This thesis deals with the design of 10 GHz Doherty power amplifier implemented on 0.13μm RFCMOS for the linearity improvement and efficiency enhancement. The fully integrated design implements main amplifier, which is so-called carrier amplifier, auxiliary amplifier, which is so-called peaking amplifier, 1:2 power divider, input and output matching networks, and so forth. On top of that, the Complementary-Conducting-Strip Transmission Line is introduced in this thesis, for it plays an important part in the design of power amplifier. Especially, the latest design, Condensed Complementary-Conducting-Strip Transmission Line, which is one of the interested designs of CCS TL, is also introduced in the thesis owing to the fact that it exhibits higher characteristic impedance and higher quality factor than the conventional CCS TL designs. Furthermore, it accomplishes a great deal of size-reduction of IC-chips. To sum up, the design issues and procedures of 10 GHz Doherty power amplifier are discussed throughout this thesis.