DE1806257A1 - Printed electrical component, in particular sheet resistance - Google Patents

Description

Printed electrical component, in particular sheet resistance.

The present invention relates to a printed electrical component, especially sheet resistance, with several connected in parallel to the active coating Current paths, whereby the active area is larger than for the final value to be obtained is required and the more precise value by cutting one or more current paths is achieved.

In the case of printed circuits, for example, it can be used to make adjustments known from inductors to connect two parallel conductors to one another by crossbars connect and adjust the inductance by cutting through the crossbars. this is used, for example, in printed circuit boards for tuners in television sets.

It is also known, in the case of film resistors, for example are screen printed on an insulating base, the adjustment is carried out Sandblasting by doing that part of the active layer of the resistance coating is ground out and thus a resistance adjustment is made possible. Included the resistance value is selected from the outset by dimensioning the area so that it can be adjusted by grinding, for example by sandblasting. A similar procedure is also known for the adjustment of capacitors, whose Deposits are applied to a dielectric.

The aim of the present invention is to achieve the object, among other things be able to carry out a comparison in the simplest possible way, with Do not enter geometric tolerances of the separating device on the adjustment process or not influence it so much. In addition, it should be achieved that with small separation paths, a comparison that is as precise and as accurate as possible is possible. It should for example the genewigkeit when adjusting printed resistors elongated shape, which s.B. on a narrow edge at each corner have to be improved. It has been found that if the Separating device is not set exactly to the center, then one of the legs can be much wider than the other, so that a leveling by one A smaller separation path must be achieved than if both legs are the same width and the load is asymmetrical.

According to the invention, this object is achieved in that the current paths are interconnected by a common conductor that the conductor is applied in the Porm, in which it is removed by a mechanical separator and that the width of the conductor is smaller than that by the separator achievable line width. This ensures that when comparing always the common conductor connecting the current paths is removed.

The arrangement of the common conductor has the further advantage that Scattering of the electrical values of the component, for example due to inhomogeneity of the active coating occur, are reduced. This is because A compensating current can flow over the conductor if there is an inhomogeneity in the train of the active coating occurs.

Another advantageous option for a fine adjustment is achieved in that the current paths are arranged offset from one another. Through this With the same number of bars, a finer adjustment can be achieved by using a double the number of stages, i.e. smaller adjustment steps are possible.

This requires straightening the alignment curve.

Furthermore, by choosing the width of the conductor, in particular but the width of the current paths and / or by different distances between them or a desired resistance characteristic of the compensation curve from the active coating can be achieved. The invention also has compared to a rectangular area trained planar resistance has the advantage that through the use of Crossbars as a current spring and a common connecting body are practically the same Resistance values can be achieved, @@@@ ch the adjustment option essential is improved. In addition, by cutting off the common conductor, a Lower noise resistance is achieved by the streamlines no longer running along them the jagged edges that otherwise occur during the comparison run.

Further advantageous details of the invention are based on the following of the exemplary embodiments illustrated in the drawing.

Fig. 1 shows a component according to the invention in stretched form, FIG. 2 shows an approximately flat shape, FIG. 3 shows one according to the invention Component in trapezoidal shape and FIG. 4 the invention as part of an overall component.

In Fig. 1, 1 is an insulating base plate, for example a Plate made of hard paper, epoxy resin, glass fiber reinforced epoxy resin or a ceramic mass designated. Two electrodes 2 and 3 are applied to this insulating plate 1, for example from a Bilber stoving compound and between the two there is an active one Coating, for example a resistive coating 4, is printed on by the two electrodes 2 and 3 can be contacted. Instead of a resistance coating 4, a good one can also be used Conductor made of copper or silver is used, which serves as an inductance or which serves as a part of a capacity covering, its counter-covering, for example is present on the opposite side of the insulating plate 1 or through this Interlayer of a dielectric is protected by this.

According to the invention, 4 current paths 5, 6, 7 are provided, which are connected to one another by a common conductor @. The width of the conductor 8 is such that the line width shown in dashed lines a dividing line 9, which can be milled by a separating device, for example by a sandblasting blower or by a diamond saw, is larger than that of the common conductor 8. The conductor 8 is arranged like the dividing line 9 runs. In general this will be a straight line, but it can also be a arc-shaped adjustment take place, for example, if the separator respectively. the nozzle of a sandblasting blower describes an arc.

The larger line width of the dividing line also ensures that tolerances of the separating device are switched off, so that in any case the common conductor 8 is cut.

in the aereioh in which the current paths 5, 6, 7 are arranged the resistance is practically very low. The current paths are expediently off made of the same material as the resistance lining 4; How based on the Zig. 1 Easily seen, the actual resistance coating 4 is not in any beta leveling Way influenced, so that the contours of the same, and thus, for example, the Noise properties are not changed by the formation of the edges, if is matched. When comparing, namely the current paths 5, 6, 7 are sequential completely separated so that no more electricity flows through it. So it can no deterioration in the properties of the resistance occurs during adjustment.

