DE102006023533A1 - Electric potentiometer - Google Patents

Abstract

electrical Potentiometer (1) with a support plate carrying a resistance track (3) (6), wherein the free ends (9, 12) of the resistance track (3) with the first and second potentiometer terminals (15, 18) are connected, and with a wiper (24) carrying a tap (27), which is connected to the third potentiometer terminal (21). The Resistance path (3) is composed of an arrangement (4) of electrically interconnected, discrete resistance elements (30) with predetermined resistance values educated. There is also a device (36), with the in the adjustment of the tap of the sliding contact (24) along his trajectory (B) with definable parts (42) of the Widestands arrangement (4) can be electrically connected.

Description

The The invention relates to an electric potentiometer according to the preamble of claim 1. A generic electrical Potentiometer has three potentiometer connections and a carrier plate up, which carries a resistor track. The free ends of the resistor track are with the first and second potentiometer terminals connected. Furthermore, a generic potentiometer has a tap on, which carries a sliding contact and connected to the third potentiometer terminal.

Generic electrical Potentiometers are available as adjustable resistors in the prior art Principle known. Your basic Structure and its use is, for example, in the textbook "Ekbert Hering, Klaus Bressler, Electronics for Engineers, VDI Verlag Düsseldorf, 1992, chapter 2.2.4 ".

to Production of generic electrical Potentiometers are made according to the previously known methods a carrier element applied one or more resistance compounds. These resistance measures Form a continuous resistance layer. They are, for example Carbon layers or layers of CERMET, these are layers made of metal particles embedded in a ceramic or glass mass.

easy However, layer potentiometers are not very accurate. To increase the Accuracy in known potentiometers in a subsequent Operation the resistance layers aligned with a laser. The resistance layer serves as a contact surface for the sliding contact, which forms the resistor tap.

Because of the required laser alignment is the previously known method quite expensive and inflexible. Known generic electrical potentiometer with high accuracy are thus expensive.

It Therefore, the object of the present invention, a generic electrical To create potentiometers with high accuracy, which is simple and cost-effective Way can be made.

The Task is solved by a generic electrical Potentiometer with the characterizing features of claim 1.

Thus, according to the invention the resistance path of an arrangement of electrically interconnected, discrete resistance elements with predetermined resistance values formed, and there is a device, with the adjustment in the area the tap of the sliding contact along its trajectory with predeterminable parts of the resistor assembly electrically connected can be.

Of the Advantage of the new electrical according to the invention Potentiometers lies in the fact that the discrete, so isolated, Resistance elements with predetermined resistance values of such accuracy classes chosen can be that their electrically interconnected arrangement a total of a potentiometer the desired Accuracy class results. By selecting suitable tolerance classes for the individual Resistance elements can thus increase the accuracy of the potentiometer be determined and determined from the outset.

Of the Resistor tap over The sliding contact is similar to that in the state the technology known potentiometers. However, the change is of the resistance value, which is between the first or second and the third potentiometer terminal when the sliding contact is along his trajectory is moving, no longer continuous, like in the prior art. The resistance value changes rather stepwise. Of the Amount of change from one level to the next is here by the resistance value between two contact points given between two resistance elements.

One Another advantage is that by varying the resistance values different characteristics, for example linear or nonlinear or steadily or discontinuously, etc., of the potentiometer can. The type of characteristic of the potentiometer can also by the type of interconnection of the individual resistance elements are preselected, So for example by what kind of network the individual Resistor elements are interconnected, whether in series, or parallel or a mixed series and parallel connection.

In a particularly advantageous embodiment, the arrangement a series circuit of resistive elements, and the predetermined parts the resistance arrangement, with which the sliding contact in the adjustment the tap can be connected along its trajectory are the electrical connection points between the individual resistance elements. An electrical series connection represents the simplest network and is thus one of the preferred ways to an inventive electrically to build a wired arrangement of resistive elements.

It is also very advantageous if the means for electrically connecting the sliding contact with the predeterminable parts of the cons stand arrangement comprises contact fields extending between the electrical connection points of the resistive elements and the path of movement of the sliding contact. In this way it is then possible to adapt the geometric arrangement of the series-connected resistance elements on the support plate to the respective space conditions. It is then in the arrangement on the support plate is not limited by the fact that the connection point between each two resistors itself must be in the range of the trajectory of the sliding contact.

The Arrangement of electrically interconnected resistor elements can on the opposite side of the sliding contact Side of the carrier plate be attached so that the arrangement of electrically interconnected Resistance elements and the sliding contact on different sides the carrier plate lie. The advantage of such an arrangement is that a smaller and more compact design can be achieved.

