An improved band-gap voltage reference circuit design for multimedia VLSI systems integration applications

Hdl Handle:
http://hdl.handle.net/10149/58346
Title:
An improved band-gap voltage reference circuit design for multimedia VLSI systems integration applications
Book Title:
High speed networks and multimedia communications
Authors:
Xu, W. (Wendan); Xu, D. (Donglai); French, I. (Ian)
Editors:
Mammeri, Z.; Lorenz, P.
Affiliation:
Xian Aero-technical College. Department of Computer Engineering. China; University of Teesside. School of Science and Technology.
Citation:
Xu, W., Xu, D. and French, I. (2004) 'An improved band-gap voltage reference circuit design for multimedia VLSI systems integration applications', 7th IEEE International Conference, High Speed Networks and Multimedia Communications, Toulouse, France, June 30 - July 2, in Mammeri, Z. and Lorenz, P. (eds) High speed networks and multimedia communications, Lecture notes in computer science, pp.878-884.
Publisher:
Springer Berlin / Heidelberg
Conference:
7th IEEE International Conference, High Speed Networks and Multimedia Communications, 2004, Toulouse, France, June 30 - July 2, 2004.
Issue Date:
2004
URI:
http://hdl.handle.net/10149/58346
DOI:
10.1007/b98322
Additional Links:
http://springerlink.metapress.com/content/0ffwue5lqqqprt60/?p=f4fe8470eba94bc8902eed47f79d9ee9&pi=80
Abstract:
This paper presents an improved band-gap voltage reference circuit design for communication and multimedia systems integration applications. The circuit possesses the characteristics of low-voltage, low-power dissipation and low temperature coefficient and is, thus, suitable for mobile communication and multimedia applications. In order to reduce input voltage and power consumption and to provide the output reference voltage that is resistant to temperature and power supply variations, the design uses a MOS peaking current mirror and an improved cascode current mirror to construct self-biasing circuit. The simulation results show that the design has achieved a minimum power supply of 1.5V. With a 3.3V power supply, the power dissipation is less than 40uw, and within the temperature range from –20C to 70 C, the reference voltage is between 1.3043 ± 0.0005V.
Type:
Meetings and Proceedings; Book Chapter
Keywords:
band-gap voltage reference; circuit design; multimedia VLSI systems; communication and multimedia systems; integration applications.
Series/Report no.:
Lecture notes in computer science; 3079
ISBN:
978-3-540-22262-0

Full metadata record

DC FieldValue Language
dc.contributor.authorXu, W. (Wendan)-
dc.contributor.authorXu, D. (Donglai)-
dc.contributor.authorFrench, I. (Ian)-
dc.contributor.editorMammeri, Z.-
dc.contributor.editorLorenz, P.-
dc.date.accessioned2009-04-01T10:49:40Z-
dc.date.available2009-04-01T10:49:40Z-
dc.date.issued2004-
dc.identifier.isbn978-3-540-22262-0-
dc.identifier.doi10.1007/b98322-
dc.identifier.urihttp://hdl.handle.net/10149/58346-
dc.description.abstractThis paper presents an improved band-gap voltage reference circuit design for communication and multimedia systems integration applications. The circuit possesses the characteristics of low-voltage, low-power dissipation and low temperature coefficient and is, thus, suitable for mobile communication and multimedia applications. In order to reduce input voltage and power consumption and to provide the output reference voltage that is resistant to temperature and power supply variations, the design uses a MOS peaking current mirror and an improved cascode current mirror to construct self-biasing circuit. The simulation results show that the design has achieved a minimum power supply of 1.5V. With a 3.3V power supply, the power dissipation is less than 40uw, and within the temperature range from –20C to 70 C, the reference voltage is between 1.3043 ± 0.0005V.-
dc.publisherSpringer Berlin / Heidelberg-
dc.relation.ispartofseriesLecture notes in computer science-
dc.relation.ispartofseries3079-
dc.relation.urlhttp://springerlink.metapress.com/content/0ffwue5lqqqprt60/?p=f4fe8470eba94bc8902eed47f79d9ee9&pi=80-
dc.subjectband-gap voltage reference-
dc.subjectcircuit design-
dc.subjectmultimedia VLSI systems-
dc.subjectcommunication and multimedia systems-
dc.subjectintegration applications.-
dc.titleAn improved band-gap voltage reference circuit design for multimedia VLSI systems integration applications-
dc.typeMeetings and Proceedings-
dc.typeBook Chapter-
dc.contributor.departmentXian Aero-technical College. Department of Computer Engineering. China; University of Teesside. School of Science and Technology.-
dc.title.bookHigh speed networks and multimedia communications-
dc.identifier.conference7th IEEE International Conference, High Speed Networks and Multimedia Communications, 2004, Toulouse, France, June 30 - July 2, 2004.-
ref.assessmentRAE 2008-
or.citation.harvardXu, W., Xu, D. and French, I. (2004) 'An improved band-gap voltage reference circuit design for multimedia VLSI systems integration applications', 7th IEEE International Conference, High Speed Networks and Multimedia Communications, Toulouse, France, June 30 - July 2, in Mammeri, Z. and Lorenz, P. (eds) High speed networks and multimedia communications, Lecture notes in computer science, pp.878-884.-
prism.startingPage878-
prism.endingPage884-
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