CN101764120B

CN101764120B - leadless packaging structure of semiconductor device

Info

Publication number: CN101764120B
Application number: CN 200910202074
Authority: CN
Inventors: 陈俊; 谢利刚
Original assignee: RDA MICROELECTRONICS CO Ltd
Current assignee: RDA MICROELECTRONICS CO Ltd
Priority date: 2009-12-31
Filing date: 2009-12-31
Publication date: 2011-12-21
Anticipated expiration: 2029-12-31
Also published as: CN101764120A

Abstract

The invention discloses a leadless packaging structure of a semiconductor device, comprising a substrate and a circuit tube core, wherein the substrate at least comprises upper top metal, a middle dielectric layer and a lower bottom metal, wherein the bottom metal is used as the ground; the top metal comprises a circuit tube core pasting area bonded together with the circuit tube core through an adhesive; a raised first solder mask layer is arranged above the edge of the circuit tube core pasting area; the top metal is provided with a substrate grounding and bonding area electrically connected with the circuit tube core pasting area outside the circuit tube core pasting area, and the substrate grounding and bonding area is externally provided with a second solder mask layer; a circuit tube core bonding area on the circuit tube core is connected with the substrate grounding and bonding area through a grounding and bonding wire; the first solder mask layer limits the adhesive in an area within the substrate grounding and bonding area; and the circuit tube core pasting area on the substrate is connected with the bottom metal through a through hole and then grounded. The leadless packaging structure reduces the packaging size of the semiconductor device and reduces the product cost.

Description

Leadless packaging structure of semiconductor device

Technical field

The present invention relates to a kind of structure of semiconductor device, especially a kind of leadless packaging structure of semiconductor device.

Background technology

Wireless communication field is being faced with raising product integrated level, reduce the challenge of aspects such as product size and reduction product cost, littler to product, more complicated, require faster not only the design of circuit die to be challenged, the while has also proposed new challenge to the manufacturing of various encapsulating structures.

Form inductance through bonding line commonly used in the no lead packages, bonding line is a very thin metal wire, be used for connecting circuit tube core and package pins, wherein circuit die is to paste the district by the circuit die that binder is fixed on substrate, by bonding line circuit die bonding region and substrate ground connection bonding region are realized being electrically connected then, near the of substrate ground connection bonding region generally can be equipped with through hole, and substrate ground connection bonding region is connected with the ground pad of substrate underlying metal.Generally speaking, we wish that the bonding line of connecting circuit die bonding district and substrate ground connection bonding region can lack as far as possible, can reduce the bonding line inductance value like this.Some circuit die, power amplifier circuit tube core for example, relatively more responsive to the length of the bonding line of connecting circuit die bonding district and substrate ground connection bonding region, shorten bonding line length and can obviously improve equipment performance.Another benefit that shortens bonding line is to reduce package dimension, thereby reduces manufacturing cost.

Yet, several factors all can the limit key zygonema length, for example, when circuit die being fixed on the circuit die stickup district of substrate with binder, used binder can overflow the circuit die stickup district of substrate, will add the circuit die stickup district of large substrates and the distance between the substrate ground connection bonding region like this, thus the length of the bonding line of lengthening connecting circuit die bonding district and substrate ground connection bonding region.The factor that influences bonding line length also has a lot, for example the thickness of circuit die and circuit die bonding region all can influence the length of bonding line in the position of circuit die, wherein circuit die is thick more, the circuit die bonding region moves to the circuit die center from the circuit die edge, the length of capital lengthening bonding line, in addition, near the through hole the substrate ground connection bonding region also can increase the size of encapsulation.

Fig. 1 is traditional earth key zygonema encapsulating structure sectional drawing, wherein substrate 101 is a doubling plate, comprise top-level metallic and underlying metal, the middle material of double layer of metal is a phenolic resins, the substrate thickness of slab is 0.25mm, and substrate also can be multi-layer sheet during other were used, and material also can be epoxy resin FR4, pottery or other materials, thickness also can change.The design of substrate 101 top-level metallics has circuit die to paste district 102.Circuit die 103 is pasted district 102 by the circuit die that silver slurry 104 or other binders paste the substrate top-level metallic.Design has the ground connection bonding region around the circuit die of substrate top-level metallic is pasted district 102, this example is to paste the design of both sides, district in circuit die ground connection bonding region 105a is arranged, 105b, also can be at other Position Design ground connection bonding regions, ground

connection bonding region

105a, 105b is by through hole 111a, and 111b receives substrate underlying metal ground, fills copper or other electrothermal conductor in the through hole.Earth

key zygonema

106a, 106b be respectively with the bonding region 107a on the circuit die, the ground connection bonding region 105a of 107b and substrate top-level metallic, and 105b couples together.110a and 110b are solder mask.As can be seen from Figure 1, because substrate ground

connection bonding region

105a, 105b and circuit die are pasted not adjacency of district 102, cause

earth key zygonema

106a, 106b is longer, because the performance para-linkage line length of power amplifier circuit tube core is relatively more responsive, lengthening connecting circuit

die bonding district

107a, 107b and substrate ground connection bonding region 105a, bonding line 106a between the 105b, the length of 106b can influence the equipment integral performance, and increases package dimension, increases equipment cost, while ground connection bonding region 105a, near the 105b through hole 111a, 111b also can increase package dimension, increases equipment cost.

