DE1466025B2 - CIRCUIT FOR A MONOPULSE ANTENNA - Google Patents

Description

3 4

of an active system at the same time the problem of forth- a) When the shaft is in the direction of the axis of the

position of the phase synchronism in the transmission is received, is sent to the waveguide

resolves peacefully. fertilize only the waveform H ₁₀ excited. At the entrance

According to the invention, this is achieved in that the magic T-link 16 divides the wave in the

of the two branches 5 F i g that do not serve as outputs. 3 way shown. She steps independently over the

of the magical T-link each with two branches Σ one above the other, because there the two waves at the entrance

lying halves of the two waveguides is coupled, the magic T-link 16 are in phase, none occurs

so that the energy given off by the magic T-section is distributed via the branch Δ G of the magic T-section

bene difference signal from the amplitude difference from and via the probe 19.

Results in waveforms H ₁₀ and H ₂₀ in the waveguides; io - b) If the wave comes from a direction which and that with the waveguides between their mouths the elevation angle Θ along with the system axis and the magic T-member a probe coincides, while the side angle is from the one whose output signal the amplitude system axis is also different (so that this direction is in the difference of the signals with the waveform H ₁₀ in the plane of the transverse wall 8), the two waveguides result. 15 waveguides 14 and 15 excited in the same way since

In the circuit according to the invention, they are symmetrical to one another with respect to the plane

the difference signal emitted to the magic T-element, in which the direction of the wave is contained. Included

Azimuth signal. This measure does not require the two waveforms _{H 10} and H to arise at the same time

additional effort because the interchanging with the H ₂₀ , and their training is in the plane of the two

Elevation angle signal simply by turning 20 mouths the same. The components of the shaft

90 ° can be achieved; but it results in the essential iorm.H ₁₀ correspond to the representation of FIG. 4a.

lent advantage that the elevation angle signal corresponds to very The components of the waveform H ₂₀

simple way with the help of a simple probe from the illustration of FIG. 4 b. The waveform H ₂₀ is'

can be taken. This results in an essential, as the mouths

lent simplification of the high frequency circuits. 25 containing plane not parallel to the wave plane

The invention is hereinafter based on the is, so that necessarily areas of the mouth drawing described by way of example. This shows planes in which phase lead or

F i g. 1 is a perspective view of an execution phase lag. At the entrance of the magical

example of the invention. . T-link, you get the extension in the two legs

F i g. 2, 3, 4a, 4b and 5a representations of the illustration of FIG. 4c. Combine the two waves

different waveforms in arranging themselves according to amplitude and phase to the training

F i g. 1, generation of Fig. 4d. The two waves are opposed

F i g. 5 b a vertical sectional view of the arrangement in phase. They call a reference signal on branch Σ and

from F i g. 1 and a difference signal on branch Δ G (azimuth channel)

F i g. 6 diagrams to explain the effects,

way. c) If the wave comes from a direction that

F i g. 1 shows a waveguide arrangement 1, on the side angle of which, together with the system axis,

a metallic transverse wall 8 falls parallel to one end, while the elevation angle of the system

the broad sides is arranged, which differs from the axis of the waveguide, (i.e. from a direction which

part of its length in two rectangular waveguides 14 40 in the common plane of symmetry of the two hollow

and 15 subdivided. This partition is located in a conductor 14 and 15), excites the incoming wave

thicker section 9 continues, which has a gradual exclusively two waves of waveform H ₁₀ , which

'Transition 10 connected to the thin section have different amplitudes. This high frequency

is. The mouths of the two waveguides 14 and 15 quenzstatus corresponds to the linear assembly

are each with radiation arrangements, e.g. 45 of two elementary states:
Horn antennas coupled. The thicker section 9

ends at point 1 opposite the mouths. The fields in the two waveguides are the same

in a flat wall 20. In the middle of this wall and in phase and they have a first ampli

a probe 19 (Fig. 5 b) is attached to which a tude.

through the thicker section 9 to the outside. 2. The fields in the two waveguides are the same

of the coaxial cable 18 is connected. and out of phase, and they have a second

The waveguide arrangement 1 is connected via amplitude,
a stepped transition a magical T-link

16, from which two branches to the waveguide arrangement 1. State 2 is shown in FIG. 5 a shown where to get the

bent over and seen through a partition 17 from the end of the arrangement facing towards the mouth,

others are separated. If the arrangement does not only apply to those in FIG. Rotation of the field vectors shown in FIG. 5 b

the reception but, in the case of a radar, also perpendicular to the walls allows the excitation of the

is used for transmitting, the transmitter is connected to the with probe 19. The output signal is thus obtained at the

Σ designated branch of the magic T-member 16 connected to it coaxial line 18, which the

closed. The partition 17 and the symmetry of the 60 channel Δ S (elevation angle channel) represents.

