TWI573469B - Mems microphone module - Google Patents
Mems microphone module Download PDFInfo
- Publication number
- TWI573469B TWI573469B TW101105830A TW101105830A TWI573469B TW I573469 B TWI573469 B TW I573469B TW 101105830 A TW101105830 A TW 101105830A TW 101105830 A TW101105830 A TW 101105830A TW I573469 B TWI573469 B TW I573469B
- Authority
- TW
- Taiwan
- Prior art keywords
- substrate
- conductive
- ground layer
- package module
- mems microphone
- Prior art date
Links
Landscapes
- Electrostatic, Electromagnetic, Magneto- Strictive, And Variable-Resistance Transducers (AREA)
- Micromachines (AREA)
- Pressure Sensors (AREA)
Description
本發明與微機電麥克風封裝模組有關,特別是指一種可降低製造成本之微機電麥克風封裝模組。The invention relates to a MEMS microphone package module, in particular to a MEMS microphone package module capable of reducing manufacturing cost.
由於科技的進步,微機電麥克風不論在功能或體積上都具有相當大的優勢,但是因為微機電麥克風必須要接收外界的聲音,所以很容易受到外在因素(如電磁波)的干擾而造成收訊品質不佳,進而導致相關電子產品的附加價值會連帶受到影響。因此,如何提升防止電磁波干擾的效果是目前業界最迫切需要改善的問題。Due to the advancement of technology, MEMS microphones have considerable advantages in terms of function or volume, but because MEMS microphones must receive external sounds, they are easily interfered by external factors (such as electromagnetic waves). Poor quality leads to the added value of related electronic products being affected. Therefore, how to improve the effect of preventing electromagnetic interference is the most urgent problem in the industry.
台灣公告第I299961號專利案揭露出一種「微機電麥克風及其封裝方法」,其主要是利用基板之第二導電層(導電銀膠)與蓋體之第三導電層來完成基板與蓋體之間的電性連接,另外再透過框架之第一導電層、基板之第二導電層、蓋體之第三導電層,以及接地裝置之間所形成之電性導通狀態來對積體電路元件構成一電氣干擾訊號防護遮罩,用以提供電磁屏蔽效果。然而,此專利案所使用的這些導電材料都需要相當高的材料成本,而且將導電銀膠同時接觸到第一導電層及第三導電層的製程難度不小,相對的造成製造成本的提升。Taiwan Patent Publication No. I299961 discloses a "microelectromechanical microphone and its packaging method", which mainly utilizes a second conductive layer of a substrate (conductive silver paste) and a third conductive layer of the cover to complete the substrate and the cover. The electrical connection is further formed by the first conductive layer of the frame, the second conductive layer of the substrate, the third conductive layer of the cover, and the electrical conduction state formed between the grounding devices. An electrical interference signal protection mask to provide electromagnetic shielding. However, the conductive materials used in this patent require a relatively high material cost, and the process of simultaneously contacting the conductive silver paste to the first conductive layer and the third conductive layer is not difficult, and the manufacturing cost is relatively increased.
台灣公開第201101851號專利案揭露出一種「微機電聲學感測器封裝結構」,其所提供之第二實施例中,蓋體之上板及中板之間藉由導電膠完成黏結,而蓋體之中板與載體之間藉由絕緣膠完成黏結,另外再載板與蓋體之間設置彈片,藉由彈片的傳導特性,以確保載板與蓋體之間完成電性導通來提供電磁屏蔽效果。然而,此專利案所使用的彈片尺寸不易控制,在連接上板與載板的製程也略為困難,同樣將造成產製成本上的增加。Taiwan Patent Publication No. 201101851 discloses a "micro-electromechanical acoustic sensor package structure". In the second embodiment, the upper and lower plates of the cover are bonded by a conductive adhesive, and the cover is covered. The middle plate and the carrier are bonded by an insulating glue, and a spring piece is disposed between the carrier plate and the cover body, and the electromagnetic property is ensured by the conductive property of the elastic piece to ensure electromagnetic conduction between the carrier plate and the cover body to provide electromagnetic Shielding effect. However, the size of the shrapnel used in this patent is not easy to control, and the process of connecting the upper plate and the carrier plate is also slightly difficult, which also causes an increase in production cost.
本發明之主要目的在於提供一種微機電麥克風封裝模組,其可簡化結構且降低製造成本。The main object of the present invention is to provide a MEMS microphone package module which can simplify the structure and reduce the manufacturing cost.
