1-2hit |
Satoshi MAKIOKA Yoshiharu ANDA Daisuke UEDA
The off-state shunt GaAs FET, which is the most important for low distortion operation of the high power RF switch IC, is a very complicated device to analyze the RF voltage. Because the conventional measurement method has an influence on the behavior of the switch, it has not provided the correct measurement value. In this paper, we have realized a measurement method without touching the surface of the switch IC using EO-probe. As a result we achieved extremely low second and third harmonics of 70.5 dBc and 75.2 dBc, respectively at the input power of 35 dBm by adoptin SPDT switch IC composed of the multi-gate FET for the thru FET and the stacked-gate FET.
Atsushi KAMEYAMA Katsue K.KAWAKYU Yoshiko IKEDA Masami NAGAOKA Kenji ISHIDA Tomohiro NITTA Misao YOSHIMURA Yoshiaki KITAURA Naotaka UCHITOMI
A GaAs SPDT switch IC operating at a low power supply voltage of 2.7 V has been developed for use in 1.9 GHz band personal handy phone system (PHS). In combination with MESFETs with low on-resistance and high breakdown voltage, the switch IC adopts parallel-LC resonant circuits and utilizes both stacked FETs and an additional shunt capacitor at the receiver side in order to realize low insertion loss, high isolation and low distortion characteristics. An insertion loss of 0.55 dB and an isolation of 35.8 dB were obtained at 1.9 GHz. The IC also achieved an output power of 25.0 dBm at 1 dB gain compression point, a second order distortion of -54.3 dBc and an adjacent channel leakage power of -66 dBc at 600 kHz apart from 1.9 GHz at 19 dBm output power.