DE2521789A1 - Potentiometer or slide resistor - is used for direct, integral connection with circuit board containing further circuit components and has straight resistor track - Google Patents

Abstract

The printed circuit board is intended for the construction of superordinate units by the modular construction method the potentiometer consists of a resistive track and a wiper sliding on it and operated from outside. The resistive track (2) is directly mounted on a circuit board (1) and a conducting wiper track (6) is provided parallel to or concentric with the resistive track (2) and it is on the same side of the printed circuit board. A slot (5) is made in the board for guiding and support of the wiper (8) operating elements (9).

Description

Potentiometer The invention relates to a potentiometer or a sliding resistor, in particular as a single component for the immediate, integral Connection to a printed circuit board carrying further circuit elements or the like, for the construction of higher-level units according to the modular principle, consisting of a resistance slide and a sliding on it by action externally displaceable tap.

Potentiometers or slide resistors are known in various forms, they usually consist of a flat one that has a spatial extension Resistance material that is scanned point or line by a tap, whose respective position is a measure of the resulting resistance. It is known to carry out potentiometers as rotary potentiometers, with the resistance slide concentric is arranged continuously around a center point and on having terminal lugs at both ends. The tap of the resistance slide takes place via a fixed in the center th, usually metallic, resilient on the resistive slide on the lying tap, whereby the electrical connection the tap with the further processing circuit usually via its storage area goes. Such potentiometers are usually constructed and assembled separately and then serve, together with other circuit elements, to equip a conductor track or any other purpose. The connection of the potentiometer with the Conductor track can, which is common, for example, with smaller so-called trimmers, directly over the contact lugs at the resistance end areas and from the center tap here.

Larger potentiometers with higher performance, however, require a different one Type of fastening and often cannot be directly connected to the part of the circuit board connected to the other, the output of the potentiometer processing circuit elements are attached. This problem is particularly acute with linear, i.e. straight, slide potentiometers.

The invention is based on the object, a potentiometer or a To create sliding resistance that can be produced easily and cost-effectively can and with the printed circuit board with which it is associated, a one-piece fixed connection forms.

To solve this problem, the invention is based on the above qcalled potentiometer and, according to the invention, consists in that the resistance slide directly on a circuit board that is attached parallel or concentric to the resistance slide and on the same PCB surface one Abcjriffbahn made of conductive material is arranged that the circuit board has an opening has and that the opening as a guide and storage for both sides on the Printed circuit board movably arranged, contacting the resistance slide and pick-up track Tap superimposed and releasably connected actuating elements formed is.

In the invention it is particularly advantageous that the circuit board, to which it is assigned, the supporting and bearing component of the potentiometer itself is, which means that the effort required to create a Potentiometer simplified. It is also advantageous that the inventive Potentiometer only consists of a few parts that are either connected to the assigned circuit board directly connected, for example riveted to it, or which encompass the circuit board from both sides and are designed so that they can be connected to each other by a simple snap mechanism, whereby the assembly is considerably simplified.

Since the resistance slide and the pickup track directly on the Printed circuit board are arranged, their respective electrical connections can also without difficulty with the appropriate electrical conductors that are known in Way are applied as a copper clad on the circuit board, in connection to be brought.

Further refinements of the invention are the subject matter of the subclaims or can be found in the following description, in which embodiments of a potentiometer according to the invention based on the figures in structure and mode of operation are explained in more detail. Show: F sharp. 1 a first simplified embodiment of a connected to the associated circuit board Potentiometer, in plan view, FIG. 2 shows the representation of FIG. 1 in a side view with parts partially broken away, FIG. 3 shows the potentiometer of FIG. 2 in one View from above, with further circuit arrangement, namely with the circuit board also positively connected switches are arranged on this that they switched by the actuating elements of the potentiometer when they are moved 4 shows a perspective view of one of the components the actuating elements for the potentiometer, Fig. 5 shows, also in perspective Representation, the other of the actuating elements that together form the actuating slide of the potentiometer, Fig. 6 shows the tap of the potentiometer, the figures 7 and 8 show a further embodiment of a potentiometer with improved Guide on the circuit board, once in plan view and once in a view of the page, Fig. 9 shows a third embodiment of an integral with a associated switch connected potentiometer with precise guidance on a associated circuit board in plan view, Fig. 10 shows the embodiment of FIG. 9 in a view from the front, FIG. 11 shows the embodiment of FIG. 9 in a sectional illustration along the line XI-XI in FIG. 9.

