electronics kirchhoff’s law exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfterry sturtevant...
TRANSCRIPT
![Page 1: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/1.jpg)
IntroductionStep by step
ElectronicsKirchhoff’s Law Example
Terry Sturtevant
Wilfrid Laurier University
May 31, 2017
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 2: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/2.jpg)
IntroductionStep by step Overview
Analyzing the behaviour of DC circuits involving only DC (i.e.unchanging in time) voltage sources and ohmic devices can bedone using Kirchhoff’s Laws.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 3: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/3.jpg)
IntroductionStep by step Overview
All of these calculations assume that the current through adevice is proportional to the voltage across the device.
A device for which this is true is considered “ohmic”.For many devices the relationship may be far more complex,and so the equations relating voltages and currents in thecircuit become non-linear and are much harder to solve.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 4: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/4.jpg)
IntroductionStep by step Overview
All of these calculations assume that the current through adevice is proportional to the voltage across the device.A device for which this is true is considered “ohmic”.
For many devices the relationship may be far more complex,and so the equations relating voltages and currents in thecircuit become non-linear and are much harder to solve.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 5: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/5.jpg)
IntroductionStep by step Overview
All of these calculations assume that the current through adevice is proportional to the voltage across the device.A device for which this is true is considered “ohmic”.For many devices the relationship may be far more complex,and so the equations relating voltages and currents in thecircuit become non-linear and are much harder to solve.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 6: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/6.jpg)
IntroductionStep by step Overview
Kirchhoff’s Current Law
At any point in a circuit, the sum of the currents flowing towardthe point is equal to the sum of the currents flowing away from thepoint; or, the algebraic sum of all the currents flowing toward anode is equal to zero. ∑
I = 0
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 7: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/7.jpg)
IntroductionStep by step Overview
Kirchhoff’s Current Law
At any point in a circuit, the sum of the currents flowing towardthe point is equal to the sum of the currents flowing away from thepoint;
or, the algebraic sum of all the currents flowing toward anode is equal to zero. ∑
I = 0
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 8: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/8.jpg)
IntroductionStep by step Overview
Kirchhoff’s Current Law
At any point in a circuit, the sum of the currents flowing towardthe point is equal to the sum of the currents flowing away from thepoint; or, the algebraic sum of all the currents flowing toward anode is equal to zero.
∑I = 0
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 9: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/9.jpg)
IntroductionStep by step Overview
Kirchhoff’s Current Law
At any point in a circuit, the sum of the currents flowing towardthe point is equal to the sum of the currents flowing away from thepoint; or, the algebraic sum of all the currents flowing toward anode is equal to zero. ∑
I = 0
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 10: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/10.jpg)
IntroductionStep by step Overview
Kirchhoff’s Voltage Law
In any closed circuit, the algebraic sum of all the voltages aroundthe loop is equal to zero; or, the sum of all voltage sources is equalto the sum of all IR drops. (In this case “voltage sources” can bepositive or negative.) ∑
V =∑
IR
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 11: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/11.jpg)
IntroductionStep by step Overview
Kirchhoff’s Voltage Law
In any closed circuit, the algebraic sum of all the voltages aroundthe loop is equal to zero;
or, the sum of all voltage sources is equalto the sum of all IR drops. (In this case “voltage sources” can bepositive or negative.) ∑
V =∑
IR
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 12: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/12.jpg)
IntroductionStep by step Overview
Kirchhoff’s Voltage Law
In any closed circuit, the algebraic sum of all the voltages aroundthe loop is equal to zero; or, the sum of all voltage sources is equalto the sum of all IR drops.
(In this case “voltage sources” can bepositive or negative.) ∑
V =∑
IR
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 13: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/13.jpg)
IntroductionStep by step Overview
Kirchhoff’s Voltage Law
In any closed circuit, the algebraic sum of all the voltages aroundthe loop is equal to zero; or, the sum of all voltage sources is equalto the sum of all IR drops. (In this case “voltage sources” can bepositive or negative.)
∑V =
∑IR
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 14: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/14.jpg)
IntroductionStep by step Overview
Kirchhoff’s Voltage Law
In any closed circuit, the algebraic sum of all the voltages aroundthe loop is equal to zero; or, the sum of all voltage sources is equalto the sum of all IR drops. (In this case “voltage sources” can bepositive or negative.) ∑
V =∑
IR
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 15: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/15.jpg)
IntroductionStep by step Overview
The path around a loop is a series of voltage “steps”, in which, atthe end of the loop, you must return to the same voltage youstarted with.
