发明名称 |
Array Antenna With Optimized Elements Positions And Dimensions |
摘要 |
A method of manufacturing an array antenna comprising: a design phase wherein an array layout of said array antenna is synthesized and radiating elements are designed to be arranged according to said array layout; and a phase of physically making said array antenna wherein the radiating elements are arranged according to said array layout. The design phase comprises the steps of: defining a continuous reference aperture; subdividing said continuous reference aperture into a plurality of elementary cells with assigned power levels; determining, within each said elementary cell, a position for at least one maximum efficiency radiating element; determining a size and an aperture field amplitude of each said maximum efficiency radiating element, such that a variation of a cumulative field distribution of the resulting array antenna aperture over each said elementary cell is substantially equal to a variation of a cumulative field distribution of said reference aperture over the same elementary cell, subject to size constraints. |
申请公布号 |
US2015333412(A1) |
申请公布日期 |
2015.11.19 |
申请号 |
US201314761162 |
申请日期 |
2013.08.28 |
申请人 |
AGENCE SPATIALE EUROPEENNE |
发明人 |
Angeletti Piero;Toso Giovanni;Ruggerini Gianfranco |
分类号 |
H01Q21/00;G06F17/14;G05B19/4097 |
主分类号 |
H01Q21/00 |
代理机构 |
|
代理人 |
|
主权项 |
1. A method of manufacturing an array antenna comprising:
a design phase, comprising synthesizing an array layout of said array antenna and choosing or designing radiating elements to be arranged according to said array layout; and a phase of physically making said array antenna, comprising arranging said radiating elements according to said array layout; wherein said radiating elements are maximum efficiency elements, having a field amplitude which is substantially uniform over their whole aperture; the method being characterized in that said design phase comprises the steps of: a. defining a continuous reference aperture; b. subdividing said continuous reference aperture into a plurality of elementary cells with assigned power levels; c. determining, within each said elementary cell, a position for at least one maximum efficiency radiating element; d. determining a size and an aperture field amplitude of each said maximum efficiency radiating element, such that a variation of a cumulative field distribution of the resulting array antenna aperture over each said elementary cell is substantially equal to a variation of a cumulative field distribution of said reference aperture over the same elementary cell, subject to size constraints. |
地址 |
Paris CEDEX 15 FR |