SU1760636A1 - Phase start signal detector - Google Patents

Abstract

The invention relates to radio engineering and can be applied in information transmission systems using pseudo-random signals when detecting a phase-start signal. The purpose of the invention is to increase the likelihood of detecting a phase-start signal. A device for detecting a phase-start signal contains a recognition unit of 1 signal elements, a 2-character signal analyzer, a switch 3, a shaper of 4 reference signals, a delay element 5, a correlation detector 6, a control unit 7, a generator of 8 clock pulses, a confidence control unit 9, majority element 10 and correction block. 2 ill.

Description

The invention relates to radio engineering and can be used in information transmission systems using pseudo-random signals for the rapid detection of a phase-start signal.

Devices are known for detecting a phase-start signal (TFP) comprising a majority assessment unit of TFP symbols, at the output of which an estimate of the current TFP symbol is formed taking into account a number of previous TFP symbols.

However, these devices have the disadvantage that erroneous reception of TFP elements leads to a decrease in the likelihood of correct detection of TFP of a given duration. This is especially manifested with low reliability of recognition of TFP elements.

The closest in technical essence is a device for detecting a phase-start signal, comprising a clock, a control unit, a correlation detector and a series-connected signal element recognition unit, a signal symbol analyzer, a majority element, a switch and a driver of reference signals, the first output of which connected to the second information input of the switch, the second output to the reference input of the correlation detector, and the input of the device is connected to indirectly to the input of block elements recognition signal, and via a delay element - to a data input of a detector correlation, the output of which via a control unit connected to the control input of the switch; the output of the clock generator is connected to the clock inputs of the signal symbol analyzer, the reference driver and the control unit.

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The disadvantage of this device is the low probability of TFP detection, due to the fact that TFP elements taken with low and high probability have equal weight when forming a majority rating of the current TFP symbol in the signal symbol analyzer.

The purpose of the invention is to increase the likelihood of detecting a phase-start signal.

The goal is achieved in that a device for detecting a phase-start signal, comprising a series-connected signal element recognition unit and a signal symbol analyzer, a serially connected majority element, a switch and a reference signal generator, the first output of which is connected to another information input of the switch, and the second output connected to the reference input of the correlation detector, to the information input of which the input of the signal element recognition unit is connected through the delay element, the output of the correlation detector through the control unit is connected to the control input of the switch, and the output of the clock generator is connected to the clock inputs of the signal analyzer, the control unit and the reference signal driver; A series-connected reliability control and a correction block are entered, the input of the confidence control block is connected to the input of the signal element recognition block, and the outputs of the signal symbol analyzer are connected to the corresponding inputs of the majority element via the correction block whose clock input is connected to the clock pulse output.

FIG. 1 shows a block diagram of the device.

FIG. 2 shows the block diagram of the correction block.

The device comprises a signal element recognition unit 1, a signal symbol analyzer 2, a switch 3, a reference driver 4, a delay element 5, a correlation detector 6, a control unit 7, a clock generator 8, a reliability control unit 9, a majority element 10, a correction unit 11, the signal element recognition unit 1 and the signal analyzer 2 of the signal 2 are connected in series, the majority element 10, the switch 3 and the driver of the reference signals 4, the first output of which is connected in series En with another information input of the switch 3, and the second output is connected to

the reference signal input of the correlation detector 6, to the information input of which the input of the signal element recognition unit 1 is connected via

delay element 5; the output of the correlation detector 6 through the control unit 7 is connected to the control input of the switch 3, and the output of the clock generator 8 is connected to the clock

inputs to the symbol analyzer signal 2, the control unit 7 and the driver reference signals 4; in addition, the reliability control unit 9 and the correction unit 7 are connected in series, and the input

the reliability control unit 9 is connected to the input of the signal element recognition unit 1, and the outputs of the symbol analyzer signal 2 are connected to the corresponding inputs of the majority element 10 via

a correction unit 11, the clock input of which is connected to the output of the clock pulse generator 8. The inputs of the signal element recognition unit 1, the delay element 5 and the reliability control unit 9 are combined and are the input of the device for detecting the phase-start signal.

The proposed device operates as follows.

Phase Start Received Signal

arrives at the combined input of the signal element recognition unit 1, the input of the delay element 5 and the input of the validation control unit 9. The purpose of the recognition unit of elements 1 coincides with the purpose of the analogous unit of the prototype device and consists in estimating the TFE elements. From the output of the element recognition block 1, the elements of the phase-start signal are input to the analyzer of the symbols of the signal 2, from the output of which the signals arrive at the second input of the correction block,

The received signal is also fed to the input of the reliability control block 9.

If the input signal exceeds the upper threshold level, or less than the lower threshold level, then a signal with the level of a logical unit is generated at the output of the confidence control block, otherwise

case - with the level of logical zero. From the output of the confidence control block, the signal arrives at the second input of the correction block 11. Character symbol evaluations coming to the second input of the correction block 11 and corresponding to the signals from the output of the confidence control block 9 having a logic level 1 are received from the output of the correction block 11 to the input of the majority element 11 The signals are the same

{incoming to the second input of the correction unit and corresponding to the level of the logical zero of the signals at the first input of the correction unit do not arrive at its output and thus do not affect the resulting signal from the output of the majority element 10.

At the initial moment of time, when the phase start signal is not detected, the control unit 7 connects the output of the majority element 10 with the information input of the reference signal generator 4 through switch 3, where the majority estimates of the phase start signal as initial conditions are written and clocked by the signal coming from the output of the clock pulse generator 8 to the clock input of the reference signal generator 4. After the recording is completed, the control unit 7 connects the information input of the support generator through the switch s signal 4 to its first output. This connection remains until the phase-start reference signals are generated, coming from the second output of the reference signal generator 4 to the input of the reference signal of the correlation detector 6 and stored, if the signal at the output of the reference signal of the correlation detector 6 corresponds to a correct estimate the symbols of the phase start signal and the decision on the presence of a phase start signal. Otherwise, i.e. if the output of the correlation detector 6 generates a signal corresponding to the correct evaluation of the symbols of the phase start signal, the information input of the reference signal generator 4 is connected again (via switch 3) to the output of the majority element 10, the new initial conditions are recorded and the process is repeated. The delay element 5 delays the input signal by the time required to process the received phase-start signal in blocks 1, 2, 9, 10 and to form the phase-start reference signals in the signal conditioner 4.

Correction block 11 (see Fig. 2) contains the shift register 12, the first I circuits I 13 (1) - 13 (1), and every two outputs of the check bits of the shift register 12, corresponding to one of the I checks, are connected to the inputs of the corresponding first circuits And 13 (1) -13 (1). The correction block 11 also contains the second 14 (1) -14 (1 + 1), the third 15 (1) -15 (1 + 1) AND schemes and the OR 16 (1) schemes - 16 (1 + 1), and the pairwise combined the first inputs of the respective second 14 (1) -14 (+1) and the third 15 (1) -15 (1 + 1) AND circuits are the second information input

correction block 11, and the pairwise combined second inputs of the second 14 (1) -14 (1 + 1) AND circuits and the inverse second inputs of the third 1/1 15 (1) -15 (1 + 1) circuits are connected to the outputs of the first AND circuits 13 (1) -13 (1) and to the output of the first bit of the shift register 12. The output of each of the second 14 (1) -14 (1 + 1) AND schemes and the inverse output corresponding to the third 15 (1) -15 (1 +1) circuits and are connected to the inputs

corresponding to the OR 16 (1) -16 (1 + 1) schemes, the outputs of which and the second information input of the correction block 11 are the output of the correction block 11.

The clock input of the correction unit is the clock input of the shift register 12.

The correction unit 11 operates as follows.

From the output of the plausibility control unit 9, the signal is fed to the input of the first digit

shift register 12 of correction block 11, from the output of which the signals corresponding to the i-th test are fed to the inputs of the first circuit AND 13 (1).

If the i-th signal at the second information input of the correction unit 11 has a logic zero level, then (Output 1) and (output 2) i signals of different level are formed. The outputs (out. 1, out. 2) 1- (out 1, out. 2) i + i are the output of the correction unit 11. If the signals on a certain pair of outputs (out. 1, Out. 2) i are different in level, that corresponds to unreliable estimation, the i-th check symbol from the corresponding output of the signal symbol analyzer

2 does not affect the majoritarian decision, i.e. on the signal at the output of the majority element 10.

The technical advantage of the present invention is that, compared with the prototype, it provides a high probability of correct detection of the phase-start signal.

Claims (1)

Apparatus of the Invention A device for detecting a phase-start signal, comprising a series-connected signal element recognition unit and a signal symbol analyzer, serially connected major element, a switch and a reference signal conditioner, the first output of which is connected to another information input of the switch, and the second output - to the input the reference signal of the correlation detector, to the information input of which the input of the signal element recognition unit is connected via a delay element, the correlation detector output is connected to the control input of the switchboard through the control unit, and the clock pulse output is connected to the clock inputs of the signal analyzer, control unit and reference signal former, in order to increase the likelihood of detecting the phase-start signal, he entered consistently connected block control confidence and a correction unit, wherein the input of the confidence control unit is connected to the input of the signal element recognition unit, and the outputs of the signal symbol analyzer are connected to the corresponding inputs of the majority element via a correction unit, the clock input of which is connected to the output of the clock generator. entrance STOPOH IPHOM INPUT / j 1 V Exit