CS258996B1 - Variable Resistance - Google Patents

Abstract

This involves creating a variable resistor, which uses the piezoelectric properties of thick resistive layers, which allows its precise adjustment even during operation. The variable resistor is formed by an insulating pad, on which a thick resistive layer is applied on one side, provided with two conductive contacts. The insulating pad is clamped in a rigid holder at least at one end. At the other end of the insulating pad or anywhere between its two clamped ends, an adjusting element is placed on at least one side, which passes through the rigid holder. Variable resistors created in this way can be used with advantage in hybrid circuits, since their desired value can be precisely adjusted even during operation.

Description

The present invention relates to a variable resistor which enables its precise adjustment even during operation.

Extending microelectric components and circuits into measurement and control technology requires components * with accurate values. In resistive circuits, great emphasis is placed on their accuracy of adjustment not only during their manufacture, but also on the accuracy of adjustment during operation, because the parameters of the connected circuits change due to time changes. Therefore, resistance or resistance values often arise during installation or maintenance. In many circuit designs, such as hybrid circuits, this is not feasible due to the mechanical unavailability of the resistance in the circuit. Usually this adjustment is then solved by removing the resistor from the housing and engaging the external variable resistor. This solution is unsuitable due to the incompatibility of the part to be inserted and the increase in dimensions and the decrease in reliability.

The above-mentioned drawbacks are overcome by the variable resistance of the invention. Its essence is that it consists of an insulating mat on which a thick resistive layer is provided on one side, provided with two conductive contacts. The insulating pad is clamped in at least one end in a rigid holder. At the other end thereof, or anywhere between the two clamped ends, there is at least one side an adjusting element which extends through the rigid holder.

The advantage of this variable resistor is that it allows adjusting the resistive value of the variable resistor even during operation, after encapsulation, without requiring substantial dimensional expansion and does not compromise circuit reliability. The invention utilizes piezoelectric properties of thick resistive layers containing, for example, ruthenium or bismuth with a high piezoresistive constant

- 2 258 996

Examples of embodiments of the variable resistor according to the invention are shown schematically in the attached drawing. Fig. 1 is an example where the insulating pad is clamped at one end, and Fig. 2 is an embodiment where both ends are clamped.

A thick resistive layer 2 is provided on the insulating mat 1, which is provided with two conductive contacts 6 and 6. The insulating washer 1 is rigidly connected to the rigid holder 6 by recess 6. The rigid holder 2 has a threaded hole 7. The aperture 7 is ^one adjusting element 8, in this case the screw which is provided with a groove <) »CS engages uncrimped end of the mattress first

With this arrangement, the insulating pad 1 with a thick resistive layer 2 can be stressed in both directions, up and down, by means of the adjusting element 8. This changes the resistance value by up to 30% from the original value. In this way, several resistors can be set on a single insulating mat 1.

A second embodiment of the variable resistor according to the invention again consists of an insulating pad 1 on which a thick resistive layer 2 is provided, provided with two conductive contacts 8 and 6 for conducting the resistance. The insulating pad 1 is clamped at both ends in a rigid holder 6. The insulating washer 1 is here provided with a central hole 10 through which the adjusting element 8 is formed, consisting here of a screw 12 terminated by a control screw 12. At the same time it passes through a rigid bracket 8. The screw 12 passing through the insulating washer 1 has a locking nut 11. The resistive layer 2 is arranged at the center hole 10 so that it is not electrically connected to the adjusting element, here to the screw 12. The function of the variable resistor formed in this way is basically also, as in the previous case, allowing adjustment of the resistance value up to 30 % from original value.

Claims (1)

Variable resistor, characterized in that it consists of an insulating pad (1) on which a resistive layer (2) is formed on one side, provided with two conductive contacts (3, 4), wherein the insulating pad (1) is at least at one end gripped in the rigid holder (5) and at the other end of the insulating pad (1) or anywhere between the two clamped ends of the insulating pad (1), there is at least one side of the adjusting element (8) extending through the rigid holder (5).