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EE 210:Circuits
Spring 2017
Lecture 7: Thursday, February 2, 2017
![Page 2: Course Topics (Tentative)mr63/Courses/EE210...Nodal Analysis Recipe 1. Label the nodes with unknown voltages and choose a reference node (reference node is usually the 0V “ground”](https://reader036.vdocument.in/reader036/viewer/2022081615/5fe56c6d806f321b1c313ad6/html5/thumbnails/2.jpg)
Last time (Nodal Analysis)
1. Nodal analysis recipe
2. Nodal analysis examples
![Page 3: Course Topics (Tentative)mr63/Courses/EE210...Nodal Analysis Recipe 1. Label the nodes with unknown voltages and choose a reference node (reference node is usually the 0V “ground”](https://reader036.vdocument.in/reader036/viewer/2022081615/5fe56c6d806f321b1c313ad6/html5/thumbnails/3.jpg)
Today More Nodal Analysis and Mesh Analysis
1. More nodal analysis examples
2. Modifying the recipe for supernodes
3. Mesh Analysis
4. Source transformations
![Page 4: Course Topics (Tentative)mr63/Courses/EE210...Nodal Analysis Recipe 1. Label the nodes with unknown voltages and choose a reference node (reference node is usually the 0V “ground”](https://reader036.vdocument.in/reader036/viewer/2022081615/5fe56c6d806f321b1c313ad6/html5/thumbnails/4.jpg)
More Nodal Analysis
1. More nodal analysis examples
2. Modifying the recipe for supernodes
3. Source transformations
4. Mesh Analysis
![Page 5: Course Topics (Tentative)mr63/Courses/EE210...Nodal Analysis Recipe 1. Label the nodes with unknown voltages and choose a reference node (reference node is usually the 0V “ground”](https://reader036.vdocument.in/reader036/viewer/2022081615/5fe56c6d806f321b1c313ad6/html5/thumbnails/5.jpg)
Nodal Analysis Recipe
1. Label the nodes with unknown voltages and choose a reference node (reference node is
usually the 0V “ground” node)
2. Draw/label the currents at each node (it doesn’t matter which way you orient the arrows)
3. For each node with an unknown voltage:
a) Write a KCL equation: 𝑖𝑖𝑛 = 𝑖𝑜𝑢𝑡
b) Use Ohm’s law to substitute currents for voltages in the KCL equation
4. Solve the set of equations for the voltages
![Page 6: Course Topics (Tentative)mr63/Courses/EE210...Nodal Analysis Recipe 1. Label the nodes with unknown voltages and choose a reference node (reference node is usually the 0V “ground”](https://reader036.vdocument.in/reader036/viewer/2022081615/5fe56c6d806f321b1c313ad6/html5/thumbnails/6.jpg)