Therefore, in no lead packages, we have strong demand to shorten the length of connecting circuit die bonding district and substrate ground connection bonding region bonding line, and save near the through hole the substrate ground connection bonding region, thus the size of dwindling encapsulation, the cost of reduction product.

Summary of the invention

Technical problem to be solved by this invention provides a kind of leadless packaging structure of semiconductor device, adopts simple structure, and can dwindle the package dimension of semiconductor device, reduces product cost simultaneously.

For solving the problems of the technologies described above, the technical scheme of leadless packaging structure of semiconductor device of the present invention is, comprise substrate and circuit die, described substrate comprises top top-level metallic at least, middle dielectric layer and following underlying metal, described underlying metal is ground, described top-level metallic comprises circuit die stickup district, described circuit die is pasted between district and the described circuit die and is bonded together by binder, the top, edge that described circuit die is pasted the district is provided with the first protruding solder mask, top-level metallic is pasted the district in described circuit die and is outside equipped with the substrate ground connection bonding region that is electrically connected with described circuit die stickup district, described substrate ground connection bonding region is outside equipped with second solder mask, circuit die bonding region on the described circuit die is connected with substrate ground connection bonding region by the earth key zygonema, described first solder mask is limited in substrate ground connection bonding region with in the interior zone with binder, only has circuit die to paste the district on the described substrate and connects underlying metal and ground connection by through hole.

The present invention has solder mask in the substrate top-level metallic upper surface design that connects between substrate ground connection bonding region and the circuit die stickup district, effectively stoped the circuit die binder in encapsulation process, to spill into substrate ground connection bonding region, reduced the distance between substrate circuit tube core stickup district and the substrate ground connection bonding region, thereby shortened the length of the bonding line of connecting circuit die bonding district and substrate ground connection bonding region, and saved near the substrate ground connection bonding region through hole, dwindle the package dimension of semiconductor device, reduced product cost.

Description of drawings

The present invention is further detailed explanation below in conjunction with drawings and Examples:

Fig. 1 is the sectional drawing of conventional semiconductor device leadless packaging structure;

Fig. 2 is the sectional drawing of leadless packaging structure of semiconductor device of the present invention;

Fig. 3 is the vertical view of leadless packaging structure of semiconductor device of the present invention.

Reference numeral is among the figure:

In the prior art: 101. substrates; 102. circuit die is pasted the district; 103. circuit die; 104. binder; 105a, 105b. substrate ground connection bonding region; 106a, 106b. earth key zygonema; 107a, 107b. circuit die bonding region; 110a, 110b. solder mask; The grounding through hole of 111a, 111b. substrate ground connection bonding region; 112. circuit die is pasted the grounding through hole in district; 113. underlying metal.

Among the present invention: 201. substrates; 202. circuit die is pasted the district; 203. circuit die; 204. binder; 205a, 205b. substrate ground connection bonding region; 206a, 206b. earth key zygonema; 207a, 207b. circuit die bonding region; 208a, 208b. overflow the zone that the postadhesion agent is piled up; 209a, 209b. first solder mask; 211a, 211b. second solder mask; 212. circuit die is pasted the grounding through hole in district; 213. underlying metal; 214a, 214b. circuit die are pasted the edge in district; 301. substrate; 302. circuit die is pasted the district; 303. circuit die; 305a, 305b. substrate ground connection bonding region; 306a, 306b. earth key zygonema; 307a, 307b. circuit die bonding region; 308a, 308b. overflow the zone that the postadhesion agent is piled up; 309a, 309b. first solder mask.

Embodiment

The invention discloses a kind of leadless packaging structure of semiconductor device, as shown in Figures 2 and 3, comprise substrate 201,301 and circuit die 203,303, described substrate 201,301 comprise top top-level metallic at least, middle dielectric layer and following underlying metal 213, described underlying metal 213 is ground, described top-level metallic comprises circuit die stickup district 202,302, described circuit die is pasted district 202,302 with described circuit die 203, bond together by binder 204 between 303, described circuit die is pasted the edge 214a in district, the 214b top is provided with the first solder mask 209a of projection, 209b, 309a, 309b, top-level metallic is pasted district 202 in described circuit die, 302 are outside equipped with and described circuit die stickup district 202, the 302 substrate ground connection bonding region 205a that are electrically connected, 205b, 305a, 305b, described substrate ground

connection bonding region

205a, 205b, 305a, 305b is outside equipped with the second solder mask 211a, 211b, described circuit die 203, circuit die bonding region 207a on 303,207b, 307a, 307b is by earth key zygonema 206a, 206b, 306a, 306b and substrate ground

connection bonding region

205a, 205b, 305a, 305b connects, the described

first solder mask

209a, 209b, 209a, 209b is limited in substrate ground connection bonding region 205a with binder 204,205b, 305a, 305b is with in the interior zone, described substrate 201, circuit die is pasted district 202 on 301,302 pass through through hole 212 connects underlying metals 213 and ground connection.