The Arrangement of electrically interconnected resistor elements can another advantageous embodiment according to also on the same side of the carrier plate as the sliding contact be attached. The advantage of such an arrangement is that the resistor assembly through the free back the carrier plate protected becomes.

advantageously, the tap is rotatably mounted about a rotation axis, so that the Trajectory of the sliding contact in about a circular arc describes. This is a sufficiently long trajectory of the tap in a small absolute space requirement guaranteed.

Very Particularly advantageous is an embodiment in which the carrier plate a circuit board is. It can then from the PCB technology and from the technology of assembly of printed circuit boards known methods and machines for manufacturing a potentiometer according to the invention be used

Especially In particular, an embodiment in which the resistance elements are SMD components is advantageous and are applied in SMD technology on the circuit board. SMD stands thereby for "Surface Mount Device", thus surface-mounted Components. As is well known, SMD technology has been used in printed circuit board manufacturing for many years as cost-effective Method proven. The resistance components are designed in a special way, namely without connecting wires, but for that with solder material containing connection points directly at the ends for example, the cuboid or cylindrical trained resistance elements.

At the equip in the circuit board, the SMD components are at their predetermined Placed and held there. In a subsequent automated soldering, for example, after the so-called wave soldering, then liquid solder on the Components flushed. At the connection points, the solder connection is made, in all other places pearls the liquid Lot off again. The equipping and soldering can doing so on fully automated machines.

resistance components in SMD-capable embodiment are in a big one Variation width and available in many accuracy classes. Let it So any resistance arrangements with predetermined accuracy inexpensive in this way realize.

One Another advantage of such an embodiment is that the contact fields, which are the connection points between each two Resistance elements and the trajectory of the sliding contact form, as conductor tracks are formed on the support plate. The production of such traces on a printed circuit board is one of the basic Techniques in printed circuit board manufacturing and is therefore also easy and inexpensive to realize.

to Reduction of contact resistance, and environmental influences to minimize, in a further advantageous embodiment, the contact surface of Sliding contact or the contact fields be gold plated. This is especially advantageous, if not excluded can that moisture or dirt particles on the contact area advised.

In a particularly simple and advantageous embodiment a potentiometer according to the invention this includes a potentiometer housing from a housing bottom and an upper housing part. In this case, the carrier plate simultaneously with their functions as a carrier of the resistor arrangement and the trajectory of the tap form the housing bottom of the potentiometer housing. This is particularly advantageous if the resistor arrangement and the tap are arranged on the same side of the carrier plate. Because then the back is the carrier plate free of electrical components and can be fitted into the housing top so that they are protective caseback acts.

Of the Tap is advantageously at one in the upper housing part attached to its axis of rotation rotatably mounted contact carrier part. He is then from the side of the housing top here for an operator, with or without tools, to set the desired Resistance accessible.

In Advantageously, the contact carrier part with a sealant, For example, an O-ring, sealed against the upper housing part. To this Way, especially in combination with a sealing housing bottom, a dirt and moisture-proof housing of the potentiometer according to the invention be achieved.

Of the Sliding contact can advantageously be a metallic contact piece in the contact carrier part is held and the carrier plate resiliently acted upon. By the resilient admission is a sufficient and constant time contact pressure guaranteed.

Around The effects of dirt particles can be further minimized the sliding contact of several parallel connected partial contacts consist. So he can, for example, trained as a comb or brush be.

Very economical is the production of an electric potentiometer according to the invention in particular then, if according to one another preferred embodiment the contact carrier part and the upper housing part prefabricated injection molded parts are. these can in big numbers and for different Potentiometertypen be made consistent. The distinction between the different types of potentiometers is then only by the Dimensioning of the resistor assembly set.

In a particularly simple and therefore preferred embodiment is an electrical according to the invention Potentiometer only five Single components assembled. These are the components: Upper housing part, Contact carrier part, contact piece, sealant and support plate.

at the assembly is in a first step, the sealant in the Contact carrier part used. According to one previously described advantageous embodiment is used as a sealant an O-ring in an adapted to this annular groove of the contact carrier part used. In a second step then the contact carrier part used in a suitable recess in the upper housing part, so that the o-ring between the inside of the housing top and the bust of the contact carrier part a seal causes. In a third step, the contact piece in a corresponding recess on the underside of the contact carrier part used. In a fifth Step is then on the still open housing bottom put on the printed circuit board and fastened. The fastening can do this either by latching or by gluing the circuit board with those exterior walls of the Housing upper part, or by casting with a sealing and filling compound, or in any other known manner.