Nodal Analysis Example 4
![Page 7: Course Topics (Tentative)mr63/Courses/EE210...Nodal Analysis Recipe 1. Label the nodes with unknown voltages and choose a reference node (reference node is usually the 0V “ground”](https://reader036.vdocument.in/reader036/viewer/2022081615/5fe56c6d806f321b1c313ad6/html5/thumbnails/7.jpg)
3Ω
−+ 10Ω
3A
1 2
0Reference node
5Ω
4Ω6V
![Page 8: Course Topics (Tentative)mr63/Courses/EE210...Nodal Analysis Recipe 1. Label the nodes with unknown voltages and choose a reference node (reference node is usually the 0V “ground”](https://reader036.vdocument.in/reader036/viewer/2022081615/5fe56c6d806f321b1c313ad6/html5/thumbnails/8.jpg)
3Ω
−+ 10Ω
𝐼1
𝐼2
𝐼3 𝐼4
3A
1 2
0Reference node
5Ω
4Ω6V
![Page 9: Course Topics (Tentative)mr63/Courses/EE210...Nodal Analysis Recipe 1. Label the nodes with unknown voltages and choose a reference node (reference node is usually the 0V “ground”](https://reader036.vdocument.in/reader036/viewer/2022081615/5fe56c6d806f321b1c313ad6/html5/thumbnails/9.jpg)
KCL @ Node 1: 𝐼1 = 𝐼3 + 3
2 − 0.33 3𝑉1 = 0.25𝑉1 + 3
−1 = 0.58 3𝑉1
Ohm’s law: 𝐼1 =6 − 𝑉1
3= 2 − 0.33 3𝑉1
𝐼3 =𝑉1 − 𝑉0
4= 0.25𝑉1
𝐼4 =𝑉2 − 𝑉0
10= 0.1𝑉2
𝐼2 =6 − 𝑉2
5= 1.2 − 0.2𝑉2KCL @ Node 2: 3 + 𝐼2 = 𝐼4
3 + 1.2 − 0.2𝑉2 = 0.1𝑉24.2 = 0.3𝑉2
𝑉1 = −1.71V
𝑉2 = 14V
3Ω
−+ 10Ω
𝐼1
𝐼2
𝐼3 𝐼4
3A
1 2
0Reference node
5Ω
4Ω6V
![Page 10: Course Topics (Tentative)mr63/Courses/EE210...Nodal Analysis Recipe 1. Label the nodes with unknown voltages and choose a reference node (reference node is usually the 0V “ground”](https://reader036.vdocument.in/reader036/viewer/2022081615/5fe56c6d806f321b1c313ad6/html5/thumbnails/10.jpg)
KCL @ Node 1: 𝐼1 = 𝐼3 + 3
2 − 0.33 3𝑉1 = 0.25𝑉1 + 3
−1 = 0.58 3𝑉1
Ohm’s law: 𝐼1 =6 − 𝑉1
3= 2 − 0.33 3𝑉1
𝐼3 =𝑉1 − 𝑉0
4= 0.25𝑉1
𝐼4 =𝑉2 − 𝑉0
10= 0.1𝑉2
𝐼2 =6 − 𝑉2
5= 1.2 − 0.2𝑉2KCL @ Node 2: 3 + 𝐼2 = 𝐼4
3 + 1.2 − 0.2𝑉2 = 0.1𝑉24.2 = 0.3𝑉2
𝑉1 = −1.71V
𝑉2 = 14V
3Ω
−+ 10Ω
𝐼1
𝐼2
𝐼3 𝐼4
3A
1 2
0Reference node
5Ω
4Ω6V
![Page 11: Course Topics (Tentative)mr63/Courses/EE210...Nodal Analysis Recipe 1. Label the nodes with unknown voltages and choose a reference node (reference node is usually the 0V “ground”](https://reader036.vdocument.in/reader036/viewer/2022081615/5fe56c6d806f321b1c313ad6/html5/thumbnails/11.jpg)
3Ω
−+ 10Ω
𝐼1
𝐼2
𝐼3 𝐼4
3A
1 2
0Reference node
5Ω
4Ω6V
Ohm’s law: 𝐼1 =6 − 𝑉1
3= 2.57A
𝐼3 =𝑉1 − 𝑉0
4= −0.43A
𝐼4 =𝑉2 − 𝑉0
10= 1.4A
𝐼2 =6 − 𝑉2
5= −1.6A
KCL @ Node 1: 𝐼1 = 𝐼3 + 3
