JPH0681006B2 - Anti-fault filter for electronic control unit in automobile - Google Patents

Description

Description: FIELD OF THE INVENTION The present invention relates to a fault protection for an electronic control unit in a motor vehicle having an inductive action circuit element, a control unit including a conductor track and a circuit element, and a capacitive action circuit element. A filter,
The inductive action circuit element is arranged at a plug end protruding into the control device, the control unit is arranged on a printed wiring board of the control device, and the capacitive action circuit element has a plurality of capacitor plates. The present invention relates to a fault prevention filter for an electronic control unit in an automobile, which is configured as a printed wiring board, and the inductive action circuit element and the capacitance action circuit element are configured as an L-shaped filter.

In the present invention, the capacitive action circuit element is electrically formed by a capacitor plate as a conductor path and a support sheet as a conductor, and the capacitor plate and the support sheet are components of a printed wiring board.

Prior art failure prevention filters configured as through-type filters
It is already known. However, this feedthrough filter device requires a special filter casing having a surface made of a good conductive material, and within the filter casing requires a costly contact connection technique of the feedthrough ground electrode. It is a disadvantage. Furthermore, in order to avoid stressing the control components, for example ceramic components, which are very vulnerable to tensile, compressive and bending stresses, complicated connection techniques must be used between the filter and the control unit. It is also a disadvantage that it does not.

Furthermore, a ferrite core is used as an inductive circuit element.
Further, as the capacitive action circuit element, the fault prevention filter is configured by arranging individual constituent elements configured as a chain yoke and a capacitor on the printed wiring board of the control device behind the plug. Devices are also known. However, in that case, the filter element is disadvantageously arranged at the input side affected by the disturbance, that is, too far from the plug. It is also not possible to use bushing capacitors that take up less space.

Furthermore, anti-fault capacitors are known which are arranged relatively close to the input side, ie relatively close to the plug, which is subject to disturbance influences in the control device. These anti-fault capacitors are provided directly on the plug on a small additional printed wiring board, and thus do not require a small space on the printed wiring board containing the control unit, but at a given area. The high frequency attenuation is unsatisfactory because there is no inductively acting element. It is also not possible to use bushing capacitors in this device.

Problem to be Solved by the Invention An object of the present invention is to configure a fault prevention filter composed of a capacitive action circuit element and an inductive action circuit element so that it can be arranged near the plug.

Means for Solving the Problems According to the present invention, the printed wiring board of the capacitive action circuit element is configured to be flexible, and the first capacitor board and the line connected to the ground of the printed wiring board are provided. And a second capacitor plate configured as above are laminated via a support sheet, the second capacitor plate extending from the plug end projecting into the control device to the control unit,
The obstacle prevention filter is solved by configuring it so as to be arranged near the plug.

The resulting capacitive effect, ie the required attenuation of the anti-fault filter, is set by the choice of material taking into account the printed wiring board geometry, the thickness of the flexible printed wiring board and the dielectric constant. be able to. If higher attenuation values are needed, multilayer technology can be applied to increase capacity. Furthermore, this flexible printed wiring board can advantageously be supported and arranged with reinforced areas. This reinforced area is then suitable for accommodating additional individual capacitors and for making a secure connection with the plug ends.

Embodiment Next, an embodiment of the present invention will be described in detail with reference to the drawings.

In FIG. 1, the casing 1 of the control device is closed by a lid designed as a plug plate 2. The plug plate 2 is configured as an injection molded member made of insulating plastic. The plug 3 of the multipolar plug device is accommodated in the plug plate 2 in a sealed state. Plug 3
Has a circular or rectangular cross section, and one end of the plug 3 is
It projects in a sealed manner from the plug plate 2 and thus from the control device. The plug of the multipole plug device can be inserted on the plug 3 in a manner known per se, which is not described here. The conductor of the unit to be controlled is connected to this plug receiver.

Inside the plug plate 2, the individual plugs 3 are surrounded by recesses 4 provided in the plug plate 2. Further, the plug plate 2 is provided with a fixing member 5 projecting inside thereof. The terminal end portion 6 of the plug 3 is formed so as to extend. These terminal ends 6 project from the fixing member 5.

A printed wiring board 7 made of an insulating material is housed and fixed in the casing 1 in a manner known per se, which is not described here. On the printed wiring 7, there are provided conductor paths which are known per se and which are not described here in detail, and circuit elements 8 of the control unit are arranged. These circuit elements 8 of the control unit are connected to the associated conductor tracks.

