Early voltage and saturation voltage improvement in deep sub-micron technologies using associations of transistors

Subscribe (Full Service)


	Search: The ACM Digital Library The Guide

	Feedback

Early voltage and saturation voltage improvement in deep sub-micron technologies using associations of transistors

Full text

Pdf (999 KB)

Source

SBCCI archive
Proceedings of the 21st annual symposium on Integrated circuits and system design table of contents

Gramado, Brazil

SESSION: Design for reliability table of contents

Pages 105-110

Year of Publication: 2008

ISBN:978-1-60558-231-3

Authors

Eduardo Conrad, Junior	Federal University of Rio Grande do Sul - UFRGS, Porto Alegre / RS, Brazil
Fernando Paixão Cortes	Federal University of Rio Grande do Sul - UFRGS, Porto Alegre / RS, Brazil
Sergio Bampi	Federal University of Rio Grande do Sul - UFRGS, Porto Alegre / RS, Brazil
Alessandro Girardi	Federal University of Pampa - UNIPAMPA, Alegrete / RS, Brazil

Sponsors

ACM: Association for Computing Machinery
SIGDA: ACM Special Interest Group on Design Automation

Publisher

ACM New York, NY, USA

Bibliometrics

Downloads (6 Weeks): 16, Downloads (12 Months): 59, Citation Count: 0

Additional Information:

abstract references index terms collaborative colleagues

Tools and Actions:	Review this Article Save this Article to a Binder Display Formats: BibTeX EndNote ACM Ref

DOI Bookmark:	Use this link to bookmark this Article: http://doi.acm.org/10.1145/1404371.1404406 What is a DOI?

ABSTRACT

The design of analog integrated circuits together with mixed-signal applications in deep sub-micron technologies is a difficult task, since state-of-the-art technologies and minimum channel length transistors, suitable for digital circuits, are very rarely optimized for analog block design. Non-desired effects are present shortest transistors, leading mainly to a high output conductance, which is disadvantageous for gain in the stages. In this work, we present measurement results supporting the associations of transistors concept to be used in such applications: the T-Shaped Transistor (TST). The main characteristic of this association is its trapezoidal nature, with no limit on the sizes of the unit composite transistors, providing lower output conductance and saturation voltage in comparison to regular configurations. Such electrical characteristics are demonstrated by means of electrical simulations and electrical measurements of a test chip fabricated by MOSIS in an IBM 0.18μm CMOS process.

REFERENCES

Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.

	1	Alessandro Girardi , Fernando P. Cortes , Eduardo Conrad, Jr. , Sergio Bampi, T-shaped association of transistors: modeling of multiple channel lengths and regular associations, Proceedings of the 18th annual symposium on Integrated circuits and system design, September 04-07, 2005, Florianolpolis, Brazil [doi>10.1145/1081081.1081094]
	2	GALUP-MONTORO, C.; SCHNEIDER, M.; LOSS, I. Series-Parallel Association of FET's for High Gain and High Frequency Applications. IEEE Journal of Solid-State Circuits, v.29, n.9, Sept. 1994.
	3	Alesssandro Girardi , Sergio Bampi, LIT - An Automatic Layout Generation Tool for Trapezoidal Association of Transistors for Basic Analog Building Blocks, Proceedings of the conference on Design, Automation and Test in Europe, p.11106, March 03-07, 2003
	4	CUNHA, A. I. A.; SCHNEIDER, M. C.; GALUP-MONTORO, C. An MOS Transistor Model for Analog Circuit Design. IEEE Journal of Solid-State Circuits, v.33, n.10, p.1510--1519, Oct. 1998.
	5	Yannis Tsividis, Operation and modeling of the MOS transistor, McGraw-Hill, Inc., New York, NY, 1987
	6	CHOI, J. H. Mixed-Signal Analog-Digital Circuits Design on the Pre-Diffused Digital Array Using Trapezoidal Association of Transistors. 2001. PhD Thesis. Universidade Federal do Rio Grande do Sul, Porto Alegre-RS.
	7	VEERAVALLI, A.; SÁNCHEZ-SINENCIO, E.; SILVA-MARTINEZ, J. Transconductance Amplifier Structures With Very Small Transconductances: a comparative design approach. IEEE Journal of Solid-State Circuits, v.37, n.6, p.770--775, June 2002.
	8	ENZ, C. Low-Power HF Microelectronics: a unified approach. 1996. p.247--299.
	9	RAJPUT, S. S.; JAMUAR, S. S. Low Voltage Analog Circuit Design Techniques. IEEE Circuits and Systems Magazine, v.2, n.1, p.24--42, 2002.
	10	CAMACHO-GALEANO, E. M.; GALUP-MONTORO, C.; SCHNEIDER, M. C. A 2- nW 1.1-V Self--Biased Current Reference in CMOS Technology. IEEE Transactions on Circuits and Systems - II: Express Briefs, v.52, n.2, p.61--65, Feb. 2005.
	11	LEE, H.; LEUNG, K. N.; MOK, P. K. T. Low-Voltage Analog Circuit Techniques Using Bias-Current Re-tilization, Self-Biasing and Signal Superposition. In: IEEE CONFERENCE ON ELECTRON DEVICES AND SOLID-STATE CIRCUITS, 2005. Proceedings... Piscataway: IEEE, 2005. p.533--536.