40124 fundamentals of electrical and electronic circuits...
TRANSCRIPT
Fundamentals of Electrical and Electronic CircuitsCourse Name
Under‐graduation Program: 3 Credits: 40124 Course No.: Differential Equations Co‐requisite:Physics II Prerequisite:
Ali Mohammad Afshin HemmatyarPrepared by: Topics:
1) Laws and Definitions • Voltage law and Current law • One‐port ideal elements • Two‐port elements • Power , energy, and active and passive elements • Waveforms
2) Time‐Domain Circuits Analysis • Node analysis and Mesh analysis • Simple, first‐order and second‐order circuits • Zero‐state, Zero‐input, transient and steady state response • Step‐response and Impulse‐response
3) Frequency‐Domain Circuits Analysis • Steady‐state sinusoid response and transfer function • Applications of Laplace transform in circuit Analysis
4) Network Theorems and Their Applications • Superposition Theorem • Thevenin’s Theorem and Norton’s Theorem
5) Rectifier Diode and Zener Diode and their applications • Characteristic curve and model of rectifier diode and Zener diode • Rectifier circuits and limiter circuits
6) MOSFET Transistors • Characteristics and limitations of practical logic circuits • Characteristic curves and model of MOSFET transistors
7) Logic families of MOSFET transistors • NMOS family • CMOS family
8) Applicable circuits • Multi‐vibrators • Schmitt Trigger circuits and Square‐wave generator • Analog‐to‐digital and digital‐to‐analog converters
References:
1) W. H. Hayt, J. E. Kemmerly, and S. M. Durbin, Engineering Circuit Analysis (6th Edition), McGraw Hill, 2002.
2) R. Boylestad and L. Nashelsky, Electronic Devices and Circuit Theory (4th Edition), Prentice Hall, 1987.
3) T. A. DeMassa and Z. Ciccone, Digital Integrated Circuits, John Wiley & Sons, 1996. 4) A. Sedra, and K. G. Smith, Microelctronic circuits (4th Edition), 1998.