為了達成上述目的,本發明之微機電麥克風封裝模組包含有一基板、一微機電晶片、一特定應用晶片,以及一導電上蓋,其中,該基板具有一接地層;該微機電晶片及該特定應用晶片設於該基板,且該特定應用晶片電性連接該基板之接地層及該微機電晶片;該導電上蓋設於該基板而與該基板之間形成一腔室,用以容納該微機電晶片與該特定應用晶片,該導電上蓋具有一音孔與該腔室相通,使得該為機電晶片能經由該音孔接收到外界聲音,而且,該導電上蓋自其底面朝該基板的方向延伸出一突起,該突起電性連接該基板之接地層而與該基板之接地層形成一電磁屏蔽結構,該電磁屏蔽結構環繞著該微機電晶片與該特定應用晶片,用以提供電磁屏蔽效果。In order to achieve the above object, the MEMS microphone package module of the present invention comprises a substrate, a MEMS wafer, a specific application chip, and a conductive upper cover, wherein the substrate has a ground layer; the MEMS wafer and the specific application The substrate is disposed on the substrate, and the specific application chip is electrically connected to the ground layer of the substrate and the microelectromechanical wafer; the conductive upper cover is disposed on the substrate to form a chamber with the substrate for accommodating the MEMS wafer And the specific upper application chip, the conductive upper cover has a sound hole communicating with the chamber, so that the electromechanical chip can receive external sound through the sound hole, and the conductive upper cover extends from the bottom surface thereof toward the substrate The protrusion is electrically connected to the ground layer of the substrate to form an electromagnetic shielding structure with the ground layer of the substrate, and the electromagnetic shielding structure surrounds the MEMS wafer and the specific application chip to provide an electromagnetic shielding effect.
藉此,本發明之微機電麥克風封裝模組利用該基板之接地層與該導電上蓋之突起之間的配合來完成兩者之間的電性導通,同時在電性導通之後會提供電磁屏蔽的效果,如此便能達到簡化整體結構及降低製造成本的目的。Therefore, the MEMS microphone package module of the present invention uses the cooperation between the ground layer of the substrate and the protrusion of the conductive upper cover to complete the electrical conduction between the two, and provides electromagnetic shielding after the electrical conduction. The effect is to achieve the goal of simplifying the overall structure and reducing manufacturing costs.
為了詳細說明本發明之結構、特徵及功效所在,茲列舉四較佳實施例並配合下列圖式說明如後。In order to explain the structure, features, and advantages of the present invention in detail, four preferred embodiments are illustrated and described in conjunction with the following drawings.
請參閱第一圖,為本發明一較佳實施例所提供之微機電麥克風封裝模組10,包含有一基板20、一微機電晶片30、一特定應用晶片40,以及一導電上蓋50。Referring to the first embodiment, a MEMS microphone package module 10 according to a preferred embodiment of the present invention includes a substrate 20, a MEMS wafer 30, a specific application wafer 40, and a conductive upper cover 50.
基板20自其頂面凹陷出相互間隔之一第一凹槽21及一第二凹槽22,並且具有一接地層23,接地層23具有一第一段232、一第二段234,以及一第三段236,接地層23之第一段232佈設於基板20之頂面,接地層23之第二段234連接第一段232且垂直佈設於基板20內部,接地層23之第三段236連接第二段234且水平佈設於基板20內部。The substrate 20 is recessed from the top surface thereof by a first recess 21 and a second recess 22, and has a ground layer 23, the ground layer 23 has a first segment 232, a second segment 234, and a The third segment 236, the first segment 232 of the ground layer 23 is disposed on the top surface of the substrate 20, and the second segment 234 of the ground layer 23 is connected to the first segment 232 and vertically disposed inside the substrate 20, and the third segment 236 of the ground layer 23 The second segment 234 is connected and disposed horizontally inside the substrate 20.
微機電晶片30及特定應用晶片40分別設於基板之第一凹槽21及第二凹槽22內,其中,特定應用晶片40藉由兩條導線60分別電性連接基板20之接地層23的第一段232及微機電晶片30。The MEMS chip 30 and the specific application chip 40 are respectively disposed in the first recess 21 and the second recess 22 of the substrate. The specific application wafer 40 is electrically connected to the ground layer 23 of the substrate 20 by two wires 60 respectively. The first segment 232 and the microelectromechanical wafer 30.
