Tahun Akademik:
Pendek 2020/2021
Kelas-Offr:
SP-SP
Deskripsi:
Electric Circuit: 1. Resistor, 2. Capacitor, 3. Inductor. Semiconductor Diodes: 1. Introduction, 2. Semiconductor Materials: Ge, Si, and GaAs, 3. Covalent Bonding and Intrinsic Materials, 4. Energy Levels, 5. n-Type and p-Type Materials, 6. Semiconductor Diode, 7. Ideal Versus Practical, 8. Resistance Levels, 9. Diode Equivalent Circuits, 10. Transition and Diffusion Capacitance, 11. Reverse Recovery Time, 12. Diode Specification Sheets, 13. Semiconductor Diode Notation, 14. Diode Testing, 15. Zener Diodes, 16. Light-Emitting Diodes. Diode Applications: 1. Introduction, 2. Load-Line Analysis, 3. Series Diode Configurations, 4. Parallel and Series–Parallel Configurations, 5. AND/OR Gates, 6. Sinusoidal Inputs; Half-Wave Rectification, 7. Full-Wave Rectification, 8. Clippers, 9. Clampers, 10. Networks with a dc and ac Source, 11. Zener Diodes, 12. Voltage-Multiplier Circuits, 13. Practical Applications. Bipolar Junction Transistors: 1. Introduction, 2. Transistor Construction, 3. Transistor Operation, 4. Common-Base Configuration, 5. Common-Emitter Configuration, 6. Common-Collector Configuration, 7. Limits of Operation, 8. Transistor Specification Sheet, 9. Transistor Testing, 10. Transistor Casing and Terminal Identification, 11. Transistor Development. DC Biasing—BJTs: 1. Introduction, 2. Operating Point, 3. Fixed-Bias Configuration, 4. Emitter-Bias Configuration, 5. Voltage-Divider Bias Configuration, 6. Collector Feedback Configuration, 7. Emitter-Follower Configuration, 8. Common-Base Configuration, 9. Mi scellaneous Bias Configurations, 10. Summary Table. Bipolar Junction Transistors : 11. Design Operations, 12. Multiple BJT Networks, 13. Current Mirrors, 14. Current Source Circuits, 15. pnp Transistors, 16. Transistor Switching Networks, 17. Troubleshooting Techniques, 18. Bias Stabilization, 19. Practical Applications. BJT AC Analysis: 1. Introduction, 2. Amplification in the AC Domain, 3. BJT Transistor Modeling, 4. The r[sub(e)] Transistor Model, 5. Common-Emitter Fixed-Bias Configuration, 6. Voltage-Divider Bias, 7. CE Emitter-Bias Configuration, 8. Emitter-Follower Configuration, 9. Common-Base Configuration, 10. Collector Feedback Configuration, 11. Collector DC Feedback Configuration, 12. Effect of R[sub(L)] and R[sub(s)], 13. Determining the Current Gain, 14. Summary Tables, 15. Two-Port Systems Approach, 16. Cascaded Systems, 17. Darlington Connection, 18. Feedback Pair, 19. The Hybrid Equivalent Model, 20. Approximate Hybrid Equivalent Circuit, 21. Complete Hybrid Equivalent Model, 22. Hybrid π Model, 23. Variations of Transistor Parameters, 24. Troubleshooting, 25. Practical Applications.
Capaian Pembelajaran
  • 1. Menguasai konsep esensial dioda semikonduktor, transistor; beberapa jenis penguat; pengolahan data analog dan menerapkannya untuk menyelesaikan permasalahan terkait secara tepat, sistematis, mandiri, bertanggung jawab dan selaras dengan perkembangan ipteks serta menyusun laporan yang berkualitas serta menjadi bekal perencanaan, pelaksanaan, dan penilaian pembelajaran fisika sekolah
  • 1. Menguasai konsep esensial dioda semikonduktor, transistor; beberapa jenis penguat; pengolahan data analog dan menerapkannya untuk menyelesaikan permasalahan terkait secara tepat, sistematis, mandiri, bertanggung jawab dan selaras dengan perkembangan ipteks serta menyusun laporan yang berkualitas serta menjadi bekal perencanaan, pelaksanaan, dan penilaian pembelajaran fisika sekolah
Daftar Pustaka: