PACKAGE CARRIER HAVING A MESH GAS-PERMEABLE STRUCTURE DISPOSED IN THE THROUGH HOLE
A package carrier includes a multilayer circuit structure, at least one gas-permeable structure, a first outer circuit layer, a second outer circuit layer, a first solder mask and a second solder mask. The multilayer circuit structure has an upper surface and a lower surface opposite to each other and a plurality of through holes. The gas-permeable structure is in the form of a mesh and disposed in at least one of the through holes. The first and the second outer circuit layers respectively at least cover the upper and the lower surfaces. At least one first opening of the first solder mask exposes a portion of the first outer circuit layer and is disposed corresponding to the gas-permeable structure. At least one second opening of the second solder mask exposes a portion of the second outer circuit layer and is disposed corresponding to the gas-peiuieable structure.
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This application claims the priority benefit of Taiwan application serial no. 107118580, filed on May 30, 2018. The entirety of the above-mentioned patent application is hereby incorporated by reference herein and made a part of this specification.
BACKGROUND OF THE INVENTION Technical FieldThe invention relates to a carrier structure, and particularly relates to a package carrier.
BackgroundGenerally, a package carrier mainly consists of a plurality of circuit layers, wherein a heat-generating element, such as a chip, is mostly disposed on an upper surface of the package carrier. Since the heat-generating element generates heat easily in operation, the operation performance of the heat-generating element is easily affected. For heat-dissipating path of conventional package carrier, the heat is dissipated mainly in a thickness direction (perpendicular to plane). However, the heat-dissipating method is still insufficient because it cannot quickly transmit the heat energy generated by the heat-generating element, which causes that the temperature of the package carrier continues to increase and thus affecting the reliability of the heat-generating element.
SUMMARYThe invention provides a package carrier having a better heat-dissipating effect.
The package carrier of the invention includes a multilayer circuit structure, at least one gas-permeable structure, a first outer circuit layer, a second outer circuit layer, a first solder mask and a second solder mask. The multilayer circuit structure has an upper surface and a lower surface opposite to each other and a plurality of through holes. The through holes connect the upper and the lower surfaces. The gas-permeable structure is in the form of a mesh and disposed in at least one through hole. The first outer circuit layer is disposed on the upper surface of the multilayer circuit structure and at least covers the upper surface. The second outer circuit layer is disposed on the lower surface of the multilayer circuit structure and at least covers the lower surface. The first solder mask is disposed on the first outer circuit layer and has at least one first opening. The first opening exposes a portion of the first outer circuit layer and is disposed corresponding to the gas-permeable structure. The second solder mask is disposed on the second outer circuit layer and has at least one second opening. The second opening exposes a portion of the second outer circuit layer and is disposed corresponding to the gas-permeable structure.
According to an embodiment of the invention, the multilayer circuit structure includes a core layer, a first dielectric layer, a second dielectric layer, a first inner circuit layer and a second inner circuit layer. The core layer has a first surface and a second surface opposite to each other. The first dielectric layer is disposed on the first surface of the core layer. The second dielectric layer is disposed on the second surface of the core layer. The first inner circuit layer is disposed on the first dielectric layer. The second inner circuit layer is disposed on the second dielectric layer.
According to an embodiment of the invention, the core layer includes a core dielectric layer, a first patterned copper foil layer and a second patterned copper foil layer. The core dielectric layer has a first side surface and a second side surface opposite to each other. The first patterned copper foil layer is disposed on the first side surface of the core dielectric layer, and exposes a portion of the first side surface. The second patterned copper foil layer is disposed on the second side surface of the core dielectric layer, and exposes a portion of the second side surface.
According to an embodiment of the invention, the package carrier further includes a seed layer covering the upper surface and lower surface of the multilayer circuit structure and an inner wall of the through holes.
According to an embodiment of the invention, the material of the gas-permeable structure includes metal or ceramics.
According to an embodiment of the invention, the gas-permeable structure has a first side and a second side opposite to each other. The first outer circuit layer and the second outer circuit layer further completely cover the first side and the second side of the gas-permeable structure.
According to an embodiment of the invention, the gas-permeable structure has a first side and a second side opposite to each other. The first outer circuit layer and the second outer circuit layer further partially cover the first side and the second side of the gas-permeable structure.
According to an embodiment of the invention, the package carrier further includes a metal block disposed in one of the through holes, and has a top surface and a bottom surface opposite to each other. The first outer circuit layer and the second outer circuit layer further completely cover the top surface and the bottom surface of the metal block.
According to an embodiment of the invention, the package carrier further includes a first surface treatment layer and a second surface treatment player. The first surface treatment layer is disposed on the first outer circuit layer exposed by the first solder mask. The second surface treatment layer is disposed on the second outer circuit layer exposed by the second solder mask.
