POTENCIA
SIMULACIÓN DE LABORATORIO DE POTENCIA RECTIFICADOR MONOFÁSICO NO CONTROLADO CON CARGAS RLE SIMULACIÓN EN PSPICE Con el c
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SIMULACIÓN DE LABORATORIO DE POTENCIA RECTIFICADOR MONOFÁSICO NO CONTROLADO CON CARGAS RLE SIMULACIÓN EN PSPICE Con el circuito mostrado se debe encontrar el ángulo de conducción, γ, variando dos parámetros: E y el ángulo de carga φc, del siguiente modo: El circuito a simular es:
a) Se debe simular el circuito y llenar la tabla con los valores del ángulo de conducción obtenido para cada caso. De la siguiente tabla a completar CURVA 1 CURVA 2 CURVA 3 CURVA 4 CURVA 5 E(V)
m 𝑠𝑒𝑛 𝛼
-20
1
235.78
219.819
209.97
-16
0.8
234.9
220.0
268.05
-12
0.6
243.144
272.63
247.3
-8
0.4
282.546
268.02
233.19
-4
0.2
255.26
236.4
214.
0
0
236.142
220.5
4
-0.2
218.232
205.2
8
-0.4
198.504
332.75
12
-0.6
177.55
170.5
16
-0.8
150.0
160.01
20
-1
98.50
100.3
PARA LA CURVA 1
𝜑𝑐 = 60°
𝜑𝑐 = 45°
𝜑𝑐 = 30°
𝜑𝑐 = 15°
𝜑𝑐 = 0°
𝜑𝑐 = 60° SI L=110.27[mH] Y E=-20[V]
1.6A
1.2A
(13.039m,0.9998)
0.8A
0.4A 0s
γ=
I(L1)
2ms
4ms
6ms
8ms
360 ∗13.099 ms=235.78 ° 20 ms
𝜑𝑐 = 60° SI L=110.27[mH] Y E=-16[V]
10ms Time
12ms
14ms
16ms
18ms
20ms
1.5A
1.0A (13.050m,803.987m)
0.5A
0A 0s
I(L1)
2ms
4ms
6ms
8ms
γ=
10ms Time
12ms
14ms
16ms
18ms
20ms
16ms
18ms
20ms
360 ∗13.0 50 ms=234.9 ° 20 ms
𝜑𝑐 = 60° SI L=110.27[mH] Y E=-12[V]
1.2A
0.8A
(13.508m,535.818m)
0.4A
0A 0s
I(L1)
2ms
4ms
6ms
γ=
8ms
10ms Time
12ms
14ms
360 ∗13. 508 ms=2 43.144 ° 20 ms
𝜑𝑐 = 60° SI L=110.27[mH] Y E=-8[V]
1.0A
0.5A
(15.697m,25.715m) 0A
-0.5A 0s
I(L1)
2ms
4ms
6ms
γ=
8ms
10ms Time
12ms
14ms
360 ∗1 5.697 ms=2 82.546 ° 20 ms
𝜑𝑐 = 60° SI L=110.27[mH] Y E=-4V]
16ms
18ms
20ms
800mA
400mA
(14.181m,42.607m) 0A
-400mA 0s
I(L1)
2ms
4ms
6ms
γ=
8ms
10ms Time
12ms
14ms
16ms
18ms
16ms
18ms
20ms
360 ∗1 4.181 ms=255.258 ° 20 ms
𝜑𝑐 = 60° SI L=110.27[mH] Y E=0[V]
600mA
400mA
200mA
(13.119m,23.474m) 0A
-200mA 0s
