以顯著地抑制重佈線層在其他區域中形成。半導體晶片120可配置於貫穿孔110H中,以自第一連接構件110分隔預定距離。半導體晶片120的側表面可被第一連接構件110環繞。個別的被動組件190(例如:電容器或電感器)可進一步配置於貫穿孔110H中,且被動組件190可電性連接至半導體晶片120。然而,此僅為舉例說明。The first connection member 110 maintains the rigidity of the fan-out type semiconductor package 100A depending on a specific material, and the first connection member 110 can be used to ensure uniformity of the thickness of the envelope body 130. The semiconductor wafer 120 and the second connecting member 120 can be electrically connected to the main board of the electronic device via the first connecting member 110 via the connection terminal 170 or the like. The first connection member 110 may include the plurality of redistribution layers 112a, the redistribution layer 112b, and the redistribution layer 112c to effectively rewire the connection pads 122 of the semiconductor wafer 120, and the first connection member 110 may provide a width A wide wiring design region to significantly suppress the formation of the redistribution layer in other regions. The semiconductor wafer 120 may be disposed in the through hole 110H to be separated from the first connection member 110 by a predetermined distance. The side surface of the semiconductor wafer 120 may be surrounded by the first connection member 110. Individual passive components 190 (eg, capacitors or inductors) may be further disposed in the through holes 110H, and the passive components 190 may be electrically connected to the semiconductor wafers 120. However, this is only an example.
第一連接構件110可包括:第一絕緣層111a、第一重佈線層112a、第二重佈線層112b、第二絕緣層111b以及第三重佈線層112c。第一重佈線層112a接觸第二連接構件140,並嵌入第一絕緣層111a中。第二重佈線層112b配置於第一絕緣層111a的相對於其中嵌有第一重佈線層112a的第一絕緣層111a的表面的另一表面上。第二絕緣層111b配置於第一絕緣層111a上,並覆蓋第二重佈線層112b。第三重佈線層112c配置於第二絕緣層111b上。第一重佈線層112a、第二重佈線層112b以及第三重佈線層以及112c可電性連接至連接墊122。第一重佈線層112a與第二重佈線層112b、第二重佈線層112b與第三重佈線層112c可分別經由貫穿第一絕緣層111a及第二絕緣層111b的第一導通孔113a及第二導通孔113b而彼此電性連接。The first connection member 110 may include a first insulating layer 111a, a first red wiring layer 112a, a second red wiring layer 112b, a second insulating layer 111b, and a third redistribution layer 112c. The first redistribution layer 112a contacts the second connection member 140 and is embedded in the first insulating layer 111a. The second redistribution layer 112b is disposed on the other surface of the first insulating layer 111a with respect to the surface of the first insulating layer 111a in which the first redistribution layer 112a is embedded. The second insulating layer 111b is disposed on the first insulating layer 111a and covers the second redistribution layer 112b. The third redistribution layer 112c is disposed on the second insulating layer 111b. The first redistribution layer 112a, the second redistribution layer 112b, and the third redistribution layer and 112c may be electrically connected to the connection pads 122. The first redistribution layer 112a and the second redistribution layer 112b, the second redistribution layer 112b, and the third redistribution layer 112c may pass through the first via holes 113a and the first through the first insulating layer 111a and the second insulating layer 111b, respectively. The two via holes 113b are electrically connected to each other.
由於第一重佈線層112a嵌入第一絕緣層111a中,第二連接構件140的絕緣層141的絕緣距離可為實質地固定。由於第一連接構件110可包括數量大的重佈線層112a、重佈線層112b及重佈線層112c,因此可進一步簡化第二連接構件140。因此,視在形成第二連接構件140的製程中出現的缺陷的良率下降可被抑制,且第二連接構件140可被薄化。第一重佈線層112a可陷入第一絕緣層111a中,使得第一絕緣層111a的下表面以及第一重佈線層112a的下表面之間具有台階。因此,當包封體130形成時,可防止包封體130的材料滲入汙染第一重佈線層112a的現象。Since the first redistribution layer 112a is embedded in the first insulating layer 111a, the insulating distance of the insulating layer 141 of the second connecting member 140 may be substantially fixed. Since the first connection member 110 may include a large number of the redistribution layer 112a, the redistribution layer 112b, and the redistribution layer 112c, the second connection member 140 may be further simplified. Therefore, the yield reduction of the defects occurring in the process of forming the second connecting member 140 can be suppressed, and the second connecting member 140 can be thinned. The first redistribution layer 112a may be recessed into the first insulating layer 111a such that there is a step between the lower surface of the first insulating layer 111a and the lower surface of the first redistribution layer 112a. Therefore, when the encapsulant 130 is formed, the material of the encapsulant 130 can be prevented from infiltrating the phenomenon of contaminating the first redistribution layer 112a.
第一連接構件110的第一重佈線層112a的下表面可高於半導體晶片120的連接墊122的下表面的水平高度而配置。另外,第二連接構件140的重佈線層142與第一連接構件110的第一重佈線層112a之間的距離可大於第二連接構件140的重佈線層142與第一半導體晶片120的連接墊122之間的距離。此處,第一重佈線層112a可凹陷於第一絕緣層111a中。第一連接構件110的第二重佈線層112b所配置的水平高度可介於半導體晶片120的主動面與非主動面之間。第一連接構件110可形成為具有與半導體晶片120對應的厚度。因此,在第一連接構件110中所形成的第二重佈線層112b所配置的水平高度可介於半導體晶片120的主動面與非主動面之間。The lower surface of the first redistribution layer 112a of the first connection member 110 may be disposed higher than the level of the lower surface of the connection pad 122 of the semiconductor wafer 120. In addition, the distance between the redistribution layer 142 of the second connection member 140 and the first redistribution layer 112a of the first connection member 110 may be greater than the connection pad of the redistribution layer 142 of the second connection member 140 and the first semiconductor wafer 120. The distance between 122. Here, the first redistribution layer 112a may be recessed in the first insulating layer 111a. The second redistribution layer 112b of the first connection member 110 may be disposed at a level between the active surface and the inactive surface of the semiconductor wafer 120. The first connection member 110 may be formed to have a thickness corresponding to the semiconductor wafer 120. Therefore, the level of the second redistribution layer 112b formed in the first connection member 110 may be disposed between the active surface and the inactive surface of the semiconductor wafer 120.
第一連接構件110的第一重佈線層112a的厚度、第二重佈線層112b的厚度以及第三重佈線層112c的厚度可大於第二連接構件140的重佈線層142的厚度。由於第一連接構件110的厚度可等於或大於半導體晶片120的厚度,因此視第一連接構件110的規格,重佈線層112a、重佈線層112b及重佈線層112c可形成為大尺寸。另一方面,第二連接構件140的重佈線層142經由精密電路製程(例如:半導體製程)形成,第二連接構件140的重佈線層142可形成相對較小的厚度。The thickness of the first redistribution layer 112a of the first connection member 110, the thickness of the second redistribution layer 112b, and the thickness of the third redistribution layer 112c may be greater than the thickness of the redistribution layer 142 of the second connection member 140. Since the thickness of the first connection member 110 may be equal to or larger than the thickness of the semiconductor wafer 120, the redistribution layer 112a, the redistribution layer 112b, and the redistribution layer 112c may be formed in a large size depending on the specifications of the first connection member 110. On the other hand, the redistribution layer 142 of the second connection member 140 is formed through a precision circuit process (for example, a semiconductor process), and the redistribution layer 142 of the second connection member 140 can be formed to a relatively small thickness.
