Description: |
I. Fundamentals of Circuit Design: - Analysis methods for electronic circuits. - Operating point and small signal operation: principle of operating point, linearization, small signal analysis II. Amplifiers and Feedback: - Elementary basic circuits for amplifiers: amplifier stages, differetial amplifiers, impedance converters, current sources, current mirrors, output stages - Negative feedback and stability: positive and negative feedback, loop gain and open loop gain, Bode diagram, Nyquist criterion, phase and amplitude margin - Operational amplifiers: ideal operational amplifier, real operational amplifier, practical examples, typical data - Frequency compensation: dominant pole, methods of compensation - Linear signal processing using operational amplifiers: inverting and noninverting amplifier, adder, integrator, diffentiator, current sources and voltage sources - Nonlinear circuits using operational amplifiers: comparators, schmitt trigger, rectifier, limiter, log-circuit, multiplier - Oscillator and flip-flops: multivibrators, sinus wave generators, functional generators III: Fundamentals of Digital Circuit Techniques - Combinatorial logic, gates, and logic families: inverter and basic gates, TTL, ECL, CMOS-logic - Flip-flops and memories: RS flip-flop, MS flip-flop, principle of memories - System design and timing: introductory remarks concerning hierarchical design, partitioning and clock distribution |
Literature: |
- U. Tietze und Ch. Schenk: Halbleiter-Schaltungstechnik, Berlin, Springer-Verlag, 12. Auflage, 2002 - B. Morgenstern: Elektronik I: Bauelemente, Elektronik II: Schaltungen, Elektronik III: Digitale Schaltungen und Systeme, Braunschweig, Vieweg-Verlag, 1997 - J. Bermeyer: Grundlagen der Digitaltechnik, Carl-Hauser-Verlag, 2001. - P.E. Allen und D.R. Holberg: CMOS Analog circuit design, Oxford University Press, 2. Auflage, 2002. |