The plug 3 is connected to the conductor path of the control unit and the circuit element 8 by a flexible printed wiring board 9. The flexible printed wiring board 9 is provided with a reinforced terminal area 10. This terminal area 10 is located on the overhanging fixing member 5 of the plug plate 2, where it is fixed in a manner known per se, which is not described here in detail. The terminal area 10 is reinforced by a rigid insulating material, for example phenolic hard paper. In the reinforced terminal area 10, the straight terminal end 6 of each plug 3 is brazed to the associated conductor track of the flexible printed wiring board 9. High-frequency disturbing waves originating from fixed or movable disturbance sources external to the electronic control unit may impair the sensitive circuit elements of the control unit and thus the functioning of the control unit. The obstacle wave is
The control unit is reached via the plug 3 in the control unit. For good protection from disturbance waves, the disturbance prevention filter should be arranged as close as possible to the input side of the disturbance wave, ie in the plug 3. To that end, a fault protection filter with inductive action circuit elements and capacitive action circuit elements is provided as an L-type filter. The inductive circuit element is a terminal end portion 6 as an extended conductor of the plug 3.
And a covering portion of this conductor. This coating is formed by a soft magnetic material, preferably a ferrite ring 11. Ferrite ring 11 is plug plate 2
It is inserted in the recess 4 of the.

A first embodiment of the capacitive action circuit element will be described with reference to FIGS. 2 and 3. FIG. 2 shows a longitudinal section of the flexible printed wiring board taken along the line II-II in FIG. As a printed circuit type feedthrough capacitor, it is formed on a flexible printed wiring board 9, for example. The flexible printed wiring board 9 is composed of an insulating support sheet 12. On one side of the support sheet 12, a metal coating part, for example, a copper sheet 13 is provided. The terminal end 6 of the plug 3 protruding from the ferrite core 11 is brazed to one end of the copper sheet 13. The other end of the copper sheet 13 is connected to a circuit element or an associated conductor path on the conductor plate 7 in order to prevent the influence of high frequency interference waves. A high frequency is applied to this copper sheet. The first of feedthrough capacitors
This is the capacitor plate 13. At the same time this condenser plate 13
Form a line for connecting the plug 3 to the associated circuit element 8 of the circuit unit in the form of a conductor path of the flexible printed wiring board 9. The second capacitor plate 14 is a metal coating portion provided through, for example, a copper adhesive portion,
It is attached to the other side of the flexible support sheet 12.
The second capacitor plate 14 guides the ground potential and plugs 3
It can also be used as the ground connection line 15 and / or the ground connection line 15 of the control unit provided on the printed wiring board 7. The flexible printed wiring board 9 is covered on both sides with insulating cover sheets 19 and 20 except for the terminal regions around the connection holes 16, 17 and 18. The support sheet 12 of the flexible printed wiring board 9 is used as a dielectric for the capacitive action circuit element. For that purpose, the support sheet 12 is composed of a suitable insulating plastic, for example a polyimide sheet or a polyester sheet.

Achievable capacity of feedthrough capacitors 12,13,14, hence
The attenuation of the effects of high-frequency disturbances depends on the geometrical shape of each conductor track (ie the copper sheet in the form of a conductor track 13 connected to the terminal end 9 and the conductor track on the printed wiring board 7 and the circuit element 8). Placement,
It is determined by the thickness of the flexible printed wiring board 9 and the material of the dielectric (that is, the support sheet 12).

The effect of the high frequency disturbance achieved by the first embodiment on the flexible printed wiring board 9 with printed wiring bushing capacitors 12, 13, 14 shown in FIGS. 2 and 3 is shown. If the damping is still insufficient, an anti-fault filter with flexible conductor plates according to the multilayer technique can be provided. This will be described below with reference to FIG. 4 as a second embodiment of the capacitive action circuit element.

The flexible printed wiring board 21 is also a support sheet 12 as a dielectric, a copper sheet 13 as a conductor path, a copper bonding portion 14 for applying a ground potential, and a flexible printed wiring board. It has cover sheets 19 and 20 for covering 21. The above-mentioned copper sheet 13 as a conductor path is substantially provided as a line between the terminal end portion 6 of the plug 3 and the conductor path of the control unit of the electronic control unit and the circuit element 8 for preventing the influence of failures. ing. Further on the cover sheet 19,
The copper adhesive part 22 is a capacitor plate 14
It is provided as an extension part of. This copper gluing part 22
Are connected to the copper braces 14 by means of through-contact connections in a manner known per se, which is not described here in greater detail. The copper adhesive part 22 is also covered with a corresponding cover sheet 23. The cover sheet 19 between the high frequency copper sheet 13 and the copper brazing portion 22 acts as an additional dielectric.