According to an embodiment of the invention, the first solder mask and the second solder mask respectively cover an exposed portion of the multilayer circuit structure.
Based on the above, in the design of the package carrier of the invention, the gas-permeable structure is in the form of a mesh and disposed in the through holes of the multilayer circuit structure, and the opening of the solder mask is disposed corresponding to the gas-permeable structure. In this manner, the gas-permeable structure not only can dissipate heat in a thickness direction (i.e., Z direction) of the package carrier, but also can dissipate heat in a plane direction (i.e., X-Y direction) of the package carrier with the design of mesh. Briefly, the package carrier of the invention increases the heat-dissipating area through the configuration of the gas-permeable structure, thereby improving the heat-dissipating effect.
To make the above features and advantages of the invention more comprehensible, embodiments accompanied with drawings are described in detail as follows.
Specifically, the multilayer circuit structure 110 of the embodiment includes a core layer 112, a first dielectric layer 113, a second dielectric layer 115, a first inner circuit layer 114 and a second inner circuit layer 116. The core layer 112 has a first surface 112a and a second surface 112b opposite to each other, wherein the core layer 112 includes a core dielectric layer CD, a first patterned copper foil layer CL1 and a second patterned copper coil layer CL2. The core dielectric layer CD has a first side surface C1 and a second side surface C2 opposite to each other. The first patterned copper foil layer CL1 is disposed on the first side surface C1 of the core dielectric layer CD, and exposes a portion of the first side surface C1. The second patterned copper foil layer CL2 is disposed on the second side surface C2 of the core dielectric layer CD, and exposes a portion of the second side surface C2. The first dielectric layer 113 is disposed on the first surface 112a of the core layer 112, and the second dielectric layer 115 is disposed on the second surface 112b of the core layer 112. The first inner circuit layer 114 is disposed on the first dielectric layer 113, and the second inner circuit layer 116 is disposed on the second dielectric layer 115.
Furthermore, in order to electrically connect the first patterned copper foil layer CL1, the second patterned copper foil layer CL2, the first inner circuit layer 114 and the second inner circuit layer 116, the package carrier 100a of the embodiment further includes a seed layer 170, wherein the seed layer 170 covers the upper surface S1 and the lower surface S2 of the multilayer circuit structure 110 and the inner wall of the through holes T. Herein, as shown in
Additionally, the first solder mask 150 and the second solder mask 160 of the embodiment are respectively disposed on the first outer circuit layer 130a and the second outer circuit layer 140a, and respectively penetrate through the first outer circuit layer 130a and the second outer circuit layer 140a to be connected to the first dielectric layer 113 and the second dielectric layer 115 of the multilayer circuit structure 110. In other words, the first solder mask 150 and the second solder mask 160 respectively cover the exposed portion of the multilayer circuit structure 110. The first opening 152 of the first solder mask 150 and the second opening 162 of the second solder mask 160 respectively expose a portion of the first outer circuit layer 130a and a portion of the second outer circuit layer 140a. In order to prevent the first outer circuit layer 130a and the second outer circuit layer 140a respectively exposed by the first opening 152 and the second opening 162 from being oxidized, the package carrier 100a of the embodiment further includes a first surface treatment layer 190 and a second surface treatment layer 195. The first surface treatment layer 190 is disposed on the first outer circuit layer 130a exposed by the first solder mask 150. The second surface treatment layer 195 is disposed on the second outer circuit layer 140a exposed by the second solder mask 160.
Since the gas-permeable structure 120 of the embodiment is in the form of a mesh and disposed in the through holes T of the multilayer circuit structure 110, and the first opening 152 of the first solder mask 150 and the second opening 162 of the second solder mask 160 are disposed corresponding to the first side 122 and the second side 124 of the gas-permeable structure 120, in this manner, the gas-permeable structure 120 not only can dissipate heat in the thickness direction (i.e., Z direction) of the package carrier 100a, but also can dissipate heat in the plane direction (i.e., X-Y direction) of the package carrier 100a through the design of mesh. In brief, the package carrier 100a of the embodiment increases the heat-dissipating area through the configuration of the gas-permeable structure 120, thereby increasing the heat-dissipating effect.
In application of the package carrier 100a, referring to
It is to be explained that, the following embodiment has adopted component notations and part of the contents from the previous embodiment, wherein the same notations are used for representing the same or similar components, and descriptions of the same technical contents are omitted. The descriptions regarding the omitted part may be referred to the previous embodiments, and thus are not repeated herein.
In application of the package carrier 100b, referring to
The heat generated by the heat-generating element 10 may be dissipated in the thickness direction (i.e., Z direction) of the package carrier 100b by the gas-permeable structure 120, and the heat energy in the package carrier 100b may be dissipated in the plane direction (i.e., X-Y direction) of the package carrier 100b through the mesh-shaped gas-permeable structure 120, and outer air A can directly pass through the gas-permeable structure 120 to dissipate the heat in the package carrier 100b. In brief, the embodiment increases the heat-dissipating area through the configuration of the gas-permeable structure 120, thereby improving the heat-dissipating effect of the package carrier 100b.
