SU690526A1 - Control command transmitter - Google Patents

Claims (2)

The invention relates to telemechanics and can be used, in particular, in devices for transmitting information between radio equipment and information processing points of automated control systems. Devices are known for transmitting, control commands, comprising a communication channel, shift registers, triggers, AND, OR elements, a zero counter, an adder, code converters I. The device is constructive but difficult and has low information content. The closest to the invention to the technical essence is a device for transmitting control commands, containing on the receiving side a crystal oscillator, informer, the input of which is connected to the trigger pulse bus, a trigger, the first input of which is connected to the first control input of the device, the output of the trigger is connected to the first to the input of the element I, the communication channel, on the transmitting side — the igger, whose first input is connected to the BTopbiM control input of the device; the output of the trigger is connected to the first terminal of the element I, remote 4 h, outputs the code-voltage generator is connected to the first group of inputs of the input block, the second group of inputs of which is connected to the information-inputs of the device, the output of the input block is connected to the communication channel, the second start bus 2. The device has a large amount of time to send control commands . The aim of the invention is to increase the information content of the device. The goal is achieved by introducing a synchronization block and a shift register into the device on the receiving side, the synchronization block inputs are connected to the 1st input of the quartz oscillator and to the first trigger input of the device to which the second input is connected, the output of the synchronization block is connected to the second input of the AND element , vyhoret encoder and epemyata And connected to the entrance--. -.,; „, MI register sdPPgb, Kr WpoT-3 is connected with communication, on the transfer side - a quartz oscillator, a synchronization unit, a shift register, a quartz generator output connected to the nerve input of the synchronization unit, the second input of which is the first input of the decoder connected to the second start input of the device, the output of the synchronization unit is connected to the second input to the elements whose output is connected to the nerve input of the shift register, which is connected to the communication channel with the second input, the output of the shift register are connected respectively to the second inputs trigger and decoder, the outputs of which are connected to the inputs of the code-voltage converter. The drawing shows a block diagram of the device TWA. On the receiving side, the device contains a crystal oscillator 1, a synchronization unit 2, an AND 3 element, a trigger 4, an encoder 5, a shift register 6, a first device start input, a first control input 8 of the device; on the transmitting side — a quartz oscillator 9, synchronization unit 10, element 11, shift register 12, trigger 13, decoder 14, code-voltage converter 15, input unit 16, second device start input 17, second control input 18 devices, communication channel 19. The device works as follows. Quartz oscillators 1 and 9 generate pulses with the same frequency, which arrive at blocks 2 and 10 of synchronization. On blocks 2 I1O synchronization received on the tires 7 and 17 start-up pulses. In blocks 2 and 10, the timing of the clock pulses to the trigger pulses is carried out, and the end of the distance pulses are also generated. From the outputs of blocks 2 and 10 of synchronization to the elements AND 3 and 11, there are sequences of clock pulses synchronous and in-phase with each other. Receiving a trigger pulse, an end-of-distance pulse, and clock pulses allows for conjugation to be performed over a single communication channel. Using the encoder 5 in the register 6 of the shift on the arrival of the start pulse, the command code is set for the STN operator, the code name of the signal and its value in binary code. The incoming impulse of the end of the dibtation at the input 8 sets the trigger 4 to one state. 26.4. Lnalbgisho settles: from one state trigger 13 pulse to end turn 18. Elements And 3 and 11 are open and allow the passage of clock pulses from blocks 2 and 10 to shift registers 6 and 12, respectively, and register 6 starts the sequential shift of the recorded code to the channel communication 19, and the register 12 starts a sequential and synchronous shift of the incoming code from the communication channel. For the possibility of transmitting a binary code to a communication channel without mutual interference, the highest bit of the encoder 5 is always recorded one, the PH is the service & and is always transmitted first at the moment of arrival of the distance code pulse at input 8, after which the rest of the information is transmitted. After receiving the information on the communication channel 19 in the register 12, a service signal is generated, arriving at the zero input of the trigger 13, as a result of which the clocking of the register 12 is terminated through the element 11, the next start pulse sets the trigger 4 to the zero state, closing the element 3 and stopping the arrival of clock pulses in register 6, in addition, the trigger code rewrites the value of the binary code from the encoder 5 to register 6, and from register 12 to the decoder 14. The decoder 14 is an electoral circuit and provides control The definition of the converter is 15 code-voltage. The code-voltage output converters 15 provide selective adjustment of the amplitude of the input signals of the input block 16. By transmitting the binary code, the number of levels increases (e.g., with a three-bit binary code, you can get 7 adjustment levels) and thus discrete quality adjustment approaches a smooth one. The main information comes from the output of the input unit 16, into the communication channel in the time interval between the start pulse and the end of the distance pulse. The register 12 at this time, the clock pulses are not received, and interference is absent. The entire cycle is repeated after each trigger pulse. This ensures high reliability of information transfer, since the frequency of updating information is high, and the change in command values occurs very rarely. five. . 6 The application of the proposed device for interfacing, for example radio engineering means with automated systems, allows the time between the end-of-distance impulse and the start-up impulse to transfer a significantly larger amount of information over the communication channel Sa, since a serial binary code is transmitted to the communication channel whose number of bits is equal to the parallel binary code installed in the encoder, i.e. A minimum amount of time is required for transmission. This allows you to increase the number of transmitted control commands and their size, increase the number of different signaling signals necessary for the operation of radio equipment. In addition, the use of the proposed device allows interfacing over a single communication channel, since the device replaces the synchronization hardware of the automated system without using additional communication channels, as well as increasing the noise immunity due to synchronous transmission of signal reception. Claims An apparatus for transmitting control commands, comprising, on the receiving side, a crystal oscillator, an encoder, the input of which is connected to the first start input of the device, a trigger, the first input of which is connected to the first control input. device, the trigger output is connected to the first input of the I element, the communication channel; on the transmitting side, a trigger, the first input of which is connected to the second control input of the device, the trigger output is connected to the first input of the And element, the decoder, converter outputs, code 26, 6 eg The unit is connected to the first group of inputs of the input unit, the second group of inputs of which is connected to the informational inputs of the device, the output of the input unit is connected to the communication channel, and a second launch bus, characterized in that devices entered into it at the receiving side of the synchronization unit and the shift register, the inputs of the synchronization unit are connected to the output of the quartz generator and to the first start input of the device to which the second trigger input is connected, the output of the synchronization unit is connected to the second input of the And element, the outputs of the encoder and the element And connected to the inputs of the shift register, the output of which is connected to the communication channel, on the transmitting side of the crystal oscillator, synchronization unit, shift register, the output of the crystal oscillator is connected to the first input b The synchronization input, the second input of which and the first input of the decoder is connected to the second start input of the device, the output of the synchronization unit is connected to the second input of the I element, the output of which is connected to the first input of the shift register connected by the second input to the communication channel, the outputs of the shift register are connected respectively the second inputs of the trigger and the decoder, the outputs of which are connected to the inputs of the code-voltage converter. Sources of information taken into account during the examination 1. USSR author's certificate No. 525992, cl. G 08 C 19/28, 02.01.74. 2. Prangishvili I.V., et al. BeskonTaiKTHbie software devices for time control. .Sb Central Institute of Technical and Economic Information, 1961 (prototype). 17 IF-T