Title :
Fabrication and Microwave Characterization of 3-D Printed Transmission Lines
Author :
Deffenbaugh, Paul I. ; Weller, Thomas M. ; Church, Kenneth H.
Author_Institution :
UTEP Keck Center, Univ. of Texas, El Paso, TX, USA
Abstract :
3-D printing is enabling next generation manufacturing of RF and microwave circuits but little work has been done to demonstrate the true potential of this approach. This study shows that transmission lines fabricated using 3-D printing equipment are comparable in performance to traditionally-made versions. Basic transmission line parameters such as characteristic impedance, effective dielectric constant, dielectric loss, and conductor loss are modeled and measured for a variety of materials and types of transmission lines at frequencies up to 10 GHz. Data are given for use in future 3-D printed RF designs.
Keywords :
dielectric loss measurement; microwave circuits; permittivity measurement; three-dimensional printing; transmission lines; 3D printed RF designs; 3D printed transmission lines; 3D printing equipment; RF circuits; characteristic impedance; conductor loss; dielectric constant; dielectric loss; microwave characterization; microwave circuits; next generation manufacturing; Dielectric constant; Dielectric losses; Impedance; Printing; Three-dimensional displays; Transmission lines; 3-D printing; Direct-digital manufacturing; microstrip; printed electronics; transmission line;
Journal_Title :
Microwave and Wireless Components Letters, IEEE
DOI :
10.1109/LMWC.2015.2495184
