Data Conversion
Fundamentals
A.1 M. Gustavsson, J. Wikner, N. Tan, CMOS Data Converters for Communications,
Kluwer Academic Publishers, 2000.
A.2 B. Razavi, Principles
of Data Conversion System Design,
Wiley-IEEE Press, 1994.
A.3 ADC and DAC Glossary by Maxim.
A.4 B. Murmann, "ADC Performance
Survey 1997-2009," [Online].
A.5 S.
Pavan, N. Krishnapura,
EE658: Data Conversion Circuits Course at IIT
A.6 The Fundamentals of FFT-Based Signal Analysis and
Measurement, T.I. App Note here.
Delta-Sigma Data
Converters
B.1 R. Schreier, G. C. Temes, Understanding Delta-Sigma Data Converters,
Wiley-IEEE Press, 2005 (the Green Book of Delta-Sigma Converters).
B.2 S. R. Norsworthy, R. Schreier, G. C. Temes, Delta-Sigma
Data Converters: Theory, Design, and Simulation, Wiley-IEEE Press, 1996
(the Yellow Book of Delta-Sigma Converters).
B.3 R. M. Gray, “Quantization
Noise Spectra,” IEEE Tan. Information Theory, vol. 36, no. 6, Nov. 1990.
B.4 S. H. Ardalan, J.
J. Paulos, “An Analysis of Nonlinear behavior in
Delta-Sigma Modulators,” IEEE TCAS, vol. 34, no. 6, June 1987.
B.5 R. Schreier, “An
Empirical Study of Higher-Order Single-Bit Delta-Sigma Modulators,” IEEE
TCAS-II, vol. 40, no. 8, pp. 461-466, Aug. 1993.
B.6 J. G.
Kenney and L. R. Carley, “Design of multibit noise-shaping data converters,” Analog
Integrated Circuits Signal Processing Journal, vol. 3, pp. 259-272, 1993.
B.7 L. Risbo, “Delta-Sigma Modulators: Stability Analysis and
Optimization,” Doctoral Dissertation,
B.8 R. Schreier, J.
Silva, J. Steensgaard, G. C. Temes,“Design-Oriented
Estimation of Thermal Noise in Switched-Capacitor Circuits,” IEEE TCAS-I,
vol. 52, no. 11, pp. 2358-2368, Nov. 2005.
Continuous-Time
Delta-Sigma Converters
C.1 M. Ortmanns,
F. Gerfers, Continuous-Time Sigma-Delta A/D
Conversion: Fundamentals, Performance Limits and Robust Implementations,
Springer, 2006.
C.2 J.A. Cherry, “Theory,
Practice, and Fundamental Performance Limits of High-Speed Data Conversion
Using Continuous-Time Delta-Sigma Modulators,” PhD Thesis,
C.3 K. Reddy, S. Pavan, “Fundamental Limitations of Continuous-time
Delta-Sigma Modulators due to Clock Jitter,” IEEE TCAS-I, vol. 54, no.
10, pp. 2185-2194, Oct. 2007.
C.4 S. Pavan,
C.5 S. Pavan,
“Excess Loop Delay Compensation in Continuous-time Delta-Sigma Modulators”, IEEE
TCAS-II: Express Briefs, vol. 55, no. 11, pp. 1119-1123 , Nov. 2008.
C.6 Z. Li, T. S. Fiez, “A 14-bit Continuous-Time Delta-Sigma A/D Modulator
with 2.5 MHz Signal Bandwidth,” IEEE JSSC, vol. 42, no. 9, pp.
1873-1883, Sept. 2007.
C.7 S. Pavan
and
C.8 X. Chen, “A Wideband
Low-Power Continuous-Time Delta-Sigma Modulator for Next Generation Wireless
Application,” PhD Dissertation,
CAD for Mixed-Signal
Design
D.1 K. Kundert, “Principles of Top-Down Mixed-Signal Design,” Designer’s
Guide Community [Online].
D.2 K. Kundert, “Simulating
Switched-Capacitor Filters with SpectreRF,” Designer’s
Guide Community [Online]. (Note: Use the virtuoso
GUI for PSS analysis instead of
scripting it.)
D.3 K. Kundert, “Device Noise Simulation of Delta-Sigma
Modulators,” Designer’s Guide Community [Online].
Example Datasheets
E.1 A 16-bit, 2.5MHz/5 MHz/10
MHz, 30 MSPS to 160 MSPS Dual Continuous Time Sigma-Delta ADC – AD9262,
Analog Devices, 2008.
E.2 A
24-bit, 192 kHz Multi-bit Audio ADC – CS5340,
Cirrus Logic, 2008.
Handouts
H.1 Filter Design and
Implementation using Matlab is here.
H.2 Multi-bit Delta-Sigma
Modulators is here.
Software Tools
T.1 R. Schreier,
Matlab Delta-Sigma Toolbox, 2009 [Online], [Manual], [One page summary].
T.2 P.
Malcovati, Simulink Delta-Sigma Toolbox 2, 2009. Available [Online].
T.3 Cadence Tutorials and MATLAB examples at CMOSedu.
T.4 Information on running Cadence on Nomachine/Cadence at BSU is here.
T.5 Information on linking Matlab and Spectre in Linux
environment is here.
T.6 Verilog-AMS
Language Reference Manual
and The Designer’s Guide Community Verilog-A/MS.
T.7 Lyx
(Latex based WSIWYM tool, excellent for mathematical and technical typesetting)
for drafting your reports and papers.
T.8 Visio symbols for drafting schematics are here. Visio schematics can be directly copy-pasted
into Lyx and saved as emf.
Other References
Z.1 DSP: A. V. Oppenheim, R. W. Schafer, Discrete-Time Signal Processing, Prentice Hall (the DSP
Book).
Z.2 Analog Filter
Design: R. Schaumann, M. E. Van Valkenburg,
Design of Analog Filters,
Z.3 Switched-Capacitor Design: R. Gregorian, G. C. Temes, Analog CMOS Integrated Circuits for Signal
Processing, Wiley-Interscience, 2004.
Z.4 Spectral Windows: F. J. Harris, “On the Use
of Windows for Harmonic Analysis with the Discrete Fourier Transform,” proc.
IEEE, vol. 66, no. 1, Jan 1978 [Online].
Z.5 Transistor
Mismatch Analysis: Pelgrom et. al., “Matching Properties of
MOS Transistors,” IEEE JSSC, vol. 24, no. 5, Oct. 1989 [Online].
Z.6 C. Mohtadi,
“Bode’s integral theorem for discrete-time systems,” IEEE
Proc. Controls, vol. 137, no. 2, Mar. 1990.
Z.7
Z.8 VLSI Communication Systems
Course at UT
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ECE 697: Delta-Sigma Data Converter Design