Course description:
Feedback principles and electronic circuit theory and device theory applied to multi-stage transistor amplifiers. Detailed study of operational amplifier specs, non-idealities, and compensation. Introduction to filter theory and practical realizations. Power supply design: rectifier circuits, linear and switching regulators. Nonlinear circuits: comparators, multipliers, Schmitt trigger, S/H circuits, multi-vibrators and oscillators. Introduction to noise analysis and low noise design. Emphasis on realization of designs using commercially available IC's. Design experience emphasized in projects and the laboratory.
Course Aims:
Course seeks to enable students to achieve the following objectives:
- Focus on the design of power transistors, amplifiers, filters, oscillators, and converters with an emphasis on design.
- Describe diode operation and their use in circuits such as rectifiers and voltage limiters.
- Explain the operation of BJTs and utilize their I-V characteristics to design single stage amplifiers.
- Explain the operation of MOSFETs and utilize their I-V characteristics to design single stage amplifiers.
- Analyze multistage amplifiers and calculate their gain and input/output resistances.
- Design inverting and non-inverting amplifiers using Op Amps.
Course outcomes:
Upon completion of this course, the student should be able to:
- This course contributes primarily to the students' knowledge of engineering topics, and does provide design experience.
- Understood the basic knowledge of Op-Amp which basically used in most medical devices