Decoupling of Isosceles Triangular Array by Loaded Parasitic Element in Combination With Decoupling and Matching Network

Abstract: In this paper, decoupling of a compact isosceles triangular array is performed by a hybrid method consisting of loaded parasitic element (LPE) in combination with decoupling and matching network (DMN). By introducing a reactively loaded parasitic element at a suitable position on the axis of symmetry of the isosceles triangle, not only are the mutual couplings between the element at the vertex and the two elements on the base eliminated but also the circuit parameters of the base elements are well prepared for… Show more

“…A modified NL is added between two radiation patches to generate another coupling path to cancel the original coupling, 13 but the size of NL is not very compact. Parasitic element is loaded at suitable position, which is beneficial to decline the mutual couplings between antennas, 14 whereas the decoupling bandwidth needs to be enhanced further. In Sun et al, 15 the self‐decoupled technology is adopted to achieve a high isolation.…”

Enhancement of antenna decoupling bandwidth by utilizing common and differential modes cancellation

“…A modified NL is added between two radiation patches to generate another coupling path to cancel the original coupling, 13 but the size of NL is not very compact. Parasitic element is loaded at suitable position, which is beneficial to decline the mutual couplings between antennas, 14 whereas the decoupling bandwidth needs to be enhanced further. In Sun et al, 15 the self‐decoupled technology is adopted to achieve a high isolation.…”

Enhancement of antenna decoupling bandwidth by utilizing common and differential modes cancellation

High isolation MIMO antenna designed with tightly coupled microstrip patch pairs