TWM460401U - Sensor package module - Google Patents

Sensor package module Download PDF

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Publication number
TWM460401U
TWM460401U TW101223536U TW101223536U TWM460401U TW M460401 U TWM460401 U TW M460401U TW 101223536 U TW101223536 U TW 101223536U TW 101223536 U TW101223536 U TW 101223536U TW M460401 U TWM460401 U TW M460401U
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TW
Taiwan
Prior art keywords
lead
inner lead
pin
package module
light
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TW101223536U
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Chinese (zh)
Inventor
Shih-Chi Chen
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Standard Technology Service Inc
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Priority to TW101223536U priority Critical patent/TWM460401U/en
Publication of TWM460401U publication Critical patent/TWM460401U/en

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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01LSEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
    • H01L2224/00Indexing scheme for arrangements for connecting or disconnecting semiconductor or solid-state bodies and methods related thereto as covered by H01L24/00
    • H01L2224/01Means for bonding being attached to, or being formed on, the surface to be connected, e.g. chip-to-package, die-attach, "first-level" interconnects; Manufacturing methods related thereto
    • H01L2224/10Bump connectors; Manufacturing methods related thereto
    • H01L2224/15Structure, shape, material or disposition of the bump connectors after the connecting process
    • H01L2224/16Structure, shape, material or disposition of the bump connectors after the connecting process of an individual bump connector
    • H01L2224/161Disposition
    • H01L2224/16151Disposition the bump connector connecting between a semiconductor or solid-state body and an item not being a semiconductor or solid-state body, e.g. chip-to-substrate, chip-to-passive
    • H01L2224/16221Disposition the bump connector connecting between a semiconductor or solid-state body and an item not being a semiconductor or solid-state body, e.g. chip-to-substrate, chip-to-passive the body and the item being stacked
    • H01L2224/16245Disposition the bump connector connecting between a semiconductor or solid-state body and an item not being a semiconductor or solid-state body, e.g. chip-to-substrate, chip-to-passive the body and the item being stacked the item being metallic

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Description

感測器封裝模組Sensor package module

本創作係有關於一種感測器封裝模組,特別是一種使用導線架(Leadframe)以及網印技術(Printing)所形成之感測器封裝模組。The present invention relates to a sensor package module, and more particularly to a sensor package module formed by using a lead frame and a printing technique.

隨著積體電路(IC)產品需求量的日益提昇,推動了電子封裝產業的蓬勃發展。而在電子製造技術不斷發展演進,在目前電子產品講求「輕、薄、短、小、高功能」的要求下,亦使得IC晶片封裝技術不斷推陳出新,以符合電子產品的需要。With the increasing demand for integrated circuit (IC) products, the electronic packaging industry has been booming. With the continuous development of electronic manufacturing technology, the current electronic products are demanding "light, thin, short, small, high-function", and the IC chip packaging technology is constantly being updated to meet the needs of electronic products.

所有電子產品皆以「電」為能源,然而電力的傳送必須經過線路的連接方可達成,因此IC封裝即可達到此一功能;在線路連接之後,各電子元件間的訊號傳遞自然可經由這些線路加以輸送。電子封裝的另一功能,則是藉由封裝材料的導熱功能,將電子於線路間傳遞產生的熱量去除,以避免IC晶片因過熱而毀損。最後,IC封裝除對易碎的晶片提供了足夠的機械強度,以及適當的保護,亦避免了精細的積體電路受到污染的可能性。All electronic products use "electricity" as the energy source. However, the transmission of power must be made through the connection of the line, so the IC package can achieve this function; after the line is connected, the signal transmission between the electronic components can naturally pass through these The line is transported. Another function of the electronic package is to remove the heat generated by the transfer of electrons between the lines by the heat conduction function of the package material to prevent the IC chip from being damaged by overheating. Finally, the IC package provides sufficient mechanical strength and proper protection for fragile wafers, and also avoids the possibility of contamination of delicate integrated circuits.

在積體電路的製作中,晶片(chip)是經由晶圓(wafer)製作、形成積體電路以及切割晶圓(wafer sawing)等步驟而完成。晶圓具有一主動面(active surface),其泛指晶圓之具有主動元件(active element)的表面。當晶圓內部之積體電路完成之後,晶圓之主動面更配置有多個焊墊(bonding pad),以使最終由晶圓切割所形成的晶片可經由這些焊墊而向外電性連接於一承載器(carrier)。承載器例如為一導線架(leadframe)。晶片以打線接合(wire bonding)的方式連接至承載器上,使得晶片之這些焊墊可電性連接於承載器之接點,以構成一晶片封裝結構。In the fabrication of an integrated circuit, a chip is completed by a process of fabricating a wafer, forming an integrated circuit, and wafer sawing. The wafer has an active surface that generally refers to the surface of the wafer that has an active element. After the integrated circuit inside the wafer is completed, the active surface of the wafer is further provided with a plurality of bonding pads, so that the wafers finally formed by the wafer cutting can be electrically connected to the outside through the pads. A carrier. The carrier is for example a leadframe. The wafers are connected to the carrier by wire bonding so that the pads of the wafer can be electrically connected to the contacts of the carrier to form a chip package structure.

