ENGR 2420: Introduction to Microelectronic Circuits

Introduction to Microelectronic Circuits

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Handouts:: Handout 1.1 – January 22, 2020 – Course Information and Policies; Handout 2.1 – January 31, 2020 – Series/Parallel Resistive Network Practice Problems; Handout 2.2 – January 31, 2020 – Series/Parallel Resistive Network Practice Problems Solution; Handout 2.3 – January 31, 2020 – Lab 1: Resistors and Resistive Networks; Handout 3.1 – February 4, 2020 – Source Splitting and Superposition; Handout 4.1 – February 5, 2020 – SMU Installation and Use; Handout 4.2 – February 5, 2020 – Lab 1 Prelab Solution; Handout 5.1 – February 7, 2020 – Incremental Driving-Point Transfer Functions; Handout 5.2 – February 7, 2020 – Lab Reports; Handout 5.3 – February 7, 2020 – Lab 2: Resistors and Diodes; Handout 6.1 – February 11, 2020 – Lab 1 Postlab Solution; Handout 7.1 – February 12, 2020 – Lab 2 Prelab Solution; Handout 8.1 – February 14, 2020 – Elements of Semiconductor Physics I; Handout 8.2 – February 14, 2020 – Characteristics of the Bipolar Transistor; Handout 8.3 – February 14, 2020 – Lab 3: Resistors and Bipolar Transistors; Handout 9.1 – February 18, 2020 – Elements of Semiconductor Physics I (con't.); Handout 10.1 – February 21, 2020 – Elements of Semiconductor Physics II: Bipolar Junction Transistor Operation; Handout 10.2 – February 21, 2020 – Lab 2 Postlab Solution; Handout 11.1 – February 26, 2020 – Lab 3 Prelab Solution; Handout 12.1 – February 28, 2020 – Lab 4: Translinear Circuits; Handout 13.1 – March 3, 2020 – Lab 3 Postlab Solution; Handout 14.1 – March 4, 2020 – Lab 4 Prelab Solution; Handout 15.1 – March 10, 2020 – Elements of Semiconductor Physics III: MOS Transistor Operation; Handout 15.2 – March 10, 2020 – MOS Transistor Characteristics; Handout 15.3 – March 10, 2020 – EKV Model Summary; Handout 15.4 – March 10, 2020 – Lab 5: MOS Transistor Characteristics; Handout 16.1 – March 13, 2020 – Elements of Semiconductor Physics III (con't.); Handout 17.1 – March 24, 2020 – EKV Model: MOS Transisor Modeling at All Inversion Levels; Handout 17.2 – March 24, 2020 – Lab 4 Postlab Solution; Handout 18.1 – March 25, 2020 – Lab 5 Prelab Solution; Handout 19.1 – March 27, 2020 – Lab 6: Series/Parallel MOS Networks and MOS Current Dividers; Handout 20.1 – March 31, 2020 – Lab 5 Postlab Solution; Handout 21.1 – April 1, 2020 – Lab 6 Prelab Solution; Handout 22.1 – April 3, 2020 – MOS Transisor Early Voltage and Intrinsic Gain; Handout 22.2 – April 3, 2020 – Lab 7: The MOS Differential Pair; Handout 23.1 – April 7, 2020 – Source Follower Voltage Transfer Characteristics; Handout 23.2 – April 7, 2020 – Lab 6 Postlab Solution; Handout 24.1 – April 8, 2020 – Lab 7 Prelab Solution; Handout 25.1 – April 10, 2020 – The MOS Differential Pair in Strong Inversion; Handout 25.2 – April 10, 2020 – The MOS Differential Pair; Handout 25.3 – April 10, 2020 – Lab 8: A Simple MOS Differential Amplifier; Handout 26.1 – April 14, 2020 – Finding Incremental Voltage Gain by Node Fixing; Handout 26.2 – April 14, 2020 – Driving-Point Impedance Techniques for the Incremental Analysis of CMOS Circuits; Handout 27.1 – April 15, 2020 – Lab 8 Prelab Solution; Handout 28.1 – April 17, 2020 – Lab 9: A Current-Mirror Differential Amplifier; Handout 29.1 – April 21, 2020 – Lab 8 Postlab Solution; Handout 30.1 – April 22, 2020 – Lab 9 Prelab Solution; Handout 31.1 – April 24, 2020 – Final Project Ideas and Information; Handout 32.1 – April 28, 2020 – Lab 9 Postlab Solution

Page maintained by Bradley A. Minch – Last modified April 28, 2020