Page 1 ELECTRICA L ENGINEERING Principles and Applications Chapter 12 Field-Effect Transistors Chapter 12 Field-Effect Transistors 1. Understand MOSFET operation. 2. Analyze basic FET amplifiers using the load-line technique. 3. Analyze bias circuits. Page 2 ELECTRICA L ENGINEERING Principles and Applications Chapter 12 Field-Effect Transistors Chapter 12 Field-Effect Transistors 1. Understand MOSFET operation. 2. Analyze basic FET amplifiers using the load-line technique. 3. Analyze bias circuits. ELECTRICA L ENGINEERING Principles and Applications Chapter 12 Field-Effect Transistors 4. Use small-signal equivalent circuits to analyze FET amplifiers. 5. Compute the performance parameters of several FET amplifier configurations. 6. Select a FET amplifier configuration that is appropriate for a given application. 7. Understand the basic operation of CMOS logic gates. Page 3 ELECTRICA L ENGINEERING Principles and Applications Chapter 12 Field-Effect Transistors Chapter 12 Field-Effect Transistors 1. Understand MOSFET operation. 2. Analyze basic FET amplifiers using the load-line technique. 3. Analyze bias circuits. ELECTRICA L ENGINEERING Principles and Applications Chapter 12 Field-Effect Transistors 4. Use small-signal equivalent circuits to analyze FET amplifiers. 5. Compute the performance parameters of several FET amplifier configurations. 6. Select a FET amplifier configuration that is appropriate for a given application. 7. Understand the basic operation of CMOS logic gates. ELECTRICA L ENGINEERING Principles and Applications Chapter 12 Field-Effect Transistors NMOS AND PMOS TRANSISTORS Page 4 ELECTRICA L ENGINEERING Principles and Applications Chapter 12 Field-Effect Transistors Chapter 12 Field-Effect Transistors 1. Understand MOSFET operation. 2. Analyze basic FET amplifiers using the load-line technique. 3. Analyze bias circuits. ELECTRICA L ENGINEERING Principles and Applications Chapter 12 Field-Effect Transistors 4. Use small-signal equivalent circuits to analyze FET amplifiers. 5. Compute the performance parameters of several FET amplifier configurations. 6. Select a FET amplifier configuration that is appropriate for a given application. 7. Understand the basic operation of CMOS logic gates. ELECTRICA L ENGINEERING Principles and Applications Chapter 12 Field-Effect Transistors NMOS AND PMOS TRANSISTORS ELECTRICA L ENGINEERING Principles and Applications Chapter 12 Field-Effect Transistors Page 5 ELECTRICA L ENGINEERING Principles and Applications Chapter 12 Field-Effect Transistors Chapter 12 Field-Effect Transistors 1. Understand MOSFET operation. 2. Analyze basic FET amplifiers using the load-line technique. 3. Analyze bias circuits. ELECTRICA L ENGINEERING Principles and Applications Chapter 12 Field-Effect Transistors 4. Use small-signal equivalent circuits to analyze FET amplifiers. 5. Compute the performance parameters of several FET amplifier configurations. 6. Select a FET amplifier configuration that is appropriate for a given application. 7. Understand the basic operation of CMOS logic gates. ELECTRICA L ENGINEERING Principles and Applications Chapter 12 Field-Effect Transistors NMOS AND PMOS TRANSISTORS ELECTRICA L ENGINEERING Principles and Applications Chapter 12 Field-Effect Transistors ELECTRICA L ENGINEERING Principles and Applications Chapter 12 Field-Effect TransistorsRead More