SU809601A1 - Pulse train detector - Google Patents

Description

The invention relates to radio engineering and can be used in digital devices for synchronizing radio communication systems. A pulse sequence detector is known, comprising first and second shift registers and a series-connected adder and threshold element 1. However, this detector has. non-optimal detection characteristics in the case when the arrival time of the selected sequence is known with an accuracy of a fraction of its duration. The purpose of the invention is to improve the detection characteristics of pulse sequences, the arrival time of which is determined to within a fraction of their duration. This goal is achieved by the fact that in the pulse sequence detector containing the first and second shift registers and the series-connected adder and pore unit, an AND element is included between each output of the first shift register and the corresponding input of the adder, the other input of which is connected to the corresponding output of the second the shift register, between the outputs of the second shift register and the control input of the threshold element, an additional adder is turned on, and a key is connected to the input of the first shift register The equalization input is connected to the input of the second shift register and is the input of control pulses. The drawing shows a structural electrical circuit of the proposed detector. The pulse sequence detector contains the first shift register 1, the adder 2, the additional adder 3, the threshold element 4, the second shift register 5, the elements 6 AND and the key 7. The device operates as follows. A periodically repeating impulse pseudo-random sequence (SSP) with a length of n binary symbols is applied to the detector's input, the moment of occurrence of which can be shifted relative to the moment the key 7 is turned on by ± tons of symbols. Key 7 closes for the time corresponding to the entry of n characters and then opens. At the time of closing the key 7 on

the input of the second register 5 is given a single potential. For p cycles, the unit potential of the cell of the second register 5 permits the passage of the information signal through the corresponding element 6 AND to the adder. At the same time, the linearly increasing at the output of the adder 3 is also formed after n cycles (after the key 7 is closed) the linearly decreasing threshold voltage. The maximum value and the minimized useful signal at the input of the comparison threshold element 4 is reached. act simultaneously with its operation. At the same time, the cells of the second shift register 5 are in state 1, all elements 6 And are open and the threshold voltage is maximum ().

If there is a temporal mismatch (lag or advance) between the moments of signal arrival relative to the closure time of key 7, then the level of the minimized signal at the input of threshold element 4 is smaller by the value corresponding to the mismatch and

Uc and, "d" ()

and the threshold voltage ipmax. (2 - / - /; - In this case, only the symbols of the useful signal are involved in the formation of the convolution signal, and the cells of the first shift register 1, in which the useful signal is missing, are blanked by signals O, incoming

1 i

mi on elements b and from the corresponding cells of the second register 5.

Due to the fact that only the symbols of the useful signal are involved in the formation of a signal and an optimal threshold is formed, the detection characteristics will be significantly improved.

Claims (1)

1. USSR author's certificate No. 522547, cl. H 04 B 3/40, 1975 (prototype). n I