Metal fusion bonding – Process – Preplacing solid filler
Reexamination Certificate
2001-10-29
2004-11-23
Edmondson, L. (Department: 1725)
Metal fusion bonding
Process
Preplacing solid filler
C228S180210, C228S256000, C029S834000, C029S840000, C257S698000, C257S706000
Reexamination Certificate
active
06820798
ABSTRACT:
FIELD OF THE INVENTION
Printed circuit boards are produced with circuit components on the top surface of a carrier body or printed circuit board and with thermal lead-through contacts leading to the back side of the board.
BACKGROUND INFORMATION
In many use applications in electronics, circuit arrangements are used with circuit components which, in operation, generate a high dissipation loss, particularly in circuit arrangements with power components such as power modules for controlling of subassemblies. The structural components of the circuit arrangement are secured on a suitable carrier body. For example, in automotive electronics frequently surface mountable power components are used which rest with their back connector surfaces on a printed circuit board forming the carrier body. In order to assure a sufficient heat removal of the dissipation loss of the structural components, particularly the dissipation loss of structural power components, it is possible on the one hand to facilitate the vertical heat transport in the carrier body by thermal through contacts or so-called thermal vias introduced into the carrier body, i.e. lead-through contacts passing from the front side to the back side of the carrier body. As a rule, for this purpose lead-throughs are formed in the carrier body directly under the back side connector surface or support surface of the structural components, particularly the power components. These lead-throughs are metallized on their entire surface and throughout, for example by means of a copper coating. On the other hand, to achieve an external heat removal the carrier body can be secured on a metallic cooling body, for example an aluminum plate, whereby the cooling body can conduct the dissipation loss to a cooling system and the cooling body is separated from the carrier body by an electrically insulating layer, for example an insulation film.
After the securing of the structural components on the top surface of the carrier plate, namely the attachment surface, the components are contacted with connector pads and/or with conductors of a printed circuit structure by a soldering process, whereby soldering paste is printed onto the connector pads and onto the surface of the thermal “vias”. Then the soldering paste is melted in a reflow soldering process. Thereby solder or solder spatter or also melted portions of the printed circuit structure can be pulled by capillary effects through the thermal vias to the underside of the carrier body, whereby the electrical isolation layer can be damaged. For example, an insulation film secured to the underside of the carrier body may be pierced whereby electrical short-circuits may be caused to the metallic cooling body or to a housing enclosing the carrier body and the circuit arrangement.
German Patent Application DE 198 42 590 which is not a prior publication, describes a method for producing of circuit arrangements in which prior to the soldering process, i.e. prior to the attachment of the structural components to the printed circuit board, all lead-through contacts or thermal vias provided in the carrier body are closed by a screen printing. The screen printing is applied to the backside or underside of the carrier body opposite the upper side or component carrying side of the carrier body. Thereby the diameter of the thermal vias is adapted to the respective, applied screen printing technique. The diameter is so predetermined that a sufficient covering of the thermal vias within the opening volume is taking place. For example, a certain minimal filling inside the thermal vias may be required. Further, only a small covering of the margin areas bordering on the thermal vias by screen printing material should occur on the underside of the carrier body because a coating of the connector pads provided on the underside of the carrier body with screen printing material would make worse the thermal transition and thus the removal of the dissipation heat, and because for further method steps in the production of the circuit arrangement, a plane surface of the undersigned of the carrier body is desirable. However, the effort and expense for the screen printing process is rather high because narrow tolerances must be maintained for keeping the protrusions of the screen printing material as small as possible.
SUMMARY OF THE INVENTION
It is the object of the invention to indicate a simple method for producing circuit arrangements having advantageous characteristics regarding the heat dissipation, the reliability, the costs and the manufacturing process.
This object is achieved according to the invention by the combination of the following steps:
a) first applying a first metallization base layer to said carrier body and to said thermal lead-through vias,
b) screen printing a viscous material into said thermal lead-through vias thereby closing said thermal lead-through vias to prevent solder of a following soldering step from passing through said thermal lead-through vias,
c) removing, following curing of said viscous material, any excess of said viscous material from the underside of the carrier body, and
d) second applying at least one further metallization layer to the first metallization base layer outside said viscous material on the inside of said thermal lead-through vias and on the upper side and on the under side of the carrier body.
The screen printing process for the introduction of the screen printing material into the thermal lead-through contacts or thermal vias is performed following the application of a first metallizing layer, preferably copper, forming the base metallization on the carrier body. Specifically, the screen printing is performed prior to the application of at least one further metallizing layer forming the final metallization, whereby the screen printing material is printed over the openings for the thermal lead-through contacts onto the base metallization without maintaining close tolerances. Following the printing and curing of the screen printing material the remainders of the screen printing material protruding on the underside of the carrier body are removed by at least one mechanical cleaning process, whereby on the one hand a plane and on the other hand a clean (shiny) surface is provided which makes possible a better operation for following method steps, for example for the application of further metallizing layers for the end metallization and during the application of an isolation film applied for improving the heat conduction. Particularly, the mechanical cleaning process is performed as a machine brush grinding because this permits a variable control of the material removal by the parameters of the brush grinding machine which is thus well adaptable to the actual operating conditions. Additionally, further mechanical and/or chemical cleaning processes may be optionally performed. Advantageously, cleaning processes which are usually applied in the production process of the circuit arrangement may be employed. After the removal of the protruding screen printing material, at least one further metallizing layer for the formation of the end metallization is applied to the clean and smooth base metallization. For example, a nickel-gold metallization is chemically deposited on the copper layer of the base metallization. Thereafter, an electrically insulating, thermally conducting film is applied to the plane surface of the backside of the carrier body. This film functions as an electrical insulation film and as a heat conducting film. The film fully covers the surface area without any air gaps. That as, the film can be applied with a high mounting certainty and is a direct and thermally full cover over the entire surface of the thermal vias.
During the screen printing process a screen printing film is arranged around the thermal vias and the screen printing material is printed into the openings of the thermal vias from the underside of the carrier body in at least a two-stage printing operation in order to achieve a defined filling volume. Highly viscous thixotropic, paste-like mate
Heinz Helmut
Schuch Bernhard
Conti Temic microelectronic GmbH
Edmondson L.
Fasse W. F.
Fasse W. G.
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