SU705677A1 - Switching circuit - Google Patents

Description

one

The invention relates to the field of automation, measuring and computing techniques, and is intended for use in analog signal switching systems.

Non-contact switching devices are known, comprising a counter connected to a decoder, a pulse generator, a control device, and logic elements 1.

The disadvantage of this device is low reliability.

In addition, Kok mutators are known that contain measuring leuCles, counters connected to decoders, a generator, a software device, and logic elements 2.

A disadvantage of this device is also low reliability, due to the complexity of individual units, manual switching of the load, the lack of protection against channel bridging and leakage of locked channels.

The aim of the invention is to increase the reliability of the switch.

To do this, the switch, content measuring keys, channel counters and rjsynn channels, the outputs of which are connected respectively to the decoders of channels and channel groups, the master oscillator connected to the input of the channel counter, the unifying key, the program device and the AND elements, are introduced a single-shot, RS- triggers, common key, additional combining keys and AND elements, group even and odd keys, the one-shot input connected to the master output

0 of the generator and the input of the software device, and the output with the control input of the channel decoder, the outputs of the group decoder are connected to the S-inputs of the corresponding RS-flip-flops,

Claims (2)

5 R-inputs of which are connected to another output of the channel counter and the input of a neiliBoro-element AND, another input of which is connected to the first output of the program device, and output is connected to the input of the channel group counter, when uesm the second output of the program device is connected to the shared key the remaining outputs are connected to the inputs of the corresponding AND elements, grouped in groups of three, the other inputs of which are connected to three and connected to the outputs of the corresponding RS-flip-flops, and their outputs, one from each group, are connected to the inputs of the corresponding g IfifoBiJx is even, odd, and unifying keys, in addition, other inputs of the LH groups of even and unifying keys are connected to the outputs of even and key keys, and the other inputs of group odd keys, with the outputs of odd measuring keys, and the outputs of group odd and 9 single keys keys are connected to one output of the load, and the outputs of the group even keys. - with another load output and the output of the shared key, the other input of which is connected to the input bus, while the other inputs of even and odd measuring keys are pairwise combined and connected to the corresponding outputs of the channel decoder. The drawing shows a structural electrical circuit of the switch. The switch contains a 1 channel counter and 2 channel groups counter, 3 channel decoder and 4 channel groups decoder, measuring switches 5 are connected to each output of decoder 3, control input of decoder 3 is connected via unified vibrator 6 to output of master generator 7 by inputs of software device 8 and counter 1, Decoder Outputs 4 are connected to 8-, RS-flip-flop inputs -9, in R - the inputs of which enter information from counter 1. At the input of counter 2, an element 10 is installed, passing information from counter 1 into counter 2 only if there is R solutions of software device 8. Outputs measuring key 5 odd input group are combined as the measuring key 5 outputs the even input group, and connected to an odd group and even the keys 11 - 12, respectively. A connecting key 13 is installed between the input of the group even-to-key 12 and the output of the group odd key 11. The control inputs of the keys 11, 12, 13 are connected to the outputs of the corresponding elements AND 14, 15, 16. Between the 17 outputs of the group even connected to the load keys 12 and the switch input set the shared key 18. The switch operates as follows. , Before the survey begins, sensors are connected. For single-pole switching, a sensor is connected between the common input and any other input to the switch, for a two-pole connection between any odd HbiiM and the even input that follows it. The number of sensors for single-pole switching is NM, and for two-pole switching is 1/2 NM. Then, information about the connections made is entered into software 1m. Counters 1 and 2 are in the initial state and decoders 3 and 4 give out control signals. At the same time, RS-Trig. 9 of the first rpynnii of the enumeration channels1.,: In a state that enables passing 1; clearing information from the program device through elements 14, 15, 16 of the first group of switches to the control inputs of keys 11, 12, 13 of this group . Keys 5 of the first and second inputs of all groups are open. With single-pole switching, the key 18 and the key 11 of the first group are opened with signals from the software device, and the remaining group keys are closed, and the sensor is connected only to the load 17. If the number of switching poles for the first channel is programmed, only the keys 11 and 12 are open from the software device the first group of channels. The driving pulse of the master oscillator 7 is fed to the one-shot 6, which sets the high unit level for the opening time of the keys 5 at the control input of the decoder 3, and the outputs of the decoder 3 are turned off. After the final unlocking of the keys 5, a low level is formed at the output of the one-shot 6 allowing the decryption of the new information of the counter 1 in the decoder 3. When polling channels with L numbers (where i 1, 2, ..., M), at least one of the channels of the group produced a single-pole commutation; from the software device 8, the input element And 10 receives a signal that prohibits the passage of the counting pulse from counter 1 to counter 2 when counter 1 overflows. After the counting pulse ends, the software device 8 removes the inhibitory signal, quit The first group of channels is in the first group, with single-pole switching, the keys 13 and 18 of the first group are open. The keys with keys 5 are the same: the groups are similar. After the interrogation of control signals from the software device 8, the group keys 11, 12, 13 and the key 18 are locked and the load is 17 can be used by another subscriber. Using the switch makes it possible to increase the reliability of the switch by simplifying the channel decoder and reducing the number of AND elements for key management, as well as by automating changes to the circuit diagrams. load connection to sensors; elimination of channel bridging by introducing an additional one-shot; reducing leakage with single-pole and two-pole switching using group switches. The invention includes a switch that contains measurement keys, channel counters and channel groups, whose zykhods are connected to s / gI, respectively; channel decoders and channel groups, specifying a rekepa connected to the input of the channel counter, a uniting key, a software device, and And, o For the purpose of improving the reliability of the switch, a single vibrator, RS flip-flops, a common key, additional combining keys and elements AND, group even and odd keys are introduced, and the single vibrator input is connected to the output specifying its generator and the input of the software device, and the output with the control input of the channel desigrator, outputs of the group decoder are connected to the S-inputs of the corresponding K3 flip-flops, P - the inputs of which are connected to another output of the channel counter and the input of the first element I, the other input being connected to the first output of the software device and the output to the input of the channel group counter; the second output of the software device is connected to the shared key, and the remaining outputs are connected to the inputs of the corresponding AND elements combined into a group There are three trials, the other inputs of which are connected by three and connected to the outputs of the corresponding RS-flip-flops, and their outputs, one from each group, are connected to the inputs of respectively grouped even, odd and unifying keys, in addition, other inputs of group even and unifying the keys are connected to the outputs of the even measuring keys, and the other inputs of the group odd keys are connected to the outputs of the odd measuring keys, and the outputs of the group odd and connecting keys are connected to one load terminal, and the outputs of the group even switches with a different load and output of the shared key, the other input of which is connected to the input bus, while the other inputs of even and odd measuring keys are pairwise combined and connected to the corresponding outputs of the descrambler of channels. Sources of information taken into account in the examination 1. The author's certificate of the USSR 437220, cl. H 03 K 17/02, 02.22.72. 2. USSR author's certificate number 516192, cl. H 03 K 17/02, 03.06.74 (prototype).