CS232237B1 - Engagement of the girder circuit angular information of the landing radar - Google Patents

Abstract

The connection of the angular information keying circuit falls into the field of radar display and solves the problem of setting the size β of the height and side image shift on the landing radar indicator screen. The essence of the invention lies in the keying of the angular information transmission channel from the height and side antennas into two channels, namely the height channel and the side channel, in which the desired setting is performed, and in the subsequent re-merging into one channel. The solution can be used in the case of single-channel angular information transmission and higher demands on the accuracy and stability of the setting and reliability of the function.

Description

(54) Connecting the radar angular information keying circuit

Angle Keying Circuit Connection This information falls within the field of radar imaging and resolves the problem of adjusting the β shift amount of the altitude image and the side image on the landing radar indicator screen. SUMMARY OF THE INVENTION The subject matter of the invention is to decode the channel of transmitting angular information from the height and side antennas to two channels, the height channel and the side channel in which the desired adjustment is made, and then to re-merge into one channel. The solution can be used in case of single-channel transmission of angular information and higher demands on accuracy and stability of setting and reliability of function.

232 237

The invention relates to a key circuit that processes the angular information of a landing radar.

The landing radar indicators usually display a giant of the height sector in the upper half of the screen and an image of the side sector in the lower half of the screen, with the position and size of both images independently adjusted continuously. The angular information comes after processing from the antennas to the display as an analog signal in the form of a combined signal from the side antenna and the signal from the height antenna. This combined angular information needs to be divided into a side channel and a height channel at which signals from both antennas can be processed separately and merged again after processing.

In so far used landing radars, the keying of the angular information on the side channel and the height channel is solved by means of a mechanical relay and the following amplifiers. The relay turns on the side signal to one amplifier and the height signal to the other amplifier. In the amplifiers, the necessary processing of both signals is performed separately, and in the next amplifier, the two processed signals are combined again into one channel. The resulting signal is then fed to the final stage of image decomposition.

The greatest drawback of this solution is the use of looping amplifiers with a mechanical switching element. Connection of the angular information keying circuit with a keying amplifier with a mechanical switching element is replaced by an electronic keying circuit made by semiconductor elements.

The principle of engaging the angular information of the landing radar angular information, where the angular information source output is connected to the input of the angular information amplifier, is based on the finding that for replacing circuits with mechanical switching elements, circuits with semiconductor switching elements without two polarity inverse outputs of the angular information amplifier are connected to the keying inputs of the keying circuit consisting of two semiconductor keys, the height keys and the side keys, whose common terminals are connected to ground and to the drive inputs are connected the output of the gate amplifier to which the output of the gate source side height is connected, the looping circuit further comprising two amplifiers, a height amplifier, to which the output of the height key is connected, the output of which is connected to the first input of the output a side amplifier and amplifier having an input of the side key output and an output of which is connected to a second input of an output amplifier provided with a vertical scan signal output.

A variation of the invention is further that the height and side handles are formed by a pair of complementary transistors with grounded collectors and resistors in the emitter branches.

The advantages of engaging the angular information loop in accordance with the invention reside in the replacement of circuits with mechanical switching elements by circuits with semiconductor switching elements as well as in the replacement of transistor amplifiers with operational amplifiers, which ensures better stability of the entire processing of the angle information. A further advantage is that the amplification and displacement of the angular information is not carried out directly in the loop amplifier but in the preceding wound-height amplifier, thus preventing the key operation from being influenced by operating the adjusting elements. In addition, PNP and NPN transistors are used as keys, resulting in the use of one drive voltage polarity for both keys.

The wiring circuit of the angular information of the landing radar of the present invention will be described below in an exemplary embodiment with the aid of the accompanying drawings, wherein FIG. 1 shows a block diagram of the wiring circuit of the angular information, FIG. 2 shows an example of a particular wiring.

