Means and process for encapsulating electric circuits by...

Electricity: conductors and insulators – Boxes and housings – Hermetic sealed envelope type

Reexamination Certificate

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Reexamination Certificate

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06340791

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a means and a process for protecting an electric circuit from ambient influences. Specifically, in accordance with the present invention, an electric circuit is surrounded with a thermoplastic polymer which is applied by injection molding.
2. Description of the Related Art
Polymers are frequently used in the automotive industry, where electric circuits are exposed to high levels of dirt and moisture. The circuits are surrounded with the polymer, which tightly seals them and consequently makes them insensitive to moisture and dirt. In DE 44 36 523 A1, a circuit is surrounded with a polymer by the injection molding technique. However, this gives rise to the problem that the thermal stresses which act on the components when the circuit heats up may become inadmissibly high on account of the high thermal expansion of the polymer and damage the components of the circuit.
In particular, the connection contacts of the components may tear off, since their connection locations on the components are sensitive to alternating tensile loading.
An object of the invention is to provide a means and a process with which electric circuits can be permanently protected against dirt and moisture without the components being subjected to great loading due to thermal expansion.
SUMMARY OF THE INVENTION
The above object is achieved according to the invention by the thermoplastic polymer containing oriented macromolecules and by the components of the circuit being aligned with their axis most sensitive to alternating tensile loading on average parallel to the respective direction of the macromolecules present in the vicinity of the components. Particularly well suited for this purpose is a thermotropic, liquid-crystalline thermoplastic, such as can be obtained for example from the Hoechst company under the trade name Vectra.
In the molten state, the macromolecules of such a polymer form liquid-crystalline structures, so that they are aligned parallel to one another. Moreover, during injection the macromolecules align themselves parallel to the principal shearing planes of the polymer stream, so that they thus lie parallel to the walls of the flow channel when there is laminar flow. The coefficient of thermal expansion of such an encapsulating polymer body is higher perpendicular to the average direction of orientation of the macromolecules than parallel thereto. The rod-shaped macromolecules prevent the material surrounding them from expanding and consequently effectively influence the specific thermal expansion of the overall material. On account of their position along the sensitive axis of the components, this has the result that the thermal stresses of the material in the axial direction are not transferred to the encapsulated components and the latter are protected against ruptures from sustained load.
The coefficient of thermal expansion of the overall material can be adjusted in a large range by the flow parameters during the encapsulation with the liquid polymer. During encapsulation, it must be ensured that no flow lines occur, that the flow remains predominantly laminar and that the polymer stream flows in the direction of the longitudinal axes of the components to be encapsulated. For reasons of strength, the polymer may, furthermore, also be mixed with fibrous substances, such as glass fibers, as often already carried out in practice.
A first development of the invention provides that the circuit is held in a solid support housing, which forms at least part of the injection mold for the thermoplastic polymer. The support housing may remain on the circuit after encapsulation and acts as a stabilizing enclosure. During encapsulation, a suitable second half-mold is pressed against the open side of the support housing and is removed after cooling down.
In an alternate embodiment of the invention, a formation of intrinsically stable conductor tracks (lead frame) is embedded in a first layer of the polymer, the components of the circuit are connected to locations of the conductor tracks not covered by the first polymer layer and the circuit is surrounded by a second layer of the polymer. In this case it is provided in an advantageous way that the first polymer layer has molded parts to which the components of the circuit are fastened. After enclosing the lead frame, which takes place by the injection-molding technique, the components of the circuit are fitted into or onto the mold parts provided for this purpose and the contact pins are soldered or welded to the exposed parts of the conductor tracks. Subsequently, the entire arrangement is encapsulated with the polymer and is thus sealed. This procedure can also be used to produce many small circuits at one time, by dividing up the lead frame correspondingly and separating it at connecting cross-pieces after enclosure.
In another embodiment of the invention, the circuit is applied to a solid support, produced by injection molding, which likewise consists of the polymer, and the circuit together with the support is surrounded by the polymer. In this case, it is advantageous if the conductor tracks of the circuit are applied to the support by hot embossing or if they are electroplated onto the support. In this way, the circuit can be built up on the stable support, as on a conventional circuit board, and subsequently be enclosed with the polymer.
Even during the production of the support it must be ensured that the directed specific thermal expansion is at the least in the direction of the components to be applied and that, before encapsulation, the components of the circuit are aligned along the direction of flow and consequently the principal direction of orientation of the macromolecules of the polymer. The direction of flow of the polymer can be controlled into the desired direction by correspondingly distributed gates. An elongate form of support is advantageously chosen for production reasons, because then only few gating locations are required—possibly only one.
In a first embodiment of the process according to the invention, the circuit is introduced into a solid housing and is fastened therein and the housing is closed with a suitable cover and is subsequently filled with the polymer by injection. In this way, even polymers of inadequate mechanical strength can be used to ensure a durable encapsulation of the circuit. If the polymer forms a chemically stable surface, the cover is removed again after encapsulation.
For producing the configuration with the support, the conductor tracks of the circuit are applied to a solid support, the components of the circuit are fastened onto the conductor tracks and the arrangement is subsequently surrounded with the polymer.
For producing a configuration with intrinsically stable conductor tracks, a formation of intrinsically stable conductor tracks (lead frame) is partially surrounded with the polymer, the connection contacts for the components of the circuit being left free, that the components are applied to the lead frame reinforced in this way with the polymer and that the arrangement is subsequently surrounded with the polymer.
The invention provides numerous embodiments which will be understood by those skilled in the art based on the present disclosure. One of these is described below and is schematically represented in the drawing by means of several figures, in which:


REFERENCES:
patent: 4668448 (1987-05-01), Weber et al.
patent: 4975312 (1990-12-01), Lusignea et al.
patent: 5165985 (1992-11-01), Wiste et al.
patent: 5260380 (1993-11-01), Isayev
patent: 5761048 (1998-06-01), Trabucco
patent: 35 22 091 (1987-01-01), None
patent: 43 25 712 (1995-02-01), None
patent: 44 26 350 (1996-02-01), None
patent: 44 36 523 (1996-04-01), None
patent: 0 453 990 (1991-04-01), None
patent: WO 91/06410 (1991-05-01), None

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