Based of the drawings, in which 2 embodiments the invention are shown, the invention and others advantageous embodiments and improvements of the invention explained in more detail and to be discribed.

It demonstrate:

1 FIG. 2: a cross section (schematically) through a potentiometer according to the invention, FIG.

2 FIG. 2: a plan view (schematically) of a potentiometer according to the invention, in which the resistor arrangement and the tap are arranged on the same side of the carrier plate,

3 FIG. 2: a cross section (schematically) through a potentiometer according to the invention, wherein the carrier plate simultaneously serves as a housing bottom,

4 FIG. 2: a cross section (schematically) through a potentiometer according to the invention, wherein a housing bottom is provided in addition to the carrier plate,

5 FIG. 2 schematically shows the resistance profile of a potentiometer according to the invention. FIG 2 to 4 depending on the angle of rotation, as well

6 : A cross-section (schematically) by a potentiometer according to the invention, wherein the carrier plate is connected to a sealing and filling compound with the housing.

The 1 shows an electric potentiometer 1 with a first potentiometer connection 15 , a second potentiometer connection 18 and a third potentiometer connection 21 , On the underside of a carrier plate 6 is an arrangement 4 of resistance elements 30 mounted in the form of an electrical series connection. The resistance elements 30 are designed as SMD components. They carry at the ends of the cuboid resistor body respectively fittings 31 made of solder material.

From the fittings 31 every resistance element 30 lead electrically conductive bushings on the opposite side of the carrier plate 6 , There, the conductive bushings are each two adjacent resistance elements in an electrical connection point 42 electrically connected. Thus, the electrical feedthroughs provide means for electrically connecting portions of the resistor assembly 3 with the sliding contact within the adjustment range of the tap 27 In this way creates an electrical series connection of the resistor train 3 between their first free end 9 and the second free end 12 ,

The first free end 9 is also with a conductive feedthrough on the opposite side of the carrier plate with the first potentiometer connection 15 electrically connected, as is the second free end 12 by an electrical feedthroughs with the second potentiometer connection 18 electrically connected.

With the third potentiometer connection 21 is a tap 27 connected, in a sliding contact 24 ends. The sliding contact 24 presses resiliently against the resistance path 3 opposite side of the carrier plate 6 , The tap 27 and thus the sliding contact 24 can in the direction of arrow P along its trajectory B parallel to the surface of the support plate 6 be moved. The resistance between a free end of the resistance path 3 and the third potentiometer connection 21 then adjusts itself as the value resulting from the series connection of those resistive elements 30 that results between the respective free end of the resistance path 3 and the electrical connection point 42 lie through the sliding contact 24 will be contacted.

The 2 shows a plan view of another embodiment of an electrical potentiometer according to the invention. The same or equivalent elements or functional groups bear the same reference numerals as in the 1 , In the following, therefore, essentially only to the differences to 1 To be received.

The resistance elements 30 that the resistor arrangement 4 in the form of an electrical series connection of the resistance elements 30 are in the embodiment of the 2 on the same side of the carrier plate 6 attached like the tap 27 , They are circular around the axis of rotation 62 of the contact carrier part 60 around on top of the circuit board 6 applied. In the contact carrier part 60 has roughly cylindrical shape, the tap 27 is approximately parallel to the surface of the circuit board 6 extending in the radial direction from this. He is around the axis of rotation 62 the contact carrier part together with this at an angle of about 270 ° between the beginning and the end position rotatable. The third potentiometer connection 21 is as a track laterally to the edges of the circuit board 6 led out. Towards the center, the third potentiometer connection widens 21 to a contact carrier part 60 ring-shaped conductor circuit.

The start and end points of each two adjacent resistance elements 30 are by electrical traces each in an electrical connection point 42 connected. The electrical connection point 42 are also annular around the axis of rotation 62 arranged around. From every electrical connection point 42 runs radially on the axis of rotation 62 indicative of a contact field 40 formed as a longitudinally extending rectangular conductor piece.

At the bottom of the tap 27 , in the view after 2 covered by this, is the sliding contact. This establishes the electrical connection between the contact field 45 and the circular trace in extensions of the third potentiometer terminal 21 ,

The 5 shows schematically the course of the Potentiometerwiderstandes between the first or second and the third Potentiometeranschluss, plotted on the ordinate in the unit ohms, depending on the angle of rotation of the contact carrier part 60 , It can be seen clearly the step-shaped course of the resistance, which arises when the sliding contact is moved from one to the next contact field on. The resistance values of the individual resistance elements 30 are specified so that sets a logarithmic course of the resistance characteristic.

