SU1185642A1 - Device for reception of information in frequency code - Google Patents

Abstract

A DEVICE TO RECEIVE INFORMATION IN A FREQUENCY CODE containing a serially connected bandpass filter and a null organ, a time delay block and a serially connected clock generator, a counter and a key, characterized in that, in order to increase the reception speed, additional bandwidths connected in series are introduced into it filters and null-organs, two coma of the device, a comparison unit, two OR elements, two additional counters and an AND element, and the inputs of all band-pass filters are combined and are the device input , the outputs of the zero-organs are connected to the inputs of the first OR element and one of the switches, the other inputs of which are connected to the outputs of the corresponding additional counters, which are also connected to the corresponding inputs of the comparison unit, the additional input of which is connected to the second output of the clock generator, the comparison output unit - with the first input of the first additional counter and with the first input of the second element OR, the output i of which is connected to the first input of the second additional counter, you (O move ne the OR element is connected to the first input of the clock generator, the second input of which and the second inputs of the OR element, the counter and the first additional counter are combined and connected to the output of the time delay block, the input of which is combined with the input of the key and connected to the output of the AND element, inputs which are connected to the outputs of the corresponding switchboards, whose additional inputs and the second input of the second additional counter are connected to the first output of the clock generator.

Description

The invention relates to telecommunications and telemechanics and can be used in systems for transmitting and receiving information in multipart code in automated systems for collecting information and processing information with increased requirements for the speed of transmission and processing of information. The purpose of the invention is to increase the reception speed. The drawing shows a structural electrical circuit of the proposed device. The device contains band-pass filters 1, null-organs 2, a block 3 of the time delay, a generator of 4 clock pulses, a counter 5, a key 6, switches 7 and 8, additional counters 9 N 10, element 11, block 12 comparison, elements OR 13 and 14. The device operates in the following SIIOtt way. In the initial state of the device, generator 4 is turned off in counter 5, a binary number is written, one unit of the number of allowed two-frequency code combinations, an additional counter 9 contains a binary number, two less than the number of frequencies used in the transmission path, and additional counter 10 is written binary number, one less than the number of frequencies used in the transmission path, the values of the signals at the outputs of zero-bodies 2, switches 7 and 8, block 12 of counter signals, key-6, element AND 11, elements OR 13 and 14, block to and 3 in the initial state and the generator in the initial state are equal to zero. The analysis of the input multi-frequency signal and the decision on the presence of one or another combination of frequencies in it are carried out by bandwidth No. 1 and zero-organs 2 during a time period corresponding to one interval of a fixed tuning of the notch filter in the device-prototype. Further processing of signals from the outputs of null organs. 2 is carried out at a high clock frequency of the logic elements, the source of which is the generator 4, thereby achieving a reduction in the time for obtaining information from the input signal. During this processing, the device changes its state, the number of which is equal to 422 the number of possible states of counter 5. Each state of the device, characterized by a specific set of output signals from counters 5, 9, and 10, strictly corresponds to any specific two-frequency combination of the input signal. . When a matching combination of input signal frequencies to the current set of output signals of counters 5, 9, and 10 (otherwise, the current state of the device) is detected, the counters stop, terminating the state transition, and the information signals are removed from the codes of the counter 5 via key 6. There is a delayed pulse The removal of block 3 of time delay returns the device to its original state and prepares it for a new work cycle. The device uses a subtractive (reversible) account, which greatly simplifies its structure and meter management. The output signal with the allowed combination of two frequencies acts on the zero-organs 2 through the band-pass filters 1, two of which, in accordance with the signal frequencies, are triggered and through the element OR 14 turn on the generator 4. A gate clock appears at the gate 1x switch inputs 7 and 8 them. Pulse FROM clock series with a frequency of f Hz, which on the leading edge switches switches 7 and 8 for half a clock period. This moment at the output of switch 7 a signal appears from its input, the number of which is given by the set of input signals of counter 9 (its current state), according to the address inputs of switch 7. Similarly, at the input of switch 8 from its input, the number of which is given by the set of output signals of counter 10. Since at this clock cycle, up to a given clock edge, the current state of the device is initial, the output signals of counters 9 and 10 provide polling by switches 7 and 8 during a clock pulse The gateways on the gate inputs of these switches. The signals of switches 7 and 8 are fed to the inputs of element 11. If the combination of input signal frequencies does not correspond to the current state of the device, then the outputs of switches 7 and 8 do not appear simultaneously (in one clock) two signals of logical 1 and 11, there will be no changes (the original signal of the 1Os log of O will remain there). At the end of the current clock cycle, along the trailing edge of the clock pulse, counters 5 and 10 are switched and the device switches to the next state. From the contents of counters 5 and 10 is subtracted one by one. Thus, on the leading edge of the clock pulse, signals of a pair of zero-organs 2 are polled by means of switches 7 and 8, and on a falling edge - a change in the state of the device by switching counters and preparation for polling signals of a new pair of null organs 2 until two signals of logical 1 at the outputs of switches 7 and 8. This preparation is as follows. If at the end of the current cycle and switching of the counter 10 the address signals from the outputs of the counters 9 and 10 did not coincide, then in the pause of the next cycle until the next clock pulse appears, no changes in the device signals occur. If at the end of the current clock cycle and the counter switches 10 the address signals from the outputs of counters 9 and 10 coincided, then it can cause in the next clock interval an attempt to unify the forbidden combination of two identical frequencies (with identical numbers), which violates the logic of the device operation, meaning that the same signal from the output of the same null organ 2 would arrive at both inputs of the element 11 through switches 7 and 8. This problem arises, for example, when the device goes from the initial state O to the first state . To detect and eliminate such a match, block 12 compares the signals of counters 9 and 10. As soon as the current clock pulse terminates the signals of counters 9 and 10, block 12 is ready to issue a logical 1 signal in the next clock cycle, but it only has its own signal along the leading edge of the strobe pulse from the second output of the generator 4, where the pulses follow with a frequency multiple of f, for example, 2if Hz. The requirement of an increased frequency of pulses at the second output of generator 4 ensures the elimination of races in the chains during the transition period, switching triggers of the counterclock, as well as the elimination of the type of bouncing contact signal at the output of block 12 in the same period by delaying its activation at the gate front pulse from the second output of the generator 4. Such a strobe pulse is shorter than the clock from the first output of the generator 4 and appears in the pause of the main clock pulse train. Let the counters 10 and 5 switch at the end of the current clock interval, there is a pause between the falling edge of the clock pulse and the leading edge of the closest time gate from the second output of generator 4, sufficient to fully establish the new trigger status of counters 5 and 10, After a full setting the counters to a new state on the leading edge of the strobe pulse at the output of block 12, a logical 1 signal appears in the case of the counter signals 9 and 10. This signal arriving at the subtracting input 9, prepares it for switching and, with some delay, passes through the OR 13 element, arrives at the installation input of the counter 10, returning it to its original state. Since, as a result, the signals of counters 9 and 10 no longer coincide, almost even before the strobe pulse ends at the output of block 12, the signal level of logical O is set. Thus, the falling edge of the pulse at the output of block 12 is formed, according to which one is deducted from the contents of counter 9 . The output signals of counter 5 thus correspond to the analyzed combination of input signal frequencies 3 and 5. If in the next tact interval on the leading edge of the clock pulse applied to the gate inputs of the switches 7 and 8, the logical 1 signals are sent to their outputs, then element 11, fixing the coincidence, outputs its logical 1 signal to the block 3 time delay and to the control input of the key 6. This signal opens the key 6 and gives the receiver information signals generated up to this point by the counter 5. After this, the block 3 holds time and generates at its output a time-delayed pulse, which switches off the generator 4 and generates a reset

