SU1030984A1 - Device for converting asynchronous morse signal - Google Patents

Abstract

DEVICE FOR CONVERSION OF ASYNCHRONOUS FLOW SIGNALS Morse code SIMULTANEOUS comprising serially connected keyer and kommutirunhtsy trigger encryptor address code which outputs are connected to inputs of the buffer memory unit which outputs through encryptor intermediate code coupled to one input of the shift register, the outputs of which are connected to the inputs of the OR element whose output is connected to the first input of the element. BAN, the second input of which is connected to the first output of the clock generator and to another input of the shift register, and the output of the BAN element is connected to the corresponding input of the buffer memory block, characterized in that, in order to increase the conversion accuracy, a parcel duration analyzer is entered to the last pause, modulo two adder and the parcel time and pause meter, the outputs of which are connected to the inputs of the parcel multiplicity analyzer for the subsequent pause, the outputs of which are connected to the inputs and the encoder address code, with the second output. the clock generator is connected to the first input of the modulo two adder, the second input of which is connected to the upstream output of the shift register, and the outputs of the switching trigger c: are connected to the inputs of the sending duration meter and the pauses, the corresponding output of which is connected g to the additional input of the buffer memory block ti. 00 about: about eo 4

Description

The invention relates to communication technology and can be used to form temporal pulse sequences in Morse code. A device is known for framing a Morse code that uses manual telegraph switches, the Morse code output signals are asynchronous, and the time parameters of signals (duration). points, dashes and pauses) largely depend on the qualifications and individual handwriting of the radio operator transmitting. However, the device does not convert asynchronous signal flows controlling the input of the device into the synchronous flows of the Morse code at the output. The closest technical solution to the Invention is a device for converting an asynchronous p current of Morse code signals into a synchronous cable containing a serially connected telegraph key and a switching trigger, an address code encoder, the outputs of which are connected to the inputs of a buffer memory block whose outputs are through an intermediate code encoder connected to one of the inputs of the shift register, the outputs of which are connected to the inputs of the OR element, the output of which is connected to the first input g of the BAN element, the second input of which is connected It is connected with the first output of the clock generator and with a different input to the shift register, and the output of the BAN element is connected to the corresponding input of the buffer memory block | 2. However, the known device has a low conversion accuracy. The purpose of the invention is to improve the accuracy of the conversion. This goal is achieved by the fact that the device for converting an asynchronous Morse code signal stream into a synchronous one, contains sequentially connected telegraph key and switching: a trigger, an address code encoder, the outputs of which are connected to the inputs of the buffer memory block, the outputs of which are connected via an intermediate code encoder with one of the inputs of the shift register, the outputs of which are connected to the inputs of the element OR, the output:.: which is connected to the first input of the BAN element, the second input of which is connected to the first about the clock generator and with another shift register input, Meii ra BANCH is connected to the corresponding input of the buffer memory block; a parcel duration multiplicity analyzer is inserted into the next pause; modulo two adder and the parcel duration and pause meter, whose outputs are connected to the analyzer inputs the multiplicity, the duration of the parcel to the subsequent pause, the outputs of which are connected to the inputs of the address code encoder, while the second output of the clock generator is connected to the first input of the modulo two, second The swarm of its input is connected to the additional output of the shift register, and the outputs of the switching trigger are connected to the inputs of the packet duration and pause meter, the corresponding output of which is connected to the additional input | of the buffer memory block. The drawing shows the electrical circuit diagram of the proposed device. A device for converting an asynchronous flow of Morse code signals into a synchronous one contains a telegraph key 1, a switching trigger 2, a meter 3 for the duration of the parcels and pauses, consisting of a synchronizing generator 4, two elements 5 and 6, two counters 7 and 8 timing pulses and a block 9 reset analyzer 10 multiplicity of the duration of the parcel to the subsequent pause, consisting of cells 11-16 multiplicity, the encoder 17 of the address code, consisting of elements OR 18-20, block 21 of the buffer memory, consisting of cells 22-27 memory and two blocks 28 and 29 of automatic advancement of information, intermediate code encoder 30, shift register-31, 4 consisting of elements 32-38 of intermediate information storage, clock generator 39, BAN 40, element OR 41, modulo-two adder 42, consisting from the element OR 43, the element AND 44 and the element BAN 45. In addition, in the drawing there is a drawdown manipulation line 46. The device operates as follows; When the telegraph key 1c of one of the arms of the switching trigger 2 closes, a signal is received that is installed through the reset unit 9, counters 7 and 8, meter 3, the duration of the parcels and pauses, and 11-16 multiples of the analyzer 10 to the initial state. The same signal is applied to one of the inputs of the And 6 element, providing pulses from the timing generator 4 to the input of the counter 7. When the key 1 is disconnected from the second arm of the switching trigger 2, the potential is removed allowing the pulses from the timing generator 4 to pass through the And 5 element to the counter 8 depending on the duration of pressing (sending) and pressing (pausing) of the telegraph key 1, counters 7. and 8 fix a certain number of pulses of the chroning generator 4. Results of the counting (information on the duration of sending and pauses) from the outputs of counters 7 and 8 are sent to cells of 11-16 multiplicities, the analyzer and 10 multiplications of