I(L1)
2ms
4ms
6ms
γ=
8ms
10ms Time
12ms
14ms
360 ∗13. 119 ms=236.142 ° 20 ms
20ms
𝜑𝑐 = 60° SI L=110.27[mH] Y E=4[V]
600mA
400mA
200mA
(12.124m,11.313m) 0A
-200mA 0s
I(L1)
2ms
4ms
6ms
γ=
8ms
10ms Time
12ms
14ms
360 ∗1 2.124 ms=218.232 ° 20 ms
𝜑𝑐 = 60° SI L=110.27[mH] Y E=8[V]
16ms
18ms
20ms
300mA
200mA
100mA
(11.028m,10.604m) 0A
-100mA 0s
I(L1)
2ms
4ms
6ms
8ms
γ=
10ms Time
12ms
14ms
16ms
18ms
14ms
16ms
18ms
20ms
360 ∗1 1.028 ms=198.504 ° 20 ms
𝜑𝑐 = 60° SI L=110.27[mH] Y E=12[V]
200mA
100mA
0A
-100mA 0s
I(L1)
2ms
4ms
6ms
8ms
γ=
10ms Time
12ms
360 ∗9.86 ms=177.55 ° 20 ms
𝜑𝑐 = 60° SI L=110.27[mH] Y E=16[V]
20ms
60mA
40mA
20mA
0A
-20mA 0s
I(L1)
2ms
4ms
6ms
8ms
γ=
10ms Time
12ms
360 ∗8.337 ms=150.0 ° 20 ms
𝜑𝑐 = 60° SI L=110.27[mH] Y E=20[V]
14ms
16ms
18ms
20ms
100uA
50uA
0A
-50uA 0s
I(L1)
2ms
4ms
6ms
8ms
γ=
10ms Time
12ms
14ms
16ms
18ms
20ms
360 ∗5.472 ms=98.50° 20 ms
PARA LA CURVA 2 𝜑𝑐 = 45° SI L=63.662[mH] Y E=-20[V]
2.0A
1.5A
(12.212m,984.889m) 1.0A
0.5A
0A 0s
I(L1)
2ms
4ms
6ms
8ms
10ms Time
12ms
14ms
16ms
18ms
20ms
γ=
360 ∗12.212 ms=219.819 ° 20 ms
𝜑𝑐 = 45° SI L=63.662[mH] Y E=-16[V]
1.5A
1.0A
0.5A
0A 0s
I(L1)
2ms
4ms
6ms
8ms
γ=
10ms Time
12ms
360 ∗1 2.224 ms=220.0 ° 20 ms
𝜑𝑐 = 45° SI L=63.662[mH] Y E=-12[V]
14ms
16ms
18ms
20ms
1.5A
1.0A
0.5A
0A
-0.5A 0s
I(L1)
2ms
4ms
6ms
8ms
γ=
10ms Time
12ms
14ms
16ms
14ms
16ms
18ms
20ms
360 ∗15.146=272.63° 20 ms
𝜑𝑐 = 45° SI L=63.662[mH] Y E=-8[V]
1.2A
0.8A
0.4A
0A
-0.4A 0s
I(L1)
2ms
4ms
6ms
γ=
8ms
10ms Time
12ms
360 ∗1 4.834 ms=2 68.02° 20 ms
𝜑𝑐 = 45° SI L=63.662[mH] Y E=-4[V]
18ms
20ms
1.0A
0.5A
0A
-0.5A 0s
I(L1)
2ms
4ms
6ms
8ms
γ=
10ms Time
12ms
360 ∗13. 135 ms=23 6.4 ° 20 ms
𝜑𝑐 = 45° SI L=63.662[mH] Y E=0[V]
14ms
16ms
18ms
20ms
800mA
400mA
0A
-400mA 0s
I(L1)
2ms
4ms
6ms
8ms
γ=
10ms Time
12ms
14ms
16ms
18ms
20ms
14ms
16ms
18ms
20ms
360 ∗12.249 ms=220.50 ° 20 ms
𝜑𝑐 = 45° SI L=63.662[mH] Y E=4[V]
600mA
400mA
200mA
0A
-200mA 0s
I(L1)
2ms
4ms
6ms