而以光感測器(Light Sensor)為例,光感測器(Light Sensor)分別有發光二極體晶粒及感應晶片兩種元件,此兩種元件即是以打線接合(wire bonding)之方式連接於承載器上;然而,此種封裝結構不僅製程繁雜,所需付出的時間及成本都高出很多。For example, in the case of a light sensor, a light sensor has two components, a light-emitting diode die and an inductive chip, and the two components are wire bonding. The method is connected to the carrier; however, such a package structure is not only complicated in process, but also requires a lot of time and cost.

為了解決上述所提到問題,本創作之一主要目的在於提供一種感測器封裝模組,特別是採用導線架以及網印技術所形成之感測器封裝模組,使得本創作的感測器封裝模組可以大量製造、可降低製程之成本並節省時間。In order to solve the above mentioned problems, one of the main purposes of the present invention is to provide a sensor package module, in particular, a sensor package module formed by using a lead frame and a screen printing technology, so that the sensor of the present invention is made. Packaged modules can be manufactured in large quantities, reducing process costs and saving time.

依據上述目的,本創作提供一種感測器封裝模組,包括:一導線架,包含一第一導線區及一第二導線區,第一導線區及第二導線區分別由複數個縱向平行排列且橫向相互對稱排列之金屬引腳所形成,每一金屬引腳具有一內引腳及一外引腳,其中:第一導線區之相互對稱之金屬引腳包括對稱之一第一內引腳及一第二內引腳,其第一內引腳及第二內引腳分別具有一下表面,第一內引腳與第二內引腳經縱向彎折分別形成對稱之折起部,複數個第一內引腳及複數個第二內引腳之對稱之此些折起部之下表面形成一第一放置空間,第一內引腳之折起部經縱向彎折分別形成一第一外引腳,且第一外引腳之彎折方向相反於第一內引腳,第二內引腳之折起部經縱向彎折分別形成一第二外引腳,且第二外引腳之彎折方向相反於第二內引腳,第一外引腳與第二內引腳形成相互對稱之配置;第二導線區之相互對稱之金屬引腳包括對稱之一第三內引腳及一第四內引腳,其第三內引腳及第四內引腳分別具有一下表面,第三內引腳與第四內引腳經縱向彎折分別形成對稱之折起部,複數個第三內引腳及複數個第四內引腳之對稱之此些折起部之下表面形成一第二放置空間,第三內引腳之折起部經縱向彎折分別形成一第三外引腳,且第三外引腳之彎折方向相反於第三內引腳,第四內引腳之折起部經縱向彎折分別形成一第四外引腳,且第四外引腳之彎折方向相反於第四內引腳,第三外引腳與第四內引腳形成相互對稱之配置;其中,第二外引腳及第三外引腳相互連接形成一連接引腳;一發光元件,係配置於第一放置空間;一光感測元件,係配置於第二放置空間;一網印模,係覆蓋於第一外引腳、第四外引腳及連接引腳之上表面;其中,網印模之高度係大於等於第一放置空間及第二放置空間之高度。According to the above object, the present invention provides a sensor package module, comprising: a lead frame comprising a first lead region and a second lead region, wherein the first lead region and the second lead region are respectively arranged in a plurality of longitudinal parallel directions And each of the metal pins has an inner pin and an outer pin, wherein: the first wire region is symmetric with each other, and the metal pin includes one of the first inner pins. And a second inner pin, wherein the first inner lead and the second inner lead respectively have a lower surface, and the first inner lead and the second inner lead are longitudinally bent to form a symmetrical folded portion, respectively a lower surface of the folded portion of the first inner lead and the plurality of second inner leads forms a first placement space, and the folded portions of the first inner lead are longitudinally bent to form a first outer portion a pin, and the first outer pin is bent in a direction opposite to the first inner pin, and the folded portion of the second inner pin is longitudinally bent to form a second outer pin, and the second outer pin is The bending direction is opposite to the second inner pin, and the first outer pin and the second inner pin form a mutual symmetrical configuration; the mutually symmetrical metal pins of the second lead region comprise a symmetrical one of the third inner lead and a fourth inner lead, and the third inner lead and the fourth inner lead respectively have a lower surface, The third inner lead and the fourth inner lead are longitudinally bent to form a symmetrical folded portion, and a plurality of third inner leads and a plurality of fourth inner leads are symmetrically formed on a lower surface of the folded portions a second placement space, the folded portion of the third inner lead is longitudinally bent to form a third outer lead, and the third outer lead is bent in a direction opposite to the third inner lead, and the fourth inner lead The folded portion of the foot is longitudinally bent to form a fourth outer lead, and the fourth outer lead is bent in a direction opposite to the fourth inner lead, and the third outer lead and the fourth inner lead are symmetric with each other. The second outer pin and the third outer pin are connected to each other to form a connecting pin; a light emitting element is disposed in the first placement space; and a light sensing element is disposed in the second placement space; a screen stamp covering the first outer lead, the fourth outer lead, and the upper surface of the connecting pin; , Web-based stamp height greater than a height equal to a first space and a second placement of the placement space.

