SU554551A1 - Device for generating commands for remote control and remote signaling - Google Patents

Description

one

The invention relates to automation, in particular to radio transmitter control systems, and can be used to transmit commands to automated radio transmitters and to form response tele-alarm systems.

Devices for generating telecontrol commands are known, containing distributors, encoders, AND elements and OR elements 1. Closest to the invention in its technical essence is a device for generating telecontrol commands containing a first distributor, the first output of which is connected to the first input of the operation encoder, the second output connected to the first input of the encoder of the position number, the output of which is connected to the first input of the first trigger and to the output of the device; the output of the first trigger is connected to the input of the second The distributor, whose outputs are connected to the signal inputs of the operation encoder, the outputs of the operation encoder are connected to the control keys 2. When the known device is in operation, the distributor forms a sequence of control pulses for the command generation device. The operation encoder forms part of the control code combination, which determines which transmitter's machine the command is addressed to, for example, change the type of work, change the wave, prepare the antenna, etc. The encoder forms another part of the control combination that determines which position the selected automat . Encryption codes are created by the control keys in the event that a discrepancy arises between their position and the state of the tele-alarm elements that control the Inhibit. The acyclic distributor manages the encoders, built on the basis of the usual interdigit scheme — a closed shift register in which one ' 1 circulates. Its peculiarity is the work with a variable access cycle and alternately connecting only those circuits that are prepared by control keys for encrypting commands. The trigger generates clock pulses for an acyclic allocator and allows encryption of only one command per distributor cycle. A trigger is triggered in each cycle by a pulse "Start from the distributor and ensures switching" 1 in the distributor. The outputs of the latter form a current circuit through an operation encoder, a control key, the Prohibit and encoder element of the command item number, and if the current circuit is closed, encryption occurs in the elements and

Claims (2)