A first embodiment of a potentiometer according to the invention is shown in FIGS. 1, 2 and 3. On one at known each other Circuit board 1, aeren Armessungen se Lusttez of course not the one shown in FIG The resistance track is provided with the reference number 2 and attached to the circuit board 1. In the case of the Fis. 1 visible side of the circuit board it is the conductor side, i.e. the side on which the electrical conductive material webs 3, some of which are shown in Fig. 1, directly are upset. The conductor tracks 3 are usually a copper clad; the circuit board 1 is fitted from the rear, that is to say from the component side the end. In the embodiment shown in Fig. 1 of a potentiometer the resistance track 2, which is here as a linear, rectilinear material web surface predetermined resistance is formed, applied to the so-called "conductor side"; the attachment can be by gluing, plugging in pins at the edge areas or as in the embodiment by a tubular rivet 4 at the end of the resistance track take place. The tubular rivet is used for mechanical fastening and for Making the electrical connection; when arranging the resistance track on the On the conductor side, the tubular rivet has a conductor tab. Alternatively, the resistance track also applied directly to the circuit board and thus an integral part be the same; in this case, the material forming the resistance track assign to the circuit board according to any technological process, for example by vapor deposition, brushing or the like. Adjacent to the resistance track 2 an elongated opening 5 in the circuit board 1. On the other side of the Opening 5 and parallel to this and to the resistance track 2 extends the metallic pick-up track 6.

The electrical connection is made in such a way that one, the visible Tubular rivets 4 having the end of the resistance track 2 via a contact tab 7 with one of the conductor tracks 3 is connected on the circuit board 1; the other from which Actuating element covered end can be exposed or electrically connected to the opposite be connected lying Abgriffbahn. Depending on the position of the actuating element, which also has the grinder 8, which will be discussed in more detail below a more or less large resistance value of the resistance track is tapped and gets into the electrical SchaQtSng as signal information It can be seen that in the position shown in Fig. 1 aes actuation elements aer aogegrirrene Resistance value is greatest. The operating pension itself hosted stands from two, preferably from injection-molded plastic parts, one below as a bearing part 9 (for the tap) designated part and an associated sliding or holding part 10.

The bearing part 9 is shown again in perspective in FIG. 4 shown separately, the holding part 10 shows in perspective the Fig. 5.

As can be seen from FIG. 2, there are bearing part 9 and holding part 10 arranged on both sides of the circuit board 1 and can through the opening 5 of the circuit board 1 enter into a form-fitting, but detachable connection.

First, the bearing part 9 will be explained in more detail. Each bearing part 9, also the bearing parts of the further exemplary embodiments to be explained further below, has an extension 11 which has a transverse pin via two arms 14a and 14b 12 stores, which in turn is used to store a correspondingly curved and the pin 12 comprehensive surface 13 of the tap 8 is used. (See also the illustration in Fig. 2.) Furthermore, the extension 11 has a bearing recess 15 for receiving it a spring 16, which is located on the one hand in the recess 15 and on the other hand on the tap 8 is supported and this seen from the bearing part 9 from this away on resistance track 2 and tap track 6 presses.

The tap 8 is shown in more detail in FIG. 6; it has two legs 17 and 18, which are designed and in their relative Height to each other are set so that of corresponding grinding points on the Legs 17 and 18 both the resistance track 2 and the pick-up track 6 contacted can be. The legs 17 and 18 open into a central part 19, which is after at the back in the already mentioned area 13 continues. In the middle part 19 is one in Fig. 2 downwardly extending bulge 21, which for better storage the spring 16 is used.

The springing of the tap 8 with the help of a helical compression spring 16 is particularly advantageous because the contact force is increased by different compression springs can be changed and it is not necessary to tap the tap itself or its as Extensions 17 and 18 serving for grinders run resiliently. These can therefore are made rigid, since the tap 8 itself in the bearing part 9 is movable on the transverse pin 12 is attached. It also succeeds in this way the spring characteristic of the system to keep relatively flat, so that only slight changes in contact force due to dimensional tolerances may occur.

