DE102006023168A1 - Electronic integrated circuit manufacturing method, involves fixing casing of electronic component in provided assembling space on internal casing carrier e.g. printed circuit board, and applying adhesive on space - Google Patents

Abstract

The method involves fixing a casing (1) of an electronic component in a provided assembling space on an internal casing carrier (2) e.g. printed circuit board. An adhesive is applied on the provided assembling space in a screen printing process, laminating process and a dispensation process, and a soldering paste pressure is applied in connection to the assembling space. A b-staging-process takes place for partial adhesive interconnection and/or concentration reduction of an adhesive solvent in an area of the assembling space after applying the adhesive. An independent claim is also included for an electronic integrated circuit having an electronic component.

Description

The The invention relates to a manufacturing method for an electronic circuit according to the preamble of claim 1 and an electronic circuit in a package-in-package execution the preamble of claim 10.

electronic Circuits in a package-in-package embodiment are circuits in which one or more active electronic elements, for example Semiconductor elements or circuits are double-encapsulated. The first encapsulation is the usual housing of an electronic component, that with its external contacts on a housing carrier, for example a printed circuit board or printed circuit board, mechanically and electrically conductive is anchored. Other passive electronic components, such as resistors and Capacitors, can additionally arranged on the housing support be. The housing carrier is also referred to as a PCB substrate.

Of the Housing support turn is with a so-called DCB substrate contacted, for example about a bunch of wires bonded. The PCB and the DCB substrate in turn are located one second encapsulation from a Umhüllmasse. The second encapsulation surrounds thus the housing carrier located in the interior substantially completely. The Contacting the electronic components inside this so-called Mold compounds are made over the DCB substrate. The entire package-in-package arrangement is in an outer lead frame, the so-called lead frame, inserted.

On electronic circuits in a package-in-package implementation especially then resorted if the electronic circuit and in particular the active electronic Elements in a special way from environmental influences, for example Moisture or radiation, must be protected.

From particular importance is the anchoring of the housing of the respective electronic component on the housing support. After this current The state of the art is the case soldered onto the housing carrier and subsequently encapsulated as described. In this procedure penetrates however, usually flux in the gap between housing and Housing carrier on. this leads to to delaminations between housings and housing carrier.

Around To prevent this, so-called fine filler molding compounds used that reliable the gap close and thus prevent the mentioned penetration. Such materials However, they are made of materials that are expensive and laborious Need to become. The usual Materials for Such fine filler molding compounds must be used for proper adhesion on the housing carrier a Be subjected to plasma activation. In the gap between housing and Housing carrier is the plasma activation difficult for geometric reasons, so there regular liability problems occur between the mold compound and the housing carrier.

It arises from the problem mentioned the task of a manufacturing process for one indicate an electronic circuit in an encapsulated package-in-package design, when using simple and inexpensive means a safe Adhesion between the housing the electronic component and the housing carrier is achieved. Farther a corresponding, improved electronic circuit is provided become.

The Task is with a manufacturing process with the characteristics of Claim 1 and an electronic circuit with the features of claim 10. The respective subclaims include expedient embodiments the method or the electronic circuit.

The Manufacturing process for an electronic circuit in an encapsulated package-in-package design with an anchored housing a electronic component on an internal housing support, in particular a circuit board, has the essential feature that the housing of the electronic Component is glued on a designated slot on the housing support. As a result, on the one hand the gap between the housing and the housing carrier is reliably closed and on the other hand the housing firmly anchored to the housing support. As a result, a pendulum of an aggressive medium from the outset prevented and the use of an expensive mold compound can be completely eliminated.

To the Sticking takes place in an expedient embodiment of the method, first an application an adhesive on the intended slot on the housing carrier, in Following this a solder paste pressure for the electrical connection and finally a bonding of the housing on the adhesive provided slot for mechanical connection.

Before anchoring the housing thus all necessary both for the soldering of the electronic component and for fixing the housing preparation steps are performed. After the housing is glued on the appropriate slot and thus the gap between the housing and the housing carrier is sealed by the adhesive bond absolutely tight, then soldering can be done.

The Applying the adhesive can be done in different ways.

at a first embodiment is the adhesive by means of a printing process, in particular a Screen printing process, applied. Printing method, in particular screen printing method, are for the required precise Applying an adhesive in a defined thickness very well suitable.

at a second embodiment the application of the adhesive is carried out in a lamination process. there the glue gets from a carrier transferred to the appropriate slot. The advantage here is that the adhesive in advance on the support exactly in thickness and shape can be dimensioned on the carrier no pressure screen is needed.