There are only two kinds of voltages in the circuit:those due to sources, such as batteries,those due to sinks, which are resistors.By Ohm’s law, the voltage across a resistor is IR.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 16: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/16.jpg)
IntroductionStep by step Overview
The path around a loop is a series of voltage “steps”, in which, atthe end of the loop, you must return to the same voltage youstarted with. There are only two kinds of voltages in the circuit:
those due to sources, such as batteries,those due to sinks, which are resistors.By Ohm’s law, the voltage across a resistor is IR.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 17: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/17.jpg)
IntroductionStep by step Overview
The path around a loop is a series of voltage “steps”, in which, atthe end of the loop, you must return to the same voltage youstarted with. There are only two kinds of voltages in the circuit:
those due to sources, such as batteries,
those due to sinks, which are resistors.By Ohm’s law, the voltage across a resistor is IR.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 18: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/18.jpg)
IntroductionStep by step Overview
The path around a loop is a series of voltage “steps”, in which, atthe end of the loop, you must return to the same voltage youstarted with. There are only two kinds of voltages in the circuit:
those due to sources, such as batteries,those due to sinks, which are resistors.
By Ohm’s law, the voltage across a resistor is IR.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 19: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/19.jpg)
IntroductionStep by step Overview
The path around a loop is a series of voltage “steps”, in which, atthe end of the loop, you must return to the same voltage youstarted with. There are only two kinds of voltages in the circuit:
those due to sources, such as batteries,those due to sinks, which are resistors.By Ohm’s law, the voltage across a resistor is IR.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 20: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/20.jpg)
IntroductionStep by step Overview
The way that these laws are applied to analyze a circuit involveschoosing nodes in the circuit for the first law and using loops inthe circuit for the second and producing equations from each nodeand loop.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 21: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/21.jpg)
IntroductionStep by step Overview
After the equations are created, determining the currents in thecircuit is accomplished by solving the equations simultaneously.
Inthis case, the system we must solve is of the form
AX = B
where A is the coefficient matrix and X is the vector of thecurrents. (Because of the two types of equations used, B is avector of voltages and zeros.)
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 22: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/22.jpg)
IntroductionStep by step Overview
After the equations are created, determining the currents in thecircuit is accomplished by solving the equations simultaneously. Inthis case, the system we must solve is of the form
AX = B
where A is the coefficient matrix and X is the vector of thecurrents. (Because of the two types of equations used, B is avector of voltages and zeros.)
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 23: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/23.jpg)
IntroductionStep by step Overview
After the equations are created, determining the currents in thecircuit is accomplished by solving the equations simultaneously. Inthis case, the system we must solve is of the form
AX = B
where A is the coefficient matrix and X is the vector of thecurrents. (Because of the two types of equations used, B is avector of voltages and zeros.)
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 24: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/24.jpg)
IntroductionStep by step Overview
After the equations are created, determining the currents in thecircuit is accomplished by solving the equations simultaneously. Inthis case, the system we must solve is of the form
AX = B
where A is the coefficient matrix and X is the vector of thecurrents.
(Because of the two types of equations used, B is avector of voltages and zeros.)
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 25: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/25.jpg)
IntroductionStep by step Overview
After the equations are created, determining the currents in thecircuit is accomplished by solving the equations simultaneously. Inthis case, the system we must solve is of the form
AX = B
where A is the coefficient matrix and X is the vector of thecurrents. (Because of the two types of equations used, B is avector of voltages and zeros.)
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 26: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/26.jpg)
IntroductionStep by step Overview
If a solution exists, it may be found by
X = A−1B
where A−1 is the inverse of the coefficient matrix. (A solution willnot exist if you have, for instance, erroneously connected twodifferent voltage sources in parallel.)
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 27: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/27.jpg)
IntroductionStep by step Overview
If a solution exists, it may be found by
X = A−1B
where A−1 is the inverse of the coefficient matrix. (A solution willnot exist if you have, for instance, erroneously connected twodifferent voltage sources in parallel.)
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 28: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/28.jpg)
IntroductionStep by step Overview
If a solution exists, it may be found by
X = A−1B
where A−1 is the inverse of the coefficient matrix.
(A solution willnot exist if you have, for instance, erroneously connected twodifferent voltage sources in parallel.)