The bearing part 9 then still has two out of its plane upward (Fig. 2) or downward (Fig. 1) extensions 22 and 23, which grip through the slot-like opening 5 of the circuit board 1 and start driving outer ends each have a hook 24. The extensions 22 and 23 are elastic and can be pushed away from each other; the purpose of this Extensions can be seen in the fact that they are in appropriately designed recesses 26 and 27 engage the holding part 10 so that bearing part 9 and holding part 10 through the circuit board 1 are connected to one another through it.

This makes assembly much easier because of the elasticity of the extensions 22 and 23, these can be removed when the holding part 10 is put on First press apart and then, after snapping in, reach behind the recesses 26 and 27 basically of the holding part. These are the essential and tiny components which the potentiometer according to the invention requires. Preferably then have bearing part 9 and holding part 10 still have some configurations, which are briefly explained below will.

The bearing part 9 preferably has the opening 5 on both sides PCB 1 and outside the resistor track 2 and the tap track 6 via in Fig. 1 downward and in Fig. 2 upwardly directed runner or sliding parts 28 and 29, with which the bearing part 9 slides on the surface of the circuit board 1 and is based on this. The holding part 10 has similar sliding elements 31 and 32 on; the holding part 10 also preferably has resilient tabs 33 and 34, which in the normal state extend beyond the plane that is defined by the Edge edges of the runner parts is defined on the holding part 10, so that during assembly by the resiliently elastic support of the tabs 33 and 34 on the circuit board 1 results in elastic pretensioning and a secure fit, and it also works in this way to compensate for differences in thickness of the circuit boards and one achieved a certain braking effect, causing an unintentional adjustment of the normally smooth sliding part of the potentiometer is avoided.

In the embodiment of FIG. 5, the holding part 1o still has via a central extension 36, which can also be used to improve storage extends through the opening 5 and between the two the locking lugs 24 having extensions 22 and 23 of the bearing part 3 in a recess this joins. The end area 38 of the central extension 36 on the holding part 1o can be seen in the top view of FIG. 1 within the recess 37.

In a preferred embodiment, the bearing part 9 (or if desired, also the holding part 10) a form-fitting engagement to effect a displacement have externally enabling lugs or flanges 39, which in FIG. 1 only are generally identified by this reference symbol and basically any depending on the required application trained forms can have.

It has already been pointed out earlier that such a extremely advantageous and simple structure of a potentiometer in integral combination with the associated circuit board 1 preferably also for the production of higher-level Lets use switching units; such an embodiment is shown 3 explained in more detail. As can be seen from Fig. 3, sits on the circuit board 1 a switch 41, next to which a further switch 41 'in a dash-dotted design is indicated, and is actuated immediately when the actuating element or more precisely the sliding part of the potentiometer, which consists of the elements bearing part 9 and holding part 10 is formed, is actuated. The switch has for this purpose 41 or 41 'via externally accessible actuating lugs 42, which in suitable Way engage in a recess 43 here on the holding part 10 and therefore when actuated of the potentiometer. The actuation lugs 42 of the switches 41 are outwardly protruding parts of an actuating element in the switch housing is stored. The switches 41 are preferably designed so that the circuit board 1 facing surface of the switch housing is completely omitted and thereby through the circuit board 1 itself is replaced that on the edge of the side walls of the Switch housing arranged one-piece projections in recesses of the circuit board engage and are preferably welded to this. This is how you get there to an integral attachment and can, depending on requirements, on the circuit board then the remaining circuit elements required in a conventional manner fasten, which leads to circuit units built on the modular principle got. These can be made very small and are used, for example, to Switching on and current regulation in electric irons, drills, where a Speed regulation made by appropriate control via the potentiometer setting will can, switching on and switching of heating devices or other household appliances.

In this context it should be noted that the material the components of the potentiometer, with the exception of the stamped part Although the tap can be arbitrary per se, a plastic is preferably used which is best suited, by injection molding in any, sometimes complicated Forms to be brought. A thermoplastic is preferred because, As already mentioned, some of the parts molded onto the bearing part 9 and the holding part 10 are Extensions and approaches are resilient, for example the extensions 23 and 22 with the upper locking lugs 24, which are in the recesses 26 and 27 of the holding part be brought to snap or the tabs 33 and 34, which are from the holding part 10 from a central area of the same arcuate outward and with Sliding surfaces 46 slide resiliently on the facing side of the circuit board 1 and ensure a firm, clamped fit of the entire sliding system.

