Title :
Noise-immune design of Schmitt trigger logic gate using DTMOS for sub-threshold circuits
Author :
Kyungsoo Kim ; Wansoo Nah ; SoYoung Kim
Author_Institution :
Dept. of Semicond. Display Eng., SungKyunKwan Univ., Suwon, South Korea
Abstract :
This paper presents several Schmitt trigger logic gates with enhanced noise immunity using variable threshold voltage technique for sub-threshold voltage operation. The proposed logic gates are based on buffer design using dynamic threshold voltage MOS (DTMOS) for low power operation (VDD=0.4V). Our solution dramatically improves noise immunity of logic gates with much less switching power consumption and significant area reduction compared with CMOS Schmitt triggers at the expense of slight increase in delay. The proposed noise immune gate design scheme is verified with an example digital circuit.
Keywords :
digital circuits; logic gates; low-power electronics; threshold logic; trigger circuits; DTMOS; Schmitt trigger logic gate; buffer design; digital circuit; dynamic threshold voltage MOS; low power operation; noise-immune design; sub-threshold circuits; sub-threshold voltage operation; switching power consumption; variable threshold voltage technique; voltage 0.4 V; Conferences; Electromagnetic compatibility; Integrated circuits; DTMOS; EMC; EMI; Schmitt Trigger; VTMOS; hysteresis; noise immunity;
Conference_Titel :
Electromagnetic Compatibility of Integrated Circuits (EMC Compo), 2013 9th Intl Workshop on
Conference_Location :
Nara
DOI :
10.1109/EMCCompo.2013.6735178