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 29: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/29.jpg)
IntroductionStep by step Overview
If a solution exists, it may be found by
X = A−1B
where A−1 is the inverse of the coefficient matrix. (A solution willnot exist if you have, for instance, erroneously connected twodifferent voltage sources in parallel.)
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 30: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/30.jpg)
IntroductionStep by step Overview
So far no mention has been made of the dimension of thecoefficient matrix.
Clearly, to be invertible A must be square,however you will probably have many more equations than currents.This is because the equations are not all linearly independent. Inother words, some of the equations are redundant, and will have tobe eliminated for the system to be solvable.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 31: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/31.jpg)
IntroductionStep by step Overview
So far no mention has been made of the dimension of thecoefficient matrix. Clearly, to be invertible A must be square,however you will probably have many more equations than currents.
This is because the equations are not all linearly independent. Inother words, some of the equations are redundant, and will have tobe eliminated for the system to be solvable.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 32: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/32.jpg)
IntroductionStep by step Overview
So far no mention has been made of the dimension of thecoefficient matrix. Clearly, to be invertible A must be square,however you will probably have many more equations than currents.This is because the equations are not all linearly independent.
Inother words, some of the equations are redundant, and will have tobe eliminated for the system to be solvable.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 33: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/33.jpg)
IntroductionStep by step Overview
So far no mention has been made of the dimension of thecoefficient matrix. Clearly, to be invertible A must be square,however you will probably have many more equations than currents.This is because the equations are not all linearly independent. Inother words, some of the equations are redundant, and will have tobe eliminated for the system to be solvable.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 34: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/34.jpg)
IntroductionStep by step Overview
Label all V’s and R’s.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 35: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/35.jpg)
IntroductionStep by step Overview
V1
Label all V’s and R’s.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 36: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/36.jpg)
IntroductionStep by step Overview
V2
Label all V’s and R’s.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 37: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/37.jpg)
IntroductionStep by step Overview
R1
Label all V’s and R’s.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 38: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/38.jpg)
IntroductionStep by step Overview
R2
Label all V’s and R’s.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 39: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/39.jpg)
IntroductionStep by step Overview
R3
Label all V’s and R’s.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 40: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/40.jpg)
IntroductionStep by step Overview
R1 I1
6
Label all I’s to go with R’s and pick directions for I’s.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 41: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/41.jpg)
IntroductionStep by step Overview
R2 I2?
Label all I’s to go with R’s and pick directions for I’s.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 42: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/42.jpg)
IntroductionStep by step Overview
R3 I3
6
Label all I’s to go with R’s and pick directions for I’s.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 43: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/43.jpg)
IntroductionStep by step Overview
L1
���?
Label loops.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 44: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/44.jpg)
IntroductionStep by step Overview
L2
���?
Label loops.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 45: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/45.jpg)
IntroductionStep by step Overview
L3'
&
$
%�
Label loops.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 46: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/46.jpg)
IntroductionStep by step Overview
I1
6
I2?
I3
6
N1
Label nodes.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 47: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/47.jpg)
IntroductionStep by step Overview
I1
6
I2?
I3
6
N2
Label nodes.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 48: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/48.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
Making loop equations
For each loop:1 Start at node, go around to first component.2 If component is a battery, count the voltage as positive if you
come to the ‘-’ terminal first.3 If component is a resistor, count the IR as positive if you
come to the resistor going against the current.4 Repeat for all components until you are back at the node.5 Set the sum of all of the contributions from 2 and 3 to zero.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 49: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/49.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
Making loop equations
For each loop:
1 Start at node, go around to first component.2 If component is a battery, count the voltage as positive if you
come to the ‘-’ terminal first.3 If component is a resistor, count the IR as positive if you
come to the resistor going against the current.4 Repeat for all components until you are back at the node.5 Set the sum of all of the contributions from 2 and 3 to zero.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 50: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/50.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
Making loop equations
For each loop:1 Start at node, go around to first component.
2 If component is a battery, count the voltage as positive if youcome to the ‘-’ terminal first.
3 If component is a resistor, count the IR as positive if youcome to the resistor going against the current.
4 Repeat for all components until you are back at the node.5 Set the sum of all of the contributions from 2 and 3 to zero.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 51: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/51.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
Making loop equations
For each loop:1 Start at node, go around to first component.2 If component is a battery, count the voltage as positive if you
come to the ‘-’ terminal first.
