SU1548820A1 - Adaptive array - Google Patents

Abstract

The invention relates to radio engineering. The purpose of the invention is to increase the noise immunity with respect to interference signals, the frequency band and whose power exceeds the frequency band and power of the useful signal, and to prevent the suppression of the useful signal. The antenna array contains antenna elements 1, hybrid devices 2, weight multipliers 3, adder 4, adaptive circuits 5, each of which consists of integrator 6, amplifier 7, subtraction unit 8, multipliers 9 and 10, correlator 11, adjustable inverting the amplifier 12 and the switch 13. The goal is achieved by introducing the band-pass filter 14, the barrier filter 15, the power measurement blocks 16 and 18, the comparator block 17 and the control block 19, which are used to generate control signals for the switches 13 and the amplifiers 12, which minimize tion and maximizing the power output of the adder 4, respectively in the modes of suppression of the interference and the desired signal isolation. Combining these two adaptive processing modes improves noise immunity and prevents the useful signal from being suppressed when its power exceeds the power of the interference signals. 1 il.

Description

The invention relates to radio engineering and can be used in various radar and communications systems.

The purpose of the invention is to increase the noise immunity with respect to the interference signals, the frequency band and power of which exceeds the frequency band and power of the useful signal, and to prevent the suppression of the useful signal.

The drawing shows a structural electrical circuit of an adaptive antenna array.

The adaptive antenna array contains antenna elements 1, hybrid devices 2, weight multipliers 3, common adder 4, adaptive circuits 5, integrators 6, amplifiers 7, subtraction blocks 8, second multipliers 9, first multiplier 10, correlators 11, adjustable inverting amplifiers 12 the switch 13, the band-pass filter 14, the barrier filter 15, the second power measurement unit 16, the comparison unit 17, the first power measurement unit 18, the control unit 19.

Adaptive antenna array works as follows.

Microwave signals are received by antenna elements 1 and fed to hybrid devices 2, in which they are divided into in-phase and quadrature components, and then weighed by weight multipliers 3 and summed up in a common adder 4, using adaptive circuits 5, we adjust the weight multipliers 3 in order to minimize the power of the interfering signals at the output of the common adder 4 and extract the useful signal. The tuning algorithm of the weight multipliers 3 has the form

five

Q

five

Q

g

0

five

W (k + l) W (k) + f / -S (k) x (k) - - W (k) S (k),

where W (k) is the vector of weight coefficients at the output of integrators 6; X (k) - vector of input signals

at the outputs of hybrid devices 2; S (k) U {k x (k) -signal output common

adder 4j ju gain ratio

adaptive contours. When the gain factor p Ј O is achieved, power is minimized at the output of common adder 4 (interference is suppressed), and when the output power of the signal of total adder 4 is maximized (a useful signal is extracted). The selection of the sign and magnitude of the f / t gain factor is performed as follows. The output of the common adder 4 is fed to the inputs of a bandpass 1 4 and a barrage 15 filters, the bandwidth of the bandpass filter 14 is matched to the spectrum of the useful signal, and its output signal is a mixture of the useful signal and part of the interfering signals. The suppression band of the barrier filter 15 is also matched to the width of the spectrum of the useful signal, and at its output there is no useful signal, and most of the interference signal power is present. The signal powers at the outputs of the bandpass 14 and the barrier 15 filters are measured by the first 18 and second 16 power measurement units and are fed to the inputs of the comparison unit 17. If the interference power on

the second input of the comparator unit 17 is greater than the power of the useful signal at the first input; a signal arrives at its output that arrives at the control inputs of the switches 13 of all adaptive circuits 5. According to this signal, the switches 13 connect the inputs of integrators 6 to the inputs of the integrators 6 , which corresponds to the negative sign of the gain | U in the algorithm (interference suppression mode). The magnitude of the gain of the regulated inverting amplifiers 12 is set by the control unit 19 in accordance with the measured interference power by the second power meter 16. In the case of smallness of the noise power of the interfering signals as compared with the power of the useful signal, there is no signal at the output of the comparison block 17 and the switches 13 connect to the inputs of the integrators 6 the outputs of the amplifiers 7, which

the connecting correlator, the subtractor and the amplifier, the integrator outputs are connected to the controllers in the ladies of the corresponding network multipliers and the first inputs of the corresponding second multipliers, the outputs of which are connected to the second inputs of the corresponding subtraction units, and the second inputs to the output first multiplier the first inputs of the correlators are connected to the first inputs of the respective weights of the output multipliers, and the output of the total sum of the matrix is connected to the first and second 15 inputs of the first multiplier and the second inputs of the correlators, the fact that, in order to increase noise immunity with respect to the output signals, the frequency band and power of which exceeds the frequency band and power of the useful signal and prevent suppression of the useful signal, a band-pass filter has been introduced, the first and second

corresponds to a positive value of 25 ROY power measurement blocks, a block

the gain factor (and, therefore, in an adaptive antenna array, the signal power is maximized at the output of common adder 4 (signal extraction mode).

Combining the two adaptive processing modes improves noise immunity and prevents the useful signal from being suppressed when its power exceeds the power of the interference signals.

Claims (1)

Invention Formula An adaptive antenna array containing N antenna elements connected to corresponding hybrid devices, the first and second outputs of which are connected to the corresponding input of the adder through the respective weighting multipliers, the first multiplier and 2N adaptive circuits, each of which contains a second multiplier, integrator, sequentially 35 Comparisons the control unit and each adaptive circuit are connected in series by an adjustable inverting amplifier and switch, with 30 than the outputs of the subtraction units are connected to the first inputs of the corresponding adjustable inverting amplifiers, the second inputs of which are connected to the output of the control unit, the outputs of the switches are connected to the second inputs of the corresponding switches, the outputs of which are connected to the inputs of the respective integrators, and the control inputs are connected to the outputs block 40 comparison, the output of the common adder, the cuts of the serially connected field filter and the first power measurement unit are connected to the first input of the comparison unit and through the successively connected barrage filter and the second power measurement unit to the input of the control unit and the second input of the comparison unit. 0 connecting correlator, subtractor and amplifier, the integrator outputs are connected to the control inputs of the corresponding load multipliers and the first inputs of the corresponding second multipliers, outputs of which are connected to the second inputs of the corresponding subtractors, and the second inputs to the output of the first multiplier, the first inputs the correlators are connected to the first inputs of the respective weighting multipliers, and the output of the common adder is connected to the first and second 5 inputs of the first multiplier and the second inputs of the correlators, which are routed t so that, in order to increase the noise immunity with respect to the output signals, whose frequency band and power exceed the frequency band and power of the useful signal, and prevent suppression of the useful signal, a band-pass filter, a barrier filter, and the first and second Comparisons the control unit and each adaptive circuit are connected in series an adjustable inverting amplifier and switch, the outputs of the subtraction units are connected to the first inputs of the respective adjustable inverting amplifiers, the second inputs of which are connected to the output of the control unit, the outputs of the amplifiers are connected to the second inputs of the corresponding switches, the outputs of which are connected to the inputs of the respective integrators, and the control inputs are connected to the outputs of the comparison, the output of the common adder is connected via a series-connected bandpass filter and a first power measurement unit to the first input of the comparison unit and a serially connected barrage filter and the second power measurement unit to the input of the control unit and the second input of the comparison unit. Compiled by O. Zaroshchy Editor N. Lazorenko Order 143 Tehred M. Didyk Proofreader V.Kabatsy Subscription Circulation 444 VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, F-35, Raushsk nab., 4/5 Proofreader V.Kabatsy Subscription