In application of the package carrier 100c, referring to
Certainly, in other embodiments that are not shown, a fan can be selectively disposed on the second side of the gas-permeable structure, thereby increasing air circulation and further improving the heat-dissipating effect of the package carrier.
In summary, in the design of the package carrier of the invention, the gas-permeable structure is in the form of a mesh and disposed in the through holes of the multilayer circuit structure, and the opening of the solder mask is disposed corresponding to the gas-permeable structure. In this manner, the gas-permeable structure not only can dissipate heat in a thickness direction (i.e., Z direction) of the package carrier, but also can dissipate heat in a plane direction (i.e., X-Y direction) of the package carrier with the design of mesh. Briefly, the package carrier of the invention increases the heat-dissipating area through the configuration of the gas-permeable structure, thereby improving the heat-dissipating effect.
It will be apparent to those skilled in the art that various modifications and variations can be made to the structure of the disclosed embodiments without departing from the scope or spirit of the invention. In view of the foregoing, it is intended that the invention cover modifications and variations of this invention provided they fall within the scope of the following claims and their equivalents.
Claims
1. A package carrier, comprising:
- a multilayer circuit structure, having an upper surface and a lower surface opposite to each other and a plurality of through holes, the plurality of through holes connecting the upper surface and the lower surface;
- at least one gas-permeable structure, in the form of a mesh and disposed in at least one of the plurality of through holes;
- a first outer circuit layer, disposed on the upper surface of the multilayer circuit structure, and at least covering the upper surface;
- a second outer circuit layer, disposed on the lower surface of the multilayer circuit structure, and at least covering the lower surface;
- a first solder mask, disposed on the first outer circuit layer, and having at least one first opening, wherein the at least one first opening exposes a portion of the first outer circuit layer and is disposed corresponding to the at least one gas-permeable structure; and
- a second solder mask, disposed on the second outer circuit layer, and having at least one second opening, wherein the at least one second opening exposes a portion of the second outer circuit layer and is disposed corresponding to the at least one gas-permeable structure.
2. The package carrier as recited in claim 1, wherein the multilayer circuit structure comprises:
- a core layer, having a first surface and a second surface opposite to each other;
- a first dielectric layer, disposed on the first surface of the core layer;
- a second dielectric layer, disposed on the second surface of the core layer;
- a first inner circuit layer, disposed on the first dielectric layer; and
- a second inner circuit layer, disposed on the second dielectric layer.
3. The package carrier as recited in claim 2, wherein the core layer comprises:
- a core dielectric layer, having a first side surface and a second side surface opposite to each other;
- a first patterned copper foil layer, disposed on the first side surface of the core dielectric layer, and exposing a portion of the first side surface; and
- a second patterned copper foil layer, disposed on the second side surface of the core dielectric layer, and exposing a portion of the second side surface.
4. The package carrier as recited in claim 1, further comprising:
- a seed layer, covering the upper surface and the lower surface of the multilayer circuit structure and an inner wall of the plurality of through holes.
5. The package carrier as recited in claim 1, wherein a material of the gas-permeable structure comprises metal or ceramics.
6. The package carrier as recited in claim 1, wherein the at least one gas-permeable structure has a first side and a second side opposite to each other, and the first outer circuit layer and the second outer circuit layer further completely cover the first side and the second side of the at least one gas-permeable structure.
7. The package carrier as recited in claim 1, wherein the at least one gas-permeable structure has a first side and a second side opposite to each other, and the first outer circuit layer and the second outer circuit layer further partially cover the first side and the second side of the at least one gas-permeable structure.
8. The package carrier as recited in claim 1, further comprising:
- a metal block, disposed in one of the plurality of through holes, and having a top surface and a bottom surface opposite to each other, wherein the first outer circuit layer and the second outer circuit layer further completely cover the top surface and the bottom surface of the metal block.
9. The package carrier as recited in claim 1, further comprising:
- a first surface treatment layer, disposed on the first outer circuit layer exposed by the first solder mask; and
- a second surface treatment layer, disposed on the second outer circuit layer exposed by the second solder mask.
10. The package carrier as recited in claim 1, wherein the first solder mask and the second solder mask respectively cover an exposed portion of the multilayer circuit structure.
Type: Application
Filed: Jul 9, 2018
Publication Date: Dec 5, 2019
Applicant: Unimicron Technology Corp. (Taoyuan City)
Inventors: Chin-Sheng Wang (Taoyuan City), Pei-Chang Huang (Taoyuan City), Ra-Min Tain (Hsinchu County)
Application Number: 16/029,659