the state of the counters is 5.9 and 10 and the device is prepared for a new work cycle.

Claims (1)

DEVICE FOR RECEIVING INFORMATION IN THE FREQUENCY CODE, comprising a series-pass bandpass filter and a zero-organ, a time delay unit and series-connected clock pulses, a counter and a key, characterized in that, in order to increase the reception speed, additionally connected band-pass filters and zero-organs, two switches, a comparison unit, two OR elements, two additional counters and an AND element, and the inputs of all band-pass filters are combined and are the input of the device, you the moves of the null organs are connected to the inputs of the first OR element and to one of the inputs of the switches, the other inputs of which are connected to the outputs of the corresponding additional counters, which are also connected to the corresponding inputs of the comparison unit, the additional input of which is connected to the second output of the clock generator, the output of the block comparison - with the first input of the first additional counter and with the first input of the second OR element, the output of which is connected to the first input © of the second additional counter, the output of the first This OR is connected to the first input of the clock generator, the second input of which and the second inputs of the OR element, counter and the first additional counter are combined and connected to the output of the time delay unit, the input of which is combined with the key input and connected to the output of the And element, the inputs of which are connected to the outputs of the respective switches, the additional inputs of which and the second input of the second additional counter are connected to the first output of the clock generator. SU, „. 1185642