3 If component is a resistor, count the IR as positive if youcome to the resistor going against the current.
4 Repeat for all components until you are back at the node.5 Set the sum of all of the contributions from 2 and 3 to zero.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 52: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/52.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
Making loop equations
For each loop:1 Start at node, go around to first component.2 If component is a battery, count the voltage as positive if you
come to the ‘-’ terminal first.3 If component is a resistor, count the IR as positive if you
come to the resistor going against the current.
4 Repeat for all components until you are back at the node.5 Set the sum of all of the contributions from 2 and 3 to zero.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 53: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/53.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
Making loop equations
For each loop:1 Start at node, go around to first component.2 If component is a battery, count the voltage as positive if you
come to the ‘-’ terminal first.3 If component is a resistor, count the IR as positive if you
come to the resistor going against the current.4 Repeat for all components until you are back at the node.
5 Set the sum of all of the contributions from 2 and 3 to zero.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 54: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/54.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
Making loop equations
For each loop:1 Start at node, go around to first component.2 If component is a battery, count the voltage as positive if you
come to the ‘-’ terminal first.3 If component is a resistor, count the IR as positive if you
come to the resistor going against the current.4 Repeat for all components until you are back at the node.5 Set the sum of all of the contributions from 2 and 3 to zero.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 55: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/55.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
Here’s how the equation for Loop 1 is created.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 56: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/56.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
L1
���?
@R
Start here
Start at the lower right corner of this loop.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 57: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/57.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
L1
���?
V1
V1 is the first thing we encounter.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 58: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/58.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
L1
���?
V1
V1 is positive since we hit the negative terminal first.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 59: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/59.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
L1
���?
R1 I1
6
V1
R1 is the next thing we encounter.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 60: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/60.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
L1
���?
R1 I1
6
V1
I1R1 is negative since the loop direction matches the current direc-tion.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 61: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/61.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
L1
���?
R1 I1
6
V1
R3 I3
6
R3 is next.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 62: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/62.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
L1
���?
R1 I1
6
V1
R3 I3
6
I3R3 is positive since the loop direction opposes the current direction.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 63: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/63.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
L1
@R
Start here
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 64: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/64.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
L1�6V1
+V1
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 65: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/65.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
L1
��-R1 I1
6
V1
+V1 − I1R1
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 66: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/66.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
L1
���?
R1 I1
6
V1
R3 I3
6
+V1 − I1R1 + I3R3
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 67: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/67.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
L1
���?
R1 I1
6
V1
R3 I3
6
+V1 − I1R1 + I3R3 = 0
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 68: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/68.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
Thus for the example above:
Loop 1 (starting at Node 1)
V1 − I1R1 + I3R3 = 0
Loop 2 (starting at Node 2)
V2 − I2R2 − I3R3 = 0
Loop 3 (starting at Node 1)
V1 − I1R1 + V2 − I2R2 = 0
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 69: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/69.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
Thus for the example above:Loop 1 (starting at Node 1)
V1 − I1R1 + I3R3 = 0
Loop 2 (starting at Node 2)
V2 − I2R2 − I3R3 = 0
Loop 3 (starting at Node 1)
V1 − I1R1 + V2 − I2R2 = 0
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 70: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/70.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
Thus for the example above:Loop 1 (starting at Node 1)
V1 − I1R1 + I3R3 = 0
Loop 2 (starting at Node 2)
V2 − I2R2 − I3R3 = 0
Loop 3 (starting at Node 1)
V1 − I1R1 + V2 − I2R2 = 0
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 71: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/71.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
Thus for the example above:Loop 1 (starting at Node 1)
V1 − I1R1 + I3R3 = 0
Loop 2 (starting at Node 2)
V2 − I2R2 − I3R3 = 0
Loop 3 (starting at Node 1)
V1 − I1R1 + V2 − I2R2 = 0
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 72: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/72.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
Thus for the example above:Loop 1 (starting at Node 1)
V1 − I1R1 + I3R3 = 0
Loop 2 (starting at Node 2)
V2 − I2R2 − I3R3 = 0
Loop 3 (starting at Node 1)
V1 − I1R1 + V2 − I2R2 = 0
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 73: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/73.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
Making node equations
For each node:1 Currents coming into node are positive, others are negative.2 Set the sum of all of the contributions from 1 to zero.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 74: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/74.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
Making node equations
For each node:
1 Currents coming into node are positive, others are negative.2 Set the sum of all of the contributions from 1 to zero.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 75: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/75.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
Making node equations
For each node:1 Currents coming into node are positive, others are negative.
