SU741652A1 - Radar installation - Google Patents

Abstract

RADAR STATION, containing a high-frequency antenna-feeder path, a transmitter with a magnetron generator, a receiver with an electronic parametric switch amplifier Receive-transmit and a terminal device connected to the output of the receiver, which, in order to increase the potential of the radar station and simplify tuning, the antenna, magnetron generator transmitter and electronic parametric switch amplifier Receive-transmit are connected in series, and the magnetron generator has two outputs Ultra-high-frequency energy energy fed by the same communication elements.

Description

The invention relates to radar and can be used in temperature-wind radio sounding systems of the atmosphere.

Known radar station containing a high-frequency antenna feed path, a transmitter with a magnetron generator, a receiver with an electronic parametric amplifier switch. Reception - transmission and terminal device connected to the output of the receiver.

However, the known station has a relatively low potential and is difficult to configure.

The purpose of the invention is to increase the potential of the radar station and simplify the settings.

To do this, in a well-known radar station, an antenna, a magnetron transmitter generator and an electronic parametric amplifier-switch Reception - transmission are connected in series, and a magnetitron generator has two microwave outputs that are powered by the same communication elements.

The drawing shows a structural electrical diagram of the proposed station.

The radar station contains a high-frequency antenna-feeder path, consisting of antenna 1, segments 2 and 3 of the feeder path, transmitter 4 with magnetron generator 5, receiver 6 with 3πβκτροΗΗί. · Μ parametric amplifier-switch 7 Reception - transmission and terminal device 8. In the drawing also shown is a block 9 included in the transmitter 4, combining the other elements of the transmitter 4, and a mixer 10, the local oscillators 11 and a block 12, combining the other elements of the receiver 6, included in the receiver 6, and communication elements 13 and 14, which serve as super-high outputs, are indicated frequency energy of the magnetron generator 5.

. Radar works as follows.

In the reception mode of operation, the signal from the output of the antenna 1 through segment 2 is fed to element 13 of the magnetron generator 5, excites its resonator system, and through loop 14 and half-wave segment 3 is fed to the input of the electronic and parametric amplifier-switch 7. At low microwave levels power between the input and output of the electronic parametric amplifier-switch 7 there is a connection through the electronic stream.

In this case, the input resistance of the electronic parametric amplifier of the switch 7 is active and is transformed by a half-wave segment 3 and on the element 14 in itself. Therefore, in the Reception mode, the element 14 of the magnetron generator 5 is loaded with active resistance, which ensures a consistent mode in this section, characterized by a low SWR and low input power loss due to re-reflection. Thus, in the Reception mode, the antenna 1, the magnetron generator 5, and the Electronic parametric 20 amplifier-switch 7 are matched. Due to this, the signal received by antenna 1 is fed to the input of an electronic parametric amplifier - switch 7 through a cold magnetron generator .5 s. minimal loss of mi.

In operation, transmission ₃₀ in Lakes Nathorn system magnetron generator 5 generates a strong pulse of microwave energy supplied to the elements 13 and 14. After member 13 and stage 2 generated microwave energy is supplied to the antenna 1, and through the element 14 and the segment 35 3 - input electronic parametric amplifier-switch 7. When the input power level at the input of the electronic parametric amplifier-switch 7 reaches a certain certain value, the electron beam in it opens, and the signal at its output disappears. When the electron beam is opened, the input resistance of the electronic parametric amplifier-switch 7 becomes equivalent to a gap, and element 14 is loaded with an infinitely large resistance.

The SWR in this section increases sharply, 50 and all the power supplied to element 14 is reflected from it to element 13, through segment 2 it enters antenna 1 and is radiated into space. The proposed radar station provides an increase in potential by 1.5-1.9 dB and provides a significant reduction in tuning time of the antenna-feeder path.

Claims (1)

A RADAR STATION, containing a high-frequency antenna-feeder path, a transmitter with a magnetron generator, a receiver with an electronic parametric amplifier switch-receiver and transmitter and a terminal device connected to the output of the receiver, characterized in that, in order to increase the potential of the radar station and simplify tuning, the antenna, The magnetron transmitter generator and the electronic parametric amplifier-switch The reception and transmission are connected in series, and the magnetron generator has two leads rx high-frequency energy, powered by the same communication elements. 1 '