SU700928A1 - Decoder - Google Patents

Description

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This invention relates to automation.

Known decoders containing electromagnetic relays and stages of decoding 1.

The disadvantages of the known devices are low reliability of operation.

The closest technical solution to the invention is a decoder containing electromagnetic relays, one ends of the windings of which are combined and connected to the power supply bus, and the second end of each electromagnetic relay is connected to the corresponding input width, as well as the decryption steps contacts of the corresponding electromagnetic relay, with the outputs of the last decoding stage connected to the output buses 2.

The disadvantage of this device is the low reliability of operation.

The purpose of the invention is to increase the reliability of the decoder.

This goal is achieved due to the fact that in the decoder contains electromagnetic relays, one ends of the windings of which are connected and connected to the power supply bus, and the second end of each electromagnetic relay is connected to the corresponding input bus, and the decryption stage, each of which has flip-over contacts of the corresponding an electromagnetic relay, with the outputs of the last decoding stage connected to the output buses, two code-voltage converters and a null-organizer are introduced, the inputs of which are connected to the output There are code-voltage converters, and the output is connected to the input of the first decryption stage. In this case, the inputs of the first code-voltage converter are connected to the input buses, and each of the inputs of the second code-voltage converter is connected via a make contact of the electromagnetic relay of the corresponding decryption stage to the power supply bus.

Functional diagram of the decoder is shown in the drawing.

It contains electromagnetic relays 1,

0 2, 3, one ends of the windings of which are combined and connected to the power supply bus 4, and the second end of each electromagnetic relay is connected to the corresponding input bus 5 and decryption stage 6, each of which contains change-over contacts ii, 2 t, 2 2, 3 I, 3 2, ЗЗ, 3 4 the corresponding electromagnetic relay 1, 2, 3; nullorgan 7, the inputs of which are connected to the outputs of the converters 8, 9 code-voltage, and the output connected to the input of the first stage 6 of the decoding. The inputs of the code-voltage converter 8 are connected to the input buses 5, and each of the code-voltage converter 9 inputs through a make contact 1 and 2z, 3s of the electromagnetic relay 1, 2, 3 of the corresponding decryption stage 6 is connected to the power supply bus 4. The outputs of the last stage 6 decryption connected to the output bus 10.

The decoder works as follows.

When acting on the input buses 5 of the code pattern decoder, the voltage level corresponding to this code combination is formed at the output of the code-voltage converter 8 at the output of the code-voltage converter. At the next moment, changeover contacts li 2 ü 2 g, Зг-3 4 of the corresponding electromagnetic relays 1, 2, 3 are triggered, which causes the code voltage at the output of the converter 9 to also form a voltage level. If the combination of the closed and open contacts 1 2, 2h, BZ at the input of the converter 9, the voltage corresponds to the code combination on the input busbars 5 of the decoder, then the voltages at the outputs of the converters 8 and 9 are equal. This leads to the triggering of the null organ 7 and the formation of a circuit for the output signal. The voltage at the output of the converter 9 code-voltage is set equal to the voltage at the output of the converter 8 code-voltage only after the end of transients, which eliminates the issuance of a false signal in the switching process. And if the contact groups do not match the code combination, the voltage at the output of the converter 9 code-voltage turns out to be unequal to the voltage at the output of the converter 8 code-voltage, which does not cause the zero-body 7. The appearance of a signal at the output of the decoder .

Claims (2)

1. Ershov EB and. Fundamentals of relay automation. M., “Holy, 1969, p. 27. 2. Raynes P.P. et al. Telecontrol. L., “Energie, 1965, p. 361, fig. 5.65 (prototype).