Esquemas Amplificadores Taramps

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2012

1

I N P U T R

10uF

I N P U T L

CE9 10uF

CE41

R 3 3 22K 1%

4 R 7 1 W

R 1 2 2

2 R 2 2 2 K 3 K 1 6 1 % %

R 4

220pF C38

22K 1%

R20

C 2 9

C I 1 T : L B 0 7 2

100nF C201

2 2 R K 1 2 % 7

2 2 p F

C2 22pF

C E 2 6 R 8 5 K 2 3

100nF C133 100nF C136

R57

2 2 K

33K

2K2

R30

6 8 n F

C I 3 : B

C129 100nF

6 8 n F

6 C n 1 R 8 5 3 3 3 1 K

R 3 2 3 3 K

6 C 8 3 n 2 F

F U L L

3 d H I B G @ H 1 P A 0 S 0 H S z

33K R19

c

K 8 8

4 C 7 7 0 0 n F 2 2 0 p F

C81 100nF

100nF 100nF

4 R 7 5 K 6

C 6 3

4 7 0 n F

6 R1nF K 7 8 1

R R 6 6 6 K 5 K 8 2 8 4

4 C 7 0 6 n 0 F

1 R 1 0 6 R 7

220pF 9 8

100nF 24

P F R O O A L J 3 H E A T O

G 0 I 8 V / 1 A 0 L / 2 D 0 O 1 0

F O L H A

D E S E N H O

F r i J a 1 n A 0 D I D 7 L E ,2 S 0 O 2 1 1 N

B L O C O

A M P L I F I C A D O R

P R O D U T O

T 2 0 0 X 2 S M D R 2

R E V

T A R A M

L T D A

1 7

23

C109 560pF

2 1 2 5 1 C 5 1 n 0 F 3

2 1

C108 560pF

15nF

10R R105

D151

C121 27R 1W

27R 1W

R120

470nF/63V C124

C123

-

R

+

-

BTL

100uF

R78

1 0 C 0 9 n 3 F C C 9 100nF 1 E 9 1 6 C92 0 0 n F C106 560pF

10R

MURS120T3

C119 100nF R118

100nF C79

D148

MURS120T3

L

+

2 L 7 u 1 H 4 7 0 n F / 6 3 V C N 1 1

L E D A Z

J M P 2

CE99

C107

4 7 u F 6 3 V

6 K 8

47uF CE111

C155 100nF

CE162 470uF 35V

CE161 470uF 35V

6K8

R 9 8

3K9 R200

C140 100nF

R97

5V6 DZ1

560pF

D138

2 7 u L H 2

100nF

R104

C102

D139 MURS120T3

100nF

1 6

MURS120T3

P S E L E T R Ô N I C A

6

15V

R165 10R

27K 1%

1 4

20

10R R164

C 7 5

7

18

C89 100nF

C 8 4

D A T A

T D F C 8 I P 5 1 9 1 T H

15V

2 2 0 R R 1 1 9 W 9

ON

4 3 L 7 d O K B W @ R P 1 A 5 0 S 5 0 S H z

c

DZ2

100nF

1 0 1 2

19

F U L L

DZ3

47uF CE112

C I 2 T : L A 0 7 2

33nF C12

- H 3 I d G B H @ P 1 A 0 S 0 S H z

6 8 C n 1 F 4

3 R 3 1 K 1

C74

4 C 7 6 0 1 n F C 5 9

1 1

C66 4 5 2

C13 6n8

3 R 3 1 K 8

1nF

C 6 7

1 47pF C73 13

C82 100nF

A R Q U I V O

2 2 R 0 1 R 1 1 0 W

C77 1nF CE28 4,7uF

3

C86 100nF

2 2 K

3 R 3 1 K 0

4 R 7 5 K 2

C169

C72

1nF R C76 6 6

C85 100nF

T P 1

C I 2 T : B L 0 7 2

C168

- L 3 d O B W @ P 1 A 0 S 0 S H z

C 4 E ,7 3 u 9 F

R 1 1 6 0 6 R

1K

C 1 7

6 8 2 R n K 2 F C 1 2 2 6

C I T 3 L : A 0 7 2

33nF C25

T L 0 7 2

4 R 7 5 K 8

100nF

C I 4 T : A L 0 7 2

R44

3 R 3 3 K 7

C131

2 R 2 K 6 1 %

2 C 2 7 p F

3K3

3K3

R34

C I 1 : A

T L 0 7 2

R43

1K

R50 C I 4 T T : P B L 2 0 7 2

100nF

6 8 n F

T S O U P P O L W L Y E R

1 C 0 u E F 8 R 8 4 K 2 2

1 0 u F

C115

C 2 4

2 2 R K 1 3 %

R5

C21 22pF

C 3 5

2 2 K 1 %

J M P 1

G N D C O N 1

1 0 u F

C 1 F 8 E R 3 R 2 5

C 1 6 2 8 n K 8 2 5 1 % R % 2 4

C I F 1

R 1 5

4 K 7

1 4 0 K 0 n C 7 F 6

4 R K 1 C 7 4 5 1 0 0 n F

SG3525

1 5 A

CFE4 47uF

Q 1 7 1

100nF C20

D A T A

P R O J E T O

0 G 8 I V / 1 0 A L / 2 D 0 O 1 0

F O L H A

D E S E N H O

F r i J a A 2 n D 0 I L D 7 S E , 2 O N 2 0 1 1

F A O 4 L H A B L O C O

F O N T E C H A V E A D A

CFE1 1000uF 16V

1 N 4 1 4 8

D 2

D1 1N5404

B

C

E

BCP56

47uF CFE2

10nF

4 6 K H z

R12 10K

4 7 R

R 7

R9

1 0 0 n C F 1 9

4 7 R

4 6 K H z R 8

1 R 2 K 6

IRFZ48

10K C3 10nF

27R R2

IRFZ48

A R Q U I V O

+ 1 2 V

4 1 R K 1 2 6 1 % 1 R K 1 3

C4

O B S : O B T I D O S Á 1 2 , 6 V c c E M R E P O U S O

R 1 7

R E M O T E

P R O D U T O

T 2 0 0 X 2 S M D R 2

R E V

C1 10nF T A R A M P S E L E T R Ô N I C A L T D A

27R R1

T R F 1

1 5 5 e A s W p G

1 5 5 e A s W p . G

1 9 8 e A s W p . G

1 9 8 e A s W p . G U 1 6 2 0

U 1 6 2 0 R 2 2 0 0 u F 3 5 V CFF5

CFF1

2 2 0 0 u F 3 5 V

G N D CFE4 47uF

1 0 u F

C F E 3 4 7 R

C 1 3 1 n 8 3 5 %

1 0 K R 1 0 7

4 K 7

1 C 0 1 0 1 7 n F R 4 1 K 0 7 5 R 1 0 3

+ 1 2 V

100nF C120

4 4 R 1 K 0 2 4 R 1 0 1

R 1 0 6 4 R K 1 7 0 2

1 K

CFE1

D F 2

1 N 4 1 4 8

C116 100nF

S G 3 5 2 5

R e m o t o

2 2 0 0 u F / 1 6 V

1N5404 DF1

B C E

K S Q H 3 1 1 C

47uF CFE2 10nF C115

2 R 7 9 R 8

R 1 1 0 0 K 0 2 R 7 9 R 7

R 1 9 0 9 K 1 C 0 1 0 1 n 9 F

1 R K 1 0 8

D A T A

P R O J E T O

2 G 4 I / V 0 A 9 L / 2 D 0 O 1 0

F O L H A

3 D E

3

F O A L 4 H A B L O C O

F o n t e

P R O D U T O

T 4 0 0 X 4 S M D R 3

D E S E N A H O D

I L S O N

R E V

T A R A M

IRF1404

2 R 7 9 R 6

1 C 0 1 n 1 F 4

IRF1404

C 1 1 0 1 n 3 F

A R Q U I V O

1 5 7

1 5 8

R 2 9 7 5 R

U 1 6 2 0 R

U 1 6 2 0

P S E L E T R Ô N I C A L T D A

6 X 2 2 0 0 u F 3 5 V

-2 -2 5 5 V V

+ 2 5 V

+ 2 5 V

C15 220pF

E N T R A D A C H 2

CE3 10uF

2 2 K 1 %

R 1 5 R9 22K 1%

22pF

C57 100nF

2 2 R K 1 1 7 %

C8

C I 1 : B

100nF C45

1 0 C u F E 2

R 2

4 R 7 1 W

R 4 4

2 2 C p 1 F 2

5 5 3 2

E N T R A 1 D A C H 1

R3 22K 1%

C 2 2 1 p F

2 2 R K 1 1 2 %

2 2 R K 1 4 %

2 2 p F

8 KR 2 2 0

8 K 2 1K

R21

R22

1K

T L 0 7 2

G A I N

2 2 K

C I 4 : B

R28

C 2

5 5 3 2

1 C 0 E u 1 F

R 2 4

100nF C51

2 2 KR 1 1 %

C I 1 : A

1 C 0 E u 4 F

C50 100nF

2 2 K 1 %

C I 4 : A

R19 3K3

T L 0 7 2

G A I N

2 2 K

6 K 8 1 % R 3 6

3K3

C 6 1 8 4 n F

R16 2K2

6 8 n F

C 33K 9

33K

T L 0 7 2 C I 3 : B

6 C 8 1 n F 3

3 R 3 K 1 4

R 1 0

6 8 n F

2 K 2

I C 1

R7

C 6

C 6 n 4 8

33K

T L 0 7 2 C I 2 : B L O W P A S S

c

4 R 7 2 K 9

R 2 7 4 7 K

100nF C56

C 1 1 n 9 F

C25

H I G H P A S S

C E 5

1nF

4,7uF CE6

C 3 3 3 n F

T L 0 7 C I 2 3 : A

C55 100nF

F U L L

H I G H P A S S

4 7 K

6 8 C n 5 F

3 R 3 6 K

R8 33nF C10

C48 100nF

R 3 2

3 3 R K 5

33K

C 6 n 1 8 1

R13

100nF C49

6 8 C n F 7

3 R 3 1 K 8

R11

T L 0 7 2

220nF C44

C I 2 : F A U L L

L O W P A S S

c

5V6 DZ4

4 R 7 2 K 6

R 3 7

4,7uF

C 1 n C 2 1 F 2 1 n 0 F R 3 1

100nF

47pF

10R

C26

R49

4 7 0 C n 2 F 3

C 1 2 1 1 6 9

5

C42 560pF

1 0 0 n F C 3 1 1 0 C 0 3 n 3 F

1 1 9 2 4 1 3 1 8

2 0

2 1

2 2

R39

C39

10R

15nF

G 2 I 4 V / 0 A 9 L / 2 D 0 O 1 0

F O L H A

B L O C O

T 4 0 0 X 4 S A M m D p R l i -A 3

D E S E N H O

F r i J a A 1 n 0 D D 7 I L E , S 2 O 3 0 N 1 1

R E V

T A R A M

C47 100nF

R43 27R 1W

1 5

L T D A

1 0 0 n F

D4

1 0 R

CE22 220uF/35V

C53 100nF C52

4 7 u C F E / 6 7 3 V

C 3 5 1 0 0 C n 3 F 6

CE21

2 2 0 u F / 3 5 V

100nF

V D D V S S

1 2 0 R 2 W

560pF C40 C41

DZ3 15V

DZ2 15V

47uF CE10

47uF CE9

R 4 1

2 R 7 R 4 1 2 W

MURS120T3

1 0 u H LED AZ

LED AZ

-1 5 V

- O + U T P U T C H 1

R50 5K6

1uF/63V CP1

- O + U T P U T C H 2

1 2 0 R 2 W

R 4 0

D3

MURS120T3 D1

1uF/63V CP2

+ 2 5 V

DA FONTE

560pF

MURS120T3

1 0 C 4 0 6 n F

-2 5 V

6K8

100uF CE8

1 0 C 0 3 n 7 F

R38


8 5

1 6

C 1 3 5 8 n F

10R 10R

R34

6

1 7

R46 R47

5V6 R DZ1 6 K 3

7

C I P 1

2 3

1 0 u L H 2 P R O D U T O

1 0 C 0 2 n 7 F

1 0

1 4

MURS120T3

P F R A O O 2 L _ J 1 H E A T O

8

1 0 C 0 2 n F 8

T D F 8 5 9 1 T H

D2

560pF

D A T A

4 7 C 0 1 n F 8

2 2 0 p F

1 2

100nF

C43

A R Q U I V O

6 R K 2 8 5

6 K 8

4 C 7 1 0 7 n F

C34

C 3 2 1 0 0 n F

R 3 0

6 R K 3 8 3

3

C30

R 1 4 0 8 R

6 K 8

4 C 7 2 0 4 n F C 2 2 2 0 2 p F 4

C29 100nF

1 C 2 0 5 p 4 F

+ 1 5 V

3 K 3

220pF

CE13 10uF

2 2 K 1 % R61 22K 1%

I N P U T C H 3

2 2 R K 6 1 9 %

R 6 7

C72

I N P U T C H 4

CE12 10uF

4 R 7 1 W

R 4 5

R55 22K 1%

22pF C65

5 5 3 2

C112 100nF

100nF C103

C 2 2 5 p 8 F

2 2 R K 6 1 4 %

2 2 C p 6 F 9

C I 5 : B

R 2 5 2 2 K 1 %

5 5 3 2

C I 5 : A

R 7 1

8 K 2

100nF C108

2 C 2 p 5 F 9

8 K 2

1K

R74

R73

C I 8 : B

C109 100nF

2 2 R K 5 1 6 %

C 0 1 E u 1 F 1

1 C 0 u E F 1 4 R 7 5

2 2 R K 5 1 1 %

2 2 K

T L 0 7 2

1K

G A I N

T L 0 7 2

C I 8 : A

2 2 K

G A I N

R78 3K3

33K

6 C 8 6 n F 6 2K2

33K

R68

R65 33nF C67

T L 0 7 2 C106 100nF

C107 100nF

6 3 R 8 3 6 K 6 n F

C I 6 : F B U L L

H I G H P A S S

R 4 8 7 1 K

c

4 7 K

100nF C111

4 R 7 K 7 9

C80 1nF

33nF C60

R 7 7

R94

R 1 9 0 3 R

A R Q U I V O

D A T A

P R O J E T O

G 2 I 4 V / 0 A 9 L / 2 D 0 O 1 0

F O L H A

F O A L 3 H A

P R O D U T O

B L O C O

T 4 0 0 X 4 A S M m D p R l i -B 3

D E S E N H O

F r i J a 2 n A 0 D D ,7 I L E 2 S 0 O 3 1 1 N

R E V

T A R A M P S E L E T R Ô N I C A L T D A

10R

47pF

1 C n 8 F 4

R 6 R 6 K 8 K 7 0 8 6 8 4 4 7 7 C C 0 0 7 n n 7 5 F 4 F

100nF C90

1 0 C 0 n 9 F 4

1 4 1 7 2 1

2 2

1 5

C98

C102

R88

15nF

560pF

D6

MURS120T3

1 6

10R

1 C 5 9 n 7 F

D7

MURS120T3

1 0 u H

1 C 0 1 0 0 n 4 F

1 MURS120T3 0 L 1 u 0 H 0 1

2 R 7 R 8 1 9 W

1uF/63V

CP4

1uF/63V CP3

-

+

OUTPUT CH4

-

+

OUTPUT CH3

CE19 220uF/35V

100uF CE18 47uF/63V

1 0 0 n F

C E 1 7

560pF C99 C100 560pF

D5

6K8

6 R K 8 8 6

C93 100nF R87

D8

MURS120T3

C 9 2

10R

R85

5V6

6

2 3

2 7 R R 9 1 0 W

R92

7

10R

1 C 0 1 0 0 5 n F

R91 10R

1 C 0 0 8 n F 3

T D F 8 5 9 1 T H

1 1 8 1 0 C 0 0 0 n 8 F n F 9

C101 560pF

1 0

DZ5

1 3

2 0

1 0 0 n F

C 8 2 1 2

1 1 9 2 4

C91

1 C 0 0 8 n F 8

4 R 7 7 K 2

4,7uF CE15

3

C81

c

C 1 8 n 5 F

4 4 7 C C 7 0 7 7 0 n 9 n F 8 F 220pF C C 220pF 7 7 7 3 1 2 4 5 9 8 1

100nF

L O W P A S S

C76

6 R 6 K R K 8 8 8 3 8 4

C87

C 6 2

T L 0 7 C 2 I 6 : A F U L L

H I G H P A S S

1nF

100nF

3 R 6 8 3 n K 5 8 F

C I 7 : A

4,7uF CE16

C86

C61 6n8

T L 0 7 2 C110 100nF

L O W P A S S

3 R K 8 3 2

33K

T L 0 7 2

C I 7 : B

R59

6 8 n F

R60

C 7 0

R 3 5 3 7 K 33K

C 6 3

R 6 2

2 K 2

6n8 C68

R63

6 8 n F

C 6 4

3 R 3 7 K 0

C 6 7 8 1 n F

100nF C96

2 2 0 C u F E 2 / 3 0 5 V 100nF C95

V S S

V D D

G N D CFE4 47uF

1 0 u F

C F E 3

4 7 R

C 1 3 1 n 8 3 5 %

1 0 K R 1 0 7

1 C 0 1 0 1 7 n F R 4 1 K 0 7 5 4 R K 1 7 0 3

+ 1 2 V

100nF C120

4 4 R 1 K 0 2 4 R 1 0 1

R 1 0 6 4 R K 1 7 0 2

1 K

CFE1

D F 2

1 N 4 1 4 8

C116 100nF

S G 3 5 2 5

R e m o t o

2 2 0 0 u F / 1 6 V

1N5404 DF1

B C E

47uF CFE2

K S Q H 3 1 1 C

10nF C115

2 R 7 9 R 8 R 1 1 0 0 K 0 2 R 7 9 R 7

R 1 9 0 9 K 1 C 0 1 0 1 n 9 F

1 R 1 K 0 8

D A T A

P R O J E T O

2 G 4 I V / 0 A 9 L / 2 D 0 O 1 0

F O L H A

F A O 4 L H A

B L O C O

F o n t e

P R O D U T O

T 4 0 0 X 4 S M D R 3

D E S E N H O


R E V

T A R A M

IRF1404

2 R 7 9 R 6

1 C 0 1 n 1 F 4

IRF1404

C 1 1 0 1 n 3 F

A R Q U I V O

1 5 7

1 5 8

R 2 9 7 5 R

U 1 6 2 0 R

U 1 6 2 0


6 X 2 2 0 0 u F 3 5 V

-2 -2 5 5 V V

+ + 2 2 5 5 V V

C15 220pF

E N T R A D A C H 2

CE3 10uF

2 2 K 1 %

R 1 5 R9 22K 1%

22pF

C57 100nF

2 2 KR 1 1 7 %

C8

C I 1 : B

100nF C45

1 0 C u E F 2

R 2

4 R 7 1 W

R 4 4

2 2 C p F 1 2

5 5 3 2

E N T R A 1 D A C H 1

R3 22K 1%

C 2 2 1 p F

2 2 KR 1 1 2 %

2 2 KR 4 1 %

2 2 p F

8 KR 2 2 0

8 K 2 1K

R21

R22

1K

T L 0 7 2 C I 4 : B

R28

C 2

5 5 3 2

1 C 0 E u 1 F

R 2 4

100nF C51

2 2 KR 1 1 %

C I 1 : A

1 C 0 E u 4 F

C50 100nF

2 2 K 1 %

G A I N

2 2 K

C I 4 : A

R19 3K3

T L 0 7 2

G A I N

2 2 K

6 K 8 1 % R 3 6

3K3

C 6 8 1 4 n F

R16 2K2

6 8 n F

C 33K 9

33K

T L 0 7 2 C I 3 : B

100nF C49

R 3 2

3 3 R K 5

33K

C 6 n 1 1 8

R13

C48 100nF

6 8 C n F 7

3 3 R 1 K 8

R11

6 8 C 1 n 3 F

R 3 3 K 1 4

R 1 0

6 8 n F

2 K 2

I C 1

R7

C 6

C 6 n 4 8

4 7 K

33K

T L 0 7 2 C I 2 : B L O W P A S S

c

4 R 7 2 K 9

R 2 7 4 7 K

100nF C56

C 1 1 n 9 F

C25

H I G H P A S S

C E 5

1nF

4,7uF CE6

C 3 3 3 n F

T L 0 C 7 I 2 3 : A

C55 100nF

F U L L

H I G H P A S S

6 8 C n 5 F

3 R 3 K 6

R8 33nF C10

T L 0 7 2 C I 2 : F A U L L L O W P c A S S

220nF C44 5V6 DZ4

4 R 7 2 K 6

R 3 K 3 7 3

4,7uF

C 1 C 2 n 1 F 2 1 n 0 F

C29 100nF

6 K 8

C 2 4 C 2 2 2 2 0 p F

4 7 0 n F 4

10R

47pF

2 4

R49

C26

1 3

4 7 0 C n 2 F 3

C 1 2 1 1 6 9

5

C42 560pF

1 0 0 n F C 3 1 1 C 0 0 n 3 F 3

1 8

1 7 2 0

2 1

2 4 / 0 9 / 2 0 1 0

F O L H A

1

D E

3

A L D O

D E S A E D N H I L O

S O N

A m p l i - A

P R O D U T O

T A T R 4 A 0 0 M X 4 P S S M D A R 5 M _ C P L I F I C A D O R R E E V S

2 2

R39

C39

10R

15nF

R43 27R 1W

1 0 0 n F

1 0 R

C 3 5 1 0 0 n C F 3 6

-2 5 V

CE22 220uF/35V

C53 100nF C52

C E 7

4 7 u F / 6 3 V

CE21

100nF

V S S

2 2 0 u F / 3 5 V V D D

1 2 0 R 2 W

1 2 0 R 2 W

R 4 0

560pF C40 C41

DZ3 15V

DZ2 15V

47uF CE10

47uF CE9

R 4 1

D3

MURS120T3 D1

2 R 7 R 4 1 2 W

MURS120T3

1 0 u H LED AZ

LED AZ

-1 5 V

- O + U T P U T C H 1

R50 5K6

1uF/63V CP1

- O + U T P U T C H 2

DA FONTE

560pF

MURS120T3

1uF/63V CP2

+ 2 5 V

6K8

100uF CE8

1 C 0 0 3 n F 7

R38

1 0 C 4 0 n 6 F

R47

8 5

1 6

C 1 5 3 8 n F

D4

1 0 u H L 2 C47 100nF

1 5

10R 10R

5V6 R DZ1 6 K 3

6

2 3

R46

R34

7

C I P 1

1 4

MURS120T3

P F R O O A L J 3 H E A T O B L O G C I V O

1 0 C 0 2 n F 7

8 1 0

1 C 0 0 2 n F 8

T D F 8 5 9 1 T H

D2

560pF

D A T A

4 7 0 C 1 n 8 F

2 2 0 p F

1 2

100nF

C43

A R Q U I V O

6 KR 2 8 5

6 K 8

4 C 7 1 0 n 7 F

C34

C 3 2 1 0 0 n F

R 3 0

6 R K 8 3 3

1 1 9

100nF

R 1 4 0 8 R

R 3 1

3

C30

1 2 C 0 5 p F 4

+ 1 5 V

220pF

CE13 10uF

2 2 K 1 R % 6 7

R61 22K 1%

C72

I N P U T C H 4

I N P U T C H 3

2 2 R K 6 1 9 %

CE12 10uF

4 R 7 1 W

R 4 5

R55 22K 1%

22pF C65

5 5 3 2

C112 100nF

2 C 2 p 6 F 9

C I 5 : B

100nF C103

R 2 5 2 2 K 1 %

C 2 2 5 p 8 F

2 2 R K 6 1 4 %

5 5 3 2

C I 5 : A

R 8 7 K 5 2

2 C 2 p 5 F 9

R 7 1

8 K 2

1K

R74

R73

C I 8 : B

C109 100nF R78

2 2 R K 5 1 6 %

C 1 E 0 1 u 1 F

1 0 C u E F 1 4

100nF C108

2 2 R K 5 1 1 %

2 2 K

T L 0 7 2

1K

T L 0 7 C 2 I 8 : A

G A I N

2 2 K

G A I N

3K3

33K

6 C 8 6 n 6 F 2K2

33K

R68

R65 33nF C67

T L 0 7 2 C106 100nF

C107 100nF

C I 7 : B H I G H P A S S

R 4 8 7 1 K

3 R 6 3 6 8 K 6 n F C 7 0

T L 0 7 2 C I 6 B F : U L L O L W P c A S S

R 3 5 3 7 K

3 R K 8 3 2

33K

C 6 3

R 6 2

2 K 2

6n8 C68

R63

6 8 n F

C 6 4

3 R 3 7 K 0

C 6 7 8 1 n F

R59

C61 6n8

6 8 n F

R60

3 R 3 5 K 8

6 8 n F

C 6 2

33K

T L 0 7 2 C I 7 : A

C110 100nF

4 7 K

100nF C111

4 R 7 7 K 9

33nF C60

F U L L

H I G H P A S S

R 7 7

C80 1nF

T L 0 7 C 2 I 6 : A

L O W 4 R 7 7 P K2 A S S

c

C76 1nF

4,7uF CE16

4,7uF CE15

1 C C 1 n 8 8 n F 4 5 F

6 R 6 R 6 R 6 K K R K 7 K 8 8 8 8 8 3 8 6 8 0 4 4 4 4 4 7 C C 7 7 C C 7 0 0 7 0 7 7 n n 5 7 0 n 8 4 F F 9 n F F 220pF 220pF C C 7 7 7 3 2 1 4 5 9 8 1 1 0 3 1 2

100nF C86

C87 100nF R94

R 1 9 0 3 R

A R Q U I V O

D A T A

2 4 / 0 9 / 2 0 1 0

F O L H A

2

D E

3


A L D O


S O N

A m p l i - B

10R

1 1 0 8 0 n F

100nF C90 C101 560pF C102 560pF

1 7 2 1

2 2

1 5

10R

C98

R88

15nF

D6

MURS120T3

R87

D8

1 0 u H

D7

2 R 7 8 R 9 1 W

+

OUTPUT CH4

-

1 MURS120T3 0 L 1 u H 0 0 1

1uF/63V

CP4

1uF/63V CP3

100uF CE18

+

C E 1 7

47uF/63V

560pF C99 C100 560pF

D5

1 C 0 1 0 0 n 4 F

-

10R

C 1 9 5 7 n F

OUTPUT CH3

6K8

6 R K 8 8 6

C93 100nF

1 6

MURS120T3

2 7 R R 9 1 0 W

C 9 2

1 0 C 0 n 9 F 4 1 0 0 n F

10R

R85

5V6

6 1 4

MURS120T3

1 C 0 1 0 0 n 5 F

R92

7

2 3 2 0

R91 10R

1 0 C 0 8 n 3 F

T D F 8 5 9 1 T H

1 3

1 0 C 0 8 n 8 F

1 0 0 n F

DZ5

1 1 9 2 4

C91

1 0 C 0 8 n 9 F

P R O D U T O

T A T R 4 0 A 0 M X 4 P S S M D A R M 5 _ C P L I F I C A D O R R E E S V

47pF C81

C 8 2

CE19 220uF/35V

100nF C96

2 2 0 C u E F 2 / 3 0 5 V 100nF C95

V S S

V D D

G N D

CFE4 47uF

1 0 u F

C F E 3

4 7 R

C 1 3 1 n 8 3 5 %

1 0 K R 1 0 7

1 C 0 1 0 1 7 n F R 4 1 K 0 7 5 4 R K 1 7 0 3

+ 1 2 V

100nF C120

4 4 R 1 K 0 2 4 R 1 0 1

R 1 0 6 4 R K 1 7 0 2

1 K

CFE1

D F 2

1 N 4 1 4 8

C116 100nF

S G 3 5 2 5

R e m o t o

2 2 0 0 u F / 1 6 V

1N5404 DF1

B C E

47uF CFE2

K S Q H 3 1 1 C

10nF C115

2 R 7 9 R 8 R 1 1 0 0 K 0 2 R 7 9 R 7

R 1 9 0 9 K 1 C 0 1 0 1 9 n F

1 R 1 K 0 8

D A T A

P R O J E T O

2 G 4 I / 0 V 9 A / 2 L D 0 O 1 0

F O L H A

3 D E

3

D E S E N H A O D

I L S O N

F O A L 4 H A

P R O D U T O

T A R T A 4 M B 0 L 0 P O X S C 4 O S A M F D M o R P n 5 t e _ C L I F I C A D O R R E E V S

IRF1404

2 R 7 9 R 6

1 C 0 1 n 1 F 4

IRF1404

C 1 1 0 1 n 3 F

A R Q U I V O

1 5 7

1 5 8

R 2 9 7 5 R

U 1 6 2 0 R

U 1 6 2 0

6 X 2 2 0 0 u F 3 5 V

-2 5 V

-2 5 V

+ 2 5 V

+ 2 5 V

SENSIBILIDADE DE ENTRADA = 0,300VAC NO MOMENTO DO CLIP @ 1KHz INPUT (RCA) L

47pF 22K 1%

2K7

22K 1% 23K2 1%

R

2K7 0°

W 0 1 4 7 R R 4

F p 7 4

6 7 5 CI1:B TL072 % 1 K 2 2

180° 47pF

C14 68nF

22K 1% 6K8

2

TL072 47R 1 3 CI1:A

L E K V 2 E 2 L

R10 33K

0° F n 0 0 1

LOW PASS -3dB @ 100Hz

6

R11 33K

7

1

TL072

FULL 4

5 CI2:B F n 2 3 1 3 C

6n8 C13

2 c 3

0°

10K 1% R49

47nF CP15 CP14 47nF

F n 0 0 1

CP13

8 9 4 K R 4

F n 8 1

R39 10R 1W 1 7 C

2 7 C

10R 1W R47

2 F 6 n 0 1 0 P 1 C

V 5 2 / F u 0 0 1

F 7 n 0 1 0 P 1 C

3 CI2:A

R36

120K R45 22K 1% TL072 2 1 % 100nF 3 CI3:A 1 CP10 9

HPF (100Hz a 2.2KHz) 18nF 4K99 1%100K

V 5 2 / F u 0 0 1

BASS BOOST +10dB @ 50Hz

100nF

F n 0 0 1

1

F n 0 0 1

R37 10K 1% 0°

% 2 1 5 K R T 0 1 S O B O B K S 0 1 S A B

6 5 CI3:B

7 180°

TL072 % 1 1 4 K 0 R 2 2

TL072

4K99 1%

HPF

K 0 0 1

F n 0 0 1

F n 0 0 1

R38 100R F n 0 1

TARAMPS ELETRÔNICA LTDA PRODUTO FOLHA A4 PROJETO DATA ARQUIVO

REV

T500D X1_1R_C_R3 BLOCO

PRE

GIVALDO 20/12/2010

DESENHO

ADILSON

Thu Mar 31, 2011 FOLHA

1 DE 3

+B_(+37,2V)

W 2 2 K 2 A K 0 0 0 9 1 R

RED PROT

A 1 1 D

Q19A BC 327

7 K 4 A 7 9 R

K 0 0 1

A 1 3 1 R

V 5 2 / F u 2 2

A 3 2 Z D

A 7 W 2 5 . C 0 6 V 5

7 3 9 4 N 1

A K 4 K A 0 0 3 9 3 8 R 1 1 R F n 0 0 1

V 0 5 2 / F n 0 2 2

R78A 10K 1% 15V 1W

DZ6A

R128A 22R

22uF/25V 22uF/25V

A K 2 0 8 0 R 1

R84A 1

47uF/25V

C

-B_(-37,2V)

D14A

R95A 22R

1N4937 A 4 A V 2 R 5 C F 4 0 2 n 9 / 0 0 R F 1 u 0 2 1 2

W 5 . A 0 5 6 Z D V 5

% F 1 n R 1 0 0 3

A 5 4 1 R

A 9 1 C A 8 8 R

8K2

8K2 % 1 K 9 3

IRS2092

A 2 7 K 3 2 1 R

R126A

10R 1/4W

4 0 9 3 N 2

7 3 9 4 N 1

R146A

V 5 2 / F u 2 2

A 9 9 C

V 0 5 2 / F n 0 2 2

E U L B

N O

A R 6 0 5 1 R

100K

A 8 D

22,37Vrms @ 1R

7 3 9 4 N 1

+ V 0 5 A 2 8 / F P u C 1

V 0 5 2 / F p 0 5 1

A 9 9 R

A 6 4 C A 2 6 C

-

A 2 W 1 2 0 K 2 R 1 0 R 1 V 0 5 2 / F n 0 0 1

R21 6 0 9 3 N 2

R 0 6 2 0 8 9 3 N 2

Q12

-B_(-37,2V)

6 0 9 3 N 2

7 7 K 1 4 R

CIRCUITO DE BIAS DO IRS2092

10K C 1 3 P I T

R20 Q13 330uF/25V

9 K R 0 1

2 K 2 0 R 1

10K V 0 5 / F 1 n 1 0 C 0 1

3

A 0 1 W 1 4 R / 1 7 R 4

0 2 6 5 B F R I

A 5 K 8 0 1 1 R

DCP PROTEÇÃO DC

K 0 1

7 9 K 1 4 R

2

1

R139A

1N4148 OTP PROTEÇÃO TÉRMICA

A 9 D

0 2 6 5 B F R I

22uH

D16A

Q3

1

3

C80A C26A 1nF 1nF

2K2 2W

Q11

V 0 5 2 / F A n 1 0 4 0 C 1

2

R135A

A 3K3 330R F 9 n 7

8 1 R

A 9 5 C

% 1 K 9 3 V 7 W 4 5 . C 0 9 7 V 7 X 4 Z B

2 1 Z D

W A 2 A K 4 R 5 5 3 0 3 1 R 2 R 2

10K R12

R13 8 R

4 0 9 3 N 2

5 K 1 0 R 1

D4A C4A -B_(-37,2,V)

22uF

TARAMPS ELETRÔNICA LTDA

R14 Q7

15V 1W

47K )

W 5 . 0 V 0 3 (

V 0 0 3 1 C Z 9 D 7 X Z B

PRODUTO FOLHA A3 PROJETO

OVP TENSÃO ALTA

UPV BAIXA TENSÃO

DATA ARQUIVO

REV


AMPLIFICADOR (1 OHMS)

GIVALDO 20/12/2010

DESENHO

ADILSON Thu Mar 31, 2011

FOLHA

2 DE 3

4 0 4 1 F R I

27R

+12V REM GND

1K

1N4148

RF7

DF2

2

3

BD139

1

R116 1 8 0 K 1 6 R

W 0 1 3 1 R 7 R 2

CONSUMO EM REPOUSO 0,750 Amp

F n

0 8 6 6 C

CFE4 47uF/25V

U1620

+

CF9 100nF

F u 0 0 7 4

F

0 u 1 0 A 0 6 7

CF5 100nF

4

47uF/25V

+B_(+37,2V)