本創作所提出之感測器封裝模組,可以大量製造,省略繁雜的製程,因此可減少成本,並縮短製程之時間。The sensor package module proposed by the present invention can be manufactured in a large amount, and the complicated process is omitted, thereby reducing the cost and shortening the process time.

為使本創作之目的、技術特徵及優點,能更為相關技術領域人員所了解並得以實施本創作,在此配合所附圖式,於後續之說明書闡明本創作之技術特徵與實施方式,並列舉較佳實施例進一步說明,然以下實施例說明並非用以限定本創作,且以下文中所對照之圖式,係表達與本創作特徵有關之示意。In order to clarify the purpose, technical features and advantages of the present invention, the author can understand and implement the present invention, and the technical features and implementation manners of the present invention are explained in the following description in conjunction with the drawings. The description of the preferred embodiments is further illustrated, but the following description of the embodiments is not intended to limit the present invention, and the drawings in the following description are intended to be illustrative of the features of the present invention.

請參閱圖1A至圖1D,係為本創作之感測器封裝模組封裝過程之剖視圖。首先,本創作先提供一個金屬片,經過沖壓製程(stamping process)後,在金屬片形成多個導線架1,每一導線架1包含第一導線區1’及第二導線區1’’;而導線架1之材料可使用鐵鎳、合金片、鋁或銅等金屬材料。接著,請參閱圖1A,第一導線區1’係由複數個縱向平行排列且橫向相互對稱排列之金屬引腳所形成,每一金屬引腳具有一內引腳14及一外引腳16;第一導線區1’之相互對稱之金屬引腳包括對稱之第一內引腳141及第二內引腳143,並分別具有一下表面12a;第一內引腳141與第二內引腳143經縱向彎折分別形成對稱之折起部1411、1431,複數個第一內引腳141及複數個第二內引腳143之對稱之折起部1411、1431之下表面12a形成一個第一放置空間15,也就是說第一放置空間15內之第一內引腳141群及第二內引腳143群之下表面12a具有一第一放置區151;第一內引腳141之折起部1411經縱向彎折分別形成一第一外引腳161,且第一外引腳161之彎折方向相反於第一內引腳141;第二內引腳143之折起部1431經縱向彎折分別形成一第二外引腳163,且第二外引腳163之彎折方向相反於第二內引腳143;第一外引腳161與第二內引腳163形成相互對稱之配置。Please refer to FIG. 1A to FIG. 1D , which are cross-sectional views showing the packaging process of the sensor package module of the present invention. First, the present invention first provides a metal sheet, after a stamping process, forming a plurality of lead frames 1 in the metal sheet, each lead frame 1 comprising a first lead region 1' and a second lead region 1"; The material of the lead frame 1 may be a metal material such as iron nickel, alloy sheet, aluminum or copper. Next, referring to FIG. 1A, the first lead region 1' is formed by a plurality of metal pins arranged in a longitudinal direction and arranged symmetrically in a lateral direction, each metal pin having an inner lead 14 and an outer lead 16; The mutually symmetrical metal pins of the first wire region 1' include a first inner pin 141 and a second inner pin 143 which are symmetric, and have a lower surface 12a; a first inner pin 141 and a second inner pin 143, respectively. The symmetrical folded portions 1411 and 1431 are respectively formed by longitudinal bending, and the lower surface 12a of the symmetrical folded portions 1411 and 1431 of the plurality of first inner leads 141 and the plurality of second inner leads 143 form a first placement The space 15, that is, the first inner pin 141 group and the second inner pin 143 group lower surface 12a in the first placement space 15 have a first placement area 151; the first inner lead 141 is folded up 1411 is longitudinally bent to form a first outer lead 161, and the first outer lead 161 is bent in a direction opposite to the first inner lead 141; the folded portion 1431 of the second inner lead 143 is longitudinally bent. Forming a second outer lead 163, respectively, and the second outer lead 163 has a bending direction opposite to the second inner lead 143; A second outer pin 161 and the pin 163 is formed of mutually symmetrically arranged.

