Title :
GBN mitigation using uniplanar compact EBG structure with meandered bridge for UWB Applications
Author :
Dinesh Raja, P. ; Gunapandian, P. ; Subasree, M.R.
Author_Institution :
ECE Dept., Thiagarajar Coll. of Eng., Madurai, India
Abstract :
The main Objective is to suppressed Ground bounce noise in ultra wide band (UWB). A modified uniplanar compact EBG (Electro magnetic band-gap) structure which integrates meandered Bridges replace with meandered lines to improve inductance effect in the existing Uniplanar Compact (UC-EBG). The lower frequency of band gap depends on inductance of the EBG structure. If the Inductance increases, then the FL(lower) frequency decreases to obtain wide bandgap. An improvement in the band gap is observed over 450 Mhz to 10 Ghz, simulation results is carried out by CST microwave studio.
Keywords :
inductance; interference suppression; photonic band gap; ultra wideband communication; CST microwave studio; EBG structure inductance; GBN mitigation; UC-EBG inductance effect; UWB applications; electromagnetic band gap structure; frequency 450 MHz to 10 GHz; frequency decreases; ground bounce noise suppression; meandered bridge; meandered lines; ultra wide band applications; uniplanar compact EBG structure; Bridge circuits; Capacitance; Inductance; Metamaterials; Periodic structures; Resonant frequency; Wave power; EBG (Electro magnetic bandgap structure; GBN (Ground Bounce Noise); UWB (Ultra wideband);
Conference_Titel :
Electronics and Communication Systems (ICECS), 2014 International Conference on
Conference_Location :
Coimbatore
Print_ISBN :
978-1-4799-2321-2
DOI :
10.1109/ECS.2014.6892767