Finally, it should be noted that the transverse pin 12, in the arcuate extension 13 of the tap is hooked over its length in the area in which it is in operative connection with the arcuate part of the tap 8 occurs, does not form a horizontal surface, but preferably a convex or arched one Has shape so that the tap does not necessarily have to be in a certain horizontal position is brought. On the contrary, this tap position is exclusively determined by the impact of the sliding surfaces located on its legs 17 and 18 on the associated paths of resistance and tap under the influence of the spring 16, so that it is ensured that both legs 17 and 18 in the tap 8 in principle their touch the assigned paths with the specified contact force.

The transverse pin 12 serves essentially only for receiving the reaction force and for mounting the tap in the sliding direction along the tracks 2 and 6, but not, as already mentioned, for the precise determination of the horizontal position.

Further refinements of the invention can then still be seen in the figures 7 and 8 and 9 to i1, first referring to the embodiment of FIG Figures 7 and 8 will be discussed in more detail. In these two figures there is a potentiometer shown, which has a further improved guidance of the sliding parts. In the exemplary embodiment of FIGS. 1 to 6, the pick-up track 6 is, of course, preferably formed directly by an optionally widened conductor surface of the copper cladding the circuit board 1 itself, which further increases the expense of the potentiometer decreased. In contrast to this, in the embodiment of FIGS 8 proceeded so that the tap track, which now shows the reference numeral 6a, is made separately and attached to the circuit board 1 and double Function of the electrical pick-up track and, at the same time, a guide for the sliding parts of the potentiometer is fulfilled. Since in this embodiment, the tap track or Slider track 6a does not necessarily have to be on the "conductor side", can both tracks, namely the resistance track 2 and the tap track 6a on the Component side or component side can be arranged. Here, too, is between the two tracks the opening 5 of the circuit board and on both sides the resistance track 2 and the pick-off track 6a, which are preferably located directly on the edge the associated circuit board 1 is arranged. The pick-up track 6a forms an angle profile of a suitable, rigid material, preferably a metal, one of which Leg wedge 47 as the actual tap track on which the leg 18 of the tap 8 slides in an electrically conductive connection on the Circuit board is attached. The attachment can be done in any way; in the embodiment tab-like lugs 48 are provided at the ends of the leg 47 through Grip assigned openings in the circuit board 1 and bent over on the other side are. The other leg 49 of the pick-up track extends at the edge of the circuit board 1 at right angles upwards and is used for the improved management of the Sliding part in such a way that the leg in a groove 51 in the upper bearing part 9 is running. The upper bearing part also takes the tap 8 again and keeps it with it its cross pin 12 in a suitable position. For further guidance is on a bridge part 52 of the bearing part 9 a skid 53 arranged at right angles, which over the resistance track 2 slides away on the component side of the circuit board 1. So that the bearing part 9 sits firmly on the circuit board 1, is the usual, further forward already mentioned latching connection made with the holding part 10, but in the present In the case of the holding part 10, the extensions with the reference numerals 22a and 23a proceed, which open into the hook-shaped locking lugs 24 in the upper part, which are used for locking engage in corresponding recesses 26a and 26b on the bearing part 9. One more improved leadership results in this structure in that lye because of the edge the potentiometer structure also the peripheral edge of the circuit board 1 and the outer peripheral edge the tap track 6a can be encompassed via one on the main body of the bearing part 9 attached lateral leg 54. This leg lies flush on one integrally connected to the holding part 10 and over the edge of the circuit board 1 protruding approach 55. The connection of parts 54 and 55 can be improved that of one of the parts, for example from the leg 54 of the bearing part 9 Pin 56 go out into corresponding recesses on the shoulder 55 of the holding part 10 intervene, as indicated by dashed lines in FIG.

Of course, one of the sliding parts can still go outwards protruding approaches be attached or molded, which for activity associated circuit elements, for example the switch 41 in FIG. 3; In general, the special structural design of the sliding parts can also be different The only prerequisite, as already mentioned above, is that in skids for support on the circuit board 1 are provided in a suitable manner and locking means on both sliding parts, which connect through the opening 5 of the circuit board.