舉例而言,包括無機填料及絕緣樹脂的材料可作為絕緣層111a及絕緣層111b的材料。舉例而言,可使用:熱固性樹脂,例如環氧樹脂等;熱塑性樹脂,例如聚醯亞胺樹脂;或包括例如無機填料(例如:二氧化矽(silica)、礬土(alumina)等)的加強材料的樹脂,更詳細而言,味之素構成膜(Ajinomoto Build up Film,ABF)、FR-4、雙馬來醯亞胺三嗪(bismaleimide triazine,BT)、感光成像介電(PID)樹脂等。或者,亦可使用其中無機填料或核心材料(例如:玻璃纖維(或玻璃布、玻璃織物))注入熱固性樹脂或熱塑性樹脂的樹脂,例如預浸體(prepreg)等。For example, a material including an inorganic filler and an insulating resin can be used as the material of the insulating layer 111a and the insulating layer 111b. For example, a thermosetting resin such as an epoxy resin or the like; a thermoplastic resin such as a polyimide resin; or a reinforcing such as an inorganic filler (for example, silica, alumina, etc.) may be used. Resin of the material, in more detail, Ajinomoto Build up Film (ABF), FR-4, bismaleimide triazine (BT), photographic imaging dielectric (PID) resin Wait. Alternatively, a resin in which an inorganic filler or a core material (for example, glass fiber (or glass cloth, glass fabric)) is injected into a thermosetting resin or a thermoplastic resin, such as a prepreg or the like, may also be used.
重佈線層112a、重佈線層112b以及重佈線層112c可為導電材料,例如銅(Cu)、鋁(Al)、銀(Ag)、錫(Sn)、金(Au)、鎳(Ni)、鉛(Pb)、鈦(Ti)或其合金。重佈線層112a、重佈線層112b以及重佈線層112c可視其對應層的設計而執行各種功能。舉例而言,重佈線層112a、重佈線層112b以及重佈線層112c可包括接地(ground,GND)圖案、電源(power,PWR)圖案、訊號(signal,S)圖案等。此處,訊號圖案可包括除了接地圖案、電源圖案等之外的各種訊號,例如資料訊號等。另外,重佈線層112a、重佈線層112b以及重佈線層112c可包括用於導通孔的接墊圖案、用於連接端子的接墊圖案等。The redistribution layer 112a, the redistribution layer 112b, and the redistribution layer 112c may be conductive materials such as copper (Cu), aluminum (Al), silver (Ag), tin (Sn), gold (Au), nickel (Ni), Lead (Pb), titanium (Ti) or alloys thereof. The redistribution layer 112a, the redistribution layer 112b, and the redistribution layer 112c perform various functions depending on the design of their corresponding layers. For example, the redistribution layer 112a, the redistribution layer 112b, and the redistribution layer 112c may include a ground (GND) pattern, a power (PWR) pattern, a signal (S) pattern, and the like. Here, the signal pattern may include various signals other than a ground pattern, a power supply pattern, and the like, such as a data signal. In addition, the redistribution layer 112a, the redistribution layer 112b, and the redistribution layer 112c may include a pad pattern for via holes, a pad pattern for connecting terminals, and the like.
導通孔113a及導通孔113b中每一者的材料可為導電材料。導通孔113a及導通孔113b中每一者可以導電材料完整填充,或者導電材料亦可沿每個導通孔孔洞的壁面形成。當形成用於導通孔113a及導通孔113b的孔洞時,第一重佈線層112a及第二重佈線層112b的一些接墊圖案可作為阻擋層,且因此有利於導通孔113a及導通孔113b中的每一者具有上表面寬度大於下表面寬度的錐形的製程。在此情況下,導通孔113a及導通孔113b可分別與第二重佈線層112b及第三重佈線層112c的部分整合。The material of each of the via hole 113a and the via hole 113b may be a conductive material. Each of the via hole 113a and the via hole 113b may be completely filled with a conductive material, or a conductive material may be formed along a wall surface of each via hole. When the holes for the via holes 113a and the via holes 113b are formed, some pad patterns of the first redistribution layer 112a and the second redistribution layer 112b may serve as a barrier layer, and thus are advantageous for the via holes 113a and the via holes 113b. Each has a tapered process with an upper surface width greater than the lower surface width. In this case, the via hole 113a and the via hole 113b may be integrated with portions of the second redistribution layer 112b and the third redistribution layer 112c, respectively.
半導體晶片120可為於單一晶片中整合數百至數百萬個元件或更多的數量設置的積體電路(IC)。所述積體電路可例如為能夠執行指紋辨識感應處理的應用專用積體電路(application-specific integrated circuit,ASIC)。半導體晶片120可以主動晶圓為基礎而形成。在此情況下,本體121的基本材料(base material)可為矽(Si)、鍺(Ge)、砷化鎵(GaAs)等。在本體121上可形成各種電路。連接墊122可將半導體晶片120電性地連接至其他組件。連接墊122中每一者的材料可為導電材料,例如鋁(Al)等。在本體121上可形成暴露出連接墊122的鈍化層123,且鈍化層123可為氧化物膜、氮化物膜等或氧化物層與氮化物層所構成的雙層。連接墊122的下表面透過鈍化層123可具有相對於包封體130的下表面的台階。因此,在一定程度上可防止包封體130滲入連接墊122下表面的現象。絕緣層(未繪示)等亦可進一步在其他需要的位置中配置。The semiconductor wafer 120 may be an integrated circuit (IC) provided by integrating hundreds to millions of elements or more in a single wafer. The integrated circuit may be, for example, an application-specific integrated circuit (ASIC) capable of performing fingerprint recognition sensing processing. The semiconductor wafer 120 can be formed on the basis of an active wafer. In this case, the base material of the body 121 may be bismuth (Si), germanium (Ge), gallium arsenide (GaAs), or the like. Various circuits can be formed on the body 121. The connection pads 122 can electrically connect the semiconductor wafer 120 to other components. The material of each of the connection pads 122 may be a conductive material such as aluminum (Al) or the like. A passivation layer 123 exposing the connection pads 122 may be formed on the body 121, and the passivation layer 123 may be an oxide film, a nitride film, or the like, or a double layer composed of an oxide layer and a nitride layer. The lower surface of the connection pad 122 may have a step relative to the lower surface of the encapsulant 130 through the passivation layer 123. Therefore, the phenomenon that the encapsulation body 130 penetrates into the lower surface of the connection pad 122 can be prevented to some extent. The insulating layer (not shown) or the like can be further configured in other required positions.