2 Set the sum of all of the contributions from 1 to zero.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 76: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/76.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
Making node equations
For each node:1 Currents coming into node are positive, others are negative.2 Set the sum of all of the contributions from 1 to zero.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 77: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/77.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
Here’s how the equation for Node 1 is created.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 78: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/78.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
I1
6
I2?
I3
6
N1
Here is Node 1.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 79: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/79.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
I1
6
I2?
I3
6
N1
I1 and I3 go into Node 1.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 80: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/80.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
I1
6
I2?
I3
6
N1
I2 comes out of Node 1.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 81: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/81.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
I1
6
I2?
I3
6
N1
I1 + I3 = I2
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 82: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/82.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
I1
6
I2?
I3
6
N1
I1 + I3 − I2 = 0
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 83: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/83.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
Thus for the example above:
Node 1I2 − I3 − I1 = 0
Node 2I1 + I3 − I2 = 0
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 84: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/84.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
Thus for the example above:Node 1
I2 − I3 − I1 = 0
Node 2I1 + I3 − I2 = 0
Terry Sturtevant Electronics Kirchhoff’s Law Example
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IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
Thus for the example above:Node 1
I2 − I3 − I1 = 0
Node 2I1 + I3 − I2 = 0
Terry Sturtevant Electronics Kirchhoff’s Law Example
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IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
Set up a system of equations.
Thus for the example above:
Loop 1 : −I1R1 +I3R3 = −V1Loop 2 : −I2R2 −I3R3 = −V2Loop 3 : −I1R1 −I2R2 = −V1 − V2Node 1 : −I1 +I2 −I3 = 0Node 2 : +I1 −I2 +I3 = 0
Terry Sturtevant Electronics Kirchhoff’s Law Example
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IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
Set up a system of equations. Thus for the example above:
Loop 1 : −I1R1 +I3R3 = −V1Loop 2 : −I2R2 −I3R3 = −V2Loop 3 : −I1R1 −I2R2 = −V1 − V2Node 1 : −I1 +I2 −I3 = 0Node 2 : +I1 −I2 +I3 = 0
Terry Sturtevant Electronics Kirchhoff’s Law Example
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IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
Set up a system of equations. Thus for the example above:
Loop 1 : −I1R1 +I3R3 = −V1Loop 2 : −I2R2 −I3R3 = −V2Loop 3 : −I1R1 −I2R2 = −V1 − V2Node 1 : −I1 +I2 −I3 = 0Node 2 : +I1 −I2 +I3 = 0
Terry Sturtevant Electronics Kirchhoff’s Law Example
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IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
Create matrices.
Thus for the example above:We can rewrite the above system in matrix form as
−R1 0 +R30 −R2 −R3−R1 −R2 0−1 +1 −1+1 −1 +1
I1
I2I3
=
−V1−V2
−V1 − V200
Terry Sturtevant Electronics Kirchhoff’s Law Example
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IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
Create matrices.Thus for the example above:
We can rewrite the above system in matrix form as−R1 0 +R3
0 −R2 −R3−R1 −R2 0−1 +1 −1+1 −1 +1
I1
I2I3
=
−V1−V2
−V1 − V200
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 91: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/91.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
Create matrices.Thus for the example above:We can rewrite the above system in matrix form as
−R1 0 +R3
0 −R2 −R3−R1 −R2 0−1 +1 −1+1 −1 +1
I1
I2I3
=
−V1−V2
−V1 − V200
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 92: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/92.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
Create matrices.Thus for the example above:We can rewrite the above system in matrix form as
−R1 0 +R30 −R2 −R3−R1 −R2 0−1 +1 −1+1 −1 +1
I1
I2I3
=
−V1−V2
−V1 − V200
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 93: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/93.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
So clearly if we let
A =
−R1 0 +R3
0 −R2 −R3−R1 −R2 0−1 +1 −1+1 −1 +1
X =
I1I2I3
B =
−V1−V2
−V1 − V200
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 94: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/94.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
So clearly if we let
A =
−R1 0 +R3
0 −R2 −R3−R1 −R2 0−1 +1 −1+1 −1 +1
X =
I1I2I3
B =
−V1−V2
−V1 − V200
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 95: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/95.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
So clearly if we let
A =
−R1 0 +R3
0 −R2 −R3−R1 −R2 0−1 +1 −1+1 −1 +1
X =
I1I2I3
B =
−V1−V2
−V1 − V200
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 96: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/96.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
So clearly if we let
A =
−R1 0 +R3
0 −R2 −R3−R1 −R2 0−1 +1 −1+1 −1 +1
X =
I1I2I3
B =
−V1−V2
−V1 − V200
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 97: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/97.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
Then
AX = B
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 98: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/98.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
ThenAX = B
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 99: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/99.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
Reduce coefficient matrix to square, since it will not be invertibleotherwise.
