This course provides advanced analysis and design of electronic circuits including frequency response, operational amplifiers, active filters, pulsed circuits, and digital integrated circuits. Emphasis is placed on engineering problem formulation, system optimization, and sustainable electronic design practices. The coverage of this course includes Analysis of frequency response characteristics of transistors, covering both low and high frequencies. In-depth study of operational amplifiers and their applications in various electronic circuits. Exploration of filter design, focusing on active filters and their significance in signal processing. Examination of pulsed waveforms and their use in electronic systems and communications. Study of digital integrated circuits families and their applications in modern electronics.
Aligned with the Sustainable Development Goals (SDGs), this course supports:
- Aligned with SDG 9, this course emphasizes innovation in electronic infrastructure. Students explore frequency response characteristics of transistors and digital integrated circuits, contributing to advancements in electronic infrastructure and fostering innovation in industries reliant on electronics.
- Encouraging responsible consumption and production (SDG 12), the course addresses the design of efficient electronic circuits. By studying low and high-frequency characteristics and implementing active filters, students learn techniques for optimizing circuits, contributing to sustainable practices in electronic design and production.
This course provides advanced analysis and design of electronic circuits including frequency response, operational amplifiers, active filters, pulsed circuits, and digital integrated circuits. Emphasis is placed on engineering problem formulation, system optimization, and sustainable electronic design practices. The coverage of this course includes Analysis of frequency response characteristics of transistors, covering both low and high frequencies. In-depth study of operational amplifiers and their applications in various electronic circuits. Exploration of filter design, focusing on active filters and their significance in signal processing. Examination of pulsed waveforms and their use in electronic systems and communications. Study of digital integrated circuits families and their applications in modern electronics.
this course aligned with:
- SDG9 (Industry, Innovation & Infrastructure). This course emphasizes innovation in electronic infrastructure. Students explore frequency response characteristics of transistors and digital integrated circuits, contributing to advancements in electronic infrastructure and fostering innovation in industries reliant on electronics.
- SDG12 (Responsible Consumption & Production). The course addresses the design of efficient electronic circuits. By studying low and high-frequency characteristics and implementing active filters, students learn techniques for optimizing circuits, contributing to sustainable practices in electronic design and production.
Course Coverage:
- Analysis of frequency response characteristics of transistors, covering both low and high frequencies.
- In-depth study of operational amplifiers and their applications in various electronic circuits.
- Exploration of filter design, focusing on active filters and their significance in signal processing.
- Examination of pulsed waveforms and their use in electronic systems and communications.
- Study of digital integrated circuits families and their applications in modern electronics.