RF9

RF8

4K7

4K7

RF15

****

U1620R

1000uF/63V

1000uF/63V

27R R100

RF11

8 0 8 1 K R 6

4K7 CF6 100nF

4 W 9 0 1 2 4 1 R 1 F 7 R R I 2 7 4 C

+B_(+37,2V)

-B_(-37,2V)

R23 680R 3W 3 6 C

F n 8 6

F u 7 4

F 1 n 6 D 0 P 0 C 1

W 1 V 5 1

680R 3W 3n3

R24

CF7

F u 7 4

RF12 8K2 1%RF13

4 5 2 6 P F D C C n 0 0 1

W 1 V 5 1

47R 10uF SG3525

F n 4 0 F 1 C

1K RF14 100nF CF8

TARAMPS ELETRÔNICA LTDA PRODUTO FOLHA A3 PROJETO DATA ARQUIVO

REV


FONTE

GIVALDO 20/12/2010

DESENHO

ADILSON Thu Mar 31, 2011

FOLHA

3 DE 3

-1 1 3 @ 6 , 6 0 m 9 V d B u R

L ( N R I C P A U ) T

0 ° R 2 2 K 8 7

2 R K 2 7 7

R40 4R7 1W

1 1 R 8 K 8 2 1 K R % 1 1 %

C2 47pF

18K 1% R4

1 0 R R 1 3 W 9

1 R 0 4 R 7 1 W C72

C71

100uF/25V

100uF/25V

LEVEL

R 3

1 8 K 1 %

4 C 7 p 1 F

22K

4 7 u F / 2 5 V

C 7 3

100nF CP16

100nF CP11

C I 1 T : L B 0 7 2

1 8 0 °

R 6 K 7 8 7 1 %

C4 100nF

R 5 C I 1 T : A L 0 7 2

100nF C9

100K

R6

18nF

C10 100nF

C I 2 : A T L 0 7 2

H P F ( 1 4 0 K 0 H 9 R 9 7 z 1 % a 2 .2 K H z 1 ) 0 0 K

C 6 1 n 3 8

33nF C12

C I 2 : B

F U 4 L L c 3 2

C 7 4

D A T A

1 7 / 1 2 / 2 0 1 0

F O L H A

1 D E

4


A L D O


S O N

P R E

P R O D U T O

T 5 0 0 D X 1 _ R 9 _ C ( 1 R / 2 R )

C18 100nF

T A R A M P S A M

P L I F I C A D O R R E E S V

1 C 0 P 0 1 n 0 F 100nF C19

1 0 R 0 3 R 8

2 2 R K 4 1 5 %

R48 4K99 1%

CP2 10nF

BASS BOOST 10KB 10K 1% R52 220K 1% R41

C I 3 : B 1 8 0 °

1 R

4 7 p F

4 4 K 2 1 %

2 R

C I 3 : A

1 R 0 4 K 9 1 %

4 C 7 P n 1 C F 4 P 4 7 1 n 5 F C 1 R P 2 3 1 0 3 T K 6 L 0 7 2

1 0 0 n F

0 °

T L 0 7 2

1 0 R K 3 1 7 %

6 C 8 1 n 4 F

3 R 3 1 K 1

100nF C15

A R Q U I V O

3 9 K

3 R 3 1 K 0

1 C 8 P n 1 F

CP4

4 K 9 9 1 %

* * * *

4 R 7 R 7 6

0 °

H P F

R 5

C 2 5

+ B 1 A 0 S d S B B @ O 5 O 0 S H T z

2 2 u F / 2 5 V

T L 0 7 2

- L 1 3 d O B

W @ P 1 A 0 S 0 S H z

0 °

D R Z 7 2 9

D Z 3

R R 4 4 6 3

R 3 4

R 2 5

B B Z Z X X 7 7 9 9 C C 5 1 6 5

1 2 0 K 0 2 K -2 1 W %

2 2 K 1 %

2 K 2 -2 W

2 2 0 R -2 W

B Z X 7 9 C 6 2

2 1 K 1 3 7 2 K -2 0 3 W K 1 %

2 K 7 -2 W

8 2 2 0 O R h m 3 W s

B Z X 7 9 C 3 0

R35 100K 1%

1 O h m

2 2 u F / 2 5 V

3 3 0 R 1nF 5% ( -B )

MMBT3904 E

DZ1 5V6 0.5W

C

Q 3

B

4K7

C11

R18

R19 Q

100nF/50V

4

R9

820R

B

MMBT3906

R80

C E

10K 1%

10K 1%

4K7 R17

T E N 1 S 8 Ã O V O V C C A P L T A

NTC

P R O T E Ç Ã O O T T P É R M I C A

1 N 4 1 4 8

C79

3 K 3

C24

DZ3 ****

E

R 1 3

1 0 K 1 %

B

P R O T E D Ç C Ã P O D C

MMBT3906 E C B

Q 6

MMBT3904 E

E

Q 8

100K 1% R70

1 n F 5 % C 2 8 1 n F 5 %

300R 1%

Q 5

4 R K 5 7 1

RED

B

R50 100R

C

10K 1%

1 5 C n 9 F 2

100nF

MMBT3906

R22

R8

**** R46

PROT

4 7 u F / 2 5 V

22uF/25V

D 7

R 7 1

R * * 7 * * 9

R74 220K 1%

R 4 2

1nF 5%

C

M M B T 3 9 0 6

D G S

22uF/25V

M _ F E T 1

O P C I O N A L

C 2 6 DZ4 5V6 0.5W

C20

C27

100nF

****

C

Q 7

B

R15

R 1 2

10K 1%

4 7 K

B A 7 I X , 9 A U V P C T V C E N S Ã O

**** R43

3 3 0 u F / 2 5 V

1 0 K 1 %

R 1 4

1 0 K R 1 2 % 0

R 2 1

R34

8 R 7 K 3 2 1 %

1 0 0 K 1 % I R S 2 0 9 2

DZ2 ****

R33 RX

2K2 1% R72

R 6 6

22uF/25V

8 K 2 1 %

10K 1% R32

10K 1%

MURS120T3 D3

R58 R44 33K

R75

2 2 u F / 2 5 V

10R 1/4W R25 ****

KSH41C

D6 BYV27-200

4R7 1/4W R64

3

1 5 V Z 1 1 W

2

ON

1

R26 10K 1% R31

15K

2 2 u F / 2 5 V

C 3

1 5 V 1 D W 4

V C C

22R

22R R29

1

R67 1

IRFB5620 2

2

3

3

IRFB5620 ( -B )

10R 1/4W R30

C21 150pF/250V

100nF/250V C41

A R Q U I V O

D A T A

1 7 / 1 2 / 2 0 1 0

F O L H A

2 D E

4


A L D O


S O N

A M P L I F I C A D O R ( 2 O H M S )

P R O D U T O

T 5 0 0 D X 1 _ R 9 _ C ( 1 R / 2 R )

2 2 u H

D5 MURS120T3

T A R A M P S A M


CP3 100nF/250V

100nF/250V

CP8

+ 2 9 ,2 1 + 3 4 , 6

O U T

2 2 , 3 7 V r m s 4 1 , 8 6 V r m s

+ / B

3 1 7 ,2 O V h d m c 5 2 0 , 5 O V h d m d s

MURS120T3

CP9

CP7

d B

D9

( -B )

1uF/250V R16

100nF/250V

10R 1W 2K2 R78 ( + B )

-

O U T

+

O B S : D A D O S O B T I D O S E M R E P O U S O À 1 2 , 6 0 V c c

C F E 3 C

1 0 u F / 2 5 V

4 7 R

8 K 2 1 % R 6 2

C 7

1 C 0 8 0 n F 4 K RR 7 5 9 6 0

3 n 3 5 %

* 4 K * * 7 *

4 K 7

+ 1 2 V

R 5 7

4 C 7 u F F / E 2 2 5 V

R 6 1

U C 3 5 2 5 A D W

R E M

G N D

( + B )

1 0 0 n F

1 0 0 n F

C 1 6

C 6

4 7 u F / 2 5 V R 5 5

1 K C F E 4 1 N 4 1 4 8

R 5 6

10nF

Q 1

C17

D 1 0

B C

E BCP56

E F M E E 1 C N 4 H T , A R 7 O A V P D c A c U L D S E O

6A10

2 7 R

R 5 3

R63

R54

R 6 5

2 7 R

4700uF 6K8 1% 4700uF

6K8 1%

IRF1404 C60 C47

C F 1 8 0 0 n F

R F 1 4

IRF1404 27R 1W

68nF

68nF

27R 1W R69

R68

1 K

U 1 6 2 0 R

U 1 6 2 0

+

-

R 2 4 47uF/25V C64

* * * *

* * * *

R 2 3

C63

47uF/25V

CP5

A R Q U I V O

D A T A

1 7 / 1 2 / 2 0 1 0

F O L H A

3 D E

4


A L D O


S O N

F O N T E

P R O D U T O

T 5 0 0 D X 1 _ R 9 _ C ( 1 R / 2 R )

100nF D2 15V 1W

100nF CP6 D1

P S A M


RF28

RF27

15K 1W

15K 1W

15V 1W

T A R A M

R C E O P N O S U U S M O O

1 0 0 0 u F / 6 3 V

1 0 0 0 u F / 6 3 V

7 5 3 0 ,7 m 2 A

8 8 0 m A

( -B )

( + B )

+ / B

5 0 , 5

R 6 0

R 2 4

R 2 3

7 3 K 1 %

6 8 0 R 3 W

6 8 0 R 3 W

1 O h m

1 0 0 K 1 %

1 K 5 5 W

1 K 5 5 W

2 O h m s

1 Ohm

2 Ohms

R5

39K

44K2 1%

R23

680R-3W

1K5-5W

R24

680R-3W

1K5-5W

R25

220R-2W

820R-3W

R34

2K2-2W

2K7-2W

R43

22K 1%

13K3 1%

R46

100K 1%

120K

R60

73K 1%

R79

2K2-2W

100K 1% 2K7-2W

DZ2

BZX79C15

BZX79C30

DZ3

BZX79C56

BZX79C62

+/- B CONSUMO REPOUSO

37,2

50,5

750mA

880mA

T A R A M P S A M P LI F I C A D O R E S PRODUTO

REV

T500D X1_R9_C (1R / 2R) FOLHA

BLOCO

CONFIGURAÇÕES

A 4 PROJETO

DESENHO

GIVA L DO DATA ARQUIVO

A DIL SON

17/12/2010

FOLHA 4 DE 4

G N D

1 1 0 4 0 u 7 F R K

1 0 0 n F

3 n 3

4 K 7

4 K 7 1 0 0 n F

2 2 0 u F / 3 5 V

1 0 0 n F

4 K 7

SG3525

1 K 1 N 4 1 4 8

B D 1 3 9

10nF

1 0 0 n F

R E M

1 K

27R 27R 6K8

6K8

6A10

IRF1404

68nF

27R

4700uF

27R 1W

IRF1404

6K8

6K8

27R 1W 68nF

M M T -4 5 1 4

F O L H A 3 D E 3

D A T A F r i M a y 2 8 , 2 0 1 0

G I V A L D O

P R O J E T O

D E S E N H A O D I L S O N

F O L H A B L F O O C N O T E C H A V E A D A

T A R A M P S E L E T R O N I C A L R T E D V A 3 . . 0 . P R O D U T O A M P L I F I C A D O R T 7 0 0 A B

27R

IRF1404

IRF1404 68nF

A R Q U I V O

27R 1W

68nF 4700uF

# 4 e s p i r a s U 1 6 2 0 R

1 K 2 5 W

-

+

100nF

220uF/35V

1 K 2 5 W 15V

15V

100nF

100nF

4 7 u F

4 7 u F

U 1 6 2 0

3 3 0 0 u F 1 0 0 V

3 3 0 0 u F 1 0 0 V

27R 1W

1 N 4 9 3 7

+ 1 2 V

( N R I C P A U ) T

0 °

R

L

2 K 7

2 K 7

4R7 1W

33pF

1K5

10K

2 2 K 1 %

2 2 K 1 %

22K 1% 2 2 K 1 %

5 5 3 2

6K8

3 3 p F

NTC 10K 100uF 25V

100uF 25V

C I 4 : B T L 0 7 2

4 ,7 u F

T E M P E R A T U R A

1 8 0 °

1 K 2

1K

1 N 4 1 4 8

C I 1 : B

1 0 0 n F

3 3 p F

5 5 3 2

47K

3 n 3

3 0 K 1 %

82K

120K

1N4148

47uF 25V

C I 2 : A

3n3

3 0 K 1 %

C I 3 A T :

T I M E

L 0 7 2

1 0 0 K

4 ,7 u F

T L 0 7 2

H P F ( 5 0 0 H z a 2 .2 K H z )

0 ° 4 1 K 2 1 %

4 K 7

P R O T

V O L U M E

100nF

0 °

100K 22K

2 2 K

O N

T L 0 7 2

C I 3 : B

1 0 0 K

1 N 4 1 4 8

A R Q U I V O

D A T A

G I F V r i A M L D a y O 2 8 , 2 0 1 0

F O L H A 1 D E

3

P R O J E T O


F O L H A

P R E -A M P L I F I C A D O R

B L O C O

T A R A M P A M S P L E I F I L C E A D T O R R T O 7 0 N 0 I A C B A L R T E D V A 3 . . 0 . P R O D U T O

6 K 8 6 8 K

B C 6 4 0

100K 1uF

10K

10K

T L 0 7 2

C I 2 : B

2 K 2 C L I P

C L I P

0 °

47uF

100K

47uF

2 K 2

1 5 0 p F

2 K 2 100K

B

4K7 1K8

T L 0 7 2

C I 4 : A

B

100R

C

1 0 K

100R

E

47V

KSP93

2 ,2 u F 6 3 V

KSP93

100R

E

C

47V

KSP43 KSP43

100R

100nF

E

C

100nF

B

1K8

C

E

B

2K7 2W

2K7 2W 47uF 50V

3K3

1N4148

3 3 K

47uF 50V 1N4148

B

1 0 0 K

390R 1%

B

100R 1W

C

390R 1%

C

E

E

15032

47uF 100V

4 7 p F

4 7 p F

15033

BD139

1N4002

1N4002

10K

10K 470nF/250V

220R

1 0 n F

VM

220R

4 7 u F

B

47uF 100V

47uF

3

C

2 E

1

BD140

BD139

1 K

6N139

4 7 R 1 W

1 0 0 R

2 K 7

2 K 7

100K

10R 1W

22uF/25V 10R 1W 100R 5W

15033

4R7

10R 2W 4R7

0R47 5W

4R7

0R47 5W

0R47 5W

4R7

F O L H A 2 D E 3

F r i M a y 2 8 , 2 0 1 0

G I V A L D O


E T A P A D E S A I D A

220nF/250V

FJL4315

4R7

FJL4215

T A R A M P S E L E T R O N I C A L R T E D V A 3 . . 0 .

FJL4315

4R7

0R47 5W

FJL4215

F P O R L O H D A U T B O L O A C M O P L I F I C A D O R T 7 0 0 A B

15032

4R7

FJL4215

P R O J E T O

4 7 R 1 W

4 7 R

1 0 u F / 2 5 V

1 0 0 R 1 n F

D A T A

1N4002

4 7 R

100nF

A R Q U I V O

1 0 n F

FJL4315

4R7

0R47 5W

FJL4215

1 0 R 5 W

1N5404

0R47 5W

100R 5W

0 . 0 8 u H

FJL4315

1N5404

220nF/250V 100R 1W

1 0 0 n F

100nF 250V

J 1 R C 2

1 N 4 0 0 2 s 3 o 7 b , r 6 e V 2 r m R s @ 7 0 6 W r m s

O U T -

+

0 °

1 0 0 p F

T E R R A 5 0 K H Z

1 0 0 p F

1 0 0 n F

1 u F

T E R R A T E R R A

1 0 0 -1 n 5 F V

T L 0 7 2

3 9 K

+ 1 5 V T E R R A

T E R R A

1 n F

100nF

T E R R A

+ 1 5 V

-1 5 V T E R R A

100nF

T E R R A

T E R R A

T E R R A

T E R R A

+ 1 5 V

1 0 0 n F

100nF

6 n 8

1 0 0 n F

+ 1 5 V T E 100nF R R A

-1 5 V

T E R R A

1 0 0 n F

6n8 T E R R A

+ 5 V

1 0 0 n F

+ 5 V

T E R R A T E R R A P I N O _ 1 0 _ I R # 2

P I N O _ 1 2 _ I R # 2

1 0 0 n F

220nF

T E R R A

T E R R A

T E R R A

1 0 0 n F

T E R R A

P I N O _ 1 0 _ I R # 1

P I N O _ 1 2 _ I R # 1

4 7 p F

-1 5 V

T E R R A

T E R R A

+ 1 5 V

-1 5 V

1 0 0 n F

+ 1 5 1 V n -1 5 V

F

T E R R A

100nF

1 0 0 n F

2 2 0 n F

( L E a N d T o R n A e D g A a t i v P o O ) N T E H

( L E a N d T o R p A o D s A i t i v P o O ) N T E H

( D A F O N T E )

(DO PRÉ)

+ 2 0 V

P I N O _ 1 0 _ I R # 2

(DO PRÉ)

P I N O _ 1 2 _ I R # 2

P I N O _ 1 0 _ I R # 1

P I N O _ 1 2 _ I R # 1

( D A F O N T E )

( D A F O N T E )

( D A F O N T E )

S H U

+ 5 V

+ B

T D O W N

0 R 0 5 5 W 2 2 0 n F

1K 100pF T E R R A

T E R R A

100pF T E R R A

100pF

7 8 1 2

100nF

T E R R A

100pF

47uF

IR2010

IR2010

100nF

1 0 u F

100nF

T E R R A

100nF

47uF 100nF

4R7

4R7

100K

15V

47uF 15V

10uF

10uF

+ B -I R

T E R R A

15V

BYV27-200

BYV27-200

100K

1 N 4 1 4 8

1 N 4 1 4 8

2 7 R

1 N 4 1 4 8

2 7 R

1 N 4 1 4 8

2 7 R

10K

10K

10K

2 7 R

10K 15V T E R R A

15V 1

1

T E R R A

2

3

2

3

5 2 N 1 5

5 2 N 1 5

100K

15V

15V

1

3

1

2

6,8uF 100V

5 2 N 1 5

6,8uF 100V

100K

3 2 u H

3 2 u H

1uF 250V

2K7 5W

1 n F 2 5 0 V

2K7 5W

1 n F 2 5 0 V

T E R R A

+

+ S A I D A

-

-

2

3

5 2 N 1 5

+B2

0 R 0 5 5 W

G N D B A T .

R E M O T E

+ 1 2 V D C

REMOTE

6A10 T E R R A

4700uF 25V 4700uF 25V + 1 2 V

GATE_A GATE_B T E R R A

1 0 R

T E R R A T E R R A

1 0 R 4 R 7

IRF14044 6 8 n F

T E R R A

1 0 R

T E R R A

IRF1404

T E R R A

I R F 1 4 0 4

R 7

1K

T E R R A

6 8 n F

1K

6 8 n F

1 0 R 4 R 7 T E R R A

I R F 1 4 0 4

4 R 7

6 8 n F

T E R R A

1 N 4 9 3 7

U 1 6 2 0 R

1 N 4 9 3 7 + 2 0 V

470uF 35V

U 1 6 2 0

470uF 35V

1 0 0 n F I N

470uF 100V 470uF 100V T E R R A

T E R R A

E

T E R R A

GND

C

O U T

470uF 100V 470uF 100V

1 0 0 n F

S

100uF

100uF

+ B -1 5 V

+ 1 5 V

( P / S A Í D A )

( P / P R É )

S H U T D O W N

5 P 0 I K N H O Z _ 1 2 _ I R # 2

100nF

1K

10K

R E M O T E

+ 1 2 V

1 N 4 1 4 8

220uF 35V

2 1 3

BC327 100nF B

O N

T E R R A

330R C L I P

T E R R A

330R

P R O T

P I C 1 6 F 6 1 6

M C 1 1 0 0 u F

C E

E

B C 3 3 7

B D 1 4 0

B C

1 0 0 n F

100nF

330R TERRA

220uF 1K E

6 n 8

T E R R A

2K2 1%

1K 100nF 1K 1% T E R R A

B Y V 2 7 -2 0 0

C

S

6K8 2K2 1%

100nF 1 0 K

+ 5 V

+ B -I R

47uF

1 0 0 n F

+ B

1nF 6 N 1 3 9

2 2 0 n F

T E R R A

100nF

1nF + B 2

47uF T E R R A

100nF

G A T E _ B

G A T E _ A

1 0 0 p F

T E R R A 5 0 K H Z

1 0 0 p F

1 0 0 n F

1 u F

T E R R A T E R R A

1 0 0 -1 n 5 F V

T L 0 7 2

3 9 K

+ 1 5 V T E R R A

T E R R A

1 n F

100nF

T E R R A

+ 1 5 V

-1 5 V T E R R A

100nF

T E R R A

T E R R A

T E R R A

T E R R A

+ 1 5 V

1 0 0 n F

P I N O _ 1 2 _ I R # 2

220nF

T E R R A

T E R R A

T E R R A

P I N O _ 1 0 _ I R # 2

1 0 0 n F

100nF

T E R R A

1 0 0 n F

1 0 0 n F

T E R R A

T E R R A

+ 5 V

P I N O _ 1 0 _ I R # 1

P I N O _ 1 2 _ I R # 1

1 0 0 p F

-1 5 V

T E R R A

T E R R A

+ 1 5 V

-1 5 V

1 0 0 n F

+ 5 V

6 n 8

1 0 0 n F

+ 1 5 V T E 100nF R R A

-1 5 V

6n8

T E R R A T E R R A

1 0 0 n F

+ 1 5 1 V n -1 5 V

F

T E R R A

100nF

1 0 0 n F

2 2 0 n F


( L E a N d T o R p A o D s A i t i v P o O ) N T E H

( D A F O N T E )

(DO PRÉ)

+ 2 0 V

P I N O _ 1 0 _ I R # 2

(DO PRÉ)

P I N O _ 1 2 _ I R # 2

P I N O _ 1 0 _ I R # 1

P I N O _ 1 2 _ I R # 1

( D A F O N T E )

( D A F O N T E )

( D A F O N T E )

S H U

+ 5 V

+ B

T D O W N

S H U N T 2 2 0 n F

1K 120pF T E R R A

T E R R A

120pF T E R R A

120pF

7 8 1 2

100nF

T E R R A

120pF

47uF

IR2010

IR2010

100nF

1 0 u F

100nF

T E R R A

100nF

47uF 100nF

4R7 15V

1 N 4 1 4 8

15V

BYV27-200

1 N 4 1 4 8

1 N 4 1 4 8

4 7 R

BYV27-200

1 N 4 1 4 8

4 7 R

4 7 R

10K

10K

10K

15V

4R7

4 7 R

47uF

10uF

10uF

+ B -I R

T E R R A

10K 15V T E R R A

G

15V

G

D

15V T E R R A

D

S

S

5 2 N 1 5

5 2 N 1 5

15V

G

D

D

S

S

5 2 N 1 5

5 2 N 1 5

6,8uF 250V

6,8uF 250V

3 2 u H

3 2 u H

2,2uF 250V

2K7 5W

1 n F 2 5 0 V

1 n F 2 5 0 V

T E R R A

+

S A I D A

-

G

2K7 5W

+B2

G N D

R E M

+ 1 2 V T E R R A

R E M O T E T E R R A

T E R R A

+ 1 2 V

6A10

6A10

T E R R A

G A T E _ B

G A T E _ A

A C 3

A C 2

F E P 1 6 D T A

T E R R A

F E P 1 6 D T

1500uF 200V

1 N 4 9 3 7

+ B

1 N 4 9 3 7 + 2 0 V

470uF 35V

470uF 35V

1 0 0 n F

1 0 0 n F E

T E R R A

E

T E R R A

C

C S

S

100uF

100uF

-1 5 V

+ 1 5 V

( P / S A Í D A )

( P / P R É )

S H U T D O W N

5 0 K H Z

R E M O T E

+ 1 2 V

P I N O _ 1 2 _ I R # 2

100nF 1 N 4 1 4 8

220uF 35V 1K

10K

2 1 3

BC327

B

T E R R A

O N 100nF

330R T E R R A

C L I P

P R O T

330R

P I C 1 6 F 6 1 6

M C 1

C

E

E

B C 3 3 7

B D 1 4 0

B C

1 0 0 n F

100nF

330R TERRA

220uF 1K 6 n 8

E

2K2 1%

1K 100nF 1K 1% T E R R A

B Y V 2 7 -2 0 0

C

T E R R A

S

RB 100nF 2K2 1% 100uF

100nF + 5 V

R A

+ B -I R

47uF

1 0 0 n F

+ B

1nF 6 N 1 3 9

2 2 0 n F

T E R R A

100nF

1nF + B 2

47uF T E R R A

100nF

G A T E _ B

G A T E _ A

( D O P I C )

T E R R A

5 0 K H Z

22K 1%

1 0 0 n F

T E R R A T E R R A

100nF

-1 5 V

100nF

T L 0 7 2

2 K 2

T E R R A

T L 0 7 2

+ 1 1 5 5 V V

3 9 + K

3K3

3K3

+ 1 5 V

+ 1 5 V

T L 0 7 2

-1 5 V

T E R R A

100nF

100nF

T E R R A

+ 1 5 V 1

100nF

100nF

100K

T E R R A

+ 1 5 V

CROSSOVER T L 0 7 2

T E R R A

1 0 0 n F

1 5 n F

T E R R A

T L 0 7 2

-1 5 V

T E R R A

+ 5 V

1 0 0 n F

T E R R A

+ 5 V

T E R R A

100nF

100nF

47K

47K

220R

+ 1 5 V

-1 5 V

15nF

+ 1 5 V

8 K 2 P I N O _ 1 2 _ I R # 2

P I N O _ 1 0 _ I R # 1

P I N O _ 1 2 _ I R # 1

T E R R A T E R R A T E R R A

A R Q U I V O

D A T A

{ D a t e }

F O L H A

P R O J E T O

G I V A L D O

D E S E N H O

F r i J a 1 n A 0 D D 7 I L E ,2 S 0 O 4 1 N 1


P R O D U T O

A M P L . D I P G R I T É A L T 2 0 0 0 R 1 0

R E V


100nF

100nF

-1 5 V + 1 5 V

-1 5 V

T L 0 7 2

+ 1 5 V

1 n F

220nF

13K3 1%

T L 0 7 2

T E R R A

P I N O _ 1 0 _ I R # 2

T L 0 7 2

-1 5 V

T E R R A

T E R R A

C I 2 : A

T L 0 7 2

1 0 0 p F

-1 5 V

T E R R A

T L 0 7 2

1 0 0 p F

+ 1 5 V

-1 5 V

T E R R A

T E R R A

2 2 K 1 %

T E R R A

1 n F

T E R R A

470R

C I 1 : A

1 u F

1 5 V

-1 5 V

2 2 2 2 K K 1 1 % %

1 0 0 p F

3 0 K 1 %

220R

100nF C I 3 : A

1 0 0 n F

2 2 0 n F

1 3 K 3 1 % S U B 1 S 0 O 0 N K I C O

( D A F O N T E )

(D O P RÉ RÉ )

+ 2 0 V

2 2 0 n F

( L E a N d T o R n A e D g A a t i P v o O ) N T E H

( L E a N d T o R p A o D s i A t i v o P ) O N T E H

P I N O _ 1 0 _ I R # 2

(D O P RÉ RÉ )

P I N O _ 1 2 _ I R # 2

P I N O _ 1 0 _ I R # 1

P I N O _ 1 2 _ I R # 1

( D A F O N T E )

( D A F O N T E )

( D A F O N T E )

S H U T D O W N

+ 5 V

+ B

1K 120pF T E R R A

120pF T E R R A

120pF

100nF

T E R R A

120pF

47uF T E R R A

7 8 1 2

IR2010

IR2010

100nF

100uF/50V

100nF

T E R R A

100nF

47uF 100nF

4R7 15V

1 N 4 1 4 8

15V

BYV27-200

1 N 4 1 4 8

1 N 4 1 4 8

4 7 R

BYV27-200

1 N 4 1 4 8

4 7 R

4 7 R

10K

10K

10K

+B2

15V

4R7

4 7 R

47uF

10uF

10uF

+ B -I R

T E R R A

10K 15V T E R R A

G

15V

G

D

15V T E R R A

D

S

S

D S

FET

FET

6,8uF 250V

A R Q U I V O

D A T A

{ D a t e }

F O L H A

P R O J E T O

G I V A L D O

D E S E N H O

F r i J a 2 n A 0 D D 7 I L E ,2 S 0 O 4 1 N 1


P R O D U T O

A M P L . D I S G A I T Í A D L A T 2 0 0 0 R 1 0

R E V

6,8uF 250V

3 2 u H

3 2 u H


2,2uF 250V

2K7 5W

1 n F 2 5 0 V

1 n F 2 5 0 V

T E R R A

+ S A I D A

-

G

D S

FET

FET

15V

G

2K7 5W

G N D

R E M

+ 1 2 V

1K

10R

R E M O T E T E R R A

6A10

IRFP4004

T E R R A

6 8 n F

6 8 n F 4 R 7 1 W

4 R 7 1 W

10R

T E R R A

+ 1 2 V

IRFP4004

T R 3

IRFP4004 6A10

4700uF 25V 10R 4700uF 25V

1K

IRFP4004

4700uF 25V 10R 4700uF 25V

4 R 7 1 W 6 8 n F

4 R 7 1 W 6 8 n F

T E R R A

4700uF 25V

G A T E _ B

G A T E _ A

A C 3

A C 2

F E P 1 6 D T A

F E P 1 6 D T

1500uF 200V 1500uF 200V T E R R A

A R Q U I V O

D A T A

P R O J E T O

G { D I V a A t e L } D O

F O L H A

D E S E N H O

F r i J a 3 n A 0 D D ,7 I L E 2 S 0 O 4 1 N 1


P R O D U T O

A M P L . D I F G O I T N A T L E T 2 0 0 0 R 1 0

R E V

1 N 4 9 3 7

+ B

1 N 4 9 3 7 + 2 0 V


470uF 35V

T E R R A T E R R A

15V

T E R R A

120R1W

T E R R A C

T E R R A

B

10uF/25V T E R R A

T E R R A

E

100nF

220uF/35V

B D 1 4 0

15V

120R 1W 2

T E R R A

3

10uF/25V T E R R A

T E R R A -1 5 V

470uF 35V

B D 1 3 9 1

100nF

220uF/35V

+ 1 5 V

( P / S A Í D A )

( P / P R É ) 5 0 K H Z

S H U T D O W N

P I N O _ 1 2 _ I R # 2

100nF 1 N 4 1 4 8

220uF 35V

1K

10K

R E M O T E

+ 1 2 V

2 1 3

BC327 B

100nF

O N

T E R R A

330R C L I P

T E R R A

330R

P R O T

P I C 1 6 F 6 1 6

M C 1

C

E

560R

10K E

B C 3 3 7

B D 1 4 0

B C

1 0 0 n F

100nF

330R TERRA

220uF 1K

E

1K 100nF 1K 1% T E R R A

RA

7 8 L 0 5

C

T E R R A

6 n 8

S

RB 100nF

2K2 1%

4 R 7 1 W

100uF 100nF + 5 V

R C

+ B -I R

47uF

+ B

100nF

1nF

RX

6 N 1 3 9

2 2 0 n F T E R R A

4 7 R

100nF 4 7 R

4 7 R

M C 3 3 1 5 2

1nF + B 2

47uF T E R R A

A R Q U I V O

D A T A

{ D a t e }

F O L H A

P R O J E T O

G I V A L D O

D E S E N H O



B Y V 2 7 -2 0 0

P R O D U T O

A M P L . D I D G S I P T A L T 2 0 0 0 R 1 0

R E V

100nF


G A T E _ B

G A T E _ A

47pF

4 7 p F

1 0 0 n F

1 0 0 n F

1 0 u F

T L 0 7 2

3 9 K

1 n F 4 7 p F

100nF 1 0 0 n F

1 0 0 n F

100nF 1 0 0 n F

220nF

100nF

6 n 8 2 2 u F

1 0 0 n F

1 0 0 n F

1 0 0 n F

1 0 0 n F

100nF

2 2 u F

1 0 0 n F

1 0 0 n F

6n8

1 n F

100nF

P G A I U V L A O L D ( L O A ( Y C O I R U C T U E I T S O Q ) . / P C I )


A M P L I F I C A D O R T 3 . 5 K W

1

4

3

1 0 0 n F

1 0 0 n F

2 2 0 n F

B ( D A O I X A D T S P E / N F S O Ã N O T ) E

B ( D A O I X A D T S P E / N F (DO PRÉ) S O Ã N O T ) E

(DO PRÉ)


C ( D A O P A B C A N I T C I V O O )

2 2 0 n F

100nF

100nF

47uF

47uF

100nF

100nF

47uF 1 0 0 u F

100nF

47uF 100nF

15V

15V

15V

15V

BYV27-200

15V

15V

1

3

3

2

3

1nF 250V

1nF 250V

J U M P

1uF 400V



2

4

3

BYV27-200

1 2

3

6,8uF 250V

6,8uF 250V


15V

1

1 2

15V

10uF

10uF

+

S A I D A

-

2

S H U N T B ( f i o C u p r o t h a l 1 4 A W G 0 , 0 3 0 o h m s )

S H U N T A ( f i o C u p r o t h a l 1 4 A W G 0 , 0 3 0 o h m s )

100nF 1 N 4 1 4 8

220uF 35V

4 7 u F 4 7 u F

1 0 0 n F

1 0 0 n F

6 N 1 3 9

1 n F

100nF

100nF

100nF

2 2 0 n F

100nF

47uF

4 7 u F

6 n 8 C L I P

P R O T

1nF

1

B C 3 2 7

P W R

B

E

C E

B C 3 3 7

B C

T I P 4 2 C

100nF 2 2 0 u F

B Y V 2 7 -2 0 0

100nF 1 0 0 u F

1 0 0 n F

100nF

E S T A B . F O N T E ( A B R E P U L S O C O M 1 0 ,7 V / F E C H A P U L S O C O M 1 4 , 5 V )

3

2

4 7 u F 1 0 0 n F

6 N 1 3 9

1 n F

2 2 0 n F

1 N 4 9 3 7

1 N 4 9 3 7

470uF 35V

470uF 35V

100nF

1nF

47uF 1 0 0 n F

1 0 0 n F E

E C

C S

S

P G A I U V L A L O D ( L O A ( Y C O I R U C T U E I T S O Q ) . / P C I )