同樣地,第二導線區1’’係由複數個縱向平行排列且橫向相互對稱排列之金屬引腳所形成,每一金屬引腳具有一內引腳14及一外引腳16,並分別具有一下表面12b;第二導線區1’’之相互對稱之金屬引腳包括對稱之第三內引腳145及第四內引腳147;第三內引腳145與第四內引腳147經縱向彎折分別形成對稱之折起部1451、1471,複數個第三內引腳145及複數個第四內引腳147之對稱之折起部1451、1471之下表面12b形成一個第二放置空間17,也就是說第二放置空間17內之第三內引腳145群及第四內引腳147群之下表面12b具有一第二放置區171;第三內引腳145之折起部1451經縱向彎折分別形成一第三外引腳165,且第三外引腳165之彎折方向相反於第三內引腳145;第四內引腳147之折起部1471經縱向彎折分別形成一第四外引腳167,且第四外引腳167之彎折方向相反於第四內引腳147;第三外引腳165與第四內引腳167形成相互對稱之配置。Similarly, the second lead region 1'' is formed by a plurality of metal pins arranged in a longitudinally parallel direction and symmetrically arranged laterally. Each metal pin has an inner lead 14 and an outer lead 16 and has respectively The lower surface 12b; the mutually symmetrical metal pins of the second wire region 1" include a symmetric third inner pin 145 and a fourth inner pin 147; the third inner pin 145 and the fourth inner pin 147 are longitudinally The bent portions respectively form symmetrical folded portions 1451, 1471, and the plurality of third inner leads 145 and the plurality of fourth inner leads 147 are symmetrically folded up portions 1451, 1471, and the lower surface 12b forms a second placement space 17 That is, the third inner pin 145 group and the fourth inner pin 147 group lower surface 12b in the second placement space 17 have a second placement area 171; the folded portion 1451 of the third inner lead 145 passes through The longitudinal bending forms a third outer lead 165, and the third outer lead 165 has a bending direction opposite to the third inner lead 145; the folded portion 1471 of the fourth inner lead 147 is formed by longitudinally bending. a fourth outer pin 167, and the fourth outer pin 167 has a bending direction opposite to the fourth inner pin 147; the third outer lead The foot 165 and the fourth inner pin 167 form a mutually symmetrical configuration.

其中,由於第一導線區1’及第二導線區1’’為彼此相鄰連接,因此第二外引腳163及第三外引腳165相互連接形成一連接引腳169;而因第二外引腳163連接之第二內引腳143具有一折起部1431,且第三外引腳165連接之第三內引腳145亦具有一折起部1451,因此兩折起部1431、1451與連接引腳169會自然形成一凹槽18。The second outer lead 163 and the third outer lead 165 are connected to each other to form a connecting pin 169, and the second outer lead 163 and the third outer lead 165 are connected to each other. The second inner lead 143 connected to the outer lead 163 has a folded portion 1431, and the third inner lead 145 connected to the third outer lead 165 also has a folded portion 1451, so the two folded portions 1431 and 1451 A recess 18 is naturally formed with the connecting pin 169.

接著,請參閱圖1B,在第一導線區1’之第一放置區151上配置一發光元件20,發光元件20是以複數個凸塊201(bump)連接於第一內引腳141及第二內引腳143之下表面12a上;而在第二放置區171上配置一光感測元件22,光感測元件22同樣以複數個凸塊221(bump)連接於第三內引腳145及第四內引腳147之下表面12b上;本創作之發光元件20及光感測元件22是以覆晶技術(Flip-Chip)之方式連接於第一放置區151及第二放置區171下方,並使發光元件20及光感測元件22容置於第一放置空間15及第二放置空間17內;其中發光元件20例如是LED光源,而光感測元件22係接收外界來的光,亦即光線接收晶片;因此,在連接發光元件20的第一內引腳141及第二內引腳143之間具有一間隔,以形成一照射孔203,使光能通過照射孔203射出;而連接光感測元件22的第三內引腳145及第四內引腳147之間具有一間隔,以形成一接收孔223,使光能通過接收孔223進入。Next, referring to FIG. 1B, a light-emitting element 20 is disposed on the first placement area 151 of the first lead region 1'. The light-emitting element 20 is connected to the first inner lead 141 by a plurality of bumps 201 (bump). The second inner lead 143 is disposed on the lower surface 12a; and the second sensing area 171 is disposed with a light sensing element 22, and the light sensing element 22 is also connected to the third inner lead 145 by a plurality of bumps 221 (bump). And the lower surface 12b of the fourth inner lead 147; the light-emitting element 20 and the photo-sensing element 22 of the present invention are connected to the first placement area 151 and the second placement area 171 by Flip-Chip. Below, the light-emitting element 20 and the light-sensing element 22 are housed in the first placement space 15 and the second placement space 17; wherein the light-emitting element 20 is, for example, an LED light source, and the light-sensing element 22 receives light from the outside. , that is, the light receiving wafer; therefore, there is a space between the first inner lead 141 and the second inner lead 143 connected to the light emitting element 20 to form an illumination hole 203, so that light energy can be emitted through the illumination hole 203; The third inner pin 145 and the fourth inner pin 147 connected to the photo sensing element 22 have a space between To a receiving hole 223 is formed, the light entering through the receiving hole 223.

