RU2297699C2 - Phased array - Google Patents

Abstract

FIELD: the invention refers to radio technique industry and may be used in phased array systems using monopulse method of direction finding.

SUBSTANCE: the phased array has 4K oscillators panels, 4K phase inverters blocks, 4K lines of waveguide distributing system, four lines of directional couplers and 4K mated loads. At that four additional lines of directional couplers are introduced into the main distribution center, 4K+2 phasing sections, an adder and a directional coupler.

EFFECT: reduces the level of the lateral lobes of the difference directional pattern in the plane of disposition of the main distributing system.

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Description

The proposed device relates to the radio industry and can be used in systems with PAR, using a single-pulse direction finding method.

Known phased antenna array (PAR) with central excitation, containing linear emitters connected to controlled phase shifters, a microwave adder and a waveguide distributor made of directional couplers and main waveguides. In this phased array, the opening energy distribution system consists of a waveguide sum-difference bridge and a multi-channel waveguide power distributor, the outputs of which are connected to the inputs of the controlled phase shifters through directional couplers. ["Phased array with central excitation", ed. Beloshapkin E.I., Kozhukhov Yu.A. et al. RU 02070759 C1 19961220 MRFD 1996 4541222/09 19910417 H01Q 3/26].

The disadvantage of this technical solution is the high level of the side lobes of the differential radiation patterns.

A known antenna for small-sized stations for detecting and tracking targets and missiles, containing a radiating aperture and a microwave signal path, including a system of four double tees, three of which are folded in the E- and H-planes. In this case, the radiating aperture is made in the form of the same type of sublattices, each equipped with an excitation system in the form of serial or parallel microwave transmission lines, a phasing system with electrically controlled phase shifters, a radiation system in the form of discrete emitters located in the antenna aperture equidistantly at a distance of several wavelengths. The four inputs of the excitation system through a system of double tees are connected to the receivers and transmitter of the radar station ["Antenna for small-sized stations for detecting and tracking targets and missiles", ed. Drize I.M., Barsukova S.A. and other Eurasian patent for the invention No. 002275 according to the application 199900051 from 10.19.1998, class. 7 H01Q 21/08].

The disadvantage of this technical solution is the high level of the side lobes of the differential radiation patterns.

Closest to the technical nature of the present invention is an onboard antenna with electric beam control and a waveguide distribution system (HRV). This antenna uses a horizontal-column type HRV in which there are four horizontal-column dividers, each of which branches out microwave energy in one of the aperture quadrants, for which a single distributor is used - a ″ column ″ and N bars — ″ rows ″, and A microwave adder supplying the four mentioned dividers with the phase relations required for generating the differential difference radiation patterns ["Waveguide distribution system of an onboard antenna with electronic beam control", authors Sinani AI, Pozdnyakova R. D., Mitin V.A. "Antennas", no. 6 (61), 2002].

The disadvantage of this technical solution is the high level of the side lobes of the differential radiation patterns, which leads to an increase in errors when working on ground targets and targets on the background of the earth. This is determined by the applied system for generating the shape of the amplitude distribution in the antenna aperture.

In a two-dimensional monopulse phased array with a waveguide distribution system of a continuous type, a characteristic feature is the difficulty in forming optimal forms of the amplitude distribution in the aperture of the phased array simultaneously for the total and difference channels. As a rule, in the headlamp used in armament control systems, the HRV forms in the aperture an amplitude distribution that decreases from the center to the edges, optimal for the total channel, which for the difference channels is far from optimal ["Theory of synthesis of antennas" B.Minkovich , V.P. Yakovlev ed. "Soviet Radio", Moscow, 1969].

The essence of the invention consists in the fact that in order to approximate the generated amplitude distribution along one of the difference channels to the optimal form for the difference radiation pattern, four additional lines of directional couplers having 2K outputs in each are introduced into the phased antenna array, with one K outputs of these lines microwave energy is branched, but not to other K outputs, a summing device, a directional coupler and 4K + 2 phasing sections. The first difference input of the microwave adder is connected to the output of the phasing section, the input of which is connected to one of the outputs of the directional coupler, the second output of which is connected to the input of the phasing section, the output of which is connected to the input of the summing device. Each of the four outputs of the summing device is connected to the corresponding input of additional lines of directional couplers. The outputs of the additional lines, which do not receive the microwave signal, are connected to K matched loads, and the other K outputs of these lines are connected to K phasing sections, the outputs of which, in turn, are connected to the corresponding K outputs of the lines of the directional couplers of the main distributor.

