Reduction of minimum operating voltage (VDDmin) of CMOS logic circuits with post-fabrication automatically selective charge injection
نویسندگان
چکیده
In order to reduce minimum operating voltage (VDDmin) of CMOS logic circuits, a new method reducing the within-die random threshold (VTH) variation of transistors by a post-fabrication automatically selective charge injection using substrate hot electrons (SHE) is proposed along with novel circuitry to utilize this. In the new circuit, switches are added to combinational logic circuits in order to turn them into latch loops. In order to reduce VDDmin, design guides on the optimal (1) loop topology, (2) number of stages in a loop, (3) VTH shift per charge injection, and (4) number of charge injection trials are explored through simulations. By applying the proposed scheme to 96stage inverter chain fabricated in 65-nm CMOS, the measured reduction of VDDmin from 94mV to 74mV is successfully demonstrated for the first time.
منابع مشابه
13th Int'l Symposium on Quality Electronic Design
A post-fabrication dual supply voltage (VDD) control (PDVC) of multiple voltage domains is proposed for a minimum operating voltage (VDDmin)-limited ultra low voltage logic circuits. PDVC effectively reduces an average VDD below VDDmin, thereby reducing the power consumption of logic circuits. PDVC is applied to a DES CODEC’s circuit fabricated in 65nm CMOS. The layout of DES CODEC’s is divided...
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