D S P / C O N T R O L E D A F O N T E


3

4

3

100uF

100nF

100nF

100uF

100nF

G N D

R E M

+ 1 2 V

6A10 6A10

U 1 6 2 0 R

U 1 6 2 0 R

U 1 6 2 0

5 x 1 5 0 0 u F 2 0 0 V




4

4

3

U 1 6 2 0

100pF

1 0 0 p F

1 0 0 n F

1 0 0 n F

1 u F

T L 0 7 2

3 9 K

1 n F 1 0 0 p F

100nF 1 0 0 n F

1 0 0 n F

100nF 1 0 0 n F

220nF

100nF

1 5 n F 2 2 u F

1 0 0 n F

1 0 0 n F

1 0 0 n F

1 0 0 n F

100nF

2 2 u F

1 0 0 n F

1 0 0 n F

15nF

1 n F

100nF



1 0 0 n F A M P L I F I C A D O R T 3 . 5 K W

1

4

4

1 0 0 n F

2 2 0 n F


(DO PRÉ)

(DO PRÉ)



C ( D A O P A B C A I N T C I V O O )

2 2 0 n F

100nF

100nF

47uF

1 0 0 u F

100nF

47uF

100nF

100nF

47uF

47uF 100nF

15V

10uF

15V

15V

15V

BYV27-200

15V

15V

1

3

2

3

2

3

1nF 250V

J U M P

1uF 400V


2

4

4

BYV27-200

1 2

3

6,8uF 250V

1nF 250V


15V

1

1

6,8uF 250V


15V

10uF

+

S A I D A ( 8 4 , 6 V R M S @ 2 o h m s )

-

2



100nF 1 N 4 1 4 8

220uF 35V

2 K 2 1 %

4 7 u F 4 7 u F

1K 1% 1 0 0 n F

1 0 0 n F

100R

6 N 1 3 9

1 n F

100nF 1 0 0 R

100nF

100nF

100nF

2 2 0 n F

4 7 R 1 %

1 0 0 R

1 0 u F

4 7 u F

47uF 6 n 8 C L I P

P R O T

1nF

1

B C 3 2 7

P W R

B

E

C

B C 3 3 7

E B C

T I P 4 2 C

100nF 2 2 0 u F

B Y V 2 7 -2 0 0

100nF

1 0 0 u F

1 0 0 n F

100nF

E S T A 4 B 7 .F K O N T E 8 ( K A 2 B R E P U L S O C O M 1 0 ,7 V / F E C H A P U L S O C O M 1 4 , 5 V )

3

2

4 7 u F 1 0 0 n F

100R 6 N 1 3 9

1 n F

100nF 1 0 0 R

2 2 0 n F

1 N 4 9 3 7

4 7 R 1 %

1 0 0 R

1nF

1 N 4 9 3 7

470uF 35V

470uF 35V 47uF

1 0 0 n F

1 0 0 n F E

E C

C S

S




3

4

4

100uF

100nF

100nF

100uF

100nF

G N D

R E M

+ 1 2 V

6A10 6A10

U 1 6 2 0 R

U 1 6 2 0 R

U 1 6 2 0

5 x 1 5 0 0 u F 2 0 0 V




4

4

4

1 6 4 V @ 1 2 , 6 V

U 1 6 2 0

47pF

4 7 p F

1 0 0 n F

1 0 0 n F

1 0 u F

T L 0 7 2

3 9 K

1 n F 4 7 p F

100nF 1 0 0 n F

1 0 0 n F

100nF 1 0 0 n F

220nF

100nF

6 n 8 2 2 u F

1 0 0 n F

1 0 0 n F

1 0 0 n F

1 0 0 n F

100nF

2 2 u F

1 0 0 n F

1 0 0 n F

6n8

1 n F

100nF



1 0 0 n F A M P L I F I C A D O R T 4 . 5 K W

1

4

2

1 0 0 n F

2 2 0 n F


(DO PRÉ)

(DO PRÉ)




2 2 0 n F

100nF

100nF

47uF

1 0 0 u F

100nF

47uF

100nF

100nF

47uF

47uF 100nF

15V

10uF

15V

15V

15V

BYV27-200

15V

15V

1

3

2

3

2

1

3

6,8uF 250V

1nF 250V

JUMP 6,8uF 250V


2

4

2

+

S A I D A

+

BYV27-200

2

3

1nF 250V


15V

1

1

6,8uF 250V


15V

10uF

-

S A I D A

-

2



100nF 1 N 4 1 4 8

220uF 35V

4 7 u F 4 7 u F

1 0 0 n F

1 0 0 n F

6 N 1 3 9

1 n F

100nF

100nF

100nF

2 2 0 n F

100nF

E

C

C L I P

P R O T

P W R

B Y V 2 7 -2 0 0

100nF

1 0 0 u F

3

4 7 u F 1 0 0 n F

2 2 0 n F

100nF

1 N 4 9 3 7

1nF

1 N 4 9 3 7

470uF 35V

470uF 35V

1 0 0 n F




4

2

E

E C

C S

S

100uF

100nF

3

1 0 0 n F

100uF

100nF

C

T I P 4 2 C

2 2 0 u F

2

1 n F

B

100nF

1

6 N 1 3 9

E

B C 3 3 7

1 0 0 n F

100nF

B C 3 2 7

B

4 7 u F

47uF 6 n 8

1nF

E S T A B . F O N T E ( A B R E P U L S O C O M 1 0 ,7 V / F E C H A P U L S O C O M 1 4 , 5 V )

47uF

47uF

100nF

100nF

G N D

R E M

+ 1 2 V

6A10 6A10 6A10 6A10

U 1 6 2 0 R

U 1 6 2 0 R

U 1 6 2 0

6 x 1 5 0 0 u F 2 0 0 V




4

4

2

U 1 6 2 0

1 K 5 1 %

( D O D S P I C )

22K 1%

U 4 : T B L 0 7 2

3 9 K

22K

1 n F

470R

3K3

1 K

T L 0 7 2

1 K

U 5 : B

T L 0 7 2

1 K

1 K

1K 1 K

T L 0 7 2

220nF

U 5 : A

100nF

100nF

( P A R A I R S A I D A )

P R O J E T O

G 2 I 7 V / 1 A 0 L / 2 D 0 O 1 0

F O L H A

D E S E N H O



P R O D U T O

47K

U 3 : A

1 0 0 n F

2 2 0 n F

1 3 K 3 1 %

100nF

S U B S O N I C O

1 0 0 K

47K

U 3 : T B L 0 7 2

4 7 p F

6 8 n F

100nF + B 1 A 0 S d S B @ B O 5 O 0 S H T z


R41 5K 1%

2 2 K 1 %

R 2 6

1 0 K 1 %

R 2 7

R52

T L 0 7 2

U 6 : A

1 0 0 n F

R 1 2 2 0 8 K

T A R A M

1 0 0 n F

C C P P 2 1 1 4

N I C A L T D A

T L 0 7 2

U 2 : A

5 0 0 0 -1 o h m s 5 0 0 1 0 K -2 8 o h m s

R 4 6

C17 100nF

100nF C15

T L 0 7 2

U 6 : B

C P 1 2

4 7 n F

C P 1 5

C16

100pF C42

1 R 3 K 4 3 5 1 %

1 3 K R 3 4 1 4 %

FEED

T L 0 7 2 RF R55

100nF

T L 0 7 2

1 n F

1 3 R K 4 3 8 1 %

1 0 0 p F

5 0 0 0 -2 o h m s 5 0 0 0 -1 o h m

100K

HABILITA REALIMENTAÇÃO

100nF

U 7 : A

R49

U 2 : B

3 3 0 K 1 %

R53 4 7 n F

T L 0 7 2

1 R 0 3 K 9 1 %

R40 150K 1%

150K 1%

13K3 1% R54

R37 220K

3 3 R 0 4 K 3 1 %

1 5 C n P F 2 6

C 1 P 5 2 n 9 F

10K 1%

T A R A P M P S S P R T E E 5 L . E 0 K T W R R Ô 5

R E V

T L 0 7 2

CROSSOVER

100nF

10KB D A T A

1 3 K 3 1 %

100K

C I 1 0

C I 9

A R Q U I V O

3 9 K

T L 0 7 2 4 7 R

100nF

6 8 n F

l a d o p o s i t i v o

4 7 u F

U 1 : B

100nF

100nF

1 0 0 p F

1 0 K

1K U 4 : A

2 2 K 1 %

U 1 : T A L 0 LEVEL 7 2

100nF

3K3

2 2 K 1 %

100pF

2 K 2

100nF

2 K 7

2 2 K 1 %

1 0 0 n F

100nF

( R E C N A T R ) A D A 2 K 7

1 0 K

U 7 : B

R E A L I M E N T A Ç Ã O


(DO PRÉ)

(DO PRÉ)


2 2 0 n F

100nF

47uF

47uF

IR2010

IR2010

100nF

100nF

47uF 1 0 0 u F

100nF

47uF 100nF

15V

15V

10K

15V

BYV27-200

27R

27R

10K BYV27-200

15V

10K

BYV27-200

15V

15V

1

3

P R O J E T O

G 2 I 7 V / 1 A 0 L / 2 D 0 O 1 0

F O L H A

D E S E N H O



P R O D U T O

2

3

9 0 N 2 0 D

2

1 2

9 0 N 2 0 D

3

9 0 N 2 0 D

15V

1

1

3

6,8uF 250V

3 2 u H

N I C A

R E V

3 2 u H

T A R A M

T A R A P M P S S S A T E L Í D 5 . E A 0 K T W R R Ô 5

L T D A

27R

BYV27-200

6,8uF 250V

D A T A

BYV27-200

10K BYV27-200

A R Q U I V O

15V

10uF

10uF

27R


1K

100nF

7 8 1 2


1nF 250V

1nF 250V

2K7 5W

2K7 5W

JUMP 6,8uF 250V

+

S A I D A

+

1 7 0 6 1 ,7 , 5 V V R R MM S S @ @ 1 2 o o h h mm s

-

S A I D A

-

2

9 0 N 2 0 D



1K 100nF 2 1 O O H H MM S : : 3 4 9 7 K K

2 K 2 1 %

4 7 u F 4 7 u F

1K 1% 1 0 0 n F

1 0 0 n F

RY

6 N 1 3 9

1 n F 2 1 O O H H MM S : : 4 8 7 2 R R

1 K

1 0 u F

1K 1%

100nF

100nF

100nF

D S P 1

D S P

2 2 0 n F

2 1 O O H H MM S : : 3 1 K 0 9 K

220uF 35V

R A

1K

1K

B

2 1

R O O X H H

MM S : : A A B B R R E E O O P P U U L L S S O O E E M M 1 1 0 0 ,7 , V 5 V E F E C H A C O M 1 4 , 6 V

E

C

560R

E B C

2R2

2 2 0 u F

7 8 0 5

7 8 0 5

1 0 0 u F

1 0 0 n F

2R2 BC327 3

1 2

10K

47uF

100nF

3 3 0 R

RY 2 1 O O H H MM S : : 4 8 7 2 R R

6 N 1 3 9

1 n F

2 2 0 n F

P R O T

3 3 0 R

3 3 0 R

C L I P

P W R

4 7 R

A R Q U I V O

D A T A

P R O J E T O

G 2 I 7 V / 1 A 0 L / 2 D 0 O 1 0

F O L H A

D E S E N H O



P R O D U T O

T A R A M

T A R A P M P S S D S T E P 5 L . E 0 K T W R R Ô 5 N I C A

R E V

C O N 4

L T D A

3 R 3 1 0 R 1 1

R 3 1 3 1 0 3 R

3 R 3 1 0 3 R 6

M C 3 3 1 5 2

100nF

1 N 4 9 3 7

1 N 4 9 3 7

1000uF 35V

1000uF 35V

100nF C

47uF

M O N I T O R

7 9 L 1 5

E

100nF

C

S

E

7 8 L 1 5

220uF/35V

220uF/35V

100nF

100nF

S

M C 3 3 1 5 2 47uF

100nF

B Y V 2 7 -2 0 0

4 R 7 1 W

100nF

47uF

100nF

T I P 4 2 C

100nF

47uF 6 n 8

10K

B C 3 3 7

1K 4 7 R

1 N 4 1 4 8

G N D

R E M

+ 1 2 V

1K

6 8 n F

10R

4 R 7 1 W

IRF1404

6 8 n F 4 R 7 1 W

1K

10R

6 8 n F 4 R 7 1 W

IRF1404 10R

10R

IRF1404

6A10

6 8 n F 4 R 7 1 W

IRF1404

6A10

IRF1404

6A10

IRF1404 T R 3

6A10

4700uF 25V 4700uF 25V 4700uF 25V

10R 4 R 7 1 W

IRF1404

1K

10R

1K

4 R 7 1 W

6 8 n F

6 8 n F

6 8 n F 4 R 7 1 W

6 8 n F 4 R 7 1 W

T R 4

10R IRF1404

10R

4 R 7 1 W

4 R 7 1 W

6 8 n F

6 8 n F

6 8 n F

6 8 n F

4700uF 25V 4700uF 25V 4700uF 25V

10R

4700uF 25V IRF1404 4700uF 25V

10R IRF1404 10R

10R

4700uF 25V

IRF1404

4 R 7 1 W

4 R 7 1 W

IRF1404

4700uF 25V IRF1404

4700uF 25V 4700uF 25V

10R

4700uF 25V

IRF1404 T R 6 4 R 7 1 W

IRF1404

6 8 n F

4700uF 25V 10R 4700uF 25V

10R IRF1404

4 R 7 1 W

10R

6 8 n F

T R 5 4 R 7 1 W

6 8 n F

4700uF 25V 4700uF 25V

U F 1 E 6 P 2 1 0 6 R D G T A

4700uF 25V

F U E 1 P 6 1 2 6 0 DR T G A

A R Q U I V O

D A T A

P R O J E T O

G 2 I 7 V / 1 A 0 L / 2 D 0 O 1 0

F O L H A

D E S E N H O



P R O D U T O

T A R A M

T A R A P M P S S F O T E N 5 L . T 0 E E K T W R R Ô 5 N I C A

R E V

L T D A

C O N S U M O

5 x 1 5 0 0 u F 2 0 0 V

+ B

3 ,4 1 0 3 A 1 V m p

T 1 5 O . h 0 K m W s

3 , 5 0 A m p

T 2 5 O . h 0 K m W s

1 6 3 V

U F 1 E 6 P 2 1 0 6 G D T

U F 1 E 6 P 2 1 0 6 G D T

4 R 7 1 W

6 8 n F

1K

1 N 4 1 4 8

100nF

2 2 K

2 K 2 1 %

1 K

C

1K 1%

1K

B

1 0 K

10uF

47uF

1K

2 2 K

560R

10K E

E

B C 3 3 7

1K

B C

100nF

47uF

100nF

1K

100nF

R X

R Y

T I P 4 2 C

100nF 220uF 35V

1 0 0 n F 6 N 1 3 9

2 2 0 n F

7 8 0 5

7 8 0 5

100nF

B Y V 2 7 -2 0 0

100uF

1 0 R 1 W

1K

4 7 R 1 %

R R Y X = = 4 1 7 0 R 0 1 R %

I R S 2 0 0 4

D S P 1

D S P

3 3 0 R

6 n 8

3 3 0 R

47uF

3 3 0 R

47uF 47uF

100nF

100nF

100nF

P R O T

1

P W R

C L I P

BC327 3 2

1N4148

1K

1 K

10K

2 10K 3

1

2 7 R

2 2 K

BC327

2 7 R

1

10K

B

1

2

2 2 0 u F 3 5 V

3

C

E

IRF540N

BC337

27R

1 0 n F

2 3

IRF540N

47uF

100nF

100nF

27R

T R 1

1 0 n F

I R 2 0 1 0

IR2010

1 1 N N 4 4 9 9 3 3 7 7 47uF 47uF

A D R A Q T U A I V O F r i A u g 2 7 , 2 0 1 0 F O L H A 3 D E 5

P R O J E T G O I V A L D O

D E S A E D N I L H S O O N

F O L H A B L O C O C O N T R O L E ( D S P )

P T R A O R D U A T O M T P A S R A E M P L S E T T 1 0 R . 9 K O W N I C A L R T E D V . A .

470uF 35V

470uF 35V 100nF

E

C

E

7 9 L 1 5

R E G 2

C

7 8 L 1 5

S

100uF

100nF

100nF

1 0 0 n F

1 0 0 n F

R E G 1 S

100uF

100nF

B Y V 2 7 -2 0 0 1 0 R 1 W

6A10

6A10

6A10

4700uF 25V 68nF

4700uF 25V

1K

4 R 7 1 W

10R

4700uF 25V

IRF1404 10R

4R7 1W

4700uF 25V 68nF IRF1404 68nF

1K

4700uF 25V

4 R 7 1 W

10R

IRF1404 68nF

4700uF 25V

IRF1404

4R7 1W

10R

T R 2

4700uF 25V 10R

IRF1404 4R7 1W

68nF

4 R 7 1 W

4700uF 25V 10R

IRF1404 4700uF 25V

1K

68nF

IRF1404 68nF

68nF

4R7 1W

4700uF 25V

10R

4 R 7 1 W

10R IRF1404

4700uF 25V

4 R 7 1 W

10R 1K

TR7

IRF1404 4700uF 25V

10R 4R7 1W

68nF

68nF

4700uF 25V 10R 68nF

4 R 7 1 W

IRF1404

IRF1404

4700uF 25V

68nF

IRF1404 4700uF 25V

10R 4R7 1W

68nF

4R7 1W

10R

T R 3

IRF1404 4700uF 25V

4 R 7 1 W

IRF1404

4700uF 25V

IRF1404

10R

68nF

68nF 4R7 1W 4700uF 25V

68nF

10R

4 R 7 1 W

10R

IRF1404

4700uF 25V

4 R 7 1 W

10R

TR10 IRF1404

4700uF 25V 10R

4R7 1W

68nF 4700uF 25V 10R 68nF

4 R 7 1 W

68nF IRF1404 4700uF 25V IRF1404 68nF

IRF1404 4700uF 25V 10R

4R7 1W 10R 4R7 1W

68nF

4700uF 25V

T R 4

IRF1404

IRF1404

IRF1404 68nF

4R7 1W

68nF

10R IRF1404

4 R 7 1 W

10R

68nF

A R Q U I V O

F O L H A 5 D E 5

P R O J E T G O I F V r i A A L u D g O 2 7 , 2 0 1 0 D A T A


F O L H A B L O C O F O N T E

P T R A O R D U A T O M T P A S R A E M P L S E T T 1 0 R . 9 K O W N I C A L R T E D V . A .

4 R 7 1 W

10R

TR11



1 M

1 0 n F

(DO PRÉ)

(DO PRÉ)

G



D

S

C ( D A O P A B C A I N T C I V O O ) 0R22 5W

2 2 0 n F

0R22 5W

1K

2 2 0 n F

0R22 5W 1 N 4 1 4 8

0R22 5W

100nF 0R22 5W 0R22 5W

47uF 7 8 1 2

7 8 1 2

0R22 5W IR2010

IR2010 0R22 5W

100nF

100nF 10K

10K

47uF 4 7 u F

4 7 u F

10K

100nF

47uF

10K

100nF

15V

10uF

15V

15V

10uF

15V

BYV27-200

BYV27-200

27R 27R

27R

27R

BYV27-200

15V

1

15V

2 3

27R

1

15V

2 3

27R

90N20D

BYV27-200

90N20D

15V

90N20D

15V

2

27R

90N20D

BYV27-200

90N20D

15V

2

1

15V

2 3

90N20D

90N20D

6,8uF 250V

6,8uF 250V

6,8uF 250V

6,8uF 250V

F O L H A 2 D E 5

P R O J E T G O I F V r i A A L u D g O 2 7 , 2 0 1 0 D A T A


F O L H A B L O C O

S A Í D A

T A R A M P S E L E T R O N I C A L R T E D V . A .

P R O D U T O T A R A M P S T 1 0 . 9 K W

6,8uF 250V

JUMPER_FIO 2 K 7 5 W

S A I D A ( + )

2 3

90N20D

6,8uF 250V

A R Q U I V O

90N20D

BYV27-200 1

3

90N20D

27R

90N20D

27R

2 3

BYV27-200

15V

2

15V

2

1

3

1

3

BYV27-200 1

90N20D

BYV27-200 1

3

2

3

27R

BYV27-200

15V

2 3

15V

2

1

1

15V

3

27R

BYV27-200 1

27R

BYV27-200

BYV27-200 1

BYV27-200

1 n F 2 5 0 V

2,2uF 400V

2 K 7 5 W

2,2uF 400V 2,2uF 400V

1 n F 2 5 0 V S A I D A ( )

U1620

U1620

U1620 1000uF 250V

U1620

U1620

1000uF 250V U1620

U1620

U1620

U1620

U1620

U1620

U1620

TARAMPS ELETRONICA LTDA.

FONTE (FILTRAGEM)

1 8

9

( R E N C T A R ) A D A

1 7

1 0 0 n F

2 K 2

220pF

T L 0 7 2

1 0 0 n F

3 9 K

C I 1 : B

1 n F

1 0 0 n F

100nF 470R 3K3

100K

4K7

1 0 0 n F

1 K

1 K

1 0 0 n F

8K2

C I 5 : A

1 K

4 R 7

4 R 7

1 0 0 n F

C I 7

4 R 7

1 0 0 n F

1 0 0 n F

C I 6

1K

1 0 0 n F

100nF

4,7uF

4 K 7

1 0 0 n F

1 n F

100nF

560R

560R

C I 8 : B

C I 8 : A

C I 8 : D 1 0 0 n F

D A V I / G I V A L D O / P A U L O

P R É A M P L I F I C A D O R

A M P L I F I C A D O R T 1 0 . 2 K W

1

4

6 . 0

9

8

7

50K

50K

6n8

1 0 0 n F

C I 8 : C

T L 0 7 2

CROSSOVER

6 n 8

4 R 7

T L 0 7 2

220nF

1K

1 K

6

3

1 0 0 K

2 2 0 p F

20K

100K

1K

C I 4 : A

T L 0 C 7 2 I 1 : A

2 0 K

T L 0 7 2

1 K

2 2 K

GANHO

3K3

100nF

2 2 K

1 2 K

1K

100nF

C I 3 : A

1 0 0 n F

C I 2 : A

2 2 0 n F

8 K 2

S U B 1 S 0 O 0 N K I C O

1 0

9

7

8

6

5

2

3

1

0R10 5W 0R10 5W

2 2 0 n F

2 2 0 n F

0R10 5W

1K

0R10 5W 100nF 0R10 5W 0R10 5W

47uF

7 8 1 2

7 8 1 2

0R10 5W IR2010

IR2010 0R10 5W

100nF

1 0 u F

1 0 u F

0R10 5W

100nF 10K

10K 47uF

0R10 5W

47uF 10K

10K 100nF

100nF

15V

15V

15V

10uF

10uF

15V

BYV27-200

BYV27-200

27R 27R

27R

27R

BYV27-200 BYV27-200 15V 27R

15V

2

3

27R

BYV27-200

27R

BYV27-200

3

15V

2

1

15V

2

3

90N20D

90N20D

6,8uF 250V

6,8uF 250V

6,8uF 250V

6,8uF 250V

6,8uF 250V

6,8uF 250V

6,8uF 250V


S A Í D A

A M P L I F I C A D O R T 1 0 . 2 K W

2

4

6 . 0

S A I D A

1 n F 2 5 0 V

1 n F 2 5 0 V

2

3

BYV27-200

3

90N20D

2K7 5W

1

1

15V 3

2

27R 90N20D

90N20D

BYV27-200

15V

90N20D

BYV27-200 2

3

1 2

3

27R 90N20D

1

15V

90N20D

1

15V

2

90N20D

BYV27-200 2

3

27R

90N20D

3

27R

1

15V

1

15V

15V

90N20D

BYV27-200

1

1 2

3

27R

90N20D

BYV27-200

1

15V

2

3

BYV27-200

BYV27-200

1

2K7 5W

S A I D A

2

2

1

1 1

1 2

5

1K

1 N 4 1 4 8

100nF

2 2 K 1K

2 2 K

47uF

1 0 0 R

1 0 0 n F

E

2 K 2 1 %

1K 1%

8 K 2

1 K 1K

C

B C 3 3 7

1K 100nF

100nF

1K

B

560R

10K E B C

T I P 4 2 C

100nF

100nF

100nF

47uF

4 N 2 5

I R S 2 0 0 4

D S P

1 0 0 n F

B Y V 2 7 -2 0 0

7 8 0 5

B Y V 2 7 -2 0 0

100nF 1K

3 3 0 R

6 n 8

3 3 3 3 0 0 R R

47uF

100nF

100nF

P R O T

C L I P

2 2 0 u F 3 5 V

2 7 R 1

IRFZ48N

4 7 u F

27R

1 0 n F

1 0 u F

1 0 0 n F

P W R

2 7 R 1

2

3

4 7 u F

47uF

1 R

3

2

IRFZ48N 27R

1 0 n F

T R 1

I R 2 0 1 0 1 N 4 9 3 7

I R 2 0 1 0

1 N 4 9 3 7 47uF 47uF

220uF 35V

220uF 35V

100nF


D S P E F O N T E 1 5 + 1 5 V

A M P L I F I C A D O R T 1 0 .2 K W

2

4

6 . 0

100nF

2 2 0 n F

2 2 0 n F

7 9 1 2

7 8 1 2

4 7 u F

4 7 u F

100nF

100nF

1 8

1 7

1 0

9 8

1 6

1 5

1 4

1 3

3

R E M

1 2

68nF 1K

10R

4 R 7

IRF1404 IRF1404

IRF1404 10R

6A10

6 8 n F

4R7

6A10

T R 5

6 8 n F

IRF1404

4R7

4 R 7

10R 68nF

10R

6 8 n F

1K

68nF

6 8 n F

6 8 n F

2 0 X 4 7 0 0 u F 2 5 V

4 R 7

IRF1404

IRF1404

10R

4 R 7

IRF1404 10R

4R7

T R 6

6 8 n F

IRF1404

4 R 7

10R 68nF

68nF

68nF 10R

68nF

4 R 7

10R

IRF1404

IRF1404

10R

IRF1404

4R7

T R 7

6 8 n F

IRF1404

4R7

T R 4

IRF1404

4 R 7 68nF

4 R 7

10R

1 1 6 5

F O N T E

4R7

4R7

10R

1 1

U 1 6 2 0 R

6 8 n F 6 8 n F

IRF1404

10R

A M P L I F I C A D O R T 1 0 .2 K W

4 R 7

10R

6 8 n F

IRF1404


T R 3

IRF1404

4 R 7

10R

4R7

4R7

10R

IRF1404

IRF1404

6 8 n F 6 8 n F

IRF1404 4R7

10R

10R

T R 2

IRF1404

4 R 7

10R

IRF1404

4R7

10R

IRF1404

10R

6 8 n F 6 8 n F

IRF1404 4R7

10R

1K

4 R 7

6A10

IRF1404 10R

6 8 n F

10R

1K

U 1 6 2 0 R

U 1 6 2 0 R

68nF

1 1 4 3

U 1 6 2 0 R

U 1 6 2 0

U 1 6 2 0

U 1 6 2 0

U 1 6 2 0

1 2 X 1 2 0 0 u F 2 0 0 V

4

4

6 . 0

1

G

2 2 u F

S

D

560pF

1 0 0 p F

5 6 0 p F

1uF 1 0 0 n F

1 0 0 n F

1 0 0 n F

T L 0 7 2

3 9 K

1 u F

1 0 0 n F

1 n F

2 2 0 p F

100nF

100nF 1 0 0 n F

220nF

100nF

6 n 8

1 0 0 n F

1 0 0 n F

1 0 0 n F

100nF

6n8 1 0 0 n F

1 0 0 n F

1 0 0 n F

1 n F

100nF

1 0 0 n F

1 0 0 n F

2 2 0 n F



1 0 n F

(DO PRÉ)

(DO PRÉ)

G

+ B


D

S

2 2 0 n F



2 2 0 n F

100nF 47uF

100nF

100nF

47uF 4 7 u F

100nF

4 7 u F

47uF 100nF

15V

15V

1

15V

2 3

1

15V

2 3

1

15V

15V

2

15V

2

15V

2

1

15V

2

2 3

1

15V

2

2

3

3

3

1

15V

2 3

2 3

6,8uF 250V

6,8uF 250V

6,8uF 250V

6,8uF 250V

6,8uF 250V

6,8uF 250V

2,2uF 400V 2,2uF 400V 1nF 250V 2,2uF 400V 1nF 250V

S A I D A

1

15V 2

1

3

BYV27-200

1

3

1

3

1

3

15V

15V

BYV27-200

1

15V

15V

10uF

10uF

S A I D A

1 9 3 V

T 1 4 .2

2 T 4 2 2 0 V . 2

100nF

1 N 4 1 4 8

R A 8 K 2

T 1 4 .2

B

2 T 2 2 K 0 .2

47uF

C

E

E

B C 3 3 7

10uF

B

C

47uF

T I P 4 2 C

100nF 100nF

100nF

100nF

220uF 35V

1 0 0 n F

2 2 0 n F R R Y X 4 5 T 7 6 R R 1 4 1 .2 1 % % 4 3 T 7 9 R R 2 1 1 0 % % .2

100nF

B Y V 2 7 -2 0 0

47uF

47uF

47uF

6 n 8

100uF

100nF

100nF

100nF P R O T 1

P W R

C L I P

BC327

3

2

1N4148

2 3

BC327

1

1 B E

1 2

2

3

C

2 2 0 u F 3 5 V

IRF540N

BC337

3

100nF

IRF540N

47uF

100nF

1 0 n F

1 0 n F

1 N 4 9 3 7

1 N 4 9 3 7

47uF 470uF 35V

470uF 35V

100nF 1 0 0 n F

1 0 0 n F E

E

C

C

S

100uF

100nF

S

100uF

100nF

47uF

100nF

B Y V 2 7 -2 0 0

U1620

U1620

U1620

U1620

U1620

U1620

U1620

U1620

U1620

U1620

U1620 A R Q U I V O

D A T A

P R O J E T O

{ { D E n a g t e i n } e e r }

F O L H A


P R O D U T O

{ T i t l e }

B A N C O _ C A P

D E S E N H O

F r i D A e 4 c D I 0 L D 9 S E , O 2 N 5 0 1 1

R E V


U1620

6A10 6A10 6A10

R

L ( N R I C P A U ) T

1 0 u F

( D O D S P I C )

100nF

1 K

1 K

1 0 0 K

J112

T L 0 7 2

6 K 8 1 %

C I 1 : B

100nF

LEVEL

L

1 0 0 n F

e e f n a e b d b l e a c k

1K 1 K

C I 5 : A T L 0 7 2

L

T L 0 7 2

4 K 7

C I 2 : T A L 0 7 2 4 7 R

1 0 0 n F

1 3 K 3 1 % 6 8 n F

100nF T L 0 7 2 C I 2 : B

D A T A

2 8 / 0 9 / 2 0 1 0

F O L H A


G I V A L D O

D E S E N H O

F r i A u 1 g A 0 D D 5 I L E , S 2 O 3 0 1 N 1

100nF

LOW PASS

100nF

A R Q U I V O

P R O D U T O

A M P L . T 2 P 0 . R 5 É K W R 4 B L O C O

R E V


F

1 n F

47K

47K

100nF

3 0 K 1 %

6 8 n F

C I 3 : B

100nF

T L 0 7 2

R48 4K99 1%

2 2 R K 4 1 5 %

1 R 0 4 K 9 1 %

C 8 P 2 1 n 0 F 8 2 n C F 1 R P 2 3 1 0 6 3

3 K 9 BASS BOOST

10KB

R52 10K 1%

C I 9 : A T K L 0 7 2

220K 1% R41 C I 9 : B T L 0 7 2

47uF/25V C37

1 0 R K 3 1 7 %

2 2 0 n F

220nF

(PARA IR SAIDA)


2 2 K 1 4 7 % p

1 0 0 n F

100K

(PARA IR SAIDA)

1 0 0 p F

4 7 u F

1K

1 K

1 5 K

22K

1 K

C I 4 : T A L 0 7 2

5 6 0 p F

1 K 1 %

100nF

C I 8 T : A L 0 7 2

2 2 K 1 %

1 3 K 3 1 %

D

S

100nF

C I 5 : B

C I 1 A T : L 0 7 2

G

1 3 K 3 1 %

T L 0 7 2

1 n F

T L 0 7 2

3K3

22K 1% 4 7 u F

C I 8 : B

100nF

3 9 K

2 3 2 K 2 2 K 1 1 % %

560pF

13K3 1%

C I 4 : B

2 K 7

1 M

1 0 0 K

100pF

1 1 3 3 K K 3 3 1 1 % %

OFFSET 470R 3K3

100pF

2 K 2

100nF

1 N 4 1 4 8

150K 1%

150K 1%

1 0 0 n F

100nF 100nF

2 K 7

3 9 0 K 1 %

3 9 0 K 1 %

1 0 u F

+ B 1 A 0 S d S B B @ O 8 O 0 S H T z

C I 3 : A T L 0 7 2

1 3 K 3 1 %

H I 1 G 0 H 0 K P A S S



1 M

(DO PRÉ) 1 0 n F

(DO PRÉ)


