TY - GEN
T1 - Optimal design of vialess open-stub EBG structure for power-bus noise reduction
AU - Okimoto, Kohtaro
AU - Iokibe, Kengo
AU - Toyota, Yoshitaka
AU - Kondo, Koichi
AU - Yoshida, Shigeyoshi
AU - Kaneko, Toshiyuki
PY - 2016/12/28
Y1 - 2016/12/28
N2 - To overcome the intra EMC problems in wireless communications, electromagnetic bandgap (EBG) structures can be used to effectively reduce power-bus noise. We previously proposed a vialess open-stub EBG structure. However, it still has the intrinsic disadvantage of a narrow stopband because it uses the open-stub's resonance. Thus, this paper aims to optimize the structural parameters of the vialess open-stub EBG structure to sufficiently suppress power-bus noise in a wider stopband. The structural parameters to determine the noise-reduction performance of the vialess open-stub EBG structure are the branch width Wb, the stub width Ws, and the unit-cell length a. Rectangular power buses were designed as test vehicles through the analytical approach and used to evaluate the stopband expansion and the noise suppression in the stopband in a full-wave simulation. The transmission characteristics showed that, after wb, Ws, and a are optimized, the stopband is expanded from 0.61 GHz (2.23-2.84 GHz) to 1.56 GHz (2.20-3.76 GHz). In addition, an optimized structure was made that reduced the amount of noise by approximately 10 dB.
AB - To overcome the intra EMC problems in wireless communications, electromagnetic bandgap (EBG) structures can be used to effectively reduce power-bus noise. We previously proposed a vialess open-stub EBG structure. However, it still has the intrinsic disadvantage of a narrow stopband because it uses the open-stub's resonance. Thus, this paper aims to optimize the structural parameters of the vialess open-stub EBG structure to sufficiently suppress power-bus noise in a wider stopband. The structural parameters to determine the noise-reduction performance of the vialess open-stub EBG structure are the branch width Wb, the stub width Ws, and the unit-cell length a. Rectangular power buses were designed as test vehicles through the analytical approach and used to evaluate the stopband expansion and the noise suppression in the stopband in a full-wave simulation. The transmission characteristics showed that, after wb, Ws, and a are optimized, the stopband is expanded from 0.61 GHz (2.23-2.84 GHz) to 1.56 GHz (2.20-3.76 GHz). In addition, an optimized structure was made that reduced the amount of noise by approximately 10 dB.
KW - electromagnetic bandgap (EBG)
KW - open stub
KW - optimal design
KW - stopband
KW - suppression
KW - vialess
UR - http://www.scopus.com/inward/record.url?scp=85010674480&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=85010674480&partnerID=8YFLogxK
U2 - 10.1109/ICSJ.2016.7801273
DO - 10.1109/ICSJ.2016.7801273
M3 - Conference contribution
AN - SCOPUS:85010674480
T3 - 2016 IEEE CPMT Symposium Japan, ICSJ 2016
SP - 243
EP - 246
BT - 2016 IEEE CPMT Symposium Japan, ICSJ 2016
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 2016 IEEE CPMT Symposium Japan, ICSJ 2016
Y2 - 7 November 2016 through 9 November 2016
ER -