This thesis proposes a digital vector sum phase shifter (VSPS) operating at Ka-band. This work is designed for the beam-forming in 5th generation wireless system. The phase shifter in this thesis uses a phase-invertible variable attenuator (PIVA) and 90°coupler to achieve in-phase and quadrature (I/Q) signals then, uses variable gain amplifier (VGA) to adjust the amplitude of I/Q signals, and finally combines I/Q signals by power combiner to generates the required phase. A current DAC is used to control the variable gain amplifier, and a decoder is used to control this current DAC to reduce the number of pads in chip layout. The digital signals used include decoder, attenuator in variable gain amplifier, PIVA control for four phase, total of 8 digital signals to realize a 4-bit VSPS. This thesis will present two chips, the first chip is a digitally controlled variable gain amplifier with seven gain states. Its gain range is 14dB, and the phase variation among gain state switching is less than 10°.The second chip is a digitally controlled 4-bit vector sum phase shifter. The average gain of 16 states in simulation is 4.65dB, the RMS phase error is less than 3.5°, RMS gain error is less than 0.8dB at 28GHz. DC power consumption is 30mW. The circuits in this thesis are all implemented by TSMC’s 180nm CMOS process. These two chips have errors in layout, and these errors are debugged in the thesis. The center frequency of the first chip is shifted to 21GHz in measurement, and its gain range is about 25dB with maximum gain at -1.49dB. The center frequency of digitally controlled VGA in second chip also shifted to 21GHz, but the phase shifter still works at 28GHz. Its maximum gain is -29.84dB at 28GHz with RMS phase error at 5.9°, RMS amplitude error at 0.85dB, and DC power consumption is about 29mW.