CN201226592Y - Silicon microphone packaged by flexible circuit board - Google Patents

Abstract

The utility model relates to a silicon microphone of flexible printed circuit encapsulation, including stereoplasm frame, stereoplasm circuit board, flexible printed circuit board, silicon microphone chip and integrated IC. The flexible circuit board which can be bent is adopted to complete the packaging of the upper end face and the lower end face of the frame, the circuit structure on the upper flexible substrate and the circuit structure on the lower flexible substrate are directly connected in the integrated flexible circuit board, the connection effect is more stable, and the product packaging is convenient and smooth. Especially, can be with the utility model discloses a plurality of silicon microphone units encapsulate simultaneously, then the subdividing goes out required single silicon microphone unit, encapsulates in batches, cuts apart in batches, and production efficiency obtains the flying speed and improves, and then but greatly reduced cost improves market competition. In addition, the silicon microphone chip, the integrated IC and other internal components are fixed on the hard circuit board, and then the soft circuit board is coated on the external part, so that the looseness of the components can be effectively avoided due to the fact that the hard circuit board is not easy to deform, and the stability of product performance is guaranteed.

Description

The silicon microphone of Flexible Printed Circuit encapsulation

Technical field

The utility model relates to the silicon microphone art, refers in particular to a kind of stable performance, is convenient to encapsulation, and is suitable for the silicon microphone of the Flexible Printed Circuit encapsulation of high efficiency production in enormous quantities.

Background technology

As everyone knows, the structure of the silicon microphone of tradition can be with reference to shown in Figure 1, specifically comprise the framework 10 of upper and lower side opening ', last hard substrate 21 ', following hard substrate 22 ', silicon wheat chip 30 ' and integrated IC40 ', go up hard substrate 21 ' and hard substrate 22 ' be encapsulated in respectively framework 10 ' upper and lower side opening down, form a ccontaining cavity 50 ', silicon wheat chip 30 ' and integrated IC40 ' be located at this ccontaining cavity 50 ' in, and be mounted on down on hard substrate 22 ' inner surface, be positioned at silicon wheat chip 30 ' the below be provided with hole 60 ', upper substrate 21 ' with infrabasal plate 22 ' on all be placed with corresponding circuit structure, and go up hard substrate 21 ' with time hard substrate 22 ' between circuit structure between by pass aforementioned ccontaining cavity 50 ' lead-in wire 70 ' be connected, yet, facts have proved, the wiring complexity of this kind lead-in wire 70 ' connected mode, entanglement, and packaging efficiency is low.

The utility model content

The utility model is at the defective of prior art existence, and main purpose provides a kind of stable performance, is convenient to encapsulation, and is suitable for the silicon microphone of the Flexible Printed Circuit encapsulation of high efficiency production in enormous quantities.

For achieving the above object, the utility model adopts following technical scheme:

A kind of silicon microphone of novel Flexible Printed Circuit encapsulation comprises

One stereoplasm frame, the upper and lower side opening of this framework;

One hard wiring board, this hard wiring board is packaged in the lower ending opening place of aforesaid frame, and the upper and lower surface of hard wiring board is provided with pad structure;

One Flexible Printed Circuit, the following soft base plate portion that this Flexible Printed Circuit is extended by one, kink and last soft base plate portion form, wherein, be provided with pad structure on the surfaces externally and internally of following soft base plate portion and last soft base plate portion, this time soft base plate portion electrically is fixed on the lower surface of aforementioned hard wiring board, and in being formed with a gap between soft base plate portion and the hard wiring board down, soft base plate portion is covered in the upper end open place of aforesaid frame on this, and kink then is coated on framework one outside portion;

Reach upward formation one ccontaining cavity between the soft base plate portion in framework, hard wiring board, silicon wheat chip is positioned at this ccontaining cavity, and the inner surface of this silicon wheat chip and hard wiring board electrically connects;

Simultaneously also be provided with a through hole on the hard wiring board, this through hole is communicated between aforementioned ccontaining cavity and the gap, this silicon wheat chip be arranged at this through hole directly over;

In descending soft base plate portion or last soft base plate to be provided with hole, this hole is communicated between aforementioned gap or the ccontaining cavity and the external world.

Has a conductive adhesive layer between the upper surface of described upward soft base plate portion and framework.

Has a conductive adhesive layer between the lower surface of described hard wiring board and framework.

The inner surface of described framework is provided with conductive layer.

