Title :
Wideband stacked patch antenna array on LTCC for W-band
Author :
Lamminen, Antti ; Säily, Jussi
Author_Institution :
VTT Tech. Res. Centre of Finland, Espoo, Finland
Abstract :
A design of a stacked microstrip patch antenna and a 16-element array on Ferro A6-M LTCC operating at W-band is presented. A parasitic patch is added on LTCC substrate to increase bandwidth. The stacked configuration is designed by using an equivalent circuit together with EM simulators. The manufactured antenna array is integrated with a WR-10-to-microstrip-line transition to facilitate RF testing. The S-parameters are measured on a probe station and radiation pattern testing is done using a WR-10 excitation in anechoic chamber. The array of size 9.3 mm × 9.3 mm × 0.4 mm has the measured maximum gain of 14.2 dBi at 84 GHz and gain higher than 11.2 dBi between 78.5 GHz and 98.5 GHz which results as -3-dB radiation bandwidth of 23%. The antenna efficiency of the array is 48% at the highest.
Keywords :
anechoic chambers (electromagnetic); antenna radiation patterns; antenna testing; broadband antennas; equivalent circuits; microstrip antenna arrays; microstrip transitions; millimetre wave antenna arrays; EM simulators; Ferro A6-M LTCC; RF testing; S-parameters; W-band; WR-10-to-microstrip-line transition; anechoic chamber; efficiency 48 percent; equivalent circuit; frequency 78.5 GHz to 98.5 GHz; parasitic patch; probe station; radiation bandwidth; radiation pattern testing; stacked microstrip patch antenna design; wideband stacked patch antenna array; Antenna radiation patterns; Arrays; Bandwidth; Gain; Patch antennas; Substrates;
Conference_Titel :
Antennas and Propagation (EUCAP), Proceedings of the 5th European Conference on
Conference_Location :
Rome
Print_ISBN :
978-1-4577-0250-1