2 − 0.33 3𝑉1 = 0.25𝑉1 + 3
−1 = 0.58 3𝑉1
KCL @ Node 2: 3 + 𝐼2 = 𝐼43 + 1.2 − 0.2𝑉2 = 0.1𝑉24.2 = 0.3𝑉2
𝑉1 = −1.71V
𝑉2 = 14V
![Page 12: Course Topics (Tentative)mr63/Courses/EE210...Nodal Analysis Recipe 1. Label the nodes with unknown voltages and choose a reference node (reference node is usually the 0V “ground”](https://reader036.vdocument.in/reader036/viewer/2022081615/5fe56c6d806f321b1c313ad6/html5/thumbnails/12.jpg)
−𝟏.𝟔𝐀
3Ω
−+ 10Ω
𝐼1
𝐼2
𝐼3 𝐼4
3A
1 2
0Reference node
5Ω
4Ω6V
Ohm’s law: 𝐼1 =6 − 𝑉1
3= 2.57A
𝐼3 =𝑉1 − 𝑉0
4= −0.43A
𝐼4 =𝑉2 − 𝑉0
10= 1.4A
𝐼2 =6 − 𝑉2
5= −1.6A
𝟏.𝟕𝟏𝐕
𝟏𝟒𝐕𝟔𝐕
𝟎𝐕
−𝟎.𝟒𝟑𝐀 𝟏.𝟒𝐀
𝟐.𝟓𝟕𝐀
KCL @ Node 1: 𝐼1 = 𝐼3 + 3
2 − 0.33 3𝑉1 = 0.25𝑉1 + 3
−1 = 0.58 3𝑉1
KCL @ Node 2: 3 + 𝐼2 = 𝐼43 + 1.2 − 0.2𝑉2 = 0.1𝑉24.2 = 0.3𝑉2
𝑉1 = −1.71V
𝑉2 = 14V
![Page 13: Course Topics (Tentative)mr63/Courses/EE210...Nodal Analysis Recipe 1. Label the nodes with unknown voltages and choose a reference node (reference node is usually the 0V “ground”](https://reader036.vdocument.in/reader036/viewer/2022081615/5fe56c6d806f321b1c313ad6/html5/thumbnails/13.jpg)
More Nodal Analysis
1. More nodal analysis examples
2. Modifying the recipe for supernodes
3. Mesh Analysis
4. Source transformations
![Page 14: Course Topics (Tentative)mr63/Courses/EE210...Nodal Analysis Recipe 1. Label the nodes with unknown voltages and choose a reference node (reference node is usually the 0V “ground”](https://reader036.vdocument.in/reader036/viewer/2022081615/5fe56c6d806f321b1c313ad6/html5/thumbnails/14.jpg)
Nodal Analysis Example 5
![Page 15: Course Topics (Tentative)mr63/Courses/EE210...Nodal Analysis Recipe 1. Label the nodes with unknown voltages and choose a reference node (reference node is usually the 0V “ground”](https://reader036.vdocument.in/reader036/viewer/2022081615/5fe56c6d806f321b1c313ad6/html5/thumbnails/15.jpg)
−+
10Ω
5Ω
−+10V 2Ω 6A
3V
1 2
0Reference node
𝟏𝟎𝐕
𝟎𝐕
𝐼1
𝐼2 𝐼3
𝐼 =?
![Page 16: Course Topics (Tentative)mr63/Courses/EE210...Nodal Analysis Recipe 1. Label the nodes with unknown voltages and choose a reference node (reference node is usually the 0V “ground”](https://reader036.vdocument.in/reader036/viewer/2022081615/5fe56c6d806f321b1c313ad6/html5/thumbnails/16.jpg)
−+
10Ω
5Ω
−+10V 2Ω 6A
3V
1 2
0Reference node
𝟏𝟎𝐕
𝟎𝐕
𝐼1
𝐼2 𝐼3
𝐼 =?
KCL @ Node 1: 𝐼1 + 𝐼 = 𝐼2
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−+
10Ω
5Ω
−+10V 2Ω 6A
3V
1 2
0Reference node
𝟏𝟎𝐕
𝟎𝐕
𝐼1
𝐼2 𝐼3
𝐼 =?