Dielectric layer in the middle of the described substrate 201 can be a multi-layer compound structure.

The material of described substrate is a kind of in phenolic resins, epoxy resin FR4 or the pottery.

Described circuit die is pasted the district and is connected underlying metal by one or more through holes.

Described binder is silver slurry or other adhesives.

The main distinction of prior art is substrate ground connection bonding region 205a among embodiment among Fig. 2 of the present invention and Fig. 1,205b and circuit die are pasted the district is pasted in district 202 by circuit die in the substrate top-level metallic edge 214a, 214b is connected, the through hole 111a that can save the ground connection among Fig. 1 like this, 111b, the present invention simultaneously pastes the edge 214a in district in circuit die, and the 214b upper surface is provided with solder mask 209a, 209b.In encapsulation process, circuit die binder 204 is the tops of pasting district 202 with the form of liquid state attached to circuit die, be connected fully in order to make circuit die 203 and circuit die paste district's 202 foundation, to apply certain pressure to circuit die 203, will cause circuit die binder 204 to flow out circuit die like this and paste the zone in district 202 to substrate ground connection bonding region 205a, on the 205b, thereby cause substrate ground

connection bonding region

205a, 205b can't use bonding line to connect.Traditional solution is by with substrate ground

connection bonding region

205a, 205b pastes district 202 away from circuit die, to prevent that circuit die binder 204 is diffused into substrate ground connection bonding region 205a, on the 205b, bonding line 206a like this can extend, the length of 206b, because the performance para-linkage line length of power amplifier circuit tube core is relatively more responsive, lengthening connecting circuit

die bonding district

207a, 207b and substrate ground connection bonding region 205a, the bonding line 206a between the 205b, the length of 206b can influence the equipment integral performance, simultaneously also can increase package dimension, increase equipment cost.The present invention is by pasting the edge 214a in district in circuit die, the design of 214b upper surface has

solder mask

209a, 209b, can play and stop circuit die binder 204 to flow out the zone in circuit die stickup district 202 to substrate ground connection bonding region 205a, on the 205b, make it be stacked into 208a, the 208b zone, the thickness of solder mask and width can require to adjust according to actual design.Because substrate ground connection bonding region 205a, it is adjacent that 205b and circuit die are pasted district 202, thereby shorten connecting circuit

die bonding district

207a, 207b and substrate ground connection bonding region 205a, the bonding line 206a between the 205b, the length of 206b, dwindle the size of encapsulation, reduce the cost of product.

In sum, the present invention has solder mask in the substrate top-level metallic upper surface design that connects between substrate ground connection bonding region and the circuit die stickup district, effectively stoped the circuit die binder in encapsulation process, to spill into substrate ground connection bonding region, reduced the distance between substrate circuit tube core stickup district and the substrate ground connection bonding region, thereby shortened the length of the bonding line of connecting circuit die bonding district and substrate ground connection bonding region, and saved near the substrate ground connection bonding region through hole, dwindle the package dimension of semiconductor device, reduced product cost.

Claims

1. leadless packaging structure of semiconductor device, comprise substrate and circuit die, described substrate comprises top top-level metallic at least, middle dielectric layer and following underlying metal, described underlying metal is ground, described top-level metallic comprises circuit die stickup district, it is characterized in that, described circuit die is pasted between district and the described circuit die and is bonded together by binder, the top, edge that described circuit die is pasted the district is provided with the first protruding solder mask, top-level metallic is pasted the district in described circuit die and is outside equipped with the substrate ground connection bonding region that is electrically connected with described circuit die stickup district, described substrate ground connection bonding region is outside equipped with second solder mask, circuit die bonding region on the described circuit die is connected with substrate ground connection bonding region by the earth key zygonema, described first solder mask is limited in substrate ground connection bonding region with in the interior zone with binder, and circuit die is pasted to distinguish by through hole and connected underlying metal and ground connection on the described substrate.

2. leadless packaging structure of semiconductor device according to claim 1 is characterized in that, the dielectric layer in the middle of the described substrate is a multi-layer compound structure.

3. leadless packaging structure of semiconductor device according to claim 1 is characterized in that, the material of described substrate is a kind of in phenolic resins, epoxy resin FR4 or the pottery.

4. leadless packaging structure of semiconductor device according to claim 1 is characterized in that, described circuit die is pasted the district and connected underlying metal by a through hole.

5. leadless packaging structure of semiconductor device according to claim 1 is characterized in that, described circuit die is pasted the district and connected underlying metal by a plurality of through holes.

6. leadless packaging structure of semiconductor device according to claim 1 is characterized in that, described binder is the silver slurry.