RU107365U1 - SQUARE SPECTRUM ANALYZER - Google Patents

Abstract

 A quadrature spectrum analyzer containing an input filter, the first input of which is the input of a quadrature spectrum analyzer, and a subtraction unit, characterized in that a symmetric quadrature filter, a two-phase generator and a quadrature selective phase shifter are introduced, the first inputs of which are connected to the first output of the input filter, made in the form an asymmetric quadrature filter, as well as a notch quadrature filter containing a subtraction unit and first and second branches, each of which contains respectively the first multiplier, the first low-pass filter, the first high-pass filter and the second multiplier connected in series, and the third multiplier, the second low-pass filter, the second high-pass filter and the fourth multiplier connected in series, the outputs of the second and fourth multipliers connected to the first and second inputs, respectively a subtraction unit, the output of which is the output of the notch quadrature filter, the output of which is the output of the quadrature spectrum analyzer, two-phase output the second generator is connected to the third input of the symmetric quadrature filter and to the first input of the notch quadrature filter, which is the first and second inputs of the first multiplier, the first input of the third multiplier and the second the input of the fourth multiplier, and the output of the quadrature selective phase shifter is connected to the second input of the notch to

Description

The utility model relates to radio engineering and can be used to study the structure of complex signals, in particular, as a channel of a parallel multi-channel spectrum analyzer.

A device is known that contains an input matching unit, an analog-to-digital converter, a multiplier, a constant storage device of weight function coefficients, a specialized fast Fourier transform processor, random access memory, a clock, a control device, an adder, a buffer random access memory, an address translation unit, and switching circuits [RU 2099720, C1, G01R 23/16, 12.20.1997].

The device has a high resolution, but has a relatively low noise immunity.

The closest in technical essence to the proposed one is the channel of a multi-channel spectrum analyzer, consisting of a series-connected input filter, detector and integrator connected to the input broadband amplifier of the spectrum analyzer, M units of the subtraction of the first group, M-input adder, M keys, M units of the subtraction of the second group, M threshold elements, KM + 1 single-input multipliers, K + 2 additional M-input adders, K two-input multipliers, (K + 1) -input adders, sawtooth generator I, K-1 blocks, two shapers, a delay line with M taps, M triggers, a division block, a key, M branches containing a threshold element, a trigger, and a scale amplifier connected in series [RU 2014621, C1, G01R 23/16, 15.06. 1994].

The disadvantage of this device is the relatively low noise immunity in conditions of powerful interference.

The required technical result is to increase noise immunity by providing the ability to highlight useful signals against the background of harmonic interference, significantly exceeding the level of the useful signal due to automatic noise suppression.

The required technical result is achieved in that, in a device containing an input filter, the first input of which is the input of the device, and a subtraction unit, a symmetric quadrature filter, a two-phase generator and a quadrature selective phase shifter are introduced, the first inputs of which are connected to the first output of the input filter made in in the form of an asymmetric quadrature filter, as well as a notch quadrature filter containing a subtraction unit and the first and second branches, each of which contains, respectively, the first multiplier, the first low-pass filter, the first high-pass filter and the second multiplier, and the third multiplier, the second low-pass filter, the second high-pass filter and the fourth multiplier, the outputs of the second and fourth multipliers connected to the first, respectively and the second inputs of the subtraction unit, the output of which is the output of the notch quadrature filter, the output of which is the output of the device, the output of the two-phase generator is connected to the second the inputs of a symmetric quadrature filter, a quadrature selective phase shifter and an asymmetric quadrature filter, the second output of which is connected to the third input of the symmetric quadrature filter and the first input of the notch quadrature filter, which is the first and second inputs of the first multiplier, the first input of the third multiplier and the second input of the fourth multiplier, and the output of the quadrature selective phase shifter is connected to the second input of the notch quadrature filter, which is the second inputs of the second and third multipliers.

The drawing shows a functional diagram of a quadrature spectrum analyzer.

The quadrature spectrum analyzer contains an input filter 1, made in the form of an asymmetric quadrature filter, the first input of which is the input of the quadrature spectrum analyzer.

