Bibliography

Bibliography#

[1]

L. De Forest. Wireless Telegraphy. Januari 1907.

[2]

Benjamin S. Blanchard and Wolter J. Fabrycky. Systems engineering and analysis. Prentice-Hall, Inc, New York, 1981. ISBN: 013-135047-1.

[3]

Alexander Kossiakoff and William N. Sweet. Systems engineering principles and practice. John Wiley and Sons, Inc., New Jersey, 2003. ISBN: 0-471-23443-5.

[4]

Terninko et al. Systematic Innovation, An introduction to TRIZ. CRC Press LLC, USA, 1998.

[5]

Altshuller. The Innovation Algorithm, TRIZ, systematic innovation and technical creativity, Translated by Lev Shulyak and Steven Rodman. Technical Innovation Center, Inc., USA, 1999. ISBN: 0-9640740-4-4.

[6]

Ernst H. Nordholt. Design of High-Performance Negative Feedback Amplifiers. Delft Academic Press / VSSD, 1 edition, 1983-2006. ISBN: 9789040712470.

[7]

C.J.M. Verhoeven, A. van Staveren, G.L.E. Monna, M.H.L. Kouwenhoven and E. Yildiz. Structured Electronic Design. Kluwer Academic Publishers, Boston - Dordrecht - London, 2003. ISBN: 1-4020-7590-1.

[8]

Robin E. McDermott, Raymond J. Mikulak, Michael R. Beauregard. The basics of FMEA. Productivity Inc., Portland, USA, 1996. ISBN: 0-527-76320-9.

[9]

Nigel Cross. Engineering Design Methods, Strategies for Product Design. John Wiley & Sons Ltd., England, 1989. ISBN: 0-471-94228-6.

[10]

Claude E. Shannon and Warren Weaver. The Mathematical Theory of Communication. The University of Illinois Press, Ubana, 1 edition, 1963. ISBN: 0-88179-205-5.

[11]

D. Ward and R. Dutton. A Charge-Oriented Model for MOS Transistor Capacitances. IEEE Solid-state Circuits, sc-13(5):703–708, October 1978.

[12]

Cheng, Y. et al. BSIM3 Version 3.0 Manual. University of California/Berkeley, Electronics Research Laboratory, 1995.

[13]

Christian C. Enz, and Eric A. Vittoz. Charge-based MOS Transistor Modeling. John Wiley & Sons Inc., 2006. ISBN: 978-0-470-85541-6.

[14]

Binkley, David M. Tradeoffs and Optimization in Analog CMOS Design. John Wiley & Sons Inc., 1997. ISBN: 978-0-470-03136-0.

[15]

Harold S. Black. Stabilized feed-back amplifiers. Electrical Engineering, 53(1):114–120, January 1934.

[16]

W.K. Chen. Active Network Analysis. World Scientific Publishing Co. Pte. Ltd., Singapore, 1991. ISBN: 9971-50-912-1.

[17]

R.D. Middlebrook. Measurement of loop gain in feedback systems. Int. J. Electronics, 38:485–512, April 2001.

[18]

T. A. Blakesley. A New Electrical Theorem. Proc. Phys. Soc. London, 13:65–67, 1994.

[19]

H.T. Friis. Noise Figures of Radio Receivers. Proceedings of the IRE, 32:419–422, February 1944.

[20]

Laurence W. Nagel and D.O. Pederson. Simulation program with integrated circuit emphasis (spice). Technical Report UCB/ERL M382, EECS Department, University of California, Berkeley, April 1973.

[21]

Laurence W. Nagel. SPICE2: A Computer Program to Simulate Semiconductor Circuits. PhD thesis, EECS Department, University of California, Berkeley, 1975.

[22]

Thomas L. Quarles. Analysis of Performance and Convergence Issues for Circuit Simulation. PhD thesis, EECS Department, University of California, Berkeley, 1989.

[23]

P. Antognetti and G. Massobrio. Semiconductor Device Modeling with SPICE. McGraw-Hill, 1988.

[24]

William Shockley. Circuit element utilizing semiconductive material. June 1948.

[25]

J.M. Early. Effects of space-charge layer widening in junction transistors. Proceedings IRE, 40:1401–1406, 1952.

[26]

H. K. Gummel and H. C. Poon. An integral charge control model of bipolar transistors. Bell Syst. Tech. J., 49(5):827–852, May-June 1970.

[27]

C. T. Kirk. A theory of transistor cut-off frequency ($f_t$) falloff at high current densities. IEEE Trans. Electron Devices, ED-9(2):164–174, February 1962.

[28]

Colin C. McAndrew, Jerold A. Seitchik, Derek F. Bowers, Mark Dunn, Mark Foisy, Ian Getreu, Marc McSwain, Shahrir Moinian, James Parjer, David J. Roulston, Michael Schroeter, Paul van Wijnen, Lawrence F. Wagner. VBIC95, The Vertical Bipolar Inter-Company Model. IEEE Journal of solid-state circuits, 31(10):1476–1483, October 1996.

