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Registration Number

0217U000030, 0115U005651 , R & D reports

Title

Development receiver-transmitter module part of radar systems of active protection for light-armored vehicles and other armored objects

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Head

Parfonov Viktor Viktorovych,

Registration Date

11-01-2017

Organization

State organization basic center of the critical technology "Microthec"

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of the STR Report 3 of the report, 57 illustrations, 6 tables, 9 applications. The aim of the scientific and technical work (STR) is to develop a working design documentation transceiver module millimeter waves on the microstrip transmission lines (hereinafter - the product) - an integral part of the small-sized radar systems active protection light armored vehicles and other armored targets. Research methods and instruments. Methods for determination of basic research related parameters products such as angle radiation pattern of the antenna device disclosure (measured using a radiation antenna and finding the maximum sensitivity angle from the perpendicular to the central axis of the antenna device); the maximum detection zone targets (measured by means of modulating, reflective devices, and measuring the energy potential Products) EMC products with other products and other equipment (controlled by the power of the electromagnetic radiation and reception of various signals in the product) Power consumption Products (voltage and current consumption goods); required level of the Doppler frequency signal (the required level necessary that it can be processed using analog or digital equipment and issue certain processing result). The equipment, which can be used to carry out such a study, as follows: generator Rohde & Schwarz HMF2550 with frequency generation from 0.1 Hz to 50 MHz; oscilloscope Rohde & Schwarz RTE1054, with a bandwidth up to 500 MHz; Spectrum Analyzer Rohde & Schwarz FSC6, with a bandwidth of 9 kHz to 6 GHz; S4-27 spectrum analyzer; high-frequency signal generators G4-108, G4-156; millivoltmeter V3-38; power meter RSPs M3-22A signals YA2M-66; attenuator polarizing hvilovidny D3-36A; frequency electronic computer system CH3-54; microvoltmeter selective V6-10 power supply AX-3005DS, DC Powersupply PS305D; Panoramic complex measuring VSWR and attenuation YA2R-67, SKR4-58; testing equipment number 1 - set-up and testing a transceiver unit AEPA.464413.001, № 2 - Setup and Testing transceiver module AABZH.21.08.00.000-02; The results and their novelty. The product was processed by mikrohvilovidnogo performance management TSP signal frequency microstrip implementation. Use import microelectronics was introduced, which is more stable in the parameters and operating conditions. Domestic microelectronics or not produced by the domestic industry, but also the goods, does not have the desired properties. All of the above products has reduced dimensions and weight. Interaction with other works. MRP, which is developed together with the antenna device and the signal processing unit is a pulse radar sensor short-range systems for active protection of armored vehicles. These sensors have been applied to military vehicles, special purpose. The main directions of the possible use of the sensor is a tank protection systems, armored vehicles and other military equipment of offensive and defensive nature. Active protection systems are used to protect checkpoints and shelters from anti-tank shells, provided their partial booking. The product can be used as a standalone sensor undermining accurate munitions, missiles and mines with a given radius of detection and high precision destroy ground and air targets. Recommendations for use. Currently, the leading producing countries armor is actively working to establish and improve systems and active protection systems (Russian - "Arena", "ArenaE", Israel - "Trophy", "IronFist"; US - CICS, FCLAS; France - " SPATEM "; Germany - Soft-KillHard-Kil, China, etc.).. The most developed, underwent field tests and are recommended for implementation in the army, the active protection system: Russian complex KAZ "Arena-E", the Israeli system of active defense "Trophy" ( "Aspro-A-L"), Ukrainian active protection system "Barrier." Today, Israeli tanks are equipped with MerkavaMk.IV KAZ "Trophy" KAZ "Arena-E", held processing and testing cycle for the application of tanks T-80, T-72 and T-90 combat vehicle BMP-3 infantry. Installing systems can improve the survivability of combat vehicles, crew survival and infantry squad on the battlefield more than doubled, to increase confidence in the success of the personnel carrying out combat missions. The latest development transceiver module can be used as part of KAZ "Barrier" or its modifications - KAZ "Hornet", after the state tests as part of KAZ mounted on the respective armored vehicles. The significance of the work and conclusions. Due to the fact that on the territory of the Ukrainian state are fighting, which killed our soldiers, it is necessary to create advanced, sophisticated protection system that will save lives and complicated technique. in turn will save considerable funds that have been spent on personnel training staff to manage this technique, as well as save money for which created this technique and repaired. In the first stage of the STR defined features create components of a transceiver module for radar systems, active protection systems. The structural and electrical basic circuit components of the products. The requirements for its various parameters. The design documentation of composite parts for the manufacture of products: high-frequency pulse generator AABZH.21.05.00.000; AABZH.21.03.00.000 microwave frequency synthesizer; AABZH.21.06.00.000 module secondary power supply; RSPs AEPA.464334.001 receiver module; TSP transmitter module AEPA.464215.001; radar receiver AABZH.21.04.00.000; software is a high-frequency pulse generator AABZH.21.05.00.000; chotirohruporny antenna device (an integral part of the radar receiver) AABZH.21.09.00.000. Given that the detection zone is formed by the parameters of the transceiver module and the radiation pattern of the antenna device, the first stage of the STR manufactured and tested a sample of two antenna devices. The first sample is dvuhruporny antenna device (an integral part of the radar receiver) AABZH.21.08.00.000 who works on radiation and reception of reflected signals. A second sample chotirohruporny antenna arrangement with spaced receiving and transmitting antennas to increase the isolation between the transmitting and receiving paths. Manufactured housing parts individual assembly parts products. Testing of the major components of a product? RF pulse shaper, microwave frequency synthesizer, the module secondary power supplies, microwave units receiving and transmitting modules, the radar receiver of body parts, the module secondary power supplies, RF pulse shaper, and takozhdvohrupornogo chotirohrupornogo antenna devices, as components of the radar receiver. In the second stage of scientific and technical work "Development transceiver module part of the radar systems of active defense complexes of light armored vehicles and other armored objects" solves the problem of manufacturing and testing of the major components of a transceiver module (hereinafter - products) compiling, debugging, and testing prototypes of products under normal climatic conditions; correction of design documentation for the production of prototype products. In the third stage have been modified model samples with a view of research. Preliminary tests of prototype products. It was adjusted working design documentation on the results of previous tests. Prototypes products can be used in further development of active protection systems. Upon completion of work on the development of a transceiver products, it is necessary to test the polygon in media, followed by its introduction into the active protection system. The sample driver, SINTEZATOR.PRIYMALNO-transmitter module, receiver, RADILOKATSIYNA SYSTEM active protection system, antenna devices5481

Product Description

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Афініс О.Б.
Боксер О.І.
Бугай В.М.
Зуйко В.М.
Карась О.В.
Корбач В.Г.
Кравченко В.М.
Парфьонов В.В.
Распопов В.П.
Тузенко А.П.
Швидкий С.О.

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2020-04-02