包封體130可保護半導體晶片120。包封體130的包封形式不受特別限制,且可為包封體130環繞半導體晶片120的至少部分之形式。舉例而言,包封體130可覆蓋第一連接構件110的至少部分及半導體晶片120的非主動面的至少部分,且包封體130可填充於貫穿孔110H的壁面與半導體晶片120的側表面之間的空間。另外,包封體130亦可填充於半導體晶片120的鈍化層123與第二連接構件140之間的空間的至少部分。包封體130的特定材料不受特別限制。舉例而言,絕緣材料可用作包封體130的特定材料。在此情況下,所述絕緣材料可為:熱固性樹脂,例如環氧樹脂等;熱塑性樹脂,例如聚醯亞胺樹脂;具有加強材料的樹脂(加強材料例如為注入熱固性樹脂及熱塑性樹脂中的無機填料),例如味之素構成膜、FR-4、BT、感光成像介電(PID)樹脂等。另外,亦可使用已知的模製材料,例如環氧模製化合物(epoxy molding compound,EMC)等。或者,亦可使用其中無機填料或核心材料(例如玻璃纖維(或玻璃布、玻璃織物))注入熱固性樹脂或熱塑性樹脂的樹脂作為絕緣材料。The encapsulant 130 can protect the semiconductor wafer 120. The encapsulation form of the encapsulation 130 is not particularly limited and may be in the form of at least a portion of the encapsulation 130 surrounding the semiconductor wafer 120. For example, the encapsulation 130 may cover at least a portion of the first connection member 110 and at least a portion of the inactive surface of the semiconductor wafer 120, and the encapsulation body 130 may fill the wall surface of the through hole 110H and the side surface of the semiconductor wafer 120. The space between. In addition, the encapsulant 130 may also be filled in at least a portion of the space between the passivation layer 123 of the semiconductor wafer 120 and the second connection member 140. The specific material of the envelope body 130 is not particularly limited. For example, an insulating material can be used as the specific material of the encapsulant 130. In this case, the insulating material may be: a thermosetting resin such as an epoxy resin or the like; a thermoplastic resin such as a polyimide resin; a resin having a reinforcing material such as an inorganic material injected into a thermosetting resin and a thermoplastic resin. Filler), for example, Ajinomoto constitutes a film, FR-4, BT, Photographic Imaging Dielectric (PID) resin, and the like. Further, a known molding material such as an epoxy molding compound (EMC) or the like can also be used. Alternatively, a resin in which an inorganic filler or a core material (for example, glass fiber (or glass cloth, glass fabric)) is injected into a thermosetting resin or a thermoplastic resin may be used as the insulating material.
第二連接構件140可對半導體晶片120的連接墊122進行重新佈線,且第二連接構件140可包括重佈線層142,重佈線層142可實施高靈敏度的指紋辨識功能。具有各種功能的數十至數百個連接墊122可藉由第二連接構件140而進行重新佈線,且連接墊122視功能可經由連接端子170而物理連接或電性連接至外源。另外,可實施用以實施高靈感度指紋辨識功能的指紋辨識功能。第二連接構件140可包括:絕緣層141、重佈線層142以及導通孔143,重佈線層142配置於絕緣層141上,而導通孔143貫穿絕緣層141並連接至重佈線層142。The second connection member 140 may rewire the connection pads 122 of the semiconductor wafer 120, and the second connection member 140 may include a redistribution layer 142 that may implement a highly sensitive fingerprint recognition function. The tens to hundreds of connection pads 122 having various functions may be re-routed by the second connection member 140, and the connection pads 122 may be physically connected or electrically connected to an external source via the connection terminal 170. In addition, a fingerprint recognition function for implementing a high-inspired fingerprint recognition function can be implemented. The second connection member 140 may include an insulating layer 141, a redistribution layer 142, and a via hole 143. The redistribution layer 142 is disposed on the insulating layer 141, and the via hole 143 penetrates the insulating layer 141 and is connected to the redistribution layer 142.
舉例而言,可使用絕緣材料作為絕緣層141的材料。在此情況下,所述絕緣材料可為:熱固性樹脂,例如環氧樹脂等;熱塑性樹脂,例如聚醯亞胺樹脂;具有加強材料的樹脂(加強材料例如為注入熱固性樹脂及熱塑性樹脂中的無機填料),例如ABF、FR-4、BT、感光成像介電(PID)樹脂等。感光絕緣材料(例如:感光成像介電樹脂)作為絕緣層的材料使用,可有利於形成精密圖案。必要時,當絕緣層141為多個層時,這些絕緣層141的材料可彼此相同,且亦可彼此不同。當絕緣層141為多個層時,這些絕緣層141可視製程而彼此整合,進而使得各絕緣層之間的邊界亦可為不明顯。For example, an insulating material may be used as the material of the insulating layer 141. In this case, the insulating material may be: a thermosetting resin such as an epoxy resin or the like; a thermoplastic resin such as a polyimide resin; a resin having a reinforcing material such as an inorganic material injected into a thermosetting resin and a thermoplastic resin. Filler), such as ABF, FR-4, BT, Photosensitive Dielectric (PID) resin, and the like. A photosensitive insulating material (for example, a photosensitive dielectric resin) is used as a material of the insulating layer to facilitate formation of a precise pattern. When necessary, when the insulating layer 141 is a plurality of layers, the materials of the insulating layers 141 may be identical to each other, and may be different from each other. When the insulating layer 141 is a plurality of layers, the insulating layers 141 may be integrated with each other according to a process, so that the boundary between the insulating layers may also be inconspicuous.
重佈線層142可包括層M1、層M2、層M3以及層M4,層M1及層M2能夠進行指紋辨識功能,層M3能夠進行屏蔽功能(shield function),而層M4能夠進行重新佈線功能。重佈線層142中每一者的材料可為導電材料,例如銅(Cu)、鋁(Al)、銀(Ag)、錫(Sn)、金(Au)、鎳(Ni)、鉛(Pb)、鈦(Ti)或其合金等。重佈線層142可視其對應層的設計而執行各種功能。舉例而言,層M1可包括Rx圖案及Tx圖案,或者層M1及層M2可包括Rx圖案及Tx圖案。層M3可包括電磁波阻擋圖案。層M4可包括接地(GND)圖案、電源(PWR)圖案、訊號(S)圖案等。此處,訊號圖案可包括除了接地圖案、電源圖案等之外的各種訊號,例如資料訊號等。另外,這些層M1、層M2、層M3以及層M4可包括各式接墊圖案。The redistribution layer 142 may include a layer M1, a layer M2, a layer M3, and a layer M4. The layers M1 and M2 are capable of performing a fingerprint recognition function, the layer M3 is capable of performing a shield function, and the layer M4 is capable of performing a rewiring function. The material of each of the redistribution layers 142 may be a conductive material such as copper (Cu), aluminum (Al), silver (Ag), tin (Sn), gold (Au), nickel (Ni), lead (Pb). , titanium (Ti) or its alloys, and the like. The redistribution layer 142 performs various functions depending on the design of its corresponding layer. For example, layer M1 may include an Rx pattern and a Tx pattern, or layer M1 and layer M2 may include an Rx pattern and a Tx pattern. Layer M3 may include an electromagnetic wave blocking pattern. Layer M4 may include a ground (GND) pattern, a power supply (PWR) pattern, a signal (S) pattern, and the like. Here, the signal pattern may include various signals other than a ground pattern, a power supply pattern, and the like, such as a data signal. Additionally, these layers M1, M2, M3, and M4 may include various pad patterns.
導通孔143可使在不同的層上所形成的連接墊122、重佈線層142等彼此電性連接,從而在扇出型半導體封裝100A中產生電性通路。導通孔143中每一者的材料可為例如銅(Cu)、鋁(Al)、銀(Ag)、錫(Sn)、金(Au)、鎳(Ni)、鉛(Pb)、鈦(Ti)或其合金等的導電材料。導電材料可完全填充導通孔143中的每一者,或導電材料亦可沿導通孔中的每一者的壁面形成。另外,導通孔143中的每一者可具有在相關技術中已知的所有形狀,例如錐形、圓柱形等。The via hole 143 can electrically connect the connection pad 122, the redistribution layer 142, and the like formed on the different layers to each other, thereby generating an electrical path in the fan-out type semiconductor package 100A. The material of each of the via holes 143 may be, for example, copper (Cu), aluminum (Al), silver (Ag), tin (Sn), gold (Au), nickel (Ni), lead (Pb), titanium (Ti). Or a conductive material such as an alloy thereof. The conductive material may completely fill each of the via holes 143, or the conductive material may be formed along the wall surface of each of the via holes. In addition, each of the via holes 143 may have all shapes known in the related art, such as a taper, a cylinder, or the like.