再接著,請參閱圖1C,在第一外引腳161、第四外引腳167及連接引腳169之上表面10a、10b、10c(參閱圖1B)上覆蓋一網印模30,其網印模30是以網版印刷(printing)製程將工程塑膠(如:聚乙炔)覆蓋於一模具上以形成;由此可知,模具是根據導線架之結構而設計,故可使覆蓋的網印模30會圍繞於第一放置空間15及第二放置空間17周圍;其中,為避免發光元件20與光感測元件22之間彼此干擾,其周圍覆蓋的網印模30具有不透光之特性,而位於連接引腳169之凹槽18之作用亦為防止發光元件20與光感測元件22之間彼此干擾。Then, referring to FIG. 1C, the first outer lead 161, the fourth outer lead 167, and the upper surface 10a, 10b, 10c of the connecting pin 169 (see FIG. 1B) are covered with a screen stamp 30, the net The stamp 30 is formed by covering an engineering plastic (such as polyacetylene) on a mold by a printing process; thus, it can be known that the mold is designed according to the structure of the lead frame, so that the screen printing can be covered. The mold 30 surrounds the first placement space 15 and the second placement space 17; wherein, in order to prevent the light-emitting element 20 and the light-sensing element 22 from interfering with each other, the screen-printing mold 30 covered by the periphery thereof has opaque characteristics. The function of the recess 18 at the connection pin 169 also prevents the light-emitting element 20 and the light-sensing element 22 from interfering with each other.

最後,請參閱圖1D,在網印模30未覆蓋之第一放置空間15之區域,覆蓋一第一封膠層40,第一封膠層40會覆蓋第一放置空間15中的發光元件20、第一內引腳141及第二內引腳143,將網印模30未覆蓋之區域填滿,使發光元件20與外界隔絕;在網印模30未覆蓋之第二放置空間17之區域,覆蓋一第二封膠層42,第二封膠層42會覆蓋第二放置空間17中的光感測元件22、第三內引腳145及第四內引腳147,將網印模30未覆蓋之區域填滿,使光感測元件22與外界隔絕。第一封膠層40及第二封膠層42之材質為透明之環氧樹脂,並於周圍及上方塗有不透明塗料;在照射孔203對應位置之第一封膠層40上,留有未塗不透明塗料之照射穿透區401,而在接收孔223對應位置之第二封膠層42上,留有未塗不透明塗料之接收穿透區421,其主要目的為讓發光元件20射出光線及讓光感測元件22接收光線;在此要強調,發光元件20及光感測元件22之高度係小於或等於第一放置空間15及第二放置空間17之高度,而網印模30之高度係大於或等於第一放置空間15及第二放置空間17之高度;藉此將發光元件20、光感測元件22、第一放置空間15、第二放置空間17及網印模30之高度限制為一致,使整體感測器封裝模組更為輕薄;而採用覆晶技術之封裝結構,因不需打線(wire bonding)之製程,因此可減少成本,並縮短製程之時間;而採用導線架以及網印技術所形成之感測器封裝模組,使得本創作的感測器封裝模組可以大量製造,亦可降低製程之成本並節省時間;另外,在此說明,在上述製程中,是先將導線架1之第一放置區151及第二放置區171朝上,覆晶後覆蓋上一基板(未顯示於圖中),待網印模30於導線架1上形成再將導線架1反置回來,全部製程完成後,再移除基板(未顯示於圖中),以完成晶片封裝結構;在本創作另一較佳實施狀態中,亦可於導線架1之外另形成網印模30,再將網印模30與導線架1結合,以完成晶片封裝結構。Finally, referring to FIG. 1D, in a region of the first placement space 15 not covered by the screen stamp 30, a first sealant layer 40 is covered, and the first sealant layer 40 covers the light-emitting elements 20 in the first placement space 15. The first inner lead 141 and the second inner lead 143 fill the uncovered area of the screen stamp 30 to isolate the light emitting element 20 from the outside; in the area of the second placement space 17 not covered by the screen stamp 30 Covering a second sealant layer 42 , the second sealant layer 42 covers the photo sensing element 22 , the third inner lead 145 and the fourth inner lead 147 in the second placement space 17 , and the screen stamp 30 is The uncovered area is filled to isolate the light sensing element 22 from the outside. The first adhesive layer 40 and the second sealant layer 42 are made of a transparent epoxy resin, and are coated with an opaque paint on the periphery and the top; and the first sealant layer 40 at the corresponding position of the illumination hole 203 is left. The opaque coating is applied to the illuminating region 401, and the second encapsulating layer 42 corresponding to the receiving hole 223 is provided with a receiving penetration region 421 not coated with an opaque coating, the main purpose of which is to allow the illuminating element 20 to emit light and The light sensing element 22 is allowed to receive light; it is emphasized here that the heights of the light emitting element 20 and the light sensing element 22 are less than or equal to the heights of the first placement space 15 and the second placement space 17, and the height of the screen printing die 30 Is greater than or equal to the height of the first placement space 15 and the second placement space 17; thereby limiting the height of the light-emitting element 20, the light sensing element 22, the first placement space 15, the second placement space 17, and the screen impression 30 In order to make the overall sensor package module lighter and thinner, the package structure with flip chip technology can reduce the cost and shorten the process time because no wire bonding process is required. And the formation of screen printing technology The sensor package module enables the sensor package module of the present invention to be mass-produced, and the cost of the process can be reduced and the time can be saved. In addition, in the above process, the lead frame 1 is first A placement area 151 and a second placement area 171 face upward, and after covering the crystal, cover a substrate (not shown), and the screen stamp 30 is formed on the lead frame 1 and then the lead frame 1 is reversed. After the completion, the substrate (not shown) is removed to complete the chip package structure; in another preferred embodiment of the present invention, the screen stamp 30 may be formed outside the lead frame 1 and then the net The stamp 30 is combined with the lead frame 1 to complete the chip package structure.

