A 48 MHz 880-nW Standby Power Normally-Off MCU with 1 Clock Full Backup and 4.69-μs Wakeup Featuring 60-nm Crystalline In–Ga–Zn Oxide BEOL-FETs
2019 Symposium on VLSI Circuits(2019)
Abstract
We have prototyped a microcontroller (MCU) that employs crystalline In-Ga-Zn oxide transistors having an extremely low off current below 10
-21
A. The IGZO-based MCU can retain data during power gating in both of its processing unit and memory, and there is an integrated voltage regulator that can store the reference voltage. The MCU is prototyped with the combination of 60-nm IGZO (in BEOL) and 110-nm Si CMOS processes. It has a standby power of 880 nW, a system backup time of 21 ns and a system wakeup time of 4.69 μs. The MCU that employs IGZO technology can be applied to devices which require low power consumption as well as fast wakeup.
MoreTranslated text
Key words
power gating,processing unit,integrated voltage regulator,reference voltage,system backup time,system wakeup time,IGZO technology,CMOS processes,power consumption,crystalline transistors,crystalline BEOL-FET,normally-off MCU,microcontroller,current 21.0 A,power 880.0 nW,time 21.0 ns,time 4.69 mus,size 60 nm,size 110 nm,frequency 48 MHz,InGaZnO,Si
AI Read Science
Must-Reading Tree
Example
Generate MRT to find the research sequence of this paper
Chat Paper
Summary is being generated by the instructions you defined