This thesis studies relative power and phase detection system, which operates in Ka-band for 5G communication and is proposed to measure the phase and amplitude ratio between phase-array elements. First, this thesis reviews literatures related to phase shifter and power detector circuits as well as introduces their structures, theory, and application. Second, the thesis introduces two relative power and phase detectors which combine the phase shifter, coupler and the power detector. The first chip is a Ka-band vector detector system implemented by TSMC 180 nm CMOS technology and the chip size is 0.82 mm × 0.75mm. The measured dynamic range of power detector is from -4dBm to 9dBm at 28 GHz, under 1 dB log-error. The phase shifter had 5.4° RMS phase error and RMS amplitude error is 1.5dB. The second chip of Ka-band phase detector system is also implemented by TSMC 180 nm CMOS technology and the chip size is 0.81 mm × 0.76mm.This phase shifter is redesigned to give better phase uniformity. The phase shifter had 5.4° RMS phase error and RMS amplitude error is 1.5dB. Compared with actual amplitude and phase, the measured results of first chip have 15° phase error and 9% amplitude error. The results of second chip have 8° phase error and 20 % amplitude error.