Abstract

The purpose of the study was to build a surveillance radar station (radar) with an axisymmetric (i.e. cylindrical, conical, etc.), multibeam receiving-transmitting active phased array (APAR) and investigate its characteristics. The radar station makes it possible to shorten the surveillance time, increase the rate of updating information, provide flexibility in changing operating modes, increase the reliability and service life of a radar station as compared to a radar station with mechanical rotation of antenna systems. The radar station is compared with electronic circular scanning based on cylindrical, three- and tetrahedral APAR

Highlights

  • КНД и потенциал на передачуРазделим апертуру осесимметричной АФАР на K секторов, соответствующих числу главных лепестков ДН на передачу.

  • Каждый сектор будет формировать однолучевую ДН в со­ответствии с оптимальным для получения максимального КНД поляризационным и фазовым распределением [5].

  • Для получения максимального потенциала амплитудное распределение АФАР на передачу выбрано равномерным.

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Summary

КНД и потенциал на передачу

Разделим апертуру осесимметричной АФАР на K секторов, соответствующих числу главных лепестков ДН на передачу. Каждый сектор будет формировать однолучевую ДН в со­ответствии с оптимальным для получения максимального КНД поляризационным и фазовым распределением [5]. Для получения максимального потенциала амплитудное распределение АФАР на передачу выбрано равномерным. В этом случае из соотношений для КНД выпуклой антенны при остронаправленном излучении [5] для КНД. Потенциал Πk АФАР определяется произведением КНД на мощность излучения и в рассматриваемом случае Πk = P1Nk Dt(k), где

Сравнение цилиндрической и многогранной АФАР
Интеграл dφ
Диаметр описанной окружности
Используя известное неравенство
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