Solving linear systems with a function
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have a circuit that has 5 resistors and 1 applied voltage. Kirchoff's voltage law was applied to 3 loops that gave me 3 linear equations.
v - R2*i2 - R4*i4 = 0
-R2*i2 + R1*i1 + R3*i3 = 0
-R4*i4 - R3*i3 + R5*i5 = 0
from that law Is known:
6 = i1 + i2
4 = i2 + i3
1 = i3 + i5
6 = i4 + i5
using this I made a function that just finds the current in i4 with a given set of values.
values to use: R1 = 1, R2 = 4, R3 = 5, R4 = 1, R5 = 5, v = 100, measured in ohms and volts
function I made to solve this.
function [i4] = I(R1, R2, R3, R4, R5, v)
format shortg;
A = [0 -R2 0 -R4 0 0
R1 -R2 R3 0 0 0
0 0 -R3 -R4 R5 0];
b = [-v; 0; 0;];
x = A\b;
i2 = x(2,:);
i3 = x(3,:);
i4 = i2 + i3;
return
This system is overdetermined, using gauss-jordan in matlab I got x, which give all 6 currents values. With this function i4 = 45, the answer is i4 = 27.638. What do I have wrong in my function or need to add?
Respuesta aceptada
Star Strider
el 10 de Jul. de 2016
1 voto
I get the same result you do, coding your matrices myself. I would have to see your circuit. (I usually use the node voltage approach, since it’s easier for me.)
14 comentarios
Luke Radcliff
el 10 de Jul. de 2016
Luke Radcliff
el 10 de Jul. de 2016
Star Strider
el 10 de Jul. de 2016
I apologise for the delay. It was too late last night for me to work on this, and I got a late start today.
My nodal analysis labeled the node defined by the connection of ‘R2’, ‘R3’, and ‘R4’ as ‘VA’, and the node defined by the connection of ‘R1’, ‘R3’, and ‘R5’ as ‘VB’ (the apex of the triangle). I defined ‘IT’ as the total current supplied by the source. I did all the calculations with the Symbolic Math Toolbox, largely because I’m lazy today. The currents correspond to those in the circuit schematic diagram you supplied. The nodes were not labeled, so I created my own labels.
The Nodal Equations:
syms R1 R2 R3 R4 R5 V VA VB IT
R1 = 1; R2 = 4; R3 = 5; R4 = 1; R5 = 5; V = 100;
I1 = (V-VB)/R1;
I2 = (V-VA)/R2;
I3 = (VB-VA)/R3;
I4 = VA/R4;
I5 = VB/R5;
Eq1 = I1+I2 == IT;
Eq2 = -I1+(I5+I3) == 0;
Eq3 = I2+I3-I4 == 0;
S = solve(Eq1, Eq2, Eq3);
V_A = vpa(S.VA, 7)
V_B = vpa(S.VB, 7)
I_T = vpa(S.IT, 7)
The Voltages and Total Current:
V_A =
27.63819
V_B =
75.37688
I_T =
42.71357
That calculates to a total network resistance of 2.3412 Ohms (seems reasonable), in the event you want to do a Norton or Thévenin equivalent circuit of it. With the solved voltages, the currents are straightforward calculations.
I haven’t done circuit analysis in at least a few months (since I don’t usually need to), so thanks for the opportunity to come back up to speed on it! It was fun!
Marc
el 11 de Jul. de 2016
Looks good to me... I wish I could give Star Strider some gold for the effort after Luke got a bit frisky.... Much better man than I would have been.
Star Strider
el 11 de Jul. de 2016
@Marc —
Thank you!
Luke Radcliff
el 13 de Jul. de 2016
Editada: Luke Radcliff
el 13 de Jul. de 2016
Star Strider
el 13 de Jul. de 2016
My pleasure!
Hayriye Esin Basaran
el 11 de Dic. de 2020
Editada: Hayriye Esin Basaran
el 11 de Dic. de 2020
how can i do this using first method. i want to calculate currents
Star Strider
el 11 de Dic. de 2020
Hayriye Esin Basaran —
Solve for the voltages, then plug those back into the current equations to solve for the currents. That’s how I always do it.
Hayriye Esin Basaran
el 15 de Dic. de 2020
function [i,i1,i2,i3,i4,i5,i6]=kirchoff(R1,R2,R3,R4,R5,V)
A=[0 -R2 0 -R4 0 0; R1 -R2 R3 0 0 0; 0 0 -R3 -R4 R5 0];
B=[-V;0;0];
i=pinv(A)*B;
i1 = i(3,1)+i(5,1);
i2 = i(4,1)-i(3,1);
i3 = i(1,1)-i(5,1);
i4 = i(2,1)+i(3,1);
i5 = i(1,1)-i(3,1);
i6 = i(4,1)+i(5,1);
Hayriye Esin Basaran
el 15 de Dic. de 2020
i do like that but i dont understand what is the wrong. i calculate the currents but after i1,i2... the result is not same. i am confused.
Star Strider
el 15 de Dic. de 2020
Hayriye Esin Basaran — I cannot follow what you are doing.
Hayriye Esin Basaran
el 16 de Dic. de 2020
Editada: Hayriye Esin Basaran
el 16 de Dic. de 2020
nction [i,i1,i2,i3,i4,i5,i6]=kirchoff(R1,R2,R3,R4,R5,V)
A=[0 -R2 0 -R4 0 0; R1 -R2 R3 0 0 0; 0 0 -R3 -R4 R5 0];
B=[-V;0;0];
i=pinv(A)*B;
i1 = i(3,1)+i(5,1);
i2 = i(4,1)-i(3,1);
i3 = i(1,1)-i(5,1);
i4 = i(2,1)+i(3,1);
i5 = i(1,1)-i(3,1);
i6 = i(4,1)+i(5,1);
Command Window:
>> [i,i1,i2,i3,i4,i5,i6]=kirchoff(1,5,2,10,5,100)
Hayriye Esin Basaran
el 16 de Dic. de 2020
I want to get the same result with the current results I found by typing i = pinv (A) * B and the new current equations I added below.
i1 = i(3,1)+i(5,1);
i2 = i(4,1)-i(3,1);
i3 = i(1,1)-i(5,1);
i4 = i(2,1)+i(3,1);
i5 = i(1,1)-i(3,1);
i6 = i(4,1)+i(5,1);
Más respuestas (1)
Andrei Bobrov
el 10 de Jul. de 2016
Editada: Andrei Bobrov
el 11 de Jul. de 2016
R1 = 1, R2 = 4, R3 = 5, R4 = 1, R5 = 5, v = 100
R = [R1;R2;R3;R4;R5;0];
E = [zeros(5,1);v];
J = zeros(6,1);
D = [[1 -1 1 0 0 0];[0 0 -1 -1 1 0];[0 1 0 1 0 1]];
RR = D*diag(R)*D';
EE = D*(E - J.*R);
Ik = RR\EE;
I = D'*Ik + J;
1 comentario
Akash Chauhan
el 18 de En. de 2021
can u please explain this to me ?
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