LEC # | TOPICS | KEY DATES |
---|---|---|

1 | Introduction, bipolar transistor model | |

2 | BJT dynamics | Problem set 1 due |

3 | Common-emitter amplifiers | Problem set 2 due |

4 | Emitter-coupled and cascode amplifiers | |

5 | Open-circuit time constants | Problem set 3 due |

6 | Open-circuit time constants (cont.) | |

7 | Design example | Lab 1 due |

8 | Biasing multistage amplifiers | |

9 | Short-circuit time constants | Problem set 4 due |

10 | Op-amp applications | |

11 | Op-amp applications (cont.) | Problem set 5 due |

12 | Direct-coupled amplifiers | |

Midterm quiz | ||

13 | 741 op-amp | |

14 | Op-amp compensation | Lab 2 due |

15 | Transimpedance amplifiers | |

16 | Translinear principle | Problem set 6 due |

17 | Translinear circuits | Problem set 7 due |

18 | Voltage references | |

19 | Introduction to charge control | Problem set 8 due |

20 | Inverted-region operation | Problem set 9 due |

21 | Saturation | |

22 | Model for base-region dynamics | Design problem due |

23 | Space-charge layer effects | |

24 | TTL inverter |

## Calendar

## Course Info

##### Instructor

##### Departments

##### As Taught In

Fall
2010

##### Level

##### Learning Resource Types

*assignment*Problem Sets

*grading*Exams