B ( D A O I X A D S T P E / N F S O Ã N O T ) E

G D

S

T 3 0 A / 2 5 0 V

T 3 0 A / 2 5 0 V

1K 2 2 0 n F

2 2 0 n F

1 2

1 2

7 8 1 2

3

7 8 1 2

100nF

47uF

1 N 4 1 4 8

IR2010

IR2010

0R22 10W

10K

0R22 10W

100nF

10K

10K 1 0 0 u F

1000uF 250V

47uF

3

100nF

1 0 0 u F

100nF

4 7 u F

100nF

100nF

18V 2 2 u F

0R22 10W

10K

4 7 u F

0R22 10W

1 8 V

0R22 10W

22uF 1N4937

0R22 10W

1N4937

0R22 10W 1N4937

18V

1N4937

18V

0R22 10W

27R 5 6 R 2 W

5 6 R 2 W

27R

27R

27R

BYV27-200

BYV27-200

BYV27-200

1

15V

C O O L E R -

C C C O O O O O O L L L E E E R R R - - -

C O O L E R +

C C C O O O O O O L L L E E E R R R + + +

6,8uF 250V

1

15V

2

1

15V

2

2

3

3

IRFP4768

IRFP4768

IRFP4768

27R

27R

BYV27-200

BYV27-200

15V

IRFP4768

BYV27-200

15V

5 6 K 2 W

BYV27-200 1

15V

2

1

15V

2

2

3

3

3

3

IRFP4768

IRFP4768

IRFP4768

IRFP4768

27R

27R

27R

27R

BYV27-200

BYV27-200

BYV27-200

BYV27-200

1

15V

1

15V

2

1

15V

2

A T

27R

1 2

2

3

27R

1

5 6 K 2 W

1

15V

3

6,8uF 250V 6,8uF 250V

BYV27-200

1

15V

2

2

3

3

3

3

IRFP4768

IRFP4768

IRFP4768

IRFP4768

6,8uF 250V

1N4007 2 0 u H

A R Q U I V O

D A T A

2 8 / 0 9 / 2 0 1 0

F O L H A


G I V A L D O

D E S E N H O

F r i A u 2 g A D I D 0 L 5 E , S O 2 3 0 1 N 1

B L O C O

S A Í D A

P R O D U T O

A M P L .T 2 0 . 5 K W R 4

R E V


1N4007

2 0 u H

6,8uF 250V

1N4007

2 K 7 5 W S A I D A +

1N4007

2,2uF 400V

2 K 7 5 W

2,2uF 400V 2,2uF 400V 1 n F 6 3 0 V

2 K 7 5 W 1 n F 6 3 0 V

6,8uF 250V

2 K 7 5 W S A I D A -

A L 1 I 2 M , 6 E V N c T c A Ç Ã O

4700uF 25V 4 7 0 0 u F 2 5 V

1N4007

100nF

1N4007

1K

1K

2 K 2 1 %

1K2 47uF

2 K 2 1 %

1 K

100nF

C

1K

1K 560R

E

B C 3 3 7

2 2 K 1 %

A Ç Ã O R F Á 1 P I D A

10K

E

3 3 K 1 %

10uF

47uF

B

1 N 4 1 4 8

B

C

T I P 4 2 C

1K 100nF

10uF 100nF 3 3 R 1 %

100nF

220uF 35V

100nF

1 0 0 n F

6 N 1 3 9

4 7 R

4 7 R 1 %

2 2 0 n F

D S P 1

D S P

T

E 3 1 S 3 0 T 0 K E R

1K

3 3 0 R

1

L H O G I W H T T E E N N S S I I O O N N : 6 : 0 2 1 V 0 V

2

I R S 2 0 0 4

3

100nF

47uF

3 3 0 R

47uF 100uF

47uF 100nF

6 n 8

100nF 100nF

1

BC327

3

2

1N4148

1K

10K

1 K 2 3

BC327

10K

1

2 7 R

2 7 R

3 3 3 3 3 3 0 0 0 R R R

2 2 0 u F 3 5 V

1

2 2 K

10K

2

1 2 3

3

B E

IRF540N

IRF540N C

C O N 3

10nF

INDICADOR

T R 1

B Y V 2 7 -2 0 0

A R Q U I V O

D A T A

2 8 / 0 9 / 2 0 1 0

F O L H A


G I V A L D O

D E S E N H O

F r i A u 3 g A D I D 0 L 5 E , S O 2 3 0 1 N 1

P R O D U T O

A M P L .T 2 D 0 . S 5 P K W R 4 B L O C O

R E V


27R

10nF

27R

BC337

B Y V 2 7 -2 0 0

470uF 35V

470uF 35V

100nF

100nF

E C

E

7 9 L 1 5

S

100uF

100nF

7 8 0 5

R E G 2

C

7 8 L 1 5

S

100uF

100nF

R E G 1

B Y V 2 7 -2 0 0

B Y V 2 7 -2 0 0

1 1 0 0 R R 1 1 W W

6 A

1 A 2 L V I M E N T A Ç Ã O

4700uF 25V

4 7 0 0 u F 2 5 V

100nF

1N4007

1K

2 K 2 1 %

1 K

3 9 K 1 %

10uF

1K2 47uF

100nF

47uF

1K

1 N 4 1 4 8

1K

F 1

B

C

560R

10K

B C 3 3 7

A 3 Ç A Ã O R Á P I D A

E

E

2 2 K 1 %

10uF 100nF

B C

T I P 4 2 C

100nF

1K

100nF

220uF 35V

1 0 0 n F

1 8 R

1K

2 K 2 1 %

100nF

1

6 N 1 3 9

2 7 R

2 2 0 n F

D S P

4 7 R 1 %

T E S T E

3 1 3 0 0 K R

1K

I R S 2 0 0 4

D S P 1

2

3

100nF

3 3 3 3 0 0 R R

47uF 47uF

47uF

6 n 8

100nF 100nF

100nF

1

BC327 3 2

1N4148

1 K

1K

10K

2

10K 3

1

2 7 R

2 2 K

BC327

10K

1

B

3 3 3 3 3 3 0 0 0 R R R

1

2

2 2 0 u F 3 5 V

3

C

E

2 7 R

IRF540N

BC337

2 3

IRF540N

27R

1 0 n F

C O N 3

27R

T R 1

1 0 n F

1 1 N N 4 4 9 9 3 3 7 7 470uF 35V

470uF 35V

G i v a l d o

E

C

D S P / C O N T R O L E 3

3

P a u l o

1

A M P L I F I C A D O R T 3 0 K W

1 0 0 n F

1 0 0 n F

7 9 L 1 5

S

100uF

100nF

R E G 2

E

C

7 8 L 1 5

100uF

100nF

S

R E G 1

7 8 0 5

100uF

B Y V 2 7 -2 0 0

1 0 R 1 W

B Y V 2 7 -2 0 0

1 0 R 1 W

R

4 7 0 K 1 %

2 K 7

4 7 0 K 1 %

2 3 K 2 1 %

180K 1%

180K 1%

100pF 1 0 0 p F

1 0 0 n F

2 K 2

100nF

100nF

3 9 K

OFFSET 470R

1 n F

100nF

4 7 u F

1 3 K 3 1 %

T L 0 7 2

100nF

1 K

1 K

D

1 K

1K 1 K

1 0 0 n F

LEVEL 22K 4 7 u F

C I 5 : A

4 K 7

L 1 0 0 n F

100K 1 3 K 3 1 %

(PARA IR SAIDA)


LOW PASS 47K

68nF

100nF A R Q U I V O

D A T A

P R O J E T O

G 0 I 6 V / 0 A 1 L / 2 D 0 O 1 0

F O L H A

D E S E N H O


F O A L 3 H A

P R O D U T O

B L O C O

T A R A M

T A R A P M P S S P R T E É 3 L 0 E K T W R R 2 Ô N I C A

R E V

L T D A

2 2 K 1 4 7 % p F

4 7 R

1 0 0 n F

(PARA IR SAIDA)

1 0 0 p F

100nF

T C L 0 I 7 2 A 2 :

L

1 5 K

1 K 1 %

1K

C I 4 : A

5 6 0 p F

100nF

e e f n a e b d b l a e c k

1 K

2 2 K 1 %

1 3 K 3 1 %

J 1 1 2

( D O D S P I C )

8 K 2

T L 0 7 2

2 2 K 1 %

T C L 0 I 7 1 A 2 :

1 0 0 K

S

3K3 100nF

22K 1%

G

100nF

3K3

560pF

1 M

1 0 0 K

1 3 K 3 1 %

13K3 1%

T L 0 7 2

1N4148 1 3 K 3 1 %

L ( R E C N A T R ) A D A 2 K 7

100nF 68nF 3 K 9

100nF 1 n F

100nF

3 0 K 1 %

47K

2 2 0 n F

220nF

T C L I 0 3 7 : 2 A

100nF

1 3 K 3 1 %

H I G 1 H 0 P 0 A K S S

1 A 2 L V I M E N T A Ç Ã O

1N5404

4700uF 25V

100nF

4 7 0 0 u F 2 5 V

1N4007

1K 1 N 4 1 4 8

47uF

100nF

1 8 R

2 K 2 1 %

1K2

1 K

3 9 K 1 %

10uF

47uF

100nF

1K

100nF 6 N 1 3 9

1K

2 K 2 1 %

C

B C 3 3 7

2 2 K 1 %

C

1

2

T E S T E

3 1 3 0 0 K R

I R S 2 0 0 4

D S P 1

D S P

100nF

100uF

3 3 3 3 0 0 R R

47uF

47uF

100nF

1

47uF

BC327

3

2

1N4148

1K

10K

1 K 2

10K 3

1

2 2 K

BC327

2 7 R

10K

B

1

C

E

2

BC337

3

IRF540N

1

2 2 0 u F 3 5 V

2 3

IRF540N

10nF

27R 1 0 n F


P R O D U T O

B L O C O

T A R A M P D S S T P 3 0 K W R 2

R E V


C O N 3

27R

T R 1

B Y V 2 7 -2 0 0

T A R A M

3 3 3 3 3 3 0 0 0 R R R

2 7 R

B Y V 2 7 -2 0 0

470uF 35V 470uF 35V 1 0 0 n F

C

1 0 0 n F E

7 9 L 1 5

S

100uF

100nF

R E G 2

C

E

7 8 L 1 5 S

100uF

100nF

R E G 1

7 8 0 5

3

100nF

F r i J a 3 n A 0 D D 7 I L E , S 2 O 3 0 1 N 1

B

T I P 4 2 C

1K

100nF

D E S E N H O

A 6 Ç A Ã O R Á P I D A

E

100nF

100nF

6 n 8

F O L H A

10K

220uF 35V 2 2 0 n F

1K

G 0 I 6 V / 0 A 1 L / D 2 O 0 1 0

F 1

10uF

100nF

4 7 R 1 %

D A T A

560R

E

2 7 R

A R Q U I V O

1K

B

P P R R O O T T T E E Ç Ç Ã Ã O O V V O O L L T T A A G G E E M M A B L A T I X A A : 2 : 3 6 0 7 V V

B Y V 2 7 -2 0 0

1 0 R 1 W

B Y V 2 7 -2 0 0

1 0 R 1 W

1M

4 7 0 K 1 %

1 N 4 1 4 8

4 7 0 K 1 %

100K

150K 1% 47K 150K 1%

1 0 0 p F

1 1 3 3 K K 3 3 1 1 % %

1 0 0 p F

S

D

1 K 1 %

1 0 0 n F

1 0 K

1 0 0 n F

T L 0 7 2

100nF

1 0 0 p F

22K 1%

1uF

2 K 2

1 3 K 3 1 %

1 u F

1 0 0 n F

3K3

2 2 K 1 %

5 6 0 p F

G A N H O

1K 3 9 K

1 n F

T C L 0 I 7 2 A 2 :

2 2 K

1 0 0 p F

3K3

1 K

T L 0 7 2

1 K

1 0 0 n F

1 0 0 n F

1 K

1 K

1K

1 3 K 3 1 % C I 5 : A

1 K

L

1 0 0 n F

1 5 n F

1 0 0 n F

CROSSOVER 220R

47K

47K

220R

100nF

L

15nF

1 0 0 n F

4 K 7

(PARA IR SAIDA) l a d o p o s i t i v o

(PARA IR SAIDA) 1 0 0 n F

1 n F

100nF

2 2 0 n F

220nF

100K

1K

C I 4 : A

5

T C L 0 I 7 1 A 2 :

470R

100nF

1

2 2 K 1 %

4K7

100nF e e f n a e b d b l a e c k

P R E A M P L I F I C A D O R

2 2 K 1 %

560pF 1 5 K

1 0 0 n F

T L 0 7 2

1 3 K 3 1 %

G

( D O D S P I C )

13K3 1%

1 0 0 n F

100K 4 7 u F

( R E C N A T R ) A D A

3 0 K 1 %

T C L I 0 3 7 : 2 A

100nF

1 3 K 3 1 %

S U B 1 S 0 O 0 N K I C O

1K 1 N 4 1 4 8

100nF

1K 1% 47uF

2 K 2 1 %

1 K

10uF

100nF

47uF

1K 10uF

100nF 4 7 R 1 %

3 9 K 1 %

3 9 K 1 %

1K B C

10K

2 2 K 1 %

B C 3 3 7

E B

C

3 3 R 1 %

220uF 35V

1

2 2 0 n F

D S P 1

D S P

3 1 3 0 0 K R

6 n 8

I R S 2 0 0 4

2

3 3 3 3 0 0 R R

47uF 47uF

47uF 100nF 100nF

1

100nF

BC327

3

2

1N4148

1K

1 K

10K

2

10K 1

2 7 R

2 2 K

10K

1

B E

2 7 R 1 2

C

2 2 0 u F 3 5 V

3

IRF540N

BC337

2 3

IRF540N

27R 1 0 n F

27R

T R 1

1 0 n F

1 1 N N 4 4 9 9 3 3 7 7

470uF 35V 470uF 35V 1 0 0 n F

1 0 0 n F E

C

7 9 L 1 5

S

100uF

100nF

R E G 2

E

C

7 8 L 1 5

100uF

100nF

S

R E G 1

7 8 0 5

3

100nF

T E S T E

1K

4 7 R 1 %

BC327

T I P 4 2 C

100nF

1K 100nF

6 N 1 3 9

D S P / C O N T R O L E

560R

E

100nF

5 1 6 0 R 0 n 1 F %

3

1K

100uF

B Y V 2 7 -2 0 0

1 0 R 1 W

B Y V 2 7 -2 0 0

1 0 R 1 W

R

L

0 °

1 R 0 4 R 7 1 W

P R O C L O N P I T

1 0 u C F 4 / 2 5 V

1 0 R R 1 3 W 9

C72

4 K 7

100nF CP17

2 K 2 1 %

R R R 3 3 3 5 4 3

100nF CP16

22K 1% C R4 T I 1 L : 0 B 7 2

R42 2K2 1%

ON

C Y E L L I L P O 2 W K 2 R 1 3 %2

LEVEL

22K

4 7 u C F 5 / 2 5 V R 5 7 K 6 6

BLUE

C7 100nF

T L 0 7 2

10K 1% R26

C16

4 K 9 9 1 %

6 R K 2 8 4 1 N 4 1 4 8

T L 0 7 C 2 I 4 : A

1 C 8 P n 1 F H P F ( 1 4 0 K R 0 9 7 H 9 z 1 % a 2 .2 1 K 0 H 0 z K )

18nF CP4

C10 100nF

C I 2 : A T L 0 7 2

D A T A

P F R A O O 3 L J _ H E 1 A T O

2 G 4 I / 0 V 8 A / 2 L D 0 O 1 1

F O L H A

1 D E

4

D E S E N H A O D

I L S O N

P R O D U T O

T A R A T A M B - L 8 P O 0 0 S C D O R A 5 P _ M R C E ( P 1 L O I h F m I / C 2 A O h D m O s ) R R E E V S

C 6 1 n 3 8

3 R 3 1 K 1

33nF C12

C18 100nF

CP2 1nF

R48 4K99 1% 1 C 0 P 0 1 n 0 F

100nF C19

1 0 R 0 3 R 8

BASS BOOST 10KB 10K 1% R52 220K 1% R41

2 2 R K 4 1 5 %

6 C 8 1 n 4 F

C I 2 B T :

L 0 7 2

4 c 3 2

2 2 u C F 8 / 2 5 V

1 0 R K 7 1 7 %

A R Q U I V O

1 8 0 °

3 R 3 1 K 0

F U L L

R * * 8 * 5 *

3 C 3 1 p F

C 8 1 * * R * 5 * 3 3 p 4 R F 7 R 7 5

100nF C15

1 0 R 2 0 3 K

R 3

1 0 3 H 0 d H B P z @ F 100K

D 1 2

2 2 K 1 %

C I 1 : A

0 °

R31 10K 1%

33K R25

T L 0 7 2

100nF C9

C I 4 : B

1uF/25V

2 R K 7 2 1 7 %

2 2 R 3 K 2 2 2 K R 1 1 1 C2 % % 33pF

100uF/25V 100uF/25V

2 K 2 1 %

5 V

R 2 2 K 8 7 1 % R40 4R7 1W

C71

-1 0 . ( 1 N 3 R I , 2 6 C P 0 9 A U V r ) T d B m 1 u s 0 u C F / 2 3

- L 1 3 d O B

W @ P 1 A 0 S 0 S H z

0 °

1 R 0 4 K 9 1 %

4 C 7 P n 1 C 4 F 4 P 7 1 n 5 F C C 1 R P I 2 3 3 1 0 3 : T 6 A L K 0 7 2

1 0 0 n F

R R 8 5 5

1 3 1 K 3 O 1 K h m %

0 °

C I 3 T : B L 0 7 1 2 8 0 °

1 0 R K 3 1 7 %

+ B 1 A 0 S d S B B @ O 5 O 0 S H T z

3 4 2 K 7 3 K O 1 1 h m % % s

O U d T B ( V r m s )

+ / B

D D R R R R Z Z 5 5 4 8 4 3 5 4 3 8

R 7 9

R 8 0 R82 100K

B + 2 3 9 4 Z X 1 7 ,4 ,1 6 , 9 9 0 8 C 6 8 + 4 3 1 4 , , 7 6 8 3

B 1 4 Z 5 5 5 K X 6 6 0 9 7 K K R 9 9 1 1 C % % 5 1 W % 3 0

6 6 8 8 1 0 0 R R O 1 1 h W W m

B B 3 Z Z 6 6 8 9 5 6 X X 8 6 7 7 K K 0 R K , 9 9 1 1 5 6 5 C C % % W 9 4 1 7

8 8 2 2 2 0 0 O R R h 1 1 m W W s

2 2 u F / 2 5 V

3 R 3 8 0 4 R 1nF 5% - 1 5 V _ V S S

DZ1 5V6 0.5W

MMBT3904

C32 3 K 3

R 7 0 120K

R * * 8 * * 0

PROT

R90

E C

RED

B

Q 3

4K7

C11

P R O T E Ç Ã O O T T P É R M I C A ( 8 0 ° )

R18

2K7 1% R19 Q 4 B MMBT3906 R9 10K 1% C

100nF

E

10K 1%

R81

4K7 T E N S O Ã O V A P L T A

R17 ****

C22

100nF R94 100R

R73

R 1 3

1 10K 1% 0 K MMBT3906 1 %

B

E

C

Q 6

MMBT3904 E

B

Q 5

1nF 5%

D8 ES1J


R15

B A I X A U T P E V N S Ã O

10K 1% 4 7 K 1 DZ3 %

B

R 1 2

1 0 K 1 %

R 1 4

3 3 0 u F / 2 5 V

1 0 K R 1 2 % 0

G

100K

S

22uF/25V

C 2 3

C25

R79 ****

100nF

R55 ****

10nF C24

**** R88

8 K 2 1 %

1 R 0 2 0 1 K

B M S _ 2 F 5 E 0 T F 1

DZ2 5V6 0.5W

C21

C

Q 7

1 n F 5 %

D

R100

1 n F 5 % C 3 3

300R 1%

E

1 5 C n 4 F 2

4 7 u F / 2 5 V

22uF/25V

D 1 1

C

R8

DZ4

OPCIONAL

1 N 4 1 4 8

MMBT3906

R22

10K 1%

4 R K 9 7 7

+ 1 5 V _ V A A

R54 ****

R 7 2

I R S 2 0 9 2 R53 RX

2K2 1%

****

R71

8 R K 6 2 5 1 %

22uF/25V

10K 1% R51

10K 1%

ES1J D9

R99 R89 47K 1%

R74 2 2 u F / 2 5 V

10R 1/4W 4R7 1/4W R62

TIP41C ****

D10 BYV27-200

1 5 V Z 1 1 W

R43 R44

10R

15K

2 2 u F / 2 5 V

C 4 A

1 5 V 1 D W 5

10R R46

1

V C C

R66 1

IRFB4227 2

2

3

3

IRFB4227 C36

( - B )

s f = 3 1 0 K H z

10R 1/4W R50

150pF/250V 100nF/250V C28

A R Q U I V O

D A T A

2 4 / 0 8 / 2 0 1 1

F O L H A

2 D E

4


A L D O


S O N


P R O D U T O

T A T R A A - 8 0 M 0 D P R S 5 _ C A M ( 1 P O L h I m F / 2 I C O h A m D s ) O R R E E V S

2 2 u H

D7 ES1J

D6 ES1J

CP18

CP7 100nF/250V 220nF/250V CP8

CP3

1uF/250V R16

220nF/250V

10R 2W 2K2 1% R78

( + B )

( - B )

-

+ O U T

8 C 1 K 4 0 u 4 2 0 F 7 1 / % 2 5 R V R R 5 5 9 8

C F E 3 C

1 C 0 R 3 0 9 n F 4 5 R * 4 K 9 K R 7 * * 7 5 * 7 8 6

3 n 3 5 %

4 7 C u F F E / 2 2 5 V

U T C E 3 X 5 2 A 5 S A D W

R E M

G N D

( + B )

1 0 0 n F

1 0 0 n F

C 3 8

C 4 1

4 R K 9 7 5

+ 1 2 V

4 7 u F / 2 5 V 1 R K 9 3

C F E 4

1 N 4 1 4 8

10nF

B

Q 1

C37

D 1 4

C

E

BCP56

47uF/25V

1K RF9 Q F 2

1 N 4 1 4 D 8 F 3

1K

27R

BC 640

1 N D 4 F 1 2 4 8

RF12 Q F 1 BC 640

R83

R61 6K8 IRF1404

R96

R64

6K8

27R

27R

IRF1404

R91

R60

6K8

6A10

R92

R63

6K8

27R

4700uF IRF1404 27R 1W C65

R69

C62

IRF1404

68nF

27R 1W R68

68nF

1 C 0 F 0 8 n F

R F 1 4

1 K

# 0 7 2 E 1 s p . 1 6 D T

1 6 D T A

+

A R Q U I V O

D A T A

2 4 / 0 8 / 2 0 1 1

F O L H A

3 D E

4


A L D F O O N T E


S O N

P R O D U T O

T A T R A A - 8 0 M 0 D P R S 5 _ C A M ( 1 P O L h I m F / 2 I O C h A m D s ) O R R E E S V

S e c u n d á r i o

P r i m á r i o

C o + C C C C R R n / E E E E 5 F s -B 3 3 2 2 7 2 u 8 1 0 9 8 m o

R F 2 7

RF27

****

****

0 # 1 4 # 4 1 E 1 E 3 s 4 s p p . .

8 4 5 6 0 , m 8 A

2 2 0 0 / 6 3 V

2 2 0 0 / 6 3 V

2 1 2 0 0 0 0 K / 6 1 3 % V

1 1 5 5 1 K K O 1 1 h W W m

2 # 0 # 0 4 1 E 1 E 4 s 5 s p p . .

2 2 1 6 0 0 A 6 / , 1 5 0 0 V

2 2 0 0 / 1 0 0 V

2 2 0 0 / 1 0 0 V

2 2 0 0 / 1 0 0 V

2 2 K 1 W

E D S 3 1 J

D 1

E S 1 J

E D S 4 1 J

D 2

1000uF/25V

100nF CP9

CE31

100nF CP11

2

105°C

7 9 1 5

2 2 2 K O 1 h W m s

1 1

2

3

22uF/50V

( + B )

7 8 1 5 3

C64

( - B )

( + 2 2 V )

CE30

CE29

105°C

E S 1 J

1000uF/25V

( -2 1 V )

105°C

CE28

2 2 0 0 / 6 3 V

1 4 0 K 1 %

RF28

105°C

# 0 7 2 E 1 s p .

100nF CP5

C63 22uF/50V 100nF CP6

1 Ohm R5

2 Ohms

33K

47K 1%

RF27

15K 1W

22K 1W

RF28

15K 1W

22K 1W

R43

150R 5W

390R 5W

R54

56K 1%

68K 1%

R55

56K 1%

68K 1%

R57

100K 1%

140K 1%

R85

1K 1%

3K3 1%

R79

680R 1W

820R 1W

R80

680R 1W

820R 1W

R88

4K99 1%

5K6

DZ3

BZX79C30 BZX79C47

DZ4

BZX79C68 BZX79C91

CE28

2200/63V

2200/100V

CE29

2200/63V

2200/100V

CE30

2200/63V

2200/100V

CE31

2200/63V

2200/100V

40,1

66,5

29,10

41,78

+31,49

+34,63

+/- B OUT (Vrms) dB

TARAMPS AMPLIFICADORES PRODUTO

TA-800D R5_C (1 Ohm/2 Ohms)

FOLHA A4 PROJETO DATA ARQUIVO

BLOCO

REV

CONFIGURAÇÕES

GIVALDO 24/08/2011

DESENHO

ADILSON

FOLHA

4

DE

4

G N D

R E M

T E R R A

+ 1 2 V

C 6 5 8 3 n

F

R89

R104

10R

4

M F T 7

1K

R E M O T E

R95

+ 1 2 V

D23 6A10

W

4 R 7 R 1 9 W 0 T E R R A

IRF1404

M F T 5

10R

T E R R A

RR 1 7 2 3 1

6 C 8 4 n 0 F

IRF1404

MFT8

4700uF 25V

IRF1404

CE41

4700uF 25V

CE42

1K

10R

R101

R94

IRF1404

4

R92

10R

RR 1 7 2 1 4 W

M F T 6

C 6 5 8 4 n F T E R R A

G A T E _ B

4 RR 7 9 1 3 W

6 C 8 4 n 1 F

G A T E _ A A C 3

A C 2

F E P 1 6 D T A

D R 5 D R 3

F E P 1 6 D T

T E R R A CE27

8 0 V D C 1 A @ m p 1 2 , 6 V c c

T E R R A

470uF 100V

470uF 100V CE28

CE29 470uF 100V CE30

M U R S 1 2 0 T 3

D 1 6

470uF 100V

M U R S 1 2 0 T 3

D 1 2

+ 2 0 V

+B

470uF 100V CE32 470uF 100V

CE21

CE13 470uF 35V

CE31

470uF 35V

100nF 100nF CP24

CP26

D A T A

A R Q U I V O

{ D a t e }

F O L H A

3 D E

4

P R O J E T O

G I V A L D O

D E S E N H O

A D I L S O N


P R O D U T O

A M P L . D I F G O . T N T A 1 E 0 0 0 D S M D R 3 R E V

T A R A M

I N

I N

T E R R A

GND

CE15 100uF

7 R 9 E G L 1 2 5

L T D A

GND

R E G 1 O U T

O U T


T E R R A

100uF

CE14

-1 5 V

+ 1 5 V

7 8 L 1 5

0 9 ,2 ,2 6 9 6 d m B V m 2 K 7

T E R R A

T E R R A

T L 0 7 2

T C L I 0 8 7 : 2 B

( D O P I C )

C I 1 0 : A

5 0 K H Z

100pF T E R R A

1 0 C P 0 n 8 F

R 1 2

T E R R A T E R R A

R21 3K3

R22 3K3

470R

R 1 1 9 K

T E R R A

+ 1 5 V

C14

1 R 1 K 8

T E R R A

T E R R A

T L 0 7 2

C I 4 : A

C I 4 : B

+ 1 5 V

3 9 K

C12 100nF

C23

T E R R A

L T E R R A

P I N O _ 1 0 _ I R # 2

P I N O _ 1 2 _ I R # 2


C I 5 : A

D A T A

A R Q U I V O

P R O J E T O

G 1 V 5 I / 1 A 0 L / 2 D 0 O 1 0

F O L H A

1 D E

5

D E S E N H O

A D I L S O N


P R O D U T O

A M P L . D I P G R . E T A 1 0 0 0 D S M D R 4 R E V

T E R R A

100nF C13

+ 1 5 V

T A R A M

1 0 0 n F

C 1 1 7 0 0 n F

1 1

L T D A

T A 1 1 0 K 0 2 0 D 2 R

C 6

3 R 9 4 K 3

1 0 0 n F

T E R R A

1 C 0 P 0 2 n F

2 C 2 0 P n 1 F

13K3 1% R6 100nF C15 -1 5 V

T L 0 7 2 C I 3 : B

1 3 K 3 1 %

100nF CP4

+ 1 5 V

T E R R A

47K

47K

T C L I 0 3 7 : 2 A

1 C 0 1 0 6 n F

R 7 L O W P A S S

1 0 0 K

6 8 n F

C P 6

100nF C24

2 R 2 2 K 6 1 %

R27 5K 1% ( P A R A I R S A I D A )

1 C 0 P 0 1 n 0 F

T E R R A

10KB

T E R R A

1 R 0 3 K 7 1 %

R23

R 2 8

1 2 0 K

1 5 0 K 1 %

R 1 8 4

1 3 R K 1 3 9 1 2 %

C 8 2 -1 5 V

1 0 C 0 n 8 F

T L 0 7 2 -1 5 V

C I 2 : B

1 + C 1 P n 5 7 F V T E R R A

1 0 C 0 1 n F 0

1 3 R K 1 3 9 1 1 %

T L 0 7 2

100nF

T E R R A T E R R A

47pF

13K3 1% T E R R A

R 1 1

C87

47pF

R188

T E R R A

C I R C U T O D E R E A L I M E N T A Ç Ã O

68K 1% T E R R A

C 8 6

T E R R A

220K R39 1 R 0 3 K 6 1 %

R189

68K 1%

R 1 1 5 8 0 5 K 1 %

T E R R A

R187

1 C 0 P 0 1 n 3 F

10K 1%

T C L 0 I 7 2 A 2 :

O U T _ N E G

O U T _ P O S

4 C 7 P n F 1 4 C 4 P 7 1 n 5 F

T C L I 0 8 7 : 2 A

R 1 1 T A 1 0 1 0 K 0 5 D 1 R

4 7 p F

3 0

6 C 8 P n F 5

+ 5 V

+ B 1 A 0 S d S B B @ O 6 S 0 T H z


100K

HIGH PASS

P I N O _ 1 2 _ I R # 1

-1 5 C V

+ 1 5 V C

CP3 220nF

T E R R A

T L C

TERRA

100nF 0 °

100nF

C I 6

P I N O _ 1 0 _ I R # 1

4 7 R R 5

1 K

+ 5 V


I 1 : B

C5

T E R R A

-1 5 V

T E R R A

T L 0 7 2

T L 0 7 2 C

-1 5 V

T E R R A

1 R 0 3 K 5

T E R R A

R17

C I 7

1 0 C 0 p 1 F

2 2 K 1 R % 3

1 8 0 °

C 4 7 E u 1 F 0 / 2 5 V

1 C n P F 9

T E R R A

T E R R A

T L C 0 7 I 1 2 : A

R 1 3

C I 5 : B

R 1 4

R 1 1 6 K

2 2 R K 1 1 %

R4

LEVEL

1K

1 R 2 K 0

2 3 K R 2 2 1 %

C2

+ 1 5 V T E R R A

T L 0 7 2

R15 1K

T E R R A

R 4 1

22K 1%

2 K 2

T L 0 7 2

100nF

100nF

( R E C N A T R ) A D A 2 R K 4 7 0

22K

C9

-1 5 V

-1 5 V

0 °

8 K 2 1 %

1 0 K R 1 1 % 0

FB

+ 1 5 V

C I 1 0 : B

R 2 5

T E R R A

1 3 R K 1 3 9 1 0 %

1 0 C 0 4 n 2 F


( L E a N d T o R p A o D s i A t i v P o O ) N T E H

( D A F O N T E )

(DO PRÉ)

+ 2 0 V

P I N O _ 1 0 _ I R # 2

(DO PRÉ)

P I N O _ 1 2 _ I R # 2

P I N O _ 1 0 _ I R # 1

P I N O _ 1 2 _ I R # 1

( D A F O N T E )

( D A F O N T E )

( D A F O N T E )

S H U T D O W N

+ 5 V

+ B

0 R R 2 2 2 4 5 W 1 K

220nF

C39

C37 CP25

T E R R A

1 2 0 p F

1 2 C29 C28 0 p

120pF

R31 100nF C19

F T E

T E R R A

R R A

120pF

47uF CE4

1

T E R R A

2

7 8 1 2

R E G 5

IR2010

I C 2

I C 1

IR2010

3

C18 100nF

C 100nF 2 1

CE33

1 C 0 0 5 n 0 F

10uF

T E R R A

47uF CE7

CE5 10uF

+ B -I R

10uF CE3

DR2 15V DZ3

1 N D 4 9 1 4 8

MURS120T3

1 DN 1 4 3 1 4 8

4 R 7 4 R 2

15V DZ16

G

4 R 7 3 R 8

1 N 4 D 1 1 4 8

1 0 K R30

15V DZ13

FET15

10K

15V DZ10

FET13 T E R R A

D

S

S

52N15 IRF8010 CP12

52N15 IRF8010

G

D Z 5

FET7

D A T A

P R O J E T O

G 1 V 5 I / 1 A 0 L / 2 D 0 O 1 0

F O L H A

2 D E

5

D E S E N H O

A D I L S O N


P R O D U T O

A M P L . D I S G A . T Í D A A 1 0 0 0 D S M D R 4 R E V

T A R A M P S E L E T R Ô N I C A

52N15 IRF8010

52N15 IRF8010 CP11 6,8uF 100V

O U T _ N E G

L T D A

F I

O 3 L 1 2 1 4 u A H

u H

W G

CP16 1uF 250V

4K7 1W R96 4K7 1W R99

4K7 1W CP18 CP23 2 n 2 1 0 0 V

2 n 2 1 0 0 V

FET1

S

F I O 3 2 A W G

G

D

S

O U T _ P O S

A R Q U I V O

15V

D

6,8uF 100V

L 1 2 4

4 R 7 3 R 3

R29 G

D

+B2

47uF

MURS120T3 DR1

R32

R34

T E R R A

1 ND 4 5 1 4 8

4 R 7 4 R 6

CE2

15V DZ2

15V DZ1

1 0 K

1 0 K

T E R R A

100nF

C 4 9

CP17

CP20

2 n 2 1 0 0 V

2 n 2 1 0 0 V

T E R R A

+

S A I D A

R105 4K7 1W R103

T A 1 0 0 0 D 2 R

T A 1 0 0 0 D 1 R

4 7 , 9 V r m s @ + 3 5 , 8 d B u

3 4 ,2 V r m s @ + 3 2 , 3 d B u

S H U N T

0 R 2 R 2 4 5 4 W

G N D

R E M

T E R R A

+ 1 2 V

C 6 5 8 3 n

F

R89

R104

10R

4

M F T 7

1K R E M O T E

R95

+ 1 2 V

D23 6A10

W

4 R 7 R 1 9 W 0 T E R R A

IRF1404 M F T 5

10R

T E R R A

RR 1 7 2 3 1

6 C 8 4 n 0 F

IRF1404

MFT8

4700uF 25V

IRF1404

CE41

4700uF 25V

CE42

1K

10R

R101

R94

IRF1404

4

RR 1 7 2 1 4 W

M F T 6

R92

10R

C 6 5 8 4 n F T E R R A

G A T E _ B

4 RR 7 9 1 3 W

6 C 8 4 n 1 F

G A T E _ A A C 3

A C 2

F E P 1 6 D T A

D R 5 D R 3

F E P 1 6 D T

T E R R A

T E R R A

CE27 470uF 100V 470uF 100V CE28

470uF 100V CE30

M U R S 1 2 0 T 3

D 1 6

470uF 100V CE29

M U R S 1 2 0 T 3

D 1 2

+ 2 0 V

+B

470uF 100V CE32 470uF 100V CE21 470uF 35V

CE13 470uF 35V

CE31

100nF D A T A

A R Q U I V O

P R O J E T O

G 1 V 5 I / 1 A 0 L / 2 D 0 O 1 0

F O L H A

3 D E

5

D E S E N H O

A D I L S O N


P R O D U T O

A M P L . D I F G O . T N T A E 1 0 0 0 D S M D R 4 R E V


O b s : D A D O S O B T I D O S A 1 2 , 6 V c c E M R E P O U S O

C O N S + U B M O

9 2 0 m A

1 A m p

+ 6 2 V

+ 8 0 V D C

100nF CP24

CP26

I N

I N

T A 1 0 0 0 D 1 R T A 1 0 0 0 D 2 R

T E R R A

GND

CE15 100uF

7 R 9 E G L 1 2 5

T E R R A

GND

R E G 1 O U T

O U T

100uF CE14

-1 5 V

+ 1 5 V

7 8 L 1 5

I C S P D A T

( P / P R É ) G N D

G N D

P R O O N T

5 0 K H Z

C G L N I P D

R J 1 1 R66 R R 8 8 0 3 3 3 3 3 0 0 R R

C

100nF P I N O _ 1 2 _ I R # 2

C33 I C I C S S P P C D L A K T

T + E 5 R V R A

220uF 35V V P P

1 N 4 1 4 8

CE60

Q 3 E

330R R70

MMBT3906 100nF

T E R R A

C31 V P P

M M B T 3 Q 9 2 0 4 E

1K R82 B C

R78

560R

R81

10K R77

Q 1

P I C 1 6 F 6 1 6

R63 330R

330R

M C 1

C 2 5

SD

100nF

TERRA

I C S P C L K

J2 6n8

T A 1 6 1 0 K 0 0 0 K 8 D 1 R

R65 R 3 7 3 2 0 R

I C S P D A T

R73 1K

T A 1 3 1 0 K 8 0 9 K 0 D 2 R

2K2 1% R86

C26 100nF 1K 1% T E R R A

R R 8 9 7 1

1 K

CP19

47uF

2

C34

SHUTDOWN

(P/ SAÍDA)

