Title |
Analysis and Design of Power Divider Using the Microstrip-Slotline Transition in Millimeter-Wave Band |
Authors |
정철용(Jeong, Chulyong) ; 정진호(Jeong, Jinho) ; 김준연(Kim, Junyeon) ; 천창율(Cheon, Changyul) ; 권영우(Kwon, Youngwoo) |
Keywords |
FEM ; Microstrip-slotline ; Power divider |
Abstract |
In this paper, an analysis of microstrip-slotline transition is performed using a 3D vector Finite Element Method(FEM). Artificial anistropic absorber technique is employed to implement an matching boundary condition in FEM. On the base of the analysis, power divider/combiner is designed. The structure of the power combiner already developed are Branch-line coupler, Rat-race coupler, Wilkinson coupler, Lange coupler, etc. Which are all planar, If the frequency goes up, the coupling efficiency of these planar couplers is decreased on account of skin loss. Especially, in millimeter-wave band, the efficiency of more than two ways combiner is radically reduced, so that application in power amplifier circuit is almost impossible, Microstrip-slotline transition structure is a power combining technique integrated into wave-guide, so that the loss is small and the efficiency is high. Theoretically, we can mount several transistors into the power-combiner. This makes it possible to develop a high power amplifier. The numerically calculated performances of the device that is, we believe, the best are compared to the experimental results in Ka-Band(26.5GHz-40GHz). |