['In this paper, three 5.2-GHz power amplifiers are presented, which were separately utilized the techniques of transformer power combining, current combining transformer and build-in linearizer, and implemented in 0.18-μm CMOS technology. The measurements of three power amplifiers include S-parameters, continuous wave signal and digital modulation signal with OFDM 54 Mbps 64-QAM of IEEE 802.11a WLAN. First, a 5.2 GHz power amplifier with transformer power combining technique has been designed and implemented. To achieve input impedance matching, output power matching and high output power, we utilize the transformer to implement the impedance conversion and the power combining. When the VG1 of the power amplifier operating in 0.85 V, the power amplifier exhibits the power gain of 16.59 dB, the saturated output power of 24.9 dBm, the output power of 20.3 dBm at 1-dB compression point, the quiescent current of 218.35 mA and the maximum power added efficiency of 28.37 %. When the VG1 of the power amplifier operating in 1.0 V, the power amplifier exhibits the power gain of 16.27 dB, the saturated output power of 24.79 dBm, the output power of 18 dBm at 1-dB compression point, the quiescent current of 334.91 mA and the maximum power added efficiency of 26.46 %.The chip size is 1.2 mm × 0.6 mm. Second, based on the 5.2 GHz power amplifier with transformer power combining technique, a 5.2 GHz power amplifier with current combining transformer technique has been designed and implemented. To achieve the higher output power, current combining transformer technique is adopted. When the VG1 of the power amplifier operating in 0.85 V, the power amplifier demonstrates the power gain of 14.29 dB, the saturated output power of 27.59 dBm, the output power of 21.43 dBm at 1-dB compression point, the quiescent current of 457.9 mA and the maximum power added efficiency of 20.18 %. When the VG1 of the power amplifier operating in 1.0 V, the power amplifier demonstrates the power gain of 13.48 dB, the saturated output power of 27.49 dBm, the output power of 17.96 dBm at 1-dB compression point, the quiescent current of 666.61 mA and the maximum power added efficiency of 18.83 %.The chip size is 1.2 mm × 1.15 mm. Finally, based on the 5.2 GHz power amplifier with current combining transformer technique, a built-in linearizer utilizing cascode configuration for 5.2 GHz power amplifier has been designed and implemented. The proposed linearization technique which is shunted in the front end of the second circuit aims to control the improvement of the linearity of the power amplifier by the Vctrl. After linearization with the VG1 of the power amplifier operating at 1.0 V, the power amplifier demonstrates the power gain of 8.74 dB, the saturated output power of 25.01 dBm, the output power of 22 dBm at 1-dB compression point and the maximum power added efficiency of 9.92 %. Third-order intermodulation distortion can be suppressed below to 35 dBc until the output power of 18 dBm. Error vector magnitude can be suppressed below to 2% until the output power of 16 dBm. The output power can be achieved to 19 dBm when the error vector magnitude is around the restriction of IEEE 802.11a WLAN standard of 5.6 %. The chip size is 1.2 mm × 1.17 mm. ']