DE19545559A1 - Electromagnetic noise-protected cable for motor vehicle electronic device, such as radio, electrical power supply - Google Patents

Abstract

The electromagnetic field, EMF, noise protection is provided for a multi-core wiring loom 2 that is to handle transmissions to and from an item of equipment 1. The cable loom has separate wires that are insulated by a plastic covering. The protection system is in the form of a sleeve 3 that can be of plastic or ceramic and contains ferrite. The ferrite can be in the form of a powder or as a block of material. The absorber material can be varied in shape to suit the type of equipment, which may be in the form of an item of electronics or an instrument. The absorber is sized to cover the cable over the section near to the equipment.

Description

The invention relates to an electromagnetically suppressed cable, as an electrical Feeder for an electronic device in a motor vehicle.

It is known that when using microprocessors or high ink built-in, application-specific circuits that affect the operation of other electronic systems or the round radio reception or complicate radio communication. At the same time, the Mi microprocessor or the highly integrated circuits generated pulse trains but also sensitive to external interference. Such disorders can from other electronic systems, e.g. B. the high-voltage ignition system in Motor vehicles or strong radio or television stations in the vicinity come from rich.

Such electronic components or circuits, which are arranged on a carrier substrate, for example a printed circuit board, protected against such interference by means of shielding housings.

According to known arrangements (DE 35 20 531 A1) are on the circuit board attachable additional elements to form individual shielding chambers puts.

A disadvantage of these arrangements is the time-consuming and costly individual duel installation of the individual shields and the additional space may be on the circuit board.

The invention is therefore based on the object of a reliable electro magnetic interference suppression for electronic assemblies or circuits give which is easy and inexpensive to manufacture.

According to the invention the object is achieved in that the cable part wise or complete sheathing, which inclusions contains an absorber material that emits electromagnetic interference sorbed.

The advantage of the invention is that both the electromagnetic Interference radiation of the electronic systems is reduced as well as their electro Magnetic radiation resistance is increased because part of the high-frequency Electromagnetic interference energy in losses due to motion sluggish electrical polarized particles or particles with a magnetic moment becomes. Even materials that are exposed to an electromagnetic Field eddy current losses are suitable for interference suppression. On to additional shielding measures can largely be dispensed with.

The absorbent material preferably consists of ferrites or dielectrics from polarized particles.

An interference-suppressed cable of this type is for interference suppression in frequency ranges of approximately 1 MHz up to 10 GHz can be used advantageously.

Further configurations of the cable are known in the subclaims draws.

In order to further improve the interference suppression effect, the interference suppression according to the invention is Cable connected to an electronic device via a connector and surrounded by a housing that also contains the absorber material ten.

Also the precision components and in the electronic device  In such combination instruments for motor vehicles, for determination and display of operating parameters, find highly sensitive precision onsbauelemente, z. B. microprocessors application, their operation is negatively influenced by electromagnetic interference. Such precision tion components are also sources of interference radiation themselves. These Components are as discrete components, as thick-film hybrid circuits or directly as a semiconductor chip or multichip modules on a carrier substrate in Form a circuit board arranged and the existing on the circuit board NEN interconnects, preferably copper interconnects, with electrical potentials or other electrical circuits connected.

Referring to FIG. 3, the wiring harness 2 on a plurality of separate lead wires 5 which are each with a sheath 6 made of plastic insulated from each other for themselves. Via this cable harness 2 , electromagnetic interference radiation is transmitted from the vehicle to the combination device 1 and thus to the precision components 8 ( FIG. 4) located therein and vice versa.

In order to reduce these interfering effects, the wiring harness 2 has a sheathing 3 made of plastic or ceramic, which surrounds all the wires 5 , and which has ferrites as inclusions.

Fig. 2 shows the outer casing 3 of the cable harness 2 with a ferrite grommet.

The ferrites contain electrically charged particles with a spin, which makes these particles get a magnetic moment. They align themselves when they appear ten of magnetic radiation according to the field direction. Doing so Energy implemented, which attenuates electromagnetic interference entails.

The absorption properties of ferrites depend on material properties, which are represented by a material constant, the relative permeability µ _R re, which is a complex variable:

µ _R = µ _R ′ - jµ _r ; µ _R ′ ′ »1

The absorber can be, for example, a powder with ferrite particles or a crystalline block of pure ferrites. A dependency on the specific size the particle of the wavelength is not given.

Alternatively, the inclusions of dielectrics of electrically polarized particles his.

The dielectric properties of the absorber are characterized by a different material constant, the relative dielectric constant ε _r .

This relative dielectric constant ε _r is also a complex quantity, which is defined as follows:

ε _r = ε _r ′ - jε _r ′ ′; where ε _r ′ ′ »1

Since the dielectric absorber used according to the invention must be an insulator, the size of ε _r '' is not determined as usual by the electrical conductivity of the material, but by the polarization of the molecules. Materials that have such properties include glass, nylon, ceramic and water.