KCL @ Node 1: 𝐼1 + 𝐼 = 𝐼2 Ohm’s law:
𝐼1 =10 − 𝑉1
5= 2 − 0.2𝑉1
𝐼2 =𝑉1 − 𝑉0
10= 0.1𝑉1
0
𝐼3 =𝑉2 − 𝑉0
2= 0.5𝑉2
0
![Page 18: Course Topics (Tentative)mr63/Courses/EE210...Nodal Analysis Recipe 1. Label the nodes with unknown voltages and choose a reference node (reference node is usually the 0V “ground”](https://reader036.vdocument.in/reader036/viewer/2022081615/5fe56c6d806f321b1c313ad6/html5/thumbnails/18.jpg)
−+
10Ω
5Ω
−+10V 2Ω 6A
3V
1 2
0Reference node
𝟏𝟎𝐕
𝟎𝐕
𝐼1
𝐼2 𝐼3
𝐼 =?
KCL @ Node 1: 𝐼1 + 𝐼 = 𝐼22 − 0.2𝑉1 + 𝐼 = 0.1𝑉1
Ohm’s law:
𝐼1 =10 − 𝑉1
5= 2 − 0.2𝑉1
𝐼2 =𝑉1 − 𝑉0
10= 0.1𝑉1
0
𝐼3 =𝑉2 − 𝑉0
2= 0.5𝑉2
0
![Page 19: Course Topics (Tentative)mr63/Courses/EE210...Nodal Analysis Recipe 1. Label the nodes with unknown voltages and choose a reference node (reference node is usually the 0V “ground”](https://reader036.vdocument.in/reader036/viewer/2022081615/5fe56c6d806f321b1c313ad6/html5/thumbnails/19.jpg)
−+
10Ω
5Ω
−+10V 2Ω 6A
3V
1 2
0Reference node
𝟏𝟎𝐕
𝟎𝐕
𝐼1
𝐼2 𝐼3
𝐼 =?
KCL @ Node 1: 𝐼1 + 𝐼 = 𝐼22 − 0.2𝑉1 + 𝐼 = 0.1𝑉1
KCL @ Node 2: 6 = 𝐼 + 𝐼36 = 𝐼 + 0.5𝑉2
Ohm’s law:
𝐼1 =10 − 𝑉1
5= 2 − 0.2𝑉1
𝐼2 =𝑉1 − 𝑉0
10= 0.1𝑉1
0
𝐼3 =𝑉2 − 𝑉0
2= 0.5𝑉2
0
![Page 20: Course Topics (Tentative)mr63/Courses/EE210...Nodal Analysis Recipe 1. Label the nodes with unknown voltages and choose a reference node (reference node is usually the 0V “ground”](https://reader036.vdocument.in/reader036/viewer/2022081615/5fe56c6d806f321b1c313ad6/html5/thumbnails/20.jpg)
−+
10Ω
5Ω
−+10V 2Ω 6A
3V
1 2
0Reference node
𝟏𝟎𝐕
𝟎𝐕
𝐼1
𝐼2 𝐼3
𝐼 =?
