Title :
Novel two-dimensional EBG structure used to suppress simultaneous switching noise
Author :
Liuping Wang ; Liqiang Cao ; Lixi Wan
Author_Institution :
Inst. of Microelectron., Beijing, China
Abstract :
Novel two-dimensional EBG is put forward to suppress the simultaneous switching noise of electronic systems, Based on the inductance enhanced by the long-line metal between adjacent unit cell, the novel two-dimensional EBG structure is achieved by the units lattice structure, which is made of the connection of a square metal and two metal serpentine lines. Simulation results show that the stopband bandwidth of new EBG structure labeling on capacitor is 0 ~ 6GHz (S2≤-25dB)in the same parameters EBG classic.
Keywords :
electromagnetic compatibility; interference suppression; lattice theory; photonic band gap; 2D EBG structure labeling; EMC; adjacent unit cell; electromagnetic band gap; electromagnetic compatibility; long-line metal; metal serpentine lines; simultaneous switching noise suppression; stopband bandwidth; units lattice structure; Cavity resonators; Electromagnetic interference; Metals; Metamaterials; Noise; Photonic band gap; Electromagnetic compatibility(EMC); electromagnetic band gap(EBG); simultaneously switching noise(SSN);
Conference_Titel :
Electronic Packaging Technology (ICEPT), 2013 14th International Conference on
Conference_Location :
Dalian
DOI :
10.1109/ICEPT.2013.6756687
