Estudio de redes de microondas divisoras de potencia

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DIVISOR O ACOPLADOR P1

P2=α*P1

P3=(1-α)*P1

P2

P3 DIVISOR

O ACOPLADOR P1=P2 + P3

𝑆 =

𝑆₁₁ 𝑆₁₂ 𝑆₁₃

𝑆₂₁ 𝑆₂₂ 𝑆₂₃

𝑆₃₁ 𝑆₃₂ 𝑆₃₃

𝑆 =

0 𝑆₁₂ 𝑆₁₃

𝑆₁₂ 0 𝑆₂₃

𝑆₁₃ 𝑆₂₃ 0

𝑆₁₂ ² + 𝑆₁₃ ² = 1, 𝑆₁₂ ² + 𝑆₂₃ ²= 1, 𝑆₁₃ ² + 𝑆₂₃ ²= 1,

𝑆₁₃ ^∗ 𝑆₂₃ = 0, 𝑆₂₃ ^∗ 𝑆₁₂ = 0, 𝑆₁₂ ^∗ 𝑆₁₃ = 0,

𝑆 𝑆 

𝑆 =

0 𝑆₁₂ 𝑆₁₃

𝑆₂₁ 0 𝑆₂₃

𝑆₃₁ 𝑆₃₂ 0

𝑆₁₂ ² + 𝑆₁₃ ²= 1, 𝑆₂₁ ² + 𝑆₂₃ ²= 1, 𝑆₃₁ ² + 𝑆₃₂ ²= 1,

𝑆₃₁ ^∗ 𝑆₃₂ = 0,

𝑆₁₂ = 𝑆₂₃ = 𝑆₃₁ = 0, 𝑆₂₁ ² + 𝑆₃₂ ² + 𝑆₁₃ ²= 1,

𝑆₂₁ = 𝑆₃₂ = 𝑆₁₃ = 0, 𝑆₁₂ ² + 𝑆₂₃ ² + 𝑆₃₁ ²= 1, 𝑆 𝑆

𝑆

𝑆

1 2

3

1 2

3

𝑆 =

0 𝑆₁₂ 𝑆₁₃

𝑆₁₂ 0 𝑆₂₃

𝑆₁₃ 𝑆₂₃ 𝑆₃₃

𝑆₁₃ ^∗ 𝑆₂₃ = 0, 𝑆₁₂ ^∗ 𝑆₁₃+ 𝑆₂₃ ^∗ 𝑆₃₃ = 0, 𝑆₂₃ ^∗ 𝑆₁₂+ 𝑆₃₃ ^∗ 𝑆₁₃ = 0, 𝑆₁₂ ² + 𝑆₁₃ ²= 1, 𝑆₂₁ ² + 𝑆₂₃ ²= 1, 𝑆₁₃ ² + 𝑆₂₃ ²+ 𝑆₃₃ ²= 1,

S 21 = e^jθ

S ¹² = e^jθ

S ³³ = e^jf

1 2

3

𝑆

𝑆 𝑆 𝑆 𝑆

𝑆 =

0 𝑆₁₂ 𝑆₁₃ 𝑆₁₄

𝑆₁₂ 0 𝑆₂₃ 𝑆₂₄

𝑆₁₃ 𝑆₂₃ 0 𝑆₃₄

𝑆₁₄ 𝑆₂₄ 𝑆₃₄ 0

𝑆 ^∗ 𝑆 𝑆 ^∗ 𝑆 𝑆 ^∗ 𝑆 𝑆 ^∗ 𝑆

𝑆^∗ 𝑆^∗

𝑆 ^∗ 𝑆 𝑆

𝑆 ^∗ 𝑆 𝑆 ^∗ 𝑆 𝑆 ^∗ 𝑆 𝑆 ^∗ 𝑆

𝑆 𝑆

𝑆 𝑆 𝑆 𝑆 𝑆

𝑆 𝑆

𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆

𝑆 𝑆 𝑆

𝑆 α β θ

𝑆 ^∗ 𝑆 𝑆 ^∗ 𝑆

β

𝑆

β

𝑆











[ ∑ ]

2

4

N+1

3

CAVIDAD

PUERTOS DE SALIDA

PUERTO DE ENTRADA

[

𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 ]

𝑆 𝑆 𝑆

𝑆 𝑆 𝑆 𝑆 𝑆 ^∗ 𝑆 𝑆 ^∗

𝑆

𝑆

𝑆

𝑆

𝑆 𝑆 𝑆

𝑆 𝑆 𝑆 𝑆



𝑆

[

      

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       ]

𝑆

[

      

