The Development of Airborne Weather Radar Sy... / ID: 978334

Author: davidosi (21)

Evaluation:

Published: 03.02.2021.

Language: English

Level: College/University

Literature: 8 units

References: Not used

Time period viewed: 2016 - 2020 years

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Table of contents

Nr.	Chapter	Page.
2.	Zondējoša signāla parametru izvēle	22
2.1.	RADARA raidītāja viļņa garuma izvēle	22
2.2	Zondējoša signāla sekošanas perioda izvēle	26
2.3.	Zondējoša signāla ilguma izvēle	26
3.	RADARa antenas parametru aprēķins	27
3.1.	Antenas versuma diagammas izvēle	27
3.2.	Antenas virziena diagammas izvēle Zemes virsmas apskatei	27
3.3.	Antenas izmēri	28
3.4.	Antenas formas izvēle	28
3.5.	Antenas VD platums pie pusjaudas līmeņa (-3 DB) un sanlapju līmenis	29
3.6.	Antenas efektīvais laukums	30
3.9.	Antenas kosekansa VD aprēķini	32
4.	Gaisa telpas novērošanas parametru aprēķināšana	33
4.1.	Novērošanas metodes izvēle	33
4.2.	Pamatattiecības secīgai novērošanai	34
4.3.	Skenēšanas tipa izvēle	35
5.	Radio-uztverēja parametru aprēķināšana	37
5.1.	Izšķirtspējas koeficienta aprēķināšana	37
5.1.1.	Impulsa signāla noteikšanas parametrs	37
5.1.2.	Zudumu aprēķins pie signāla apstrādes	39
5.1.3.	Uzkrāto impulsu skaits impulsu pakā aprēķins	41
5.2	Radiouztvērēja trokšņa jaudas aprēķins	41
6.	RADARa izsķirspējas aprēķins	44
6.1.	Potenciālas izšķirtpējas aprēķins	44
6.2.	Indikatora potenciālās izšķirtspējas novērtējums	45
6.3.	Reālās izšķirtspējas aprēķins	46
7.	Mērķu koordinātu mērījumu precizitātes aprēķins	47
8.	Objekta izkliedes efektīvas platības aprēķins	49
9.	Raidītāja jaudas un RADARA darbības tāluma aprēķins	53
10.	Secinājumi	54

Extract

Fig.1.18.Structural block diagram of the RADAR indicator.
Synchronizer pulse provides simultaneous launch of the RADAR transmitter and sawtooth generator pulse range sweep which are applied to the deflection system (EBF). When the antenna rotation is switched off the electron beam draws a line on the screen radially from the center to the edge of the screen. The angular position of this line is determined by the position of the deflection coil and conforms to the antenna position. The angular position of this line is determined by the position of the deflection coil and conforms to the antenna position. When the antenna rotation is switched on the synchronous rotation of the antenna and CRT deflection system begin their operation. This forms radially circular sweep on the screen.
In addition, rectangular pulses for the illumination of direct run range sweep are fed to the control electrode of the CRT. Reverse sweep is terminated by applying a bias voltage to the CRT control electrode.
The video signal voltage from the receiver’s output goes through a video mixer to the CRT cathode and controls the intensity of the electron beam. When the ignition threshold is exceeded under the influence of this ray luminophore glowing on the screen begins. The brightness depends on the intensity of the electron beam. As a result, the screen displays the brightness marks from the targets, local terrain features and rain formations, etc.
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