当前课程知识点:Electric Circuits > Chapter 4. Circuit Theorems > 4.4 Thevenin’s Theorem > 4.4 Thevenin’s Theorem
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1. Can a linear two-terminal circuit be replaced by an equivalent circuit consisting of a voltage source in series with a resistor?
2. How to simplify circuit by using Thevenin’s Theorem?
-1.1 Systems of Units
-1.2 Current and voltage, reference direction of current and voltage
--1.2 Current and voltage, reference direction of current and voltage
--1.2 Current and voltage, reference direction of current and voltage
--1.2 Current and voltage, reference direction of current and voltage
-1.3 Power and energy
--1.3 Power and energy
-1.4 Circuit elements, resistance, voltage source, current source, and controlled source
--1.4 (2) Circuit elements
--1.4 Circuit elements, resistance, voltage source, current source, and controlled source
--1.4 Circuit elements, resistance, voltage source, current source, and controlled source
-Chapter 1. Basic Concepts of Electric Circuits
-2.1 Ohm’s Law
--2.1
-2.2 Nodes, Branches, and Loops
--2.2 Nodes,Branches,and Loops
--2.2 Nodes, Branches, and Loops
--2.2 Nodes, Branches, and Loops
--2.2 Nodes, Branches, and Loops
-2.3 Kirchhoff law (KCL and KVL)
--2.3
--2.3 Kirchhoff law (KCL and KVL)
-2.4 Series Resistors and Voltage Division
--2.4 Series Resistors and Voltage Division
--2.4 Series Resistors and Voltage Division
--2.4 Series Resistors and Voltage Division
--2.4
-2.5 Parallel Resistors and Current Division
--2.5 Parallel Resisitor and Current Division
--2.5(1)
--2.5 Parallel Resistors and Current Division
--2.5 Parallel Resistors and Current Division
-2.6 Equivalent transformation between Y connection and Δconnection of resistances;
--2.6 Wye-Delta Transformations
--2.6(1)
--2.6 Equivalent transformation between Y connection and Δconnection of resistances
--2.6 Equivalent transformation between Y connection and Δconnection of resistances
-3.1 Nodal Analysis
--3.1
-3.2 Nodal Analysis with Voltage Sources
--3.2 Nodal Analysis with Voltage Sources
--3.2
--3.2 Nodal Analysis with Voltage Sources
--3.2 Nodal Analysis with Voltage Sources
-3.3 Mesh Analysis
--3.3
-3.4 Mesh Analysis with Current Sources
--3.4 Mesh Analysis with Current Sources
--3.4 Mesh Analysis with Current Sources
--3.4 Mesh Analysis with Current Sources
--3.4
-Chapter 3. General Analysis of Resistant circuits
-4.1 Linearity Property
--4.1
-4.2 Superposition
--4.2
-4.3 Source Transformation
-4.4 Thevenin’s Theorem
--4.4
-4.5 Norton’s Theorem
--4.5
-4.6 Maximum Power Transfer
--4.6
-5.1 Operational amplifier
-5.2 Ideal Op Amp
--5.2
-5.3 Analysis of circuits with operational amplifier
--5.3 Analysis of circuits with operational amplifier
--5.3 Analysis of circuits with operational amplifier
--5.3 Analysis of circuits with operational amplifier
--5.3
-Chapter 5. Resistant Circuits with Operational Amplifier
-6.1 Capacitors
--6.1
-6.2 Series and parallel connections of capacitors
--6.2 Series and parallel connections of capacitors
--6.2
--6.2 Series and parallel connections of capacitors 1
--6.2 Series and parallel connections of capacitors 2
--6.2 Series and parallel connections of capacitors
-6.3 Inductors
--6.3
-6.4 Series and parallel connections of inductors
--6.4 Series and parallel connections of inductors
--6.4 Series and parallel connections of inductors 1
--6.4 Series and parallel connections of inductors 2
--6.4 Series and parallel connections of inductors
--6.4
-Chapter 6. Energy-storage Elements
-7.1 The Source-Free RC Circuit
--7.1 The Source-Free RC Circuit
--7.1 The Source-Free RC Circuit
--7.1 The Source-Free RC Circuit
--7.1
-7.2 The Source-Free RL Circuit
--7.2 The Source-Free RL Circuit
--7.2
--7.2 The Source-Free RL Circuit
--7.2 The Source-Free RL Circuit
-7.3 Step Response of an RC Circuit
--7.3 Step Response of an RC Circuit
--7.3 Step Response of an RC Circuit
--7.3 Step Response of an RC Circuit
-7.4 Step Response of an RL Circuit
--7.4 Step Response of an RL Circuit
--7.4
--7.4 Step Response of an RL Circuit
--7.4 Step Response of an RL Circuit
-Chapter7. Time Domain Analysis of First-order Circuit
-8.1 Sinusoids
--8.1
-8.2 Phasors
--8.2
-8.3 Phasor Relationships for Circuit Elements
--8.3 Phasor Relationships for Circuit Elements
--8.3
--8.3 Phasor Relationships for Circuit Elements
--8.3 Phasor Relationships for Circuit Elements
-8.4 Impedance and admittance;
--8.4 Impedance and Admittance
--8.4
--8.4 Impedance and admittance
--8.4 Impedance and admittance;
-8.5 Kirchhoff’s Laws in the Frequency Domain
--8.5 Kirchhoff’s Laws in the Frequency Domain
--8.5
--8.5 Kirchhoff’s Laws in the Frequency Domain
--8.5 Kirchhoff’s Laws in the Frequency Domain
-8.6 Impedance Combinations
--8.6
-Chapter 8. Sinusoids and Phasors
-9.1 Nodal Analysis
--9.1
-9.2 Mesh Analysis
--9.2
-9.3 Superposition Theorem
--9.3
-9.4 Source Transformation
--9.4
-9.5 Thevenin and Norton Equivalent Circuits
--9.5 Thevenin and Norton Equivalent Circuits
--9.5(1)
--9.5 Thevenin and Norton Equivalent Circuits
--9.5 Thevenin and Norton Equivalent Circuits
--9.5(2)
-9.6 Op Amp AC Circuits
-Chapter 9. Analysis of Sinusoidal Steady-state Circuit
-final exam