Another embodiment can finally be seen in the figures 9 to 11, the basic structure just mentioned also being present is. It differs, however, that the potentiometer with storage and assigned, from the sliding parts of the potentiometer operated switch directly as a higher-level switch Assembly are arranged on an edge region of the circuit board 1, which also, here again carries the slideways on the conductor side, namely resistance track 2 and Pick-up track 6, which is designed directly as an enlarged copper cladding. As can be seen from the illustration in FIG. 9, the unit consists of a potentiometer and switches from a one-piece structure made of suitable plastic, the whole is denoted by the reference numeral 58.

The sliding parts of the potentiometer, namely holding part 10a and bearing part 9a will be attached to the main structure 58 later; the main structure 58 consists from a frame 59 to be placed on the edge region of the circuit board 1, which merges integrally into the switch housing 60 towards the inside of the circuit board. At the edge areas of the printed circuit board, the frame 59 has flanges extending vertically downwards 61 on both sides and a main flange 62 to the front. This the front one The main flange 62 covering the edge of the printed circuit board 1 forms together with the opening 5 of the circuit board the guide for the sliding parts to be explained below of the potentiometer.

According to the cross-sectional view of FIG. 11, there are the slideways on the underside to be designated with reference to FIG. 9 the circuit board 1; the attachment of the frame structure 59 with switch 60 and the Flanges 61 and 62 on the edge area of the printed circuit board 1 are initially carried out by suitable means trained incisions and approaches for precise positioning, which are both can be located on the circuit board 1 as well as on the frame 59. The one-piece positive connection is then made by extending downward in FIG Approaches to switch housing 60 and frame 59 made of thermoplastic material created, which are inserted into openings in the circuit board and rivet-like on the other side be welded. As a result, the frame 59 with switch 60 is secure Connection to the circuit board 1; the sliding parts, namely the bearing part 9a and the holding part 10a are then snapped in again in the usual way from both sides, here, too, by a material area that extends beyond the outer flange 62 64 either from the bearing part 9a or the holding part 10a, the overall structure 58 still from the outside is encompassed for better guidance, as is also the case with the embodiment of Figures 7 and 8 is the case (see parts 54 and 55 there).

The illustration of FIG. 10 shows that the encompassing material part is designed so that two from the upper holding part 10a outgoing locking lugs 24 in engage a corresponding counter structure 65 on the bearing part 9a; on the other hand extends in the illustrated embodiment also from the upper holding part 10a starting as in the other exemplary embodiments, an extension 66 also extends through the opening 5 of the circuit board and snaps, as can be seen from FIG can, with corresponding lower locking lugs 24 in recesses on the bearing part 9a. The arrangement and storage of the tap 8 in the bearing part 9a is the same as in the case of the further forward already mentioned embodiments also, so that on this and on if necessary still existing sliding areas on the sliding parts not included needs to be; it should be noted, however, that the holding part 10a the front flange 62 from both sides, that is to say once with the extension of the material 64 and on the other hand with a corresponding inner approach 67 to form a Groove 68 includes. The inner extension 66 also serves to carry out the Switching movement for the switch 60, as it is designed, as can be seen, that they are at the same time at the end of the sliding movement with the lugs 62 on the actuating element of the switch 60 can come into operative connection.

Claims (19)

