DE591735C - Process for the production of high and low resistance - Google Patents

Description

Method of manufacturing high-. and low resistance special Types of high impedance resistors have previously been made that on a - insulating carrier - for example by spraying carbon or graphite Solutions a weak. conductive surface layer was generated. Manufactured in this way Resistances cause a manufacturing difficulty due to the behavior of the carbon insofar as the carbon is hygroscopic and during the manufacturing process itself has changes in its resistance value, which changes to Moisture absorption.

It is also known, low-ohmic resistors, in which one is metallic Conductive layer is used - thereby - to produce - that a noble metal layer in the form of a thin, liquid solution or that thin metal layers are applied separates from solutions as a coherent mass of metal.

When you apply the solutions to the carrier by brushing or brushing on or spraying on, or if the resistor carriers are immersed in the solution, in general only uneven layers are obtained, mostly of considerable, very strongly fluctuating strength, which ensures a uniform, flawless production of high-resistance Do not allow resistance. The reason for this is that the on the carrier body accumulating amounts of liquid are inevitably so large that they, in particular probably as a result of the. Difficult to distribute evenly over the surface can.

It is also the production of layers by sputtering known. `But this method only delivers relatively uneven results Layers. . Because when the small parts are deposited by means of cathode sputtering the applied high voltage and the field strength on the surface can be of great influence, but it is very difficult to ensure their uniformity is. Fluctuating tensions result - but a fluctuating speed of the dusted Particles and thus a fluctuating density of the deposited layer.

The explained disadvantages of carbon solutions, applied metal solutions: and layers produced by cathode sputtering can be avoided, if you use metal solutions, which are applied by a special process will. Such solutions are in the platinum or used in ceramics Gold solutions available. When the temperature rises, these solutions become the Precious metal eliminated. When using metal solutions for the production of thin However, layers are the disadvantages mentioned above in the above-mentioned method available.

According to the invention, such solutions are now applied by misting the carrier body knocked down and so at the same time or later Warming up the body which the precipitation takes place, the desired Resistance values made. For example, the Westhave platinum solution. The difference between spraying on and nebulizing consists in the nebulization of the solutions by an atomization under a lot higher air pressure than spraying. When atomizing the droplets so small that they can float in the air. They hit accordingly with such a fine height on the carrier that the force of gravity cannot influence the layer thickness. The fogging process is z. B. in medicine in use to atomize liquids so finely that they can be inhaled as a mist.

For the purpose of making high and low resistance resistors the nebulization process using liquid precious metal solutions is suitable especially good. As a result of the extremely small size of those produced during the fogging Liquid droplets create an extremely thin and even coating of the insulating, carrier body provided with connection electrodes.

The details of the procedure can be specified in the following manner be made .: A larger number of insulating resistance supports, e.g. B. short glass rods, at the ends of which lead electrodes are melted brought into a room in a strongly heated state, in which it was misted Precious metal solution is located. Depending on the length of their stay in the one with the fog filled space condenses on the surface of the billet a stronger or lower metal deposit, which brings about the conductivity.

The procedure can also be carried out the other way around that the billets be brought into the nebulization room in a cold state and only after being covered be heated with a certain precipitate. This then separates Metal off. The heating can then be started after the desired resistance value has been reached to be interrupted. When nebulizing, the resistance carriers can be on a rotating Disc, being periodically brought into a room in which they are heated up, while afterwards they briefly through again the fogged room, where a new short-term precipitation occurs. Since in this execution of the method very small amounts of precipitation alternate formed and excreted by heating, so it is easy to prescribe certain ones Resistance values for a larger number of identically formed resistance bodies to achieve in terms of manufacturing. The resistors produced in this way are very insensitive against moisture and other influences. You can therefore without any special inclusion in a. Vacuum can be used, but those with metal deposits are suitable provided resistances especially to an inclusion in the vacuum, where their permanent Immutability is guaranteed.

Instead of the precious metal solutions mentioned, any other metal solution of base metal can be used, which can be used for atomizing suitable.

Claims (1)

PATENT CLAIMS: x. Process for the production of high and low resistance Resistances, in which metal solutions are suitably made of insulating material Carrier are applied, characterized in that the carrier in a nebulized Metal solution - brought and for the purpose of depositing the metal beforehand or afterwards be heated. z. Method according to Claim =, characterized in that the resistance carriers be brought into or passed through a room in which the metal solution is in the form of a mist obtained by atomization. 3. The method according to claim i or 2, characterized in that the resistor carrier periodically into a room in which they are heated, and then into be brought into a foggy room.