F U N DAM E NTALS O F
CHARLES K. ALEXANDER
MATTHEW N.O. SADIKU
ELECTRIC
CIRCUITS
Figura 14.1 Representación de un diagrama de bloque de una red de
trabajo lineal
McGraw-Hill
1
© The McGraw-Hill Companies, Inc., 2000
F U N DAM E NTALS O F
CHARLES K. ALEXANDER
MATTHEW N.O. SADIKU
ELECTRIC
CIRCUITS
Figura 14.9 Diagrama de Bode para la ganancia K: (a) diagrama de
magnitud, (b) diagrama de fase
McGraw-Hill
2
© The McGraw-Hill Companies, Inc., 2000
F U N DAM E NTALS O F
CHARLES K. ALEXANDER
MATTHEW N.O. SADIKU
ELECTRIC
CIRCUITS
Figura 14.10 Diagrama de Bode para un cero (j) en el origen: (a)
diagrama de magnitud, (b) diagrama de fase
McGraw-Hill
3
© The McGraw-Hill Companies, Inc., 2000
F U N DAM E NTALS O F
CHARLES K. ALEXANDER
MATTHEW N.O. SADIKU
ELECTRIC
CIRCUITS
Figura 14.10 Diagrama de Bode para un cero (j) en el origen: (a)
diagrama de magnitud, (b) diagrama de fase
McGraw-Hill
4
© The McGraw-Hill Companies, Inc., 2000
F U N DAM E NTALS O F
CHARLES K. ALEXANDER
MATTHEW N.O. SADIKU
ELECTRIC
CIRCUITS
Figura 14.11 Diagrama de Bode de cero (1 + j/z1): (a) diagrama de magnitud, (b)
diagrama de fase
McGraw-Hill
5
© The McGraw-Hill Companies, Inc., 2000
F U N DAM E NTALS O F
CHARLES K. ALEXANDER
MATTHEW N.O. SADIKU
ELECTRIC
CIRCUITS
Figura 14.11 Diagramas de Bode de cero (1 + j/z1): (a) diagrama de magnitud, (b)
diagrama de fase
McGraw-Hill
6
© The McGraw-Hill Companies, Inc., 2000
F U N DAM E NTALS O F
CHARLES K. ALEXANDER
MATTHEW N.O. SADIKU
ELECTRIC
CIRCUITS
Figura 14.12 Diagrama de Bode de polo cuadrático [ 1 + j2/n - 2/n2] -1: (a)
diagrama de magnitud
McGraw-Hill
7
© The McGraw-Hill Companies, Inc., 2000
F U N DAM E NTALS O F
CHARLES K. ALEXANDER
MATTHEW N.O. SADIKU
ELECTRIC
CIRCUITS
Figura 14.12 Diagrama de Bode de polo cuadratico [ 1 + j2/n - 2/n2] -1: (b)
diagrama de fase
McGraw-Hill
8
© The McGraw-Hill Companies, Inc., 2000
F U N DAM E NTALS O F
CHARLES K. ALEXANDER
MATTHEW N.O. SADIKU
ELECTRIC
CIRCUITS
Figura 14.21 Circuito resonante en serie
McGraw-Hill
9
© The McGraw-Hill Companies, Inc., 2000
F U N DAM E NTALS O F
CHARLES K. ALEXANDER
MATTHEW N.O. SADIKU
ELECTRIC
CIRCUITS
Figura 14.22 La amplitud de corriente en comparación con la frecuencia para el
circuito resonante en serie de la figura14.25
McGraw-Hill
10
© The McGraw-Hill Companies, Inc., 2000
F U N DAM E NTALS O F
CHARLES K. ALEXANDER
MATTHEW N.O. SADIKU
ELECTRIC
CIRCUITS
Figura 14.23 A mayor Q del circuito, menor ancho de banda
McGraw-Hill
11
© The McGraw-Hill Companies, Inc., 2000
F U N DAM E NTALS O F
CHARLES K. ALEXANDER