[29]

Julius Edgar Lilienfeld. Method and apparatus for controlling electric currents. October 1925.

[30]

W. Shockley. A Unipolar "Field-Effect" Transistor. Proc. of the I.R.E, pages 1365–1376, November 1952.

[31]

G.C. "Dacey and I.M." Ross. Unipolar "Field-Effect" Transistor. Proc. of the I.R.E, pages 970–979, August 1953.

[32]

H. Shichman and D. Hodges. Modeling and simulation of insulated-gate field-effect transistor switching circuits. IEEE J. Solid-State Circuits, 3(3):285–289, September 1968.

[33]

Kahng and Dawon. Electric Field Controlled Semiconductor Device. May 1960.

[34]

F. "Wanlass and C." Sah. Nanowatt logic using field-effect metal-oxide semiconductor triodes. 1963 IEEE International Solid-State Circuits Conference. Digest of Technical Papers, VI:32–33, 1963.

[35]

Daniel P. Foty. MOSFET modeling with SPICE: principles and practice. Prentice-Hall, Inc., USA, 1997. ISBN: 0-13-227935-5.

[36]

B. Sheu, D. Scharfetter, P. Ko, and M. Jeng. BSIM: Berkely Short Channel IGFET Model for MOS Transistors. IEEE Journal of Solid State Circuits, SC-22:558–566, 1987.

[37]

HSPICE User's Manual. Campbell, California, 1993.

[38]

Chetan Kumar Dabhi, Shivendra Singh Parihar, Harshit Agrawal, Navid Paydavosi, Tanvir Hasan Morshed, Darsen D. Lu, Wenwei(Morgan)Yang, Mohan V. Dunga, Xuemei (Jane) Xi, Jin He, Weidong Liu, Kanyu, M. Cao, Xiaodong Jin, Jeff J. Ou, Mansun Chan, Yogesh Singh Chauhan, Ali M. Niknejad, Chenming Hu. BSIM4 4.8.1 MOSFET Model. University of California/Berkeley, 2017.

[39]

J. Meyer. MOS models and circuit simulation. RCA Review, 32:42–63, 1971.

[40]

Matthias Bucher, Christoff Lallement, Christian Enz, Fabien Théodoloz and François Krummenacher. The EPFL-EKV MOSFET Model Equations for Simulation. Technical Report, Electronics Laboratory, Swiss Federal Institute of Technology (EPFL), Lausanne, Switzerland, July 1998.

[41]

John M. Miller. Dependence of the input impedance of a three-electrode vacuum tube upon the load in the plate circuit. Scientific Papers of the Bureau of Standards, 15(351):367–385, 1920.

[42]

H.S. Black. Wave Translation System. March 1932.

[43]

Boyle, et al. Macromodeling of Integrated Circuit Operational Amplifiers. IEEE Journal of solid-state circuits, December 1974.

[44]

M. Alexander and D.F. Bowers. SPICE-compatibe Op Amp Macro-Models. EDN, February, March 1990.

[45]

H. Nyquist. Regeneration theory. Bell System Technical Journal, 11:126–147, 1932.

[46]

H.W. Bode. Network Analysis and Feedback Amplifier Design. Van Nostrand, New York, 1945.

[47]

John G. Truxal. Introductory System Engineering. McGraw-Hill, Tokyo, 1972.

[48]

Richard C. Dorf and Robert H. Bishop. Modern Control Systems. Addison-Wesley Publishing Company, Inc., USA, 1995. ISBN: 0-201-84559-8.

[49]

Walter R." "Evans. Graphical Analysis of Control Systems. Trans. AIEE, 67(1):547–551, January 1948.

[50]

Walter R." "Evans. Control Systems Synthesis by Root Locus Method. Trans. AIEE, 69(1):66–69, January 1950.

[51]

H. Nyquist. Certain topics in telegraph transmission theory. Trans. Am. Inst. Elec. Eng., 47:617–644, 1928.

[52]

Charles A. Desour Leo O. Chua and Ernest S. Kuh. Linear and Nonlinear Circuits. McGraw-Hill, Inc., Singapore, 1987. ISBN: 0-07-010898-6.

[53]

Leo O. Chua and Pen-Min Lin. Computer aided analysis of electronic circuits. Prentice-Hall, Inc., USA, 1975. ISBN: 0-13-165415-2.

[54]

Stephen B. Haley. The Generalized Eigenproblem: Pole-Zero Computation. Proceedings of the IEEE, 76(2):103–120, February 1988.

[55]

J.B. Johnson. Thermal agitation of electricity in conductors. Phys. Rev., 32:97–109, 1928.

[56]

H. Nyquist. Thermal agitation of electrical charge in conductors. Phys. Rev., 32:110–113, 1928.