![]() A novel design tri-band patch antenna for GSM/WiFi/WiMAX applications. Progress in Electromagnetics Research Letters, 87, 105–113. CPW-fed compact multiband monopole antenna for WLAN/WiMAX/X-band application. Hindawi International Journal of Antennas and Propagation. Wide CPW-fed multiband wearable monopole antenna with extended grounds for GSM/WLAN/WiMAX applications. ![]() Progress in Electromagnetics Research M, 81, 117–126. A practical CPW-fed UWB antenna with reconfigurable dual band-notched characteristics. Progress in Electromagnetics Research C, 94, 219–231. CPW-fed ultra-wideband dual-sense circularly polarized slot antenna. Progress in Electromagnetics Research Letters, 81, 113–120. CPW-Fed dual-band dual-sense circularly polarized antenna for WiMAX application. Manas, M., Bhattacharjee, S., & Mitra, M. In URSI AP-RASC, March 09–15, New Delhi, India. Multiband antenna for WLAN, WiMAX and future wireless applications. IJ Wireless and Microwave Technologies, 1, 36–42. Design and performance analysis of triple band micro-strip patch antenna with CPW-fed. Tiwar, R., Yogi, L., Bagwari, A., & Kushwah, V. International Journal of Electrical, Computer, Energetic, Electronic and Communication Engineering, 1(1), 308–313. Emerging wireless standards-WiFi, ZigBee and WiMAX. Indian Journal of Engineering, 2(5), 51–54. ![]() Consequently, the final antenna model is a good candidate to be used at the designed frequencies and one can have a clear idea how to control the resonant frequencies of the antenna for different dimension parameters of the slots.īanerji, S., & Chowdhury, R. The measurement shows that the antenna can provide dual impedance bandwidths by having resonances at 2.74 GHz and 4.94 GHz. It has been obtained a good compatibility between the computer software results and measurment results. To authenticate the simulation results an example model is manufactured using a 40 × 30 mm 2 FR4 dielectric substrate with the permittivity of 4.3. The proposed antenna operates in a wide range covering WLAN and WiMAX frequencies between 2.38 and 5.46 GHz. ![]() The effects of the slots on the operating frequencies are analyzed in detail by performing parametric analyzes. To obtain multiband functionality and tune the frequencies rectangular shaped slots are embedded vertically and horizontally on the radiating part. In this study, a coplanar waveguide fed patch antenna is proposed for Wireless Local Area Network (WLAN) and Worldwide Interoperability for Microwave Access (WiMAX) operations. ![]()
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