In Fig. 2, an element is drawn, which has such a planar Character practically equals. It is formed by being between the electrodes 2 and 3, the resistance coating 4 is generally applied in a U-shape, that the common The same conductor is practically designed as a center conductor and both parallel webs connect the common conductor 8 and the two legs 10 to one another, so that the current paths form transverse webs 11, 12, 13, 14, 15 and 16. At 9 it's again a dividing line denotes, which by means of a separating device the resistance covering can be removed from the base 1 and thus serves for adjustment. In this one shown Embodiment, a resistance value is practically achieved that almost is the same as that of a resistance coating that occupies the full area of the U. would be formed. By choosing the width of the transverse stay 11 to 16 and the location and Arrangement of the same can be a certain curve shape when aligning, i.e. when Separation of the common conductor 8 and the transverse webs 11 to 16 can be achieved. For example, it can be achieved in that the adjustment curve is initially steep Ascent and then flatter or flat at first and one later has a steep rise.

According to FIG. 3, the transverse webs 11 to 16 are offset from one another arranged and the resistance lining 4 is drawn in the form of a trapezoid, its wide base between electrodes 2 and 3. This staggered arrangement the transverse webs 11 to 16 are better adapted to a continuous curve shape achieved, since smaller adjustment steps are achieved than in the example according to PiS. 2. Instead of a trapezoidal design of the resistance lining 4, between the electrodes 2 and 3, the resistance coating 4 also has an ice shape or an ellipse or have another arc shape, so that, for example, when using the circular shape the resistance coating 4 can serve as the coating of a potentiometer.

In Fig. 4 is shown in dash-dotted line adjustable Part 17 a part of a total resistance 18.

For example, the total resistance 18 consists of a melted one Compound with a low conductivity, for example a silver flux emulsion, which has a very low resistance value after application and baking. A covering 19 made of a very high-resistance resistance mass is then overlaid the former is printed on and then through a diffusion process, for example A diffusion of the two coverings into one another is achieved through the action of heat, so that a homogeneous resistance coating is created, which has a resistance value whose Value between the two basic values of the individual resistance values of the pads 18 and 19 lies. This makes it possible to have a resistance mass 19, for example for use with other high-resistance resistors on the same insulating plate 1 is used to produce lower resistance resistors to be able to be produced without a second printing process, because a silver plating of electrodes 2 and 3 so @ iesc takes place and in the manufacture of the same Resistance lining @@ can be produced at the same time.

In an embodiment according to FIG. 2, it can be @@@@@@@@@@@, both of them Leg 10 just far enough away from each other that when cutting through d @@ Middle line @@ @ also with; One of the @@@@@@ of the Tre @@@@@@@@@ @@@@@@ are the co-leader @ @@@@@ @@@ such a side @@@@@ will be the on the other hand located legs 10 is not yet influenced by the separating device.

The conductor 8 can expediently be arranged in such a way that it has equipotential lines the transverse webs 11 to 16 or the current paths 5 to 6 connect with one another.

If necessary, it can also be expedient to use the conductor 8, as in shown in Fig. 1, not directly kit to connect the resistor pad 4, but to end with the last cross-web or current path there from this one Connection point from which the comparison can be made.

In this way, a desired curve profile can optionally be achieved will.

The invention is particularly suitable for the manufacture of resistors in module technology, namely in the so-called thick film technology.

Claims (12)

Patent claims: 1. Printed electrical component, especially sheet resistance with several current paths connected in parallel to the active surface, whereby the active The area is larger than is required for the final value to be obtained and the more precise Value is achieved by cutting through one or more current paths, characterized in that that the current paths (5 to 17; 11 to 16) go through a common conductor (8) are interconnected that the conductor (8) is applied in the form in which it can be removed by a mechanical separator, and that the Width of the conductor (8) is smaller than that which can be achieved by the separating device Width of the dividing line (9). 2. Component according to claim 1, characterized in that the conductor (8) from the active surface (4) is so far away that the active surface (4) from the Separating device cannot be reached. 3. Component according to claim 1 or 2, characterized in that the active covering (4) consists of an electrically conductive path, at least for the Part runs next to each other and the current paths (5-6) between them (leg 10) are connected and form transverse webs (11-16). 4. Component according to claim 3, characterized in that the side by side extending parts of the web (10) are parallel to each other. 5. Component according to claim 3, characterized in that the side by side extending parts of the track (10) include an acute angle and the base of the triangles so formed or the wider base of the trapezoid so formed Is facing current or voltage supply points (2, 3). 6. Component according to claim 3, characterized in that the side by side extending parts of the web run in an arc, in particular circular. 7. Component according to one of claims 1 to 6, characterized in that that the active coating (4) and the current paths (5 - 7; 11 - 16) consist of a resistance layer exist. 8. Component according to one of claims 1 to 7, characterized in that that the conductor is at least almost the same as the current paths (5-7; 11-16) in places Unites potential. 9. Component according to one of claims 3 to 7, characterized in that that the transverse webs (11-16) are arranged offset from one another. 10. Component according to one of claims 1 to 9, characterized in that @ that the active covering (4) and the ciuerstege (11 -16) from a resistance mass (38) consists of a high proportion of highly conductive particles and both and possibly also the spaces formed by the transverse webs by a resistance mass (19) are covered with lower conductivity and that the overlapping Resistance masses by diffusion, e.g. by heating, a butin from a uniform Form mass. 11. Component according to one of claims 1 to 10, characterized in that that the conductor (8) is not directly connected to the active surface (4). 12. Component according to one of claims 1 to 11, characterized in that 3a ;; s the active coating (4) forms an inductance and cuts it through of the conductor (8) can be adjusted.