SU1596440A2 - Generator of m-sequences - Google Patents

Abstract

The invention can be used in communication systems, locations and devices forming complex signals. The purpose of the invention is the extension of functionality due to the possibility of controlling the change in the relative delay of two sequences. Changing the delay of the delayed sequence relative to the reference is made by changing the code on the control buses 17. In this case, the delay varies discretely by the value of the whole number of cycles. The M-sequence generator contains a shift register 1, a group of 2 AND elements, an adder 4 modulo two, registers 6-8, a counter 10, a clock generator 11, a persistent memory 12, an AND element 13 and a comparison unit 14. To achieve the goal, a group of 3 elements AND, an adder 5 modulo two, register 9 and a D-trigger 15 are entered into the M-sequence generator. 1 Il.

Description

The invention relates to a pulse technique and can be used in communication systems, locations and devices for generating complex signals.

The purpose of the invention is the extension of functionality due to the possibility of controlling the change in the relative delay of two sequences.

The drawing shows a structural diagram of the generator of MT sequences.

The generator of M-sequences contains the 1 shift register, the first 2 and second 3 groups of elements are And, the first 4 and second 5 modulo-2 adders, the first, second, third and fourth registers 6-9, counter 10, the generator 11 clock pulses, constant memory device (ROM) 12, element AND 13, comparison block 14, D-flip-flop 15, bus 16 and 17 control of view sequence and delay, respectively, connected to the corresponding information inputs of the register 8 and the corresponding inputs of the second group of inputs of the comparison block 14, the output of which with one with the first input element And 13, the output of which is connected to the synchronization input of the register 8, the outputs of which are connected to the corresponding inputs of the first group of inputs of the comparison unit 14 and the corresponding inputs of the ROM 12, the outputs of the second group of outputs are connected to the corresponding inputs of the register 6, the outputs of which are connected with the second inputs of the corresponding elements And the first group 2 elements And, the outputs of which are connected to the inputs of the adder 4 modulo two, the output of which is connected to the information input of the shift register, you the moves of which are connected to the first inputs of the corresponding elements And the first 2 and second 3 groups of elements And the first group of outputs of the ROM 12 is connected to the corresponding information inputs of the register 7, the outputs of which are connected to the corresponding installation inputs of the shift register 1, the control input of which is connected to the synchronization input of the register 7 , the second input element And 13, the synchronization input of the register 9 and the output of the counter 10, the synchronization input of which is connected to the synchronization input of the register 6, the generator output 11 clock and pulses and the input shift register synchronizing 1, the last discharge outlet which is connected to the input for setting the counter 10 and is the first output of M-sequence generator. The outputs of the third group of outputs of the ROM 12 are connected to the information inputs of the register 9, the outputs of which are connected to the second inputs of the corresponding elements AND group 3 of the elements I, the outputs of which are connected to the inputs of the adder 5, the output of which is connected to the information input of the D-flip-flop 15, the output of which is the second output of the device about the clock input of the D-flip-flop is connected to the output of the generator 1 1 „

The generator of M-sequences works as follows.

Claims (1)

When the device is turned on, the clock pulse generator 11 starts operating, and the registers 1,7,8 and 9 are set to an arbitrary state. In this case, the state of register 8 determines the address for selecting from the ROM 12 values of the polynomial of a specific M-sequence, the specific value of the initial installation code and the code of the specific sequence delay (second, first and third groups of outputs, respectively). Thus, the state of the register 8 provides information from the ROM 12, which, according to the pulses of the generator 11, clock pulses is written into register b and determines the outputs of register 1 (using a group of 2 AND elements), the signals from which are summed by modulo 4 . Thus, when the generator of the M-sequences is initially turned on, register 1 feedbacks are organized, at which one of the possible sequential ones is formed. Further, if the initial state of register 1 is not zero, the device forms an arbitrary M-sequence (of the specified ROM 12) until a series of (n-1) zero appears in it and, therefore, until a pulse 10 appears at the output of the counter. If all bits of the shift register 1 have a zero initial state, then the counter 10 starts counting pulses from the generator output 11 clock pulses, since there is no reset signal at its installation input. After (n-1) clock, at the output of counter 10, a pulse appears, act on the synchronization input of register 7, which stores the initial installation code, the second input of the element 13, the control input of the shift register 1, and puts it into the write mode. to information inputs from register 7 and to synchronization input register 9 If the type of M-sequence set by the code on control buses 15 does not coincide with the contents of register 8, then at the output of comparator 14 appears resolving the signal, opening (ny And 13 and allowing impulse with you the counter 10 pass to the register synchronization input 8. On the leading edge of the pulse, the control bus 16 and 17 are written to the register 8. This code provides a sample of the reverse link information from the desired location of the ROM 12, which is written to the clock pulse generator 11 register 6, the initial setup code, which is written to register 7, and the delay code, which is written to register 9, the signal of the generator 11 clock pulses overwrites the initial setup code to register 1. Thus, during Tvi pulses from the output of counter 10, the required code of the type of M-sequences in register 8 is selected, the code of the reverse link, the initial code for register 1 shift of the delay code are written, they are recorded in registers 6.7 and 9 °. At the same time, the last bit of register 1 the shift is written to the unit that resets the counter 10 to its original state. This happens when the generator of the M-sequences is initially turned on. In the stationary mode, during the pulse operation from the output of the counter 10, the states of registers 6,7 and 9 are confirmed and the same initial state is recorded. shift register 1. The output of the last bit of register 1 is the output of the main signal, the delayed signal (M-sequence) is removed from the output of adder 5 modulo two. The formation of a delayed sequence is based on the property of M-sequences, namely, the sum modulo twenty-two M-sequences with different delay is also M-sequences with a new delay. Having n-sequences with different delays, it is possible by summing modulo two to realize shifts of a given M-sequence, i.e., almost all possible delays (meaning delays by an integer number of cycles). The register 9 records the code of a given delay, i.e. the number of bits of register 1, which must be summed modulo two to obtain a sequence with a given delay. To change the type of the generated sequence or the delay of the sequence from the second generator output of the M-sequences, it is enough to change the code on buses 16 and 17, respectively. As a result, a permission signal appears at the output of comparison unit 14, during the next pulse from the counter 10 output, it changes code in register 8 "New codes from ROM 12 are written to registers 9.6 and 7 and shift register 1, which ensures the formation of another type of M-sequence or other delay, the change of which occurs and in the same sequence multiple times the M-sequence generator simultaneously provides for the formation of two M-sequences, one of which is the main (or reference), and the other is delayed and the delay is changed by feeding the appropriate code to the input buses 17, Delay may vary discretely from zero to maximum, (relative to the main sequence). Claims of the invention. M-sequence generator according to the author. No. 1338020, characterized in that, in order to expand the functionality of the possibilities due to the possibility of controlling the change in the relative delay of sequences, a fourth register is entered into it, the second group of elements is And, the second modulo two, the D-flip-flop, and the inputs of the second totalizer are two connected to the outputs of the second group of elements And, the first inputs are connected to the corresponding outputs of the shift register, the second inputs of the second group of elements And the plug 15964408 to the corresponding outputs of the quadruple memory device, the register is removed, the synchronization co-stroke of the second modulo two modulator Torogr connected to the output of the meter connected to the information input and the information inputs of the fourth ryo-D flip-flop, the clock input of which Gistr connected to the appropriate connected to the generator output clock of the third group of the outputs of the constant impulses.