導電上蓋50的材質以金屬為例,係具有一頂壁51及一周壁52,周壁52自頂壁51之周緣朝基板20的方向延伸,並藉由一膠材53(如絕緣膠或導電膠)與基板20之頂面結合,使得導電上蓋50與基板20之間形成一腔室54,用以容納微機電晶片30及特定應用晶片40。導電上蓋50之頂壁51開設有一音孔512與腔室54相通,使得微機電晶片30能經由音孔512接受到外界的聲音;此外,導電上蓋50之頂壁51的底面朝基板20的方向延伸出一突起55,突起55直接接觸基板20之接地層23的第一段232而形成電性連接,使得導電上蓋50之突起55與基板20之接地層23在電性導通之後會形成一電磁屏蔽結構70,用以提供電磁屏蔽效果。The material of the conductive upper cover 50 is exemplified by a metal having a top wall 51 and a peripheral wall 52 extending from the periphery of the top wall 51 toward the substrate 20 by a rubber material 53 (such as an insulating rubber or a conductive adhesive). The top surface of the substrate 20 is bonded such that a cavity 54 is formed between the conductive upper cover 50 and the substrate 20 for accommodating the microelectromechanical wafer 30 and the specific application wafer 40. The top wall 51 of the conductive upper cover 50 defines a sound hole 512 communicating with the cavity 54, so that the MEMS chip 30 can receive the sound from the outside through the sound hole 512; further, the bottom surface of the top wall 51 of the conductive upper cover 50 faces the substrate 20. Extending out a protrusion 55, the protrusion 55 directly contacts the first segment 232 of the ground layer 23 of the substrate 20 to form an electrical connection, so that the protrusion 55 of the conductive upper cover 50 and the ground layer 23 of the substrate 20 form an electromagnetic after being electrically conducted. The shielding structure 70 is for providing an electromagnetic shielding effect.
此處膠材53如實施為絕緣膠,那麼導電上蓋50與基板20即必須透過突起55連接接地層23以作電性連接,但如果膠材53實施為導電膠,那麼除了導電上蓋50原本與基板20之間的電性連接(特別是接地處理)外,突起55連接接地層23即可視為導電上蓋50與基板20電性連接的保險,更能因此確保電磁屏蔽的效果。Here, if the adhesive material 53 is implemented as an insulating adhesive, the conductive upper cover 50 and the substrate 20 must be connected to the ground layer 23 through the protrusions 55 for electrical connection. However, if the adhesive material 53 is implemented as a conductive adhesive, then the conductive upper cover 50 is originally In addition to the electrical connection between the substrates 20 (especially the grounding treatment), the connection of the protrusions 55 to the ground layer 23 can be regarded as a guarantee that the conductive upper cover 50 is electrically connected to the substrate 20, and the electromagnetic shielding effect can be ensured.
另外必須補充的是,此實施例中突起55亦可藉由導電膠以與接地層23的第一段232結合而形成電性連接,而更能確保導電上蓋50與接地層23之間的電性連接關係,等於多了一道電性連接的保險。In addition, in this embodiment, the protrusions 55 can be electrically connected to the first segment 232 of the ground layer 23 by using a conductive paste, and the electrical connection between the conductive upper cover 50 and the ground layer 23 can be ensured. The sexual connection relationship is equal to the insurance of an electrical connection.
經由上述結構可知,本發明之微機電麥克風封裝模組10利用基板20之接地層23與導電上蓋50之突起55之間的配合來完成基板20與導電上蓋50之間的電性導通,並在電性導通之後可同時提供電磁屏蔽的效果,與習用兩個專利案相比之下可以發現,本發明之微機電麥克風封裝模組10不但具有較為簡單的結構,且若導電上蓋50在與基板20結合時發現突起55不足以電性連接至接地層23,尚可藉由在接地層23上增加佈設導電膠以讓突起55得以接觸結合,相對於習知技術須考慮到導電元件(導電銀膠或彈片)電性連接至上蓋的繁複製程,本發明在製造上即相對容易,因而能夠確實達到簡化整體結構及降低製造成本之目的。Through the above structure, the MEMS microphone package module 10 of the present invention completes the electrical conduction between the substrate 20 and the conductive upper cover 50 by the cooperation between the ground layer 23 of the substrate 20 and the protrusion 55 of the conductive upper cover 50. After the electrical conduction, the electromagnetic shielding effect can be provided at the same time. Compared with the conventional two patents, the MEMS microphone package module 10 of the present invention has a relatively simple structure, and if the conductive upper cover 50 is on the substrate When the bonding is found to be insufficient to electrically connect to the ground layer 23, the conductive paste may be added to the ground layer 23 to allow the protrusions 55 to be contact-bonded. The conductive element (conductive silver) must be considered in comparison with the prior art. The glue or shrapnel is electrically connected to the upper cover, and the invention is relatively easy to manufacture, so that the purpose of simplifying the overall structure and reducing the manufacturing cost can be achieved.