請參閱圖2,係為本創作之感測器封裝模組封裝方法之流程圖。如圖2所示,感測器封裝模組之封裝方法步驟如下:Please refer to FIG. 2 , which is a flow chart of the method for packaging the sensor package module of the present invention. As shown in FIG. 2, the steps of the packaging method of the sensor package module are as follows:

步驟901,提供一導線架1,其有朝上開放之一第一放置區151及一第二放置區171;Step 901, a lead frame 1 is provided, which has a first placement area 151 and a second placement area 171 open upward;

步驟902,提供一發光元件20及一光感測元件22,以覆晶之方式將發光元件20及光感測元件22分別放置於第一放置區151及第二放置區171中,並以一基板覆蓋朝上開放之第一放置區151及第二放置區171;Step 902, a light-emitting element 20 and a light-sensing element 22 are provided, and the light-emitting element 20 and the light-sensing element 22 are respectively placed in the first placement area 151 and the second placement area 171 in a flip chip manner, and The substrate covers the first placement area 151 and the second placement area 171 which are open upward;

步驟903,反置發光元件20、光感測元件22及導線架1,使基板位於下方;Step 903, the light-emitting element 20, the light-sensing element 22 and the lead frame 1 are reversed so that the substrate is located below;

步驟904,提供一網印膜30,配置於第一放置區151之發光元件20及第二放置區171之光感測元件22旁之導線架1上;Step 904, providing a screen printing film 30, disposed on the light-emitting element 20 of the first placement area 151 and the lead frame 1 next to the light sensing element 22 of the second placement area 171;

步驟905,提供一第一封膠層40及一第二封膠層42,分別充填至第一放置區151及第二放置區171內並覆蓋發光元件20及光感測元件22,使發光元件20及光感測元件22與外界隔絕;Step 905, a first sealing layer 40 and a second sealing layer 42 are respectively filled into the first placement area 151 and the second placement area 171 and cover the light emitting element 20 and the light sensing element 22 to make the light emitting element 20 and the light sensing element 22 is isolated from the outside;

步驟906,移除基板。At step 906, the substrate is removed.

經由上述步驟,使感測器封裝模組能維持在較佳的厚度,並省略繁雜的製程,因此可減少成本,並縮短製程之時間;而採用導線架以及網印技術所形成之感測器封裝模組,使得本創作的感測器封裝模組可以大量製造,亦可降低製程之成本並節省時間。Through the above steps, the sensor package module can be maintained at a good thickness, and the complicated process is omitted, thereby reducing the cost and shortening the process time; and the sensor formed by the lead frame and the screen printing technology The package module enables the sensor package module of the present invention to be mass-produced, which also reduces the cost of the process and saves time.

雖然本創作以前述之較佳實施例揭露如上,然其並非用以限定本創作,任何熟習本領域技藝者,在不脫離本創作之精神和範圍內,當可作些許之更動與潤飾,因此本創作之專利保護範圍須視本說明書所附之申請專利範圍所界定者為準。Although the present invention has been described above with reference to the preferred embodiments thereof, it is not intended to limit the present invention, and those skilled in the art can make some modifications and refinements without departing from the spirit and scope of the present invention. The scope of patent protection of this creation is subject to the definition of the scope of the patent application attached to this specification.