In the third embodiment of the flexible printed wiring board 9 used as the capacitance action circuit element of the fault prevention filter, in order to enhance the capacitance action, an individual capacitor 24 is additionally provided.
Are provided on the support sheet 12. Each connection electrode of the individual capacitors 24 is connected to the associated conductor track 13 or the ground potential 15 in a manner known per se, which is not described here in detail. The individual capacitors 24 are preferably provided on the reinforced terminal area 10 of the flexible printed wiring board 9.

EFFECTS OF THE INVENTION The fault protection filter for an electronic control unit in a motor vehicle according to the invention has the advantage that the fault protection filter can be arranged directly on the input side to which the disturbance effect is applied.
The plug itself forms part of the filter, while the connecting line between the plug and the control unit on the printed wiring board forms another part of the filter. Therefore, the fault protection filter does not require additional construction space and
No space is required on the printed wiring board of the control device. What kind of damping value the fault-preventing filter required in each control device must have is generally known only by measuring a control unit provided on the printed wiring board. Therefore, the obstacle prevention filter according to the present invention can be quickly added to the control device even in the state of great progress in development, design and manufacturing. At this time, the attenuation value can be easily selected and used as required.

[Brief description of drawings]

FIG. 1 is a partial schematic view of an electronic control unit having a flexible printed wiring board and a fault prevention filter connected to a plug and a control unit, and FIG. 2 is an embodiment shown in FIG. 3 is a schematic longitudinal sectional view of a flexible printed wiring board according to a first embodiment, taken along line II-II, and FIG. The figure shows a schematic longitudinal cross-section of a second embodiment of a flexible printed wiring board. 1 ... Casing, 2 ... Plug plate, 3 ... Plug, 4
...... Concave portion, 5 ...... fixed portion, 6 ...... terminal end portion, 7 ...... conductor plate, 8 …… circuit element, 9 …… flexible printed wiring board,
10 …… Terminal area, 11 …… Ferrite ring, 12 …… Support sheet, 13,14,22 …… Capacitor printed wiring, 15…
… Earth potential, 16,17,18 …… Connection hole, 19,20,23 …… Coating sheet, 24 …… Individual capacitor

Continuation of the front page (56) References Open 58-50513 (JP, U) Open 54-146140 (JP, U) Open 53-1009057 (JP, U)

Claims (6)

[Claims] 1. A fault prevention filter for an electronic control unit in an automobile, comprising an inductive action circuit element, a control unit including a conductor path and a circuit element, and a capacitive action circuit element, said inductive action circuit element. Is arranged at the end of the plug protruding into the control device, the control unit is arranged on a printed wiring board of the control device, and the capacitive action circuit element is configured as a printed wiring board having a plurality of capacitor plates. In the fault prevention filter for an electronic control device in a vehicle, wherein the inductive action circuit element and the capacitance action circuit element are configured as an L-shaped filter, the capacitance action circuit element (12, 13, 14; 12, 13, 14, 19, 2
2; 12,13,14,24), the printed wiring board is configured to be flexible, and the printed wiring board has a first capacitor board (14) connected to the ground and a first wiring board configured as a line. The second capacitor plate (13) is laminated via a support sheet (12), and the second capacitor plate (13) is connected to the control unit (8) from the plug end (6) protruding into the control device. ), The obstacle prevention filter being arranged in the vicinity of the plug (3), the obstacle prevention filter for an electronic control unit in a vehicle. 2. A support sheet (12) of a flexible printed wiring board (9) is made of an insulating material, and a first capacitor plate used as a line (13) is provided on the support sheet (12). The fault prevention filter according to claim 1, wherein the filter is provided as a conductive coating, and the capacitor plate connected to the ground is provided as another conductive coating. 3. The covering plates (19, 20; 2) of the capacitor plates (13; 14, 22) except for the terminal portions (16, 17, 18) thereof.
Claim 1 or 2 covered by 3)
The fault prevention filter described in the item. 4. A capacitor plate configured as a line (13) is additionally connected to one connection terminal of an individual capacitor (24), the other connection terminal of which is connected to ground potential. The fault prevention filter according to any one of claims 1 to 3. 5. The support sheet (12) according to any one of claims 1 to 4, wherein a reinforced terminal region (10) made of an insulating material is partially provided. The fault prevention filter described in the item. 6. A capacitor plate configured as a line (13) is connected to an end (6) of a plug (3), a ferrite ring (11) being arranged on the plug,
The ferrite ring forms an inductive action circuit element together with a plug (3), and the inductive action circuit element and the capacitive action circuit element are arranged on a plug plate (2). The fault prevention filter according to any one of 1.