8ms
γ=
10ms Time
12ms
360 ∗1 1.398 ms=2 05.2° 20 ms
𝜑𝑐 = 45° SI L=63.662[mH] Y E=8[V]
400mA
200mA
0A
-200mA 0s
I(L1)
2ms
4ms
6ms
γ=
8ms
10ms Time
12ms
360 ∗1 8.486 ms=332.75 ° 20 ms
𝜑𝑐 = 45° SI L=63.662[mH] Y E=12 [V]
14ms
16ms
18ms
20ms
300mA
200mA
100mA
0A
-100mA 0s
I(L1)
2ms
4ms
6ms
8ms
γ=
10ms Time
12ms
14ms
16ms
18ms
20ms
14ms
16ms
18ms
20ms
360 ∗9.469 ms=170.5° 20 ms
𝜑𝑐 = 45° SI L=63.662[mH] Y E=16[V]
80mA
40mA
0A
-40mA 0s
I(L1)
2ms
4ms
6ms
8ms
γ=
10ms Time
12ms
360 ∗8.8787 ms=160.01° 20 ms
𝜑𝑐 = 45° SI L=63.662[mH] Y E=20[V]
300nA
200nA
100nA
0A
-100nA 0s
I(L1)
2ms
4ms
6ms
8ms
γ=
10ms Time
12ms
360 ∗5.5141 ms=100.3 ° 20 ms
PARA LA CURVA 3 𝜑𝑐 = 30° SI L=36.76[mH] Y E=-20[V]
14ms
16ms
18ms
20ms
2.0A
1.5A
(11.665m,913.608m)
1.0A
0.5A
0A 0s
I(L1)
2ms
4ms
6ms
8ms
γ=
10ms Time
12ms
14ms
16ms
18ms
20ms
360 ∗11.665 ms=209.97 ° 20 ms
𝜑𝑐 = 30° SI L=36.76[mH] Y E=-16[V]
1.6A
1.2A
0.8A
0.4A
0A 0s
I(L1)
2ms
4ms
6ms
8ms
γ=
10ms Time
12ms
360 ∗1 4.876 ms=268.05° 20 ms
14ms
16ms
18ms
20ms
𝜑𝑐 = 30° SI L=36.76[mH] Y E=-12[V]
1.5A
1.0A
0.5A
0A 0s
I(L1)
2ms
4ms
6ms
8ms
γ=
10ms Time
12ms
360 ∗13. 738 ms=2 47.3 ° 20 ms
𝜑𝑐 = 30° SI L=36.76[mH] Y E=-8[V]
14ms
16ms
18ms
20ms
1.2A
0.8A
0.4A
0A
-0.4A 0s
I(L1)
2ms
4ms
6ms
8ms
γ=
10ms Time
12ms
14ms
16ms
18ms
20ms
360 ∗1 2.955 ms=23 3.19 ° 20 ms
𝜑𝑐 = 30° SI L=36.76[mH] Y E=-4[V]
1.2A
0.8A
0.4A
0A
-0.4A 0s
I(L1)
2ms
4ms
6ms
8ms
γ=
10ms Time
12ms
360 ∗11.918ms=2 14.52° 20 ms
14ms
16ms
18ms
20ms
𝜑𝑐 = 30° SI L=36.76[mH] Y E=0[V]
1.0A
0.5A
0A
-0.5A 0s
2ms
I(L1)
4ms
6ms
8ms
γ=
10ms Time
12ms
14ms
16ms
18ms
20ms
360 ∗1 1.393 ms=2 05.05 ° 20 ms
𝜑𝑐 = 30° SI L=36.76[mH] Y E=4[V]
800mA
400mA
0A
-400mA 0s
I(L1)
2ms
4ms
6ms
8ms
10ms Time
12ms
14ms
16ms
18ms
20ms
γ=
360 ∗1 8.712 ms=336. 8 ° 20 ms
𝜑𝑐 = 30° SI L=36.76[mH] Y E=8[V]
600mA
400mA
200mA
0A
-200mA 0s
I(L1)
2ms
4ms
6ms
8ms
γ=
10ms Time
12ms
360 ∗9.921 ms=165.0° 20 ms
𝜑𝑐 = 30° SI L=36.76[mH] Y E=12 [V]
14ms
16ms