K S H 3 2 C

1 0 0 n F

R64

PROT

3 1

330R CLIP

R68

3 3 0 R

R 8 7

R 7 1

220uF/35V CE17 I N

T E R R A

GND

100nF C35

M 7 U R 8 R E L S G 0 1 3 5 2 0 T O 3 U

R 1 3 4

100uF CE18

R69 2K2 1% R 9 1

C 1 2 0 7 0 n F

+ B -I R

C36 CP27 1nF

6

82R R88

6 N 1 3 9

4 7 0 C n F 3 / 5 8 0 V

T E R R A

C32 100nF

1 R 0 7 6 0 R

1 R 0 8 0 5 R

4 7 R R 7 1 5 %

CP21 1nF

D A T A

A R Q U I V O

P R O J E T O

G 1 V 5 I / 1 A 0 L / 2 D 0 O 1 0

F O L H A

4 D E

5

D E S E N H O

A D I L S O N


P R O D U T O

A M P L . D I D G S . P T A 1 0 0 0 D S M D R 4 R E V


I R 4 4 2 7

I C 4

+ B 2

F O E B C S H : A L B O I E P R U A L S O O Á E U MD I 1 O 4 E , 8 M V c 1 c 0 V c c e

4 R 7 1 W

+ 5 V

+ B

PTH

D 1 9

T

CE16 100nF

D 1 7

1K

R62

ON

T E R R A

1K

R120

R E M O T E

+ 1 2 V

R67 B

R 8 4 3 3 0 R

T E + V R 5 P R V P A

1K

10K T E R R A

I C S P C L K

CE19 10uF T E R R A

100nF CP22

G A T E _ B

G A T E _ A

R 7 5

4 7 R 1 % E M P T H

A R Q U I V O

D A T A

P R O J E T O

1 G 5 I V / 1 0 A / 2 L D 0 O 1 0

F O L H A

5 D E

5

D E S E N H O

A D I L S O N


A L T E R A Ç Õ E S

P R O D U T O

A M P L . D I G . T A 1 0 0 0 D S M D R 4

R E V


R R 8 9 7 1 T A 1 6 1 0 0 K 0 8 K 0 D 1 R T A 1 3 1 0 K 8 0 9 K 0 D 2 R

R 1 1 T A 1 1 0 0 K 5 0 D 1 R T A 1 1 0 K 0 2 0 D 2 R

( L E a N d T o R n A e D g A a t P i v O o ) N T E H

( L E a N d T o R p A o D s i A t i v o P ) O N T E H

( D A F O N T E )

(DO PRÉ)

+ 2 0 V

P I N O _ 1 0 _ I R # 2

(DO PRÉ)

P I N O _ 1 2 _ I R # 2

P I N O _ 1 0 _ I R # 1

P I N O _ 1 2 _ I R # 1

( D A F O N T E )

( D A F O N T E )

( D A F O N T E )

S H U T D O W N

+ 5 V

+ B

R 2 4

S H U N T

S H U N T

R 4 4

1K 1% 220nF

F

T E R R A 2

7 R 8 E 1 G 2 1

1 1 4 5 9 0 6

1 4

1 3

1 2 1 1

IR2010S 1 5

3

3 1

CE8

1 5 D Z V 3

F O L H A

2 D E

5

1 4

T E R R A

1 2 1 1

100nF C 2 1

3 1

10uF

C 4 9

CE7

100nF 47uF/16V CE4

100nF

0 R 2 2

C18

T E R R A

100nF

CE2

10uF CE3

+B2

10uF D Z 2

15V

0 R 1 0

MURS120T3 DR1

1 5 D V Z 1

MURS120T3

( R 2 4 , R 4 4 )

C I 1 1

8

7

6

C 1 9

0 R 2 2

F E T 1 3

F E T 7

F E T 1

5 2 N 1 5

5 2 N 1 5

5 2 N 1 5

5 2 N 1 5

T A 2 0 0 0 W -2 R

I R F B 4 2 2 7

I R F B 4 2 2 7

I R F B 4 2 2 7

I R F B 4 2 2 7

T A 2 0 0 0 W -4 R

5 2 N 1 5

5 2 N 1 5

5 2 N 1 5

5 2 N 1 5

5 2 N 1 5

5 2 N 1 5

5 2 N 1 5

5 2 N 1 5

{ D a t e }

R31

0 p F

IR2010S 1 5

DR2

T E R R A

D A T A

1 3

CE5 10uF

+ B -I R

A R Q U I V O

1 1 4 5 9 0 6

T E R R A

100nF

C 5 0

C I 1 2

C28 1 2

120pF

2

8

7

6

47uF

F E T 1 5

T E R R A

120pF

1

2

C29

1

C37

CP25

T E R R A

2 C39 0 p


A L D O


S O N

S A Í D A

1 N 4 1 4 8

D 5 R 3 8

4 7 R 1 %

10K 1%

D 1

4 7 R 1 %

1 N D 4 9 1 4 8

10K 1%

R30

T E R R A

R 3 3

1 N 4 1 4 8

0 R 3 3 4 7 RR 1 4 % 2

1 DN 1 4 3 1 4 8

T A 2 0 0 0 W -2 R T A 2 0 0 0 W -4 R T A 1 6 0 0 W -2 R T A 1 6 0 0 W -4 R

4 7 R R 1 4 % 6

R29 1 D 5 Z V 1 0

D 1 Z 5 5 V

G

D

D

S

FET7

T E R R A

FET1 CP11

G

1 D 5 Z V 1 6

S

T A 1 6 0 0 W -2 R

R32 10K 1%

R34 10K 1% G

G

1 D 5 Z V 1 3 D

D

S

S

FET13

FET15 CP12

6,8uF 250V

6,8uF 250V

T A 1 6 0 0 W -4 R

O U T _ P O S

P R O D U T O

A M P L . T A 1 6 0 0 D / T A 2 0 0 0 D S M D R E V

O U T _ N E G

F I O L 1 3 2 2 4 u A H W G

F I O 3 2 L 1 u 1 4 H A W G

CP16 2,2uF 250V


R99 2K7 5W

CP18 2 n 2 1 0 0 V

CP23 2 n 2 1 0 0 V

CP17

CP20

2 n 2 1 0 0 V

2 n 2 1 0 0 V

T E R R A

+

O U T

-

2K7 5W R105

O U T

6 @ 6 ,7 2 6 R V R m s

T A 2 0 0 0 W -2 R

5 @ 5 ,1 2 1 R V R m s

T A 2 0 0 0 W -4 R T A 1 6 0 0 W -2 R

7 @ ,7 8 4 3 R V R m s

T A 1 6 0 0 W -4 R

9 @ 3 , 0 4 5 R V R m s

0 °

R T R ( T I P M 8 P ) O T

( R 1 1 )

T A 2 1 0 K 0 0 D -2 R

1 K 5

T A 2 1 0 K 0 0 D -4 R

1 K 5

4 7 0 R

T A 1 6 0 0 D -2 R

4 7 0 R

T A 1 6 0 0 D -4 R

T A 2 0 0 0 D -2 R

T A 2 1 0 0 0 K 0 D -2 R

T A 2 0 0 0 D -4 R

T A 2 1 0 2 0 K 0 D -4 R

1 K 5

T A 1 6 0 0 D -2 R

T A 1 1 6 0 0 K 0 D -2 R

1 K 2

T A 1 6 0 0 D -4 R

T 1 A 1 0 6 K 0 0 D -4 R

3 R K 3 2 1

3 R K 2 3 2

T P 8

T E R R A

T E R R A

1 K R 1 2 % 0

T L 0 7 2

C I 4 : A

100pF T E R R A

C I 4 : B

-1 5 V

+ 1 5 V

1 C n P F 9

C12

R 1 3

T E R R A

100nF T E R R A

100nF C23

T L 0 7 2

T E R R A

C I 7 T E R R A

P I N O _ 1 0 _ I R # 2

P I N O _ 1 2 _ I R # 2


A R Q U I V O

D A T A

1 5 / 1 0 / 2 0 1 0

F O L H A

1 D E

5


S O N

P R E

P R O D U T O

C I 5 : A

A M P L . T A 1 6 0 0 D / T A 2 0 0 0 D S M D R 5

R E V


+ 1 5 V

100nF C17

T E R R A

T L 0 7 2 C I 1 0 : B

100nF C24

10KB

T E R R A

-1 5 V

+ B 1 A 0 S d S B B @ O 5 S 0 T H z

R23 10K 1%

C15 100nF

T E R R A

C6

1 C 0 P 0 2 n F

1 0 C 0 1 n 6 F

100nF

T C 1 2 R L 2 0 8 0 I K 7 2 : 2 A

2 2 0 K 1 %

C8 -1 5 V

T E R R A

1 0 0 K

O U T _ N E G

R 1 8 4

1 0 R K 3 1 6 %

R189

82K 1%

100nF C10

1 0 R K 1 1 0 %

100pF

100pF

1 3 R K 1 3 9 1 2 %

1 3 R K 1 3 9 1 1 % + 1 5 V

T L 0 7 2 C I 1 0 : A

100nF C 8 2 -1 5 V

1 + C 1 P n 5 7 F V

C87

13K3 1% T E R R A

C I R C U T O D E R E A L I M E N T A Ç Ã O

82K 1% T E R R A

C 8 6

R188

T E R R A

R 2 1 2 8 0 5 K 1 %

T E R R A

R187

1 C 0 P 0 1 n 3 F

* * * *

T C L I 0 8 7 : 2 B

H I G H P A S S

O U T _ P O S

T E R R A

R 1 1

1 3 K R 3 7 1 %

100nF CP4

+ 1 5 V

1 R 0 3 K 7 1 % 4 C 7 P n F 1 4 C 4 P 7 1 n 5 F

T L 0 C 7 I 2 2 : B

2 C 2 0 P n 1 F

C P 6

220K 1% R39

T E R R A

C I 8 : A

T C L I 0 3 7 : 2 A -1 5 V

2 2 R K 2 1 6 %

1 C 0 P 0 1 n 0 F

T E R R A

+ 1 5 V

13K3 1%

47K

6 8 n F

R27 5K 1%

T E R R A T E R R A

100nF

3 R 9 4 K 3

C 3 0

R6

47K

T L 0 7 2 C I 3 : B

+ 5 V


100nF C11

T L 0 7 2

100K

LOW PASS C 6 P 8 5 n F

P I N O _ 1 2 _ I R # 1

TERRA

T E R R A

4 7 R 1 %

R 5

CP3 220nF

T E R R A

T E R R A

4 7 p F

I 1 : B

R 1 4

+ 5 V

P I N O _ 1 0 _ I R # 1

C5

-1 5 V

0 °

C I 6



A L D O

100nF C13

T L 0 7 2 C

100nF

-1 5 V

T E R R A T E R R A

1 0 C 0 p 1 F

2 2 K 1 %

1 8 0 1 ° 0 R K 3 1 5 %

C 4 7 E u 1 F 0 / 2 5 V

T E R R A

R 1 1 6 %

R 3

T L C 0 7 I 1 2 : A

3 9 K

C I 5 : B

1 K 1 %

1K 1% R17 1 K

R4

LEVEL

T E R R A

R15 1K 1%

T E R R A

2 2 K R 1 1 %

C2

R 1 2

T E R R A

T L 0 7 2

100nF

2 R 2 K 2 1 %

22K

C9

C14

2 R K 4 7 0

22K 1%

T L 0 7 2

100nF

T E R R A

T E R R A

T E R R A

2 K 2 1 %

R 4 1

4 5

1 C 0 P 0 8 n F

1 R K 1 1 8 %

1 R K 1 1 9 %

1 2 K K 5 7 1 % R

5 0 K H Z

TRP

+ 1 5 V

R47

( D O P I C )

+ 1 5 V

****

-1 5 V

(OP)

T E R R A

( R 2 5 )

3 0 0 m I V N P / U - T 8 ,2 d B u

L

* * * * FEED-ON

R 2 5

T E R R A

1 3 R K 1 3 9 1 0 %

1 0 C 0 4 n 2 F


( L E a N d T o R p A o D s i A t i v P o O ) N T E H

( D A F O N T E )

(DO PRÉ)

+ 2 0 V

P I N O _ 1 0 _ I R # 2

(DO PRÉ)

P I N O _ 1 2 _ I R # 2

P I N O _ 1 0 _ I R # 1

P I N O _ 1 2 _ I R # 1

( D A F O N T E )

( D A F O N T E )

( D A F O N T E )

S H U T D O W N

+ 5 V

+ B

R 2 4

S H U N T

S H U N T

R 4 4

1K 1% 220nF

C37

CP25

2

1 1 4 5 9 0 6

1 3

1 4

1 2 1 1

IR2010S 1 5

3

3 1

CE8

A R Q U I V O

1 5 D V Z 3

I R F B 4 1 1 5

I R F B 4 1 1 5

I R F B 4 1 1 5

T A 2 0 0 0 D -2 R

I R F B 4 2 2 7

I R F B 4 2 2 7

I R F B 4 2 2 7

I R F B 4 2 2 7

T A 2 0 0 0 D -4 R

5 2 N 1 5

5 2 N 1 5

5 2 N 1 5

5 2 N 1 5

T A 1 6 0 0 D -2 R

5 2 N 1 5

5 2 N 1 5

5 2 N 1 5

5 2 N 1 5

T A 1 6 0 0 D -4 R

1 5 / 1 0 / 2 0 1 0

F O L H A

2 D E

5

F E T 1

I R F B 4 1 1 5

D A T A


A L D O


S O N

S A Í D A

1 N 4 1 4 8

D 5

C 4 9

R 3 8

10K 1%

100nF C18

T E R R A

100nF

CE2

1 N D 4 9 1 4 8

0 R 2 2

T A 2 0 0 0 D -2 R

0 R 1 0

T A 2 0 0 0 D -4 R

0 R 2 2

T A 1 6 0 0 D -2 R

0 R 3 3

T A 1 6 0 0 D -4 R

+B2

10uF D Z 2

15V

MURS120T3 DR1

1 5 D V Z 1

10K 1%

R30

T E R R A

D 1

47uF/16V CE4

10uF CE3

4 7 R 1 %

( R 2 4 , R 4 4 )

C I 1 1

C 2 1

10uF

R 3 3

1 2 1 1

C 1 9

100nF

8

7

6

CE7

1 N 4 1 4 8

1 4

R31 T E R R A

3 1

MURS120T3

4 7 R 1 %

1 C28 2 0 p F

IR2010S 1 5

100nF

1 3

DR2

T E R R A

F E T 7

1 1 4 5 9 0 6

CE5 10uF

+ B -I R

F E T 1 3

C I 1 2

T E R R A

100nF

C 5 0

120pF

2

8

7

6

47uF

F E T 1 5

T E R R A

120pF

7 R 8 E 1 G 2 1

2

C29

1

F

T E R R A 1

T E R R A

2 C39 0 p

4 7 R R 1 4 % 2

1 DN 1 4 3 1 4 8

4 7 R R 1 4 % 6

R29 1 D 5 Z V 1 0

D 1 Z 5 5 V

G

D

D

S

T E R R A

FET1 CP11

1 D 5 Z V 1 3

G

1 D 5 Z V 1 6

S

FET7

R32 10K 1%

R34 10K 1% G

G

D

D

S

S

FET13

FET15 CP12

6,8uF 250V

6,8uF 250V O U T _ P O S

P R O D U T O

A M P L . T A 1 6 0 0 D / T A 2 0 0 0 D S M D R 5

R E V

O U T _ N E G

F I O L 1 3 2 2 4 u A H W G

F I O 3 L 1 2 1 4 u A H W G

CP16 2,2uF 250V


R99 2K7 5W

CP18 2 n 2 1 0 0 V

CP23 2 n 2 1 0 0 V

CP17

CP20

2 n 2 1 0 0 V

2 n 2 1 0 0 V

T E R R A

+

O U T

-

2K7 5W

d B u

V O r m U T s /

6 @ 6 ,7 2 6 R V R m s

T A 2 0 0 0 D -2 R

+ 3 9 , 3

9 @ 3 , 0 4 5 R V R m s

T A 2 0 0 0 D -4 R

+ 3 4 , 8

5 @ 5 ,1 2 1 R V R m s

T A 1 6 0 0 D -2 R

+ 3 7 , 8

7 @ ,7 8 4 3 R V R m s

T A 1 6 0 0 D -4 R

+ 3 6 , 5

R105

G N D

R E M

T E R R A

+ 1 2 V

1K 1% R104

R 1 8 0 9 R

T E R R A

R E M O T E

D23 6A10

4 R 7 1 W

IRF1404 10R R95

T E R R A

M F T 7

C 6 5 8 3 n F

+ 1 2 V

6 C 8 4 n 0 F R 1 2 3

4 R R 9 7 0 1 W T E R R A

M F T 5

IRF1404

4700uF 25V

IRF1404

CE41

4700uF 25V

R101

10R

CE44

1K 1%

R94

4700uF 25V CE45

10R

M F T 8

IRF1404 M F T 9

R92

4 R 7 1 W

R 1 2 4

C 6 5 8 4 n F

4 RR 7 9 1 3 W 6 C 8 4 n 1 F

T E R R A

G A T E _ B

O B S : D A D O S O B T I D O S E M R E P O U S O A 1 2 , 6 V c c

A R Q U I V O

D A T A

1 5 / 1 0 / 2 0 1 0

F O L H A

3 D E

5


A L D O


S O N

F O N T E

G A T E _ A

A C 3

A C 2

F E P 1 6 D T A

D R 5 D R 3

F E P 1 6 D T

T E R R A

1500uF/200V CE27

T E R R A

CE28 1500uF/200V

P R O D U T O

A M P L . T A 1 6 0 0 D / T A 2 0 0 0 D S M D R 5

R E V


C O N S U M O

C E 2 8

C E 2 7

1 5 0 0 u F / 2 0 0 V

1 5 0 0 u F / 2 0 0 V

T A 2 0 0 0 D -2 R

1 , 3 1 A

1 2 0 V

T A 2 0 0 0 D -2 R

1 5 0 0 u F / 2 0 0 V

1 5 0 0 u F / 2 0 0 V

T A 2 0 0 0 D -4 R

1 , 5 1 A

1 6 6 V

T A 2 0 0 0 D -4 R

1 0 0 0 u F / 1 6 0 V

1 0 0 0 u F / 1 6 0 V

T A 1 6 0 0 D -2 R

1 , 3 0 A

1 0 0 0 u F / 1 6 0 V

1 0 0 0 u F / 1 6 0 V

T A 1 6 0 0 D -4 R

1 , 3 5 A

+ B

( + B )

9 6 V

1 2 5 V

@ V c 1 c 2 . 6

T A 1 6 0 0 D -2 R T A 1 6 0 0 D -4 R

M U R S 1 2 0 T 3

M U R S 1 2 0 T 3 + 2 0 V

T E R R A T E R R A

T E R R A

CE23 470uF 35V

D4

120R1W

T E R R A

R126

15V

Q 5

C4

C

B

10uF/25V T E R R A

T E R R A

CE22 470uF 35V

T E R R A

E

CP29

B C P 5 3

T E R R A

CE26 220uF 16V

C

C3 B

10uF/25V

T E R R A -1 5 V

120R 1W

D3

T E R R A

100nF

R125

15V

CP28

Q 4

E

100nF 220uF 16V CE25 + 1 5 V

B C P 5 6

G P O R N O N D T

R J 1 1 6 P

C L I P

5 0 K H Z

M O N I T O R

10K 1%

T E R R A

3 3 0 R

I C S P C L K

( P / P R É )

B C

MMBT3906

100nF I C I C S S P P C D L A K T

220uF/16V V P P

Q 2

B C

E

MMBT3904

R82

1K 1%

1K 1%

R81

R78

R77

560R

10K 1%

E

B C

B C P Q 5 1 3

C I C 9 1 2 0 0 n F

R64

5

C34 100nF

330R

TERRA

I C S P C L K

SHUTDOWN

(P/ SAÍDA)

220uF/16V CE17 N I

R65

6n8 R 3 7 3 2 0 R

I C S P D A T

**** R86

1K 1% R68

3 3 0 R

O U T

R 1 3 4

100uF CE18 R 8 7

R 7 1

2K2 1%

* * * *

R 9 1

* * * *

+ B -I R

+ B

PTH

6 6 N 1 3 C 9 3 8

R88

T E R R A

4 7 0 n F

T E R R A

4 7 R 1 %

R 7 5

( R 8 8 )

A R Q U I V O

D A T A

1 5 / 1 0 / 2 0 1 0

F O L H A

4 D E

5


A L D O


S O N

D S P

P R O D U T O

A M P L . T A 1 6 0 0 D / T A 2 0 0 0 D S M D R 5

R E V


4 7 R 1 %

T A 2 0 0 0 D -2 R

3 3 0 R

T A 2 0 0 0 D -4 R

5 6 R

T A 1 6 0 0 D -2 R

5 6 R

T A 1 6 0 0 D -4 R

CE19 47uF

I R 4 4 2 7

I C 4

+ B 2

4 R 7 1 W

+ 5 V

CE16

****

M U R S 1 2 0 T 3

R69

C27 100nF

47uF/16V

D 1 9

100nF

1K 1% C26 100nF

GND

7 R 8 E L G 0 3 5

C35

R73

T E R R A

T E R R A

1K 1%

CP19

C36 100nF

1 N 4 1 4 8

D 1 7

CE60

T E R R A

P I C 1 6 F 6 1 6

330R

PROT

T + E 5 R V R A

V P P

R63

C33

330R

R62

CLIP

1K 1%

R70

E

330R T E R R A

R120

T E + V R 5 P R V P A

1K 1% Q 3

C31 100nF ON

I C S P D A T

R67

R66

R R R 8 8 8 4 3 0 3 3 3 3 0 0 R R

P I N O _ 1 2 _ I R # 2

R E M O T E

+ 1 2 V

T E R R A

100nF CP22

( R 9 1 )

G A T E _ B

G A T E _ A

1 8 K

3 3 K

( R 8 7 )

1 5 K

1 5 K

2 2 K 1 %

3 K 9

2 2 K 1 %

1 2 K

( R 8 6 )

4 K 3 1 %

T A 2 0 0 0 D -2 R

3 K 9

T A 2 0 0 0 D -4 R

2 K 2

T A 1 6 0 0 D -2 R

3 K 9

T A 1 6 0 0 D -4 R

C E 2 8

C E 2 7

1 5 0 0 u F / 2 0 0 V 1 5 0 0 u F / 2 0 0 V 1 0 0 0 u F / 1 6 0 V 1 0 0 0 u F / 1 6 0 V

1 5 0 0 u F / 2 0 0 V 1 5 0 0 u F / 2 0 0 V 1 0 0 0 u F / 1 6 0 V 1 0 0 0 u F / 1 6 0 V

( R 2 4 , R 4 4 )

F E T 1 3

F E T 7

F E T 1

0 R 2 2

T A 2 0 0 0 D -2 R

I R F B 4 1 1 5

I R F B 4 1 1 5

I R F B 4 1 1 5

I R F B 4 1 1 5

T A 2 0 0 0 D -2 R

T A 2 1 0 K 0 0 D -2 R

T A 2 0 0 0 D -4 R

0 R 1 0

T A 2 0 0 0 D -4 R

I R F B 4 2 2 7

I R F B 4 2 2 7

I R F B 4 2 2 7

I R F B 4 2 2 7

T A 2 0 0 0 D -4 R

T A 2 1 0 K 0 0 D -4 R

T A 1 6 0 0 D -2 R

0 R 2 2

T A 1 6 0 0 D -2 R

5 2 N 1 5

5 2 N 1 5

5 2 N 1 5

5 2 N 1 5

T A 1 6 0 0 D -2 R

4 7 0 R

T A 1 6 0 0 D -2 R

0 R 3 3

T A 1 6 0 0 D -4 R

5 2 N 1 5

5 2 N 1 5

5 2 N 1 5

5 2 N 1 5

T A 1 6 0 0 D -4 R

4 7 0 R

T A 1 6 0 0 D -4 R

T A 2 0 0 0 D -2 R

T A 1 6 0 0 D -4 R

( R 9 1 )

1 8 K

A R Q U I V O

D A T A

P R O J E T O

1 G 5 I V / 1 0 A / 2 L D 0 O 1 0

F O L H A

5 D E

5

D E S E N H A O

D I L S O N



P R O D U T O

A M P L . T A 1 6 0 0 D / T A 2 0 0 0 D S M D R 5

R E V

T R ( T I P M 8 P ) O T

F E T 1 5


3 3 K

2 2 K 1 %

2 2 K 1 %

( R 8 7 )

1 5 K

1 5 K

3 K 9

1 2 K

( R 8 6 )

4 K 3 1 %

( R 1 1 )

T A 2 0 0 0 D -2 R

3 K 9

T A 2 0 0 0 D -4 R

2 K 2

T A 1 6 0 0 D -2 R

3 K 9

T A 1 6 0 0 D -4 R

T A 2 0 0 0 D -2 R

T A 2 1 0 0 0 K 0 D -2 R

T A 2 0 0 0 D -4 R

T A 2 1 0 2 0 K 0 D -4 R

1 K 5

T A 1 6 0 0 D -2 R

T A 1 1 6 0 0 K 0 D -2 R

1 K 2

T A 1 6 0 0 D -4 R

T 1 A 1 0 6 K 0 0 D -4 R

1 K 5

1 K 5

( R 8 8 )

4 7 R 1 %

T A 2 0 0 0 D -2 R

3 3 0 R

T A 2 0 0 0 D -4 R

5 6 R

T A 1 6 0 0 D -2 R

5 6 R

T A 1 6 0 0 D -4 R

( R 2 5 )

INPUT

R

L

1 R K 5 5 4 1 %

( D O D S P I C )

C P 8 2 K 2

C10 100nF

1 0 0 n F

C I 4 : B

R4 22K 1%

R 1 2

LEVEL

T L 0 7 2

R 1 3 3 9 K

R21 3K3

3K3

1 R 1 K 9

100nF C12

1 R 1 K 8

1 K

R 2 0

R 1 6

TP4 100K

T L 0 7 2

1 K

A R Q U I V O

D A T A

P R O J E T O

G 1 V 8 I / 1 A 0 L / 2 D 0 O 1 0

F O L H A

D E S E N H O



P R O D U T O

T A 2 7 0 0 S P M R D É / T A 3 5 0 0 S M D R 6

1 C 0 2 0 4 n F

R E V

C P 6

5K 1% R26

1 R 0 2 K 4 1 %

2 2 K 1 %

R 2 5

1 C 0 0 P n 1 F 1

4 C 7 P n F 1 2 T L 0 7 2

TP3 10KB

6 8 n F

C I 3 : B

100nF C6

C I 2 : A

3 3 0 K 1 %

R 4 3

C R P 1 2 5 7 1 4 2 7 n 0 K F

C P 1 4 1 0 0 n F

10K 1%

R46

13K3 1%

1 K 5 1 % 1 K 2

1 K 2

1 K 5 1 %

C8 100nF

T L 0 7 2 C I 2 : B

100nF C7

1 R 0 K 3 1 7 %

R 1 1

C13 100nF

100nF C14

T L 0 7 2

R 4 9

FEED HABILITA REALIMENTAÇÃO

T L 0 7 2

C I 8 : B


C P 7

1 1 R n 0 1 F K 0

C22 100nF

100nF C23

3 3 R 0 3 K 9 1 %

C16 100pF

1 C 0 1 0 p 5 F 1 R 3 4 K 5 3 1 %

220K

3 5 0 0 -1 o h m s 3 5 0 0 -2 o h m s 2 7 0 0 -2 o h m s 2 7 0 0 -1 o h m

R40 150K 1%

150K 1% R41

R28 R36

1 H I 0 G 0 K H P A S S

T P 5

47K TP6

TP7 47K

T L 0 7 2

+ B 1 A 0 S d S B @ B O 5 O 0 S H T z

T A R A M

L T D A

1 3 K R 3 7 1 %

220nF CP4

C I 3 : A

LOW PASS

C34 100nF


E L E T R Ô N I C A

1 0 C 0 P n 1 F

CP3 100nF

T L 0 7 2


P S

3 R 9 5 K

R 2 3

R6 13K3 1%

C I 5 : A

C I 6 1 C 0 0 1 n 7 F


4 7 R

C 3 0

R 1 4

6 C 8 P n 5 F

C I 7

4 7 p F

T L 0 7 2

R17 1 K

1 0 C 0 p 1 F

4 7 u F

C 2 2 P 0 2 n F

1 K

1 K

C I 1 : B

100nF C4

C I 5 : B

R15 T L 0 C 7 2 I 4 : A

2 2 K 1 %

R 1 3 0 3 K

C11 100nF T L 0 7 2

R 3

22K

C E 1 0

1 C n P F 9

2 2 K R 1 1 %

T L 0 7 2

C I 1 : A

C3 100nF

R22

2 R K 8 7

2 R 2 2 K 1 %

1 0 C 0 2 p F

TPE1

100nF C9

TP8 470R

R 2 9 K 7

2 9 0 m V

C I 9 : B

1 3 K R 3 4 1 4 %

C I 9 : A

6 K 8 1 % 7 K 5 1 %

1 3 K R 3 4 1 8 %

6 K 8 1 % 6 K 8 1 %


( F O N T E B A I X A T E N S Ã O )

(DO PRÉ)

(DO PRÉ)

( D O M I C R O C O N T R O L A D O R )

( F O N T E B A I X A T E N S Ã O ) S H A A Í D B A I L I T A

S D

C 2 P 2 2 0 4 n F

1

2

2

7 R 8 E 1 G 2 3

1 1 4 5 9 0 6

1 3

1 4

1 2 1 1

IR2010S 1 5

3

1

6

7

8

3

R 1 3 K 1

1 0 0 n F

C20

2

I C 2

1 5

100nF

1 1 4 5 9 0 6

1 4

1 3

1 2 1 1

IR2010S 6

1

7

8

I C 1 3

100nF C18

C21 1 C 0 E u 7 F

100nF C50

100uF

1 0 u F

CE5

C49

DZ4 15V

MURS120T3

D9

R47 27R

10K

R38 27R

10K

R35 27R

R32

D14

R30

D5

R29

D2

MURS120T3

DZ16

MURS120T3

DZ12

15V

15V

DZ6

15V

2

3

2

3

9 0 N 2 0 D

15V

1

1

9 0 N 2 0 D

MURS120T3

DZ10

1

1 2

G 1 V 8 I / 1 A 0 L / 2 D 0 O 1 0

F O L H A

D E S E N H O



P R O D U T O

3 2 L u 1 H

T A 2 7 0 0 S S M A D Í D / A T A 3 5 0 0 S M D R 6 R E V

R51

T A R A M

CP18 1nF 250V

CP17 1nF 250V

2K7 5W

2K7 5W R50

L T D A

d B u

V O r m U T s /

3 5 ,4

+ @ 5 9 , 1 2 R V r m s

+ 3 8 , 5

+ @ 8 4 5 2 , R V r m s

+ 3 4 , 6

5 @ ,4 2 1 V R r m s

T A 2 7 0 0 W -1 o h m

+ 3 7 , 9

7 @ 8 , 5 2 V R r m s

T A 2 7 0 0 W -2 o h m s

CP16 2,2uF 400V


2

9 0 N 2 0 D

CP10 6,8uF 250V

3 2 L u 2 H

P R O J E T O

3

9 0 N 2 0 D

CP13 6,8uF 250V

D A T A

DR1

MURS120T3

15V

10K

MURS120T3

A R Q U I V O

DZ2 15V

DZ1

R42 27R

3

1 0 u F

CE3 DR2

15V

R34

10uF CE2

100nF

DZ3

10K

0 R 2 2 5 W

100nF C19

47uF CE24

CE16


+

O U T

-

T A 3 5 0 0 W -1 o h m T A 3 5 0 0 W -2 o h m s

0 R 2 2 5 W

0 R 2 2 5 W

0 R 2 2 5 W

G N D

R E M

+ 1 2 V

R104

R87

1K

10R

1

6 C 8 4 n 0 F

C 6 5 8 3 n F

I R F 1 4 0 4

4 R R 7 1 2 1 3 W

2

4 RR 7 9 1 0 W

3

R88

1

M U R S 1 2 0 T 3

10R 2 3

IRF1404 CE19 470uF 35V

IRF1404

6A10

M U R S 1 2 0 T 3

D 1 7

D 1 3

CE17 470uF 35V

3

6A10 4700uF 25V

2

R101 1K

10R R85

1

IRF1404

15V

3

4 RR 1 7 2 1 4 W

2

R89

4700uF 25V

1

10R

C 6 8 5 n 4 F

4700uF 25V

4 R R 7 8 1 6 W

Z14

150R R52

Z13

C B

6 C 8 3 n 9 F

CE12 10uF

Q 1

100nF

E

150R R53

15V B C P 5 3

C B

CE11 10uF

CP25 100nF

CP26

4700uF 25V

CE25

220uF 16V

220uF 16V

CE18

4700uF 25V C 6 5 8 9 n F

4700uF 25V R103 4700uF 25V

1K

R107 10R

6 C 8 4 n 7 F

4 R R 7 1 2 1 9 W

1

2

4 RR 7 1 1 1 W2

3

4700uF 25V

R106

IRF1404 1

10R 2 3

IRF1404 IRF1404 3 2

R99 1K

R100 10R

1

3

IRF1404 4 RR 1 7 3 1 0 W

2

R116 10R

A R Q U I V O

D A T A

P R O J E T O

G 1 V 8 I / 1 A 0 L / 2 D 0 O 1 0

F O L H A

D E S E N H O



P R O D U T O

T A 2 7 0 0 S F M O D N / T T E A 3 5 0 0 S M D R 6 R E V


1

6 C 8 6 n F 0

T A 3 5 0 0 W 1 o h m E 2 o h m s

T A 2 7 0 0 W 1 o h m E 2 o h m s

3 X 2 2 0 0 u F / 2 0 0 V

3 X 1 5 0 0 u F / 1 6 0 V

R 1 1 7

4 R 7 1 W 6 C 8 4 n 8 F

D R 6

U 1 6 2 0 R

D R 4

U 1 6 2 0

D R 7

U 1 6 2 0 R

2200uF 200V 2200uF 200V 2200uF 200V

R O E B P S O : U D S A O D C O O S A M C V I c M c A Á O 1 B 2 T , 6 I D V O S E M

D R 3

C O N S U M O

T E N S Ã O + B

1 . 9 0 A

1 1 7 V

2 1 . 5 5 0 0 A V 2 1 .4 3 0 4 A V

2 1 .2 0 0 0 A V


U 1 6 2 0

E

B C P Q 5 2 6

R 1 1 2 K 1

M O N I T O R

( P / P R É )

