SU1185643A1 - Device for cordless switching and semi-automatic change-over to reserve channels - Google Patents

Abstract

A DEVICE OF BEDROOM-FREE CROSS COMMUTATION AND SEMI-AUTOMATIC RESERVATION OF CHANNELS, containing n channels, each of which consists of transmission and reception lines, the first frequency receiving unit, the signal analysis unit, the OR element, the relay, the tone generator, the filter, the second frequency receiving unit, the output of the signal analysis unit is connected to the relay, the output of the tone generator is connected to the input of the filter, the output of which is connected to the transmission line, as well as a coordinate switch, fulfilled as a matrix, the vertical and horizontal lines to it, at the intersection points of which switching elements are included, each of which is connected to the corresponding input of the OR element, the first and second vertical lines of the matrix through the closing contacts of the relay are respectively connected to the transmission and reception lines connected to the first vertical line of the matrix, which is different from the fact that, in order to reduce the switching time, the first differentiating unit, n The first one-shot, the first element is And, the output of which is connected to the inputs of the second and third differentiating blocks, the outputs of which are connected to the inputs of the second and third one-vibration, respectively, while the output of the third one-shot is connected to the first input of the second element And, the second input of which is NOT connected through the element It is not connected with the output of the second one-shot and the input of the temporary switching unit, the output of which is connected to the third input of the signal analysis unit and the reset bus, and the fourth input of the signal analysis unit through The relay contacts are connected to the second output 00 of the first frequency receiving unit, the output of the second frequency receiving unit is connected to the input of the first differentiating unit, the second input of the first element And and the third input of the second element And, the output of which is connected to the fifth input of the signal analysis unit and also a frequency generator, the output of which is connected in parallel to each first horizontal line of the matrix through, making the closing contacts of the button.