According to Fig. 1, which shows a block diagram of the angular information clique circuit, the output of the angular information source UI is connected to the angular information amplifier 1, the first output of which is connected to the cage input of the height cage 24 of the cage amplifier. to the input of 232 237 of the height amplifier 23 of the keying amplifier 6, the output of which is coupled to the first input of the output amplifier 3 ', the output of which is the vertical decay signal VRS. The second output of the angular information amplifier 1 is connected to the key input of the key 22 of the keying amplifier 2. The key output of the key 22 is connected to the amplifier input 24 of the keying amplifier 6 whose output is connected to the second input of the output amplifier 2 '. VRS decay signal. At the gate amplifier input, the BSV side-height source output is connected and its output is coupled to the excitation input of the height key 21 _# wherein the common height key terminal 21 is a ground. The output of the gate amplifier 6 is further connected to the key input side of the side 22, wherein the common key terminal of the side 22 is grounded.

Referring to FIG. 2, which illustrates an example of a particular engagement of the angular information keying circuit, the output of the angular information source (J1 is connected to the amplifier input of the positive angle information 11 of the angular information amplifier 6 and its output is connected to the

The height key 21 consists of a resistor R1 and a first transistor T1, with one end connected to the positive angle information amplifier 11 and the other end to the emitter of transistor T1. The collector of transistor T1 is grounded. The output of the height key 21 _z formed by the emitter of transistor T1 is connected to the input of the height amplifier 23 of the keying amplifier 6, the output of which is connected to the first input of the output amplifier 2 ' The positive angle information amplifier output 11 is further coupled to the negative angle information amplifier input 12 of the angular information amplifier 2 *, the negative angle information amplifier output 12 is connected to the key input of the keying amplifier key side 22. The key of the side 22 consists of a second resistor R2 and a second transistor T2, wherein the other resistor R2 is connected at one end to the output of the negative angular information amplifier 12 and at the other end to the emitter of the second transistor T2. The collector of this transistor T2 is grounded. The side 22 output formed by the emitter of the second transistor T2 is connected to the input amplifier side 24 of the keying amplifier 6, whose output is connected to the second input of the output amplifier 2 · ^N ® input of the gate amplifier 4. at the exciter the height key 21 formed by the base of the first

232 237 transistor T1. The output of the gateway amplifier 4 is further coupled to the driver input side key 22 formed by the base of the second transistor T2.

The function of the angular information clutter circuitry is to divide the input angular information UI in the amplifier of the angular information 7 ^into a height channel and a side channel in such a way that it moves above the zero level in the positive angle information amplifier 11 and in the negative angle information amplifier 12 below zero. In the positive angular information amplifier 11, the amplitude and displacement of the positive angular information is performed, and in the negative angular information amplifier 12, the amplitude and displacement of the negative angular information is performed. The angular information signals thus processed arrive at the cage inputs of the height key 21 and the side key 22. At the input of the gate amplifier 6 comes a gate-height BSV signal, which is adapted to the appropriate shape in the amplifier 4. From the gate amplifier output 4, the key inputs of the height key 21 and the side key 22 are controlled in such a way that when the height key 21 is closed, the side key 22 is simultaneously opened so that the height amplifier 23 is shorted to ground. party information. When the height key 21 is open, the handle 22 is simultaneously closed, so that the side amplifier input 24 is shorted to ground and the height amplifier 23 is processed to process the angular height information. The angular height information comes from the output of the height amplifier 23 to the first input of the output amplifier 3, the angular information of the side comes from the output of the amplifier side 24, not the second input of the output amplifier 3. In the output amplifier 3. The output amplifier 3 outputs a vertical degradation signal.

The invention thus enables the advantages described above at an unprecedented production cost.

Claims (2)

SUBJECT OF THE INVENTION 232 237 1. Connection of the angular information loop of the landing radar information (where the output of the angular information source is connected to the input of the angular information amplifier), characterized _in that two polarity inverse outputs of the angular information amplifier (1) are connected to the consisting of two semiconductor keys (height keys / 21) and side keys 1221, the common terminals of which are connected to ground and to the drive inputs of which the gate amplifier output (4) is connected, the input of which is the gate-side source output (BSV), wherein the clique circuit (2) further comprises two amplifiers, a height amplifier 1231, the input of which is connected to the output of the height key (21) and whose output is connected to the first input of the output amplifier (3) and the side amplifier (24). / _z to whose input the side key output (22) is connected and whose output is connected to the second input output amplifier (3) provided with a vertical scatter signal output (VRS). Wiring according to claim 1, characterized in that the height and sides (21, 22) are formed by a pair of complementary transistors with grounded collectors and resistors (R1 _of R2) in the emitter branches.