C O N 2

( P / P R CONECTOR ICSP É )

C43 100nF

CE61 R113

1 K

B

Q 3

C

E

R 3 1 3 2 0 8 R

MMBT3906

3 R 3 1 0 1 R 0

R96

R127

1 K

330R

Q 6

C44 100nF

MMBT3904

R102 ON 330R CLIP R97 330R

P I C 1 6 F 6 1 6

1 K

220uF 16V CE21 8

R105

R126

6 8 R 6 8 R

A R Q U I V O

D A T A

R 1 2 5


4 7 R 1 %

4 7 0 n F / C 5 0 5 V 8

100nF C41

7 8 L 0 5 1

R108

R E G 6

R118

2K2 1%

1K 1%

R109

100nF C51

P R O J E T O

D E S E N H O



P R O D U T O

T A 2 7 0 0 S M M I D C R / T O A 3 5 0 0 S M D R 6 R E V


3 5 0 1 1 1 0 2 5 2 -1 K K K o h m s 3 1 5 0 1 2 3 K 0 -2 5 2 3 K K o 1 h % m s 2 7 0 1 1 1 0 5 5 2 -2 K K K o h m s 2 7 0 0 1 2 1 5 -1 5 K K 7 o K h m

M U R S 1 2 0 T 3

D 1 9

R115

R 3 1 3 2 0 0 R

R 1 3 5

47uF CE4

R 1 2 2

R R R 1 1 1 2 1 0 2 5 8

G 1 V 8 I / 1 A 0 L / 2 D 0 O 1 0

F O L H A

2

1K 6 N 1 3 9

B C Q P 5 5 3

C45

(P/ SAÍDA)

R114

C61

4 7 R 1 %

E

100nF

1 0 9 R

4 7 R 1 %

R92

C

330R

CP29 R 3 1 3

100nF

R91 10K

1 0 0 n F

M C C 4 1 2

6n8

CE31

560R

R 1 9 K 5

B

R98 P R O T

47uF

D 2 1

R94

10K

R 3 1 3 1 0 1 R

R 1 2 6

L L 4 1 4 8

220uF 35V

I R I 4 C 4 5 2 7

CE26 47uF

100nF CP31

4 R 7 1 W

T A 3 5 0 0 W 1 o h m E 2 o h m s

3 X 2 2 0 0 u F / 2 0 0 V

A R Q U I V O

D A T A

P R O J E T O

1 G 8 I V / 1 0 A / 2 L D 0 O 1 0

F O L H A

D E S E N H O




P R O D U T O

T A 2 7 0 0 S M D / T A 3 5 0 0 S M D R 6

R E V


T A 2 7 0 0 W 1 o h m E 2 o h m s

3 X 1 5 0 0 u F / 1 6 0 V

R 1 1 1 K 5 1 % 1 K 2 1 K 2

1 K 5 1 %


R 4 9 6 K 8 1 % 7 K 5 1 % 6 K 8 1 % 6 K 8 1 %


R 1 2 6 4 7 R 1 % 4 7 R 1 % 6 8 R 6 8 R


R 1 2 2

R 1 1 5

R 1 0 8

1 1 1 2 5 2 K K K 1 1 2 3 K 5 2 3 K K 1 % 1 1 1 5 5 2 K K K

1 1 2 K 5 5 K K 7


I n L p u t 1 = 0 3 u F 0 0 m V 2 ( K 8 7 ,2 d B u ) 2 2 K 1 %

R 1 0 u F 1 K 5 1 %

( D O D S P I C )

2 K 7 2 2 K 1 %

100pF 22K 1%

1 0 0 n F 2 K 2 T L 0 7 2

1 0 0 n F

5 5 3 2

LEVEL 22K

C I 1 : A

2 2 K 1 %

1 0 0 p F

T L 0 7 2

C I 2 : A

4 7 u F 3 9 K

1 n F

1 0 K

100nF 1K

3 9 K

3K3

3K3 T L 0 7 2

100nF

1 K

4 7 R

1 0 0 n F

1 0 0 n F

1 K

1 K

1 0 0 n F

1K 1K C I 4 : A

1 K

220nF

100K

C I 5 : A

1 K

1 3 K 3 1 %

LOW PASS 6 8 n F

1 0 0 n F

L

L

(PARA IR SAIDA)


B A S S B O O S T

R72 5K 1%

10K

R74

T L 0 7 2

R 2 6

R 7 3 1 0 K 1 %

U 6 : A

C P 3 6 1 5 n F

C P 2 9 1 0 0 n F

C P 2 7 1 0 0 n F

8 8 2 2 n nF F

R 1 2 7 0 5 K

D A T A

P R O J E T O

G 1 I 7 V / 0 A 2 L / 2 D 0 O 1 1

F O L H A

1 D E

4

F O A L 3 H A

P R O D U T O

B T L O A C 6 5 O 0

P R E

0 D R 7 ( 1 R / 2 R )

D E S P E N A H U O

L O

R E V

C I 3 : A

H I G 1 H 0 P 0 A K S S

C C P P 2 2 6 1

3 3 0 K 1 %

1 1 4 0 4 0 7 0 7 n 0 n n F n F F F C C C C P P P P 3 1 2 3 4 4 0 3

3 3 0 K 1 %

T A R A M

1 0 0 p F

C17 100nF

100nF C16

T L 0 7 2

U 6 : B

L T D A

1 1 3 3 K K 3 3 1 1 % %

1 0 0 p F

13K3 1% 1 R 0 7 K 6 1 %

8 0 H z ( + 1 0 d B )


150K 1%

150K 1%

R94 220K

1 3 K 3 1 %

100nF T L 0 7 2

C P 3 5 1 5 n F

10K 1%

A R Q U I V O

2 2 0 n F

6 8 n F

100nF

2 2 K 1 %

1 0 0 n F

47K

47K

1 0 0 n F

1 0 0 n F

(PARA IR SAIDA)

4 7 p F

6 0 H z ( + 1 0 d B )

5 0 H z ( + 1 0 d B )

T L 0 7 2

1 0 0 n F

1 3 K 3 1 % 100nF

47uF 1 K 5 1 %

1 0 0 n F

1 n F

100nF

1 0 K 1 %

R 6 1 6 K 8 1 %

1 o h m

1 0 K 1 %

2 o h m s

R 6 1 F E E D

R H E A A B L I L I M I T E A N T A Ç Ã O



B ( D A O I X A D T S E P F (DO PRÉ) N / S O Ã N O T ) E

(DO PRÉ)



0R22 5W 4 7 u F

4 7 u F

0R22 5W 0R22 5W 0R22 5W

1K 2 2 0 n F

100nF

2 2 0 n F

0R22 5W 0R22 5W

47uF 7 8 1 2

0R22 5W

7 8 1 2

IR2010

IR2010 0R22 5W

100nF

100nF

100nF

47uF

10K 1 0 u F

100nF 10K

10K 100nF

47uF

10K

100nF

15V

15V

BYV27-200

BYV27-200 15V

FET7

27R

BYV27-200

27R

FET8

FET3

BYV27-200

15V

1

15V

2

3

FET4

FET6

FET2

6,8uF 250V

6,8uF 250V

6,8uF 250V

D A T A

P R O J E T O

G 1 I 7 V / 0 A 2 L / 2 D 0 O 1 1

F O L H A

2 D E

4

F O A L 3 H A

P R O D U T O

B T L O A C 6 5 O 0

S A Í D A

0 D R 7 ( 1 R / 2 R )

D E S P E N A H U O

L O

R E V

3 2 u H

3 2 u H

6,8uF 250V

T A R A M

2 K 7 5 W

6,8uF 250V 6,8uF 250V 1nF 630V


+

+ S A I D A

V d R B u M S + 8 4 0 ,1 ,4 2 1 5

1 o h T m 6 . 5 2 K + 4 1 o W 3 1 h ,4 5 m 3 s

6,8uF 250V

2

3

6,8uF 250V

A R Q U I V O

FET1

27R

1 2

3

2

3

BYV27-200

15V

1

15V

2

3

1 2

3

15V

FET5

BYV27-200 1

15V

1 2

3

27R

BYV27-200

BYV27-200 1

2

3

BYV27-200

27R

27R

1

15V

15V

BYV27-200

27R

27R

15V

10uF

10uF

1 0 u F

2 K 7 5 W 1 n F 6 3 0 V - S A I D A

F E T 1 a F E T 8 I R F P 9 0 N 2 0 D I R F P 4 7 6 8

1 o h m

T 6 . 5 K 2 W o h m s

1K 100nF 1 N 4 1 4 8

220uF 35V 2 2 K 1 %

2 K 2 1 %

4 7 u F

1 K 1 0 u F

1K 1%

1 0 0 n F

2 2 K 1 %

100nF

1K 1%

1K B

R A

1 0 K 1 R % A 2 5 K 5 1 %

1K

C

E

1 o h m

560R

10K E

B C 3 3 7

2 o h m s

B C

T I P 4 2 C

100nF

100nF

4 7 u F

D S P 1

D S P

7 8 0 5

B Y V 2 7 -2 0 0

7 8 0 5

R R Y X

100nF

1K

1 A 1 5 6 o j u 0 8 R R h m s t e P r 2 o 1 5 o 5 6 h t e 0 R m ç R ã s o

47uF 6 n 8

1 2 3

1 0 K

B C 3 2 7

4 7 u F

100nF

1 0 u F

1 0 u F

1 0 0 n F

100nF

4 7 u F 1 0 0 n F

PROT 330R C L I P

330R 6 N 1 3 9

R R X Y

330R

ON 3 3 3 3 3 3 0 R 0 R 0 R

2 2 0 n F

P R O T

4 7 R 1 %

B Y V 2 7 -2 0 0

A R Q U I V O

D A T A

1 7 / 0 2 / 2 0 1 1

F O L H A

3 D E

4

P R O J E T O

G I V A L D O

F O A L 3 H A

P R O D U T O

B T L O A C 6 5 O 0

D S P

0 D R 7 ( 1 R / 2 R )

D E S P E N A H U O

L O

R E V

B Y V 2 7 -2 0 0

470uF 35V

470uF 35V


IR2010

1K

2 2 0 n F

2 2 0 n F E

C

C

S

100uF

100nF

7 R 8 E L G 1 5 1 S

100uF

100nF

47uF

100nF

E

7 R 9 E L G 1 5 2

1K

B Y V 2 7 -2 0 0

+ 1 2 V

R E M

+ 1 2 V

6A10 6A10 6A10

10R

6 8 n F 4 R 7 1 W

6 8 n F 4 R 7 1 W

6 8 n F

4700uF 25V

4 R 7 1 W

4 R 7 1 W

10R 4700uF 25V

IRF1404

6 8 n F

IRF1404 4700uF 25V

10R

IRF1404

4700uF 25V

T R 6

IRF1404

10R

IRF1404

T R 2

IRF1404 4700uF 25V

10R

10R

10R

10R

4700uF 25V

IRF1404 4 R 7 1 W 6 8 n F

4 R 7 1 W 6 8 n F

6 8 n F 4 R 7 1 W

6 8 n F

4700uF 25V

4 R 7 1 W

4700uF 25V

IRF1404

4700uF 25V

4 R 7 1 W

10R

4700uF 25V

10R

IRF1404

4 R 7 1 W

6 8 n F

6 8 n F

6 8 n F 4 R 7 1 W

6 8 n F 4 R 7 1 W

IRF1404

10R

4700uF 25V

IRF1404

T R 7

IRF1404

10R

4700uF 25V

IRF1404

T R 3

IRF1404 10R 10R

IRF1404 10R

4 R 7 1 W 6 8 n F

A R Q U I V O

D A T A

1 7 / 0 2 / 2 0 1 1

F O L H A

4 D E

4

P R O J E T O

G I V A L D O

F O A L 3 H A

P R O D U T O

B T L O A C 6 5 O 0

F O N T E

0 D R 7 ( 1 R / 2 R )

D E S P E N A H U O

L O

R E V

T A R A M

IRF1404

4 R 7 1 W

10R

6 8 n F

U 1 6 2 0 R

4 R 7 1 W

4 R 7 1 W

6 8 n F

U 1 6 2 0 R

U 1 6 2 0 R

U 1 6 2 0

U 1 6 2 0 R

U 1 6 2 0

U 1 6 2 0

6 8 n F

U 1 6 2 0


8 x 1 0 0 0 u F 2 5 0 V

D a d o s o b t i d o s a 1 2 . 6 V e m r e p o u s o

C O N S + U B M O 4 .1 0 A

1 1 5 o 1 h V m

4 . 5 5 A

2 0 2 V

2 o h m s

R I G 0 H ° T

1K

C 1 E 0 1 u 4 F

R57

1K

C 1 E 0 1 u 3 F

1 R K 5 2 1

C 1 E 0 1 u 7 F

180R R58

2 R 2 K 6 1 1 %

2 R 2 K 6 1 0 %

1 C 0 E u 1 F 5 2 2 K R 1 6 % 5

1 8 R 0 5 R 2

2 2 R K 1 6 % 6

C21

33pF

100nF C115

1 0 0 n F

CE53 R83 1K 1%

R86 1K 1%

2 7 R K 3 1 1 %

R105

3 R 3 1 K 8

C 3 3 3 3 p F

C170 R 1 4 5 3 K

C I 2 : A

39nF

3 R C17 9 3 K 7

39nF

C169

C I 4 : A

0 °

100nF

0 °

1 0 C 0 1 n 5 F

C24

100nF

C I 1 0 : A

R C 4 5 5 8

1 R 0 K 8 1 %

2 2 R K 1 1 % C 1 1 R 1 2

4 7 C C n F 8 6 1 2 0 K

1 4 0 7 0 n F n F

R13 10K

P F R O O A L J 3 H E A T O B L O P C A O U

0 7 / 0 L 9 O / 2 0 1 1

F O L H A

1 D E

3


S O N

P R E ( A / B )

P R O D U T O

T A T R L A 1 5 M 0 0 P 3 C S H _ A R 3 M P L I F I C A D O R R E E S V

+ B 1 A 0 S d S B B @ O 5 O 0 S H T z

10K 1%

220K R14

1 8 0 °

0 ° 1 R 0 1 K 5 1 %

R C 4 5 5 C 8 I 1 0 : B

1 0 R K 6 1 3 %

R C 4 5 C 5 8 I 3 : A

1 0 R K 6 1 4 %

2 7 KR 1 1 % 1

R C 4 5 5 8

3 R K 4 9 2

R C 4 5 5 8 C I 5 : B

R9 4K99 1%

D A T A

1 0 C 0 1 n F 4

27K 1%

0 °

A R Q U I V O

1 0 0 n F

2 2 R K 2 1 1 %

R C 4 5 5 8

C I 5 : A

2 2 KR 1 6 %

1 8 0 ° C 3 0

3 R K 4 9 8

R C 4 5 5 C 8 I 4 : B

R C C 4 5 I 3 1 5 C : A 8 7 3 p F

R22 6K8

R C 4 5 5 C 8 I 2 : B

100nF C136

47uF

R23 6K8

C 3 1

R106 27K 1%

C 3 2 3 p F

2 2 R K 2 1 7 %

180°

C 3 2

2 2 K R 1 3 %

R5 22K 1%

C 3 3 2 p 9 F

R C 4 5 5 C 8 I 1 : B 1 0 0 n F

100nF C203

1 C 0 E 9 u F

2 2 R K 3 1 6 %

R20 22K 1%

1 0 C u E F 1

P P T C 1

C 1 E 0 1 u 2 F

1 R K 3 2 0

1 R 8 2 0 4 R

R55

C 1 E 0 1 u 6 F

1 0 C u E F 2

R56 1 0 C u E F 6

R 1 1 R 3 K K 3 8 2 2 2 180R

L E F T

C 2 3 3 3 p F

R C 4 5 5 8 C 3 1 3 6 p F

0 °

1 5 R 1 K 0

1 0 C 0 4 n F 3

MMBT3906

C22

E

QC B 1 5

47uF 25V

1 0 C 0 E u 4 F 1

R95 10K

R 8 2

AZUL READY

MMBT3904 E C

R74 2K2

LD2

1 0 C 0 E u 4 F 2

1 K

4 7 0 n F

Q 1 3

B 2 R 2 8 K 1

1 C 0 7 0 6 R

1 0 0 p F

4 C 7 E 5 0 0 n F

R 7 2

4 7 0 n F

C E 5 1

1 0 R 0 7 R 1

1 1 0 R 0 0 7 0 p C 1 C R 0 F 7 0 7 7 0 p 8 F

1 0 C 0 9 n F 2

1 R 0 K 5 1 9 %

4 C 7 E 0 4 n 8 F

1 n F

C 6 4

C E 4 9

1 0 0 R

1 C 0 E u 3 F 9 1 1 0 0 0 0 C p F n F 7 9

R 6 8

4 , 7 n C F 7 5

R 5 4

C 8 0

100nF C91

2 3 4 K 3 0 1 p % F

R E S E T

C 6 6

R 1 6 R 7 5

D6

4148

100uF

2 2 0 C n 9 F 4

R104 22K R103

R102

22K

10K R C 4 5 5 C 8 I 3 : B 1 R 0 1 K 0 1

C97 220nF

C 1 0 5

3 C 3 1 n F 0 2

3 3 n F C 1 0 4

C132 2,2uF 63V

C130 2,2uF 63V

B

Q 1 6

2,2uF 63V C135

R94 2K2

MMBT3904

6K8

10K

R99

R98

P C 8 1 7 2 7 L u 2 H

2 7 L u 3 H

100nF/63V

Q 1 7 E

B

3R3 R77

C

100nF/63V

C 1 1 0 2 n 2 F

C 1 1 0 2 n 8 F

3R3 R79

MMBT3904

B

P F R O O A L J 3 H E A T O B L O P C A O U

0 7 / 0 L 9 O / 2 0 1 1

F O L H A

2 D E

3


S O N

S A I D A

P R O D U T O

T A T R L A 1 5 M 0 0 P 3 C S H _ A R 3 M P L I F I C A D O R R E E V S

R 1 9 0 3 K

D S 8 1 M

H J R 3 F F S -Z

C 1 2 5

680nF 63V

680nF 63V

C 1 6 n 3 F

C 1 6 n 8 F

C 1 1 0 1 n 9 F

C 1 1 0 2 n 0 F

H J R 3 F F S -Z C N 1 1

Q 1 4 470nF/63V

470nF/63V

R96

10K R97

10K 470uF/50V

470uF/50V

R85 4K99 1% 470uF/50V

470uF/50V

R87

R88

4K99 1%

4K99 1%

C N 1 2

R84 4K99 1%

- R + I G H T

- L + E F T

2 7 L u 4 H

C 1 2 3

3R3 R75

MMBT3904 E C

D A T A

2 L 7 1 u H

C69

C71

A R Q U I V O

3 3 n F

C134 2,2uF 63V

1 R R 6 5 2

C

E

C 1 1 0

3 3 n F

1K R100

1

7 R 8 E 1 G 2 1 3

2

-

+

( F S c U B = 1 W 0 O 0 U O H T O z ) F E R

3R3 R76

C O N 1

S1M D4

1 N 4 1 4 8

C10 10uF

G N D

R E M O T O

+ 1 2 V

C12 100nF

D 2

1K 10K 1%

R4

R17

Q 7

4 K 7

4 7 C E u 7 F

R 2 9 C 3 1 K 3 3 1 %

R 4 1 1 0 R

6 n 8

R 3 5

4 K 7

R 3 4

5 R 6 K 4 1 4 %

E

1 0 KR 1 1 % 6

R2

B C

MMBT3904

R 3 3 9 9 K

10K 1%

E

1K 1%

B

R7

C

B Q C P 6 5 3

4 7 0 0 u F 1 6 V

CE4 47uF 4 R K F 7 8

S G 3 5 2 5

C I F 1

1 0 0 n C F 4 0

CF5

CF6

1 0 0 n F 1 0 u F 1 6 V

C9 100nF

1K R25 1 C 0 4 0 1 n F

1 K

R 2 8

1K R26 R 4 5

R 4 0

2 7 R 1

2 7 R 1

2

2

3 IRF1404 1 0 C n 4 F 4

3 IRF1404

2 R 7 4 R 7

1 0 C n 4 F 2

2 7 R 4 R 6

T R F 1

A R Q U I V O

D A T A


0 P 7 A / 0 U 9 L / 2 O 0 1 1

F O L H A

3 D E

3

D E S E N A H D O

I L S O N

P R O D U T O

T A R A T L M B 1 L 5 P O 0 S C 0 O 3 C A H F _ M O R N 3 P T L E I F I C A D O R R E E V S

1000uF 63V

U 1 6 2 0 R

U 1 6 2 0

C18 470uF 35V

C28 1000uF 63V

C27 1000uF 63V

C26

S 1 M

G N D D 1 CE5 47uF

R 7 E G 8 1 1 5 0

C E 3

R e m o t o

G N D

+ 1 2 V

1K

C 4 E , 5 7 5 u F

C O N 1

1K

D 3

R203 C83 10uF 16V

D 2 1 n F

180R

C 1 E 0 6 u 3 F

C82 1

N 4 1 4 8

C u 5 F 4

4 7 R 0 1 1 R 3

100nF

1 N 4 1 4 8

C67

D5

10uF 16V

LL4148

R10

R11

10K 1%

27K

1 R 8 1 0 2 R 2

R115

R 1 2 5

1 0 K 1 %

R 1 2 7

1 0 K 1 %

R 4 1 7 1 0 2 R

4 7 0 R

4 C R120 , 7 E u 5 F 2 R 1 R 1 8 1 1 1 0 0 R 9

1 0 R K 1 1 2 % 6

4 7 R 0 1 1 R 0

1 0 R K 1 1 3 %2

R128

27K

1 0 R K 1 1 3 % 7

R 1 3 8

10K 1%

1 0 R K 1 1 2 % 9

47uF

1 0 K 1 %

CE53 R130

2 K 2

M M L B D T 3 2 9 0 Q 4 1

E

R 4

1

1 2

IRLZ24N

IRLZ24N

IRLZ24N

IRLZ24N 3 2

1 0 0 n F

1 1 R 1 R 0 0 1 0 1 0 0 0 0 p 1 C R 8 R 0 7 F C 0 7 0 7 7 p 8 F

1 0 R K 1 1 1 % 6

R 1 0 6

1 C 0 u E 4 F 9

1 0 0 R

R 1 0 4

1 0 0 C p F 7 9

1 C 0 E u 3 F 9

1 0 C 0 9 n F 2

1 R 0 K 5 1 9 %

C 6 4

1 n F

C 7 5

4 , 7 n F

R 5 4

2 4 K 1 %

3 3 0 p F

C 1 0 2

1 2 2 0 C n F 9 7

15V 10K 1% R8 R

7

1 0 0 n F

C 1 0 5

3 3 n F 2 ,2 u C F 1 6 3 3 V 0

4 7 R

2 ,2 u C F 1 6 3 3 V 2

3 3 n F C 1 0 4

3 3 n F

C 1 1 0

2 ,2 u C F 1 6 3 3 V 5

3 3 n F

470uF 35V

C 9 8

R 6 2

1 R 5

4 7 0 u F 3 5 V

4 7 0 u F 3 5 V

C134 2,2uF 63V

470uF 35V

7 u L H 2

T L 6 0 0 R 2 . s c h

T u e S e p 0 6 , 2 0 1 1

P r e + P o t e n c i a

A M P L I F I C A D O R T L 6 0 0

7 u L H 4

7 u L H 3 6 8 0 C n F 1 2 6 7 3 V 1 C n 6 F 9

6 8 0 C n F 1 2 6 6 3 V 1 C n 7 F 1

6 8 0 n F 6 3 V

C 1 2 5

C 1 2 3

1 C n 6 F 8

1 C 0 1 n 2 F 8

C E 5 8

1 C 0 1 n 2 F 2

3R3

1

7 8 1 2

R119 3R3 R123

3R3 R121

3 47uF

1 C E 5 7 2

6 8 0 n F 6 3 V

7 L u 1 H

1 C n 6 F 3

47uF 35V

2

1

C 9 1

C 6 6

1 0 0 n F

R 7 1

2 2 0 n F C 9 4

2 Z5

C 9 9

C E 4 8

1 0 u F

1 0 0 C 0 u E F 6 1 6 V

3

4 7 R

1 C 0 7 0 6 R

1 0 u F

T D F 8 5 9 9 -T H S

4 7 0 C 0 u E F 4 1 6 V

R 6

1 0 0 p F

C E 5 1

2 3

R9

L E D A Z

C

1 0 0 0 u F 1 6 V

4 7 R

3

10K 1%

1 0 0 n F

B

CE2

4 7 R

1 C 0 E u 5 F 0

R 2 0 0

1 K

1000uF 16V CE1

15V

C 9 3

C80

1 0 C 1 0 0 n 0 F

Z6

1K 1%

1 R 0 1 K 3 1 4 %

100nF

D 4

R 2 0 1

1

R135

1K 1%

CE56

1 N 4 1 4 8

R 5

1 C 0 E u 5 F 9 1 0 R K 1 1 3 % 6

1 R 8 1 0 1 R 4

1 C 0 E u 6 F 1 1 0 R K 1 1 3 % 1

1 C 0 E 6 u 2 F 1 R 0 1 K 2 1 4 %

4 C , E 7 6 u 0 F

47uF

R202

C 8 1

1K

R117 ,4 E 7

C N 1 1 -

+

-

+

1 C 0 1 n 2 F 0

1 C 0 1 n 1 F 9

3R3 R118

1 R 5

220pF

I C38 N P U T C H 2

1 C 0 E u 1 F 5

R 2 3 2 3 K 1 %

R20 22K 1%

I N P U T C H 1

1 C E 0 u 9 F

4 R 7 R 1 1 W 2 2

2 2 R K 3 1 6 %

2 2 K 1 %

R 4

2 2 K R 1 3 %

1 2 0 R R 1 1 1 W 6

R5 22K 1%

1 2 0 R R 2 1 0 W 2

DZ3 C21

C 2 2 2 p F

22pF

R C 4 5 5 C 8 I 1 : B

C 5 4 100nF C47

1 0 u F

100nF

2 2 R K 2 1 7 %

C 2 9 2 2 p F C E 2 6

C I 1 : A

R C 4 5 C 2 5 7 2 8 p F

1 0 u F

C E 8

1 R 0 5 K 3 C50

CI4:B

R C 4 5 5 8

C I 4 : A

T 2 P 2 2 K

R 3 7

C 3 5

3 3 K

33K

C 3 2 9 5 n F

R30

D A T A

P R O J E T O

1 G 3 I V / 0 A 9 L / 2 D 0 O 1 0

F O L H A


P R E

P R O D U T O

T S 1 5 0 _ X 2 S M D

D E S E N H O

F r i J a A 1 n D 0 L D 7 I E , S 2 O 3 0 1 N 1

R E V


3 R 3 3 K 1

C 3 2

6 8 n F

33K

R 6 9

4 7 K

3 d H I B G @ H 1 P 0 A 0 S H S z

F U L L c

R 2 2

3 R 3 1 K 0

2 K 2

33K R18

C 1 6

6 8 n F

C49

6 C 8 n 1 F 4

3 R 3 1 K 1 C 1 2

R19 33K

R C 4 5 5 8 C I 2 : B

R C 4 5 5 C 8 I 3 : B

100nF C53

A R Q U I V O

2 T 2 P K 1

6 8 n F

C 1 7

R23

6 C 8 2 n 4 F

100nF

R C 4 5 5 8

R40

6 8 n F

C52

L E V E L

3K3

3K3

R34

L E D A Z

1K

R57

2K2

LD2

R43

L E V E L

R50

100nF

47uF CE112

1 R 0 4 K 2 1K

100nF C51

2 2 KR 1 6 %

3 9 n F

R C 4 5 5 C 8 I 3 : A

C I 2 : A

R C 4 5 5 8

100nF

3 d L B O @ W 1 P A 0 0 S H S z

C48

4 7 K R 5 8

100nF

R 4 5 7 6 K

3 d H B G I @ H 1 P 0 A 0 S H S z

F U L L c

3 L d O B @ W 1 P 0 A 0 S H S z

DZ2

1 5 V

1 5 V

4 R 7 K 5 5

47uF CE111

5K6 R200

C E 1 0 4 1

4 , 7 u F

C 1 4 3 n F

C39 1nF C33

R 2 1

6 6 R K K 1 8 8 7

4 7 0 n F

C31

1 n F

1 n F

4 7 C 0 4 n 1 F

C 4 0

R 6 R 2 K 2 4 8 5

4

100nF C30

220pF C

5

1 1

2

4 6

9

1 2 T D F 8 5 9 1 T H

13

R2 47pF 10R

19

C22 24 100nF

1 0 0 n F

8 1 0

1

C37

C26

4 7 C 0 4 n 4 F

3

C28 100nF

R 1 7 0 R

6 K 8

C 4 5

4 7 0 n F

220pF

C 4 2

C 4 E , 7 1 u 0 F 3 9

7

C23

C6

100nF

100uF

1 0 C 0 1 n 8 F

1 0 2 7

560pF

20

2 1

10R R14

C5

560pF

D2

2 2

1 5

R15 10R

2 7 R R 1 1 2 W

2 7 u L H 2

D1

1 0 C 0 n 4 F

2 7 R R 1 1 3 W

D3 ES1-G

2 7 u L H 1

470nF 63V C1123

470nF 63V C1124

C N 1 0 1 1 - O + U T P U T C H 2

A R Q U I V O

D A T A

P R O J E T O

1 G 3 I V / 0 A 9 L / 2 D 0 O 1 0

F O L H A

D E S E N H O

F r i J a A 2 n D 0 L D 7 I E , S 2 O 3 0 1 N 1



P R O D U T O

T S 1 5 0 _ X 2 S M D

R E V


D A D O S O B T I D O S À 1 3 , 8 V c c

2 4 , 5 V r m s @ 4 R = 1 5 0 W r m s X 1 C H ( B T L )