Be sure to adjust the solution vector accordingly.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 100: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/100.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
Reduce coefficient matrix to square, since it will not be invertibleotherwise. Be sure to adjust the solution vector accordingly.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 101: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/101.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
A =
−R1 0 +R3
0 −R2 −R3−R1 −R2 0−1 +1 −1+1 −1 +1
Here’s the matrix
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 102: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/102.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
A =
−R1 0 +R3
0 −R2 −R3−R1 −R2 0−1 +1 −1+1 −1 +1
Notice row 1
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 103: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/103.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
A =
−R1 0 +R3
0 −R2 −R3−R1 −R2 0−1 +1 −1+1 −1 +1
Notice row 1 +row 2
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 104: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/104.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
A =
−R1 0 +R3
0 −R2 −R3−R1 −R2 0−1 +1 −1+1 −1 +1
Notice row 1 +row 2 equal row 3, so we can get rid of row 3
Terry Sturtevant Electronics Kirchhoff’s Law Example
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IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
A =
−R1 0 +R3
0 −R2 −R3−R1 −R2 0−1 +1 −1+1 −1 +1
Also, row 4
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 106: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/106.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
A =
−R1 0 +R3
0 −R2 −R3−R1 −R2 0−1 +1 −1+1 −1 +1
Also, row 4 = -row 5, so get rid of row 5
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 107: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/107.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
So we are left with
A =
−R1 0 +R30 −R2 −R3−1 +1 −1
and
B =
−V1−V2
0
after adjustment
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 108: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/108.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
So we are left with
A =
−R1 0 +R30 −R2 −R3−1 +1 −1
and
B =
−V1−V2
0
after adjustment
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 109: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/109.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
NowX = A−1B
which gives
X = 1R2R1 + R2R3 + R1R3
R3V1 + R3V2 + R2V1R3V1 + R1V2 + R3V2
R1V2 − R2V1
Notice that, depending on the voltages involved, some of thecurrents could be negative. In this case, it simply means that theactual current goes in the opposite direction from what you hadchosen.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 110: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/110.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
NowX = A−1B
which gives
X = 1R2R1 + R2R3 + R1R3
R3V1 + R3V2 + R2V1R3V1 + R1V2 + R3V2
R1V2 − R2V1
Notice that, depending on the voltages involved, some of thecurrents could be negative. In this case, it simply means that theactual current goes in the opposite direction from what you hadchosen.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 111: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/111.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
NowX = A−1B
which gives
X = 1R2R1 + R2R3 + R1R3
R3V1 + R3V2 + R2V1R3V1 + R1V2 + R3V2
R1V2 − R2V1
Notice that, depending on the voltages involved, some of thecurrents could be negative. In this case, it simply means that theactual current goes in the opposite direction from what you hadchosen.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 112: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/112.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
NowX = A−1B
which gives
X = 1R2R1 + R2R3 + R1R3
R3V1 + R3V2 + R2V1R3V1 + R1V2 + R3V2
R1V2 − R2V1
Notice that, depending on the voltages involved, some of thecurrents could be negative.
In this case, it simply means that theactual current goes in the opposite direction from what you hadchosen.
Terry Sturtevant Electronics Kirchhoff’s Law Example
![Page 113: Electronics Kirchhoff’s Law Exampledenethor.wlu.ca/pc320/lectures/kirchex.pdfTerry Sturtevant Electronics Kirchhoff’s Law Example Introduction Step by step Overview If a solution](https://reader033.vdocument.in/reader033/viewer/2022041714/5e4a7054b41b22166731ebb9/html5/thumbnails/113.jpg)
IntroductionStep by step
Creating voltage equationsCreating current equationsCreating the matrixReducing the matrix to squareSolving the system
NowX = A−1B
which gives
X = 1R2R1 + R2R3 + R1R3
R3V1 + R3V2 + R2V1R3V1 + R1V2 + R3V2
R1V2 − R2V1
Notice that, depending on the voltages involved, some of thecurrents could be negative. In this case, it simply means that theactual current goes in the opposite direction from what you hadchosen.
Terry Sturtevant Electronics Kirchhoff’s Law Example