In this paper, a dual-band dual-polarization stub-loaded antenna operating at 28 and 39 GHz is developed. Combining with the 5G beamforming ASIC, the active antenna in package (AiP) is realized in five-layer PCB. AiP is the best solution to reduce the transmission loss between antenna and ICs. Due to its small size, AiP is suitable for mobile communication user equipment. The proposed beamforming system is an important 5G transceiver module of 5G millimeter-wave communications. To improve the polarization purity for the antenna array, the rotation symmetry technology is utilized. The digital front-end circuit, developed by Anokiwave, Inc., provides adjustable gain and phase and supports both TX and RX operations. The phased array is controlled by a microcontroller unit. The simulated maximum gain of the 2×2 dual-band dual-polarization antenna array is 9.4-11.5 dBi, and the maximum gain of ICs is 24 dB. The measured maximum gain of the beamforming system is 34.0-35.5 dBi. A tri-band stacked patch antenna operating at 26, 40, and 68.5 GHz is also developed in this paper. The top layer is a stub-loaded patch with slots which is designed for tri-band resonances. The bottom rectangular patch is optimized for the radiation pattern at 68.5 GHz and the bandwidth for 26 and 40 GHz. The proposed antenna simulated maximum gains are 4.38/5.0/5.0 dBi at 26/40/68.5 GHz, respectively. Based on the proposed antenna, the tri-band dual-polarization 1×4 array is designed, and the maximum gain becomes 8.6-10.5 dBi. The overall widths of both the proposed antenna element and array are smaller than the thickness of mainstream mobile phones. It can replace the end-fire antenna on the side of the mobile phone to make good use of the space in mobile phones.