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2011 | OriginalPaper | Buchkapitel

6. Overall Design

verfasst von : Prof. Johan Huijsing

Erschienen in: Operational Amplifiers

Verlag: Springer Netherlands

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Abstract

The previous chapters dealt with two important stages of OpAmps. With the design of the input stage the aspects of bias, offset, drift, noise, common-mode rejection, and rail-to-rail input range were covered. With the design of the output stage power efficiency, classification of the fully VF, compound VF/GA, and rail-to-rail fully GA output stages with feed forward and feedback class-AB biasing were presented. The remaining attributes of gain, high-frequency response, slew rate, and linearity have to be performed by the whole of the input, intermediate, and output stages. That is the subject of this chapter.

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Vorheriges Kapitel Output Stages

Nächstes Kapitel Design Examples

6.1

J.H. Huijsing, F. Tol, Monolithic operational amplifier design with improved HF behavior. IEEE J. Solid-St. Circ. SC-11, 323–328 (1976)CrossRef

6.2

K. Bult, G.J.G.M. Gielen, A fast settling CMOS op amp for SC-circuits with 90 dB gain. IEEE J. Solid-St. Circ. SC-25(12), 1379–1383 (1990)CrossRef

6.3

J.H. Huijsing, D. Linebarger, Low-voltage operational amplifier with rail-to-rail input and output ranges. IEEE J. Solid-St. Circ. SC-20(6), 1144–1150 (1985)CrossRef

6.4

R. Caprio, Precision differential voltage-current converter. Electron. Lett. 9, 147–148 (1973)CrossRef

6.5

H. Nyquist, Regeneration theory. Bell Syst. Tech. J. 11, 126–147 (1932)MATH

6.6

H.W. Bode, Network Analysis and Feedback Amplifier Design. (D. van Nostrand Company Inc., New York, 1949)

6.7

B.Y. Kamath, R.G. Meyer, P.R. Gray, Relationship between frequency response and settling time of operational amplifiers. IEEE J. Solid-St. Circ. SC-9(6), 347–352 (1974)CrossRef

6.8

B. Nauta, A CMOS transconductance-C filter technique for very high frequencies. IEEE J. Solid-St. Circ. 27(2), 142–153 (1992)CrossRef

6.9

J.M. Miller, Dependence of the input impedance of a three-electrode vacuum tube upon the load in the plate circuit. Sci. Paper Bur. Stds. 15(351), 367–385 (1920)

6.10

R. Hogervorst et al., A compact power-efficient 3 V CMOS rail-to-rail input/output operational amplifier for VLSI cell libraries. IEEE J. Solid-St. Circ. 29(12), 1505–1513 (1994)CrossRef

6.11

R. Hogervorst, J.H. Huijsing, Design of Low-Voltage Low-Power Operational Amplifier Cells (Kluwer Academic Publishers, Boston, 1996)

6.12

R.G.H. Eschauzier, J.H. Huijsing, An operational amplifier with multipath Miller zero cancellation for RHP zero removal, Proceedings ESSCIRC 1993, Editions Frontières, Gif-sur-Yvettes, France

6.13

R.G.H. Eschauzier, J.H. Huijsing, Frequency Compensation Techniques for Low-Power Operational Amplifiers (Kluwer Academic Publishers, Boston, 1995)

6.14

M.J. Fonderie, J.H. Huijsing, Design of Low-Voltage Bipolar Operational Amplifiers (Kluwer Academic Publishers, Boston, 1993)

6.15

M.J. Fonderie, J.H. Huijsing, Operational amplifier with 1-V rail-to-rail Multipath-Driven output stage. IEEE J. Solid-St. Circ. 26(12), 1817–1824 (1991)CrossRef

6.16

R.G.H. Eschauzier, R. Hogervorst, J.H. Huijsing, A programmable 1.5 V CMOS class-AB operational amplifier with Hybrid Nested Miller compensation for 120 dB gain and 6 MHz UGF. IEEE J. Solid-St. Circ. 29(12), 1497–1504 (1994)CrossRef

6.17

R.J. Reay, G.T.A Kovacs, An unconditionally stable two-stage CMOS amplifier. IEEE J. Solid-St. Circ. 30(5), 591–594 (1995)CrossRef

6.18

A. Bakker, Low-dropout voltage regulator with improved stability for all capacitive loads, U.S. Patent 6,373,233 B2, 16 April 2002

6.19

K.N. Leung, P.K.T. Mok, W.H. Ki, J.K.O. Sin, Three-stage large capacitive load amplifier with damping-factor-control frequency compensation. IEEE J. Solid-St. Circ. 35(2), 221–230 (2000)CrossRef

6.20

X. Peng, W. Sansen, Transconductance with capacitances feedback compensation for multistage amplifiers. IEEE J. Solid-St. Circ. 40(7), 1514–1520 (2005)CrossRef

6.21

V. Dhanasekaran, J.S. Martinez, E. Sanchez-Sinenco, Design of three-stage class-AB 16 Ohm headphone driver capable of handling wide range of load capacitance. IEEE J. Solid-St. Circ. 44(6), 1734–1744 (2009)CrossRef

6.22

J. Hu, J.H. Huijsing, K.A.A. Makinwa, A three-stage amplifier with quenched multipath frequency compensation for all capacitive loads. IEEE international symposium on circuits and systems, ISCAS 2007, 27–30 May 2007, pp. 225–228

6.23

J.H. Hiujsing, (as misspelled in US Patent 4,559,502), Multi-stage amplifier with capacitive nesting for frequency compensation, U.S. Patent 4,559,502, filed by Signetics Corporation (Sunnyvale, CA), 17 Dec 1985

6.24

D. Marano, G. Palumbo, S. Pennisi, Improved Power-Efficient RNMC technique with voltage buffer and nulling resistors for low-power high-load three-stage amplifiers. JCSC 18(7), 1321–1331 (2009)

6.25

A.D. Grasso, D. Marano, G. Palumbo, S. Pennisi, Improved reversed Nested Miller frequency compensation technique with voltage buffer and resistor. IEEE Trans. Circ.Syst. 2: Express briefs 54(5), 382–386 (2007)CrossRef

6.26

K.L. de Langen, J.H. Huijsing, Compact Low-Voltage and High-Speed CMOS, BiCMOS and Bipolar Operational Amplifiers (Kluwer Academic Publishers, Boston, 1999), 200 pp

Titel: Overall Design
verfasst von: Prof. Johan Huijsing
Verlag: Springer Netherlands
Buch: Operational Amplifiers
Print ISBN: 978-94-007-0595-1

Electronic ISBN: 978-94-007-0596-8

Copyright-Jahr: 2011
DOI: https://doi.org/10.1007/978-94-007-0596-8_6

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