Chat with us, powered by LiveChat Show detailed calculations and all steps leading to the final answer, include all circuit schematics used for circuit simplification used at various steps.NodeVoltageMethod.docxNodeVo - Essayabode

Show detailed calculations and all steps leading to the final answer, include all circuit schematics used for circuit simplification used at various steps.NodeVoltageMethod.docxNodeVo

 Show detailed calculations and all steps leading to the final answer, include all circuit schematics used for circuit simplification used at various steps. 

28. In Figure 9–36, use the node voltage method to find the voltage at point A with respect to ground.

Figure 9–36

30. Write the node voltage equations for Figure 9–33. Use your calculator to find the node voltages.

31. Use node analysis to determine the voltage at points A and B with respect to ground in Figure 9–37.

*32. Find the voltage at points A, B, and C in Figure 9–38.

image1.png

image2.png

image3.png

image4.png

,

Node Voltage Analysis

EET310 Circuit Analysis

Nodes, Branches and Loops

2

Since the elements of an electric circuit can be interconnected in several ways, we need to understand some basic concepts of network topology

In network topology, we study the properties relating to the placement of elements in the network and the geometric configuration of the network.

Such elements include branches, nodes, and loops

Nodes, Branches and Loops

Branches

A branch represents a single element such as a voltage source, a current source or a resistor

In other words, a branch represents any two-terminal element

The circuit shown below has five branches, namely, the 10-V voltage source, the 2-A current source, and the three resistors.

3

Nodes, Branches and Loops

Nodes

A node is the point of connection between two or more branches

A node is usually indicated by a dot in a circuit

If a short circuit connects two nodes, the two nodes constitute a single node.

The circuit shown on right has three nodes a, b, and c.

4

Nodes, Branches and Loops

Loops

A loop is a closed path formed by starting at a node, passing through a set of nodes, and returning to the starting node without passing through any node more than once.

A loop is said to be independent if it contains a branch which is not in any other loop

Independent loops or paths result in independent sets of equations.

5

Nodes, Branches and Loops

Loops

How many loops exist in the network shown below?

How many of them are independent loops?

6

Nodes, Branches and Loops

Determine the number of branches and nodes in the network below

Determine the number of branches and nodes for the network below

7

Kirchhoff’s Current Law (KCL)

Kirchhoff’s Current Law states that:

8

The algebraic sum of currents entering a node (or a closed boundary) is zero.

The sum of all currents leaving a node should be the same as the sum of all currents entering the node

OR

Kirchhoff’s Voltage Law (KVL)

Kirchhoff’s Voltage Law states that:

9

The algebraic sum of voltages around a closed path ( loop) is zero.

In any closed path (loop), the sum of all potential rises is equal to the sum of all potential drops

OR

Node voltage method

In the node voltage method, you can solve for the unknown voltages in a circuit using K C L.

Steps:

10

Determine the number of nodes.

Select one node as a reference. Assign voltage designations to each unknown node.

Assign currents into and out of each node except the reference node.

Apply K C L at each node where currents are assigned.

Express the current equations in terms of the voltages and solve for the unknown voltages using Ohm’s law.

Node voltage method

Example:

Solve the same problem as before using the node voltage method.

Solution:

Write K C L in terms of the voltages (next slide).

11

Node voltage method

Solution:

12

Review & Examples Nodal Analysis

13

This method uses KCL for general networks

Nodal analysis provides a general procedure for analyzing circuits using node voltages as the circuit variables

Choosing node voltages instead of element voltages as circuit variables is convenient and reduces the number of equations one must solve simultaneously

In nodal analysis, we are interested in finding the node voltages.

Nodal Analysis Procedure

14

Assign

Step1: Arbitrarily assign a reference node within the circuit and indicate this node as ground

The reference node is usually located at the bottom of the circuit, although it may be located anywhere

Convert

Convert each voltage source in the network to its equivalent current source

This step, although not absolutely necessary, makes further calculations easier to understand

Assign

Arbitrarily assign voltages (V1, V2, . . . , Vn) to the remaining nodes in the circuit

these voltages will all be with respect to the chosen reference in step 1

Nodal Analysis Procedure

15

Step 4: Arbitrarily assign a current direction to each branch in which there is no current source.

Using the assigned current directions, indicate the corresponding polarities of the voltage drops on all resistors

Step 5: With the exception of the reference node (ground), apply Kirchhoff’s current law at each of the nodes.

If a circuit has a total of n + 1 nodes (including the reference node), there will be n simultaneous linear equations.

Nodal Analysis Procedure

Step 6: Rewrite each of the arbitrarily assigned currents in terms of the potential difference across a known resistance.

Step 7: Solve the resulting simultaneous linear equations for the voltages (V1, V2,. . . , Vn). The simultaneous equations can be solved by using the methods we have seen in unit one

Method of substitution

Method of elimination

Matrix method using Cramer’s rule or matrix inversion in Excel

16

Nodal Analysis

Example 1: Using Nodal Analysis determine the node voltages for the following circuit. Use the steps mentioned in the previous slides

17

Nodal Analysis

Solution:

Step 1: Select a convenient reference node

Step 2: Convert the voltage source to equivalent current source

18

Nodal Analysis

Solution Continued …

Steps 3 & 4: Arbitrarily assign node voltages and branch currents

19

Nodal Analysis

Solution Continued …

Steps 5 & 6: Write the KCL equations at nodes labeled V1 and V2

20

Nodal Analysis

Solution Continued …

Steps 7: Solve for the node voltages using Cramer’s rule

21

Nodal Analysis

Example 2: Using Nodal Analysis determine the node voltages for the following circuit. Use the nodal analysis procedures

22

Nodal Analysis

Solution:

Step 1: Select a convenient reference node

Step 2: Convert the voltage source to equivalent current source

23

Nodal Analysis

Solution Continued …

Steps 3 & 4: Arbitrarily assign node voltages and branch currents

Nodal Analysis

Solution Continued …

Steps 5 & 6: Write the KCL equations at nodes labeled V1 and V2

25

Nodal Analysis

Solution Continued …

Steps 7: Solve for the node voltages using Cramer’s rule

26

Nodal Analysis

Example 3: Determine the node voltages using nodal analysis

27

27

Nodal Analysis

Example 4: Using nodal analysis solve the node voltages

Nodal Analysis

Example 5: Using nodal analysis solve the node voltages

29

Nodal Analysis

Example 6: Using nodal analysis solve the node voltages

Nodal Analysis

Example 7: Using nodal analysis solve the node voltages

31

Nodal Analysis

Example 8: Using nodal analysis solve the node voltages

32

Nodal Analysis

Example 9: Using nodal analysis solve the node voltages

33

Nodal Analysis

Example 10: Using nodal analysis solve the node voltages and find Vo

34

Our website has a team of professional writers who can help you write any of your homework. They will write your papers from scratch. We also have a team of editors just to make sure all papers are of HIGH QUALITY & PLAGIARISM FREE. To make an Order you only need to click Ask A Question and we will direct you to our Order Page at WriteDemy. Then fill Our Order Form with all your assignment instructions. Select your deadline and pay for your paper. You will get it few hours before your set deadline.

Fill in all the assignment paper details that are required in the order form with the standard information being the page count, deadline, academic level and type of paper. It is advisable to have this information at hand so that you can quickly fill in the necessary information needed in the form for the essay writer to be immediately assigned to your writing project. Make payment for the custom essay order to enable us to assign a suitable writer to your order. Payments are made through Paypal on a secured billing page. Finally, sit back and relax.

Do you need an answer to this or any other questions?