| Abstract | Passive components, linear networks, transmission lines, simulation of analog circuits, semiconductor components: diodes, bipolar and field-effect transistors, basic amplifier circuits, small signal analysis, differential amplifiers, noise, operational amplifiers, feedback and stability, oscillators, ADCs and DACs, introduction to CMOS technology |
| Objective | The lecture provides the basic knowledge necessary to understand, design and simulate analog electronic circuits. In the exercises, the concepts can be experienced in a hands-on manner. Every student has the opportunity to go through all steps of an electronic design cycle. Those include designing schematics, generating a printed circuit board layout, and the realization of a soldered prototype. |
| Content | Passive elements, linear complex networks, transmission lines, simulation of analog circuits (SPICE), semiconductor elements: diodes, bipolar and fieldeffect transistors, basic amplifier circuits, small signal analysis, differential amplifiers, noise in analog circuits, operational amplifiers, feedback and stability in amplifiers, oscillators, ADC's and DAC's, introduction in CMOS technology.
Practical excercises in small groups to the above themes complement the lectures. |
| Prerequisites / Notice | no prior knowledge in electronics is required |
Competencies | | Subject-specific Competencies | Concepts and Theories | fostered | | Techniques and Technologies | fostered | | Method-specific Competencies | Problem-solving | fostered | | Social Competencies | Cooperation and Teamwork | fostered | | Personal Competencies | Creative Thinking | fostered | | Critical Thinking | fostered |
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