A new modeling approach for the design of planar multilayered meander-line polarizers is presented. For the first time a multi-element equivalent circuit is adopted to characterize the meander-line unit cell. This equivalent circuit significantly improves the bandwidth performance with respect to the state-of-the-art. In addition to this, a polynomial interpolation matrix approach is employed to take into account the dependency on the meander-line geometrical parameters. This leads to an accuracy comparable to that of a full-wave analysis. At the same time the computational cost is minimized so as to make this model suitable for real-time tuning and fast optimizations. A four-layer polarizer is designed to validate the presented modeling procedure. Comparison with full-wave simulations confirms its high accuracy over a wide frequency range.
A novel meander-line polarizer modeling procedure and broadband equivalent circuit
Vincenti Gatti, Roberto
;Rossi, Riccardo
2017
Abstract
A new modeling approach for the design of planar multilayered meander-line polarizers is presented. For the first time a multi-element equivalent circuit is adopted to characterize the meander-line unit cell. This equivalent circuit significantly improves the bandwidth performance with respect to the state-of-the-art. In addition to this, a polynomial interpolation matrix approach is employed to take into account the dependency on the meander-line geometrical parameters. This leads to an accuracy comparable to that of a full-wave analysis. At the same time the computational cost is minimized so as to make this model suitable for real-time tuning and fast optimizations. A four-layer polarizer is designed to validate the presented modeling procedure. Comparison with full-wave simulations confirms its high accuracy over a wide frequency range.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