鈍化層150可保護第二連接構件140不受外部物理或化學損害。鈍化層150可為指紋接觸的最外層。鈍化層150的材料不受特別限制,但可為已知的絕緣材料。然而,鐵電絕緣材料可作為鈍化層的材料使用,以改善觸控感應的效率。舉例而言,鈍化層150的介電常數可大於第二連接構件140的絕緣層141的介電常數。The passivation layer 150 may protect the second connection member 140 from external physical or chemical damage. The passivation layer 150 can be the outermost layer of the fingerprint contact. The material of the passivation layer 150 is not particularly limited, but may be a known insulating material. However, ferroelectric insulating materials can be used as a material for the passivation layer to improve the efficiency of touch sensing. For example, the dielectric constant of the passivation layer 150 may be greater than the dielectric constant of the insulating layer 141 of the second connection member 140.
凸塊下金屬層160可另外用於改善連接端子170的連接可靠性,並改善扇出型半導體封裝100A的板級(board level)可靠性。凸塊下金屬層160可連接至經由包封體130的開口131外露之第一連接構件110的第三重佈線層112c。凸塊下金屬層160可藉由已知的金屬化方法在鈍化層130的開口131中形成,所述金屬化方法使用已知的導電材料(例如:金屬),但不以此為限。The under bump metal layer 160 may additionally be used to improve the connection reliability of the connection terminal 170 and improve the board level reliability of the fan-out type semiconductor package 100A. The under bump metal layer 160 may be connected to the third redistribution layer 112c of the first connection member 110 exposed through the opening 131 of the encapsulation 130. The under bump metal layer 160 may be formed in the opening 131 of the passivation layer 130 by a known metallization method using a known conductive material (eg, metal), but not limited thereto.
連接端子170可另外用於將扇出型半導體封裝100A外部物理連接或電性連接。舉例而言,扇出型半導體封裝100A可經由連接端子170安裝於電子裝置的主板上。連接端子170中的每一者可由導電材料形成,例如焊料等。然而,此僅為舉例說明,且連接端子170中每一者的材料不以此為限。連接端子170中的每一者可為墊(land)、球、引腳等。連接端子170可形成為多層結構或單層結構。當連接端子170形成為多層結構時,連接端子170可包括銅(Cu)柱及焊料。當連接端子170形成為單層式結構時,連接端子170可包括錫-銀焊料或銅。然而,此僅為舉例說明,連接端子170不以此為限。The connection terminal 170 may additionally be used to physically or electrically connect the fan-out type semiconductor package 100A. For example, the fan-out type semiconductor package 100A can be mounted on the main board of the electronic device via the connection terminal 170. Each of the connection terminals 170 may be formed of a conductive material such as solder or the like. However, this is merely an example, and the material of each of the connection terminals 170 is not limited thereto. Each of the connection terminals 170 may be a land, a ball, a pin, or the like. The connection terminal 170 may be formed in a multilayer structure or a single layer structure. When the connection terminal 170 is formed in a multilayer structure, the connection terminal 170 may include a copper (Cu) pillar and solder. When the connection terminal 170 is formed in a single layer structure, the connection terminal 170 may include tin-silver solder or copper. However, this is merely an example, and the connection terminal 170 is not limited thereto.
連接端子170的數量、間隔或配置等不受特別限制,且可由此項技術領域中具有通常知識者視設計細節而充分修改。舉例而言,根據半導體晶片120的連接墊122的數量,連接端子170可設置為數十至數千的數量,但不以此為限,且亦可設置為數十至數千或更多的數量或者數十至數千或更少的數量。當連接端子170為焊球時,連接端子170可覆蓋凸塊下金屬層160的延伸至鈍化層130的下表面上之側表面,且連接可靠性可更優異。The number, spacing, configuration, and the like of the connection terminals 170 are not particularly limited, and may be sufficiently modified by those of ordinary skill in the art depending on design details. For example, according to the number of the connection pads 122 of the semiconductor wafer 120, the connection terminals 170 can be set in the number of tens to thousands, but not limited thereto, and can also be set to tens to thousands or more. Quantity or number of tens to thousands or less. When the connection terminal 170 is a solder ball, the connection terminal 170 may cover a side surface of the under bump metal layer 160 that extends to the lower surface of the passivation layer 130, and the connection reliability may be more excellent.
可在扇出區域中配置連接端子170中的至少一者。所述扇出區域為除了配置有半導體晶片120的區域之外的區域。亦即,根據例示性實施例的扇出型半導體封裝100A可為扇出型封裝。相較於扇入型封裝而言,扇出型封裝可具有極佳的可靠性,扇出型封裝可實施多個輸入/輸出(I/O)端子,且扇出型封裝可有利於三維(3D)內連線。另外,相較於球柵陣列(ball grid array,BGA)封裝、墊柵陣列(land grid array,LGA)封裝等而言,扇出型封裝可在無需單獨的板的條件下安裝於電子裝置上。因此,扇出型封裝可被製為具有相對較小的厚度,且扇出型封裝可具有價格競爭力。At least one of the connection terminals 170 may be disposed in the fan-out area. The fan-out area is an area other than the area in which the semiconductor wafer 120 is disposed. That is, the fan-out type semiconductor package 100A according to the exemplary embodiment may be a fan-out type package. Compared to fan-in packages, fan-out packages offer excellent reliability, fan-out packages can implement multiple input/output (I/O) terminals, and fan-out packages can facilitate three-dimensional ( 3D) Internal connection. In addition, compared to a ball grid array (BGA) package, a land grid array (LGA) package, etc., the fan-out package can be mounted on an electronic device without a separate board. . Therefore, the fan-out type package can be made to have a relatively small thickness, and the fan-out type package can be price competitive.
同時,雖然圖式中未繪示,必要時金屬層可進一步配置於貫穿孔110H的壁面上。金屬層可用於有效散出半導體晶片120所產生的熱。另外,金屬層亦可用於阻擋電磁波。另外,貫穿孔110H的數量可為多個,且半導體晶片120或被動組件可分別配置於貫穿孔110H中。除了上述的結構,可應用相關技術領域中的已知結構。Meanwhile, although not shown in the drawings, the metal layer may be further disposed on the wall surface of the through hole 110H as necessary. A metal layer can be used to effectively dissipate the heat generated by the semiconductor wafer 120. In addition, the metal layer can also be used to block electromagnetic waves. In addition, the number of the through holes 110H may be plural, and the semiconductor wafer 120 or the passive component may be disposed in the through holes 110H, respectively. In addition to the above structure, a known structure in the related art can be applied.
圖13為圖9扇出型半導體封裝之修改後實施例的剖視示意圖。Figure 13 is a cross-sectional view showing a modified embodiment of the fan-out type semiconductor package of Figure 9.
參照圖式,在根據修改後實施例的扇出型半導體封裝100B中,第二連接構件140的重佈線層142可包括層M1、層M2以及層M3,層M1及層M2能夠進行指紋辨識功能,層M3能夠進行重佈線功能。能夠進行屏蔽功能的層可被省略。在此情況下,第二連接構件140的絕緣層141中與半導體晶片120最鄰近之絕緣層的厚度可大於其他絕緣層的厚度。屏蔽功能可經由厚度差異而進行,使得第二連接構件可進一步薄化。同時,視感應器圖案Tx及感應器圖案Rx的設計,層M1及層M2亦可作為一個層。以下將省略與前述重複的架構說明。Referring to the drawings, in the fan-out type semiconductor package 100B according to the modified embodiment, the redistribution layer 142 of the second connection member 140 may include a layer M1, a layer M2, and a layer M3, and the layers M1 and M2 can perform fingerprint recognition functions. Layer M3 is capable of rewiring functions. A layer capable of performing a shielding function can be omitted. In this case, the thickness of the insulating layer closest to the semiconductor wafer 120 in the insulating layer 141 of the second connecting member 140 may be greater than the thickness of the other insulating layers. The shielding function can be performed via a difference in thickness such that the second connecting member can be further thinned. Meanwhile, the layer M1 and the layer M2 may also function as one layer depending on the design of the sensor pattern Tx and the sensor pattern Rx. The architectural description repeated as described above will be omitted below.
