Design of Reconfigurable Frequency Selective Surfaces Including the PIN Diode Threshold Region

What is it about?

Reconfigurable frequency selective surfaces (RFSSs) are of significant interest in applications, such as secure communication systems or tunable radomes, to improve indoor communication and smart antennas. In order to change the FSS characteristics, and therefore its frequency response, conventional methods include loading with active semiconductor devices such as varactors, PIN diodes, Schottky diodes and RF-MEMS. Another possibility is the use of mechanical adjusts, such as spring resonators or mechanical rotation. When PIN diodes are used, commonly only the reverse and forward regions, OFF and ON states, respectively, are considered. In this paper, the implementation of a RFSS is described, using PIN diodes as active components. The RFSS is based on the four arms star geometry, and initial design equations and procedures are presented. Numerical and measured results are shown for different project stages, with a very good agreement. In addition to obtaining two distinct resonant frequencies, due the OFF and ON states, a third situation is included, considering the PIN diode threshold region when the FSS becomes practically transparent, which is an interesting feature with potential applications.

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Why is it important?

In this paper, the PIN diode threshold region is included and in addition to obtaining two distinct resonant frequencies, due to the OFF and the ON states, a third situation is now obtained where the FSS becomes practically transparent, which is a very interesting feature. This paper presents initial design guidelines, investigates the influence of bias lines and adds PIN diodes for truly reconfigurable FSSs.

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