SU1267465A1 - Device for training radiotelegraph operators - Google Patents

Abstract

The invention relates to automation and computing and can be used in the preparation of wireless telegrams. The purpose of the invention is to expand the didactic capabilities of the device. The device contains a generator of 1 pulses, a counter 2, a Morse code shaper 4, a register 5, a sound generator 6, a key 7, an electroacoustic transducer 9, a trainer 10, a comparison unit 11 and two delay elements 14 and 15. Introduction to the decoder device 3 , the divider 8, for example, of the reversible counter 12 and the display unit 13, makes it possible to determine the auditory threshold when receiving Morse code characters y. radio telegraphists. 1 il.

Description

The invention relates to automation and computing, in particular to training devices, and can be used in the preparation of radio telegraphists. The purpose of the invention is to expand the didactic capabilities of the device by making it possible to determine the hearing threshold when receiving Morse code signs from radio telegraphs. The drawing shows a device for training radio telegraphists. The device comprises a pulse generator 1, a counter 2, a decoder 3, a Morse code generator 4, a register 5, a sound generator 6, a key 7, a voltage divider 8, an electroacoustic converter 9, a student console 10, unit 11 comparison, reversible counter 12, block 13 indicators, elements 14 and 15 C-holders, Morse code generator 4 includes register 5, delay elements 14 and 15 switches, encoder 17, Learner console 10 contains triggers and response buttons 19f-19, Before each button The label is placed in which the letter is inserted that corresponds to the set Morse code mark, Comparison Block 1 contains elements ZALRET 20, -20 and 21.2, as well as inverters 22, -22, Blo 13 contains indicator 23 and decryptor 24, The device also includes de-coder 25. The electroacoustic transducer includes amplifier 26 and headphones 27. Counter 2 and decoder 3 are elements of pulse distributor 28. The device works as follows. When the power is turned on, the first output of the generator 1 appears to be a pulse that affects the R inputs of the flip-flops 18, -18, sets the latter to the initial (zero) state, and enters the counting input. Chica 2, the pulse distributor 29, which appears at the first output of the decoder 3 logical 1. This 1, through inverter 22, is applied to the second input of the first element 21 (prohibiting input of the BAN) in block I1, preparing the correct answer circuit, and to the second input element 20, (prohibiting input of the BANNER element), preparing a chain of incorrect answer, and through a switch to the input of the encoder 17, providing a corresponding Morse code sign at its outputs in the form of a binary formalized number. At the same time, the same pulse through the first element 14 of the delay driver 4 is fed to the first input of register 5, translated the last into parallel recording mode, and passed through the second delay element 16 to the second input of register 5, providing parallel recording of the binary number from the outputs 17 into the register 5. When pulses are received from the second output of the generator 1 to the third input of the register 5, a binary combination is ejected that displays the structure of the telegraph sign (tiratri 1, one 1 point, a pause between using the output of the register 5 enters the first input of the key 7, which converts the tone frequency produced by the generator 6 into the Morse code tones, the Subject, having listened to the Morse code sign, recognizes it and presses the corresponding button 19, on its nameplate the letter identified by it, for example, A. If the student correctly identified the sign, then when the button 19 is pressed, the unit potential from the trigger output .18 enters the first inputs of the element. com (information inputs of the elements of the prohibition) 20, and 21, block 1 1, the second inputs of which from the first output of the decoder 3 receives the unit and zero potential, respectively, due to the presence of an inverter 21 at the input of the element 21, block 11, Thus, the unit the potential of the correct answer, the passage of which is allowed, from the output of the CELETE 2C element, goes to the first input (direct input) of the reversible counter 12, as a result of which the decoder 25 changes its state. The corresponding resistor is switched in divider 8 to reduce loudness when the next Morse sign arrives at the input of the electroacoustic converter. Thus, in the course of receiving signs with their correct identification, the volume

playback will be reduced, approaching the individual hearing threshold of the subject in receiving telegraph signs. In this case, the wireless telegraph operator may incorrectly recognize the sign, for example, A, i.e. instead of button 19, press button 19, on the nameplate of which B is marked. Then the unit potential from the output of trigger 18 goes to the first inputs of the BANNER 20 and Zlj elements, while their second inputs from the second output of the decoder 3 are applied to zero and one potentials, respectively, and 5 for the presence of an inverter 212. Thus, a single potential for an incorrect response, the passage of which is not prohibited from the output of the BANGE 202 element, goes to the second input (countdown input) of the reversible counter 12, as a result of which the decoder 25 changes s, produce switching of resistors in the divider 8 for increasing the volume of the next receipt Morse code symbol.

Upon receipt of the next pulse from the first output of the generator 1 triggers 18., - 18. set to the initial state, logical 1 appears, for example, at the fourth output of the decoder 3 and through switch 16 - on the encoder 7, ensuring the formation of the next character, for example, G. The operation of the device elements in this case is similar.

Thus, in the recognition process, the loudness of the characters adaptively approaches the hearing level of the radio telegraph operator, while the indicator 13 displays the state of the reversible counter 12 and the decoder 25 according to which it is concluded that the operator is able to receive the characters at a lower volume than the nominal one.

Claims (1)

Invention Formula A device for training radio telegraphs, containing a student console, an audio frequency generator, a pulse distributor, an electroacoustic converter, a comparison unit and serially connected pulse generator, a Morse code generator and a key, the second input of which is connected to the output of the audio frequency generator, the second output of the pulse generator is connected to the second the input of the Morse code generator and the inputs of the student console and the pulse distributor, whose outputs are connected to the corresponding inputs of the unit Equipments, the inputs of the Morse code generator group are connected to the outputs of the pulse distributor, characterized in that in order to expand the didactic capabilities of the device, serially connected decoder and voltage divider are introduced into it, the second input of which is connected to the output of the key, and the output is connected to the input of the electroacoustic converter , a reversible counter, the inputs of which are connected to the outputs of the comparator unit, a display unit, the inputs of which are connected to the corresponding outputs of the reversible counter ivy Odes of the decoder.