1 Volt CMOS current mirror based on pseudo resistive feedback

Alex P. James; K. R. Ajayan; M. R. Baiju

1 Volt CMOS current mirror based on pseudo resistive feedback

Alex P. James, K. R. Ajayan, M. R. Baiju

Department of Electrical and Computer Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

1 Citation (Scopus)

Abstract

This paper presents a new design for low supply voltage cascode current mirror using a pseudo resistive feedback. The pseudo resistance based feedback network is adopted for improving the current mirror circuit characteristics. This method is an improvement over the other current mirror configurations in terms of its size, input and output characteristics. The analytical results were verified using spice simulator for a 1V power supply and 0.18μm nwell process.

Original language	English
Title of host publication	MIPRO 2005 - 28th International Convention Proceedings
Subtitle of host publication	Microelectronics, Electronics and Electronic Technologies MEET, Hypermedia and Grid Systems HGS
Publication status	Published - Dec 1 2005
Event	28th International Convention Proceedings: Microelectronics, Electronics and Electronic Technologies MEET, Hypermedia and Grid Systems HGS 2OO5 - Opatija, Croatia Duration: May 30 2005 → Jun 3 2005

Publication series

Name	MIPRO 2005 - 28th International Convention Proceedings: Microelectronics, Electronics and Electronic Technologies MEET, Hypermedia and Grid Systems HGS
Volume	1

Other

Other	28th International Convention Proceedings: Microelectronics, Electronics and Electronic Technologies MEET, Hypermedia and Grid Systems HGS 2OO5
Country	Croatia
City	Opatija
Period	5/30/05 → 6/3/05

ASJC Scopus subject areas

Electrical and Electronic Engineering
Electronic, Optical and Magnetic Materials
Surfaces, Coatings and Films
Condensed Matter Physics
Atomic and Molecular Physics, and Optics

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Cite this

James, A. P., Ajayan, K. R., & Baiju, M. R. (2005). 1 Volt CMOS current mirror based on pseudo resistive feedback. In MIPRO 2005 - 28th International Convention Proceedings: Microelectronics, Electronics and Electronic Technologies MEET, Hypermedia and Grid Systems HGS (MIPRO 2005 - 28th International Convention Proceedings: Microelectronics, Electronics and Electronic Technologies MEET, Hypermedia and Grid Systems HGS; Vol. 1).

1 Volt CMOS current mirror based on pseudo resistive feedback. / James, Alex P.; Ajayan, K. R.; Baiju, M. R.

MIPRO 2005 - 28th International Convention Proceedings: Microelectronics, Electronics and Electronic Technologies MEET, Hypermedia and Grid Systems HGS. 2005. (MIPRO 2005 - 28th International Convention Proceedings: Microelectronics, Electronics and Electronic Technologies MEET, Hypermedia and Grid Systems HGS; Vol. 1).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

James, AP, Ajayan, KR & Baiju, MR 2005, 1 Volt CMOS current mirror based on pseudo resistive feedback. in MIPRO 2005 - 28th International Convention Proceedings: Microelectronics, Electronics and Electronic Technologies MEET, Hypermedia and Grid Systems HGS. MIPRO 2005 - 28th International Convention Proceedings: Microelectronics, Electronics and Electronic Technologies MEET, Hypermedia and Grid Systems HGS, vol. 1, 28th International Convention Proceedings: Microelectronics, Electronics and Electronic Technologies MEET, Hypermedia and Grid Systems HGS 2OO5, Opatija, Croatia, 5/30/05.

James AP, Ajayan KR, Baiju MR. 1 Volt CMOS current mirror based on pseudo resistive feedback. In MIPRO 2005 - 28th International Convention Proceedings: Microelectronics, Electronics and Electronic Technologies MEET, Hypermedia and Grid Systems HGS. 2005. (MIPRO 2005 - 28th International Convention Proceedings: Microelectronics, Electronics and Electronic Technologies MEET, Hypermedia and Grid Systems HGS).

James, Alex P. ; Ajayan, K. R. ; Baiju, M. R. / 1 Volt CMOS current mirror based on pseudo resistive feedback. MIPRO 2005 - 28th International Convention Proceedings: Microelectronics, Electronics and Electronic Technologies MEET, Hypermedia and Grid Systems HGS. 2005. (MIPRO 2005 - 28th International Convention Proceedings: Microelectronics, Electronics and Electronic Technologies MEET, Hypermedia and Grid Systems HGS).

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