SU657661A1 - Cordless cross-switching device - Google Patents

Description

I

The invention relates to communication technology and can be used to allocate channels on telephone communication nodes.

A cordless cross-switching device for telephone communication nodes, comprising a switching field, a first and second decoder, a storage unit and the first and second switching units of switching elements, the outputs of which are connected respectively to the first and second inputs of the switching field, and the outputs of the first and second decoders are connected are known with the first inputs of the first and second switching units of the switching elements and with the first second inputs of the storage unit, the third and fourth inputs of which are connected respectively etstvenno to the inputs of the first and second decoders l.

However, the known cordless switching device has a long switching time.

The purpose of the invention is to reduce the switching time by reallocating the channels.

For this, in a device with non-crossover switching for telephone communication nodes containing a switch

Ion field, first and second decoders, storage unit and first and second switching units of switching elements, the outputs of which are connected respectively to the first and second inputs of a cohlemutation field, and the outputs of the first and second decoders connecting to the first inputs of the first and second switching switching units elements and with the first and second inputs of the storage unit, the third and fourth inputs of which are connected respectively to the inputs of the first and second decoders, introduced the operator console, the first output of which connected to the second inputs of the first and BTjoporo switching elements of switching elements, the second output is connected to the input of the first decoder, the third output of the operator's console is connected to the fifth input of the storage unit, the sixth input of which is connected to the fourth output of the operator's console, the fifth output of which is connected to the seventh input the storage unit, the sixth output of the operator’s console is connected to the input of the second decoder, and the seventh output is connected to the third inputs of the first and second