在此需要加以補充說明的是,導電上蓋50之突起55亦可藉由一導電元件與基板20之接地層23的第一段232形成電性連接,如第二圖所示之金屬導線80及第三圖所示之金屬彈片90,同樣可以跟基板20之接地層23形成電磁屏蔽結構70來提供電磁屏蔽效果。另外,突起55除了可以從導電上蓋50之頂壁51的底面直接延伸而出之外,如第四圖所示,亦可於導電上蓋50之頂壁51的頂面利用沖壓或其他類似製程來讓導電上蓋50之頂壁51的底面產生突起55,此時在導電上蓋50之頂壁51的頂面便會在對應突起55的位置形成一凹陷56。It should be noted that the protrusion 55 of the conductive upper cover 50 can also be electrically connected to the first segment 232 of the ground layer 23 of the substrate 20 by a conductive member, such as the metal wire 80 shown in FIG. The metal dome 90 shown in the third figure can also form an electromagnetic shielding structure 70 with the ground layer 23 of the substrate 20 to provide an electromagnetic shielding effect. In addition, the protrusion 55 can be directly extended from the bottom surface of the top wall 51 of the conductive upper cover 50. As shown in the fourth figure, the top surface of the top wall 51 of the conductive upper cover 50 can also be stamped or the like. The bottom surface of the top wall 51 of the conductive upper cover 50 is caused to have a projection 55. At this time, a top surface of the top wall 51 of the conductive upper cover 50 forms a recess 56 at a position corresponding to the projection 55.
10...微機電麥克風封裝模組10. . . MEMS microphone package module
20...基板20. . . Substrate
21...第一凹槽twenty one. . . First groove
22...第二凹槽twenty two. . . Second groove
23...接地層twenty three. . . Ground plane
232...第一段232. . . First paragraph
234...第二段234. . . Second paragraph
236...第三段236. . . Third paragraph
30...微機電晶片30. . . Microelectromechanical chip
40...特定應用晶片40. . . Application specific chip
50...導電上蓋50. . . Conductive cover
51...頂壁51. . . Top wall
512...音孔512. . . Sound hole
52...周壁52. . . Zhou wall
53...膠材53. . . Plastic material
54...腔室54. . . Chamber
55...突起55. . . Protrusion
56...凹陷56. . . Depression
60...導線60. . . wire
70...電磁屏蔽結構70. . . Electromagnetic shielding structure
80...金屬導線80. . . Metal wire
90...金屬彈片90. . . Metal shrapnel
第一圖為本發明第一較佳實施例之剖面示意圖。The first figure is a schematic cross-sectional view of a first preferred embodiment of the present invention.
第二圖為本發明第二較佳實施例之剖面示意圖。The second figure is a schematic cross-sectional view of a second preferred embodiment of the present invention.
第三圖為本發明第三較佳實施例之剖面示意圖。The third figure is a schematic cross-sectional view of a third preferred embodiment of the present invention.
第四圖為本發明第四較佳實施例之剖面示意圖。Figure 4 is a cross-sectional view showing a fourth preferred embodiment of the present invention.
