Извините, этот техт доступен только в “Американский Английский”. For the sake of viewer convenience, the content is shown below in the alternative language. You may click the link to switch the active language.
THE DEPENDENCE OF THE ELECTRODYNAMIC CHARACTERISTICS OF THE MICROSTRIP PHASED ARRAY SUBARRAY ON THE METHOD OF POWER SUPPLY
Evgeny V. Ukhanov, Joint-stock Company «Scientific research institute» Kulon»,
Moscow, Russia, searif@ya.ru
Roman V. Terekhin, Joint-stock Company «Scientific research institute» Kulon»,
Moscow, Russia, terekhin.r@gmail.com
Sofia R. Kosichkina, Joint-stock Company «Scientific research institute» Kulon»,
Moscow, Russia, sofkos@yandex.ru
Konstantin V. Strygin, Joint-stock Company «Scientific research institute» Kulon»,
Moscow, Russia, kstrygin@gmail.com
Ekaterina V. Syukieva, Joint-stock Company «Scientific research institute» Kulon»,
Moscow, Russia, eksyukieva@gmail.com
Abstract
Microwave technology in microstrip design is widely used in various antenna systems. The active use of phased array (PA) of this type makes developers around the world search for various options of its construction. To improve individual characteristics, in particular, expand the scanning angle, as well as optimize the configuration of the excitation of the PA, they use subarrays that combine a given number of elements of the entire array. In this paper, we considered various options for constructing microstrip PA subarrays made on a homogeneous substrate from a high-frequency laminate GIL_GML 1000, in particular, various methods for their excitation. Using modern, accurate 3D electrodynamic modeling environment and HF device analysis, we studied changes in the electrodynamic characteristics of the simulation model of a multi-element microstrip PA subarray, depending on how the excitation is organized. This article discusses three simulation models of subarrays for microstrip PA with various options for their excitation. All subarrays have a radiation pattern of a special shape. After calculating the main characteristics, the issue of the most preferred organization of subarray power supply for the developed PA was solved. It is shown that in practice, the study of parameters and decision-making on the design of complex microwave devices, possibly without expensive field modeling.
Keywords: phased array, subarray, rectangular emitter, emissivity, resonant frequency, bandwidth.
References
- Alexander Vasilchenko, Yves Scholz, Walter De Raad, Guy Vandenbosch, (2008). Qualitative assessment of computational methods of electrodynamics on the example of software products for high-frequency modeling of microstrip antennas. Technologies in the electronic industry. No. 3.
- V.S. Bocharov, A.G. Generalov, E.V. Gadzhiev (2014). The choice of dielectric substrate for a microstrip antenna when constructing a miniature antenna, ed. Radio Engineering, Antennas Magazine, Issue No. 12.
- O.I. Yastrebtsova (2014). Advantages of using materials as substrates for microstrip printed antennas, Materials of the international scientific and technical conference, INTERMATIC-2014, part 5.
- Design of phased array antennas, ed. D.I. Voskresensky. Moscow: Radio Engineering, 2003.
- B.A. Panchenko, E.I. Nefedov (1986). Microstrip antennas. Moscow: Radio and Communications.
Information about authors:
Evgeny V. Ukhanov, department head, Joint-stock Company «Scientific research institute» Kulon», Moscow, Russia
Roman V. Terekhin, senior engineer, Joint-stock Company «Scientific research institute» Kulon», Moscow, Russia
Sofia R. Kosichkina, engineer, Joint-stock Company «Scientific research institute» Kulon», Moscow, Russia
Konstantin V. Strygin, engineer, Joint-stock Company «Scientific research institute» Kulon», Moscow, Russia
Ekaterina V. Syukieva, engineer, Joint-stock Company «Scientific research institute» Kulon», engineer, Moscow, Russia