Title :
A 79-GHz LTCC differential microstrip line to laminated waveguide transition using high permittivity material
Author :
Wang, Xin ; Stelzer, Andreas
Author_Institution :
Inst. for Commun. Eng. & RF-Syst., Johannes Kepler Univ. of Linz, Linz, Austria
Abstract :
A differential microstrip line (DMSL) to laminated waveguide (LWG) transition based on low temperature co-fired ceramic technology is presented in this paper. The transition is designed for the 76 - 81 GHz radar frequency band using high permittivity material (εr = 7.4). The achieved bandwidth at 10 dB return loss is more than 10 GHz. For measurement purposes, another metallic rectangular waveguide to LWG transition was designed and cascaded with the DMSL-to-LWG transition. The measurement results of the fabricated prototype agree closely with the simulation. The designed transition simplifies the application of monolithic microwave integrated circuits with differential outputs and enables low-cost integration of W-band radar components on ceramic substrate.
Keywords :
MMIC; ceramic packaging; ceramics; microstrip lines; permittivity; radar; rectangular waveguides; waveguide transitions; DMSL-to-LWG transition; LTCC differential microstrip line; LWG transition; W-band radar component low-cost integration; W-band radar components; ceramic substrate; frequency 76 GHz to 81 GHz; high permittivity material; laminated waveguide transition; low temperature co-fired ceramic technology; metallic rectangular waveguide; monolithic microwave integrated circuits; Feeds; Loss measurement; Metals; Microwave circuits; Microwave integrated circuits; Radar; Simulation;
Conference_Titel :
Microwave Conference Proceedings (APMC), 2010 Asia-Pacific
Conference_Location :
Yokohama
Print_ISBN :
978-1-4244-7590-2
Electronic_ISBN :
978-1-902339-22-2
