Signal and power integrity analysis for the novel power plane of EBG structure in high-speed mixed signal systems
Wireless Symposium(2013)
摘要
In this paper, a novel power plane of electromagnetic bandgap (EBG) structure for wideband mitigation of simultaneous switching noise (SSN) in mixed signal systems is proposed. Complementary split ring resonator (CSRR) with inherent filtering characteristic is utilized for constituting EBG unit cells. From the simulated and measured results of the proposed EBG structure, a wideband suppression of SSN ranges from 0.56 GHz to 5.88 GHz is achieved with a high mitigation level of -40 dB. Furthermore, the influence of the proposed power plane of EBG structure on the signal integrity (SI) is investigated in the time and frequency domains, respectively. The results show that the SI performance can be improved significantly by using differential pairs for the signals.
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关键词
microwave resonators,power plane,frequency 0.56 ghz to 5.88 ghz,signal integrity analysis,power integrity (pi),time domain analysis,simultaneous switching noise,power integrity analysis,microwave materials,frequency-domain analysis,photonic band gap,electromagnetic bandgap structure,complementary split ring resonator,signal integrity (si),time-domain analysis,complementary split ring resonator (csrr),frequency domain analysis,electromagnetic bandgap structure (ebg),differential pair,ssn,ebg structure,high-speed mixed signal systems,noise,metamaterials,inductance,couplings,silicon
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