1‧‧‧導線架1‧‧‧ lead frame

1’‧‧‧第一導線區1’‧‧‧First lead area

1’’‧‧‧第二導線區1’’‧‧‧Second wire area

10a‧‧‧上表面10a‧‧‧ upper surface

10b‧‧‧上表面10b‧‧‧ upper surface

10c‧‧‧上表面10c‧‧‧ upper surface

12a‧‧‧下表面12a‧‧‧ lower surface

12b‧‧‧下表面12b‧‧‧ lower surface

14‧‧‧內引腳14‧‧‧Inside pin

141‧‧‧第一內引腳141‧‧‧First inner pin

1411‧‧‧折起部1411‧‧‧Folding Department

143‧‧‧第二內引腳143‧‧‧Second inner pin

1431‧‧‧折起部1431‧‧‧Folding

145‧‧‧第三內引腳145‧‧‧The third inner pin

1451‧‧‧折起部1451‧‧‧Folding

147‧‧‧第四內引腳147‧‧‧4th inner pin

1471‧‧‧折起部1471‧‧‧Folding

15‧‧‧第一放置空間15‧‧‧First space

151‧‧‧第一放置區151‧‧‧First placement area

16‧‧‧外引腳16‧‧‧External pin

161‧‧‧第一外引腳161‧‧‧First outer lead

163‧‧‧第二外引腳163‧‧‧Second outer pin

165‧‧‧第三外引腳165‧‧‧Third outer pin

167‧‧‧第四外引腳167‧‧‧fourth outer pin

169‧‧‧連接引腳169‧‧‧Connecting pins

17‧‧‧第二放置空間17‧‧‧Second space

171‧‧‧第二放置區171‧‧‧Second placement area

18‧‧‧凹槽18‧‧‧ Groove

20‧‧‧發光元件20‧‧‧Lighting elements

201‧‧‧凸塊201‧‧‧Bumps

203‧‧‧照射孔203‧‧‧ illuminated holes

22‧‧‧光感測元件22‧‧‧Light sensing components

221‧‧‧凸塊221‧‧‧Bumps

223‧‧‧接收孔223‧‧‧ receiving hole

30‧‧‧網印模30‧‧‧Web impression

40‧‧‧第一封膠層40‧‧‧First adhesive layer

401‧‧‧照射穿透區401‧‧‧radiation penetration zone

42‧‧‧第二封膠層42‧‧‧Second sealant

421‧‧‧接收穿透區421‧‧‧ Receiving penetration zone

901、902、903、904、905、906‧‧‧步驟901, 902, 903, 904, 905, 906 ‧ ‧ steps

圖1A至圖1D 係為本創作之感測器封裝模組封裝過程之剖視圖;1A to 1D are cross-sectional views showing the packaging process of the sensor package module of the present invention;

圖2 係為本創作之感測器封裝模組封裝方法之流程圖。FIG. 2 is a flow chart of the method for packaging the sensor package module of the present invention.

161‧‧‧第一外引腳 161‧‧‧First outer lead

167‧‧‧第四外引腳 167‧‧‧fourth outer pin

169‧‧‧連接引腳 169‧‧‧Connecting pins

20‧‧‧發光元件 20‧‧‧Lighting elements

203‧‧‧照射孔 203‧‧‧ illuminated holes

22‧‧‧光感測元件 22‧‧‧Light sensing components

223‧‧‧接收孔 223‧‧‧ receiving hole

30‧‧‧網印模 30‧‧‧Web impression

40‧‧‧第一封膠層 40‧‧‧First adhesive layer

401‧‧‧照射穿透區 401‧‧‧radiation penetration zone

42‧‧‧第二封膠層 42‧‧‧Second sealant

421‧‧‧接收穿透區 421‧‧‧ Receiving penetration zone

Claims (7)

