CS240731B1 - Suppression resistor - Google Patents

Abstract

The solution relates to an interference suppression resistor, which is inserted into individual interference suppression elements of ignition devices of motor vehicles in order to suppress the interfering electromagnetic field arising in the ignition system of motor vehicles and other devices with internal combustion engines. The interference suppression resistor is formed by an insulating substrate with a layer of metal oxides applied thereto, characterized in that the layer of metal oxides contains 15 to 65 weight percent of antimony trioxide and 85 to 35 weight percent of tin dioxide and tin(II) oxide, the content of antimony trioxide increasing towards the surface of the layer.

Description

BACKGROUND OF THE INVENTION The present invention relates to interference suppression elements which are incorporated into individual interference suppressors of motor vehicle ignition devices to suppress the disturbing electromagnetic field generated by the ignition system of motor vehicles and other internal combustion engine devices which cause interference to radio and television reception.

Currently, wirewound or mass resistors are used for this purpose. The winding of the wire resistors is made of very thin resistance wire, which must be protected by a layer of enamel, sealant or enamel. Especially the enamel surface protection, which is necessary for interference suppressors used for operation in high temperature environments, such as suppressed spark plugs, causes high intermittent short-circuits due to its high mechanical stress by shifting the winding over the supporting cylindrical body, . If moisture is applied to the wire suppression resistors, the surface protection gradually gets wet and the thin resistance wire breaks. Production of wire suppression resistors is very laborious and demanding. Mass suppression resistors show low suppression efficiency and their production is not widespread due to their difficulty.

The above-mentioned drawbacks are eliminated by the interference suppression resistance according to the invention, consisting of an insulating mat with a layer of metal oxides, which comprises 15 to 65% by weight of antimony trioxide and 85 to 35% by weight of stannic and stannous oxide. increases.

The resistive layer of tin oxide and antimony deposited on the insulating mat according to the invention exhibits high heat resistance, resistance to moisture and other aggressive vapors. Resistors can be inserted into individual interference suppressors without surface protection. The suppression efficiency cannot be reduced compared to the wire suppression resistors by agglomerating the coils of the resistance wire. The suppression resistors of the present invention can be produced in bulk, especially when cylindrical ceramic bodies are used. The suppression resistors according to the invention can operate in high-temperature pulsed operation without interruption.

The accompanying drawings show two exemplary embodiments of a suppressor resistor according to the invention, wherein FIG. 1 shows a suppression resistor utilizing the entire cylindrical surface of the resistive layer to produce a suppression effect, and FIG. 2 a suppression resistor with a ground resistive spiral.

The suppression resistance of the invention in FIG. 1 consists of a non-conducting base 1 of the resistive layer 2 and the contact caps 3. The resistive layer 2 contains, for example, 40 weight percent antimony trioxide and 60 weight percent tin oxide and stannous oxide. up to 65 weight percent. The suppression resistance according to the invention in FIG. 2 consists of a base non-conducting cylindrical body 1 of the resistance layer 2 of the tin and antimony oxides already described, contact caps 3 and a spiral ground non-conductive groove 4. The resistance layer 2 contains 20 weight percent antimony trioxide; 80% by weight of stannous oxide and stannous oxide.

Antimony trioxide content is increasing near the surface of the resistive layer; up to 65 weight percent. This design of the suppression resistor is suitable for applications where a certain inductance is required and further facilitates the mass production of the suppression resistors by a relatively simple adjustment of the final ohmic resistance value.

The interference suppression layer with a layer of tin oxide and antimony can be used in all devices where there is an undesirable spark causing interference to radio and television reception with the possibility of setting the desired interference suppression efficiency by the thickness of the resistance layer. It is also possible to utilize the high hardness of the oxide layer for rotary contacts subject to high mechanical stress.

Claims (2)

A suppression resistance consisting of an insulating mat with a layer of metallic oxides, which is inserted into individual suppression elements of ignition systems of motor vehicles and other devices with internal combustion engines, characterized in that the resistance layer (2) of metallic oxides content of the invention is 15 to 65 weight percent antimony; and 85 to 35 percent by weight of stannous oxide and stannous oxide. 2. The interference suppressor according to claim 1, characterized in that the antimony trioxide content increases towards the surface of the resistance layer (2).