KCL @ Node 1: 𝐼1 + 𝐼 = 𝐼22 − 0.2𝑉1 + 𝐼 = 0.1𝑉1
KCL @ Node 2: 6 = 𝐼 + 𝐼36 = 𝐼 + 0.5𝑉2
Ohm’s law:
𝐼1 =10 − 𝑉1
5= 2 − 0.2𝑉1
𝐼2 =𝑉1 − 𝑉0
10= 0.1𝑉1
0
𝐼3 =𝑉2 − 𝑉0
2= 0.5𝑉2
0
Works, but it’s easier to use a supernode
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−+
10Ω
5Ω
−+10V 2Ω 6A
3V
1 2
0Reference node
𝟏𝟎𝐕
𝟎𝐕
𝐼1
𝐼2 𝐼3
Ohm’s law:
𝐼1 =10 − 𝑉1
5= 2 − 0.2𝑉1
𝐼2 =𝑉1 − 𝑉0
10= 0.1𝑉1
0
𝐼3 =𝑉2 − 𝑉0
2= 0.5𝑉2
0
𝑉1 = 𝑉2 + 3 [1]
![Page 22: Course Topics (Tentative)mr63/Courses/EE210...Nodal Analysis Recipe 1. Label the nodes with unknown voltages and choose a reference node (reference node is usually the 0V “ground”](https://reader036.vdocument.in/reader036/viewer/2022081615/5fe56c6d806f321b1c313ad6/html5/thumbnails/22.jpg)
−+
10Ω
5Ω
−+10V 2Ω 6A
3V
1 2
0Reference node
𝟏𝟎𝐕
𝟎𝐕
𝐼1
𝐼2 𝐼3
Ohm’s law:
𝐼1 =10 − 𝑉1
5= 2 − 0.2𝑉1
𝐼2 =𝑉1 − 𝑉0
10= 0.1𝑉1
0
𝐼3 =𝑉2 − 𝑉0
2= 0.5𝑉2
0
𝑉1 = 𝑉2 + 3 [1]
KCL @ Supernode: 𝐼1 + 6 = 𝐼2 + 𝐼3
2 − 0.2𝑉1 + 6 = 0.1𝑉1 + 0.5𝑉2
8 − 0.3𝑉1 = 0.5𝑉2 [2]
![Page 23: Course Topics (Tentative)mr63/Courses/EE210...Nodal Analysis Recipe 1. Label the nodes with unknown voltages and choose a reference node (reference node is usually the 0V “ground”](https://reader036.vdocument.in/reader036/viewer/2022081615/5fe56c6d806f321b1c313ad6/html5/thumbnails/23.jpg)
−+
10Ω
5Ω
−+10V 2Ω 6A
3V
1 2
0Reference node
𝟏𝟎𝐕
𝟎𝐕
𝐼1
𝐼2 𝐼3
Ohm’s law:
𝐼1 =10 − 𝑉1
5= 2 − 0.2𝑉1
𝐼2 =𝑉1 − 𝑉0
10= 0.1𝑉1
0
𝐼3 =𝑉2 − 𝑉0
2= 0.5𝑉2
0
𝑉1 = 𝑉2 + 3 [1]
KCL @ Supernode: 𝐼1 + 6 = 𝐼2 + 𝐼3
2 − 0.2𝑉1 + 6 = 0.1𝑉1 + 0.5𝑉2
8 − 0.3𝑉1 = 0.5𝑉2 [2]
![Page 24: Course Topics (Tentative)mr63/Courses/EE210...Nodal Analysis Recipe 1. Label the nodes with unknown voltages and choose a reference node (reference node is usually the 0V “ground”](https://reader036.vdocument.in/reader036/viewer/2022081615/5fe56c6d806f321b1c313ad6/html5/thumbnails/24.jpg)
−+
10Ω
5Ω
−+10V 2Ω 6A
3V
1 2
0Reference node
𝟏𝟎𝐕
𝟎𝐕
𝐼1
𝐼2 𝐼3
Ohm’s law:
𝐼1 =10 − 𝑉1
5= 2 − 0.2𝑉1
𝐼2 =𝑉1 − 𝑉0
10= 0.1𝑉1
0
𝐼3 =𝑉2 − 𝑉0
2= 0.5𝑉2
0
𝑉1 = 𝑉2 + 3 [1]
KCL @ Supernode: 𝐼1 + 6 = 𝐼2 + 𝐼3
2 − 0.2𝑉1 + 6 = 0.1𝑉1 + 0.5𝑉2
8 − 0.3𝑉1 = 0.5𝑉2 [2]
![Page 25: Course Topics (Tentative)mr63/Courses/EE210...Nodal Analysis Recipe 1. Label the nodes with unknown voltages and choose a reference node (reference node is usually the 0V “ground”](https://reader036.vdocument.in/reader036/viewer/2022081615/5fe56c6d806f321b1c313ad6/html5/thumbnails/25.jpg)
[1] 𝑉1 = 𝑉2 + 3
[2] 8 − 0.3𝑉1 = 0.5𝑉2
Plugging [1] into [2]:
From [1]:
8 − 0.3 𝑉2 + 3 = 0.5𝑉2
