Chip card module

Details Chip card module Chip card module

1999-07-15

2002-07-16

Schuberg, Darren (Department: 2835)

Electricity: electrical systems and devices

Housing or mounting assemblies with diverse electrical...

For electronic systems and devices

C361S767000, C361S777000, C361S784000, C257S672000, C257S737000, C257S738000, C174S259000, C228S180100, C228S180220

Reexamination Certificate

active

06421248

ABSTRACT:

BACKGROUND OF THE INVENTION
FIELD OF THE INVENTION
The invention relates to a chip card module in which one or more semiconductor chips and/or a stiffening frame are attached with the aid of a special adhesive. The adhesive is distinguished in that particles of a defined size are added to it as spacers.
Published, European Patent Application EP 0 688 051 A1 discloses a chip card module in which a chip is glued on a conductor track located there-below. The adhesive used for doing so contains particles of defined size and is electrically anisotropically conductive, which enables an electrical contacting between contact surfaces of the chip which are located in pairs opposite each other on the one hand, and the conductor track on the other hand.
In the case of chip card modules it is of particular importance that the semiconductor chip or chips contained in the module on the one hand are adhesively attached on an underlying surface with the smallest possible distance from it, in order to ensure a low overall height of the module. On the other hand, the adhesive layer must provide electrical insulation and be of a uniform thickness over the entire adhesive surface, in order to avoid deformations of the chip that could lead to it being damaged. It would be particularly advantageous if the adhesive layer could adapt to certain deformations of the module and absorb them to reduce the loading on the semiconductor chip. Moreover, semiconductor chips attached with a uniform distance from the underlying surface facilitate the subsequent processing steps, such as wire bonding, and increase the reliability of the finished chip cards.
The same applies correspondingly to stiffening frames, which are used in conjunction with the flexible carrier film and are adhesively attached to the carrier foil or to the conductor tracks. In the latter case, the stiffening frame has to be electrically insulated from the conductor track system without the overall height of the chip card modules being increased too much by the adhesive layer.
The solutions known hitherto have a number of disadvantages with respect to the problems referred to above.
SUMMARY OF THE INVENTION
It is accordingly an object of the invention to provide a chip card module which overcomes the above-mentioned disadvantages of the prior art devices of this general type, in which one or more semiconductor chips and/or a stiffening frame are adhesively attached on an underlying surface at a distance which is predetermined and substantially uniform over the entire adhesive surface, with the smallest possible thickness of the adhesive layer. The adhesive layer should, moreover, be able to absorb and compensate for deformations of the chip card module within certain limits, so that the possibility of damaging the semiconductor chips and the stiffening frames is reduced.
With the foregoing and other objects in view there is provided, in accordance with the invention, a chip card module, including:
at least one chip carrier;
at least one semiconductor chip;
a non-conductive adhesive having particles of a defined sized and formed of an electrically, non-conductive material admixed in the non-conductive adhesive, the non-conductive adhesive fixing the at least one semiconductor chip to the at least one chip carrier and the particles serving as spacers between the at least one semiconductor chip and the at least one chip carrier; and
conductor tracks disposed on the at least one chip carrier.
The invention thus relates to a chip card module which contains at least one chip carrier, one or more semiconductor chips, conductor tracks and, if appropriate, a stiffening frame. The at least one semiconductor chip and/or the stiffening frame are attached with the aid of the electrically non-conductive adhesive, with which electrically non-conductive particles of defined size are admixed as spacers.
The particles of a certain size added to the adhesive allow the adhesive composition, which, according to the invention, is applied without an adhesive mask, to be compressed to a defined layer thickness. The defined layer thickness substantially corresponds to the diameter of the particles. It is expedient for all the particles to be of substantially the same size. With a uniform distribution of the particles in the adhesive, a uniform distance from the underlying surface is maintained over the entire adhesive surface when pressing the semiconductor chip or the stiffening frame onto the underlying surface onto which they are to be adhesively attached.
It is not a precondition of the invention for the particles to be of a substantially uniform size. Rather, it is sufficient if, in addition to a proportion of particles of smaller size, there is an adequate amount of particles of a size which corresponds to the desired distance between the semiconductor chip or the stiffening frame and the underlying surface, and that the particles are distributed uniformly in the adhesive.
As already indicated, the size of the particles is chosen to correspond to the desired distance between the item to be attached and the underlying surface. The particles are expediently of a spherical shape, and their diameter corresponds to the desired thickness of the adhesive layer. The particles contained in the adhesive not only facilitate the attaching of the semiconductor chips and the stiffening frame at a defined height and a uniform, small distance from the underlying surface, but also the metering of the adhesive. The metering may take place without an adhesive mask, and excess adhesive is pressed out at the sides of the semiconductor chip or the stiffening frame, without having to fear the formation of an irregular adhesive joint as a result.
A particle size suitable for the production of the chip card modules lies in the range of a particle diameter of from 4 to 40 &mgr;m and, in particular, of about 20 &mgr;m.
The particles may be produced from a hard, non-deformable material, such as glass or rigid plastic. The particles are preferably produced, however, from a deformable and, particularly, a reversibly deformable material, such as deformable plastic.
Hard particles in plastic have the disadvantage that they cannot adapt to deformations in the chip card module and in such cases lead to localized or point-wise pressure loads, which may damage the adhesively bonded mating surfaces.
In the case of semiconductor chips, the localized pressure loads may lead to cracks or even ruptures in the chip and consequently to the total failure of the chip card module. By using deformable fillers, deformations of the chip card module can be absorbed by the particles and the localized pressure loads on the mating surfaces can be lessened.
Plastic materials are suitable as deformable or reversibly deformable materials for the filler particles. Particularly suitable are small hollow beads of plastic which are deformable under pressure. The deformability of the particles should expediently not be so great that, when the semiconductor chip or the stiffening frame to be adhesively attached is pressed onto the underlying surface, there already occurs a permanent deformation of the particles and the particles can no longer perform their function as spacers.
To compensate for deformations in the chip card module which may lead to damage of the latter, it is advantageous furthermore to use as the adhesive a flexible adhesive. The flexible adhesive is capable of following deformations of the chip card module and of compensating for them to a certain extent and thus of reducing the loads on the semiconductor chip or the stiffening frame.
So-called “low stress” adhesives are suitable as the flexible adhesives. Low stress adhesives remain flexible after the thermal curing. Synthetic rubbers and, in particular, silicone adhesives may be mentioned by way of example. The invention is suitable in particular for use in chip card modules with a flexible carrier film, but may equally be used in chip card modules with stable lead frames, which usually are formed of metal. In addition, the invention may be used for

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