圖14為圖9扇出型半導體封裝的修改後實施例的剖視示意圖。Figure 14 is a cross-sectional view showing a modified embodiment of the fan-out type semiconductor package of Figure 9.
參照圖式,在根據另一修改後實施例的扇出型半導體封裝100C中,半導體晶片120可以圖式中面朝下的形式配置。在此情況下,第二連接構件140b可配置於半導體晶片120的非主動面上,第二連接構件140b包括重佈線層142b,重佈線層142b包括數個進行上述功能的層M1、層M2以及層M3,且第三連接構件140a可配置於半導體晶片120的主動面上,第三連接構件140a包括重佈線層142a,重佈線層142a的主要目的為對半導體晶片120的連接墊122進行重新佈線。第二連接構件140b及第三連接構件140a可經由第一連接構件110而彼此連接。第二連接構件140b的絕緣層141b可由絕緣材料(例如:感光成像介電(PID)樹脂)形成,且第二連接構件140b的重佈線層142b及導通孔143b可由已知的導電材料形成,例如銅(Cu)等。第三連接構件140a的絕緣層141a可由絕緣材料(例如:感光成像介電(PID)樹脂)形成,且第三連接構件140a的重佈線層142a及導通孔143a可由已知的導電材料(例如:銅)等形成。第二連接構件140b的層M1、層M2以及層M3可視設計而如上述修改。以下將省略與前述重複的架構說明。Referring to the drawings, in the fan-out type semiconductor package 100C according to another modified embodiment, the semiconductor wafer 120 may be disposed in a downwardly facing form in the drawing. In this case, the second connection member 140b may be disposed on the inactive surface of the semiconductor wafer 120, the second connection member 140b includes the redistribution layer 142b, and the redistribution layer 142b includes a plurality of layers M1, M2 for performing the above functions, and The layer M3, and the third connecting member 140a can be disposed on the active surface of the semiconductor wafer 120, the third connecting member 140a includes the redistribution layer 142a, and the main purpose of the redistribution layer 142a is to rewire the connection pads 122 of the semiconductor wafer 120. . The second connection member 140b and the third connection member 140a may be connected to each other via the first connection member 110. The insulating layer 141b of the second connection member 140b may be formed of an insulating material (for example, Photographic Imaging Dielectric (PID) resin), and the redistribution layer 142b and the via hole 143b of the second connection member 140b may be formed of a known conductive material, for example, for example Copper (Cu), etc. The insulating layer 141a of the third connection member 140a may be formed of an insulating material (for example, Photographic Imaging Dielectric (PID) resin), and the redistribution layer 142a and the via hole 143a of the third connection member 140a may be made of a known conductive material (for example: Copper) is formed. The layer M1, the layer M2 and the layer M3 of the second connecting member 140b are visually designed and modified as described above. The architectural description repeated as described above will be omitted below.
圖15為說明扇出型半導體封裝的另一實施例的剖視示意圖。Figure 15 is a cross-sectional view showing another embodiment of a fan-out type semiconductor package.
圖16為沿圖15的扇出型半導體封裝的剖線II-II’所截取的平面示意圖。Figure 16 is a plan view schematically taken along line II-II' of the fan-out type semiconductor package of Figure 15 .
參照圖式,根據本揭露另一例示性實施例的扇出型半導體封裝100D,第一連接構件110可包括:第一絕緣層111a、第一重佈線層112a、第二重佈線層112b、第二絕緣層111b、第三重佈線層112c、第三絕緣層111c以及第四重佈線層112d。第一重佈線層112a及第二重佈線層112b分別配置於與第一絕緣層111a相對的表面上。第二絕緣層111b配置於第一絕緣層111a上,並覆蓋第一重佈線層112a。第三重佈線層112c配置於第二絕緣層111b上。第三絕緣層111c配置於第一絕緣層111a上,並覆蓋第二重佈線層112b。第四重佈線層112d配置於第三絕緣層111c上。第一重佈線層112a、第二重佈線層112b、第三重佈線層112c以及第四重佈線層112d可電性連接至連接墊122。由於第一連接構件110可包括較大數量的重佈線層112a、重佈線層112b、重佈線層112c及重佈線層112d,因此可進一步簡化第二連接構件140。經由分別貫穿第一絕緣層111a、第二絕緣層111b以及第三絕緣層111c的第一導通孔113a、第二導通孔113b以及第三導通孔113c,第一重佈線層112a、第二重佈線層112b、第三重佈線層112c以及第四重佈線層112d可彼此電性連接。Referring to the drawings, according to the fan-out type semiconductor package 100D of another exemplary embodiment of the present disclosure, the first connection member 110 may include: a first insulating layer 111a, a first redistribution layer 112a, a second redistribution layer 112b, and a first The second insulating layer 111b, the third redistribution layer 112c, the third insulating layer 111c, and the fourth redistribution layer 112d. The first redistribution layer 112a and the second redistribution layer 112b are respectively disposed on surfaces facing the first insulating layer 111a. The second insulating layer 111b is disposed on the first insulating layer 111a and covers the first redistribution layer 112a. The third redistribution layer 112c is disposed on the second insulating layer 111b. The third insulating layer 111c is disposed on the first insulating layer 111a and covers the second redistribution layer 112b. The fourth redistribution layer 112d is disposed on the third insulating layer 111c. The first redistribution layer 112a, the second redistribution layer 112b, the third redistribution layer 112c, and the fourth redistribution layer 112d may be electrically connected to the connection pads 122. Since the first connection member 110 may include a larger number of the redistribution layer 112a, the redistribution layer 112b, the redistribution layer 112c, and the redistribution layer 112d, the second connection member 140 may be further simplified. The first redistribution layer 112a and the second redistribution via the first via hole 113a, the second via hole 113b, and the third via hole 113c penetrating through the first insulating layer 111a, the second insulating layer 111b, and the third insulating layer 111c, respectively The layer 112b, the third redistribution layer 112c, and the fourth redistribution layer 112d may be electrically connected to each other.
第一絕緣層111a的厚度可大於第二絕緣層111b的厚度及第三絕緣層111c的厚度。基本上第一絕緣層111a可為相對較厚以維持剛性,且第二絕緣層111b及第三絕緣層111c可被導入,以形成較大數量的重佈線層112c及重佈線層112d。第一絕緣層111a所包括的絕緣材料可與第二絕緣層111b及第三絕緣層111c所包括的絕緣材料不同。舉例而言,第一絕緣層111a可例如為包括核心材料、無機填料及絕緣樹脂的預浸體形成,且第二絕緣層111b及第三絕緣層111c可為味之素構成膜(ABF)或包括無機填料及絕緣樹脂的感光性絕緣膜形成。然而,第一絕緣層111a、第二絕緣層111b以及第三絕緣層111c的材料不以此為限。相似地,第一導通孔113a的直徑可大於第二導通孔113b的直徑及第三導通孔113c的直徑。The thickness of the first insulating layer 111a may be greater than the thickness of the second insulating layer 111b and the thickness of the third insulating layer 111c. Basically, the first insulating layer 111a may be relatively thick to maintain rigidity, and the second insulating layer 111b and the third insulating layer 111c may be introduced to form a larger number of the redistribution layer 112c and the redistribution layer 112d. The insulating material included in the first insulating layer 111a may be different from the insulating material included in the second insulating layer 111b and the third insulating layer 111c. For example, the first insulating layer 111a may be formed, for example, as a prepreg including a core material, an inorganic filler, and an insulating resin, and the second insulating layer 111b and the third insulating layer 111c may be an Ajinomorphic film (ABF) or A photosensitive insulating film including an inorganic filler and an insulating resin is formed. However, the materials of the first insulating layer 111a, the second insulating layer 111b, and the third insulating layer 111c are not limited thereto. Similarly, the diameter of the first via hole 113a may be larger than the diameter of the second via hole 113b and the diameter of the third via hole 113c.
