SU610299A1 - Electric signal switching arrangement - Google Patents

Description

An additional switch is provided, the changeover contact of each of which is connected to the first power bus, the opening (closing) contact is connected to the closing (latching) pin of the main switch of the p, -th group, and the first terminals of the control windings are The second group is connected to the contacts of the corresponding main switches, and the second terminals of the control windings of the group 1 are connected to the opening and contacts of the main switches of the windings of the group.

The drawing shows a circuit diagram of the proposed device.

The device contains a flat matrix 1 formed by three groups of control windings, each group having the same number of windings and each winding of any group intersects each winding of the other groups in only one switching element of the matrix, made in the form of a magnetic contact 2. Moreover, one of the outputs of the two groups of windings are combined and connected to the first bus of the power supply, not 3, and the analogous conclusions of the third group of windings are connected to the same BUS, power supply via a flip contact of an additional switch ents 4, and second terminals via the corresponding key za1iykayuschy 5, 6 and the first enable switch 7 - the second power bus 8 which via a second enable switch 9 is connected to each major changeover contact switches of the third group 10 of windings. The control inputs of the keys 5 and b are connected to the corresponding outputs of the decoder 11 and 12, whose inputs through the summation element 13 are connected to the inputs of the decoder 14 The outputs of the latter are connected to the control inputs of the switches 4. and 10 and through the OR element 15 and the delay element 16 - with the control input of the key 9. In addition, there is a delay element 17, the output of which is connected to the control input of the key 7. In the initial state to the inputs of the decoders

11 and 12, the code does not arrive and the switching elements of the matrix are not included.

When applying the octal (binary) code to the inputs of the decoder 11 and

12, corresponding keys 5 and 6 are operated. In this case, the power supply circuit of the corresponding control windings of the two groups is prepared for switching on. At the same time, through the summation element 13, the summary code minus the high bit is fed to the inputs of the decoder 14 and the corresponding pair of switches 4 and 10 is triggered. Thus, it is prepared for inclusion

into the power circuit there is a corresponding control winding of the third group. The potentials from the outputs of the decoder 14 are fed through the element OR 15 and through the element. The delay element 16 to the control input 5 of the key 9, WHICH works and connects the control windings of the third group to the power supply circuit.

After a time determined by the delay element 17, it also works

g key 7, including in the power supply circuit the corresponding windings of the two groups. The parameters of the windings are selected so that the absolute value of the magnetic flux generated by the control windings of the two groups is twice as large.

the absolute magnitude of the magnetic flux generated by the control windings of the third group. In this case, the direction of the magnetic flux in the control winding of the third group, which corresponds to the included pair of switches 4 and 10, coincides in direction with the magnetic flux in the control windings of the first and second groups. In the remaining windings of the third group, the direction of the magnetic flux is opposite. In this case, the absolute value of the magnetic flux in all non-working elements will be five times less than in the switched element.

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Claims (2)

1. Author's certificate of the USSR 440792, cl. H 03 K 17/80, 08.25.74. 2. Voronin Yu.V. et al. Matrix switchboard on magnetically controlled contacts, Instruments and systems control 1971, 11. neither