First Fully Functionalized Monolithic 3D(+) IoT Chip with 0.5 V Light-electricity Power Management, 6.8 GHz Wireless-communication VCO, and 4-layer Vertical ReRAM

Abstract

For the first time, we report low-cost heterogeneously integrated sub-40nm epi-like Si monolithic internet of thins (IoT) 3D(+)-IC with wireless communication, light-electricity power management and vertical ReRAM (VRRAM) modules. High current driving multi-channel 3D(+) UTB-MOSFETs (600 mu A/282 mu A@V-G = +/- 1V for 10-channel P/N FETs) was fabricated by low thermal budget super-CMP-planarized visible laser-crystallized epi-like Si channel and CO2 far-infrared laser annealing (CO2-FIR-LA) activation technologies that support a 6.8GHz high frequency VCO circuits, 0.5V low-voltage power management circuit and drives 20nm 4-layer VRRAM (Set/Reset <1.2V/1.8V, 3-bits/cell). This unique TSV-free monolithic 3D(+)IC process provides the superiority in 3D hetero-integration; we successfully integrate these circuits in a low cost, small footprint, fully functionalized 3D(+) IoT chip.