The 3 shows a cross section through a further embodiment of an electric potentiometer according to the invention. The same or equivalent elements or functional groups bear the same reference numerals as in the 1 and 2 , In the following, therefore, essentially only to the differences to the 1 and 2 To be received.

The carrier plate 6 serves in the embodiment according to 3 at the same time as caseback 51 of the housing upper part 54 and the caseback 51 formed Potentiometergehäuses 57 , The resistance elements 30 are as SMD components on the underside of the carrier plate 6 appropriate, according to the in 1 shown arrangement. The tap 27 on the opposite side of the carrier plate 6 is part of the contact carrier part 60 , The contact carrier part 60 has approximately the shape of a cylindrical body 64 with a centrally mounted also cylindrical essay 65 , The essay 65 is through an opening 61 in the upper housing part 54 performed and outwardly out of this. In the rotation axis 62 of the contact carrier part 60 There is a notch, suitable for engaging a tool, such as a screwdriver.

At the top of the cylindrical body 64 an O-ring is inserted in an annular groove to the cylindrical body against the inside of the housing top 54 less known. At the opposite bottom of the cylindri body 64 there is a contact recess 28 , slightly eccentric. This serves to accommodate the sliding contact 24 , The sliding contact 24 has approximately the shape of a metallic V-shaped expanding spring, which is resiliently acted upon in the opening direction.

At the free end of the sliding contact 24 this runs in a flattened contact piece 66 out. To improve the electrical contact is the contact piece 66 gilded. In addition, also the contact field 45 to be gilded.

Due to the resilient loading of the sliding contact 24 in the opening direction, on the one hand, the contact carrier part 60 with the O-ring 63 against the inside of the housing top 54 pressed, on the other hand, this creates the necessary contact pressure on the contact piece 66 , In this way, the contact carrier part 60 without additional tools in the potentiometer housing 57 held in the right position. This makes the assembly of the potentiometer according to the invention in the embodiment according to 3 very easy and inexpensive.

The 4 shows a variant of the embodiment according to 3 , The same or equivalent elements or functional groups bear the same reference numerals as in the 3 , In the following, therefore, is essentially only to the differences to the 3 To be received.

In the embodiment according to 4 is in the potentiometer housing 57 through an additional housing bottom 51 locked. The circuit board six is thus completeness dig inside the Potentiometergehäuses 57 introduced and optimally protected from dirt and moisture. The potentiometer connections are through the potentiometer housing 57 suitably performed and sealed.

The 6 shows a cross section through a further embodiment of an electric potentiometer according to the invention one in which the protection against dirt, moisture and other environmental influences is realized in a different way. The same or equivalent elements or functional groups bear the same reference numerals as in the preceding 1 to 4 , In the following, therefore, essentially only the differences from the preceding figures will be discussed.

The carrier plate 6 is in the embodiment according to 6 a little way into the upper part of the housing 54 introduced from its open side, so that between the with the resistive elements 30 equipped side of the support plate 6 and the free edge of the housing top 54 a free volume remains. This free volume is with a potting compound 67 filled. The potting compound fixes one hand, the support plate 6 in the upper housing part 54 , On the other hand, it seals the interior of the potentiometer to the outside and serves as a protection of the resistive elements 30 and the remaining internal space of the potentiometer from environmental influences, such. As dirt, moisture or mechanical shocks.

1

potentiometer

3

resistance path

4

resistor arrangement

6

support plate

9

first free end of the resistance track

12

second free end of the resistance track

15

first potentiometer

18

second potentiometer

21

third potentiometer

24

sliding contact

27

tap

28

contact recess

31

contact pads

30

resistive element

33

adjustment of the tap

36

Facility for electrical connection

39

trajectory of the tap

42

electrical junction

45

Contact field

48

axis of rotation

51

caseback

54

Housing top

57

potentiometer

60

Contact carrier part

61

recess

62

axis of rotation

63

sealant

64

cylindrical body

65

essay

66

contact piece

67

potting compound

Claims (22)

