Title :
3D multi-layer additive manufacturing of a 2.45 GHz RF front end
Author :
Arnal, Nicholas ; Ketterl, Thomas ; Vega, Yaniel ; Stratton, John ; Perkowski, Casey ; Deffenbaugh, Paul ; Church, Kenneth ; Weller, Thomas
Author_Institution :
Dept. of Electr. Eng., Univ. of South Florida, Tampa, FL, USA
Abstract :
Digital additive manufacturing (AM) is emerging as a promising technology for next-generation RF systems. AM processes that combine multiple materials in a single build and can produce volumetric designs are especially interesting for 3D structural electronics. This paper reports on 3D AM fabricated components for a 2.45 GHz RF front end, specifically a circularly-polarized dipole antenna, a miniaturized capacitive-loaded open-loop resonator filter and a switched-line phase shifter. The printing process integrates fused deposition of thermoplastic substrates with micro-dispensing for deposition of conductive traces. These initial results demonstrate the strong potential for fully-printed RF front ends for light weight, low cost, conformal and readily customized applications.
Keywords :
dipole antennas; phase shifters; rapid prototyping (industrial); resonator filters; 3D multilayer additive manufacturing; 3D structural electronics; RF front end; capacitive-loaded filter; circularly-polarized dipole antenna; conductive trace deposition; digital additive manufacturing; frequency 2.45 GHz; open-loop resonator filter; printing process; switched-line phase shifter; thermoplastic substrates; Antenna measurements; Antennas; Copper; Radio frequency; Resonant frequency; 3D Printing; Additive Manufacturing; Dipole Antenna; Direct Digital Manufacturing; Open Loop Resonator Filter; Switched-Line Phase Shifter;
Conference_Titel :
Microwave Symposium (IMS), 2015 IEEE MTT-S International
Conference_Location :
Phoenix, AZ
DOI :
10.1109/MWSYM.2015.7167154
