1-3hit |
Takafumi KAI Yusuke KATOU Jiro HIROKAWA Makoto ANDO Hiroshi NAKANO Yasutake HIRACHI
Interfaces between a coaxial structure and a post-wall waveguide are proposed as the essential components for cost-effective millimeter-wave modules. PTFE substrate is selected in terms of loss and manufacturability. The reflection and the transmission characteristics are investigated. The short-stepped and the short-taper-stepped feeding structures provide 14.7% and 13.2% bandwidths for the reflection smaller than -15 dB, respectively. The 4640 mm2 size antenna fed by the short-stepped structure in PTFE substrate gives 27.3 dBi with 58.2% efficiency at 60.0 GHz. Feeding structures in PTFE substrate fulfill electrical and manufacturing demands in millimeter-wave bands.
Goro YAMAUCHI Kenichi TAKAI Hiroyuki SAITO
We developed a new water repellent coating consisting of PTFE particles dispersed in PVDF resin. This coating exhibited a contact angle of 150 degrees. By ice accreting test, the intensity of reflected microwave on the water-repellent coated plate did not decrease, whereas that on uncoated one decreased.
Hiroaki USUI Hiroshi KOSHIKAWA Kuniaki TANAKA
Thin films of PTFE (mean molecular weight of source material 8500) were deposited by ionization-assisted deposition (IAD) method at different ion acceleration voltages Va on substrates kept at room temperature. The molecular chains in the film were found to be oriented in parallel with the substrate, and the film has preferential crystal orientation to (100) plane. Although the ion acceleration did not give significant influence on the film orientation and chemical structure, IAD was effective to improve the surface smoothness. The Cu decoration test revealed that the pinhole density in the film is reduced and the insulating capability is improved by depositing the film at Va = 500 V. The result of dielectric loss measurement for Al/PTFE/Al capacitors was in consistency. However, excessive ion acceleration deteriorated the insulating property, probably due to the dielectric breakdown that occurred in the course of deposition.