📚N4 Engineering Electronics syllabus 📚
The N4 Engineering Electronics syllabus builds on semiconductor devices with detailed studies of diodes (Zener, LED, Schottky) and transistors (BJTs and FETs). It covers amplifier classes (A, B, C) and operational amplifiers (Op-Amps) with practical applications. Power electronics introduces SCRs, TRIACs, and DIACs for power control circuits. Digital electronics expands into Boolean algebra, flip-flops, and latches. The syllabus also introduces communication electronics, covering modulation and demodulation concepts for AM and FM signals. Practical applications focus on power control and signal processing.
📚N5 Engineering Electronics syllabus 📚
The N5 Engineering Electronics syllabus covers advanced semiconductor devices, including MOSFETs, IGBTs, and optoelectronic components. Amplifier design includes differential, operational, audio, and RF amplifiers. Power electronics focuses on rectifiers, inverters, DC-DC converters, and SMPS. Digital electronics expands into counters, registers, memory devices, and introduces microcontrollers. Communication topics cover analog (AM, FM, PM) and digital modulation (ASK, FSK, PSK). Practical applications emphasize power control, signal amplification, and microcontroller-based systems.
📚N6 Engineering Electronics syllabus 📚
The N6 Engineering Electronics syllabus covers advanced power electronics, including IGBT, GTO, and thyristor-based motor control circuits. Amplifier and filter design includes active/passive filters and tuned amplifiers. Digital electronics expands into microprocessor architecture and digital logic design. Communication systems cover wireless principles, fiber optics, and satellite communication. Control systems introduce PLCs and industrial automation. Practical applications focus on automation, robotics, and industrial control systems.