Title :
Slotline impedance
Author_Institution :
Hughes Aircraft Co., Fullerton, CA, USA
fDate :
4/1/1991 12:00:00 AM
Abstract :
A theoretical model is presented to compute the characteristic impedance and wavelength in a slotline printed on or embedded in a dielectric substrate. In this treatment the effects of the fringing field caused by the finite width of the conducting strips are taken into account. The main task is to calculate the capacitance per unit length of the slotline. First, the Green´s function for the potential of a pair of filament sources in a dielectric substrate is solved; this is used as a building block to construct the overall solution of the boundary value problem. Then, the surface charge density on the conducting strips is found by using a moment method and imposing the source condition (equal potential) on the conductors. From the surface charge density, the characteristic impedance of the slotline is computed for various input parameters. The formulation is applicable to a single-sided, sandwiched, or double-sided slotline printed on or embedded in a dielectric substate
Keywords :
Green´s function methods; boundary-value problems; electric impedance; strip lines; waveguide theory; Green´s function; boundary value problem; capacitance per unit length; characteristic impedance; dielectric substrate; embedded slotline; fringing field; input parameters; moment method; printed slotline; surface charge density; theoretical model; wavelength; Boundary value problems; Capacitance; Conductors; Dielectric substrates; Embedded computing; Green´s function methods; Impedance; Moment methods; Slotline; Strips;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