第一連接構件110的第三重佈線層112c的下表面所配置的水平高度可低於半導體晶片120的連接墊122的下表面。另外,第二連接構件140的重佈線層142與第一連接構件110的第三重佈線層112c之間的距離可小於第二連接構件140的重佈線層142與第一半導體晶片120a的連接墊122之間的距離。此處,第三重佈線層112c可以突出的形式配置於第二絕緣層111b上,從而接觸第二連接構件140。第一連接構件110的第一重佈線層112a及第二重佈線層112b所配置的水平高度可介於半導體晶片120的主動面與非主動面之間。第一連接構件110可形成為厚度對應半導體晶片120的厚度。因此,形成在第一連接構件110中的第一重佈線層112a及第二重佈線層112b所配置的水平高度可介於半導體晶片120的主動面與非主動面之間。The lower surface of the third redistribution layer 112c of the first connection member 110 may be disposed at a lower level than the lower surface of the connection pad 122 of the semiconductor wafer 120. In addition, the distance between the redistribution layer 142 of the second connection member 140 and the third redistribution layer 112c of the first connection member 110 may be smaller than the connection pad of the redistribution layer 142 of the second connection member 140 and the first semiconductor wafer 120a. The distance between 122. Here, the third redistribution layer 112c may be disposed on the second insulating layer 111b in a protruding form to contact the second connection member 140. The first red wiring layer 112a and the second red wiring layer 112b of the first connection member 110 may be disposed at a level between the active surface and the inactive surface of the semiconductor wafer 120. The first connection member 110 may be formed to have a thickness corresponding to the thickness of the semiconductor wafer 120. Therefore, the first red wiring layer 112a and the second red wiring layer 112b formed in the first connection member 110 may be disposed at a level between the active surface and the inactive surface of the semiconductor wafer 120.
第一連接構件110的第一重佈線層112a、第二重佈線層112b、第三重佈線層112c以及第四重佈線層112d的厚度可大於第二連接構件140的重佈線層142的厚度。由於第一連接構件110的厚度可等於或大於半導體晶片120的厚度,因此重佈線層112a、重佈線層112b、重佈線層112c及重佈線層112d亦可形成為具有較大的尺寸。另一方面,第二連接構件140的重佈線層142可形成為相對較小的厚度。以下將省略與前述重複的架構說明。The thickness of the first redistribution layer 112a, the second redistribution layer 112b, the third redistribution layer 112c, and the fourth redistribution layer 112d of the first connection member 110 may be greater than the thickness of the redistribution layer 142 of the second connection member 140. Since the thickness of the first connection member 110 may be equal to or larger than the thickness of the semiconductor wafer 120, the redistribution layer 112a, the redistribution layer 112b, the redistribution layer 112c, and the redistribution layer 112d may also be formed to have a large size. On the other hand, the redistribution layer 142 of the second connection member 140 may be formed to a relatively small thickness. The architectural description repeated as described above will be omitted below.
圖17為圖15扇出型半導體封裝之修改後實施例的剖視示意圖。Figure 17 is a cross-sectional view showing a modified embodiment of the fan-out type semiconductor package of Figure 15.
參照圖式,在根據修改後實施例的扇出型半導體封裝100E中,第二連接構件140的重佈線層142可包括層M1、層M2以及層M3,層M1及層M2能夠進行指紋辨識功能,且層M3能夠進行重佈線功能。能夠進行屏蔽功能的層可被省略。在此情況下,第二連接構件140的絕緣層141中與半導體晶片120最鄰近之絕緣層的厚度可大於其他絕緣層的厚度。屏蔽功能可經由厚度差異而進行,使得第二連接構件可進一步薄化。同時,視感應器圖案Tx及感應器圖案Rx的設計,層M1及層M2亦可作為一個層。以下將省略與前述重複的架構說明。Referring to the drawings, in the fan-out type semiconductor package 100E according to the modified embodiment, the redistribution layer 142 of the second connection member 140 may include a layer M1, a layer M2, and a layer M3, and the layers M1 and M2 can perform fingerprint recognition functions. And layer M3 can perform the rewiring function. A layer capable of performing a shielding function can be omitted. In this case, the thickness of the insulating layer closest to the semiconductor wafer 120 in the insulating layer 141 of the second connecting member 140 may be greater than the thickness of the other insulating layers. The shielding function can be performed via a difference in thickness such that the second connecting member can be further thinned. Meanwhile, the layer M1 and the layer M2 may also function as one layer depending on the design of the sensor pattern Tx and the sensor pattern Rx. The architectural description repeated as described above will be omitted below.
圖18為圖15扇出型半導體封裝的修改後實施例的剖視示意圖。Figure 18 is a cross-sectional view showing a modified embodiment of the fan-out type semiconductor package of Figure 15.
參照圖式,在根據另一修改後實施例的扇出型半導體封裝的100F中,半導體晶片120可以圖式中面朝下的形式配置。在此情況下,第二連接構件140b可配置於半導體晶片120的非主動面上,第二連接構件140b包括重佈線層142b,重佈線層142b包括數個進行上述功能的層M1、層M2以及層M3,且第三連接構件140a可配置於半導體晶片120的主動面上,第三連接構件140a包括重佈線層142a,重佈線層142a的主要用途為對半導體晶片120的連接墊122進行重新佈線。第二連接構件140b及第三連接構件140a可經由第一連接構件110而彼此連接。第二連接構件140b的絕緣層141b可由絕緣材料(例如:感光成像介電(PID)樹脂)形成,且第二連接構件140b的重佈線層142b及導通孔143b可由已知的導電材料形成,例如銅等。第三連接構件140a的絕緣層141a可由絕緣材料形成,例如感光成像介電(PID)樹脂,且第三連接構件140a的重佈線層142a及導通孔143a可由已知的導電材料形成,例如銅。第二連接構件140b的層M1、層M2以及層M3可視設計而如上述修改。以下將省略與前述重複的架構說明。Referring to the drawings, in the 100F of the fan-out type semiconductor package according to another modified embodiment, the semiconductor wafer 120 may be disposed in a downward-facing form in the drawing. In this case, the second connection member 140b may be disposed on the inactive surface of the semiconductor wafer 120, the second connection member 140b includes the redistribution layer 142b, and the redistribution layer 142b includes a plurality of layers M1, M2 for performing the above functions, and The layer M3, and the third connecting member 140a can be disposed on the active surface of the semiconductor wafer 120, the third connecting member 140a includes the redistribution layer 142a, and the main purpose of the redistribution layer 142a is to rewire the connection pad 122 of the semiconductor wafer 120. . The second connection member 140b and the third connection member 140a may be connected to each other via the first connection member 110. The insulating layer 141b of the second connection member 140b may be formed of an insulating material (for example, Photographic Imaging Dielectric (PID) resin), and the redistribution layer 142b and the via hole 143b of the second connection member 140b may be formed of a known conductive material, for example, for example Copper and so on. The insulating layer 141a of the third connecting member 140a may be formed of an insulating material such as a photosensitive imaging dielectric (PID) resin, and the redistribution layer 142a and the via hole 143a of the third connecting member 140a may be formed of a known conductive material such as copper. The layer M1, the layer M2 and the layer M3 of the second connecting member 140b are visually designed and modified as described above. The architectural description repeated as described above will be omitted below.
