High-accuracy design for mesh antennas considering the metallic mesh

Abstract

Metallic meshes have great effects on the surface accuracy and tension distribution of mesh antennas, which present considerable challenges to the high-accuracy design of reflectors. Unfortunately, the metallic mesh is usually neglected in current research due to the complex coupling between the metallic mesh and the cable network. This paper presents a novel high-accuracy design method for the mesh reflector considering the effect of the metallic mesh. A cable-membrane coupling model is first proposed to account for the compatible deformation between the cable network and the metallic mesh. By introducing the topology matrix of the cable-membrane structure, the unified equilibrium equation of the mesh antenna is established and solved by the dynamic relaxation (DR) method. A novel high-accuracy design method for the mesh antenna is proposed by optimising the geometric dimensions of the cables and the membranes. Finally, this method is effectively applied to the high-accuracy design of two mesh antennas with different topologies considering the effect of the metallic mesh. The superiority of the method is demonstrated through a comparison with the literature, and the accuracy of the results is exhibited by the FEM software ABAQUS.