Description

The invention relates to telecommunications and can be used for switching telephone circuits. The purpose of the invention is to reduce the switching time; The drawing shows an electrical block diagram of the device of cordless cross-switching and semi-automatic, channel reservation ,, The device of cordless cross-switching and semi-automatic channel reservation contains 1 transmission lines, reception lines 2, first frequency receiving block 3, 4 ana block, signal, OR element 5, relay b, tone generator 7, filter 8, second frequency receiving unit 9, coordinate switch 10, which are matrix elements 11, first 12 and second 13 vertical lines of the matrix, closing the contact acts 14 relays. b, first differentiating unit 15, first one vibrator 16, first element 17, second differential block 18, third differentiating unit 19, second odiovibrator 20, third one vibrator 21, second element i 22-, element HE 23, time switching unit 24, reset bus 25, disconnecting contacts 26 of relay 6, frequency generator 27, first horizontal matrix lines 28, closing contacts of button 29 horizontal matrix lines 30. The cordless cross-connect and semi-automatic channel redundancy device operates as follows. In the initial state, the switching elements 11 of the matrix are open. On all inputs of the analysis unit 4, the signal is received. No operation. The closing contacts 14 of the relay 6 remain normally open, and the contacts 26 of the relay 6 open normally closed. Let the operator receive an instruction to assign to the terminal equipment connected to one of the horizontal lines 30 of the matrix of the first (working) and last (backup) channels. In this case, the operator closes the switching element 11 of the matrix corresponding to the selected horizontal and vertical lines of the matrix, the closure of which enters the element OR 5 and further to the signal analysis unit 4, which provides power to the relay 6. The contacts of the latter are operated, the closing contacts 14 are blinked, and the disconnecting contacts 26 are opened . The working channel is connected to the terminal equipment. The frequency signal f from the tone generator 7 is fed through the filter 8 to the transmission line 1 and is sensed by the first frequency receiving unit 3, but is not transmitted via the disconnecting contacts 26 to the signal analysis unit 4. Then the operator closes the switching element 11 at the intersection of the same horizontal line of the matrix and the vertical line of the matrix of another channel, while the signal frequency fj arrives at the first block 3 receiving frequencies of the selected channel, the signal analysis block 4 prevents the relay 6 from tripping because the signal the presence of the frequency f comes in time t less than the response time of the relay 6 t ,, the frequency f performs in the device the functions of the signal zany, analogous operations are carried out at the opposite station. To switch the terminal equipment from the working channel of the backup channel, it is enough to close the closing contacts of the button 29 of at least one station. In this case, the frequency signal f from the frequency generator 27 goes to the first horizontal line 28 of the matrix, and from there to the first frequency receiving unit 3 and to the working channel via the disconnecting contacts 26, the first frequency receiving unit 3 registers the presence of frequency and signal to block 4 signal analysis. The working channel signal analysis unit 4 removes power from the relay 6, and the backup channel signal analysis unit 4 supplies power to the relay 6. Thus, the terminal equipment at one station is disconnected from the working channel and switches to the backup one. After that, the signal frequency f from the generator 27 frequency stops flowing into the working channel and begins to flow into the backup channel. At the opposite station, first, along the reception line 2 of the working channel, and then, via the reception line 2 of the backup channel, the signal of frequency f is received. . The duration of the frequency signal f | coming through the working channel does not exceed the time t passing from the moment the closing contacts of the button 29 are turned on until the moment when the relay 6 is released. The high level signal of the same duration comes from the output of the second receiving unit 9 to the second input of the first element And 17 and, moreover, the leading edge of the pulse from the output of the first differentiating unit 15 starts the first one-shot 16, which produces a low-level pulse of duration t4. T tj is selected, so that the signal in the code of the first element And 17 does not appear. If the signal is received, the frequency f in duration is significantly greater than t. (as is the case on the backup channel), then it passes the first element I 17 through differentiation blocks 18 and 19, starts one-shot 20 and 21, which produce pulses of duration t, respectively. and tg. The impulse () goes through the HE element 23 to the second input of the second element 43 And 22, as well as to the input of the temporary switching unit 2A, which gives the housing 25 to the Reset bus 25 and removes power from the working channel relay 6 through the signal analysis unit 4. The impulse, duration t (tgT t + + t), is fed to the first input of the second element And 22, Thus. At the output of the second element I 22, the signal can occur only if the signal at the output of the second frequency receiving unit 9 is greater than t + + t. The signal from the output of the second element And 22 enters the signal analysis block 4, which provides power to the relay 6. If the duration of the signal from the output of the second receiving block 9 of the frequencies T t + t + tj, then the relay 6 will operate and the terminal equipment on the opposite the station is switched from the working channel to the backup channel, if the holding time of the closing contacts of the button 29 when pressed is not less than t, + t

Claims (1)

DEVICE FOR WIRELESS CROSS COMMUTATION AND SEMI-AUTOMATIC RESERVATION OF CHANNELS, containing η channels, each of which consists of transmission and reception lines, a first frequency receiving unit, a signal analysis unit, an OR element, a relay, a tone generator, a filter, a second frequency receiving unit, while the output of the signal analysis unit is connected to the relay, the output of the tone generator is connected to the input of the filter, the output of which is connected to the transmission line, as well as the coordinate switch, made in the form of a matrix consisting of vertical and horizontal lines, at the intersection points of which switching elements are included, each of which is connected to the corresponding input of the OR element, the first and second vertical lines of the matrix through the make contacts of the relay respectively connected to the transmission and reception lines, and the input of the first frequency receiving unit is connected to the first vertical line of the matrix, characterized in that, in order to reduce the switching time, the first differentiating unit, the first one-shot, are connected in series to each channel torus, the first element And, the output of which is connected to the inputs of the second and third differentiating blocks, the outputs of which are connected to the inputs of the second and third one-shots, respectively, while the output of the third one-shot is connected to the first input of the second element And, the second input of which is NOT connected to the output through the element the second one-shot and the input of the temporary switching unit, the output of which is connected to the third input of the signal analysis unit and the reset bus, and the fourth input of the signal analysis unit through the disconnecting relay contacts with is dined with the second output of the first frequency receiving unit, the output of the second frequency receiving unit is connected to the input of the first differentiating unit, the second input of the first element And the third input of the second element And, the output of which is connected to the fifth input of the signal analysis unit, as well as the frequency generator, the output of which is connected parallel to each of the first horizontal lipin matrices -> through the closing contacts of the button. SU „„ 1185643