Finally will in another embodiment For dispensing the adhesive, a dispensing method is also practiced. This method is particularly suitable for depositing punctiform or linear adhesive jobs in one exactly calculated amount.

To the application of the adhesive takes place in an expedient embodiment the process, an energy effect, in particular a b-staging process, for one Pre or partial crosslinking and / or a reduction in concentration an adhesive solvent in the area of the slot. One such approach is at a number of them provided adhesives and adhesive classes necessary or advantageous, to their adhesiveness to increase or schedule the gluing time precisely and into a production process to be able to get started.

The Energy can be done in different ways. at a first embodiment becomes a local heat executed in the area of the slot. This is the concentration of the adhesive solvent reduced by partial evaporation.

at a further embodiment the energy effect takes place in the form of an area of the Slot acting electromagnetic radiation, in particular in the form of UV radiation. The adhesive system responds or evaporates the solvent partly as a result of warming or by a chemical process as a result of the energy input the UV radiation. A complete Crosslinking of the adhesive takes place at a defined later point in time Distance to and with regard to the process kinetics separated from the mentioned Pre-crosslinking, at a higher Temperature (typically with 30-40 ° C distance to the temperature of the Preliminary) or as radiation crosslinking instead. For this purpose may be preferred UV radiation, but possibly also IR radiation in a suitable wavelength range be used.

One Solder of the electronic component and a wrapping of the on its slot fastened component are after completion of the sticking of the housing executed.

A electronic circuit in an encapsulated package-in-package implementation containing one on an internal housing carrier, in particular a printed circuit board, fixed electronic component lines characterized by a arranged at the slot of the housing on the housing support, the bottom of the case with the surface connecting the housing carrier Bond.

In an expedient embodiment is the adhesive bond of a b-stage adhesive, such as a Epoxy resin, acrylic resin or urethane or similar reactive crosslinking System. In a further embodiment the bond consists at least partially of a thermoplastic Material. Such a material can under heat a viscous Assume state in which the housing glued on and when cooling and Harden the permanent adhesive bond is realized.

The electronic circuit according to the invention and the manufacturing method according to the invention will be explained in more detail below with reference to an exemplary embodiment. To clarify serve the 1 and 2 , The same reference numerals are used for identical or identically acting parts.

It shows:

1 an electronic circuit in an encapsulated package-in-package embodiment according to the prior art and

2 an electronic circuit in an encapsulated package-in-package embodiment in an exemplary embodiment of the invention.

1 shows an electronic circuit in an encapsulated package-in-package embodiment according to the prior art in a sectional view. The arrangement includes a housing 1 an electronic component, not shown, for example, a transistor, a diode or an integrated circuit. The electronic component is on a housing support 2 , For example, a circuit board, electrically conductively attached, with a gap 1a between the housing and the surface of the housing support 2 is practically unavoidable.

The housing carrier 2 carries more passive or secondary electronic components 4 , These may be, for example, resistors or capacitors. The housing carrier is via at least one bonding wire 5 made of aluminum, for example, with a DCB substrate 6 contacted. A pin 7 of the DCB substrate may be metallized for improved contacting. The parts mentioned are located within an enclosure 8th , The entire assembly is in an outer leadframe 9 integrated.

For the wrapper, the prior art uses a costly fine-fill mold compound to seal the gap 1a seal against ingress of a flux and the housing 1 firmly with the housing carrier 2 above, the adhesion of the mold compound in the region of the gap 1a can not be reliably guaranteed.

2 shows an embodiment of the invention. Inside the gap 1a there is an adhesive layer which is an adhesive bond 3 forms. The serving 8th can in the in 2 shown embodiment consist of a cheaper material.

Of the Adhesive is applied to the installation space of the housing on the housing support a dispensing, printing or laminating applied.

As already described, the dispensing process is mainly suitable for smaller ones point or circular Areas. A dispenser cannula will do this lowered to the appropriate slot. Next will be a certain amount of adhesive deposited by the cannula on the slot and the cannula moved away from the slot. The movement of the cannula and her correct positioning at the appropriate location on the housing support as well the release of the amount of adhesive can be automated. In principle, this can be done with the appropriate dispensing technologies and devices used become.