As a result, the input of the directional coupler becomes the differential input of the HEADLIGHTER, along which the difference radiation pattern (LH) of the phased antenna array is formed in the orientation plane of the main distributor.

In this case, the phased antenna array consists of 4K emitter panels, 4K phase shifter blocks, 4K waveguide distribution system lines and a main distributor. The main distributor consists of a microwave adder having four outputs and one total and two differential inputs, four lines of directional couplers, each of which has 2K outputs, and 4K matched loads. N inputs of each of the K emitter panels are connected to the corresponding N outputs of each of the K blocks of phase shifters, N inputs of each of which are connected to the corresponding N outputs of each of the K lines of the waveguide distribution system, the input of each of the K lines of the waveguide distribution system is connected to the corresponding K outputs of the lines directional couplers of the main distributor. In the main distributor, the input of each of the four lines of directional couplers is connected to the corresponding output of the microwave adder, while microwave energy is branched into one K of the outputs of the lines of directed couplers, and microwave energy is not supplied to the other outputs of the lines of directed couplers, while the second the difference input of the microwave adder is formed by a differential radiation pattern in the orientation plane of the lines of the waveguide distribution system.

Thus, by introducing the listed new features into the phased array, it is possible to bring the amplitude distribution and, accordingly, the radiation pattern for the difference channel in the plane of the location of the main distributor to the optimal form, while the amplitude distribution and, accordingly, the radiation pattern for the total and second difference the inputs are not changed.

The technical result of the invention is to reduce the level of the side lobes of the differential radiation pattern in the plane of the main distributor PAR.

Figure 1 shows a functional diagram of the proposed phased antenna array.

Figure 2 shows the amplitude distribution of the phased antenna array in the plane of the main distributor,

where 1 is the amplitude distribution of the difference channel at the input Δ1 ¹ ,

2 - amplitude distribution of the total channel input 3 (∑),

D is the diameter of the phased array,

AR (E) is the amplitude distribution over the field.

Figure 3 shows the radiation patterns of a phased array antenna,

1 is a radiation pattern of a phased array antenna at the input Δ1 ¹ ,

2 is a radiation pattern of a phased array antenna at input 3 (S),

3 is a radiation pattern of a phased array antenna selected for the prototype.

The phased antenna array, the functional diagram of which, as an example of implementation, is shown in Fig. 1, consists of 4K panels of emitters 1, 4K blocks of phase shifters 2, 4K lines of VRS 3 and a main distributor consisting of four lines of directional couplers 4, each of which has 2K outputs, four additional lines of directional couplers 5, each of which has 2K outputs, 4K phasing sections 6, a microwave adder 7 having four outputs, two differential inputs - input 1 (Δ1) and input 2 (Δ2) and one total input 3 (∑) summing devices and 8, having 4 outputs and one input, a directional coupler 9, phasing sections 10 and 11, 4K of coordinated loads 12. N inputs of each of the K panels of emitters 1 are connected to N outputs of the corresponding block of phase shifters 2, N inputs of which are connected to N outputs of the corresponding the lines of the waveguide distribution system 3, the input of each of the K lines of the waveguide distribution system 3 is connected to the corresponding K outputs of the lines of the directional couplers 4, the input of each of the four lines of the directional couplers 4 is connected to the corresponding the output output of the microwave adder 7, and a differential radiation pattern of the headlights in the orientation plane of the lines of the waveguide distribution system 3 is formed at the difference input Bx 2 (Δ2), while the microwave energy branches into one K of the outputs of the lines of the directional couplers, and K lines of the other directional couplers microwave energy is not supplied. The input 1 (Δ1) of the microwave adder 7 is connected to the output of the phasing section 10, the input of which is connected to the output 1 of the directional coupler 9. The output 2 of the directional coupler 9 is connected to the input of the phasing section 11, the output of which is connected to the input of the summing device 8. Each of the four outputs of the summing device 8 is connected to the corresponding inputs of additional lines of directional couplers 5, To the outputs of each of four additional lines of directional couplers 5, which do not receive a microwave signal, are connected to K according annymi loads 12, and other additional lines to the outputs of directional couplers 5 are connected to inputs K phasing sections 6, whose outputs are in turn connected to respective outputs TO lines of directional couplers 4. Log (Δ1 ¹⁾ of the directional coupler 9 is a differential input PAR by to which a difference radiation pattern is formed in the orientation plane of the main distributor.

