Analysisof coplanar waveguide-to-coplanar stripline transitions
Journal
IEEE Transactions on Microwave Theory and Techniques
Journal Volume
48
Journal Issue
1
Pages
23-29
Date Issued
2000
Author(s)
Abstract
The coplanar waveguide (CPW)-to-coplanar stripline (CPS) transition is analyzed theoretically and experimentally in this paper. To characterize this transition in the lower frequency band, a simple equivalent-circuit model that consists of uniform and nonuniform transmission lines is established. The elements of this model can all be obtained by the closed-form formulas; hence, this model is suitable for computer-aided-design application. This model is then applied to design and analyze the CPW-to-CPS transitions with various structure parameters. In the higher frequency band, the partially prizm-gridded finite-difference time-domain (FDTD) method is employed to take into account the bond-wire effect as well as the surface-wave leakage and space-wave radiation associated with the transition. In this study, results based on equivalent-circuit model, FDTD simulation, and measurement are compared. Good agreement among these results supports the usefulness of the proposed equivalent-circuit model and also validates the FDTD method. By using the equivalent-circuit model to optimize the transition configuration, the CPW-to-CPS transition with broad bandwidth and low insertion loss may be achieved. 2000 IEEE.
Subjects
Coplanar stripline; Coplanar waveguide; Equivalent-circuit model; Fdtd method; Transitions
Other Subjects
Bond wire effect; Coplanar striplines; Finite difference time domain method; Space wave radiation; Surface wave leakage; Transitions; Computer aided design; Computer simulation; Equivalent circuits; Finite difference method; Frequencies; Insertion losses; Mathematical models; Scattering parameters; Surface waves; Time domain analysis; Transmission line theory; Waveguides; Microstrip lines
Type
journal article