如前所述,根據在本揭露中的例示性實施例,可提供一種具有指紋辨識功能的超小型、超薄化扇出型半導體封裝。As described above, according to an exemplary embodiment of the present disclosure, an ultra-small, ultra-thin fan-out type semiconductor package having a fingerprint recognition function can be provided.
雖然本發明已以實施例揭露如上,然其並非用以限定本發明,任何所屬技術領域中具有通常知識者,在不脫離本發明的精神和範圍內,當可作些許的更動與潤飾。Although the present invention has been disclosed in the above embodiments, it is not intended to limit the present invention, and it is intended to be a part of the invention, and may be modified and modified without departing from the spirit and scope of the invention.
100‧‧‧半導體封裝100‧‧‧Semiconductor package
100A、100B、100C、100D、100E、100F‧‧‧扇出型半導體封裝100A, 100B, 100C, 100D, 100E, 100F‧‧‧ fan-out semiconductor packages
110‧‧‧第一連接構件110‧‧‧First connecting member
110H‧‧‧貫穿孔110H‧‧‧through hole
111a‧‧‧第一絕緣層111a‧‧‧First insulation
111b‧‧‧第二絕緣層111b‧‧‧Second insulation
111c‧‧‧第三絕緣層111c‧‧‧ third insulation
112a‧‧‧第一重佈線層112a‧‧‧First redistribution layer
112b‧‧‧第二重佈線層112b‧‧‧Second redistribution layer
112c‧‧‧第三重佈線層112c‧‧‧ Third rewiline layer
112d‧‧‧第四重佈線層112d‧‧‧fourth redistribution layer
113a‧‧‧第一導通孔113a‧‧‧First via
113b‧‧‧第二導通孔113b‧‧‧Second via
113c‧‧‧第三導通孔113c‧‧‧ third via
120‧‧‧半導體晶片120‧‧‧Semiconductor wafer
121‧‧‧本體121‧‧‧Ontology
122‧‧‧連接墊122‧‧‧Connecting mat
123‧‧‧鈍化層123‧‧‧ Passivation layer
130‧‧‧包封體130‧‧‧Encapsulation
131‧‧‧開口131‧‧‧ openings
140‧‧‧第二連接構件140‧‧‧Second connection member
140a‧‧‧第三連接構件140a‧‧‧ Third connecting member
140b‧‧‧第二連接構件140b‧‧‧Second connection member
141、141a、141b‧‧‧絕緣層141, 141a, 141b‧‧‧ insulation
142、142a、142b‧‧‧重佈線層142, 142a, 142b‧‧‧ rewiring layer
143、143a、143b‧‧‧導通孔143, 143a, 143b‧‧‧ vias
150‧‧‧鈍化層150‧‧‧ Passivation layer
160‧‧‧凸塊下金屬層160‧‧‧ under bump metal layer
170‧‧‧連接端子170‧‧‧Connecting terminal
190‧‧‧被動組件190‧‧‧ Passive components
1000‧‧‧電子裝置1000‧‧‧Electronic devices
1010‧‧‧主板1010‧‧‧ motherboard
1020‧‧‧晶片相關組件1020‧‧‧ wafer related components
1030‧‧‧網路相關組件1030‧‧‧Network related components
1040‧‧‧其他組件1040‧‧‧Other components
1050‧‧‧相機模組1050‧‧‧ camera module
1060‧‧‧天線1060‧‧‧Antenna
1070‧‧‧顯示裝置1070‧‧‧Display device
1080‧‧‧電池1080‧‧‧Battery
1090‧‧‧信號線1090‧‧‧ signal line
1100‧‧‧智慧型電話1100‧‧‧Smart Phone
1101‧‧‧本體1101‧‧‧ Ontology
1110‧‧‧主板1110‧‧‧ motherboard
1120‧‧‧電子組件1120‧‧‧Electronic components
1130‧‧‧相機模組1130‧‧‧ camera module
2100‧‧‧扇出型半導體封裝2100‧‧‧Fan-out semiconductor package
2120‧‧‧半導體晶片2120‧‧‧Semiconductor wafer
2121‧‧‧本體2121‧‧‧ Ontology
2122‧‧‧連接墊2122‧‧‧Connecting mat
2130‧‧‧包封體2130‧‧‧Encapsulation
2140‧‧‧連接構件2140‧‧‧Connecting members
2141‧‧‧絕緣層2141‧‧‧Insulation
2142‧‧‧重佈線層2142‧‧‧Rewiring layer
2143‧‧‧導通孔2143‧‧‧vias
2150‧‧‧鈍化層2150‧‧‧ Passivation layer
2200‧‧‧扇入型半導體封裝2200‧‧‧Fan-in semiconductor package
2220‧‧‧半導體晶片2220‧‧‧Semiconductor wafer
2221‧‧‧本體2221‧‧‧ Ontology
2222‧‧‧連接墊2222‧‧‧Connecting mat
2223‧‧‧鈍化層2223‧‧‧ Passivation layer
2240‧‧‧連接構件2240‧‧‧Connecting components
2241‧‧‧絕緣層2241‧‧‧Insulation
2242‧‧‧佈線圖案2242‧‧‧Wiring pattern
2243、2243h‧‧‧導通孔2243, 2243h‧‧‧through holes
2250‧‧‧鈍化層2250‧‧‧ Passivation layer
2251‧‧‧開口2251‧‧‧ openings
2270‧‧‧焊球2270‧‧‧ solder balls
2280‧‧‧底部填充樹脂2280‧‧‧ underfill resin
2290‧‧‧模製材料2290‧‧‧Molded materials
2301、2302‧‧‧中介基板2301, 2302‧‧‧Intermediate substrate
2500‧‧‧主板2500‧‧‧ motherboard
g‧‧‧預定間隔g‧‧‧Predetermined interval
I-I’‧‧‧剖線I-I’‧‧‧ cut line
II-II’‧‧‧剖線II-II’‧‧‧ Thread
M1、M2、M3、M4‧‧‧層M1, M2, M3, M4‧‧ layers
Rx‧‧‧感應圖案Rx‧‧‧ sensing pattern
Tx‧‧‧感應圖案Tx‧‧‧ induction pattern
Sr‧‧‧間隔Sr‧‧ interval
St‧‧‧間隔St‧‧ interval
Wr‧‧‧線寬Wr‧‧‧ line width
Wt‧‧‧線寬Wt‧‧‧ line width
下文特舉實施例,並配合所附圖式作詳細說明,本發明的上述及其他態樣、特徵及優點將能更明顯易懂,在所附圖式中: 圖1為說明電子裝置系統的一實施例的方塊示意圖; 圖2為說明電子裝置的一實施例的立體示意圖; 圖3A及圖3B為說明扇入型半導體封裝在封裝前及封裝後狀態的剖視示意圖; 圖4為說明扇入型半導體封裝的封裝製程的剖視示意圖; 圖5為說明扇入型半導體封裝安裝於中介基板上且最終安裝於電子裝置的主板上之情形的剖視示意圖; 圖6為說明扇入型半導體封裝嵌入中介基板中且最終安裝於電子裝置的主板上之情形的剖視示意圖; 圖7為說明扇出型半導體封裝的剖視示意圖; 圖8為說明扇出型半導體封裝安裝於電子裝置的主板上的情形的剖視示意圖; 圖9為說明扇出型半導體封裝的一實施例的剖視示意圖; 圖10為沿圖9的扇出型半導體封裝的剖線I-I’所截取的平面示意圖; 圖11為說明圖9中扇出型半導體封裝的M1與M2實施例的示意圖; 圖12為說明圖9中扇出型半導體封裝的M1與M2另一實施例的示意圖; 圖13為圖9扇出型半導體封裝之修改後實施例的剖視示意圖; 圖14為圖9扇出型半導體封裝的修改後另一實施例的剖視示意圖; 圖15為說明扇出型半導體封裝另一實施例的剖視示意圖; 圖16為沿圖15的扇出型半導體封裝的剖線II-II’所截取的平面示意圖; 圖17為圖15扇出型半導體封裝之修改後實施例的剖視示意圖;以及 圖18為圖15扇出型半導體封裝的修改後另一實施例的剖視示意圖。The above and other aspects, features, and advantages of the present invention will become more apparent from the aspects of the appended claims. FIG. 2 is a schematic perspective view showing an embodiment of an electronic device; FIG. 3A and FIG. 3B are cross-sectional views illustrating a state of a fan-in type semiconductor package before and after packaging; FIG. FIG. 5 is a cross-sectional view showing a state in which a fan-in type semiconductor package is mounted on an interposer substrate and finally mounted on a main board of an electronic device; FIG. 6 is a view showing a fan-in type semiconductor. FIG. 7 is a cross-sectional view illustrating a fan-out type semiconductor package; FIG. 8 is a schematic view illustrating a fan-out type semiconductor package mounted on a motherboard of an electronic device; FIG. FIG. 9 is a cross-sectional view showing an embodiment of a fan-out