Reflectarray and design method
First Claim
1. A design method of designing a reflectarray, the reflectarray being such that a plurality of elements are disposed on a substrate having a surface which is perpendicular to a predetermined axis, wherein the reflectarray reflects an incident wave in a desired direction, the design method comprising:
- a step of obtaining a reflection phase of the elements as a function of a design parameter, when a radio wave enters the elements which are arranged, and a storing a relationship between the reflection phase and the design parameter in a memory, wherein any of the design parameter among a size of element spacing, a size of a patch of the element, and a size of a gap between the patches of the neighboring elements is equally set for the elements; and
a step of repeatedly determining, for each of the elements, the design parameter of a specific element in accordance with the relationship, so that the specific element among the elements reflects the incident wave with a specific reflection phase among a plurality of reflection phases,wherein the function of the design parameter has a range which is substantially equal to 360 degrees with respect to a predetermined numerical range of the design parameter,wherein the reflection phase is the continuously varying function with respect to the element spacing, andwherein the function of the design parameter is the continuous function (which indicates a two resonance characteristic) such that two resonant points (the element spacing which causes resonance) occur at which the reflection phase becomes zero.
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Abstract
A method of designing a reflectarray including a substrate having a surface perpendicular to a predetermined axis, wherein elements are disposed on the substrate. The method obtains a reflection phase of the elements as a function of a design parameter such as element spacing, when a radio wave enters the arranged elements, and stores a relationship between the reflection phase and the design parameter in a memory. Here, the design parameter is equally set for the elements. The method repeatedly determines, for each of the elements, the design parameter of a specific element in accordance with the relationship. The function of the design parameter has a range of almost 360 degrees with respect to a range of the design parameter. The reflection phase is the continuous function of the element spacing such that two resonant points occur at which the reflection phase becomes zero.
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Citations
4 Claims
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1. A design method of designing a reflectarray, the reflectarray being such that a plurality of elements are disposed on a substrate having a surface which is perpendicular to a predetermined axis, wherein the reflectarray reflects an incident wave in a desired direction, the design method comprising:
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a step of obtaining a reflection phase of the elements as a function of a design parameter, when a radio wave enters the elements which are arranged, and a storing a relationship between the reflection phase and the design parameter in a memory, wherein any of the design parameter among a size of element spacing, a size of a patch of the element, and a size of a gap between the patches of the neighboring elements is equally set for the elements; and a step of repeatedly determining, for each of the elements, the design parameter of a specific element in accordance with the relationship, so that the specific element among the elements reflects the incident wave with a specific reflection phase among a plurality of reflection phases, wherein the function of the design parameter has a range which is substantially equal to 360 degrees with respect to a predetermined numerical range of the design parameter, wherein the reflection phase is the continuously varying function with respect to the element spacing, and wherein the function of the design parameter is the continuous function (which indicates a two resonance characteristic) such that two resonant points (the element spacing which causes resonance) occur at which the reflection phase becomes zero. - View Dependent Claims (2, 3, 4)
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Specification