A scalable high-voltage output driver for low-voltage CMOS technologies
IEEE Transactions on Very Large Scale Integration (VLSI) Systems
Design of mixed-voltage-tolerant crystal oscillator circuit in low-voltage CMOS technology
IEEE Transactions on Circuits and Systems Part I: Regular Papers - Special issue on ISCAS2008
Speed-enhanced CMOS level shifting circuits for VLSI applications
ICAI'05/MCBC'05/AMTA'05/MCBE'05 Proceedings of the 6th WSEAS international conference on Automation & information, and 6th WSEAS international conference on mathematics and computers in biology and chemistry, and 6th WSEAS international conference on acoustics and music: theory and applications, and 6th WSEAS international conference on Mathematics and computers in business and economics
A 2íVDD output buffer with PVT detector for slew rate compensation
Microelectronics Journal
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The fact that many integrated circuits now operate from 3V power supplies, in particular, embedded controllers, memories, and a variety of logic chips, while only 5 V versions are available of some peripheral components has led to the use of mixed-voltage systems. The disadvantages of these systems are examined, and ways of dealing with them are discussed. Compared to systems using 5 V components only, the mixed systems offer the advantages of longer battery life and smaller size and weight