Course Description
This course is designated for junior and/or senior college engineering students as well as working professionals. This course covers basic concepts, theories, practices and analysis skills used for Microelectronics. Topics covered include: Basic Concepts of Electronic Circuits, Operational Amplifiers, Semiconductor Diodes, Bipolar Junction Transistors, Field-Effect Transistors, Integrated Circuit Amplifiers, Frequency Response, Feedback and Stability, Output Stages, Analog Integrated Circuits, Filters, Waveform Generators, and MOS and Bipolar Digital Circuits. Students who sign up for this online course will be aided by a 140-day Study Plan to help them pace themselves, yet they can still freely learn any lecture in this course as many times as they like within the 6 months access time. This course has English slides with Chinese Mandarin audio.
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Course Outline
1. Basic Concepts Introduction to Amplifier Source Transformation/Miller Theorem Frequency Response
2. Operational Amplifiers Introduction to Operatonal Amplifier Inverting & Noninverting Amplifier Application of Inverting Configuration Differential Amplifier OPAMP Application Frequency Response Large Signal Operation Offset Voltage & Bias Current On-line Quiz 1
3. Semiconductor Diodes Basic Concept Drift & Diffusion pn Junction I pn Junction II pn Junction III Current Voltage Characteristic Parasitic Capacitance Analysis of Diode Circuit Small Signal Model Schottky Diode Zener Diode Rectifier
4. Bipolar Junction Transistors Operation Principle Current Gain Static Characteristics Practical Consideration DC Analysis of BJT Circuits Discrete Circuit Bias Small Signal Model I Small Signal Model II Small Signal Model III Common Emitter Amplifier Emitter Follower Common Base Amplifier
5. Field Effect Transistors Enhancement MOSFET Current Voltage Characteristic I Current Voltage Characteristic II Depletion MOSFET Junction FET Discrete Circuit Bias Small-Signal Model I Small-Signal Model II DIscrete Circuit Amplifiers On-line Quiz 2
6. Integrated Circuit Amplifiers BJT IC Bias I BJT IC Bias II MOS IC Bias BJT Differential Amplifier I BJT Differential Amplifier II MOS Differential Amplifier Half-Circuit Concept Active-Load Differential Amplifier Offset Voltage & Bias Current NMOS Amplifier CMOS & BiCMOS Amplifier
7. Frequency Response Basic Concept High Frequency Response of BJT Common-Source Amplifier I Common-Source Amplifier II Common-Emitter Amplifier Common-Base Amplifier Combinational Amplifiers Differential Amplifier On-line Quiz 3
8. Feedback and Stability Basic Concept Four ideal topologies Series-Shunt Feedback Shunt-Series Feedback Series-Series Feedback Shunt-Shunt Feedback Stability of Feedback Stability of Feedback Root Locus Frequency compensation Miller Compensation
9. Output Stages Power BJT Class A Output Stage Class B Output Stage Class AB Output Stage Online Quiz 4
10. Analog Integrated Circuits 741 OPAMP-Introduction 741 OPAMP-DC Analysis 741-Small Signal Analysis 741-Frequency Response CMOS OPAMP Cascode CMOS OPAMP Data Converter
11. Filters Passive LC Second Order Filter GIC Second Order Filter Notch Filter Single Amplifier Biquadratic Filter Two-Integrator Loop Technique Switched-Capacitor Filter
12. Waveform Generators Sinusoidal Oscillator LC Oscillator Precision Recifier Bistable Multivibrator Astable Multivibrator Monostable Multivibrator 555 Timer CMOS Multivibrator Online Quiz 5
13. MOS Digital Circuits NMOS Inverter CMOS Inverter I CMOS Inverter II Pseudo-NMOS Inverter NMOS & CMOS Logic Circuit Pass Transistor Logic Dynamic CMOS Logic Circuit SR Flip-Flop Semiconductor Memory
14. Bipolar Digital Circuits Transistor-Transistor Logic I Transistor-Transistor Logic II Schottky TTL Emitter-Coupled Logic BiCMOS Digital Circuits Online Quiz 6
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2. Operational Amplifiers
3. Semiconductor Diodes
4. Bipolar Junction Transistors
5. Field Effect Transistors
6. Integrated Circuit Amplifiers
7. Frequency Response
8. Feedback and Stability
9. Output Stages
10. Analog Integrated Circuits
11. Filters
12. Waveform Generators
13. MOS Digital Circuits
14. Bipolar Digital Circuits
More Information
| Language | Chinese |
| Course Length | 88.00 hours |
| Duration of Access | 6 months |
| Instructor | Dr. Chang |
| Vendor | Knowledge Master |
| Course Certification | none |
| Prerequisites/Audience | Course Prerequisites 1. Basic skills/concepts in Math and Physics of high-school level. 2. Basic concepts in Electric Circuits of high-school level. Course Audience Chinese working professionals seeking career development courses in microelectronics, semiconductor devices, digital IC and CMOS analong IC design. |
Price: $ 1999.00 (USD)
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