1 ecs:={v1=E, v12=R1*i12, v2=i20*R2, v23=i23*R3, v3=R4*i30, v34=R5*i34, v4=R6*i40, v1=v12+v2,v2=v23+v3,v3=v34+v4, i01=i12,i12=i20+i23,i23=i30+i34,i34=i40}; incognitas := { v1, v12 , i12 , v2, i20 , v23 , i23 , v3, i30 , v34 , i34 , v4, i40 , i01 } sol:=solve(ecs, incognitas); valores:={E=10, R1=1, R2=5, R3=3, R4=4, R5=1, R6=3}; subs(valores, sol); R1 1 i01 v1 E R3 2 3 R5 4 I(R2) v2 R2 R4 v3 R6 0 Red simple *Descripción de la red. V1 1 0 * R1 1 2 R2 2 0 R3 2 3 R4 3 0 R5 3 4 R6 4 0 DC 1.0 5.0 3.0 4.0 1.0 3.0 *Calculo punto de operación. .OP .END 10.0V ; Fuente de voltaje: Comienza con V. Polaridad de 1 a 0 ; Resistencias comienzan con R v4 2 Estructuras de Datos y Algoritmos **** SMALL SIGNAL BIAS SOLUTION TEMPERATURE = 27.000 DEG C ***************************************************************************** NODE VOLTAGE NODE VOLTAGE NODE VOLTAGE NODE VOLTAGE ( 1) 10.0000 ( 2) 7.1429 ( 3) 2.8571 ( 4) 2.1429 VOLTAGE SOURCE CURRENTS NAME CURRENT V1 -2.857E+00 TOTAL POWER DISSIPATION 2.86E+01 WATTS {i01 = 2.857142857, i40 = .7142857143, i30 = .7142857143, v23 = 4.285714286, i20 = 1.428571429, v34 = .7142857143, v2 = 7.142857143, v4 = 2.142857143, i23 = 1.428571429, v3 = 2.857142857, v12 = 2.857142857, i12 = 2.857142857, i34 = .7142857143, v1 = 10.};