Noise coupling between TSVs and active devices: Planar nMOSFETs vs. nFinFETs

Through Silicon vias (TSVs) are a key breakthrough in 3D technology to shorten global interconnects and enable the heterogeneous integration. However, TSVs also introduce an important source of noise coupling arising from electrical coupling between TSVs and the active devices. This paper investigates the TSV noise coupling to active devices including both FinFETs and planar transistors based on two-port S-parameter measurements up to 40 GHz. The measurements clearly show that nFinFETs have better noise coupling immunity than planar nNMOSFETs. The dominant coupling mechanisms were also identified for both types of active devices. Moreover, calibrated TCAD models were developed. We show that via-last TSV architectures with thick liners (“donut TSVs”) and scaled TSV diameters reduce the noise coupling to active devices. Finally, both coupling and stress induced saturation current variations as a function of TSV to active devices distance were investigated. This allows us to propose a novel model for the TSV Keep Out Zone (KOZ) including electromagnetic coupling effects.