1 2 ,2 5 V r m s @ 2 R = 7 5 W r m s X 2 C H

B T L

- O + U T P U T C H 1

560pF C9

4 C 7 E u 1 F 0 6 9 3 6 V

C8 560pF

D4 ES1-G

2 2 0 u C F E 3 1 5 1 9 V 9

1 0 0 n F 100nF C19

1 C 5 1 n 1 F

ES1-G

1 0 C 0 n 3 F

1 6

C 1 0

1 5 n F

ES1-G

CE1099

6 R K 1 8 6

27K 1%

1 4

23

6K8

DZ1

C1 100nF

6

18

R97

5V6

R78

100nF 100nF

R9 10R

1 0 C 0 3 n 4 F

C

C27

C 3 6

C15 100nF

100nF C13

CE1200

1 R 0 8 R

2 2 0 u F 3 5 V

R E M O T E

G N D C O N 1

CFE4 47uF

C F E 3

1 0 u F

R 4 6 1 8 R

2 K 2 1 %

6 C n 8 5 9

100nF C61

R 4 4 K 4 7

R 4 5

100nF

S G 3 5 2 5

C I F 1

4 K 7

R 4 1

+ 1 2 V

R 3 9

1 K

1 N 4 1 4 8

CFE1

DF1

D 5

1 0 0 0 u F / 2 5 V

1N5404

B

C58

C E

B C Q P 1 5 6

47uF CFE2

1 0 C n 5 F 7 45KHz 45KHz

R 3 2

2 7 R

R38

1 0 K

O b s : D A D O S O B T I D O S A 1 2 , 6 V c c E M R E P O U S O A R Q U I V O

D A T A

P R O J E T O

1 G 3 I V / 0 A 9 L / 2 D 0 O 1 0

F O L H A

C O N S + U B M O 5 5 0 m A

6 2 2 0 1 m ,7 A

2 7 R

IRFZ44

R35

1 0 K

1 2 , 6 V c c 1 3 , 8 V c c

1 0 C n 5 F 5


F O N T E

P R O D U T O

T S 1 5 0 _ X 2 S M D

R E V


2 R 7 2 R 6

IRFZ44

1 C 0 6 0 0 n F

1 R K 4 7

1 0 C n 5 F 6

T R F 1

2 7 R R 1

U F 5 4 0 4

D E S E N H O


1 9 , 8

R 2 8

U F 5 4 0 4

U F 5 4 0 4

U F 5 4 0 4 2 X 1 0 0 0 u F / 2 5 V

220pF

1 C 0 E u 1 F 5

R 2 3 2 K 3 1 %

C38

I N P U T C H 2

I N P U T C H 1

2 2 R K 3 1 6 %

4 R 7 R 1 W 1 2 2

R20 22K 1%

C21

1 C E 0 u 9 F

R5 22K 1%

C 2 2 2 p F

22pF

C 2 9

R C 4 5 5 C 8 I 1 : B

C115 100nF C201

1 0 u F

100nF

2 2 K R 2 1 7 %

2 2 p F

2 2 K R 1 3 %

1 0 u F

1 R 0 5 K 3

C E 8

1 R 0 4 K 2 1K

R43

CI4:B

R C 4 5 5 8

G A I N

T 2 P 2 2 K

C I 4 : A

R57

3K3

3K3

R40

6 8 n F

C 3 5

R C 4 5 5 8

G A I N

6 8 n F

C 1 7

R 3 3 3 7 K

R23

1 C 2 1 0 5 p F 9

1K

R50

1 C 0 1 3 0 n 3 F

2 2 KR 1 6 %

R C 4 C C 5 I 7 2 1 5 2 : p A 8 F

C E 2 6

1 C 0 1 0 3 6 n F

2 2 K 1 %

R 4

2 T 2 P K 1

6 R K 1 8 0 1 0 %

3 R 3 1 K 0

I C 1

33K

6 C 8 2 n F 4 2K2 R34

33K

R18

3 R C 3 3 3 K 1 2

C 3 2 9 n 5 F

R30 33K

1 0 C 0 n 1 2 F 9

2 K 2

R 6 9

R C 4 5 5 C 8 I 2 : B F U L L

H I G H P A S S

4 7 K

L 4 O R 7 W 5 8 K P A S S

c

1nF

C 4 E , 4 7 8 u F

4 7 C 0 7 n 0 F C 2 2 6 6 0 p F

C81 100nF

C 6 7

4

R 5 4 6 7 K

C 4 6 7 0 0 n F

4 7 0 n F

2 1 1

5

47pF

9

C89

C85

1 0 0 n F

1 0 0 n F

C 8 4

100nF

1 8

2 0

560pF C108

R105

C109

10R

560pF

2 2

2 2 / 0 9 / 2 0 1 0

F O L H A

1 D E

3

A L D O

A m p l i -A

P R O D U T O

1 5

T S 3 0 0 X 4 S M D _ R 2


S O N

R E V

T A R A M

C 1 1 0 5 2 n F

D151

ES1-G

ES1-G

L T D A

B l i n d a g e m

C 7 4

1 0 0 n F

10R

2 7 RR 1 1 W 1 8

ES1-G

1 0 u L H 1

C N 1 1 +

10R

CE1203 220uF 35V

100uF

560pF 560pF

CE1202 220uF 35V

C E 9 9

100nF C155

100nF C140

1 0 C 0 9 n 3 F

+

O U T P U T C H 1

3 K 3

2 5 V

V D D V S S

8 2 R R 1 1 1 W 6

8 2 R R 2 1 W 0 2

C106 DZ3

DZ2

1 5 V

47uF CE112

LD2

L E D A Z

470nF 63V C123

O U T P U T C H 2

10R

R165

R 4 9 K 8 7

C107

100nF 470nF 63V C124

R164

R 1 0 1

B l i n d a g e m

D148

D138

1 0 C 0 1 1 n 9 F

-

4 R 7 5 K 5

1 5 V


c

C C E 1 9 7 1 100nF 9 6 1 C 0 9 0 2 n 47uF 63V F

1 6

15nF C103

D139

R120 C121 27R 1W

L O W P A S S

6

R104

1 0 L u H 2

5 D V Z 6 4

G N D

7

ES1-G


1 0

1 4

2 1

220nF C113

1 0 0 C n 7 F 5

2 3

1 0 C 0 8 n 6 F

D A T A

8

T D F 8 5 9 1 T H

1 3

C73

10R R167

F U L L

1 2

1 1 9 2 4

100nF

R C 4 C 5 I 5 2 8 : A

4 7 C 0 6 n F 1

2 2 0 C p 5 F 9

3

C82

A R Q U I V O

CE39

H I G H P A S S

6 C 8 n 1 F 4

4 , 7 u C F 6 1 4 n F 6 6 R K R K 6 8 5 4 8 2

1 C n 6 F 6 R 6 K 7 K 5 8 1 8

R 6 8

3 9 n F

100nF C169

1 C n F 6 3

3 R 3 K 1 1

C 1 2

R C 4 5 5 C 8 I 3 : A

100nF C168

C72

R 1 1 0 6 6 R

6 8 n F

C 1 6

R19 33K

R C 4 5 5 C 8 I 3 : B

100nF C131

R 2 2

6 8 n F

47uF CE111

5K6 R200

C1038

C E 1 0 1 u 0 1 F 5

R 2 1 2 0 K 3 1 3 %

22pF C1021 C1201 100nF

C 2 2 1 p 0 2 F 9

R C 4 5 5 C 8 I 1 0 0 1 : B

100nF C1115

I N P U T C H 3

C E 1 1 0 0 u 0 F 9

4 R 7 R 1 1 W 2 5

2 2 K 1 %

R 1 0 3 6

R1020 22K 1%

220pF

I N P U T C H 4

R 2 1 0 2 0 K 4 1 %

R1005 22K 1%

C 2 1 2 0 p 0 F 2

2 R 2 K 1 1 0 2 % 7

R 1 1 0 0 K 5 3

R C C 4 I 1 5 0 5 0 8 1 : A 1 C 0 E u 1 F 0 0 8

CE1026 10uF

C1133 100nF

2 R 2 K 1 0 1 0 % 3

C 1 0 0 7 2 2 p F

2 R 2 1 K 0 1 0 % 6

1 R 1 0 0 K 4 2

R1051 1K

R1052 1K

R C 4 5 5 8

100nF C1136

C I 1 0 0 4 : B

T P 2 1 0 2 0 K 2

C I 1 0 0 4 : A

G A I N

R1057

T P 1 0 0 2 1 2 K

R C 4 5 5 8

G A I N

3K3

C 6 1 8 n 0 3 F 5

R1034 2K2

C1024 68nF

R1030 33K

R 3 1 3 0 3 K 1

39nF

C1129 100nF

100nF C1131

R C 4 5 5 8 C I 1 0 F 0 2 U : L B L

H I G H P A S S

c

C 4 E , 1 7 0 u F 4 1

100nF

C 1 0 8 1

C 1 0 3 2

C1082 100nF C1073

C1086

1 0 0 n F

L O W P A S S

R 1 0 5 8 4 7 K

C1089

C1108 560pF

0 A 9 L / 2 D 0 O 1 0

F O L H A

A m p l i -B

T S 3 0 0 X 4 S M D _ R 2

D

E T S u e A E S D N e I H L O 2 p S 2 O D 8 N E , 2 3 0 1 0

R E V

R 1 6 0 K R 5 1 6 K 4 8 0 6 8 2 4 7 C 1 0 0 4 n 6 7 F 1 0 C n 1 F 0 C 6 1 0 0 5 9 220pF 9 8 1 0

c

1 0 0 n F

R 4 1 7 0 K 5 0

C 1 0 7 4

R1164

1 8

7

6 1 4

1 0 1 0 n 7 F 2 1

2 2 C 1 1 0 3

10R R1105 D1139

1 5

R1104

C 1 1 5 1 0 n 2 F

1 5 n F D1151 ES1-G

D1138

470nF 63V C1124

1 L 1 0 0 u 0 H 2

1 C 0 1 0 n 1 1 F 9

2 R 7 R 1 1 1 1 W 8

10R

ES1-G

1 L 0 1 u 0 H 0 1

470nF 63V C1123

C N 1 0 1 1

P S -

O U T P U T C H 4

+

- O + U T P U T C H 3

CE1096 47uF 63V

CE1200 220uF 35V

100nF C1095

100nF C1094

V D D

C1091

560pF C1106 560pF C1107

D1148

CE1199 4 R K 1 220uF 35V 7 0 9 8 100uF CE1099

1 C 0 1 0 n 0 F 9 3

1 C 0 1 0 0 n 9 F 2

1 6

10R

R1165 10R

1 C 0 1 0 n 0 F 7 5

ES1-G

L T D A

L O W P A S S

C 4 E , 1 7 u 0 F 3 9

C1077

T D F 8 5 9 1 T H

2 R 1 C 7 0 1 R 1 0 1 n 1 1 2 F 2 1 W 0

E L E T R Ô N I C A

6 8 n F

1 2

1 1 9 2 4

2 0

C 1 0 1 4

C1063

1 1 R n n 1 6 F F 0 K 6 R 1 6 8 K 0 8 8 7 1 C 4 1 7 4 C 0 0 7 1 7 n 0 0 F n 0 F 6 7 C 220pF 1 0 6 6 2 1 4 5 1

1 0 0 n F

R 3 1 K 0 3 6 5

R C 4 5 5 8

F U L L

H I G H P A S S

R 1 4 0 7 5 K 5

C1072 1nF C1076

ES1-G

T A R A M

C 3 1 9 0 n 1 F C 2 I 1 0 0 2 : A

C I 1 0 0 3 : A

1nF

1 0 0 n F

C1109

P R O D U T O

100nF C1169

R 1 3 0 3 1 K 1

R C 4 5 5 8

C1168 100nF

2 3

560pF

P F R O O A L J 3 H E A T O B L O G 2 I C 2 V O /

6 8 n F

33K R1019

100nF

C 1 0 8 4

D A T A

C 1 0 1 6

1 3

47pF

10R

C1085

A R Q U I V O

R 1 0 2 2

3

R1167

R 1 1 1 0 6 R 6

2 K 2

6 8 n F

R 3 1 3 0 K 1 0

33K R1018

C1025

R C 4 5 5 8 C I 1 0 0 3 : B R 4 1 0 7 K 6 4

C 6 1 0 8 1 n 7 F

R 3 1 0 3 K 3 7

R1023 33K

V S S

G N D

R e m o t o

+ 1 2 V

C O N 1

C F E 3

R F 1 3 1 1 0 8 u R F

2 K 2 1 %

6 C n F 8 7

R F 9

R F 1 2

4 K 7

R F 7

1 K

CFE1 2200uF 16V

4 K 7 S G 3 5 2 5

1 F 4 E 1 4 4 8

47uF C N

R F 8 1 0 0 n F

C F 5

C I F 1

1 C 0 F 9 0 n F

DF1

D F 2

1N5404

B C E

B Q C 1 P 7 5 1 6

47uF CFE2

1 0 C n F F 4

R F 4

2 7 R

RF6

1 0 K R F 3

2 7 R

IRFZ48

RF5

1 0 C F n 3 F

1 0 K 1 C 0 F 0 8 n F

1 R K F 1 4

2 R 7 F R 2

IRFZ48

1 0 C n F F 2

T R F 1

2 R 7 F R 1

1 5 e s p . F I O

1 5 e s p . F I O

1 5

1 5

7 e s p . F I O

7 e s p . F I O

1 5

1 5 A R Q U I V O

D A T A

P R O J E T O

2 G 2 I V / 0 A 9 L / 2 D 0 O 1 0

F O L H A

3 D E

3

D E S E N H A O D

I L S O N

A 4

F O L H A B L O C O

F o n t e

P R O D U T O

T S 3 0 0 X 4 S M D _ R 2

R E V

T A R A M

U 1 6 2 0 R

U 1 6 2 0 2 X 2 2 0 0 u F 2 5 V


-2 1 , 3 V

-2 1 , 3 V

+ 2 1 , 3 V

+ 2 1 , 3 V

C O N S U M O

+ / B

+ 9 / 0 0 2 m 1 3 A , V @ 1 3 , 8 V c c

1 0 C 0 4 n 3 F

MMBT3906

C22

E QC 1 5

47uF 25V

1 0 C 0 E u 4 F 1

B

R147

R 1 2 7

AZUL READY

2K2

LD2

B

2 1 0 C 0 E u 4 F 2

1 K

MMBT3904 E C

R116

4 7 0 n F

Q 1 3

C 4 E 7 5 0 0 n F

4 7 0 n F

C E 5 1

4 C 7 E 0 4 n 8 F

C E 4 9

2 2 0 K

C20

1 C 0 7 0 6 R

1 0 0 p F

100uF 25V R 1 0 8

1 N 4 D 1 7 4 8

R 1 2 4

1 1 1 0 0 R 0 0 0 1 0 R 0 p C 1 C R 7 F 0 7 0 7 7 p 8 F

1 0 C 0 9 n 2 F

1 0 R K 5 1 9 %

1 n F

1 0 0 R

R 1 0 6

C 6 4

R 1 0 4

4 , 7 n C F 7 5

1 1 0 0 0 0 C p F n F 7 9

2 3 R K 5 2 4 1 %

C 8 0

R109

3 3 0 p F

R E S E T

C 6 6

2 2 0 C n 9 F 4

C 1 0 5

3 C 3 1 n 0 F 2

3 3 n F C 1 0 4

C 1 1 0

3 3 n F

3 3 n F

C134 2,2uF 63V

C132 2,2uF 63V

C130 2,2uF 63V

2,2uF 63V C135

1 R R 6 5 2

2 7 L u 3 H

2 7 u L H 2

680nF 63V

2 L 7 1 u H

2 7 L u 4 H C 1 2 3

C 1 2 5

680nF 63V

680nF 63V

680nF 63V

C126

C127

C 1 7 n 1 F

C 1 6 n 9 F

C 1 6 n 3 F

C 1 6 n 8 F

R146 2K2

A R Q U I V O

1 D E

4

3R3 R121

R145

D A T A

P P F R R O O A L O J 3 H D E A U T T O O B T L O S P 4 0 A C 0 7 O 0 / U

0 L 9 O / 2 0 1 1

F O L H A

P C 8 1 7

D E S A E N D H I L O

S O N

S A I D A

X 4 R 5 ( 4 C A N A I S )

10K

T A R A M

B

Q 1 4

C 1 1 0 2 n 2 F

R143

R142

10K

10K

10K

S R B S -1 1 2 D M

S 1 M

C 1 1 0 2 n 0 F

S R B S -1 1 2 D M

RELE2

3R3 R119

R141 10K S R B S -1 1 2 D M

RELE3

RELE4

C E MMBT3904

P S

470uF/50V

A M


C 1 1 0

1 n 3R3 9 F R118

3R3 R123

R144

RELE1

D 8

C 1 1 0 2 n 8 F

R132 4K99 1%

R136

R131

-

470uF/50V

4K99 1%

C N 1 2 C H 4

R129

+ C H 3

R128

4K99 1%

R134

R137 4K99 1%

+

470uF/50V 470uF/50V

4K99 1%

470uF/50V 470uF/50V

4K99 1%

470uF/50V

C N 1 1

4K99 1%

470uF/50V

R133 4K99 1%

+ C H 2

+

C H 1

82K

100nF C91

R 7 1

C97 220nF

C19

1 C 0 E u 3 F 9

R 1 0 1 2 K 6

100uF 25V 2 2 K

7 R 8 E 1 G 2 1 3 1

10K

S R B S -1 1 2 D M

1 R 5

R 1 0 5

1 N 4 D 1 6 4 8

E N T R A D A A

C 1 E 0 1 u 1 F

R20 22K 1%

C21

C 1 E 0 1 u 0 F

2 2 R K 3 1 6 %

33pF

R5 22K 1%

C 3 2 3 9 p F

R C 4 5 5 C 8 I 1 : B

100nF C115

4 R 7 R 1 W 1 2 2

C 1 E 0 1 u 2 F

R 2 3 2 3 K 1 %

E N T R A D A B

TP2

22K TP1

1 0 u F

C E 2 6

1 0 u F

3 R K 9 5 3

100nF C136

R 5 0

R 3 7

C 3 5

2 2 K 1 %

C I 1 : A

R C 4 5 C 5 3 8 7 3 p F

2 2 K R 1 3 %

C E 8

2 2 K 1 %

R C 4 5 5 8

C I 4 : A

3 C 3 p 3 F 0

2 2 K 1 %

R 4 3

4 R 7 4 8 R

3 3 K

C 1 7

6 8 n F

C 1 6

6 R18 8 n F

3 R 3 1 K 0

39K

R23

6 C 8 2 n 4 F

39K

C 3 2 3 5 n F

R30

3 R C 3 3 3 K 1 2

C131 100nF

R C 4 5 5 8 C I 3 : B

R C 4 5 5 8 C I 2 : B

H I G H P A S S A R Q U I V O

D A T A


0 P 7 A / 0 U 9 L / 2 O 0 1 1

F O L H A

2 D E

4

D I L S O N

T S

B 4 L 0 O 0 C X O 4

P R E ( A / B D )

E S E N H A O

P R O D U T O

R 5 ( 4 C A N A I S )

R E V

T A R A M

P L I F I C A D O R E S

F U L L c

L O W P A S S

100nF C203

1 0 R K 6 1 4 %

33nF

C I 2 : A

H I G H P A S S

100nF C169

47uF CE53 R130 1K 1%

3 R 3 1 K 1

C12

R C 4 5 5 C 8 I 3 : A

1 0 R K 6 1 3 %

P S A M

4 7 n F

39K R19

39K

2 2 KR 1 6 %

R 3 K 4 9 2

4 R 7 4 9 R

6 8 n F

R 4

C 3 2 3 p F

2 2 R K 1 2 % 7

22K

R C 4 5 5 8 C I 4 : B

1 C 0 E 9 u F

R135 1K 1%

F U L L c

R C 4 5 5 8

L O W P A S S

4 7 C n 1 F 4

3 C 3 p 2 F 3

E N T R A D A C

C E 1 1 0 5 u B F 1 2 R 2 3 K 3 1 B %

E N T R A D A D

4 R 7 R 1 W 1 2 5

C 1 E 0 1 5 u B F

C 1 E 9 0 B u F 1

2 R 2 3 K 6 1 B %

R20B 22K 1%

1 C 0 E u 9 F B 2 2 R K 3 1 B %

2 R 2 4 K B 1 %

R5B 22K 1%

33pF C21B

3 C 2 3 9 p B F

R C 4 5 5 C 8 I 1 _ B : B

C115B 100nF

C 3 3 2 p B F

2 R 2 K 2 1 7 % B

R C 4 C 5 I 1 5 _ 8 B : A

TP2_B 22K

C 7 B 3 3 p F

2 2 R K 6 1 B %

TP1_B 22K

C E 2 6 B

1 0 u F R 5 3 B

C136B 100nF

C 6 3 8 5 n B F

R30B 39K

100nF C131B

C 2 4 B

D A T A


P R O D U T O

T S 0 P 4 B 7 A L 0 / 0 U O 0 9 L C X / 2 O O 4 0 R 1 1 P 5 ( R 4 E C ( A C N / D A F D ) I S O E ) L S H A

3 D E

4

E N

H A O D I L S O N

R E V

C I 4 _ B : B

R23B 39K

6 8 n F

R C 4 5 5 C 8 I 3 _ B : B

C 1 7 B

4 7 n F

C16B 68nF

R C 4 5 5 8

L O W P A S S

A M 1 0 R K 1 6 % 1

4 7 R

R 5 6

R 1 0 B

3 3 K

R 3 1 3 1 K B

C 3 1 3 2 n B F

C I 3 _ B : A

C169B 100nF

P S

R C 4 5 5 8

C 3 2 B

39K R19B

1 0 R K 1 6 % 0

C I 5 _ B : A

68nF 39K R18B

R C 4 5 5 C 8 I 2 F _ B U : L B L

c

3 3 C p 3 F 3

H I G H P A S S

R 4 2 B

R C 4 5 5 8

C I 4 _ B : A

R 5 1 B

R 5 5

R C 3 3 3 1 3 2 B K 5 3 n B F

T A R A M

P L I F I C A D O R E S

2 2 K 1 %

R 3 3 7 3 B K

H I G H P A S S A R Q U I V O

3 K 9

3 K 9

R C 4 5 5 8

4 7 R

C 1 E 0 8 u B F

C I 2 _ B : A

F U L L c

2 2 K 1 %

C 1 4 B

R C 4 5 5 8

L O W P A S S

R 5 2 B

4 7 n F

3 C 3 p 3 F 1

G N D

R E M O T O

+ 1 2 V

C O N 1

MURS120T3 D4

1 N 4 1 4 8

MURS120T3 D3

C10 100nF

D 2

1K 1% R17

Q 7

1 KR 1 1 % 6

10K 1% R2

B

E

1K 1%

5 R 6 K 4 1 4 %

4 7 C E u 7 F

R 4 1 1 0 R

R 2 9 C 3 1 K 3 3 1 %

6 n 8

4 K 7

4 K 7

R 3 5

R 3 4

E

MMBT3904

B

R7

C

1 N 4 1 4 CE4 8

3 9 K

R 3 9

C

B Q C P 6 5 3

4 7 0 0 u F 1 6 V

D 5

47uF

4 R K F 7 8 S G 3 5 2 5

C I F 1

1 0 0 n C F 4 0

CF5

CF6

1 0 0 n F 1 0 u F 1 6 V

C9 100nF

1K R25 1K

1 C 0 4 0 1 n F

R 2 8

1 K

R26

R 4 5

R 4 0

2 7 R 1

2 7 R 1

2

2

3 IRF1404

1 0 C n 4 F 4

3 IRF1404

2 R 7 4 R 7

1 0 C n 4 F 2

2 R 7 4 R 6

T R F 1

C18

A R Q U I V O

D A T A


0 P 7 A / 0 U 9 L / 2 O 0 1 1

F O L H A

4 D E

4

D E S E N H A O

D I L S O N

P R O D U T O

T S

B 4 L 0 O 0 C X O 4

F O N T E

R 5 ( 4 C A N A I S )

R E V

T A R A M P S A M P L I F I C A D O R E S

1000uF 63V

U 1 6 2 0 R

U 1 6 2 0

470uF 35V

C28 1000uF 63V

G N D

C27 1000uF 63V

C26

S 1 M

D 1

CE5 47uF

R E 7 G 8 1 1 5 0

C E 3

I N ( C 0 P H ° U 1 T ) = L ( 3 0 0 m V 1 ) 0 8 u , F 2 3 / 2 5 d B V u

( C H 2 ) R

1 R 0 3 R 3 1 W

1 0 u F / 2 5 V

1 0 R R 1 3 W2

470nF C38

470nF C37

C94

C93

1000uF/25V

1000uF/25V

R 2 R 1 2 2 7 2 K 1 K 1 6 1 % % 22K 1%

22pF C17

2 2 p F

C I 1 T : L B 0 7 2

4 7 u C F 2 / 2 1 5 V R * * 2 0 * *

R31

C23 100nF

C 1 8

C I 2 T L : B 0 7 2

C39 100nF C22

47uF/25V

4 R 7 2 R 2

0 °

6 C 8 2 n 8 F R 2 2 K 7 2 1 % C31 100nF

R26

C26 6n8

R 3 2 3 5 K

3 R 3 2 K 4

33K 33nF C27

C I 4 B T : L 0 7 2

R 2 1

3 9 K

2 1 / 0 6 / 2 0 1 1

F O L H A

1

D E

8


A L D O


S O N

P R E ( C H 1 / C H 2 )

P R O D U T O

3 3 p F

6 8 n F C 2 5

C 1 6 2 8 2 R n K 1 F 2 2 1 % R11

T A T R S A - 8 M 0 0 P X 4 S _ R A 1 M ( 1 P O L h m I F / I 2 C O A h m D s O ) R R E E S V

100nF C35

1 8 1 0 0 ° 0 R R 3 0

10nF C33

R 2 9 1 0 K 1 %

( C 1 H 8 2 0 ) °

R 3 1 3 0 K

C I T 3 : L B 0 7 2

6n8 C9

3 R 3 9 K

33nF C10

C I 3 T : A L 0 7 2

H I G H P A S 2 S 2 u F / 2 5 V

L O W P A S S C 1 5

R13 100K 1%

0 °

C I 5 T : B L 0 7 2

C 3 6 4 7 p F

1 8 0 °

R 6

3 9 K

3 R 3 8 K

33K C13 100nF

0 ° 1 R 0 2 K 8 1 % C I T 5 L : 0 A 7 2

4 7 R R 7

0 °

6 C 8 1 n 1 F

C 3 2

C34 100nF

C I 2 T : A L 0 7 2

6 6 2 K K 8 8 O 1 1 h % % m s

C 2 4

2 2 p F

* R * * * 5

8 8 1 K K O 2 2 h 1 1 % % m

100nF C14

D A T A

4 7 u F C / 2 6 5 V

1 8 0 °

C I 4 A T : L 0 7 2

2 2 u F / 2 5 V

22K

C 5

C I 1 : T A L 0 7 2

LEVEL

3 R 3 2 K 3

100nF C30

A R Q U I V O

22pF C4

R R 2 5 0

47uF/25V

6 C 8 2 n 9 F

220pF C3

2 2 R K 1 1 9 %

22K 2K7 1%

2 2 R K 1 1 %

R 2 2 2 K 1 % 22K 1% R3

100nF C20

C40

4 R 7 1 W

R18

C19 100nF

BLUE ON

R 1 5

0 ° 1 R 0 1 0 4 R

10nF C16

( C H 0 1 ° )

C 8 6 8 n F

3 3 p F C 7

2 R 2 K 4 1 %

( C H 4 ) R

( C H 3 ) L

1 0 u F / 2 5 V

1 0 u F / 2 5 V R 2 R 5 2 2 7 2 K 5 K 1 6 R58 1 % 22K 1% %

4 R 7 1 W

R 3 4

I N 0 P ° U T = 8 ,2 ( 3 3 0 d 0 B m u V )

2 2 R K 3 1 6 %

R 3 2 5 2 K 1 % 22K 1%

220pF C43

R37 C95 100nF

C66 22pF

47uF/25V

C I 6 T : L B 0 7 2

C91 100nF C96

C92

22K

4 7 u C F 7 / 2 0 5 V R * * 6 * * 0

47uF/25V

C72 100nF

C I 7 : B

T L 0 7 2

100nF C73

6 C 8 7 n 7 F 6 C 8 7 n 8 F

R 2 6 K 7 2 1 %

C75 6n8

3 R 3 6 K 4

33K

C76 33nF

C I T 9 L : B 0 7 2

C79 100nF

C44 22pF

2 2 R K 5 1 9 %

LEVEL 22K

1 8 0 ° 8 8 1 K K O 2 2 h 1 1 % % m C 7 1 3 3 p F

3 9 K

C80 100nF

C 7 4 6 8 n F

R 2 4 K 6 2 1 %

C 6 5 8 2 n F R45

C I 8 : B

6n8 C49

R 3 4 3 4 K

H I G H P A S S 2 2 C u F 5 / 5 2 5 V

0 ° R70 4K99 1% 1 C 0 8 0 5 n F

C86 100nF

100nF C87

A R Q U I V O

D A T A

2 1 / 0 6 / 2 0 1 1

F O L H A

2

D E

8


A L D O


S O N

P R E ( C H 3 / C H 4 )

P R O D U T O


T L 0 7 2

+ B 1 A 0 S d S B B @ O 5 S 0 T H z

220K R71

1 2 0 K

1 4 0 7 0 n n F F

T L 0 7 2

C I 1 1 : B

1 8 0 °

R49 4K99 1% 1 0 C 0 5 n 9 F

C60 100nF

100nF C61

0 °

10K 1%

2 2 C u 8 F 8 / 2 5 V

1 R 0 6 K 8 1 %

4 7 n F C C C 8 8 8 4 3 2 R 7 C 3 I 1 1 : A

R72 10K

0 °

2 R 2 K 6 1 9 %

T L 0 7 2

10K

1 R 0 7 K 4 1 %

+ B 1 A 0 S d S B B @ O 5 S 0 T H z

220K R52

C64 100nF

R 7 6 1 0 K 1 %

C 8 9

F U L L

2 R 2 K 4 1 7 %

4 7 n F C C C 5 5 5 8 7 6

R51

0 °

C I 1 0 : B

1 8 0 °

R54 100K 1%

100nF C65

2 2 u C F 6 / 2 5 2 V

T C L I 0 1 7 2 B 2 :

4 7 p F

1 0 R 0 5 R 5 10nF C63

C 4 8

1 R 0 4 K 8 1 %

10K 1%

T L 0 7 2

6 8 n F

L O W P A S S

R 1 2 C 5 0 0 K I 1 0 : A

1 0 R 0 7 R 7 ( C 0 H ° 4 )

3 9 K 3 3 p F

C I T 8 : L A 0 7 2

1 R 0 7 K 5 1 %

T C L I 0 1 7 2 2 : A

10nF C90

3 R 3 4 K 3

C50 33nF

T L 0 7 2

C54 100nF

L O W P A S S

C 4 7

3 R 3 4 K 2

33K 100nF C53

2 2 p F

R 4 0

4 R 7 R 4 1

0 °

C 6 5 8 1 n F

C I T 9 : L A 0 7 2

H I G H P A S 2 S 2 C u F 8 / 2 1 5 V

C I 7 T L : A 0 7 2

6 6 2 K K 8 8 O 1 1 h % % m s

C 4 5

C I T 6 A L : 0 7 2

4 7 u C 1 F 4 8 / 2 6 0 ° 5 V R * * 3 * * 9

R R 6 3 0 9

3 R 3 6 K 3 3 R 3 6 K 5

R66

C 6 7

R 6 1

4 R 7 R 6 2

0 °

2 2 p F

( C H 1 3 8 ) 0 °

1 R 0 5 K 3 1 %

4 1 7 0 n 0 F n F

2 R 2 3 K 8 1 %

A M P L . I N 0 °

RA1 100K 1%

2 2 u F / 2 5 V

3 3 0 R

SINCR_CH1

R A 2

1nF 5% ( - B )

CA1 3 K 3

D A 1

2 2 R K A 1 % 6

R A 3

100K 1%

R * * A * * 9

DZA1 5V6 0.5W

1 N 4 1 4 8

RA5

C A 6

4 7 u F / 2 5 V

22uF/25V CA7

100nF RA8 100R

270R 1%

1 n F 5 %

1 5 n F

+ 2 5 ,2

1 4 ,1 2 5 ,4 V 6 r m s

+ 2 2 0 3 8 V 4 .2 r m s

1 1 1 2 K 0 3 K 5 R 3 -1 1 -2 W % W

1 K 5 -2 W

C A 3

22uF/25V CA8

1 5 0 5 R K -1 6 W

1 2 K 8 O -2 h W m s

1 K 8 -2 W

100nF

8 K 2 1 %

1 O h m

S

B M S _ 2 F 5 E 0 T F 1

DZA2 5V6 0.5W

CA5

**** RA12

G

100K 1%

1nF 5%

R R R A A A 1 1 9 2 0

D

RA28

1 n F 5 % C A 2

RA7

R d O + B U / A u T -B 2 6

1 0 0 p F

C A 4

RA10 ****

R A 1 1

I R S 2 0 9 2 RA16 RXA

2K2 1% RA13 R A 1 4

22uF/25V

8 K 2 1 %

10K 1% RA15

10K 1%

MURS120T3 DA2

RA17 RA18 33K

RA19 2 2 u F / 2 5 V

10R 1/4W **** RA26 RA27 10K 1%

KSH41C

DA3 BYV27-200

2

1

22R

2 2

1 5 V 1 W

V

D A 6

C u A F 2 / 2 1 5

4R7 1/4W RA20

3

1 5 D V Z 1 A W 3

22R RA21

1

V C C

RA22 1

IRFB5620 2

2

3

3

IRFB5620 10R 1/4W RA23

CA15

( - B )

150pF/250V 100nF/250V CA16

A R Q U I V O

D A T A

2 1 / 0 6 / 2 0 1 1

F O L H A

3

D E

8


A L D O


S O N

A M P L . C H 1

P R O D U T O

T A T R S A - 8 0 M 0 P X 4 S _ R A 1 M ( 1 P O h L m I F / I 2 C O A h m D s O ) R R E E V S

2 2 u H

DA5 MURS120T3

DA4 MURS120T3

CA20

CA18 100nF/250V

100nF/250V

CA17

( - B )

CA19

1uF/250V RA24

100nF/250V

10R 1W 2K2 1% RA25

1 8 0 °

O U T

+ C - + C H 2

H 1

B T L

( + B )

A M P L . I N RB1 100K 1%

MMBT3904 E

Q B 3

2 2 u F / 2 5 V

C

B

CB21

2K7 1% RB29

4K7 RB30

100nF/50V

RB31

B

C

MMBT3906 RB41 10K 1% E

10K 1%

QB4

10K

****

3 3 0 R

DZB4

C

RB33 R B 3 4

1 10K 1% 0 K MMBT3906 1 % E Q C B B 6

( - B )

D B 5

B

Q B 5

1 0 K 1 %

3 3 0 u F / 2 5 V

1 0 0 R K B 1 3 % 8

CB3 3 K 3

R B 3

4 7 u F / 2 5 V

CB9

100nF RB9 100R

R 1 R 1 B 0 A 0 4 0 4 0 0 K 8 K 1 1 % %

C B 4

270R 1%

**** RB12

R B 2 7

1 B B 1 + 4 Z Z X 2 2 2 2 2 ,1 X 7 7 K 0 4 5 5 9 R 9 , 6 .2 V C C 1 r 2 4 % 1 m 0 W 3 s B B 1 Z 1 5 + 2 Z X 0 0 2 0 X 3 8 V 7 7 K R 4 . 9 9 1 -1 2 r m C C % W s 2 5 0 6

1 n F 5 %

R R B B 1 8 2

8 K 2 1 %

R B 7

RB28 10K 1%

G

S

M B S _ 2 F 5 E 0 T F 2

22uF/25V CB24

100nF

RB8 ****

R B 1 1

I R S 2 0 9 2

1 1 3 K K 5 3 -2 1 W %

1 1 K 5 O -2 h W m

5 1 K K 6 8 -2 W

1 2 K 8 O -2 h W m s

RB16 RXB

2K2 1% RB13 R B 1 4

22uF/25V

8 K 2 1 %

10K 1% RB15

10K 1%

MURS120T3 DB1

RB17

4R7 1/4W RB20

KSH41C 3

RB18 33K

2 2 u F / 2 5 V

DB2 BYV27-200

1 5 D V Z 1 B W 3

2

1

22R

2 2

1 5 V 1 W

V

D B 6

C u B F 2 / 2 0 5

R B 4 2

D

RB43

C B 7

10R 1/4W

RB27

RB5 4 R 4 K B 2 K 7 6 7

DZB2 5V6 0.5W

RB19

****

R B 4

100K

1 n F 5 % C B 6

RB10

1 5 n F

CB11

R B 3 3

2 2 K 1 %

PROT

1nF 5%

D Z B 4

1 0 0 p F

100K 1%

R * * B * * 7

22uF/25V

**** DZB5

+ d O D / B U Z - u B T B 5

C B 1

RED


C

Q B 7 R RB36 B 3 5 10K 1% R 4 B 7 3 K 7

R B 2

E

E

B

SINCR_CH2

1nF 5% 1 N 4 1 4 8

DZB1 5V6 0.5W

MMBT3906

RB32

****

MMBT3904



RB39 4K7

T E N S O Ã O V A P L T A

1 8 0 °

22R RB22

1

V C C

RB21 1

IRFB5620 2

2

3

3

IRFB5620 10R 1/4W RB23

CB14

( - B )