One Printing or laminating the adhesive is in a rectangular, square or larger bay more advantageous. The printing takes place for example by means of a Screen printing process with a screen printing head and a screen printing stencil. A major advantage of the screen printing process is that is over the special design of the screen stencil also installation slots with a more complicated shaped surface, for example Polygons and the like, with a uniform adhesive layer cover.

The Lamination process is mainly suitable for regularly shaped bays of medium size, for example smaller housing integrated circuits. For this purpose, a magazine becomes a laminating tape introduced with located on the laminating adhesive layers, wherein the adhesive layer rolled on the slot and the laminating tape is then moved by a certain increment. In this Case al lerdings a slightly greater pressure is exerted on the housing support.

In dependence from each adhesive present takes place in another Step a b-staging process to reduce the solvent inside the adhesive layer. This can be the time of sticking the housing more accurate be planned.

The housing 1 can be contacted both with a Rückseitenverlötung of the housing support, as well as with a surface-mount technology with the housing support. In both cases, a solder paste printing is done only after the application of the adhesive layer or the b-staging process. The housing is then placed immediately thereafter on the slot and under temperature action, wherein the adhesive forms a permanent connection.

The Soldering the Component takes place after sticking to the slot in the usual way, the gap between housing and housing carrier through the adhesive layer completely closed is. The manufacturing of the package-in-package configuration ends with the wrapping of the housing support with the enveloping mass. For this purpose, conventional high-performance thermoplastic Materials used on the bottom and top covering the housing support imprinted become.

Further embodiments emerge from the dependent claims or by amendments the embodiments shown in the context of expert Actions.

production method for one electronic circuit and electronic circuit in a package-in-package design

1

casing

1a

gap

2

housing support

3

adhesive bond

4

additional module

5

bonding wire

6

DCB substrate

7

Pin code

8th

wrapping

9

leadframe

Claims (14)

Manufacturing method for an electronic circuit in package-in-package design, wherein a housing of an electronic component on an internal housing support, in particular a printed circuit board is anchored, characterized in that the housing of the electronic component is glued on a designated slot on the housing support. Manufacturing method according to claim 1, characterized by applying an adhesive to the intended slot on the housing carrier, one followed by solder paste printing and attached thereto then adhesive attachment of the housing on the provided with the adhesive slot. Production method according to claim 1 or 2, characterized characterized in that the application of the adhesive in a printing process, in particular a screen printing process. Production method according to claim 1 or 2, characterized characterized in that the application of the adhesive in a lamination process he follows. Production method according to claim 1 or 2, characterized characterized in that the application of the adhesive in a dispensing process he follows. Manufacturing method according to one of claims 1 to 5, characterized in that after the application of the adhesive an energy effect on the slot, in particular a b-staging process, for one partial adhesive crosslinking and / or Konzentrationsreduk tion of a Adhesive solvent in the area of the slot. Manufacturing method according to claim 6, characterized in that that the energy effect in the form of a heat in the area of Slot takes place. Manufacturing method according to claim 6, characterized in that that the energy effect in the form of an on the area of the slot acting electromagnetic radiation, in particular UV radiation, he follows. Manufacturing method according to one of claims 6 to 8, characterized in that a complete hardening of the adhesive in one later, time-separated step from the b-staging process at a higher temperature as the b-staging process or as radiation crosslinking, in particular with UV radiation, executed becomes. Manufacturing method according to one of claims 1 to 9, characterized in that a soldering of the electronic component and a wrapper of the mounted on its slot component after completion gluing the housing accomplished becomes. Manufacturing method according to one of claims 1 to 10, characterized in that as adhesive a b-staging adhesive, in particular of the type of epoxy resin, acrylate, urethane or a similar one reactive crosslinking type is used. Electronic circuit in package-in-package design, containing one on an internal housing carrier, in particular a printed circuit board, fixed electronic component and / or an integrated circuit, characterized by one at the slot of the housing arranged on the housing carrier, the bottom of the case with the surface connecting the housing carrier Bond. Integrated circuit according to claim 12, characterized characterized in that the adhesive bond comprises a b-stage adhesive, in particular of the type of epoxy resin, acrylate or urethane or another reactive crosslinking system. Integrated circuit according to claim 12 or 13, characterized in that the adhesive bond is a thermoplastic High-performance material has.