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S. Ross and W. G. OldhamEECS 40 Spring 2003 Lecture 6 Copyright, Regents University of California Lecture 6 FINDING VOLTAGES IN A CIRCUIT So far, we have.

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Presentation on theme: "S. Ross and W. G. OldhamEECS 40 Spring 2003 Lecture 6 Copyright, Regents University of California Lecture 6 FINDING VOLTAGES IN A CIRCUIT So far, we have."— Presentation transcript:

1 S. Ross and W. G. OldhamEECS 40 Spring 2003 Lecture 6 Copyright, Regents University of California Lecture 6 FINDING VOLTAGES IN A CIRCUIT So far, we have been applying KVL and KCL “haphazardly” to find voltages and currents in a circuit. Good for developing intuition, finding things quickly… …but what if the circuit is complicated? What if you get stuck? Systematic way to find all node voltages in a circuit: Nodal Analysis

2 S. Ross and W. G. OldhamEECS 40 Spring 2003 Lecture 6 Copyright, Regents University of California NOTATION: NODE VOLTAGES The voltage drop from node X to a reference node (ground) is called the node voltage V x. Example: ab ground VaVa VbVb + _ + _ _ +

3 S. Ross and W. G. OldhamEECS 40 Spring 2003 Lecture 6 Copyright, Regents University of California FORMAL CIRCUIT ANALYSIS USING KCL: NODAL ANALYSIS 2 Define unknown node voltages (those not fixed by voltage sources ) 3Write KCL at each unknown node, expressing current in terms of the node voltages (using the I-V relationships of branch elements*) * with floating voltages we will use a modified Step 3 1 Choose a reference node (ground, node 0) (look for the one with the most connections!) 4Solve the set of equations (N equations for N unknown node voltages) (Memorize these steps and apply them rigorously!)

4 S. Ross and W. G. OldhamEECS 40 Spring 2003 Lecture 6 Copyright, Regents University of California EXAMPLE OF NODE ANALYSIS 1.Choose a reference node. 2.Define the node voltages (except reference node and the one set by the voltage source). 3.Apply KCL at the nodes with unknown voltage. node voltage set  VaVa V b  reference node R 4 V 1 R 2 + - ISIS R 3 R1R1 What if we used different ref node? 4.Solve for Va and Vb in terms of circuit parameters.

5 S. Ross and W. G. OldhamEECS 40 Spring 2003 Lecture 6 Copyright, Regents University of California EXAMPLE OF NODE ANALYSIS V 2 V 1 R 2 R 1 R 4 R 5 R 3 I 1 VaVa

6 S. Ross and W. G. OldhamEECS 40 Spring 2003 Lecture 6 Copyright, Regents University of California NODAL ANALYSIS WITH “FLOATING” VOLTAGE SOURCES A “floating” voltage source is a voltage source for which neither side is connected to the reference node. V LL in the circuit below is an example. Problem: We cannot write KCL at node a or b because there is no way to express the current through the voltage source in terms of. Solution: Define a “supernode” – that chunk of the circuit containing nodes a and b. Express KCL at this supernode. R 4 R 2 I 2 V a V b + - V LL I 1

7 S. Ross and W. G. OldhamEECS 40 Spring 2003 Lecture 6 Copyright, Regents University of California FLOATING VOLTAGE SOURCES (cont.) Use a Gaussian surface to enclose the floating voltage source; write KCL for that surface. supernode Two unknowns: V a and V b. Get one equation from KCL at supernode: Get a second equation from the property of the voltage source: R 4 R 2 I 2 V a V b + - V LL I 1

8 S. Ross and W. G. OldhamEECS 40 Spring 2003 Lecture 6 Copyright, Regents University of California ANOTHER EXAMPLE + | +  VaVa VbVb Can we choose ground to avoid a floating voltage source? Not in this circuit.

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