The utility model is compared with technology with existing, its beneficial effect is, adopt bent Flexible Printed Circuit to finish the encapsulation of framework upper and lower end face, circuit structure on the last soft base plate directly is connected in the Flexible Printed Circuit of one with circuit structure on the following soft base plate, the lead-in wire connected mode of passing ccontaining cavity that has replaced tradition, it is more stable not only to connect effect, and the product encapsulation is convenient, smooth.Especially, a silicon microphone unit more than the utility model can be encapsulated simultaneously, and then be partitioned into required single silicon microphone unit, encapsulation is in batches cut apart in batches, and production efficiency is rapidly improved, and then can reduce cost greatly, improve the market competitiveness.In addition, it is fixed in inner components and parts such as silicon wheat chip, integrated IC on the hard wiring board, is covered with Flexible Printed Circuit in external packets again, because the hard wiring board is not yielding, mat and can effectively avoid components and parts loosening is to guarantee the stability of properties of product.

Description of drawings

Fig. 1 is the assembling sectional view of the silicon microphone of prior art;

Fig. 2 is the assembling sectional view of first kind of embodiment of the utility model;

The complete sectional view of encapsulation state not among Fig. 3 Fig. 2;

Encapsulation layout viewing when Fig. 4 produces in batches for first kind of embodiment of the utility model.

Fig. 5 is the assembling sectional view of second kind of embodiment of the utility model;

The accompanying drawing identifier declaration:

10 ', framework 21 ', go up hard substrate

22 ', down hard substrate 30 ', silicon wheat chip

40 ', integrated IC 50 ', ccontaining cavity

60 ', sound hole 70 ', the lead-in wire

10, stereoplasm frame 11, conductive layer

20, hard wiring board 21, perforation

30, Flexible Printed Circuit 31, following soft base plate portion

32, kink 33, last soft base plate portion

40, silicon wheat chip 50, integrated IC

61, conducting resinl 70, gap

80, ccontaining cavity 91, sound hole

92, sound hole A1 (A2), line of cut

B, pad 100, silicon microphone unit

Embodiment

The utility model is described in further detail below in conjunction with accompanying drawing and specific embodiment:

Demonstrated concrete structure with reference to Fig. 2, comprised stereoplasm frame 10, hard wiring board 20, Flexible Printed Circuit 30, silicon wheat chip 40 and integrated IC50 as first kind of embodiment of the utility model.

Wherein, the upper and lower side opening of this framework 10, be provided with on the inner surface of framework 10 and be coated with conductive layer 11, this hard wiring board 20 is packaged in the lower ending opening place of aforesaid frame 10, preferably adopt conducting resinl 61 bonding between hard wiring board 20 and the framework 10, this conducting resinl 61 is electrically connected with conductive layer 11 on aforesaid frame 10 inner surfaces, forms shield effectiveness with this.In addition, this hard wiring board 20 is a double sided board, and its upper and lower surface is provided with pad B structure.

The following soft base plate portion 31 that this Flexible Printed Circuit 30 is extended by one, kink 32 and last soft base plate portion 33 form, wherein, be provided with pad B structure on the surfaces externally and internally of last soft base plate portion 33 and following soft base plate portion 31, this time soft base plate portion 31 electrically is welded on the lower surface of aforementioned hard wiring board 20 by tin cream 62, and in being formed with a gap 70 between soft base plate portion 33 and the hard wiring board 20 down.Should go up the upper end open place that soft base plate portion 33 is covered in aforesaid frame 10, kink 32 then is coated on framework 10 1 outside portions, and goes up between soft base plate portion 33 and the framework 10 bonding by conducting resinl 61.

By this, reach upward formation one ccontaining cavity 80 between the soft base plate portion 33 in framework 10, hard wiring board 20, components and parts such as silicon wheat chip 40 and integrated IC50 are positioned at this ccontaining cavity 80, and electrically be fixed on the inner surface of aforementioned hard wiring board 20, the hard wiring board 20 under the silicon wheat chip 40 is provided with perforation 21.Simultaneously, be provided with hole 91 in following soft base plate portion 31, this hole 91 is communicated between the aforementioned gap 70 and the external world.

The concrete assembling process of present embodiment can be with reference to Fig. 3 to Fig. 2, mount silicon wheat chip 40 and integrated IC50 prior to hard wiring board 20 upper surfaces, by insulating cement 80 stereoplasm frame 10 is sticked at hard wiring board 20 upper surfaces thereupon, then will descend soft base plate portion 31 to be welded in the bottom surface of hard wiring board 20 by tin cream 62, upwards bend Flexible Printed Circuit 30 then, be covered in the upper surface of stereoplasm frame 10 until last soft base plate portion 33, equally, cling by insulating cement 80 between last soft base plate portion 33 and stereoplasm frame 10 upper surfaces, by this, finish the assembling of whole silicon microphone 100.