stop dynamic trigger. In the next distributor cycle, the trigger is restarted and the distributor searches for a new encryption circuit, stopping the trigger. In addition, as confirmations are received that the transmitter commands are executed, the elements of the "Inhibit and unlock the encryption values. When the last encryption value is opened, the device automatically stops working. However, with the help of this device, it is possible to form commands or systems for automated transmitters only if there is one of the positions in each operation (group), i.e., only one position chain (position sensor) can be closed in each operation (group). When controlling a group of radio transmitters, situations often arise when it is necessary to form and send several signals or commands to each radio transmitter or but to each automatic transmitter of the transmitter, for example; Transmitter No. 1 "Progreth," Pastroya, "High Voltage On; transmitter N ° 8 "Progreth," Pastroen, "Prohibition; automatic transmitter (type of operation): "Frequency modulation," Deviation 2 kHz, i.e. in this case several current circuits of positional sensors or control keys can be closed in the operation circuit. When several positional sensors (or control keys) are simultaneously closed in a known device, the position encoder receives signals from several positional sensors (or control keys), and the encoder generates a false position signal, and therefore in this case the known device cannot be used. The purpose of the invention is to expand the functionality of the device. Use it to transmit multi-point signals and commands. Use of the device both at the control room (for command generation) and at the executive station (radio center) for generating signals. In the described device, this is achieved by introducing the element AND, the group of signal elements AND, the element OR, the third distributor and the second trigger, the first input of which and the first input of the element AND are connected to the third output of the first distributor, the input of the third distributor is connected to the output of the second trigger, one output of the third distributor is connected to the second input of the Peak element to one of the inputs of the OR element, the other outputs of the third distributor are connected to one input of the encoder of the position number and to the first inputs And signaling elements, the second inputs of which are connected to the device inputs, outputs of the signal elements AND, are connected to other inputs of the OR element, the output of which is connected to the second input of the second trigger, the corresponding outputs of the control keys are connected to other inputs of the encoder numbers and third inputs of the signal elements And, the output element And is connected to the second input of the first trigger. The drawing shows the block diagram of the described device. It contains the distributor 1, the encoder 2 position numbers, the encoder 3 operations, the signal elements AND 4, the distributor 5, the trigger 6, the control unit for the sequence of non-transmitting commands 7, the control keys 8 (in the tele-alarm mode alarm sensors), the distributor 9, the element OR 10, trigger 11, element And 12. The transmitting distributor 1 forms a sequence of equalizing pulses for the operation of the entire device, including for the encoder 2, the number of positions and the encoder for 3 operations. The encoder 3 operations form part of the code combination defining which machine of the transmitter the command is addressed to, and encoder 2 forms another part of the code combination specifying what position the selected automaton should take. Elements 4 and 4 allow encryption of only those prices in which inconsistencies occur between the typed command and the state of the remote signaling elements, and are corrected through the element OR 10 by the operation of trigger 11. The 3 encryption cipher controls the distributor 5 (made acyclic) for which it generates control pulses trigger 6. The acyclic distributor 5 alternately connects for encrypting the circuits that are prepared by the control keys 8 (made by multiposition ones). With the beginning of a new cycle, the transmitting distributor 1 pulse “Start through element I 12 from its output starts trigger 6, which switches acyclic distributor 5 to the next position. At the same time, the pulse "Starting from transmitter distributor 1" triggers trigger 11, which generates advance pulses of distributor 9 (made acyclic), the outputs of this distributor receive signals to the inputs of elements 4, to the other inputs of which inputs signals from the outputs of the encoder 3 operations through control keys 8 Since several positions can be switched on in one operation, the signals from the output of the encoder of 3 operations can be transferred to the inputs of several elements via closed keys of the 8 level. 4. The acyclic dispenser 9 moves from one position to another, while from its outputs, the inputs of the And 4 elements are given alternately. When installing the acyclic distributor 9 to the position, when the input is on the other input of one of the elements I 4, there is a signal from the output of another from the switch 8, the output of the specified element I 4 forms a signal. The latter enters through the element OR 10 at the input of the AND trigger, stopping it. Further advancement of the acyclic distributor 9 is fixed. From the corresponding output of the acyclic distributor 9, the signal arrives at the control input of the position encoder, allowing encryption of the positional part of the code combination. In this case, from the output of the encoder 2 to the input of the trigger 6, the signal Stop is received, prohibiting further promotion of the acyclic distributor 5. With the start of the new cycle of advancement of the transfer distributor 1 pulse, the Start 11 from its output starts the trigger 11, which produces clock pulses to promote the acyclic distributor 9 in the following position. In the case of the presence of a signal from the output of one of the keys of control 8 at the input of the corresponding, its element AND 4, the acyclic valve 9 stops and the positional part of the code combination is encrypted. The process of stopping the acyclic diluent 9 is similar to that given above. In the following cycle of advancement of the transmitting distributor 1 pulse "Start from its output triggers trigger 11, which produces clock pulses for further advancement of the acyclic distributor 9. If there are signals from the outputs of the closed keys, control the 8 pa inputs of other elements of And 4 and the device works and is similar to the one above. In the absence of signals at the inputs of other AND 4 elements, the acyclic distribution valve 9 reaches its initial position, and the signal from its output goes through the OR 10 element and the trigger 11 stops at the same time as the input of the 12 element. With the beginning of the new cycle and the distribution of the transmitting distributor 1 pulse The start from its output will come through the element I 12 to the input of trigger 6, which switches the acyclic valve 5 to the next position. At the same time, a pulse from the output of the transmitting distributor 1 triggers a trigger 11, which produces clock pulses to advance the acyclic distributor 9. When signals from the outputs of the closed control keys 8 at the inputs of elements P 4 are activated, the device operates in a manner similar to above. As confirmation of the command execution by the transmitter disappears, the sigals disappear and the correspondence between the abrasive commands and the tele-alarm signals from the inputs of the And 4 elements and opens the cipher circuit. When the last encryption chain is opened, the device automatically stops. When using the device for transmitting the telegialization from radio transmitters, the multi-position sensor of the signaling of the state of controlled objects is used as the keys of the manager 8. In this case, the PA signaling inputs are constantly given the enable signals. In all other respects, the operation of the device is analogous to the formation mode of the telecontrol commands given above. The described device allows the transmission of multi-position signals from a group of automated radio transmitters and dispatcher controllers and multi-action commands to the radio center. This increases the efficiency of servicing radio transmitters, which makes it possible to significantly improve the operation of remotely controlled unattended radio centers and reduce the time of technical stops for radio and broadcasting stations. The invention The device for the formation of commands for remote control and remote signaling, which contains the first distributor, the first output of which is connected to the first input of the operation encoder, the second output is connected to the first input of the encoder of the position number, the output of which is connected to the first input of the first trigger and the output of the device, the output of the first trigger connected to the input of the second distributor, the outputs of which are connected to the signal inputs of the operation encoder, the outputs of the operation encoder connected with the keys of the control, distinguishing This is because, in order to expand the functionality, the device includes an element AND, a group of signal elements AND, an IDN element, a third distributor and a second trigger, the first input of which and the first input of the AND element are connected to the third output of the first distributor with the output of the second trigger, one output of the third distributor is connected to the second input of the AND element and to one of the inputs of the OR element, the other outputs of the third distributor are connected to one input of the encoder number the first inputs of the signal elements And, the second inputs of which are connected to the inputs of the device, the outputs of the segmental elements And are connected to other inputs of the OR element, the output of which is connected to the second input of the second trigger, corresponding outputs of the key of the encoder of the position number and the third inputs of the corresponding signal elements And, the output of the element And is connected to the second input of the first trigger. Sources of information taken into account when examining 1.Tutevich V.P. Telemechanika. M., 1973, p. 246 and 247. 2. USSR author's certificate jVp 228757, M. Kl.2 G 08С 15/06, 07.24.67.