18ms
20ms
300mA
200mA
100mA
0A
-100mA 0s
I(L1)
2ms
4ms
6ms
8ms
γ=
10ms Time
12ms
14ms
16ms
18ms
20ms
14ms
16ms
18ms
20ms
360 ∗9.839 ms=177.1° 20 ms
𝜑𝑐 = 30° SI L=36.76[mH] Y E=16[V]
120mA
80mA
40mA
0A
-40mA 0s
I(L1)
2ms
4ms
6ms
8ms
γ=
10ms Time
12ms
360 ∗7.843 ms=141.01 ° 20 ms
𝜑𝑐 = 30° SI L=36.76[mH] Y E=20[V]
300nA
200nA
100nA
0A
-100nA 0s
I(L1)
2ms
4ms
6ms
γ=
8ms
10ms Time
12ms
360 ∗5.5 141 ms=100.56 ° 20 ms
PARA LA CURVA 4 𝜑𝑐 = 15° SI L=17.06[mH] Y E=-20[V]
14ms
16ms
18ms
20ms
2.0A
1.5A
(10.212m,1.0984) 1.0A
0.5A
0A 0s
2ms
I(L1)
4ms
6ms
8ms
γ=
10ms Time
12ms
14ms
16ms
18ms
20ms
360 ∗18.212 ms=327.816 ° 20 ms
𝜑𝑐 = 15° SI L=17.06[mH] Y E=-16[V]
2.0A
1.5A
1.0A
0.5A
0A 0s
I(L1)
2ms
4ms
6ms
γ=
8ms
10ms Time
12ms
360 ∗1 8.775 ms=337.0 ° 20 ms
𝜑𝑐 = 15° SI L=17.06[mH] Y E=-12[V]
14ms
16ms
18ms
20ms
1.5A
1.0A
0.5A
0A 0s
I(L1)
2ms
4ms
6ms
γ=
8ms
10ms Time
12ms
14ms
360 ∗1 2.586 ms=226.5 ° 20 ms
𝜑𝑐 = 15° SI L=17.06[mH] Y E=-8[V]
16ms
18ms
20ms
1.5A
1.0A
0.5A
0A
-0.5A 0s
I(L1)
2ms
4ms
6ms
γ=
8ms
10ms Time
12ms
360 ∗1 2.823 ms=23 0.8 ° 20 ms
𝜑𝑐 = 15° SI L=17.06[mH] Y E=-4[V]
14ms
16ms
18ms
20ms
1200mA
800mA
400mA
0A 0s
I(L1)
2ms
4ms
6ms
8ms
γ=
10ms Time
12ms
14ms
16ms
18ms
20ms
14ms
16ms
18ms
20ms
360 ∗1 9.175 ms=345.2 ° 20 ms
𝜑𝑐 = 15° SI L=17.06[mH] Y E=0[V]
1.0A
0.5A
0A
-0.5A 0s
I(L1)
2ms
4ms
6ms
8ms
γ=
10ms Time
12ms
360 ∗1 0.652 ms=199.8 ° 20 ms
𝜑𝑐 = 15° SI L=17.06[mH] Y E=4[V]
800mA
400mA
0A 0s
I(L1)
2ms
4ms
6ms
8ms
γ=
10ms Time
12ms
360 ∗9.978 ms=180.5° 20 ms
𝜑𝑐 = 15° SI L=17.06[mH] Y E=8[V]
14ms
16ms
18ms
20ms
600mA
400mA
200mA
0A
-200mA 0s
I(L1)
2ms
4ms
6ms
8ms
γ=
10ms Time
12ms
14ms
16ms
18ms
14ms
16ms
18ms
20ms
360 ∗9.299 ms=168.8 ° 20 ms
𝜑𝑐 = 15° SI L=17.06[mH] Y E=12[V]
400mA
200mA
0A
-200mA 0s
I(L1)
2ms
4ms
6ms
γ=
8ms
10ms Time
12ms
360 ∗8.4633 ms=150.34 ° 20 ms
20ms
𝜑𝑐 = 15° SI L=17.06[mH] Y E=16[V]
150mA
100mA
50mA
0A
-50mA 0s
I(L1)
2ms
4ms
6ms
8ms
γ=
10ms Time
12ms
