DE1490546B2 - PROCEDURE FOR ADJUSTING ELECTRICAL FILM RESISTORS - Google Patents

Description

The invention relates to a method for balancing electrical resistances with a Resistance layer, which is applied one after the other to a non-conductive support body, electrically conductive layers with different temperature coefficients of resistance.

The use of alternately applied carbon and metal layers for influencing the temperature coefficient of the resistance value is known per se. In such a known The arrangement is a metal layer applied to part of a carbon layer, which, due to its positive temperature behavior, has the opposite behavior of the carbon layer to compensate (German Patent 893 685).

It is also already known that the temperature dependence the display of a measuring instrument with the help of temperature-dependent series or shunt resistances can be eliminated.

The present invention is based on the object of a method for subsequent adjustment of electrical resistors with a resistive layer composed of different layers to specify the setpoint at which a certain temperature coefficient is set at the same time can be.

This object is achieved in that the layers are first applied in series to the support body and then each ground to total resistance values by means of spirals so that their ratio to one another is inversely proportional to that of their temperature coefficients.
For pure metal layers with a TKr of +4000 · 10- ⁶ / ° C and coal layers with a TKr of -220 × 10 ^-6 / ° C, the resistance values of the applied in series metal and carbon layer components such as 1 must accordingly: 20 behave . As far as fluctuations in the process, z. B.

deviations from the required ratio of the resistance values to one another occur, these are for example corrected by grinding the layers to the required resistance values by means of turning tools will. For higher resistance values in particular, it is advisable to place the metal layer in the longitudinal center to apply the support body. This results in more favorable loading conditions. Appropriate you will already be with the application of the individual resistance layers the layers by appropriate thickness and / or length dimensioning in their Define resistance values that their resistance values are at least approximately reversed to one another behave proportionally as the temperature coefficients.

In a preferred embodiment of such The resistors are carbon and metal, here again especially nickel layers in series applied to the support body. Instead of the carbon layers, metal oxide layers can also be used be used.

To explain the invention in more detail, an exemplary embodiment of the subject matter is shown in the drawing of the invention shown.

On the support body 1 shown in the figure, for. B. made of glass or ceramic, are alternately in Series of metal and carbon layers 2 and 3 respectively applied and that of the cap-shaped connection elements 4, 5 free resistance layers coiled in such a way that the ratio of the total resistance value of the carbon layers is reversed to the total resistance of the metal layers proportional to how their temperature coefficients relate to each other and the temperature coefficient of the Total resistance is zero.

1 sheet of drawings

Claims (5)

Patent claims: 1. Method of matching electrical resistances with a resistive layer that made of electrically conductive layers applied one after the other to a non-conductive support body with different resistance temperature coefficients exists, on setpoint, thereby characterized that first the layers (2, 3) are applied in series on the support body (1) and then in each case by means of coils be ground to total resistance values in such a way that their ratio to one another corresponds to their temperature coefficients is inversely proportional. 2. The method according to claim 1, characterized in that the layers (2, 3) by corresponding Thickness and / or length dimensioning can be coordinated. 3. The method according to claim 1 and / or 2, characterized in that the layers (2, 3) Carbon, metal, in particular nickel layers are applied to the support body (1). 4. The method according to claim 1 and / or 2, characterized in that the layers (2,3) Metal and metal oxide layers are applied to the support body (1). 5. Process according to claims 1 to 4, characterized in that a metal or Metal oxide layer in the region of the longitudinal center of the support body (1) is applied to this.