Each chapter ends with (basic, advanced, and design‑project) and “Praktische Tipps” (practical tips) that summarise the most important design rules. 3. How the Book Is Typically Used in Courses | Course | Typical Use | |--------|-------------| | Halbleiter‑Schaltungstechnik (B.Sc. EE) | Primary textbook – lectures follow the chapter order; labs use the design projects from Chapter 12. | | Analog IC Design (M.Sc.) | Chapters 3‑6 and 11 serve as reference while students develop custom op‑amp or regulator layouts. | | Power Electronics (B.Sc./M.Sc.) | Chapter 9 gives a concise yet thorough foundation for power‑device selection and thermal design. | | Embedded Systems (EE & Computer Engineering) | Chapter 8 for CMOS logic; Chapter 10 for sensor front‑ends. |
Each chapter ends with (basic, advanced, and design‑project) and “Praktische Tipps” (practical tips) that summarise the most important design rules. 3. How the Book Is Typically Used in Courses | Course | Typical Use | |--------|-------------| | Halbleiter‑Schaltungstechnik (B.Sc. EE) | Primary textbook – lectures follow the chapter order; labs use the design projects from Chapter 12. | | Analog IC Design (M.Sc.) | Chapters 3‑6 and 11 serve as reference while students develop custom op‑amp or regulator layouts. | | Power Electronics (B.Sc./M.Sc.) | Chapter 9 gives a concise yet thorough foundation for power‑device selection and thermal design. | | Embedded Systems (EE & Computer Engineering) | Chapter 8 for CMOS logic; Chapter 10 for sensor front‑ends. |