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𝑆

[

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Sección Adaptadora

Puerto de Entrada

Puertos de Salida

Puerto de Entrada

Sección Adaptadora Puertos de

Salida

β

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆 [

]

𝑆 𝑆 √

𝑆

𝑆

𝑆

𝑆

𝑆 |

|

√ √

√ √

𝑆 𝑆





ACOPLADOR DIRECCIONAL

6 PUERTOS a1

a2 a3

ACOPLADORES DE 6 PUERTOS EN CASCADA

AAA

Amplificadores de Potencia

∆ ACOPLADOR

DIRECCIONAL 6 PUERTOS

b4 b5 b6 4

5 6 1

2 3

4 5 6 1

2 3

1 ^a'1 2

a'2 a'3

𝑆 𝑆

𝑆

[

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

]

𝑆 √ [

]

1 2 3

4 RED DE 6 PUERTOS

ACOPLADOR DIRECCIONAL

5 6

1

𝑆 √ 𝑆 √ 𝑆 √

AAA

Amplificadores de Potencia

∆

∆

∆

𝑆

√

𝑆

√

𝑆

√

1 2 3

4 RED DE 6 PUERTOS ACOPLADOR DIRECCIONAL

5 6

2 ₁

2 3

4 RED DE 6 PUERTOS ACOPLADOR DIRECCIONAL

5 6

2 ₁

2 3

4 RED DE 6 PUERTOS ACOPLADOR DIRECCIONAL

5 6

2

𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆

^{( )}

^{( )}

𝑆 𝑆 𝑆

(

^{( )}) (

^{( )})

( ) ( ) ( ) ( )

( )

𝑆 𝑆 𝑆

(

^{( )}

) (

^{( )} )

( ) ( ) ( ) ( )

𝑆

√ [

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

]

𝑆 √

[

𝑆

𝑆

𝑆

𝑆

𝑆

𝑆

]

𝑆 ∗ 𝑆

[ 𝑆

𝑆

𝑆

𝑆

𝑆

𝑆 ] [

]

𝑆 𝑆 𝑆

1 2

3

4 RED DE 6 PUERTOS

ACOPLADOR DIRECCIONAL

5 6

ANCHO DE LA RAMA 1

ANCHO DE LA RAMA 2

BRANCH LINE COUPLER

√

a = 12.954 mm

b=6.477 mm





0.5.















∑ 𝑆 𝑆 𝑆 𝑆 𝑆

𝑆 𝑆 𝑆 𝑆 𝑆

1 2 3

4 5 6

1 0,8 6,81

0,5

0,75 0,99 VISTA FRONTAL

12,95 1

17 5, 4 12, 59 11 ,4 9 1,1 9 11 ,5 7

A

DETAIL A

3, 15

0,8

VISTA SUPERIOR

12,951 3,97 20

14,26

A DE TA IL A

11,61 1,09 10,97 2,16 10,97

Secciones Adaptadoras







∑ 𝑆 𝑆 𝑆 𝑆 𝑆

𝑆 𝑆 𝑆 𝑆 𝑆

1 2 3

4 5 6

6,48 2,3

3,18 0,61

0,81

1,31

1 0,66

PLANO FRONTAL

12,95 1

20 3,9714,26

A

DETAIL A

3,293,84

11,611,09 10,972,16 10,97

ACOPLADOR 8 PUERTOS

1 2 3 4

5 6 7 8

A

A’

B B’

[

]

𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆

𝑆 𝑆 𝑆 𝑆 𝑆 𝑆

𝑆 𝑆 𝑆 𝑆 𝑆 𝑆

[

]

𝑆 𝑆

𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆

𝑆 𝑆 𝑆 𝑆 𝑆 𝑆

𝑆 𝑆 𝑆 𝑆 𝑆 𝑆

[

]

𝑆 ∗ 𝑆

( )







∑ ( 𝑆 𝑆 𝑆 𝑆 𝑆

𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 𝑆 ) 𝑆 𝑆

1 2 3

4

5 6 7 8

6, 48

1

1,59 5,92

5,4 4,4

4,9 3,37 0,59

0,59

1

12,95

2 0 5 ,2 7 8 ,0 9

A DETAIL A

0 ,7 6

1,49

13 ,5 1 1, 2 9 8 ,3 2 12 ,2 9

B DETAIL B

2 ,5 8

0,59 1

C

DETAIL C

2 ,5 8

0,59 0,59

2 ,5 8

R 1,3

R3 O

8,2

R 25,58

12,9522,44

6,481 5,73 1

24,75





1

2

3

4

8,6 16,74

8,6

15 15

12,95

6,486,48

15 33,94

15

5,91