Digital Signal Processing Reference
In-Depth Information
6. Cripps SC (2006) RF Power Amplifiers for Wireless Communications, 2nd edn. Artech House,
Norwood
7. Dutta Roy SC (2000) Exact solution of a bandpass matching problem. Circ Systems Signal
Process 19(1):59-69
8. Frlan E, Meszaros S, Cuhaci M, Wight JS (1989) Computer aided design of square spiral
transformers and inductors. In: IEEE MTT-S Int Microw Symp Dig (IMS'89), Long Beach,
CA, vol 2, pp 661-664
9. Gan H (2006) On-chip transformer modeling, characterization, and applications in power and
low noise amplifiers. PhD thesis, Stanford University, Stanford, CA
10. Gee WA (2005) CMOS integrated LC
Q
-enhanced RF filters for wireless receivers. PhD the-
sis, Georgia Institute of Technology, Atlanta, GA
11. Helic (2010) VeloceRF. URL
http://www.helic.com/index.php/velocerf/velocerf
12. Long JR (2000) Monolithic transformers for silicon RF IC design. IEEE J Solid-State Circ
35(9):1368-1382
13. Mason SJ (1953) Feedback theory—some properties of signal flow graphs. Proc IRE 41(9):
1144-1156
14. MathWorks (2010) Matlab. URL
http://www.mathworks.com/
15. Mohan SS (1999) The design, modeling and optimization of on-chip inductor and transformer
circuits. PhD thesis, Stanford University, Stanford. URL
http://smirc.stanford.edu/papers/
Thesis-mohan.pdf
16. Mohan SS, del Mar Hershenson M, Boyd SP, Lee TH (1999) Simple accurate expressions for
planar spiral inductances. IEEE J Solid-State Circ 34(10):1419-1424
17. Neitola M, Rahkonen T (2005) A fully automated flowgraph analysis tool for Matlab. In: Proc
Eur Conf Circuit Theory Des (ECCTD'05), Cork, Ireland, vol 1, pp 185-188
18. Neitola M, Rahkonen T (2005) A fully automated flowgraph analysis tool for MATLAB. URL
http://www.mathworks.com/matlabcentral/fileexchange
19. Niknejad AM, Meyer RG (2000) Design, Simulation and Applications of Inductors and Trans-
formers for Si RF ICs. Kluwer Acad, Boston
20. Ochoa JA (1998) A systematic approach to the analysis of general and feedback circuits
and systems using signal flow graphs and driving-point impedance. IEEE Trans Circ Syst II
45(2):187-195
21. Phang K (2001) CMOS optical preamplifier design using graphical circuit analysis. PhD the-
sis, University of Toronto, Toronto, Canada
22. Pisani MB (2006) MLib—RF analysis and passive design toolbox. Matlab Toolbox. URL
http://legwww.epfl.ch/pisani/mlib/
23. Pisani MB (2007) Copper/low-K technological platform for the fabrication of high qual-
ity factor above-IC passive devices. PhD thesis, EPFL, Lausanne, Switzerland. URL
http://
library.epfl.ch/theses/?nr=3831
24. Pisani MB, Hibert C, Bouvet D, Dehollain C, Ionescu AM (2005) Fabrication and electrical
characterization of high performance copper/polyimide inductors. In: PhD Res Microelectron
Electron (PRIME'05), Lausanne, Switzerland, vol 1, pp 185-188
25. Rabjohn GG (1991) Monolithic microwave transformers. M Eng thesis, Carleton University,
Ottawa, ON, Canada
26. Spencer RG (2001) Analysis of the modified MOS Wilson current mirror: a pedagogical exer-
cise in signal flow graphs, Mason's gain rule, and driving-point impedance techniques. IEEE
Trans Educ 44(4):322-328
27. Sun Y, Fidler JK (1996) Design method for impedance matching networks. IEE Proc Circ
Devices Syst 143(4):186-194
28. Yue CP, Wong SS (1998) On-chip spiral inductors with patterned ground shields for Si-based
RF IC's. IEEE J Solid-State Circ 33(5):743-752
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