Gain and direction oriented large-scale deformed paraboloid antenna panel fit rotation adjusting method

Abstract

The invention discloses a gain and direction oriented large-scale deformed paraboloid antenna panel fit rotation adjusting method. The method comprises following steps: determining the structure scheme of a paraboloid antenna and the initial position of an actuator; building a finite element model and the supporting panel nodes of the actuator; calculating the self-weight deformation of an antenna structure and extracting deformed paraboloid nodes; calculating the optimum fit paraboloid of the antenna; calculating the root-mean-square error of the deformed paraboloid and judging whether antenna gain satisfies a demand; reversing the fit paraboloid and determining a target curve under optimum working performance; determining the corresponding nodes of the deformed paraboloid and the target curve and calculating the adjusting quantity of the actuator; adjusting the position of the panel, updating the finite element model of the antenna structure, calculating the electric performance of the deformed antenna by an electromechanical coupling model, judging whether the antenna direction satisfies a demand, outputting the adjusting quantity of the actuator, and obtaining the optimum panel fit rotation adjusting quantity. The method of the invention is advantaged by that the total travel of the actuator is short, the precision of the reflection surface of the antenna is clearly improved, the antenna gain is improved, and the working direction of the antenna is ensured.

Description

technical field [0001] The invention belongs to the technical field of antennas, and in particular relates to a gain-oriented and directing-oriented large-scale deformed parabolic antenna panel matching rotation adjustment method, which is used to actively adjust the position of the reflective surface panel of the large-scale deformed parabolic antenna to optimize the antenna's working performance. Background technique [0002] A large-area area antenna mainly used for receiving functions must be built both large and well. "Big" means that it has a large aperture and a large gathering area, which can receive stronger signals and observe weak sources in space; "good" means There are two aspects, one is to have a more accurate reflector surface, so that the antenna can be observed in a shorter wave band, and the other is to have a higher pointing accuracy, to achieve narrow beam observation to obtain higher resolution, so as to realize the radio telescope "seeing Far, see clea...

AI Technical Summary

Problems solved by technology

Among the existing patents related to the electrical performance compensation of large antennas, such as the patent of the Key Laboratory of Electronic Equipment Structural Design of the Ministry of Education of Xidian University "A Method of Feed Position Compensation for Deformed Large Single Reflector Antenna", " A Subsurface Compensation Method for a Large Shaped Double-Reflector Antenna Based on Electromechanical Coupling" and "A Direction Adjustment Method for a Large-scale Shaped Double-Reflector Antenna Based on Electromechanical Coupling" are both based on the traditional antenna structure. Move the feed source, the sub-surface to the matching position, and adjust the overall azimuth, pitch, and rotation of the antenna to indirectly compensate for the deformation of the antenna surface caused by the deformation of the antenna structure, which leads to the deterioration of the electrical performance of the antenna. Surface deformation cannot make up for the loss of antenna gain, and these adjustment methods are cumbersome and cannot directly solve the main problem. In practical applications, the work performance compensation of large antennas cannot be satisfied.

Images