360 ∗1 3.9 ms=2 50 .6 20 ms
𝜑𝑐 = 15° SI L=17.06[mH] Y E=20[V]
14ms
16ms
18ms
20ms
300nA
200nA
100nA
0A
-100nA 0s
I(L1)
2ms
4ms
6ms
8ms
γ=
10ms Time
12ms
14ms
16ms
18ms
20ms
14ms
16ms
18ms
20ms
360 ∗5.9661 ms=100.56 ° 20 ms
PARA LA CURVA 5 𝜑𝑐 = 0° SI L=0[mH] Y E=-20[V]
2.0A
1.5A
(9.989m,926.780m)
1.0A
0.5A
0A 0s
I(R1)
2ms
4ms
6ms
8ms
10ms Time
12ms
γ=
360 ∗9.989 ms=180.0° 20 ms
𝜑𝑐 = 0° SI L=0[mH] Y E=-16[V]
2.0A
1.5A
1.0A
0.5A
0A 0s
I(R1)
2ms
4ms
6ms
8ms
γ= 𝜑𝑐 = 0° SI L=0[mH] Y E=-12[V]
10ms Time
12ms
360 ∗9.996 ms=180 ° 20 ms
14ms
16ms
18ms
20ms
1.6A
1.2A
0.8A
0.4A
0A 0s
I(R1)
2ms
4ms
6ms
8ms
γ=
10ms Time
12ms
14ms
16ms
18ms
20ms
14ms
16ms
18ms
20ms
360 ∗1 1.954 ms=215.2° 20 ms
𝜑𝑐 = 0° SI L=0[mH] Y E=-8[V]
1.5A
1.0A
0.5A
0A 0s
I(R1)
2ms
4ms
6ms
8ms
γ=
10ms Time
12ms
360 ∗1 1.157 ms=2 00.83 ° 20 ms
𝜑𝑐 = 0° SI L=0[mH] Y E=-4[V]
1200mA
800mA
400mA
0A 0s
I(R1)
2ms
4ms
6ms
8ms
γ= 𝜑𝑐 = 0° SI L=0[mH] Y E=0[V]
10ms Time
12ms
360 ∗1 0.486 ms=188.8 ° 20 ms
14ms
16ms
18ms
20ms
1000mA
500mA
0A 0s
I(R1)
2ms
4ms
6ms
8ms
γ= 𝜑𝑐 = 0° SI L=0[mH] Y E=4[V]
10ms Time
12ms
360 ∗1 0.000 ms=180 ° 20 ms
14ms
16ms
18ms
20ms
800mA
600mA
400mA
200mA
0A 0s
I(R1)
2ms
4ms
6ms
8ms
γ=
10ms Time
12ms
14ms
16ms
18ms
20ms
14ms
16ms
18ms
20ms
360 ∗9.258 ms=166.6 ° 20 ms
𝜑𝑐 = 0° SI L=0[mH] Y E=8[V]
600mA
400mA
200mA
0A 0s
I(R1)
2ms
4ms
6ms
8ms
γ= 𝜑𝑐 = 0° SI L=0[mH] Y E=12[V]
10ms Time
12ms
360 ∗8.5843 ms=150.59° 20 ms
400mA
300mA
200mA
100mA
0A 0s
I(R1)
2ms
4ms
6ms
8ms
γ= 𝜑𝑐 = 0° SI L=0[mH] Y E=16[V]
10ms Time
12ms
360 ∗7.8539 ms=140.95 ° 20 ms
14ms
16ms
18ms
20ms
160mA
120mA
80mA
40mA
0A 0s
I(R1)
2ms
4ms
6ms
8ms
γ=
10ms Time
12ms
14ms
16ms
18ms
20ms
360 ∗6.8989 ms=125.18° 20 ms
𝜑𝑐 = 0° SI L=0[mH] Y E=20[V]
300nA
200nA
100nA
0A
-100nA 0s
I(R1)
2ms
4ms
6ms
8ms
γ=
10ms Time
12ms
360 ∗5.6723 ms=101.1 ° 20 ms
14ms
16ms
18ms
20ms
EN PROTEUS SE CONSIGUEN CASI LOS MISMOS DATOS
D1 1N4148
R1 20
L1
V1 VSINE
ELEANOR ALISON CARO COCA
BAT1