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EE102: Introduction to Microelectronic Circuits Berkeley 微電子電路導(dǎo)論視頻課程 (38課時 ¥68) Instructor: Prof. Connie Chang-Hasnain
該門視頻課程是UC Berkekey電子工程專業(yè)本科生最基礎(chǔ)一門課程,講授微電子電路基礎(chǔ)理論知識,為電子工程專業(yè)后續(xù)課程的學(xué)習(xí)打下堅實(shí)的基礎(chǔ) 。課程共38講,每講50分鐘左右,包括:.rm格式的課程視頻和與視頻課程內(nèi)容配套使用的完整的課程講義。有了課程講義讓您的學(xué)習(xí)更有效,在潛移默化中提高專業(yè)知識和英語能力。 加州大學(xué)伯克萊分校(UC Berkeley)作為世界一流大學(xué),有著世界頂級的大師,所設(shè)課程也都是精品中的精品,緊跟最新科技的進(jìn)展。本站推出的美國一流大學(xué)精品視頻課程套裝,讓您足不出戶就能一睹世界一流大學(xué)大師教學(xué)的風(fēng)采;聆聽大師的聲音、拓展國際化的視野、與國際水平看齊、實(shí)現(xiàn)自我價值的提升。 |
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Course Description: |
Fundamental circuit concepts and analysis techniques. Kirchoff's laws, nodal analysis; independent and dependent sources. Thevenin, Norton equivalent circuits. Transient and AC analysis; speed and power. Phasors, Bode plots and transfer function. Filters and Op-Amps. Graphical methods for nonlinear circuits. GaussÕs Law and bandgap. Diode and FET characteristics. Diode and MOSFET circuits. Introduction to basic integrated-circuit technology and layout. Digital signals, logic gates, switching. An electronics laboratory is part of the course. Using and understanding electronics laboratory equipment such as: oscilloscope, power supplies, function generator, multimeter, curve-tracer, and RLC meter. Includes a term project of constructing a circuit with appropriate electromechanical device. |
Course Objectives: |
This course is intended to teach basic circuit theory and principles of electronic engineering as preparation for subsequent EE courses. |
Textbooks: |
Hambley, Allan R., Electrical Engineering: Principles and Applications (4th ed.). Upper Saddle River, NJ: Pearson Education, Inc., 2007. |
Course Schedule |
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Date |
Subjects |
Week 1 |
8/27, 8/29, 8/31 |
Definition current, voltage, KCL and KVL, Ohm's law; power and energy; resistor in parallel, series; dependent sources |
Week2 |
9/5, 9/7 |
Node analysis, mesh analysis |
Week3 |
9/10, 9/12, 9/14 |
superposition, equivalent circuits; capacitor and inductor; intro first order circuits |
Week4 |
9/19, 9/21, 9/26 |
transient response first order ckts; forced response; natural response |
Week5 |
9/24, 9/26, 9/28 |
second order Ckt; Complex number; phasors; circuit analysis with complex impedance |
Week6 |
10/1, 10/3, 10/5 |
dB, logrithmic algebra; Bode Plots; 1st order filters |
Week7 |
10/10, 10/12 |
freq response; Bode plots; 1st and 2nd order filter; op amp |
Week8 |
10/15, 10/17, 10/19 |
Op Amps (amp, inverting amp, summing, differential, integrating, A/D) |
Week9 |
10/22, 10/24, 10/26 |
Op Amp; Diode circuits (loadline analysis) |
Week10 |
10/29, 10/31 |
Diode circuits (rectifier, clipper, clamping, peak detector, level shift) |
Week11 |
11/5, 11/7, 11/9 |
Semiconductor Physics |
Week12 |
11/14, 11/16 |
Semiconductor Physics (bandgap, doping, gauss' law and poissoin eq) |
Week13 |
11/19, 11/21 |
MOSFET; NMOS; PMOS |
Week14 |
11/26, 11/28 |
Inverters; Q-point and loadline analysis |
Week16 |
12/3,12/5, 12/7 |
Binary numbers; Boolean Algebra; logic gates; MOSFET (model) |
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