In the actual production, a plurality of aforementioned silicon microphones unit 100 can be carried out operation simultaneously, with reference to Fig. 4, promptly prior to mounting silicon wheat chips 40 and the integrated IC50 of organizing in the big following soft base plate portion 31 of opening a plurality of arrays on the Flexible Printed Circuit 30 more, then be stained with the hardboard framework 10 of respective numbers, and then a plurality of soft base plate portions 33 of going up of connecting together of bending, and soft base plate portion 33 on these all clinged with corresponding hardboard framework 10, so can disposablely finish the operation of the silicon microphone unit 100 of a plurality of arrays, line of cut A1 between each silicon microphone unit 100 at last, A2 cuts, and is partitioned into required single silicon microphone 100.

Demonstrated concrete structure as second kind of embodiment of the utility model with reference to Fig. 5, the difference of present embodiment and previous embodiment is that this hole 92 is arranged at soft base plate portion 33, and this hole 92 is communicated between the ccontaining cavity 80 and the external world.

Of the present utility model focusing on, adopt bent Flexible Printed Circuit to finish the encapsulation of framework upper and lower end face, circuit structure on the last soft base plate directly is connected in the Flexible Printed Circuit of one with circuit structure on the following soft base plate, the lead-in wire connected mode of passing ccontaining cavity that has replaced tradition, it is more stable not only to connect effect, and the product encapsulation is convenient, smooth.Especially, a silicon microphone unit more than the utility model can be encapsulated simultaneously, and then be partitioned into required single silicon microphone unit, encapsulation is in batches cut apart in batches, and production efficiency is rapidly improved, and then can reduce cost greatly, improve the market competitiveness.In addition, it is fixed in inner components and parts such as silicon wheat chip, integrated IC on the hard wiring board, is covered with Flexible Printed Circuit in external packets again, because the hard wiring board is not yielding, mat and can effectively avoid components and parts loosening is to guarantee the stability of properties of product.

The above only is the preferred embodiment of the silicon microphone of a kind of Flexible Printed Circuit encapsulation of the utility model, is not that technical scope of the present utility model is imposed any restrictions.So every foundation technical spirit of the present utility model all still belongs in the scope of technical solutions of the utility model any trickle modification, equivalent variations and modification that above embodiment did.

Claims (4)

1. A silicon microphone packaged in a novel flexible circuit board, characterized in that: comprising A rigid frame, the upper and lower ends of the frame are open; A hard circuit board, the hard circuit board is packaged at the lower opening of the aforementioned frame, and the upper and lower surfaces of the hard circuit board are provided with pad structures; A flexible circuit board, the flexible circuit board is composed of a lower flexible substrate part, a bending part and an upper flexible substrate part extending integrally, wherein solder pads are arranged on the inner and outer surfaces of the lower flexible substrate part and the upper flexible substrate part structure, the lower flexible substrate part is electrically fixed on the lower surface of the aforementioned rigid circuit board, and a gap is formed between the lower flexible substrate part and the rigid circuit board, and the upper flexible substrate part is covered on the aforementioned frame. The opening at the upper end, and the bent part covers an outer part of the frame; An accommodating cavity is formed between the frame, the hard circuit board and the upper soft substrate, the silicon wheat chip is located in the accommodation cavity, and the silicon wheat chip is electrically connected to the inner surface of the hard circuit board; At the same time, a through hole is also arranged on the hard circuit board, and the through hole is connected between the aforesaid accommodation cavity and the gap, and the silicon wheat chip is arranged directly above the through hole; An acoustic hole is arranged on the lower flexible substrate or the upper flexible substrate, and the acoustic hole communicates between the aforementioned gap or accommodating cavity and the outside world. 2. The silicon microphone packaged in a new flexible circuit board according to claim 1, characterized in that there is a conductive adhesive layer between the upper flexible circuit board part and the upper end surface of the frame. 3. The novel flexible circuit board-packaged silicon microphone according to claim 1, characterized in that there is a conductive adhesive layer between the rigid circuit board and the lower end surface of the frame. 4. The silicon microphone packaged in a new flexible circuit board according to claim 1, characterized in that: a conductive layer is provided on the inner surface of the frame.

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