10...微機電麥克風封裝模組10. . . MEMS microphone package module
20...基板20. . . Substrate
21...第一凹槽twenty one. . . First groove
22...第二凹槽twenty two. . . Second groove
23...接地層twenty three. . . Ground plane
232...第一段232. . . First paragraph
234...第二段234. . . Second paragraph
236...第三段236. . . Third paragraph
30...微機電晶片30. . . Microelectromechanical chip
40...特定應用晶片40. . . Application specific chip
50...導電上蓋50. . . Conductive cover
51...頂壁51. . . Top wall
512...音孔512. . . Sound hole
52...周壁52. . . Zhou wall
53...膠材53. . . Plastic material
54...腔室54. . . Chamber
55...突起55. . . Protrusion
60...導線60. . . wire
70...電磁屏蔽結構70. . . Electromagnetic shielding structure
Claims (9)
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
TW101105830A TWI573469B (en) | 2012-02-22 | 2012-02-22 | Mems microphone module |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
TW101105830A TWI573469B (en) | 2012-02-22 | 2012-02-22 | Mems microphone module |
Publications (2)
Publication Number | Publication Date |
---|---|
TW201336321A TW201336321A (en) | 2013-09-01 |
TWI573469B true TWI573469B (en) | 2017-03-01 |
Family
ID=49627536
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
TW101105830A TWI573469B (en) | 2012-02-22 | 2012-02-22 | Mems microphone module |
Country Status (1)
Country | Link |
---|---|
TW (1) | TWI573469B (en) |
Families Citing this family (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB2593402B (en) * | 2014-12-23 | 2021-12-15 | Cirrus Logic Int Semiconductor Ltd | MEMS transducer package |
TWI594941B (en) * | 2015-06-22 | 2017-08-11 | 美律實業股份有限公司 | Mems chip package |
CN106340507B (en) * | 2015-07-10 | 2019-04-19 | 美律电子(深圳)有限公司 | The encapsulation of MEMS sensor chip |
CN112738699A (en) * | 2021-01-06 | 2021-04-30 | 苏州敏芯微电子技术股份有限公司 | MEMS microphone structure |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TWI299961B (en) * | 2005-11-22 | 2008-08-11 | Merry Electronics Co Ltd | |
TW201016590A (en) * | 2008-10-17 | 2010-05-01 | Merry Electronics Co Ltd | MEMS microphone package |
TW201101851A (en) * | 2009-06-23 | 2011-01-01 | Merry Electronics Co Ltd | Micro-electro-mechanical acoustic sensor package structure |
TW201126651A (en) * | 2009-10-26 | 2011-08-01 | Sandisk 3D Llc | Apparatus and methods of forming memory lines and structures using double sidewall patterning for four times half pitch relief patterning |
CN102256190A (en) * | 2010-05-20 | 2011-11-23 | 宝星电子株式会社 | Microphone assembly |
-
2012
- 2012-02-22 TW TW101105830A patent/TWI573469B/en not_active IP Right Cessation
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TWI299961B (en) * | 2005-11-22 | 2008-08-11 | Merry Electronics Co Ltd | |
TW201016590A (en) * | 2008-10-17 | 2010-05-01 | Merry Electronics Co Ltd | MEMS microphone package |
TW201101851A (en) * | 2009-06-23 | 2011-01-01 | Merry Electronics Co Ltd | Micro-electro-mechanical acoustic sensor package structure |
TW201126651A (en) * | 2009-10-26 | 2011-08-01 | Sandisk 3D Llc | Apparatus and methods of forming memory lines and structures using double sidewall patterning for four times half pitch relief patterning |
CN102256190A (en) * | 2010-05-20 | 2011-11-23 | 宝星电子株式会社 | Microphone assembly |
Also Published As
Publication number | Publication date |
---|---|
TW201336321A (en) | 2013-09-01 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US8331589B2 (en) | MEMS microphone | |
US9215519B2 (en) | Reduced footprint microphone system with spacer member having through-hole | |
US8705776B2 (en) | Microphone package and method for manufacturing same | |
CN105792083B (en) | Micro-electromechanical microphone package | |
US9319764B2 (en) | MEMS microphone packaging structure | |
US7763972B2 (en) | Stacked package structure for reducing package volume of an acoustic micro-sensor | |
TWI573469B (en) | Mems microphone module | |
CN104254045A (en) | Pre-mold for microphone assembly and method of producing same | |
CN110677793A (en) | Microphone packaging structure | |
CN104969574A (en) | Silicon microphone | |
US8254619B2 (en) | Microelectromechanical microphone carrier module | |
US20130322662A1 (en) | Mems microphone module | |
KR101598270B1 (en) | Microphone package | |
TWI677952B (en) | Lead frame-based chip carrier used in the fabrication of mems transducer packages | |
US9955268B2 (en) | Micro-electrical-mechanical system (MEMS) microphone | |
JP2008271424A (en) | Acoustic sensor | |
TW201808019A (en) | Micro-electromechanical microphone packaging structure capable of improving the problems of signal interference and excessive I/O pins in conventional wire bonding process | |
WO2016042937A1 (en) | Pressure sensor module | |
US20160157024A1 (en) | Flip-chip mems microphone | |
US8907465B2 (en) | Methods and devices for packaging integrated circuits | |
CN207802370U (en) | A kind of microphone and capacitance type sensor integrated morphology | |
TWM506374U (en) | Stereo array mems mic package | |
CN204518074U (en) | A kind of product module containing microphone | |
TWI549522B (en) | Mems microphone | |
CN103313175A (en) | Micro-electro-mechanical microphone encapsulating module |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
MM4A | Annulment or lapse of patent due to non-payment of fees |