The quadrature spectrum analyzer also contains a symmetric quadrature filter 2, a quadrature selective phase shifter 3, a first multiplier 4, a third multiplier 5, a second multiplier 6, a fourth multiplier 7, a first lowpass filter 8, a first highpass filter 9, a second lowpass filter 10, and a second a high-pass filter 11 and a subtraction unit 12.

In the quadrature spectrum analyzer, some of the elements functionally form a notch quadrature filter 13, comprising a subtraction unit 12 and a first and second branch, each of which contains, respectively, a series-connected first multiplier 4, a first low-pass filter 8, a first high-pass filter 9 and a second multiplier 6, and a third multiplier 5, a second low-pass filter 10, a second high-pass filter 11 and a fourth multiplier 7 connected in series, the outputs of the second 6 and fourth 7 multipliers connected, respectively, with the first and second inputs of the subtraction unit 12, the output of which is the output of the notch quadrature filter 13, the output of which is the output of the quadrature spectrum analyzer.

The quadrature spectrum analyzer also includes a two-phase generator 14, and the output of the two-phase generator 14 is connected to the second inputs of the symmetric quadrature filter 2, the quadrature selective phase shifter 3 and the asymmetric quadrature filter 1, the second output of which is connected to the third input of the symmetric quadrature filter 2 and to the first input of the notch quadrature filter 13, which is the first and second inputs of the first multiplier 4, the first input of the third multiplier 5 and the second input of the fourth multiplies eating 7, and the output of the quadrature selective phase shifter 3 is connected to the second input of the notch quadrature filter 13, which is the second inputs of the second 6 and third 5 multipliers.

All elements of the device are standard radio devices.

A quadrature spectrum analyzer operates as follows.

The input signal of complex shape is fed to the input of the asymmetric quadrature filter 1, the output signal of which is fed to the input of the symmetric quadrature filter 2, to the inputs of the first 4, third 5 and fourth 7 multipliers, as well as to the input of the quadrature selective phase shifter 3, the output of which is connected to the corresponding inputs of the second 6 and third 5 multipliers. Each branch of the notch quadrature filter 13 contains the first 8 and second 10 low-pass filters, as well as the first 9 and second 11 high-pass filters. The outputs of the second 6 and fourth 7 multipliers are connected to the inputs of the subtraction unit 12, at the output of which the selection of the useful signal is provided. The two-phase generator 14 provides the reference voltages with an asymmetric quadrature filter 1, a symmetric quadrature filter 2 and a quadrature selective phase shifter 3.

The input signal of the notch quadrature filter 13 is a mixture of harmonic voltages with frequencies ω _i and ω _c , of which a voltage with frequency ω _i (high amplitude interference) is suppressed, because coincides with the frequency of the reference voltage supplied to the notch quadrature filter 13 from the asymmetric quadrature filter 1 and the symmetric quadrature filter 2 through the quadrature selective phase shifter 3.

Thus, due to the improvement of the known device, the required technical result is achieved, which consists in increasing the noise immunity, since it is possible to extract useful signals against the background of harmonic interference, significantly exceeding the level of the useful signal due to automatic noise suppression.

Claims (1)

A quadrature spectrum analyzer containing an input filter, the first input of which is the input of a quadrature spectrum analyzer, and a subtraction unit, characterized in that a symmetric quadrature filter, a two-phase generator and a quadrature selective phase shifter are introduced, the first inputs of which are connected to the first output of the input filter, made in the form an asymmetric quadrature filter, as well as a notch quadrature filter containing a subtraction unit and first and second branches, each of which contains respectively the first multiplier, the first low-pass filter, the first high-pass filter and the second multiplier connected in series, and the third multiplier, the second low-pass filter, the second high-pass filter and the fourth multiplier connected in series, the outputs of the second and fourth multipliers connected to the first and second inputs, respectively a subtraction unit, the output of which is the output of the notch quadrature filter, the output of which is the output of the quadrature spectrum analyzer, two-phase output the second generator is connected to the third input of the symmetric quadrature filter and to the first input of the notch quadrature filter, which is the first and second inputs of the first multiplier, the first input of the third multiplier and the second the input of the fourth multiplier, and the output of the quadrature selective phase shifter is connected to the second input of the notch square adrature filter, which are the second inputs of the second and third multipliers.