Complementary double spiral resonators localized on embedded capacitance for ultra-wideband suppression of simultaneous switching noise

Author

Hao-Ran Zhu ; Jun-Fa Mao

Author_Institution

Key Lab. of Minist. of Educ. of China for Res. of Design & Electromagn. Compatibility of High Speed Electron. Syst., Shanghai Jiao Tong Univ., Shanghai, China

fYear

2013

fDate

6-10 Oct. 2013

Firstpage

1139

Lastpage

1142

Abstract

In this paper, we present a novel design for suppressing simultaneous switching noise (SSN) propagation in high-speed PCB circuits. This design is a localized topology, where complementary double spiral resonators are etched on the metallic layer of embedded capacitance. The SSN coupling can be reduced sufficiently within an ultra-wideband from 0.26 GHz to 15 GHz under the noise mitigation margin of -60 dB. Furthermore, good signal integrity (SI) performance is achieved with small discontinuity of the return current path.

Keywords

UHF circuits; VHF circuits; circuit noise; etching; microwave circuits; noise abatement; printed circuit design; resonators; SI performance; SSN propagation; complementary double spiral resonator; embedded localized capacitance; frequency 0.26 GHz to 15 GHz; high-speed PCB circuit; metallic layer etching; noise figure -60 dB; noise mitigation margin; return current path discontinuity; signal integrity performance; simultaneous switching noise propagation; ultrawideband suppression; Capacitance; Couplings; Noise; Periodic structures; Silicon; Spirals; Testing; Complementary double spiral resonator; embedded capacitance; localized suppression; signal integrity; simultaneous switching noise;

fLanguage

English

Publisher

ieee

Conference_Titel

Microwave Conference (EuMC), 2013 European

Conference_Location

Nuremberg

Type

conf

Filename

6686863