The casing 3 is arranged on the wiring harness 2 in such a way that it is directly adjacent to the combination device 1 .

The connection of the harness with the combination instrument 1 can be hardwired or via a plug 9 carried (FIG. 3 and FIG. 4). Based on this connection, the wiring harness sheath 3 is approximately 20 cm. For certain applications, the wire harness 2 can also be completely covered with the ferrite-containing sheath 3 .

In order to achieve a mechanical stability of the casing 3 , this consists of cylinders or rings made of solid material, which are arranged one after the other on the cable harness 2 and surround them. The design as cylinder or ring halves, which are designed to be foldable in one direction, facilitates installation on site in the motor vehicle, which is particularly useful for retrofitting.

In the case of the use of multiplex systems, only one cable with separate and isolated lines for signal and clock transmission and for the energy supply of the combination device 1 is used . This cable can also be completely or partially covered with the ferrite-containing sheath 3 and is connected via the electronic connector 9 to the circuit board 10 of the combination device 1 .

To improve the interference suppression effect, parts of the connector 9 and / or the housing 11 of the combination instrument or cockpit and / or the housing 12 of the precision components 8 , or the housing 13 of the integrated circuits 14 can contain the materials absorbing the electromagnetic radiation.

The connector 9 is surrounded by a spout 15 containing the absorber material ( FIG. 4).

The sheath 3 of the cable 4 A is surrounded by an outer, electrically insulating coating 16 ( Fig. 3).

In the circuit board 10 shown in FIG. 4, a substrate 17 carries an electronic device 18 which is connected to the cable 4 or 4 A via the plug device 9 . The electronic device 18 consists of a housing 19 in which the precision components 8 and the integrated circuits 14 are arranged. An inside of the housing 19 be fastened film 20 contains the absorber material described.

But there is also the possibility that the cables 4 or 4 A, which lead to the electronic device 18 , are only partially surrounded by the sheath 3 made of absorber material. The sheath 3 comprises only that part of the cable 4 or 4 A which is arranged in the immediate vicinity of the electronic device 18 .

Claims (14)

1. Electromagnetically suppressed cable as an electrical feed for an electronic device in a motor vehicle, characterized in that the cable ( 2 ) has a partial or complete sheath ( 3 ) which contains deposits from an absorber material which absorb electromagnetic interference radiation. 2. Cable according to claim I, characterized in that the absorber material contains a dielectric of electrically polarized particles. 3. Cable according to claim 1, characterized in that the absorber material contains ferrite. 4. Cable according to one of claims 1, 2 or 3, characterized in that a plurality of line wires ( 5 ) are present, the common order jacket ( 3 ) contains the absorber material. 5. Cable according to one of the preceding claims 1, 2 or 3, characterized in that the sheathing ( 3 ) is arranged under an insulating Ge total sheathing ( 16 ) of the cable core bundle. 6. Cable according to claim 1, 2 or 3, characterized in that a plurality of line cores ( 5 ) are present, the sheath ( 6 ) of each individual line core ( 5 ) containing the absorber material. 7. Cable according to one of claims 1 to 6, characterized in that the sheath ( 3 ) encloses only the part of the cable ( 4 , 4 A), which is arranged in close proximity to an electronic device ( 18 ). 8. Cable according to one of the preceding claims, characterized in that the sheathing ( 3 ) consists entirely of the absorber material. 9. Cable according to one of the preceding claims, characterized in that the sheathing ( 3 ) consists of one or more cylinders and / or rings arranged one behind the other. 10. Cable according to claim 9, characterized in that the cylinder and / or the rings consist of two collapsible parts. 11. Cable according to one of the preceding claims, characterized records that the suppression in the frequency range from 1 MHz to 10 GHz is effective. 12. Electronic device, in particular for motor vehicles, which is connected to an electromagnetically suppressed cable according to claim 1 via a plug connector ( 9 ) and is surrounded by a housing ( 11 , 19 ) and in which integrated circuits ( 14 ) and / or precision components ( 8 ) are arranged on a carrier substrate ( 17 ), characterized in that parts of the connector ( 9 ) and / or the housing ( 11 , 19 ) of the electronic device and / or the housing ( 12 , 13 ) of the precision components ( 8 ) and the integrated circuits ( 14 ) containing the electromagnetic radiation absorbing material. 13. Electronic device according to claim 12, characterized in that the housing ( 19 ) is afflicted with a film ( 20 ) which contains the absorber material. 14. Electronic device according to claim 12 or 13, characterized in that in the immediate vicinity of the cable ( 4 , 4 A) and / or the connector ( 9 ) and / or the housing ( 11, 19 ) of the electronic device and / or the integrated circuits ( 14 ) have a line carrying the electrical interference radiation or an electrically highly conductive part.