Electric potentiometer ( 1 ) with a resistance path ( 3 ) carrying carrier plate ( 6 ), the free ends ( 9 . 12 ) of the resistance track ( 3 ) with the first and second potentiometer connections ( 15 . 18 ) and with a sliding contact ( 24 ) carrying tap ( 27 ) connected to the third potentiometer connection ( 21 ), characterized in that the resistance path ( 3 ) from an arrangement ( 4 ) of electrically interconnected, discrete resistance elements ( 30 ) is formed with predetermined resistance values, and that a device ( 36 ) is present, with the in the adjustment of the tap the sliding contact ( 24 ) along its trajectory (B) with deliverable parts ( 42 ) of the resistance arrangement ( 4 ) can be electrically connected. Electric potentiometer ( 1 ) according to claim 1, characterized in that the arrangement ( 4 ) a series circuit of resistive elements ( 30 ) and the predefinable parts ( 42 ) of the resistor arrangement ( 4 ) the electrical connection points between the individual resistance elements ( 30 ) are. Electric potentiometer ( 1 ) according to claim 1 or 2, characterized in that the means for electrical connection ( 36 ) of the sliding contact ( 24 ) with the predefinable parts ( 42 ) of the resistor arrangement ( 4 ) in between the electrical connection points of the resistance elements ( 30 ) and the trajectory (B) of the sliding contact ( 24 ) extending contact fields ( 45 ). Electric potentiometer ( 1 ) according to one of the preceding claims, characterized in that the arrangement ( 4 ) of electrically connected resistive elements ( 30 ) and the sliding contact ( 24 ) on different sides of the carrier plate ( 6 ) lie. Electric potentiometer ( 1 ) according to one of claims 1 to 3, characterized in that the arrangement ( 4 ) in electrically connected resistive elements ( 30 ) in and the sliding contact ( 24 ) on the same side of the carrier plate ( 6 ) lie. Electric potentiometer ( 1 ) according to one of the preceding claims, characterized in that the tap ( 27 ) is rotatably mounted about a rotation axis, so that the movement path (B) of the sliding contact ( 24 ) describes approximately a circular arc. Electric potentiometer ( 1 ) according to one of the preceding claims, characterized in that the carrier plate ( 6 ) is a printed circuit board. Electric potentiometer ( 1 ) according to claim 7, characterized in that the resistance elements ( 30 ) SMD components and in SMD technology on the printed circuit board ( 6 ) are applied. Electric potentiometer ( 1 ) according to one of the preceding claims, characterized in that the contact fields ( 45 ) as conductor tracks on the carrier plate ( 6 ) are formed. Electric potentiometer ( 1 ) according to one of the preceding claims, characterized in that the contact surface of the sliding contact ( 24 ) and / or the contact field ( 45 ) are gold plated. Electric potentiometer ( 1 ) according to one of the preceding claims, characterized in that by varying the resistance values different characteristics of the potentiometer ( 1 ) are feasible. Electric potentiometer ( 1 ) according to one of the preceding claims, characterized in that by selecting suitable tolerance classes for the resistance elements ( 30 ) the accuracy of the potentiometer ( 1 ) is determinable. Electric potentiometer ( 1 ) according to one of the preceding claims, characterized in that the carrier plate ( 6 ) the housing bottom of a housing bottom ( 51 ) and an upper housing part ( 54 ) comprising a potentiometer housing ( 57 ). Electric potentiometer ( 1 ) according to one of the preceding claims, characterized in that the carrier plate ( 6 ) on the open side of a housing shell ( 45 ) in the upper housing part ( 45 ) and on the outside with a potting compound ( 67 ) is shed. Electric potentiometer ( 1 ) according to one of the preceding claims, characterized in that the tap ( 27 ) on one in the upper housing part ( 54 ) rotatably mounted contact carrier part ( 60 ) is attached. Electric potentiometer ( 1 ) according to one of the preceding claims, characterized in that the contact carrier part ( 60 ) with a sealant on ( 63 ) against the upper housing part ( 54 ) is sealed. Electric potentiometer ( 1 ) according to one of the preceding claims, characterized in that the sliding contact ( 24 ) in the contact carrier part ( 60 ) and the carrier plate ( 6 ) resiliently acting metallic contact piece ( 66 ). Electric potentiometer ( 1 ) according to one of the preceding claims, characterized in that the contact carrier part ( 60 ) and the upper housing part ( 54 ) are prefabricated injection molded parts. Electric potentiometer ( 1 ) according to one of the preceding claims, wherein the potentiometer ( 1 ) from the five individual components housing upper part ( 54 ), Contact carrier part ( 60 ), Contact piece ( 66 ), Sealant ( 63 ) and support plate ( 6 ) is composed. Electric potentiometer ( 1 ) according to one of the preceding claims, characterized in that the distance between the individual segments of the contact field ( 45 ) is smaller than the width of the sliding contact ( 24 ). Electric potentiometer ( 1 ) after one the previous claims, characterized in that the sliding contact ( 24 ) consists of several parallel connected partial contacts. Electric potentiometer ( 1 ) according to claim 21, characterized in that the sliding contact is formed as a comb or brush.