The system then causes the wave from the transmitter. State 1 results in an output signal via the

to the radiation arrangements in the waveformi / ₁₀ sum channel Σ.

spreads, which in F i g. 2 is shown: The fields are d) General case: One from any direction

at the mouth of the waveguides 14 and 15 in phase. incoming wave excited in the two waveguides 14

When receiving a high-frequency pulse through 65 and 15 waves of the form H ₁₀ and the radiation arrangements at the same time, it likes a reflected form H ₂₀ . The high-frequency state corresponds to the transmission pulse or from a foreign radiation linear combination of two states, of

source, the following always happens: those who have an elevation angle offset of the signal

source and the other corresponds to a lateral angle offset of the signal source, i.e. the four schematically in F i g. 6, the signs + and - 'indicating the direction of the field in the left-hand section and denote the waveguide 13 and 14 in the right section.

States I and II correspond to waveform H ₁₀ , and states III and IV correspond to waveform H ₂₀ .

The state I is in the sum channel, the state II in the elevation angle channel and the state III in the lateral angle channel receive.

State IV corresponds to the transmission of energy via the antenna.

1 sheet of drawings

Claims (2)

1 2 monopulse antenna, it is irrelevant whether the high-frequency pulse received comes from a third-party signal source or the reflected echo pulse from a transmission transmitted via the same antenna 1. Circuit for a monopulse antenna with three 5 impulses is. In the first case forms the monopulse antenna Outputs, namely a first differential output part of a passive location system, choosing them (Elevation angle output), a second difference - in the second case to an active system (radar system) output (lateral angle output) and a reference belongs. In the second case, the monopulse antenna should be na output (Sum output), be designed with two rectangular hollow doors so that they can send out the ladders that have a broad side in common and enable io transmission impulses. the dimensions of which are such that only the circuit of the monopulse antenna is contained therein Waveforms H ₁₀ and H _{% 0} to the exclusion of all a "reference output channel", an "elevation angle remaining waveforms can propagate, and with an output channel" and a "azimuth output of a magic T-member, of which a branch channel", and im. In the case of an active system, i.e. one the reference output and a further branch a radar system, an input channel, which in most of the differential outputs form, thereby coinciding with the reference output channel, ke η nz verich η et that of the two not as where these different channels at the antenna outputs serving ■ branches of the magic are brought together by more or less complicated circuits to-T-element (16) each with two superimposed together. Halves of the two waveguides (14,15) is coupled, 20 Outside this circuit are the reference output so that the difference signal given by the magic T-element (16) as well as the elevation angle output and the azimuth angle output from the amplitude difference output with the comparison arrangements for the reference of the waveforms H ₁₀ and / Z ₂₀ in the train signals and the difference signals connected. In the waveguides results, and that with the waveguides (14, in the case of an active system, the input channel is connected to the 15) between their mouths and the magic transmitter. If the input channel is coupled to the T-element (16) of a probe (19) whose reference channel coincides, a transmit-receive-output signal is derived from the amplitude difference and the receiver crossover between this reference from the signals with the waveform H ₁₀ in the two corridors and on the other hand between the transmitter and the waveguides. . Comparison arrangements inserted. 2. Circuit according to claim 1, characterized in that the mono is currently used, that the two waveguides (13, 15) pulse systems, the antenna divides a thick section into four sections under the common wall (8, 9), which are paired in two different ways (9), which merges through a gradual over- to the formation of the two difference signals are gripped with one at the waveguide mouths. The reference output in this case connected thin section (8), and 35 is called "sum output", is of the four that feeds the probe (19) in the middle of the hollow antenna sections, which in the case of a Conductor mouths facing away from the end of the thick active system for the transmission of the pulses in Section (9) has an opening end, are summarized in the same way. The entrance one Coaxial line (18) is connected. channel coincides with the total output. at 40 the systems that work with amplitude comparison • · ■ consist of the radiation diagrams of the four antennae Sections of diverging bundles from the go out the same point. For those with phase comparison working systems they consist of four parallel 45 bundles emanating from different points. The invention relates to a circuit for In both cases it will be quite complicated a monopulse antenna with three outputs, namely high-frequency circuits,
a first differential output (elevation angle output), if it is an active system, a second differential output (lateral angle output) also has rather difficult problems with the and a reference output (sum output), with two production of the phase synchronization of the bundles transmitted by the rectangular waveguides that have a broad side of mutually different antenna sections and their dimensions are such that they are del for the purpose of combining them into a single only the waveforms H ₁₀ and H ₂₀ excluding the transmission beam. of all other Welleri forms, and in a known circuit of the with a magical T-link, one of which is a branch of the 55 type given (U.S. Patent 2,956,275) Reference output and a further branch one of the differential T-elements is designed so that it is connected to the form reference outputs. Branch forming the difference output the elevation angle Under a monopulse antenna is an arrangement that emits signal. This has the consequence that to decrease to understand that when receiving a high frequency of the azimuth signal a complicated waveguide pulse at an elevation angle output and at a 60 circuit element consisting of a coupler Side angle output emits two differential signals, with two symmetrical branches, which the which, depending on the signal level, span the two rectangular waveguides in a fork-shaped manner the direction of the signal source from the antenna axis and on its outer broad sides via slots Identify elevation angles or side angles, are coupled. and which also has a signal at a reference output emits that by comparison with the differentiation of the type specified at the beginning, which the Gerenzzignalen the extraction of the difference signals, independent of the signal level, with essentially simple elutes Storage results. Allowed and in the case for the mode of operation of the ren high-frequency circuits