Through silicon via (TSV) noise coupling effects on RF LC-VCO in 3D IC

Through silicon via (TSV) based 3-dimensional integrated circuit (3D IC) has become the key solution to satisfy continuously increasing demands for small form factor, wide bandwidth, high performance, and low power consumption on electronic devices. However, there still remain several challenges to be solved; one of the most significant issues in 3D IC is TSV to active circuit noise coupling. In this paper, we analyzed the noise coupling between TSV and LC-VCO, which is an important component in RF communication system. When TSV is located near LC-VCO, the noise can easily travel through silicon substrate to the body of MOSFETs in LC-VCO. The noise coupling mechanisms of TSV to PMOS and NMOS are analyzed by voltage transfer functions in frequency-domain obtained by 3D electromagnetic solver simulation. The voltage transfer function between TSV and MOS is analyzed under variations of several physical parameters to clarify the tendencies of noise coupling. In addition, the noise coupling effect on PMOS and NMOS in LCVCO are investigated and compared in terms of sensitivity, such as phase noise.