Title :
A novel CPW bandpass filter based on negative indexed materials for Wi-Max application
Author :
Surendar, U. ; Sekar, G. Brenie
Author_Institution :
ECE Dept., K. Ramakrishnan Coll. of Eng., Trichy, India
Abstract :
Metamaterial is an artificial material which is used to produce negative effects in the materials. In this paper a bandpass filter is proposed by introducing the metamaterial effect in the normal substrate. It was named as novel because of achieving negative effects from the normal substrate material with a compact circuit size of the structure. A coplanar waveguide transmission line is loaded with complementary split ring resonators for providing the structure with negative effects. The proposed filter is simulated and characterized using Method of Moments based IE3D simulator. The designed filter has a bandwidth of 3.2 to 5.2 GHz with the return loss of -45dB and of -0.2dB insertion loss. The size of the filter is about 12 × 12 mm2. With the above properties the proposed metamaterial filter can be used for the Wi-Max application.
Keywords :
WiMax; band-pass filters; coplanar waveguides; method of moments; microwave filters; microwave metamaterials; resonator filters; CPW bandpass filter; Wi-Max application; artificial material; bandwidth 3.2 GHz to 5.2 GHz; compact circuit size; complementary split ring resonators; coplanar waveguide transmission line; loss -0.2 dB; loss -45 dB; metamaterial effect; method of moments based IE3D simulator; negative indexed materials; normal substrate material; Band-pass filters; Coplanar waveguides; Educational institutions; Insertion loss; Microwave filters; Optical ring resonators; Resonator filters; Bandpass Filter; Complementary Split Ring Resonator; Coplanar Waveguide; Insertion Loss; Return Loss; Split Ring Resonator;
Conference_Titel :
Information Communication and Embedded Systems (ICICES), 2014 International Conference on
Conference_Location :
Chennai
Print_ISBN :
978-1-4799-3835-3
DOI :
10.1109/ICICES.2014.7034045