blocks of switching elements, and the output of the storage unit is connected to the input of the operator’s console, which contains the keyboard unit, the first and second encoders, the first and second random-memory units. the first and second delay elements, the signal conversion unit and the display unit, the input of which is connected to the output of the signal converter unit whose first input is the input of the operator’s console, the first and second outputs of the remote unit being connected to the inputs of the first and second delay elements, the third output of the keyboard unit is connected to the first inputs of the first and second operational storage units, the second inputs of which are connected respectively to the outputs of the first and second encoders. And the inputs of the first and The second encoder is connected to the fourth and fifth outputs of the keyboard unit, respectively, while the output of the first delay element is connected to the second inputs of the first and second online memory, and the output of the second delay element is connected to the third inputs of operative memory units, the output of the first operational memory, where the unit is the second WELLPOT of the operator console, and the input of the first delay element is the first output of the operator console, the output of the first delay element is the third output ohm of the operator’s console, the output of the second delay element is the fourth output of the operator’s console, the third input of the keyboard unit is the fifth output of the operator’s console, the second operational memory unit is inecTbavi of the operator’s output, and the input of the second delay element is the seventh output operator’s console. The drawing shows a structural electrical circuit of the proposed device. The cordless cross-connect device for telephone communication nodes contains the switching field 1, the first and second decoders 2 and 3, the storage unit 4, the first and second switching units of the switching elements 5 and 6, the outputs of which are connected respectively to the first and second inputs of the switching field 1, and the outputs of the first and second decryptors 2 and 3 are connected to the first inputs of the first and second blocks including the switching elements 5 and b and to the first and second inputs of the storage unit 4, the third and fourth inputs of which are connected respectively, with the inputs of the first and second decoders 2 and 3. The operator console 7, the first output of which is connected to the second inputs of the first and second switching units of switching 614 elements 5 and 6, the second output connected to the input of the first decoder 2, the third output of the operator console 7 connect: not to the fifth input of the storage memory 4, the sixth input of which is connected to the fourth output of the operator console 7, the fifth output of which is connected to the seventh input of the storage unit 4, the sixth output of the operator console 7 is connected to the input of the second decoder 3, and the seventh output is connected to the third inputs of the first and second switching units of switching elements 5 and 6, and the output of the storage unit 4 is connected to the input of the operator’s console 7, the operator’s console 7 contains a keyboard unit 8, the first and second encoders 9 and 10, the first and second operatively - memorizing the blocks 11 and 12, the first and second delay elements -13 and 14, the signal converting unit 15 and the display unit 16 whose input is connected to the output of the signal converting unit 15, the first input of which is the input of the operator console 7, the first and second th outputs of the keyboard unit 8 are connected respectively to the inputs. The first and second delay elements 13 and 14, the third turn of the keypad unit 8 is connected to the first inputs of the first and second memory storage units 11 and 12, the second inputs of which are connected respectively to the outputs of the first and second coders 9 and 10, and the inputs of the first and second coders 9 and 10 are connected respectively to the fourth and fifth outputs of the keyboard unit 8, wherein the output of the first delay element 13 is connected to the second inputs of the first and second operational storage units 11 and 12, and the output of the second element; with third inputs 6 | dami of operational storage units 11 and 12, wherein the output of the first operational storage unit 11 is the second output of the operator's puette 7, the input of the first delay element 13 is the first output of the operator console 7, the output of the first delay element 13 is the third output of the operator's console 7, the output of the second delay element 14 is the fourth output of the operator's console 7, the third output of the keyboard 8 is the fifth output of the operator's console 7, the output of the second random access memory unit 12 is the sixth output ohm operator panel 7, and the input of the second delay element 14 is attendant console seventh outlet 7. The device operates sledukhdim manner. To establish the connection, it is necessary to press the buttons corresponding to the required input and output numbers of the switching floor 1 and the communication button on the keyboard unit 8 and the communication button. When the input button is pressed, the combination from the output of the first digitizer 9 enters the first random access memory unit 11 and is memorized. Then the combination enters the storage unit 4, the signal conversion unit 15 and the first decoder 2, from the output of which goes to the first switching element switching unit and the storage unit 4. In the display unit 16, the input number is displayed. When the exit button is pressed, the signal passes similarly through the second Shi rator 10, the second operational storage unit 12, the second decoder 3 and goes to the signal conversion unit 15, the second switching unit of switching elements 6 and the storing unit 4, and in the display unit 16 on other indicators The output number is displayed. When the Communication button is pressed, the command to establish a connection enters the first delay element 13 and the switching on bays of switching elements 5 and 6, from whose outputs coordinate signals are sent to the switching element, which resets and stores its state. From the output of the first delay element 13, the command enters the first and second operative storage units 11 and 12 and the storage unit 4, in which information on the input and output numbers is recorded, and from the operational delaying units 11 and 12 it is erased. The previous connection is destroyed by pressing the input and output buttons and the reset button. The process of switching a switching element to an open state is similar to making a connection and differs only in that the information is erased in storage unit 4. The delay time of elements 13 and .14 is greater than the response time of the switching elements. To check the correctness of the connection, the input and output buttons are pressed. This combination is fed to the singing unit 4. At the command of the keyboard unit 8, the storage unit 4 issues information about the established connection to the signal conversion unit 15, and the display unit 16 displays the number of the input and output . When the Control button is released, the information is erased and the indicators go out. Thus, the use of the proposed device allows to reduce the number of controls, the front panel, to improve the arrangement of the workplace, which increased (operator labor productivity by 5-7% and allows to reduce switching time. Lormula of the invention 1. The cordless device cross-connect for telephone communication nodes containing a switching field, the first and second decoders, the storage unit and the first and second switching units of the switching elements, the outputs of which are connected respectively the first and second inputs of the switching field, and the outputs of the first and second decoders are connected to the first inputs of the first and second switching units of the switching elements and the first and second inputs of the storage unit, the third and fourth inputs of which are connected respectively to the inputs of the first and second decoders, characterized by that, in order to reduce the switching time by redistributing the channels, an operator console was introduced, the first output of which is connected to the second inputs of the first and second switch-on blocks elements, the second output is connected to the input of the first decoder, the third output of the operator console is connected to the fifth input of the storage unit, the sixth input of which is connected to the fourth output of the operator console, the fifth output of which is connected to the seventh input of the storage unit, the sixth output of the operator console is connected to the input of the second decoder, and the seventh output is connected to the third inputs of the first and second switching-on units of the switching elements, and the output of the storage unit is connected to the input of the operator’s console. 2. The cordless cross-switching device according to claim 1, characterized in that the operator’s remote control panel contains a keyboard unit, first and second encoders, first and second random-access memory blocks, first and second delay elements, a signal conversion unit and a display unit, the input of which is connected to the output of the signal converting unit, the first input of which is the input of the operator's console, the first and second outputs of the keyboard unit are connected respectively to the inputs of the first and second elements of the top, the third output to the keyboard The first block is connected to the first inputs of the first and second random access memory blocks, the second inputs of which are connected to the outputs of the first and second encoders, respectively, and the inputs of the first and second encoders are connected to the fourth and fifth outputs of the keyboard, respectively. with the second inputs of the first and second memory blocks, and the output of the second delay element is connected to the third inputs of the memory storage blocks. | |:: - - while the output of the first opera The ivory storage unit is the second output of the operator’s console, the input of the first delay element is the first output of the operator’s console, the output of the first delay element is the third output of the operator’s console, the output of the second, delay element is the fourth output of the operator’s console, the third output of the keyboard is the fifth output of the operator console 1, the output of the second random access memory unit is the sixth output of the operator console, and the input of the second delay element is the seventh output of the operator console. Sources of information taken into account in the examination 1. R. Avakov, et al. Fundamentals of telephony and the theory of telephone communications, M., Svy, 1969, p. 156.