## EE 140: Analog Integrated Circuits

**Electrical Engineering 140: Analog Integrated Circuits (Spring 2011, UC Berkeley)**. Instructor: Professor Clark Tu-Cuong Nguyen. Linear Integrated Circuits - Single and multiple stage transistor amplifiers.
Operational amplifiers. Feedback amplifiers, 2-port formulation, source, load, and feedback network loading. Frequency response of cascaded amplifiers, gain-bandwidth exchange, compensation, dominant pole techniques,
root locus. Supply and temperature independent biasing and references.

Lecture 01 - Admin & Overview, Op Amps |

Lecture 02 - Modeling the Bipolar Junction Transistor (BJT) |

Lecture 03 - BJT Small Signal Model, MOS Transistors |

Lecture 06 - Frequency Response Inspection Analysis I |

Lecture 07 - Frequency Response Inspection Analysis II |

Lecture 08 - Active Loads |

Lecture 09 - Current Sources |

Lecture 10 - High Swing Current Sources |

Lecture 11 - Current Source Matching |

Lecture 12 - DC Biasing & Current Source Matching |

Lecture 13 - Op Amps & Emitter Coupled Pair (ECP) |

Lecture 15 - Offset Voltage (Vos) & Finite Gain-BW Product |

Lecture 17 - High Gain Op Amps, Compensation and Slew Rate |

Lecture 18 - Output Stages |

Lecture 19 - Stability, Op Amps in Feedback |

Lecture 20 - Multi-Pole Op Amp in Feedback, Phase Margin, Narrowbanding |

Lecture 21 - Narrowbanding, Pole-Splitting, Choosing the Compensation Capacitor (Cc) |

Lecture 22 - Choosing the Compensation Capacitor, CMOS Op Amp Compensation |

Lecture 23 - Practical Compensation: RHP Zero, Nulling the RHP Zero |

Lecture 24 - Slew Rate, Settling Time, Power Supply Rejection Ratio (PSRR) |

Lecture 25 - Feedback Configurations |

Lecture 26 - Feedback Impedance |

Lecture 27 - Feedback By Inspection |