SU1497732A1 - Multichannel switch - Google Patents

Abstract

The invention relates to automation and telemechanics and can be used as a switch for digital information for bidirectional communication with diverse sources of information transmitted over a two-wire communication line. The aim of the invention is to increase reliability by introducing an additional counter 11, two elements OR 12 and 13, and optocouplers 10.1-10N. The introduced elements provide for long-term interference and, accordingly, false connection of the exchange device 7 to any link 1.1-1.N. A return to the working state after a specified time. 1 il.

Description

The invention relates to automation and telemechanics and can be used for bidirectional communication with separated sources of information transmitted over a two-wire communication line with galvanic isolation.

The purpose of the invention is to increase reliability due to galvanic isolation and automatic return of the switch to the working state after false switching.

The drawing shows a block diagram of a multi-channel switch.

Multichannel commutator contains communication lines 1.1-1.N, transceiver unit 2, master oscillator 3, the output of which is connected to the first input of the AND 4 element, the second input of which is connected to the inverse output of the trigger 5, the output of the And 4 element is connected to the counting input of the counter 6; block 7 information exchange, to the input and output of which are connected respectively to the output and input of block 2; the decoder 8, the inputs of which are connected to the outputs of the counter 6; N keys 9.1-9.N, the control inputs of which are connected to the respective outputs of the decoder 8; optocouplers 10.1-10.N, made on LEDs with photosensitive properties, with one LED of each optocoupler 10.1 - IO.N connected to the corresponding line 1.1-1 .N communication, and the second LED with one output through the corresponding key 9.1-9 .N - to the first signal output unit 2, and the other output - to the second signal output unit 2; the second counter P, to the zero input of which through the first element OR 12 the input and output of block 2 are connected, to the counting input of counter P is connected

element 18 is connected to gkishuda block 2, to the input of which the switch is running the inverter 14.

The switch works the following way.

The trigger 5 is set to zero, at the inverse of its output is the potential of a logical unit that permits the passage of pulses from the generator 3 to the counter 6, which polls the decoder 8. Upon receipt of the signal, the keys 9. alternately close the LEDs of the respective optocouplers 10.1-10. N to the signal outputs of block 2. In the absence of information on the outputs of the 1.1-IN link, the described processes are repeated.

The presence of information on any link 1.1-1.N causes the emission of the corresponding first diode of the oztron 10.1-10.N, while a current passes through the second LED of this optocoupler, which when the key is open 9.1-9.N and element 18 passes to the output of block 2 and overturns trigger 5. Element And 4 is closed, pulses are not applied to counter 6, and the counting stops. At its output, the counter 6 records a code corresponding to the number of the communication line on which the information appears. At the corresponding output de,

the encoder 8 generates a signal which, arriving at the control input of the corresponding key 9.1-9.N, under ;;;; keeps the key in the open state. There is a two-way exchange of information between the communication line 1.1-1.N and the exchange unit 7, with the transmission of information through a high potential of the signal through inverters 14 and 15, a diode 16 and a switch 9.1-9.N

generator output 3, second block 45 output, first input of the first LED 7 is connected via the first input of the second element OR 13 to the R inputs of the trigger 5 and counter 6, the output of the counter 11 is connected to the second input of the element OR 13, the output of block 2.50

Transceiver unit 2 contains inverters 14, 15, diode 16, amplifier 17, element 18, connected to the second input of the optocoupler 10.1-10.N, and the low potential through the inverter 14 to the second input of the first LED, a current passing through the LED and causes the LED to emit. Through the first LED of the optocoupler 10.1-10.N, the signal is formed in the corresponding communication line l, l-l.N, the output of the inverter 14 is connected through the elements of AND 18 and the diode 16, and the input 55

the amplifier 17 is connected to the first signal terminal of the block 2, to the second signal output of which the output of the inverter 14 is connected, the output

Yes, the optocoupler 10.1-10.N, and the low potential through the inverter 14 to the second input of the first LED, a current flows through the LED and causes the LED to emit. Through the first LED of the optocoupler 10.1-10.N, the signal is formed in the corresponding communication line l, l-l.N, by means of the elements 18 and the diode 16 that block the input of unit 2, respectively, when transmitting and receiving information from the communication lines. By the end of the exchange signal The end of the exchange from the output of block 7 through the element U lK 1 3 with the resetting trigger 5 and the counter 6 into the initial state. When exchanging information, the counter I1 is reset to the initial state by signals from the input and output of block 2. With a long absence of a signal, the end of the exchange and information, for example, in the case of a false connection of the switch with interference from the communication line, counter II is filled and the signal from its output through the OR 13 zeroes trigger 5 and counter 6, which again starts periodic polling of communication lines.

With long-term interference and, accordingly, a false connection of the exchange unit 7 to the communication line, the switch returns to the polling mode after a specified time, i.e. it returns to the operational state.

Claims (2)

1. A multichannel switchboard containing a communication line, a transceiver unit, a generator orders, the output of which is connected to the first input of the AND element, the second input of which A trigger is connected to the inverse output, the And element and sequentially Pa, the output of the AND element is connected to the counting input of the first counter, the R inputs of the first counter and the trigger are connected, the outputs of the first counter are connected to the corresponding inputs of the decoder, the outputs of which are connected to the control inputs of the corresponding keys, the input and output of the information exchange unit are connected to the output and the input transceiver unit; characterized in that, in order to increase reliability. the second counter, the first and second elements of the STI, and — according to the number of communication lines — the optocouplers, the outputs of the first LEDs of which are connected to the corresponding1 (by their communication lines, the outputs of the second LEDs of each optocoupler are connected respectively: the first output through the corresponding key, and the second directly to the first and second signal outputs of the transceiver unit, the input and output of which are connected to the first and second inputs of the first 5 OR, the output of which is connected to the R-input of the second counter, the counting input of which is connected to the output of the first generator, the input and the second output of the information exchange unit are connected respectively to the S-input of the trigger and the first input of the second OR element, the second input of which connected to the output of the second counter, the output of the second element OR is connected to 5 R-input trigger. 2. The switch according to claim 1, I differ by the fact that the transceiver unit contains a diode, Wuxi the first and second inverters connected, the second input of the element I is connected to the output of the first inverter and the first output of the transceiver unit, the output of the element I and the input of the first inverter are respectively the output and input of the transceiver unit, the output of the second inverter is connected via a diode to the input of the amplifier and the second output of the transceiver block, the output of the amplifier is connected to the first input element I.