DC Circuits Chad Davis
Material type:
TextSeries: Open textbook libraryDistributor: Minneapolis, MN Open Textbook LibraryPublisher: [Place of publication not identified] University of Oklahoma Libraries [2016]Copyright date: ©2016Description: 1 online resourceContent type: - text
- computer
- online resource
- TA145
- TK1
PrefaceModule 1 – The Basics of DC Circuits with Resistors -- Section 1.1 – Introduction and Basic Definitions -- Section 1.1.1 - Charge vs Current -- Section 1.1.2 - Resistance Calculations – (Resistance explained in more detail in section 1.1.3) -- Section 1.1.3 - Ohm's Law: Voltage, Current, Resistance, and Conductance -- Section 1.1.4 – Power and Energy -- Section 1.2 – Combining Resistors in Parallel or Series -- Section 1.3 – Kirchhoff's Voltage Law (KVL) and Voltage Divider Rule (VDR) -- Section 1.4 – Kirchhoff's Current Law (KCL) and Current Divider Rule (CDR) -- Module 1 – Equation List -- Module 2 – Advanced Topics for DC Circuits with Resistors -- Section 2.1 – Source Transformations: Thevenin and Norton Form -- Section 2.2 – Approximate Source Transformations: Adding a virtual resistor -- Section 2.2.1 - Voltage Source Approximate Transformation -- Section 2.2.2 - Current Source Approximate Transformation -- Section 2.3 – Mesh Matrix Analysis and traditional loop analysis methods -- Section 2.4 – Nodal Matrix Analysis and traditional Nodal Analysis -- Section 2.5 – Superposition: Solving a circuit by including only one source at a time -- Section 2.6 – Thevenin and Norton Equivalent Circuits -- Module 3 – DC Circuits with Resistors, Capacitors, and Inductors -- Section 3.1 – Background for Capacitors -- Section 3.2 – Background for Inductors -- Section 3.3 – Combining Inductors in Parallel and/or Series -- Section 3.4 – Combining Capacitors in Parallel and/or Series -- Section 3.5 – DC Transient Analysis with RC and RL Circuits -- Section 3.5.1 – Single Loop RL and RC Charging (Store) Circuits -- Section 3.5.2 – Single Loop RL and RC Discharging (Release) Circuits -- Section 3.6 – DC Steady State Analysis with RC, RL, and RLC Circuits -- Section 3.7 – Introduction to Passive Filters -- Module 3 – Equation List -- References and LinksAppendix – Dependent Sources and Laplace Transform Examples
This book covers Direct Current (DC) circuit theory and is broken up into three modules. Module 1 covers the basics for circuits that include DC sources (voltage or current) and resistors. Even though Module 1 is not very difficult, it forms the foundation for more complicated topics in modules 2 and 3 so it is important to have a firm grasp of all Module 1 topics before moving on. Module 2 covers more difficult problem solving techniques for circuits that include only DC sources and resistors. Module 3 introduces capacitors and inductors. These non-linear reactive components are analyzed in the transient and steady state regions in circuits with DC sources in Module 3. Also annexed is a two-page cheat sheet that ENGR 2431 students at University of Oklahoma can use for exams.
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In English.
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