Outline of Fundamentals of Electronic Technology (III) | Generated by AI
Here’s an English outline for the textbook Fundamentals of Electronic Technology (III), based on the Chinese version edited by Wen Xidong and published by Economic Science Press:
Outline of Fundamentals of Electronic Technology (III)
Part I: Analog Electronics
- Fundamentals of Circuit Analysis
- Basic circuit concepts and laws (Ohm’s Law, Kirchhoff’s Laws)
- Linear circuit analysis methods (nodal analysis, superposition theorem)
- Dynamic circuits and transient analysis
- Principles of Amplifier Circuits
- Semiconductor devices (diodes, BJTs, and their characteristics)
- Basic amplifier configurations (CE, CC, CB)
- Frequency response and stability of amplifiers
- Operational Amplifiers (Op-Amps) and Applications
- Op-amp characteristics and parameters (virtual short, virtual open)
- Typical op-amp circuits (inverting/non-inverting amplifiers, integrators/differentiators)
- Nonlinear applications (comparators, waveform generators)
- DC Power Supplies
- Rectifier and filter circuits
- Linear regulators vs. switching regulators
Part II: Digital Electronics
- Fundamentals of Digital Circuits
- Number systems and codes (binary, BCD, etc.)
- Boolean algebra and logic gates (AND, OR, NOT, combinational logic)
- TTL and CMOS integrated circuits
- Combinational Logic Circuits
- Analysis and design of combinational logic
- Common modules (encoders, decoders, multiplexers)
- Hazards and elimination methods
- Sequential Logic Circuits
- Flip-flops (RS, D, JK, T) and their operation
- Counters and shift registers
- Synchronous/asynchronous sequential circuit analysis
- Programmable Logic Devices (PLDs)
- Types of PLDs (PAL, GAL, FPGA) and architectures
- Introduction to HDL (VHDL/Verilog)
- Simple logic system design examples
Part III: Practical Applications
- Experiments and Simulations (Optional)
- Hands-on labs (e.g., op-amp amplification, counter design)
- Simulation tools (e.g., Multisim, Proteus)
- Integrated Design Cases
- Mixed-signal systems (e.g., temperature monitoring)
- Engineering considerations (noise immunity, power optimization)
Appendices
- Reference tables (component parameters, logic symbols)
- Selected exercise answers
Notes:
- The outline follows a progressive structure from analog → digital → practical applications, suitable for engineering courses.
- Flexibility is allowed—topics like feedback amplifiers or ADC/DAC can be added based on curriculum needs.
- Emphasizes modern trends (e.g., PLDs and HDL) for real-world relevance.
Let me know if you’d like adjustments (e.g., deeper subtopics or lab-focused expansions)!