一種感測器封裝模組,包括:
一導線架,包含一第一導線區及一第二導線區,該第一導線區及該第二導線區分別由複數個縱向平行排列且橫向相互對稱排列之金屬引腳所形成,每一該金屬引腳具有一內引腳及一外引腳,其中:
該第一導線區之該些相互對稱之金屬引腳分別包括對稱之一第一內引腳及一第二內引腳,其該第一內引腳及該第二內引腳分別具有一下表面,該第一內引腳與該第二內引腳經縱向彎折分別形成對稱之折起部,複數個該第一內引腳及複數個該第二內引腳之下表面與對稱之該些折起部共同形成一第一放置空間,該第一內引腳之該折起部經縱向彎折形成一第一外引腳,且該第一外引腳之彎折方向相反於該第一內引腳,該第二內引腳之該折起部經縱向彎折形成一第二外引腳,且該第二外引腳之彎折方向相反於該第二內引腳,該第一外引腳與該第二外引腳形成相互對稱之配置;
該第二導線區之該些相互對稱之金屬引腳分別包括對稱之一第三內引腳及一第四內引腳,其該第三內引腳及該第四內引腳分別具有一下表面,該第三內引腳與該第四內引腳經縱向彎折分別形成對稱之折起部,複數個該第三內引腳及複數個該第四內引腳之下表面與對稱之該些折起部共同形成一第二放置空間,該第三內引腳之該折起部經縱向彎折形成一第三外引腳,且該第三外引腳之彎折方向相反於該第三內引腳,該第四內引腳之該折起部經縱向彎折形成一第四外引腳,且該第四外引腳之彎折方向相反於該第四內引腳,該第三外引腳與該第四外引腳形成相互對稱之配置;
其中,該第二外引腳及該第三外引腳相互連接形成一連接引腳;
一發光元件,係配置於該第一放置空間;
一光感測元件,係配置於該第二放置空間;
一網印模,係覆蓋於該第一外引腳、該第四外引腳及該連接引腳之上表面;
其中,該網印模之高度係大於等於該第一放置空間及該第二放置空間之高度。
A sensor package module includes:
a lead frame comprising a first lead region and a second lead region, wherein the first lead region and the second lead region are respectively formed by a plurality of metal pins arranged in a longitudinal direction and symmetrically arranged in a lateral direction, each of the The metal pin has an inner pin and an outer pin, wherein:
The mutually symmetrical metal pins of the first wire region respectively comprise a first inner pin and a second inner pin, wherein the first inner pin and the second inner pin respectively have a lower surface The first inner lead and the second inner lead are longitudinally bent to form a symmetrical folded portion, and the plurality of the first inner lead and the plurality of the second inner lead lower surface and the symmetry The folded portions together form a first placement space, the folded portion of the first inner lead is longitudinally bent to form a first outer lead, and the first outer lead is bent in a direction opposite to the first An inner lead, the folded portion of the second inner lead is longitudinally bent to form a second outer lead, and the second outer lead is bent in a direction opposite to the second inner lead, the first An outer pin and the second outer pin form a mutually symmetrical configuration;
The mutually symmetrical metal pins of the second lead region respectively comprise a symmetrical one third inner lead and a fourth inner lead, wherein the third inner lead and the fourth inner lead respectively have a lower surface The third inner lead and the fourth inner lead are longitudinally bent to form a symmetrical folded portion, and the plurality of the third inner lead and the plurality of lower inner surfaces of the fourth inner lead are symmetric with each other The folded portions together form a second placement space, the folded portion of the third inner lead is longitudinally bent to form a third outer lead, and the third outer lead is bent in a direction opposite to the first a third inner lead, the folded portion of the fourth inner lead is longitudinally bent to form a fourth outer lead, and the fourth outer lead has a bending direction opposite to the fourth inner lead, the first The three outer pins and the fourth outer lead form a mutually symmetrical configuration;
The second outer pin and the third outer pin are connected to each other to form a connecting pin;
a light emitting element disposed in the first placement space;
a light sensing component is disposed in the second placement space;
a screen stamp covering the first outer lead, the fourth outer lead, and an upper surface of the connecting pin;
The height of the screen impression is greater than or equal to the height of the first placement space and the second placement space.
根據申請專利範圍第1項所述之感測器封裝模組,其中該發光元件及該光感測元件上進一步配置複數個凸塊,用以將該發光元件連接於該第一內引腳之該下表面及該第二內引腳之該下表面,及用以將該光感測元件連接於該第三內引腳之該下表面及該第四內引腳之該下表面。The sensor package module of claim 1, wherein the light-emitting element and the light-sensing element are further configured with a plurality of bumps for connecting the light-emitting element to the first inner lead The lower surface and the lower surface of the second inner lead and the lower surface of the lower inner lead and the fourth inner lead are connected to the light sensing element. 根據申請專利範圍第1項所述之感測器封裝模組,其中該第一內引腳及該第二內引腳之間具有一間隔以形成一照射孔,該第三內引腳及該第四內引腳之間具有一間隔以形成一接收孔。The sensor package module of claim 1, wherein the first inner lead and the second inner lead have an interval therebetween to form an illumination hole, the third inner lead and the There is a space between the fourth inner leads to form a receiving hole. 根據申請專利範圍第3項所述之感測器封裝模組,其中該感測器封裝模組進一步包含:
一第一封膠層,用以覆蓋該發光元件、該第一內引腳及該第二內引腳;及
一第二封膠層,用以覆蓋該光感測元件、該第三內引腳及該第四內引腳。
The sensor package module of claim 3, wherein the sensor package module further comprises:
a first sealing layer for covering the light emitting element, the first inner lead and the second inner lead; and a second sealing layer for covering the light sensing element, the third inner lead The foot and the fourth inner pin.
根據申請專利範圍第4項所述之感測器封裝模組,其中該第一封膠層及該第二封膠層之高度係小於等於該網印模之高度。The sensor package module of claim 4, wherein the height of the first sealant layer and the second sealant layer is less than or equal to the height of the screen stamp. 根據申請專利範圍第4項所述之感測器封裝模組,其中該第一封膠層及該第二封膠層為透明之環氧樹脂。The sensor package module of claim 4, wherein the first sealant layer and the second sealant layer are transparent epoxy resins. 根據申請專利範圍第6項所述之感測器封裝模組,其中該第一封膠層表面之不與該照射孔相對應處及該第二封膠層表面之不與該接收孔相對應處,分別具有一不透明塗料,以使該第一封膠層表面形成一照射穿透區及使該第二封膠層表面形成一接收射穿區。According to the sensor package module of claim 6, wherein the surface of the first sealant layer does not correspond to the illumination hole and the surface of the second sealant layer does not correspond to the receiving hole. Whereas, each has an opaque coating such that the surface of the first encapsulant layer forms an illumination penetration region and the surface of the second encapsulation layer forms a receiving exit region.
TW101223536U 2012-12-05 2012-12-05 Sensor package module TWM460401U (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104425477A (en) * 2013-08-29 2015-03-18 矽格股份有限公司 Optical sensor packaging device
TWI583022B (en) * 2014-10-08 2017-05-11 榮創能源科技股份有限公司 Light emitting diode package, light emitting diode die and method for manufacuring the same

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104425477A (en) * 2013-08-29 2015-03-18 矽格股份有限公司 Optical sensor packaging device
TWI583022B (en) * 2014-10-08 2017-05-11 榮創能源科技股份有限公司 Light emitting diode package, light emitting diode die and method for manufacuring the same
US9660144B2 (en) 2014-10-08 2017-05-23 Advanced Optoelectronic Technology, Inc. LED package and LED die

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