Numerical analysis of level … - 2008 - Articles - Publications

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Antenna array

Complex directional antenna consists of separate near-omnidirectional antennas (radiating elements) positioned in the space and driven by high-frequency …

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Vladimir Vasilyevich Koryshev, Leading Researcher of Research Institute (Kaluga, Russia), Candidate of Science in technics.

Viсtor Ivanovich Chulkov, Leading Researcher of Research Institute (Kaluga, Russia).

He is the author and head of the project “EDS–Soft” since 2002.

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Numerical analysis of level of uncoupling between transmitting and receiving broadband arrays with allowance for beam formers

Published: 03/25/2008
© V. V. Koryshev, V. I. Chulkov, 1996. All rights reserved.
© EDS–Soft, 2008. All rights reserved.

In case of different destination antenna saturation modern radio systems the array antenna (AA) bypassing, located in bounded capacity, in angle region near ±60⁰ of principal plane and frequency band with contact ratio no less than 2, increase means much. At that essential bypassing magnitude between receiving AA outcome and transmitting AA input can reach -100…-130 dB.

In case of AA coupling value analyzing, usually the following construction is taken [1] (fig.1): L active transmitters of two–dimensional array are connected to first outcome of emitting subarray beam former (BF₁), М emitters are connected to certain secondary radiator (for example, it`s loaded to matched resistance) of decoupling subarray, N secondary radiators are connected to second emitting subarray beam former (BF2). The S₂ and S₂₂ scattering matrix choice, then BF₁ and BF₂ characteristic of active and secondary subarrays [1…3] fixed, is worthy of notice. BF₁ and BF₂ characteristic influence and mutual coupling magnitude between emitters of emitting and secondary subarrays are of less importance.

Figure 1. Antenna system scheme.

In the article bypassing magnitude calculation results for special cases of gain–phase distribution (GPD) in BF₁ and BF₂ outcomes are given. It can be gotten if wideband microstrip antenna array (WMAA) [4] would be used as single transmitter–receiver curtain. Suppose that both BF have isolated and matched outputs and decoupling subarray is absent (M = 0). Then coupling coefficient expression looks like this [1]:

(1)

where Y₁₂ — dimension matrix 1xN of complex transfer constant coefficients from BF₂ outcomes to it`s input; X₂₁ — dimension matrix Lx1 of complex transfer constant coefficients from BF₁ input to it`s outcomes; C₃₁ — Toeplitz matrix of coupling coefficients between emitters of emitting and secondary subarrays.

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References

1. Agafurov I. N., Lavrushev V. I., Sedelnikov Y. E. Passive radiator usage in points of antenna decoupling increase. – Kazan: KAI, 1985 – Dep. UISTI, №3495–85. (In Russian).
2. Lavrushev V. I., Sedelnikov V. I. Antenna construction taking into account decoupling request //Radioelectronica, – 1980, v.XXIII, №2, р.31…38. (In Russian).
3. Kyurkchan A. G. The bond between antennas with ribbed structure present// Radiotechnics and Electronics. – 1977, v.XXII, №7, p.1362…1373. (In Russian).
4. Chulkov V. I. About widebandedness of flat antenna arrays of microstrip radiators. // Second All−Union Science−Technical conference “Devices and methods of applied electrodynamics”, 9…13 September, 1991 (Odessa). Report theses. – M.: MAI, 1991, p. 148. (In Russian).
5. Chaplin A. F. Analysis and synthesis of antenna arrays. – Lvov: LSU, 1987. – 179p. (In Russian).
6. Barton D., Vard G. Handbook on radar measuremnts/Translated from English edited by Veisbein M. M. – M: Sov. radio, 1976. – 392p. (In Russian).
7. Korn G., Korn T. Reference book for persons engaged in scientific research and engineers. //Translation from English edited by Aramanovich I. G. – М.: Science, 1968. – 720p. (In Russian).
8. Handbook on special functions/Edited by. M. Abramowitz and I. Stigan /Translated from English by V. A. Ditkin and L. N. Karmazina. – M.: Nauka, 1979. – 830 p. (In Russian).

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