type semiconductor package; FIG. 10 is a fan-out type semiconductor package taken along FIG. FIG. 11 is a schematic view showing an embodiment of M1 and M2 of the fan-out type semiconductor package of FIG. 9. FIG. 12 is a view showing M1 of the fan-out type semiconductor package of FIG. FIG. 13 is a cross-sectional view showing a modified embodiment of the fan-out type semiconductor package of FIG. 9; FIG. 14 is a cross-sectional view showing another modified embodiment of the fan-out type semiconductor package of FIG. Figure 15 is a cross-sectional view showing another embodiment of the fan-out type semiconductor package; Figure 16 is a plan view taken along line II-II' of the fan-out type semiconductor package of Figure 15; Figure 17 is a fan-out of Figure 15. A schematic cross-sectional view of a modified embodiment of a semiconductor package; and FIG. 18 is a cross-sectional view of another modified embodiment of the fan-out semiconductor package of FIG.
Claims (20)
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KR1020160137663A KR101994750B1 (en) | 2016-08-22 | 2016-10-21 | Fan-out semiconductor package |
??10-2016-0137663 | 2016-10-21 |
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KR20190121560A (en) * | 2018-04-18 | 2019-10-28 | 삼성전기주식회사 | Fan-out semiconductor package |
KR102542617B1 (en) * | 2018-06-08 | 2023-06-14 | 삼성전자주식회사 | Semiconductor package, Package on Package device and method of fabricating the same |
KR102081089B1 (en) | 2018-08-10 | 2020-02-25 | 삼성전자주식회사 | Semiconductor package |
KR102140554B1 (en) * | 2018-09-12 | 2020-08-03 | 삼성전자주식회사 | Semiconductor package and board for mounting the same |
KR102589683B1 (en) * | 2018-11-16 | 2023-10-16 | 삼성전자주식회사 | Fan-out semiconductor package |
TWI680547B (en) * | 2018-11-16 | 2019-12-21 | 恆勁科技股份有限公司 | Semiconductor package structure and method of making the same |
KR102674028B1 (en) * | 2018-11-19 | 2024-06-12 | 삼성전자주식회사 | Semiconductor package |
KR102586888B1 (en) * | 2018-11-27 | 2023-10-06 | 삼성전기주식회사 | Semiconductor package |
KR102632367B1 (en) * | 2018-12-04 | 2024-02-02 | 삼성전기주식회사 | Semiconductor package |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20090237900A1 (en) * | 2008-03-24 | 2009-09-24 | Makoto Origuchi | Component built-in wiring board |
US20110259630A1 (en) * | 2010-04-26 | 2011-10-27 | Samsung Electro-Mechanics Co., Ltd. | Electronic Component-Embedded Printed Circuit Board and Method Of Manufacturing The Same |
US20140047706A1 (en) * | 2010-11-02 | 2014-02-20 | Jalil SHAIKH | Capacitive Touch Sensor for Identifying a Fingerprint |
US20140070396A1 (en) * | 2012-09-12 | 2014-03-13 | Shinko Electric Industries Co., Ltd. | Semiconductor package and manufacturing method |
US8717775B1 (en) * | 2010-08-02 | 2014-05-06 | Amkor Technology, Inc. | Fingerprint sensor package and method |
Family Cites Families (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US8618654B2 (en) * | 2010-07-20 | 2013-12-31 | Marvell World Trade Ltd. | Structures embedded within core material and methods of manufacturing thereof |
JP5826532B2 (en) * | 2010-07-15 | 2015-12-02 | 新光電気工業株式会社 | Semiconductor device and manufacturing method thereof |
KR101362715B1 (en) * | 2012-05-25 | 2014-02-13 | 주식회사 네패스 | Semiconductor package, method of manufacturing the same and package-on-package |
WO2015026344A1 (en) * | 2013-08-21 | 2015-02-26 | Intel Corporation | Bumpless die-package interface for bumpless build-up layer (bbul) |
US9455211B2 (en) * | 2013-09-11 | 2016-09-27 | Taiwan Semiconductor Manufacturing Company, Ltd. | Integrated fan-out structure with openings in buffer layer |
TWI529582B (en) * | 2014-06-18 | 2016-04-11 | 宸鴻科技(廈門)有限公司 | Touch panel with a function of fingerprint identification |
TWM522420U (en) * | 2016-02-17 | 2016-05-21 | Metrics Technology Co Ltd J | Fingerprint sensing module |
-
2016
- 2016-10-21 KR KR1020160137663A patent/KR101994750B1/en active IP Right Grant
-
2017
- 2017-07-13 TW TW106123426A patent/TWI646648B/en not_active IP Right Cessation
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Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20090237900A1 (en) * | 2008-03-24 | 2009-09-24 | Makoto Origuchi | Component built-in wiring board |
US20110259630A1 (en) * | 2010-04-26 | 2011-10-27 | Samsung Electro-Mechanics Co., Ltd. | Electronic Component-Embedded Printed Circuit Board and Method Of Manufacturing The Same |
US8717775B1 (en) * | 2010-08-02 | 2014-05-06 | Amkor Technology, Inc. | Fingerprint sensor package and method |
US20140047706A1 (en) * | 2010-11-02 | 2014-02-20 | Jalil SHAIKH | Capacitive Touch Sensor for Identifying a Fingerprint |
US20140070396A1 (en) * | 2012-09-12 | 2014-03-13 | Shinko Electric Industries Co., Ltd. | Semiconductor package and manufacturing method |
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TWI646648B (en) | 2019-01-01 |
KR20180021629A (en) | 2018-03-05 |
TW201807799A (en) | 2018-03-01 |
KR101994750B1 (en) | 2019-07-01 |
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