Metal working – Method of mechanical manufacture – Electrical device making
Reexamination Certificate
2001-07-20
2004-03-16
Arbes, Carl J. (Department: 3729)
Metal working
Method of mechanical manufacture
Electrical device making
C029S600000, C029S602100, C029S605000, C336S192000, C336S223000
Reexamination Certificate
active
06704994
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention concerns a discrete electronic component of the inductive type and a method for manufacturing such components. In particular, these components are used in surface mounting techniques (SMD), particularly inductance coils or transformers.
Manufacturing electronic components for surface mounting is well known, particularly for making resistors or capacitors, but this poses problems for the series manufacture of inductance coils or transformers of millimetric dimensions, because they are currently made separately from each other.
In many electronic applications, electronic components of the inductive type are needed as an interface, for example, between voltage levels provided by a power source and integrated circuit input voltages. These inductive elements are used in particular to even ripples on signals. Often the inductance values need to be high, of the order of mH. Usually, the manufacture of such inductive elements does not pose any problem if ferrite cores are used with electric windings of dimensions of the order of one centimeter. However, when the size of the components has to be reduced, there are serious constraints on the technology to be used to make them with high inductance values.
Likewise, for the manufacture of antennae of small dimensions formed of a winding and a magnetic core, the market needs a technology which allows inexpensive manufacturing of large quantities.
SMD type coils proposed by Coilcraft in Cary, Ill., United States are known, i.e. coils able to be mounted on metal pads made on hybrid structures particularly made of ceramic material. These coils are formed of a magnetic core on which a metal wire is wound around the central part and the ends of which are each connected on a metal pad of end parts on either side of the central part. The metal pads may act as a contact with the corresponding metal pads made on a hybrid structure including connection paths with different electronic components. The value of these coils is at the most 10 &mgr;H for dimensions of 3 mm×3 mm×2.5 mm. It is clear that they are made one after the other because it is necessary to wind the wire around each magnetic circuit independently, which requires manufacturing time and a high cost.
U.S. Pat. No. 5,463,365 discloses a coil which includes a magnetic core and a winding part formed of a plurality of laminated sheets including windings arranged in a spiral around the core so as to be coaxial. The connection between the windings located on superposed sheets occurs via metallised holes which are well known to those skilled in the art: This method allows a certain number of sheets or layers to be stacked, particularly sheets made of polyimide resin, depending on the number of turns of metal wires desired for the design of the coil.
The manufacture of the coils specified in this American Patent is complicated since, to obtain a component of the SMD type able to be mounted on a hybrid structure, in addition to the arrangement of a magnetic core with its winding stack, the embodiments given have an entire infrastructure with a cover for the two sides of the magnetic circuit and several output terminals not all of which are used if the components only has one winding. The shape of said component may be similar to that of a component with a plastic encapsulation case, which is not suitable for very small dimensions. Moreover, the assembly of this component is effected individually.
U.S. Pat. No. 5,760,671 discloses a transformer having two magnetic flux paths defined by a ferrite magnetic circuit in the shape of an eight, this transformer including a plate formed of stacked layers with printed circuits defining the primary and secondary windings of the transformer. The plate has an opening for the central arm of the magnetic circuit which is surrounded by the windings. These windings are raised from the base of the magnetic circuit by steps arranged in corners of the two openings defined by the magnetic circuit.
This transformer is used for voltages of up to 400 V for dimensions exceeding one centimeter. For these dimensions, the manufacture of such components does not pose any particular problem but it cannot be used as a component of the SMD type. Assembly of the plate with the magnetic circuit in two parts is effected individually, as is the bonding of the two parts of the magnetic circuit.
SUMMARY OF THE INVENTION
The invention proposes to overcome the drawbacks of the prior art as regards the manufacture of inductive components in particular components of millimetric dimensions.
The invention proposes particularly to provide a method for batch processing a plurality of inductance coils or transformers so as to avoid difficult individual mounting of the different parts forming each coil or each transformer of millimetric dimensions.
Each identical or equivalent part of a batch of inductive components is thus manufactured in or on the same substrate so as to have a plurality of identical parts connected to each other by connecting elements which are machined into the substrate or by a support secured to the substrate, prior to being separated once the assembly of the different parts is finished. Via this method, manufacturing time is saved, and the handling of the different parts is greatly facilitated which reduces the cost price.
Within the scope of the embodiment of the present invention, it has been observed that it is possible to obtain high inductance values, of the order of one mH, for millimetric dimensions, while reducing the current passing through the winding.
The method for manufacturing electronic components of the inductive type forming the subject of the invention, and components able to be obtained by this manufacturing method, also forming the subject of the invention, are defined precisely in the annexed claims.
REFERENCES:
patent: 4342143 (1982-08-01), Jennings
patent: 5010314 (1991-04-01), Estrov
patent: 5463365 (1995-10-01), Iwatani et al.
patent: 5852866 (1998-12-01), Kuettner et al.
patent: 5952909 (1999-09-01), Umeno et al.
patent: 6433665 (2002-08-01), Huang et al.
Ecole Polytechnique Federale de Lausanne
Trinh Minh
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