Practica De Laboratorio
Páginas: 3 (585 palabras)
Publicado: 7 de abril de 2012
Calculos de la practica de laboratorio de maquinas eléctricas
Circuito 1-1
Primero calculamos la inductacia equivalente del primer circuito que nos servirá para el resto de circuitos
1LT= 107+57+514
1LT=52
LT=25
RT= 11245+1490+1980
RT=140 Ω
CIRCUITO 1-1
ZL=jωL
ZL=j150,79
Z=140+j150,79
TRANSFORMANDO A CORDENADAS POLARES
Z=205,76⦟47,125
I=50⦟00205,76⦟47,125
I=0,22⦟-47,125
VR=IRVR=0,22⦟-47,125140⦟0
VR=30.8 V
SIMULACION
CIRCUITO 1-2
1LT= 52+52
1LT= 102
1LT=5
LT=15
ZL=jωL
ZL=j75,398
Z=140+j75,398
TRANSFORMANDO A CORDENADAS POLARES
Z=159,0122⦟28,305I=50⦟00159,0122⦟28,305
I=0,3⦟-28,305
VR=IR
VR=0,3⦟28,305140⦟0
VR=42 V
SIMULACION
CIRCUITO 1-3
1LT= 52+52+52
1LT= 152
LT= 215
ZL=jωL
ZL=j50,265
Z=140+j50,265
TRANSFORMANDO A CORDENADAS POLARESZ=148,75⦟19,749
I=50⦟00148,75⦟19,749
I=0,33⦟-19,749
VR=IR
VR=0,33⦟-19,749140⦟0
VR=46,2 V
SIMULACION
CIRCUITO 2-3
1LT= 52+52+52
1LT= 152
LT= 215
RT= 11140+1140
RT=70 Ω
ZL=jωLZL=j50,265
Z=70+j50,265
TRANSFORMANDO A CORDENADAS POLARES
Z=86,177⦟35,681
I=50⦟0086,177⦟35,681
I=0,58⦟-35,681
VR=IR
VR=0,58⦟-35,68170⦟0
VR=40,6 V
CIRCUITO 3-3
1LT= 52+52+52
1LT= 152
LT= 215RT= 11140+1140+1140
RT=46,66 Ω
ZL=jωL
ZL=j50,265
Z=46,66+j50,265
TRANSFORMANDO A CORDENADAS POLARES
Z=68,588⦟47,125
I=50⦟0068,588⦟47,125
I=0,72⦟-47,125
VR=IR
VR=0,72⦟-47,12546,66⦟0
VR=34VCALCULOS CON 70 VOLTIOS
CIRCUITO 1-1
ZL=jωL
ZL=j150,79
Z=140+j150,79
TRANSFORMANDO A CORDENADAS POLARES
Z=205,76⦟47,125
I=70⦟00205,76⦟47,125
I=0,34⦟-47,125
VR=IR
VR=0,34⦟-47,125140⦟0VR=42 V
CIRCUITO 1-2
1LT= 52+52
1LT= 102
1LT=5
LT=15
ZL=jωL
ZL=j75,398
Z=140+j75,398
TRANSFORMANDO A CORDENADAS POLARES
Z=159,0122⦟28,305
I=70⦟00159,0122⦟28,305
I=0,44⦟-28,305
VR=IRVR=0,44⦟28,305140⦟0
VR=61,63 V
CIRCUITO 1-3
1LT= 52+52+52
1LT= 152
LT= 215
ZL=jωL
ZL=j50,265
Z=140+j50,265
TRANSFORMANDO A CORDENADAS POLARES
Z=148,75⦟19,749
I=70⦟00148,75⦟19,749...
Circuito 1-1
Primero calculamos la inductacia equivalente del primer circuito que nos servirá para el resto de circuitos
1LT= 107+57+514
1LT=52
LT=25
RT= 11245+1490+1980
RT=140 Ω
CIRCUITO 1-1
ZL=jωL
ZL=j150,79
Z=140+j150,79
TRANSFORMANDO A CORDENADAS POLARES
Z=205,76⦟47,125
I=50⦟00205,76⦟47,125
I=0,22⦟-47,125
VR=IRVR=0,22⦟-47,125140⦟0
VR=30.8 V
SIMULACION
CIRCUITO 1-2
1LT= 52+52
1LT= 102
1LT=5
LT=15
ZL=jωL
ZL=j75,398
Z=140+j75,398
TRANSFORMANDO A CORDENADAS POLARES
Z=159,0122⦟28,305I=50⦟00159,0122⦟28,305
I=0,3⦟-28,305
VR=IR
VR=0,3⦟28,305140⦟0
VR=42 V
SIMULACION
CIRCUITO 1-3
1LT= 52+52+52
1LT= 152
LT= 215
ZL=jωL
ZL=j50,265
Z=140+j50,265
TRANSFORMANDO A CORDENADAS POLARESZ=148,75⦟19,749
I=50⦟00148,75⦟19,749
I=0,33⦟-19,749
VR=IR
VR=0,33⦟-19,749140⦟0
VR=46,2 V
SIMULACION
CIRCUITO 2-3
1LT= 52+52+52
1LT= 152
LT= 215
RT= 11140+1140
RT=70 Ω
ZL=jωLZL=j50,265
Z=70+j50,265
TRANSFORMANDO A CORDENADAS POLARES
Z=86,177⦟35,681
I=50⦟0086,177⦟35,681
I=0,58⦟-35,681
VR=IR
VR=0,58⦟-35,68170⦟0
VR=40,6 V
CIRCUITO 3-3
1LT= 52+52+52
1LT= 152
LT= 215RT= 11140+1140+1140
RT=46,66 Ω
ZL=jωL
ZL=j50,265
Z=46,66+j50,265
TRANSFORMANDO A CORDENADAS POLARES
Z=68,588⦟47,125
I=50⦟0068,588⦟47,125
I=0,72⦟-47,125
VR=IR
VR=0,72⦟-47,12546,66⦟0
VR=34VCALCULOS CON 70 VOLTIOS
CIRCUITO 1-1
ZL=jωL
ZL=j150,79
Z=140+j150,79
TRANSFORMANDO A CORDENADAS POLARES
Z=205,76⦟47,125
I=70⦟00205,76⦟47,125
I=0,34⦟-47,125
VR=IR
VR=0,34⦟-47,125140⦟0VR=42 V
CIRCUITO 1-2
1LT= 52+52
1LT= 102
1LT=5
LT=15
ZL=jωL
ZL=j75,398
Z=140+j75,398
TRANSFORMANDO A CORDENADAS POLARES
Z=159,0122⦟28,305
I=70⦟00159,0122⦟28,305
I=0,44⦟-28,305
VR=IRVR=0,44⦟28,305140⦟0
VR=61,63 V
CIRCUITO 1-3
1LT= 52+52+52
1LT= 152
LT= 215
ZL=jωL
ZL=j50,265
Z=140+j50,265
TRANSFORMANDO A CORDENADAS POLARES
Z=148,75⦟19,749
I=70⦟00148,75⦟19,749...
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