IEICE TRANSACTIONS on Communications
Novel Electromagnetic Bandgap with Triangular Unit Cells for Ultra-Broadband Suppression of Simultaneous Switching Noise
Summary :
To build a stable power distribution network for high-speed digital systems, simultaneous switching noise (SSN) should be sufficiently suppressed in multi-layer PCBs and packages. In this paper, a novel hybrid uni-planar compact electromagnetic bandgap (UC-EBG) with two triangular-type unit cells designed on power/ground planes is proposed for the ultra-broadband suppression of SSN. The SSN suppression performance of the proposed structure is validated both numerically and experimentally. A -35 dB suppression bandwidth for SSN is achieved, starting at 800 MHz and extending to 15 GHz and beyond, thereby covering almost the entire noise band.
- Publication
- IEICE TRANSACTIONS on Communications Vol.E92-B No.6 pp.2356-2358
- Publication Date
- 2009/06/01
- Publicized
- Online ISSN
- 1745-1345
- DOI
- 10.1587/transcom.E92.B.2356
- Type of Manuscript
- LETTER
- Category
- Electromagnetic Compatibility(EMC)
Authors
Keyword
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Jong Hwa KWON, Dong Uk SIM, Sang Il KWAK, Jong Gwan YOOK, "Novel Electromagnetic Bandgap with Triangular Unit Cells for Ultra-Broadband Suppression of Simultaneous Switching Noise" in IEICE TRANSACTIONS on Communications,
vol. E92-B, no. 6, pp. 2356-2358, June 2009, doi: 10.1587/transcom.E92.B.2356.
Abstract: To build a stable power distribution network for high-speed digital systems, simultaneous switching noise (SSN) should be sufficiently suppressed in multi-layer PCBs and packages. In this paper, a novel hybrid uni-planar compact electromagnetic bandgap (UC-EBG) with two triangular-type unit cells designed on power/ground planes is proposed for the ultra-broadband suppression of SSN. The SSN suppression performance of the proposed structure is validated both numerically and experimentally. A -35 dB suppression bandwidth for SSN is achieved, starting at 800 MHz and extending to 15 GHz and beyond, thereby covering almost the entire noise band.
URL: https://global.ieice.org/en_transactions/communications/10.1587/transcom.E92.B.2356/_p
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@ARTICLE{e92-b_6_2356,
author={Jong Hwa KWON, Dong Uk SIM, Sang Il KWAK, Jong Gwan YOOK, },
journal={IEICE TRANSACTIONS on Communications},
title={Novel Electromagnetic Bandgap with Triangular Unit Cells for Ultra-Broadband Suppression of Simultaneous Switching Noise},
year={2009},
volume={E92-B},
number={6},
pages={2356-2358},
abstract={To build a stable power distribution network for high-speed digital systems, simultaneous switching noise (SSN) should be sufficiently suppressed in multi-layer PCBs and packages. In this paper, a novel hybrid uni-planar compact electromagnetic bandgap (UC-EBG) with two triangular-type unit cells designed on power/ground planes is proposed for the ultra-broadband suppression of SSN. The SSN suppression performance of the proposed structure is validated both numerically and experimentally. A -35 dB suppression bandwidth for SSN is achieved, starting at 800 MHz and extending to 15 GHz and beyond, thereby covering almost the entire noise band.},
keywords={},
doi={10.1587/transcom.E92.B.2356},
ISSN={1745-1345},
month={June},}
Copy
TY - JOUR
TI - Novel Electromagnetic Bandgap with Triangular Unit Cells for Ultra-Broadband Suppression of Simultaneous Switching Noise
T2 - IEICE TRANSACTIONS on Communications
SP - 2356
EP - 2358
AU - Jong Hwa KWON
AU - Dong Uk SIM
AU - Sang Il KWAK
AU - Jong Gwan YOOK
PY - 2009
DO - 10.1587/transcom.E92.B.2356
JO - IEICE TRANSACTIONS on Communications
SN - 1745-1345
VL - E92-B
IS - 6
JA - IEICE TRANSACTIONS on Communications
Y1 - June 2009
AB - To build a stable power distribution network for high-speed digital systems, simultaneous switching noise (SSN) should be sufficiently suppressed in multi-layer PCBs and packages. In this paper, a novel hybrid uni-planar compact electromagnetic bandgap (UC-EBG) with two triangular-type unit cells designed on power/ground planes is proposed for the ultra-broadband suppression of SSN. The SSN suppression performance of the proposed structure is validated both numerically and experimentally. A -35 dB suppression bandwidth for SSN is achieved, starting at 800 MHz and extending to 15 GHz and beyond, thereby covering almost the entire noise band.
ER -
English