MATTHEW N.O. SADIKU
ELECTRIC
CIRCUITS
Figura 14.25 Circuito resonante en paralelo
McGraw-Hill
12
© The McGraw-Hill Companies, Inc., 2000
ELECTRIC
CIRCUITS
Figura 14.26 Amplitud de corriente comparada con la frecuencia para el circuito
resonante en serie de la figura 14.25
F U N DAM E NTALS O F
CHARLES K. ALEXANDER
MATTHEW N.O. SADIKU
McGraw-Hill
13
© The McGraw-Hill Companies, Inc., 2000
ELECTRIC
CIRCUITS
Figura 14.30 Respuesta de frecuencia ideal de cuatro tipos de filtros: (a) pasabajas,
(b) pasaaltas, (c) pasabandas, (d) rechazabandas
F U N DAM E NTALS O F
CHARLES K. ALEXANDER
MATTHEW N.O. SADIKU
McGraw-Hill
14
© The McGraw-Hill Companies, Inc., 2000
F U N DAM E NTALS O F
CHARLES K. ALEXANDER
MATTHEW N.O. SADIKU
ELECTRIC
CIRCUITS
Figura 14.31 Filtro pasabajas
McGraw-Hill
15
© The McGraw-Hill Companies, Inc., 2000
F U N DAM E NTALS O F
CHARLES K. ALEXANDER
MATTHEW N.O. SADIKU
ELECTRIC
CIRCUITS
Figura 14.33 Filtro pasaaltas
McGraw-Hill
16
© The McGraw-Hill Companies, Inc., 2000
F U N DAM E NTALS O F
CHARLES K. ALEXANDER
MATTHEW N.O. SADIKU
ELECTRIC
CIRCUITS
Figura 14.35 Filtro pasabanda
McGraw-Hill
17
© The McGraw-Hill Companies, Inc., 2000
F U N DAM E NTALS O F
CHARLES K. ALEXANDER
MATTHEW N.O. SADIKU
ELECTRIC
CIRCUITS
Figura 14.37 Filtro rechazabanda
McGraw-Hill
18
© The McGraw-Hill Companies, Inc., 2000
F U N DAM E NTALS O F
CHARLES K. ALEXANDER
MATTHEW N.O. SADIKU
ELECTRIC
CIRCUITS
Figura 14.42 Filtro activo pasabajas de primer orden
McGraw-Hill
19
© The McGraw-Hill Companies, Inc., 2000
F U N DAM E NTALS O F
CHARLES K. ALEXANDER
MATTHEW N.O. SADIKU
ELECTRIC
CIRCUITS
Figura 14.43 Filtro activo pasaaltas de primer orden
McGraw-Hill
20
© The McGraw-Hill Companies, Inc., 2000
F U N DAM E NTALS O F
CHARLES K. ALEXANDER
MATTHEW N.O. SADIKU
ELECTRIC
CIRCUITS
Figura 14.45 Filtro activo pasabanda
McGraw-Hill
21
© The McGraw-Hill Companies, Inc., 2000
F U N DAM E NTALS O F
CHARLES K. ALEXANDER
MATTHEW N.O. SADIKU
ELECTRIC
CIRCUITS
Figura 14.47 Filtro activo rechazabanda
McGraw-Hill
22
© The McGraw-Hill Companies, Inc., 2000
F U N DAM E NTALS O F
CHARLES K. ALEXANDER
MATTHEW N.O. SADIKU
ELECTRIC
CIRCUITS
Figura 14.59 Diagrama de bloque simplificado de un radiorreceptor AM
superheterodimo
McGraw-Hill
23
© The McGraw-Hill Companies, Inc., 2000
F U N DAM E NTALS O F
CHARLES K. ALEXANDER
MATTHEW N.O. SADIKU
ELECTRIC
CIRCUITS
Figura 14.61 Asignaciones de frecuencia para marcación de tonos de
toque
McGraw-Hill
24
© The McGraw-Hill Companies, Inc., 2000
Descargar

No Slide Title - McGraw