Radial stub based negative group delay circuit theory

Abstract: This study addresses a negative group delay (NGD) circuit theory regarding a distributed passive topology consisted of an open‐ended radial stub. The equivalent circuit composed of the lumped R, L and C elements is proposed. Then, the S‐parameter model of the passive topology is established. The NGD analysis is described from the S‐parameter model. The synthesis method enabling to determine the stub parameters as a function of the targeted NGD level, frequency centre and reflection coefficient is formulated. T… Show more

“…In fact, this structure corresponds to the microstrip line with the NGD band. Compared with traditional NGD transmission lines with the loss greater than 20 dB [24,25], the proposed structure still has the advantage of lower loss and may achieve a relatively wide NGD band. Clearly, this kind of unit structures can not only constitute an SSPP waveguide with negative group delay, but also be directly applied to a conventional transmission line to achieve delay compensation or equalization.…”

Small attenuation negative group delay of spoof surface plasmon polaritons

“…In fact, this structure corresponds to the microstrip line with the NGD band. Compared with traditional NGD transmission lines with the loss greater than 20 dB [24,25], the proposed structure still has the advantage of lower loss and may achieve a relatively wide NGD band. Clearly, this kind of unit structures can not only constitute an SSPP waveguide with negative group delay, but also be directly applied to a conventional transmission line to achieve delay compensation or equalization.…”

Small attenuation negative group delay of spoof surface plasmon polaritons

Theorical Analysis of All-Pass Filter Based Negative Group Delay Circuit