7.1 = 0.8𝑉2
8 − 0.3𝑉2 − 0.9 = 0.5𝑉2
𝑉2 = 8.875V
𝑉1 = 𝑉2 + 3
𝑉1 = 11.875V
𝐼1 = 2 − 0.2𝑉1 = −0.375A
𝐼2 = 0.1𝑉1 = 1.1875A
𝐼3 = 0.5𝑉2 = 4.4375A
From Ohm’s law equations:
![Page 26: Course Topics (Tentative)mr63/Courses/EE210...Nodal Analysis Recipe 1. Label the nodes with unknown voltages and choose a reference node (reference node is usually the 0V “ground”](https://reader036.vdocument.in/reader036/viewer/2022081615/5fe56c6d806f321b1c313ad6/html5/thumbnails/26.jpg)
−+
10Ω
5Ω
−+10V 2Ω 6A
3V
1 2
0Reference node
𝟏𝟎𝐕
𝟎𝐕
𝐼1
𝐼2 𝐼3
𝟏𝟏.𝟖𝟕𝟓𝐕 𝟖.𝟖𝟕𝟓𝐕−𝟎.𝟑𝟕𝟓𝐀
𝟏.𝟏𝟖𝟕𝟓𝐀 𝟒.𝟒𝟑𝟕𝟓𝐀
𝟏.𝟓𝟔𝟐𝟓𝐀
𝑉2 = 8.875V
𝑉1 = 11.875V
KCL @ Supernode: 𝐼1 + 6 = 𝐼2 + 𝐼3
2 − 0.2𝑉1 + 6 = 0.1𝑉1 + 0.5𝑉2
8 − 0.3𝑉1 = 0.5𝑉2 [2]
Ohm’s law:
𝐼1 =10 − 𝑉1
5= 2 − 0.2𝑉1
𝐼2 =𝑉1 − 𝑉0
10= 0.1𝑉1
0
𝐼3 =𝑉2 − 𝑉0
2= 0.5𝑉2
0
−0.375A
1.1875A
4.4375A
![Page 27: Course Topics (Tentative)mr63/Courses/EE210...Nodal Analysis Recipe 1. Label the nodes with unknown voltages and choose a reference node (reference node is usually the 0V “ground”](https://reader036.vdocument.in/reader036/viewer/2022081615/5fe56c6d806f321b1c313ad6/html5/thumbnails/27.jpg)
Mesh Analysis
1. More nodal analysis examples
2. Modifying the recipe for supernodes
3. Source transformations
4. Mesh Analysis
![Page 28: Course Topics (Tentative)mr63/Courses/EE210...Nodal Analysis Recipe 1. Label the nodes with unknown voltages and choose a reference node (reference node is usually the 0V “ground”](https://reader036.vdocument.in/reader036/viewer/2022081615/5fe56c6d806f321b1c313ad6/html5/thumbnails/28.jpg)
Source transformations allow you to switch between a voltage source in series with a resistor and a current sourcein parallel with the same resistor.
As demonstrated in the following example, this technique allows you to significantly simplify circuits.
![Page 29: Course Topics (Tentative)mr63/Courses/EE210...Nodal Analysis Recipe 1. Label the nodes with unknown voltages and choose a reference node (reference node is usually the 0V “ground”](https://reader036.vdocument.in/reader036/viewer/2022081615/5fe56c6d806f321b1c313ad6/html5/thumbnails/29.jpg)
Goal: Find 𝑖0
![Page 30: Course Topics (Tentative)mr63/Courses/EE210...Nodal Analysis Recipe 1. Label the nodes with unknown voltages and choose a reference node (reference node is usually the 0V “ground”](https://reader036.vdocument.in/reader036/viewer/2022081615/5fe56c6d806f321b1c313ad6/html5/thumbnails/30.jpg)
Now combine 10V and 5V sources (can do this because they are in series)...
