SU537406A1 - Fuse - Google Patents

Description

(54) FUSE FUSE

one

The invention relates to the field of protection of electrical devices and can be used in high-voltage, low-current peaks of alternating and direct current for protection against overloads and short circuits of active and passive devices.

Known fuses to protect low-current circuits with wire insert 1.

The disadvantage of these fuses is the low level of disconnected voltages, low speed and low reliability. This is because low currents require a small cross section of the fuse link, which leads to difficulties in securing such an insert, due to the complexity of controlling the tension during assembly. With a high tension, a wire insert may break, with a weak tension, the melting of the fuse link causes a non-uniform heat generation in the zone of the fuse link and a decrease in speed.

According to the technical solution, the closest one to the invention is a fuse in which a titanium and platinum films are applied to a dielectric base with an electrical insulating layer made of Si, 5 {HN4 or A1 oxide. The combination of different thicknesses of the titanium and platinum layers allows their use in low-voltage circuits for different combustion currents (from 50 ma to 240 ma) 2. However, this fuse is not fast enough and does not break the high-voltage circuits. The aim of the invention is to increase the speed and the possibility of using it at high voltage prices. This goal is ensured by the fact that the layers are conductive

the films are made of a material with a drastically different temperature coefficient of resistance, for example Ni and NiCr.

FIG. 1 shows a fuse; in fig. 2 - fusible element.

The fusible element consists of a dielectric base 1, on which a melting insert of layers 2, 3 with different temperature coefficients of resistance to TCR is formed by vacuum deposition through masks or photolithography, and conductive contacts 4 are applied after which a protective layer 5 is applied.

As a result of an increase in the current through the fusible element in case of overloads or short circuits in the consumer circuit and, accordingly, an increase in the film temperature, the current is redistributed by the film layers. With those M1 temperatures close to the blown fuse temperature, due to a significant difference in the surface resistance coefficients of the layers, basically all the current passing through the fuse is concentrated in the layer with the lowest TCR. Due to the concentration of the current in the layer with the lowest TCR, the output power increases and the time for the layer to burn out is drastically reduced.

After one layer burns out, all the current passes through another layer, where the power output will be even greater due to the current concentration and a significant increase in its resistance due to large TCR, which leads to an even faster burnout of the layer and facilitates arc extinction.

The proposed small fuse protects low-voltage and low-voltage circuits against overloads and short circuits.

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whom, for example, who are currently not directly protected.

Claims (2)

1. US patent number 3460036, class. 337-220, 1969. 2. The UK patent number 1336938, cl. H2S, 1974. fPvs.1