PATENT CLAIMS Potentiometer or slide resistor, especially as a single component for direct, integral connection with a further supporting circuit elements Printed circuit board, printed circuit board or the like for the construction of higher-level units the modular principle, consisting of a resistance slide and one on top sliding tap which can be moved by the action from the outside, characterized in that, that the resistance slide (2) is attached directly to a circuit board (1) is that parallel or concentric to the resistance slide (2) and on the same A pick-up track (6) made of conductive material is arranged on the printed circuit board surface, that the circuit board (1) has an opening (5) and that the opening (5) as a guide and storage for movably arranged on both sides of the circuit board (1), the resistance slide (2) and pick-up track (6) contacting tap (8) superimposed and actuating elements (9, 9a; 10, 10a) which are releasably connected to one another is. 2. Potentiometer according to claim 1, characterized in that the bearing part (9, 9a) and holding part (10, 10a) surfaces that slide on the circuit board surfaces (28, 29, 31, 53). 3. Potentiometer according to claim 1 or 2, characterized in that that the bearing and holding parts (9, 9a; 10, 10a) designed as sliding parts are over at least one extending through the opening (5) in the circuit board (1) releasable connection are connected to each other. 4. Potentiometer according to claim 3, characterized in that the releasable connection from the bearing part (9, 9a) or holding part (10, 10a) proceeding Extensions (22, 22a; 23, 23a) which open into locking lugs (24), which are resilient are pretensioned in such a way that, after assembly, they are inserted into corresponding recesses (26, 27) snap into place on the other part. 5. Potentiometer according to one or more of claims 1 to 4, characterized characterized in that the tap (8) is held in a recess in the bearing part (9, 9a) is and with a rear arcuate surface (13) one preferably in the transverse direction extending transverse pin (12) comprises on the bearing part. 6. Potentiometer according to claim 5, characterized in that the Tap (8) from the arched bearing part (13) on the transverse pin (12) to the front in two Legs (17, 18) expires, the corresponding, on resistance slide (2) and Abgriffsbahn (6) have sliding contact points. 7. Potentiometer according to claim 5 or 6, characterized in that in a recess (15) on the bearing part (9, 9a) one of the generally rigid Tap (8) with its legs (17, 18) on the sliding surfaces of the resistance track and the coil spring (16) which depresses the pickup path is disposed. 8. Potentiometer according to one or more of claims 1 to 7, characterized characterized in that the attached to two holding arms (14a, 14b) on the bearing part (9, 9a) Cross pin (12) a convex outwardly curved and with the arcuate surrounding surface (13) of the tap (8) having connecting bearing surface, such that the final horizontal position of the tap (8) by the abutment of its legs (17, 18) on resistance slide (2) and pick-up track (6) under the pressure of the Spring (16) results. 9. Potentiometer according to one or more of claims 1 to 8, characterized characterized in that at least one of the sliding parts (bearing part 9, 9a; holding part 10, 10a) resiliently formed and via sliding pieces (46) on the associated circuit board surface sliding tabs (33, 34) are arranged for precise mounting of the sliding parts. 10. Potentiometer according to one or more of claims 1 to 9, characterized in that the tap track is formed directly by the copper cladding for the conductor tracks of the circuit board (1). 11. The device according to one or more of claims 1 to 9, characterized characterized in that the pick-up track (6a) consists of a metallic angle profile with two legs (47, 49) and arranged on one edge of the circuit board (1) is that on the flush on the circuit board (1) attached legs (47) the associated Tap leg (18) of the tap (8) slides and that the other, vertically after upwardly directed legs (49) in a groove-like recess (51) on the bearing part (9) slides. 12. Potentiometer according to claim 11, characterized in that the Bearing part (9) via a bridge-like extension (52) a downwardly directed and the resistance slide (2) overlapping sliding foot (53) forms. 13. Potentiometer according to claim 11 or 12, characterized in that that in addition to the connection reaching through the opening (5) in the circuit board (1) of bearing part (9, 9a) and holding part (10, 10a) one over the Edge edge of the circuit board (1) and the outer surface of the leg (49) of the pick-up track (6a) closing material connection is provided between the sliding parts. 14. Potentiometer according to claim 13, characterized in that the additional connection consists of a leg (54) extending from the bearing part (9), via a pin / recess connection with an extension (55) on the holding part (10, 10a) is in connection. 15. Potentiometer according to one or more of claims 1 to 14, characterized in that one with further circuit elements of the circuit board (1), namely preferably switch (60) integrally connected frame (59) is provided which is arranged on a printed circuit board end area and at the same time the guide forms for the sliding parts. 16. Potentiometer according to claim 15, characterized in that the Frame (59) extending downwards and encompassing the edge areas of the circuit board Has flanges (61, 62) and that the front flange (62) in groove-shaped recesses at least one of the sliding parts (bearing part 9a, holding part 10a) is running. 17. Potentiometer according to claim 16, characterized in that the the front flange (62) of the frame (59) encompassing material extension (64) on the holding part (10a) opens down into locking lugs (24) which have a correspondingly shaped Include counterpart (65) on the bearing part (9a). 18. Potentiometer according to one or more of claims 1 to 17, characterized in that at least one of the Sliding parts (Bearing part 9, 9a, Ilalteil 10, 10a) lugs (66) or recesses (43) are provided are switching to building higher units still on the circuit board (1) Attached components (switches 60, 41, 41 ') engage. 19. Potentiometer according to one or more of claims 1 to 18, characterized in that the resistance track (2) is directly on the circuit board (1) is applied and an integral part of the same, for example by intimate Connection of the material forming the resistance track with the carrier material of Circuit board.