The proposed phased antenna array operates as follows.

Upon receipt of the signal to open the headlamp from the direction corresponding to the direction of the maximum of the emitted signal, all partial components of the full signal from the aperture are summed only in the lines of directional couplers 4 and then the total signals from four lines of directional couplers 4 are fed to the outputs of the microwave adder 7, forming on it the inputs of the total difference signals corresponding to this direction. When a signal arrives at the opening of the PAR from a direction that does not correspond to the direction of the maximum of the emitted signal, the partial signals from the aperture are divided into two parts. One part of these signals is summed in the lines of directional couplers 4 and then goes to the microwave adder 7, and the other part, determined by the incomplete matching of phase relationships for adding partial signals from the aperture of the PAR in the lines of directional couplers 4, passes further through the phasing sections 6 to additional line of directional couplers 5 and, summing up in them, goes to the summing device 8. Next, the signals from the input 1 (Δ1) of the microwave adder 7 and the input of the summing device 8 corresponding to the difference diagram n directivity in the plane of the location of the main distributor, through the phasing sections 10 and 11, go to the outputs 1 and 2 of the directional coupler 9, while the amplitude and phase ratios of the signals in the lines of directional couplers 4 and additional lines of directional couplers 5, as well as in the directional coupler 9, selected in such a way that at the input of the directional coupler 9 signals are generated corresponding to the difference radiation pattern with a lowered level of side lobes (this corresponds to the correction of we have the amplitude distribution when working with this difference channel, without correcting the shape of the amplitude distribution when working along the total and difference channel in the plane of the HRV lines).

Thus, the technical and economic advantages of the proposed solution, compared with the prototype, are to improve the electrical characteristics, namely to reduce the level of the side lobes of the differential DN in the plane of the main distributor.

The possibilities of practical implementation of the proposed technical solution are not in doubt. Experimental samples of the product implementing this type of device were manufactured and tested. Tests have confirmed the possibility of achieving the claimed technical effect. In the proposed phased antenna array, the level of the side lobes of the differential radiation pattern is reduced by 10 ÷ 15 dB in the plane of the main distributor.

Claims (1)

Phased antenna array consisting of 4K emitter panels, 4K phase shifter blocks, 4K waveguide distribution system lines and a main distributor as part of a microwave adder having four outputs and one total and two difference inputs, four directional coupler lines, each of which has 2K outputs , and 4K coordinated loads, with N inputs of each of the K panels of emitters connected to the corresponding N outputs of each of the K block of phase shifters, N inputs of each of which are connected to the corresponding N outputs of each of the K lines of the waveguide distribution system, the input of each of the K lines of the waveguide distribution system is connected to the corresponding K outputs of the lines of the directional couplers of the main distributor, the input of each of the four lines of the directional couplers is connected to the corresponding output of the microwave adder, and the first difference input is formed a difference radiation pattern in the orientation plane of the main distributor, and a difference diagram is formed at the second difference input the presence of radiation in the plane of the lines of the waveguide distribution system, while the microwave energy is branched into one of the outputs of the lines of directional couplers, and the microwave energy is not supplied to the other outputs of the lines of directional couplers, characterized in that four additional lines of directional couplers are introduced into the main distributor, having 2K outputs in each, 4K + 2 phasing sections, an adder and a directional coupler, and the difference input of the microwave adder, along which a difference diagram was formed, e.g. in the plane of the main distributor, connected to the output of the phasing section, the input of which is connected to one of the outputs of the directional coupler, the second output of which is connected to the input of the phasing section, the output of which is connected to the input of the summing device, and the input of the directional coupler becomes the second difference input, through which a differential radiation pattern of the phased antenna array is formed in the orientation plane of the main distributor, with each of the four outputs of the summing device the two are connected to the corresponding inputs of the additional lines of directional couplers, and the outputs of each of the additional lines of directional couplers that do not receive the microwave signal are connected to K matched loads, and the other K outputs of the additional lines of directional couplers are connected to K phasing sections, the outputs of which , in turn, connected to the corresponding To the outputs of the lines of directional couplers of the main distributor.

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