Characterization of transmission lines using low loss polymers up to 320 GHz

“…COC is a new type of dielectric material with low Dk and Df at millimeter and submillimeter wavelengths 13 . According to the measured results, we can see that the transmission losses of microstrip or coplanar waveguide (CPW) are 0.3–0.4, 0.6, and 1.75 dB/mm, within the frequency of 0–110, 220, 14 and 320 GHz, 15 respectively. Thanks to these properties, COCs have earned great acceptance as substrate materials applied to microwave and millimeter‐wave applications.…”

“…The transmission lines in Peytavit et al 14 , 15 are fabricated based on thin film technology, which is considered as high cost and not for large‐scale applications. Lamination is a kind of manufacturing technique used widely in CCL manufacture with high‐productivity and low‐cost, which can accurately to convey metal foils to polymer substrates under appropriate temperature and pressure conditions 20 .…”

Cyclic olefin copolymer‐based copper clad laminate and the application for low loss broadband baluns

“…COC is a new type of dielectric material with low Dk and Df at millimeter and submillimeter wavelengths 13 . According to the measured results, we can see that the transmission losses of microstrip or coplanar waveguide (CPW) are 0.3–0.4, 0.6, and 1.75 dB/mm, within the frequency of 0–110, 220, 14 and 320 GHz, 15 respectively. Thanks to these properties, COCs have earned great acceptance as substrate materials applied to microwave and millimeter‐wave applications.…”

“…The transmission lines in Peytavit et al 14 , 15 are fabricated based on thin film technology, which is considered as high cost and not for large‐scale applications. Lamination is a kind of manufacturing technique used widely in CCL manufacture with high‐productivity and low‐cost, which can accurately to convey metal foils to polymer substrates under appropriate temperature and pressure conditions 20 .…”

Cyclic olefin copolymer‐based copper clad laminate and the application for low loss broadband baluns

“…It presents a low relative permittivity and a low loss factor as substrates for high‐frequency circuits 2 . However, there are very few applications based on this kind of COC, such as antenna, 1 mixer, 2 low‐loss transmission lines, 3–5 THz fibers, 6 filters, 7 and waveguide, 8 since the processing technologies of circuits patterns on COC are not easy. The patterns can be formed on the COC surface by optical lithography/e‐beam lithography, followed by the metal film deposition and standard lift‐off technique 1,7 .…”

Implementation of cyclic olefin copolymer‐based microwave circuit and the performance comparison

Sub-terahertz Dual-polarized Low-loss Transmission System Using COC-Based Dielectric Waveguide