SU655082A1 - Morse code signal receiver - Google Patents

Description

input control unit 1 is connected to the input of converter 4 "time interval code, the output of which is connected to another input of the first calculator 7 ratio code and to the second input of switch 8, to the third input of which and the second input of the second calculator 11 ratio code connected output of the second element delay 6, the output of the fourth delay element 10 is connected to the fourth input of the switch 8, and the auxiliary output input is connected to other inputs of the 4 "time interval-code converter and delay elements 5, 6, 9 and 10 control unit 1 circuit 12-24.

The device works as follows.

The input signal is fed to the inputs of the converter 4 and the input control unit 1. The converter 4, at the end of the transmission (the interval between the transmissions), generates through code 15 a code proportional to the logarithm of the duration of the transmission. At this time, the value of the previous one is stored in the second delay element 6, the parcel of the same polarity is stored in it, and the reference value of a point or separation interval is stored in the fourth delay element 10. The first computer 7 and the switch 8, which are combined circuits, prepare to write to the third delay element 9 the code of the elementary sending time from the output of the fourth delay element 10, if the computer 7 does not determine the ratio between the input signals equal to 1: 3 or 3: 1 , from the output of the second delay element 6, if the ratio is 1: 3, or from the output of the converter 4, if the ratio between the preceding and subsequent premises is 3: 1. In the first case, the reference code of the element of the minimum duration ( point or interval) remains unchanged, and in the second and third cases it is replaced by a new one. Thus, the reference value of a point (interval) is updated as soon as the first calculator 7 determines the difference between the logarithmic codes of two successively received packets of the same polarity, corresponding to a ratio of the durations of these packets 1: 3 or 3: 1. To the inputs of the second calculator 11, the delayed values of the input signal code and the reference point code (interval) are fed through the chains 17 and 18. From the output of the second calculator 11, through the circuit 22, to the input of the analyzer 2, a code of the number that determines the ratio between the delayed input signal and the reference point (interval) is received, and via the circuit 14, the polarity of the input signal at the moment of analysis.

The input control unit 1, in response to each input voltage drop with a certain delay, produces, at a value of 13, a control signal that ensures that the converter 4 is set to the initial state and information is shifted in delay elements 5, 6, 9, and 10. Next, the analysis of the next time interval corresponding to the sending of another polarity.

Thus, in the device, code elements (points and dashes) and section elements (intervals and pauses) are analyzed in turn according to a general algorithm.

The analyzer 2 on the circuit 23 outputs to the output Converter 3 the result of the analysis of the next time interval. The time interval according to the results of the analysis can be attributed to points, dashes, intervals or pauses. The signals fed to the output transducer 3 are translated by them into a uniform code of a terminal device, such as a teletype machine.

A change in the speed of the Morse code transfer is reduced to a change in the duration of the code messages, but does not change the relationship between the code elements. Therefore, the proposed device has a wider range of received speeds and better dynamic properties, which provides for increased reliability of reception.

Claims (1)

Invention Formula Morse code signal receiver containing serially connected input control unit, signal analyzer "Dash-point and output code converter, characterized in that, in order to increase the reception fidelity when the transmission rate changes, the serially connected converter is inserted into it "The time interval code, the first delay element, the second delay element, the first calculator of the code ratio, the switch, the third delay element, the fourth delay element and the second calculator of the ratio of codes whose output is connected to another input of the point-dash analyzer, the input of the input control unit is connected to the input of the converter "time interval-code, the output of which is connected to another input of the first calculator of the ratio of codes and to the second input of the switch, to the third input of which and to the other The output of the second delay element is connected to the input of the second calculator; the output of the fourth delay element is connected to the fourth input of the switch, and the time interval code and delay elements connected to the additional output of the input control unit. The source of information taken into account in the examination 1. Patent GDR № 73542, cl. 21a 1, 1/01, 1970. t