the duration of sprinkling to the subsequent pause. With the repeated closure of the telegraph key 1, the commutation trigger trigger 2. through the reset block 9 sets the meter 3 to the initial state and reads information from cells 11-16 of the frequency of the analyzer 10 When the signal of the reading signal arrives at the input, the response signal appears only the output of one of them. A circuit of 11-16 multiplications is designed so that the response signal will be output by that KpaTHocTif cell whose inputs from counter Bb 7 and 8 receive signals that correspond approximately (without exceeding the resolution) to the multiplicity of sending to pause for a given cell generated by the telegraph key 1. So, for example, a cell of 11 multiplicity is designed for a multiplicity of 1: 1, a cell of 12 multiplicity for a multiplicity of 1: 3, and so on for all six possible ratios of the duration of the parcel to the subsequent pause, which, as noted, may have place in the morse code signals. Signals taken from the outputs of the 11-16-fold multiples, via the elemental or 1st-9n G, ™ AG, JR “G, I 17 g-gagipty or 18-20 encoder 17 arrive at the input of the cells 22–24 of the memory 21 So, with a 1: 1 multiplicity pause signal, the signal taken from the output of the 11 multiplicity cell is recorded into the memory cells 22 and 23 via the OR 18 and 19 elements, and with a multiplicity of 1: 5 from the output of the 12 multiplicity cell through the OR 18 element. - in a cell of 22 memory, etc.,. and at a multiplicity of 3: 5 from the output of a cell, the 16 multiplicity through the elements OR 19 and 20 - into cells 23 and 24 of memory. Thus, the encoder 17 converts positionally distributed single pulses at the outputs of cells 11–16 times into a parallel intermediate storage code recorded in block 21. If at the time of writing to memory cells 22–24 the shift register 31 is free, then from the output of the OR element 41 on the element BAN 40 signals are not received. In this case, the pulses of the TajKTOBoro generator 39 through the BANGE 40 element affect the automatic information advancement unit 29, and the signals recorded in memory cells 22-24 are moved to memory cells 25-27 and further to the input of encoder 30 of the intermediate code. From the output of the encoder 30, signals, depending on the multiplicity of the duration of the send to the pause, are recorded in the corresponding elements 32-37 of the shift register f 31. The formation of synchronous structural pairs (parcels with a subsequent pause) Morse code signals with stable and strictly standard. ratios of durations are achieved by an appropriate interaction of the pulses of the form 1.010 ... 01 clock oscillator 39 and pulses,. removed from the output of the register 31 sdriga. Consider the interaction of circuit elements in the formation of a structural pair with the multiplicity of the durations of the package and pause, for example, 3: 3. During the formation of the first part of the structural pair (dash), the manipulation line 46 receives three additional pulses of duration%. And the first, and. Toothy PULSES come from the output of the clock generator 39 through the element | ILI 43 and the element BANNER 45 adder 42 modulo two, and the second impulse comes in the same way from, the output of the shift register 31. During the formation of the second part of the structural pair (paunes with ZTGr duration), the pulse, corresponding to the central pause time, from the output of the shift register 31 goes to the element 44, the second input of which simultaneously receives the impulse clock of the clock generator 39. the signal through the prohibition element 45 prohibits .... the passage of a pulse from the clock generator 39 through the element OR 43 to the manipulation line 46, i.e. a pause is formed. Similarly, the remaining structural pairs are formed. The difference is that pulses are removed from the output of shift register 31, and in a temporary position, only a given specific structural Morse code signal pair is removed. The output speed (formation) of the code from the device in characters in quetnut is required, in accordance with the average speed of the radio operator on the telegraph key, set by adjusting the frequency of the clock generator 39. At the same time, due to the buffer memory, some deviations of the input speed from the output speed are possible, caused both the unevenness of the code and the unevenness of the radio operator’s work on the key. Thus, the proposed device for converting an asynchronous flow of Morse code signals to a synchronous one, as compared to known devices, provides a Morse code signal flow in which the code elements are stable, have strictly standard ratios of durations (i.e., the operator’s handwriting is excluded. wiring), and, most importantly, the code elements are synchronous with respect to some clock sequence. The latter allows for the noise-resistant automatic synchronous reception of Moreae code signals, which was impossible without the proposed device.

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Claims (1)

DEVICE FOR TRANSFORMING THE ASYNCHRONOUS FLOW OF SIGNALS OF THE CODE OF MORSE TO SYNCHRONOUS, containing a telegraph key and a switching trigger in series, an address code encoder whose outputs are connected to the inputs of the buffer memory unit, the outputs of which are connected to the shift inputs through an intermediate code encoder, the inputs of the OR element, the output of which is connected to the first input of the FORBID element, the second input of which is connected to the first output of the clock generator and with another input a shift register, and the output of the PROHIBIT element is connected to the corresponding input of the buffer memory block, characterized in that, in order to increase the conversion accuracy, an analyzer of the multiplicity of the duration of the parcel to the next pause is introduced, an adder modulo two and a meter of the duration of parcels and pauses, the outputs of which are connected to the analyzer inputs of the multiplicity of the sending duration to the next pause, the outputs of which are connected to the inputs of the address code encoder, while the second output of the clock generator to the second input of the adder second input for which it is connected to a mod · modulo two, g is connected to an additional output of the shift register, and the outputs of the switching trigger are connected to the inputs of the meter for sending and pauses, the corresponding output of which is connected to an additional input of the buffer memory unit.