Now use the following source transformation to get everything in parallel...
7.5A
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Now combine 7.5A and 3A sources (can do this because they are current sources in parallel), and combine the 2Ω and 5Ω resistors in parallel...
At this point, just use current division to find that the current 𝑖0 = 1.78A.
10.5A
7.5A
2Ω ∥ 5Ω =10
7Ω
![Page 32: Course Topics (Tentative)mr63/Courses/EE210...Nodal Analysis Recipe 1. Label the nodes with unknown voltages and choose a reference node (reference node is usually the 0V “ground”](https://reader036.vdocument.in/reader036/viewer/2022081615/5fe56c6d806f321b1c313ad6/html5/thumbnails/32.jpg)
Mesh Analysis
1. More nodal analysis examples
2. Modifying the recipe for supernodes
3. Source transformations
4. Mesh Analysis
![Page 33: Course Topics (Tentative)mr63/Courses/EE210...Nodal Analysis Recipe 1. Label the nodes with unknown voltages and choose a reference node (reference node is usually the 0V “ground”](https://reader036.vdocument.in/reader036/viewer/2022081615/5fe56c6d806f321b1c313ad6/html5/thumbnails/33.jpg)
Mesh Analysis Recipe
1. Label each mesh (loop) in the circuit.
2. Label the currents flowing through each mesh .
3. Label the voltages across each component in the circuit.
4. For each mesh (loop):a) Use Kirchoff’s Voltage Law (KVL)
b) Use Ohm’s Law to substitute voltages for currents in KVL
5. Solve the set of equations for mesh currents.
6. Use mesh currents to calculate voltages for each component.
![Page 34: Course Topics (Tentative)mr63/Courses/EE210...Nodal Analysis Recipe 1. Label the nodes with unknown voltages and choose a reference node (reference node is usually the 0V “ground”](https://reader036.vdocument.in/reader036/viewer/2022081615/5fe56c6d806f321b1c313ad6/html5/thumbnails/34.jpg)
Mesh Analysis Example 1
![Page 35: Course Topics (Tentative)mr63/Courses/EE210...Nodal Analysis Recipe 1. Label the nodes with unknown voltages and choose a reference node (reference node is usually the 0V “ground”](https://reader036.vdocument.in/reader036/viewer/2022081615/5fe56c6d806f321b1c313ad6/html5/thumbnails/35.jpg)
Ω
ΩΩ
12 V 24 V6
93
+ -v1
+
-
v2
+ -v3
+
-
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Ω
ΩΩ
12 V 24 V6
93
+ -v1
+
-
v2
+ -v3
KVL around Mesh 1 KVL around Mesh 2
+
-
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Ohm’s LawVoltage drop across each resistor is the sum of the currents flowing through it.
𝑉 = 𝑖𝐴 + 𝑖𝐵 𝑅
𝑉 = 𝑖𝐴 + −𝑖𝐵 𝑅
𝑉 = 𝑖𝐴 −𝑖𝐵 𝑅
𝑖𝐵 is flowing from negative to positive so it must be negative!
![Page 38: Course Topics (Tentative)mr63/Courses/EE210...Nodal Analysis Recipe 1. Label the nodes with unknown voltages and choose a reference node (reference node is usually the 0V “ground”](https://reader036.vdocument.in/reader036/viewer/2022081615/5fe56c6d806f321b1c313ad6/html5/thumbnails/38.jpg)
Ω
ΩΩ
12 V 24 V6
93
+ -v1
+
-
v2
+ -v3
KVL around Mesh 1 KVL around Mesh 2
−12 + 3𝑖1 + 6(𝑖1 − 𝑖2) = 0 6 𝑖2 − 𝑖1 + 9𝑖2 + 24 = 0
+
-