150pF/250V 100nF/250V CB15

DB4 MURS120T3

A R Q U I V O

D A T A

2 1 / 0 6 / 2 0 1 1

F O L H A

4

D E

8


A L D O


S O N

A M P L . C H 2

P R O D U T O


2 2 u H DB3 MURS120T3

CB16

CB17 100nF/250V

100nF/250V

CB19

( - B )

CB18

1uF/250V RB24 10R 1W 2K2 1% RB25

100nF/250V 0 °

( + B )

A M P L . I N RC1 100K 1% MMBT3904 B

C

3 R 3 C 0 2 R

CC21

****

****

DZC5

E C

RC35

1 10K 1% 0 K MMBT3906 1 % E Q C C B 5

R C 3 6 MMBT3904 E

1 N 4 1 4 8

MMBT3906

RC34

B

Q C 4

( - B )

D C 6

DZC1 5V6 0.5W



Q C 6 R RC39 C 3 7 10K 1% R 4 C 7 K 3 8

1 0 K 1 %

22uF/25V CC10

100nF

3 3 0 u F / 2 5 V

1 0 0 R K C 1 4 % 0

2 2 K 1 %

R C 3

RC9 100R

R 1 R 1 D 0 C 0 2 0 4 0 8 K 1 K 1 1 % %

RC10 270R 1%

**** DZC6

C C 2

1 5 n F

RC29

**** RC12

1 + 4 2 2 ,1 4 5 5 , 6 .2 V r m s + 2 2 0 3 8 V 4 . 2 r m s

B Z X 7 9 C 2 0

1 1 K 5 O -2 h W m

B 1 5 1 Z 1 5 X 0 0 K K 7 K R 6 8 -2 9 1 C % 1 W W 5 6

1 2 K 8 O -2 h W m s

G

S

C C 7

B M S _ 2 F 5 E 0 T F 3

22uF/25V CC24

RC8 ****

100nF

8 R K C 2 1 1 % 1

R R C C 8 7

1 1 1 3 K 2 K 5 0 3 -2 R -1 1 W W %

D

DZC2 5V6 0.5W

CC11

B B Z Z 2 X X 2 7 7 K 9 9 1 C C % 2 4 0 3

R R 4 C C K 2 4 7 6 K 7 4 2

100K

1 n F 5 % C C 6

1nF 5%

R R + d O D D R C C / B U Z Z C - u C 3 2 1 B T C 6 5 5 7 2

RC5

PROT

4 7 u F / 2 5 V

1 n F 5 %

R C 4 100K 1%

R * * C * * 7

RED

C

B

CC5 3 K 3

1 0 0 p F

C C 1

1nF 5%

100nF/50V

T E N S O Ã O V P A L T A

SINCR_CH3

2 2 u F / 2 5 V

E

Q C 2

1 8 0 °

I R S 2 0 9 2 RC16 RXC

2K2 1% RC13 R C 1 4

22uF/25V

8 K 2 1 %

10K 1% RC15

10K 1%

MURS120T3 DC1

RC17 RC18 33K

RC19 2 2 u F / 2 5 V

10R 1/4W **** RC27 RC28 10K 1%

2 2

C u C F 2 / 2 0 5

V

4R7 1/4W RC20

KSH41C 3

DC2 BYV27-200

1 5 D V Z 1 C W 3

2

1

22R 1 5 V 1 W D Z C 4

22R RC21

1

V C C

RC22 1

IRFB5620 2

2

3

3

IRFB5620 10R 1/4W RC23

CC14

( - B )

150pF/250V 100nF/250V CC15

A R Q U I V O

D A T A

2 1 / 0 6 / 2 0 1 1

F O L H A

5

D E

8


A L D O


S O N

A M P L . C H 3

P R O D U T O


DC5 MURS120T3

2 2 u H DC4 MURS120T3

CC16

CC18 100nF/250V

100nF/250V

CC17

( - B )

CC19

1uF/250V RC24 10R 1W 2K2 1% RC25

100nF/250V 0 °

( + B )

A M P L . I N RD2 100K 1%

0 ° 2 2 u F / 2 5 V

SINCR_CH4

3 R 3 D 0 3 R 1nF 5% ( - B )

CD3 3 K 3

D D 5 CD10

100nF RD9 100R

270R 1%

C D 4

1 n F 5 %

1 5 n F

+ 2 5 ,2

1 4 ,1 2 5 ,4 V 6 r m s

1 1 1 2 K 0 3 K 5 R 3 -1 1 -2 W % W

1 K 5 -2 W

1 5 0 5 R K -1 6 W

1 2 K 8 O -2 h W m s

G

100K

S

C D 7

22uF/25V CD21

100nF

RD8 ****

R D 1 1

8 K 2 1 %

I R S 2 0 9 2

1 O h m

RD16 RXD

2K2 1%

+ 2 2 0 3 8 V 4 .2 r m s

1 K 8 -2 W

B M S _ 2 F 5 E 0 T F 4

DZD2 5V6 0.5W

CD11

R D 7

D

RD6

1nF 5%

R R D D 1 8 2

R D 1

RD5

1 n F 5 % C D 6

RD10

R d O + B U / D u T -B 2 6

2 2 K 1 %

R D 4

100K 1%

4 7 u F / 2 5 V

22uF/25V

**** RD12

1 0 0 p F

R * * D * * 7

DZD1 5V6 0.5W 1 N 4 1 4 8

C D 1

RD13 R D 1 4

22uF/25V

8 K 2 1 %

10K 1% RD15

10K 1%

MURS120T3 DD1

RD17 RD18 33K

RD19 2 2 u F / 2 5 V

10R 1/4W **** RD26 RD27 10K 1%

2 2

C u D F 2 / 0 2

4R7 1/4W RD20

KSH41C 3

DD2 BYV27-200

1 5 D V Z 1 D W 3

2

1

22R 1 5 V 1 W D Z D 4

5 V

22R RD22

1

V C C

RD21 1

IRFB5620 2

2

3

3

IRFB5620 10R 1/4W RD23

CD14

( - B )

150pF/250V 100nF/250V CD15 2 2 u H

DD4 MURS120T3

DD3 MURS120T3

CD16

A R Q U I V O

D A T A

2 1 / 0 6 / 2 0 1 1

F O L H A

6

D E

8


A L D O


S O N

A M P L . C H 4

P R O D U T O


CD18 100nF/250V

100nF/250V

CD17

( - B )

CD19

1uF/250V RD24

100nF/250V

10R 1W 2K2 1% RD25

1 8 0 °

O U T

+ C - + C H 3

H 4

B T L

( + B )

1 0 u F / 2 C 5 F V 7

8 K 4 2 1 7 % R R R F F 7 6

1 C 0 F 0 5 n F R 4 R F K F 5 7 4

C 3 F n 6 3 5 %

R E M

G N D

( + B )

* * * *

U C T 3 E 5 X 2 A 5 S A D W

4 K 7

R F 2

R F 3

4 7 u F / 2 5 V

1 0 0 n F

1 0 0 n F

C F 4

C F 3

C F 2

4 7 u F / 2 5 V

1 N 4 1 4 8

C F 1

4 K 7

R F 1

D F 1

1 K

B

Q F 3

10nF CF9

+ 1 2 V

C

E

BCP56

4 7 u F / 2 5 V 27R RF10

RF17

RF15

6K8 1%

6K8 1%

27R RF13

IRF1404

IRF1404 27R

RF14

RF11

RF18

6K8 1% RF16

6A10

6K8 1%

27R

4700uF IRF1404 CF12

IRF1404

1 C 0 F 8 0 n F

R 1 F K 8

CF11

27R 1W

68nF

RF19

68nF

1 6 D T A

1 6 D T

A R Q U I V O

D A T A

2 1 / 0 6 / 2 0 1 1

F O L H A

7

D E

8


A L D O


S O N

F O N T E

R F 2 5

47uF/25V

P R O D U T O


* * * *

C O N S U M O

100nF CF19

15V 1W DZ3

15V 1W DZ2

R R F F 2 2 4 3

R F 2 2

R F 4

2 4 , 6

1 1 4 8 N 8 0 N 3 7 0 R C R C K K 3 1 5 5 % W W

1 O h m

1 . # 6 1 A 3 0 m 4 p

3 3 6 6 3 3 K 8 0 N 0 N 8 R C R C 1 K 1 5 % % 5 W W

2 O h m s

# 7

1 .2 A m p

R F 2 3

47uF/25V

100nF CF20

+ R R / F F 2 2 B 6 5

* * * *

CF17

CF18

S E C U N D .

R * F * 2 * * 4

1 C 2 0 F 1 p 5 F

R 8 F K 2 2 1 1 %

( + B )

( - B )

R * F * 2 * 6 *

27R 1W RF20

CF16 220nF

RF28

RF27

15K 1W

15K 1W 5V6

4 X 2 2 0 CF27 0 u F / 5 CF28 0 V / 1 0 CF25 5 ° ( - B )

4 X CF21 2 2 0 0 u F CF23 / 5 0 V / 1 CF24 0 5 ° ( + B )

DZ1

R * * F * * 2 2 S I N C R _ C H 4

S I N C R _ C H 3

S I N C R _ C H 2

S I N C R _ C H 1

( + B )

1 Ohm

2 Ohms

R5

8K2 1%

6K8 1%

R20

8K2 1%

6K8 1%

R39

8K2 1%

6K8 1%

R60

8K2 1%

6K8 1%

RA9

1K5K5-2W

1K8K8-2W

RA10

1K5-2W

1K8-2W

RA12

13K3 1%

5K6

RA26

120R-1W 150R-1W

RB7

1K5-2W 1K8-2W

RB8

1K5-2W 1K8-2W

RB12

13K3 1%

5K6

RB27

120R-1W 150R-1W

RB33

22K 1%

10K 1%

DZB4

BZX79C43 BZX79C56

DZB5

BZX79C20 BZX79C20

RC7

1K5-2W

1K8-2W

RC8

1K5-2W

1K8-2W

RC12

13K3 1%

5K6

RC27

120R-1W

150R-1W

RC35

22K 1%

10K 1%

DZC5

BZX79C43

BZX79C56

DZC6

BZX79C20

BZX79C20

RD7

1K5-2W

1K8-2W

RD8

1K5-2W

1K8-2W

RD12

13K3 1%

5K6

RD26

120R-1W

150R-1W

RF4

47K 1%

68K 1%

RF22

3K3

6K8 1%

RF23

NC

NC

RF24

180R-5W

330R-5W

RF25

NC

NC

RF26

180R-5W

330R-5W

OUT

14,15Vrms

20Vrms

dBu +/- B CONSUMO SECUND.

+25,2

+ 2 8, 2

24,6

34

1.2 Amp

1.6 Amp

#7

#10

TARAMPS AMPLIFICADORES

PRODUTO TS-800 X4_R1 (1 Ohm / 2 Ohms) Ohms) FOLHA A4 PROJETO DATA ARQUIVO

BLOCO

REV

CONFIGURAÇÕES

GIVALDO 21/06/2011

DESENHO

ADILSON

FOLHA 8 DE 8

( C H 2 ) R

R 1 A 0 R 4 1 7 W

R 2 3 2 2 R 3 2 K 3 K 1 6 1 % % 22K 1%

R 1 2 2

4 R 7 1 W

2 2 K R 1 3 %

R 7 2 2 K 1 % 22K 1%

220pF C39

R27

C201 100nF

470nF CPA16

R6

22pF C21

100nF C202 BLUE ON

1 0 u F / 2 5 V

1 0 u F / 2 5 V

1 0 R R A 1 3 W 9

470nF CPA17

( C I N H P 1 0 ° U ) T L

22K

C I 3 : 5 B 5 3 2 4 7 u C F / 2 3 5 V 7 R K 1 5 8 1 3 %

2K7 R26

C23 100nF

2 2 p F C 2 9

22pF C2

2 2 K R 1 5 %

LEVEL 22K

4 7 u C F / 2 1 5 V

1 8 0 °

C 8

C I 3 : 5 A 5 3 2

2 2 p F

1 8 0 °

7 R K 1 5 8 1 2 %

47uF/25V C I 1 T L : 0 B 7 2

C56 100nF C10

C57 47uF/25V

R 4 1 7 6 R 8

0 °

6 C 8 1 n F 8 R 2 4 K 7 2

C12 100nF

6 C 8 3 n F 3 R39

R 1 1

3 9 K

C I 1 T : L A 0 7 2

C 8 2 4 7 p F

6 C 8 1 n 7 F

3 R 3 1 K 7 C32 6n8

R 3 4 3 9 K

3 R 3 5 K 0

33K 33nF C16

C I 5 : T B L 0 7 2

100nF C30

6 8 n F C 2 2

C I 5 : T A L 0 7 2

2 R K 5 2 1

R25

C 3 6 4 8 n F

R 3 5 3 2 K

33K C168 100nF

C I 2 T : L B 0 7 2

A R Q U I V O

D A T A

P R O J E T O

G 0 3 V / I 0 1 A L / 2 D 0 O 1 1

F O L H A

D E S E N H O

W e d 1 aM A D L D y I E 0 S 4 O , 7 2 N 0 1 1


P R E ( C H 1 / C H 2 )

P R O D U T O

T A R T S A 1 2 M 0 0 . 1 P X S 4 _R 1 E L E T R Ô N I C A L R T E V D A

T L 0 7 2

C I 4 : A

R 5 3 1 0 K

1 8 0 3 R ° K 1 3 6 9 10nF C31

( 1 C H 8 2 0 ) °

6n8 C20

3 R 3 5 K 5

33nF C13

C I 2 T : L A 0 7 2

H I G H P A S 2 S 2 u F / 2 5 V

C 6

L O W P A S S C 5

R54 100K

0 ° R 1 1 0 8 K 4

C171 100nF

C 8 3 4 7 p F

3 9 K

3 R 3 1 K 0

100nF C169

2 2 u F / 2 5 V

4 R 7 1 R 6 7

0 °

R 4

100nF C170

0 °

C I 4 T : L B 0 7 2 0 ° R 1 3 7 K 0 3

10nF C28 ( C H 0 1 ° )

C 2 5 6 8 n F

4 7 p F C 8 1

2 R 2 K 5 7 1 %

( C H 4 ) R

( I C N H P 3 0 ° U ) T L

1 0 u F / 2 5 V

1 0 u F / 2 5 V R R 3 2 2 2 3 3 2 K A K 6 1 A R20A 1 % 22K 1% %

R 1 2 2 A

4 R 7 1 W

R 7 A 2 2 K 1 % 22K 1%

220pF C38A1

R6A

C201A 100nF C21A 22pF C202A 100nF

4 7 u C F 1 / 2 1 5 V 7 R K 1 5 8 3 1 A %

C23A 100nF

C58

C I 7 : B

C60

T L 0 7 2

100nF C10A

47uF/25V

6 C 8 1 n 8 F A

R 2 2 3 K A 2

6 C 8 2 n 0 F A

C2A 22pF

2 R 2 K 2 1 7 % A

LEVEL 22K

3 9 K

C I 7 : A

C 8 2 A 4 7 p F

3 3 K

C19A1 6n8

0 °

R 1 4 A

33K

R 3 1 3 5 K A

C15A 33nF

C I T 9 L : 0 B 7 2

C24A1 100nF

C I 9 : A

H I G H P A S 2 S 2 C u 4 F 2 3 / 5 V

C 6 1 8 n 6 F A

R 2 2 K 2 2 A R19A

6 8 n F

C I 8 : B

100nF C168A

6n8 C13A

R 1 3 8 3 A K

R65 5K 1%

C 1 P 0 1 0 n 9 F 100nF C7A2

T L 0 7 2 R61 10K

H I G H P A S S 2 2 C u F 4 / 2 2 5 V

A R Q U I V O

D A T A

0 3 / 0 1 / 2 0 1 1

F O L H A


G I V A L D O

D E S E N H O

W e d 2 aM A D y I D L E 0 4 S , 7 2 O N 0 1 1

B L O C O

P R E ( C H 3 / C H 4 )

P R O D U T O

T S 1 2 0 0 . 1 X _4 R 1

R E V


+ B 1 A 0 S d S B B @ O 5 S 0 T H z

220K R71

C I 1 1 : B

0 °

T C L I 0 1 7 2 : 2 A 1 8 0 ° 3 K 3 10nF C35

100nF C9A

R62

1 0 R 6 K 9 1 %

+ B 1 A 0 S d S B B @ O 5 S 0 T H z

220K R72

C7A3 100nF

1 0 K

R 1 7 2 ( 1 C H 8 4 0 ) °

T L 0 7 2

10K

R 1 1 0 8 K 5 R 6 4

R59 5K 1% 1 0 C 0 P n 1 F 0

C7A 100nF

1 8 0 °

T L 0 7 2

2 2 C u 4 F 9 / 2 5 V

0 ° 1 R 0 6 K 7 1 %

4 7 n C F C C P P P 1 1 1 6 7 8 1 4 0 R 1 2 7 n 0 n C 6 F F 8 0 K I 1 1 : A

10K 1%

C 8 4 4 7 p F

R 3 1 3 1 K A

C12A 33nF

T L 0 7 2

0 °

C7A1 100nF

R 5 A 3 9 K

C 8 1 A 4 7 p F

3 R 3 1 K 0 A

C169A 100nF

L O W P A S S

2 R 2 K 5 1 8 %

T L 0 7 2

33K

T L 0 7 2

2 2 p F

4 R 7 1 R 6 7 A

C 6 1 8 7 n A F C 2 2 A

C 8 A

C I 5 6 : 5 A 3 2

4 7 u C 1 F 4 8 / 0 2 5 0 ° V 7 R K 1 5 8 1 2 %A

1 8 0 °

3 R 3 1 K 2 A

R13A

C11A 100nF

C 2 9 A

R 8 A

4 R 7 1 R 6 8 A

0 °

2 2 p F

C I 6 : 5 B 5 3 2

22K

47uF/25V

2 2 R K 3 1 A %

F U L L

1 8 0 °

2 2 u C F 4 / 2 5 4 V

T C L I 0 1 2 7 B 2 : 0 ° R 1 3 7 K 1 3

10nF C37

1 R 0 6 K 0 1 %

4 7 C C n F C P P P 1 1 1 5 3 4 4 1 0 R 1 2 7 n 0 7 0 n F C 0 K F I 1 0 : A

0 °

100nF C7A4

L O W P A S S

2 R 2 K 6 1 6 %

C I 1 0 : B

R63 100K

C 1 4 A

C I T 8 : L A 0 7 2

10K 1%

T L 0 7 2

6 8 n F

( C H 0 3 ° )

1 R 0 7 K 3 1 %

2 R 2 4 K A 1 %

R82B 100K SINCR_CH1

2 2 u F / 2 5 V

- B _ ( - 3 0 . 5 V D C )

1 N 4 1 4 8

5V6 DZ5B

D 1 6 B

3 R 3 8 0 4 R B 1nF C79B 3 K 3 1 R K 1 8 9 2 2 WB

1 0 0 p F

C 5 2

2 2 K 1 R % 9 1

R 1 3 5 B

100K R90B

4 7 u F / 2 5 V

22uF/25V

C24B 100nF

B C Q 1 3 9 2 B 7

100K

R94B 100R

R131B

1 n F 5 % 1 n F 5 %

R145B 220R 1% 1nF 5%

C 8 0 B

22uF/25V

C 2 6 B

DZ23B

C19B

5V6

R88B

C27B

15K

R 1 8 3 K 9 2 B 1 %

100nF

R191B 1K8 2W

I R S 2 0 9 2 2K2 R137B 33K

R 1 8 2 6 K B 2 1 % 22uF/25V R 1 4 6 B R34B

TIP41C

R35B

2 2 u F

A R Q U I V O

D A T A

0 3 / 0 1 / 2 0 1 1

F O L H A


G I V A L D O

D E S E N H O

W e d 3 aM A y D D 0 I L E 4 S , 7 2 O N 0 1 1

P R O D U T O

T S 1 2 0 0 .1 A X M 4 P _R L 1 . C H 1 B L O C O

R E V


R104B D11B

B Y V 2 7 -2 0 0

1 0 R 1 / 4 W

D 1 4 B

R86B RX1

D Z 6 B

2 2 u F / 2 5 V

1N4937

1 R 0 7 K 8 1 B %

1 5 V

R110B

220R 2W

10K

R89B 10K

4R7 1/4W

C I R C U I R I T C D S O 4 2 D 4 B B 0 9 E 2 B - B I _ A ( S - 3 D 0 . O 5 V D C ) 1 5 V 1 W

R 2 1 2 2 R 8 B

R 2 9 2 5 R B 1

470nF/250V

1

C59B 2

2

3

3

IRFB5620

IRFB5620 100nF/250V C41B

470nF/250V C62B

C99B

R56B 10R

150pF/250V

D8B

D9B

1N4937

CP8B 1uF/250V C46B

- B _ ( - 3 0 . 5 V D C )

100nF/250V

1N4937

2 2 u H

R99B 10R 1W R102B 2K2

+ - B - + 2 T R L

1 1 @ 7 R V r m s

+ B _ ( + 3 0 . 5 V D C )

R82 100K

MMBT3904

2 2 u F / 2 5 V

E C

Q 4

B

820R R46

4K7 R45

100nF/50V C15

R16

B

MMBT3906 R48

C E

10K

10K

Q15 R40 4K7

T E 1 N 5 S , 9 Ã O V O V C A P C L T A

BZX79C43 23K2 1% DZ13

E C

10K

R 4 2

B

MMBT3906

1 0 K

Q 1 4

E

Q C 1 B 6

MMBT3904 E

- B _ ( - 3 0 . 5 V D C )

1 N 4 1 4 8

MMBT3906

R30

R41

P R O T E Ç Ã O O T T P É R M I C A 5V6 DZ5

D 1 6

B

Q 8

10K

4 7 K

B A 1 I 0 X U , 6 A P V T C E V C N S Ã O

3 3 0 u F / 2 5 V

1 R 0 4 3 K R 3 2

3 3 R 0 8 R 4 1nF

1 R K 8 1 2 9 W2

2 2 K 1 R % 8 5

R 1 3 5

100K R90

1K

C24 100nF

R131

1 n C F 5 8 % 0 1 n F 5 %

220R 1% 1nF 5%

22uF/25V

C 2 6

DZ23

C19

5V6

R88 BZX79C20 DZ11

B C Q 1 3 9 2 7

100K

R94 100R

1 R 1 R 0 3 0 3 0 8 0 K 7 K

P R R O E T D

4 7 u F / 2 5 V

22uF/25V

R145

1 0 0 R K 4 4

C79 3 K 3

1 0 0 p F

C 5 0

R97


C

R31

SINCR_CH2

C27

15K

R191 1K8 2W

100nF

R 8 1 K 3 2 9 1 %

I R S 2 0 9 2 2K2 R137 33K R89 10K

R 1 8 2 K 6 2 1 %

R34

TIP41C

0 3 / 0 1 / 2 0 1 1

F O L H A

G I V A L D O

D E S E N H O


P R O D U T O


R E V


C I R C U I R I T O D S 2 4 0 D 9 E 2 B I A S D O

1 5 V 1 W C 4

- B _ ( - 3 0 . 5 V D C ) P F R O O A L J 3 H E A T O

D 1 4

R86 RX2

D Z 6

2 2 u F / 2 5 V

1N4937

1 0 R 7 K 8 1 %

1 5 V

4R7 1/4W

10K

D A T A

B Y V 2 7 -2 0 0

R110

R35

A R Q U I V O

D11

22uF/25V R 1 1 0 4 R 6 1 / 4 W

220R 2W

2 2 u F

R104

2 R 2 1 2 R 8

2 R 2 9 R 5 1

470nF/250V

1 2

C59 2

3

3

IRFB5620

IRFB5620 100nF/250V C41

470nF/250V C62

C99 150pF/250V

R56 10R D8

D9

1N4937

1N4937

2 2 u H C46 100nF/250V

- B _ ( - 3 0 . 5 V D C )

R99 10R 1W

CP8 1uF/250V R102 2K2

J U M P _ C H 2

+ B _ ( + 3 0 . 5 V D C )

R82C 100K SINCR_CH3

2 2 u F / 2 5 V

- B _ ( - 3 0 . 5 V D C )

MMBT3904 E

Q 4 C

B

C

C15C

820R R46C

4K7 R45C

100nF/50V

R16C

B

MMBT3906 R48C

C E

10K

10K

Q15C R40C 4K7

T E 1 N 5 S , 9 Ã O V O V C A P C L T A

BZX79C43 23K2 1% DZ13C

E

Q C 1 B 6 C

MMBT3904 E

B

10K

4 7 K

B 1 A X 0 I , 6 A U V T P C E V C N S Ã O

C79C 3 K 3 1 R K 1 8 9 2 2 C W

2 2 K 1 %

R 1 3 5 C

100K

1 0 0 R K 4 4 C

R90C

1K

D 1 6 C

4 7 u F / 2 5 V

22uF/25V

C24C

R131C

1 n F 5 % 1 n F 5 %

R145C 270R 1% 1nF 5%

C 8 0 C

22uF/25V

C 2 6 C

DZ23C

C19C

5V6 C27C

18K

R 1 R 1 3 3 0 8 0 7 0 C K C 0 K

B Q C 1 3 9 2 C 7

100K

R94C 100R


P R R O E T D

R88C

3 3 0 u F / 2 5 V

R 9 2

R98

1 N 4 1 4 8

C

Q 8 C R 4 1 3 0 C K R 3 2 C

R31C

B

MMBT3906

1 0 K

E Q 1 4 C

1 0 0 p F

C 5 3

1nF

100nF

C

10K

R 4 2 C

5V6 DZ5C

MMBT3906

R30C

R41C


3 R 3 8 0 4 R C

R 8 1 K 3 2 9 1 C %

100nF

R191C 1K8 2W

I R S 2 0 9 2

BZX79C20 DZ11C

2K2 R137C 33K

R 1 8 2 6 K C 2 1 % 22uF/25V R 1 4 6 C R34C

TIP41C

R35C

- B _ ( - 3 0 . 5 V D C )

0 3 / 0 1 / 2 0 1 1

F O L H A

G I V A L D O

D E S E N H O


P R O D U T O


R E V


1 0 R 1 / 4 W

C I R C U I R I T O S D 2 4 0 D C 9 E 2 B I A S D O 1 5 V 1 W

C 2 4 2 C u F


B Y V D 2 1 7 4 -2 0 C 0

R86C RX3 1 R 0 7 K 8 1 C %

D Z 6 C

2 2 u F / 2 5 V

1 5 V

D11C 1N4937

4R7 1/4W

10K

D A T A

R104C

R110C

220R 2W

A R Q U I V O

R89C 10K

R 2 1 2 2 R 8 C

R 2 9 2 5 R C 1

470nF/250V

1 2

C59C 2

3

3

IRFB5620

IRFB5620

100nF/250V C41C

470nF/250V C62C

C99C 150pF/250V

R56C 10R D8C

D9C

1N4937

1N4937

2 2 u H C46C 100nF/250V

- B _ ( - 3 0 . 5 V D C )

R99C 10R 1W

CP8C 1uF/250V R102C 2K2

J U M P _ C H 3

+ B _ ( + 3 0 . 5 V D C )

R82A 100K SINCR_CH4

2 2 u F / 2 5 V

- B _ ( - 3 0 . 5 V D C ) 5V6 DZ5A

1 N 4 1 4 8

D 1 6 A

3 R 3 8 0 4 R A

1 0 0 p F

C 5 1

1nF C79A 3 K 3 1 R K 1 8 9 2 2 WA

2 2 R K 8 1 7 %

R 1 3 5 A

100K R90A

4 7 u F / 2 5 V

22uF/25V

C24A 100nF

B C Q 1 3 9 2 A 7

100K

R94A 100R

R131A

1 n C F 8 5 0 % A 1 n C F 2 5 6 % A

R145A 220R 1% 1nF 5%

22uF/25V

DZ23A

C19A

5V6

R88A

C27A

15K

R 1 8 3 K 9 2 A 1 %

100nF

R191A 1K8 2W

I R S 2 0 9 2 2K2 R137A 33K

R 1 2 6 A

22uF/25V R 1 4 6 A R34A

- B _ ( - 3 0 . 5 V D C )

0 3 / 0 1 / 2 0 1 1

F O L H A

G I V A L D O

D E S E N H O



R E V


C I R C U I R I T S O D 2 4 0 D A 9 E 2 B I A S D O

1 5 V 1 W

C 2 2 4 u A F

P R O D U T O

B Y V 2 7 -2 0 0

D 1 4 A

R86A RX4 1 R 0 7 K 8 1 A %

D Z 6 A

2 2 u F / 2 5 V

1 5 V

D11A 1N4937

4R7 1/4W

10K


1 0 R 1 / 4 W

R110A

R35A

D A T A

R104A

TIP41C

220R 2W

A R Q U I V O

R89A 10K

8 K 2 1 %

R 2 1 2 2 R 8 A

R 2 9 2 5 R A 1

470nF/250V

1

C59A 2

2

3

3

IRFB5620

IRFB5620 100nF/250V C41A

470nF/250V C62A

C99A 150pF/250V

R56A 10R D8A

D9A

1N4937

CP8A 1uF/250V C46A

- B _ ( - 3 0 . 5 V D C )

100nF/250V

1N4937

2 2 u H

R99A 10R 1W R102A 2K2

+ - B - + 2 T R L

1 7 1 @ V R r m s

+ B _ ( + 3 0 . 5 V D C )

+ B _ ( + 3 0 . 5 V D C ) 1 0 u F

C F E 3 C

4 7 R

G N D

R E M

1 N 4 1 4 8

D F 2 C

+ 1 2 V

C 1 1 0 1 0 7 n R R * R C F 4 1 1 4 1 * * K 0 0 K 0 * 3 7 5 7 5 C C C 1

C 8 1 K 1 8 3 2 n C 3 1 % 5 % R R 1 1 0 0 7 6 C C

C 4 F 7 E u 2 F C R 4 1 K 0 2 7 D

S G 3 5 2 5

1 0 0 n F

C 1 1 6 C

1 0 0 n F

C 1 2 0 C

4 7 u F C F E 4 C

R 1 0 1 C

Q 1 C

10nF C115C

1 K

B C

E BCP56

4 7 u F

1K R119 Q 5

1 N 4 1 4 D 8 5

1K

27R

BC 640

R105

D 3

R118 Q 3 R109

BC 640

R103 6K8

6K8

27R R117

IRF1404

C48

27R

68nF

R100

R108

C66

27R 1W R130

68nF

IRF1404 27R 1W R133

R116

6A10

6K8 R101

4700uF 6K8

1 N 4 1 4 8

27R

4700uF

C F 8 1 0 0 n F

R F 1 1 K 4

C47

IRF1404 27R 1W

4 ESPIRAS FIO 12AWG

R129

68nF

F 0 I 9 O E 1 S 2 P A I W R A G S

1 6 D T A

R 2 8

47uF

A R Q U I V O

D A T A

0 3 / 0 1 / 2 0 1 1

F O L H A


G I V A L D O

B L O C O

F O N T E

P R O D U T O

T S 1 2 0 0 .1 X _4 R 1

D E S E N H O


R E V


C64

2 7 0 R R 7 5 5 W

R 2 9 C63

2 7 0 R 5 W

C61

IRF1404

68nF

27R 1W R132

1 6 D T

R 8 1 K 9 2 3 1 %

1 C 2 1 0 0 p 0 F

R 7 4

47uF

100nF CP5

100nF CP6

15V 1W D2

15V 1W D1

@ C O 1 N 2 S , 6 U V C M C O = E 1 M , 5 R 5 E A P m O p U S O

C101 220nF

5V6

4 CE28 X 2 2 0 CE29 0 u F / 5 0 CE32 V CE34

- B _ ( - 3 0 . 5 V D C )

CE30

4 X 2 CE31 2 0 0 u F CE33 / 5 0 V CE35

+ B _ ( + 3 0 . 5 V D C )

DZ7

3 R K 1 9 9 4 S I N C R _ C H 4

S I N C R _ C H 3

S I N C R _ C H 2

S I N C R _ C H 1

+ B _ ( + 3 0 . 5 V D C )

1

3 2

1 B C 3 3 7

3

1N4148

2

B C 3 3 7

2 1

7 8 1 2 3

1 N 4 0 0 7

100nF 1 0 0 u F

5V6

1 N 4 0 0 7

1 N 4 0 0 7

1 N 4 0 0 7

1 N 4 0 0 7

0.22uF 250V

470uF 50V 2

1 3

BC337

100nF 100nF

0.22uF 250V 2

18V

100nF

1 3

10uF

3

1 N 4 1 4 8

B C 3 3 7

100nF

1

2

2

7 8 1 2

100nF 1 0 0 n F

3

4 7 u F

I C 3 : C

OVER

V S I B 2 5 8 0

1

I C 3 : B

ON

I C 3 : D

22uF

I C 3 : A

I C 3 : F

I C 3 : E

1 0 0 n F

1 0 0 n F

100nF

100nF 1 0 0 u F

100nF

10uF

10uF

15V

100nF

100nF 10uF

10uF

15V B Y V 2 7 -2 0 0

100nF

15V

1

1N4937

15V

1N4937

B Y V 2 7 2 0 0

B Y V 2 7 -2 0 0

1

15V

15V

2 3

15V

B Y V 2 7 2 0 0

2

15V

1

1

3 2 3

2 3

2 3

1 2 V

1 N 4 1 4 8

2,2uF 400V 1

2,2uF 400V

TL431

C F 1 8

100nF

1 N 4 1 4 8

S 1

4K7

127 / 220V AC

N

T

F

T R 1

18K

3 0 A

47uF 10K

L M 3 9 3

1N4148

3 2

1

B C 3 3 7

2K2

5V6

820R

1 N 4 0 0 7

1

C I 5 : B

7 8 1 2

2

3

100nF

1 N 4 0 0 7

1 N 4 0 0 7

1 N 4 0 0 7

470K

470uF 50V

10K

L 1

100nF

1 K 47uF

47uF

1K5 2W

1

3

0.22uF 250V

BC337

18V

180R 1% 150R

T I P 4 1 C

3

4 K 7

1 K

1

2

2 2 0 u F 3 5 V

100uF

10K

2 2 K

BC327

1 0 0 u F

1 N 4 1 4 8

2 2 K

C I 3 : A

L M 3 9 3

1 0 0 K

1 0 n F

3 K 0 1 1 %

6 n 8

2 3

0.22uF 250V

100nF

1 0 0 u F

2

1

250V

4 K 7

4 7 u F

S G 3 5 2 4

1 0 K

100nF

1 0 0 n F

7 1 2

V S I B 2 5 8 0

1

2 8 100nF

2 R 5 2 0 A

3

47uF 100nF

1 0 0 n F

10K

NTC 10K

1K 10K

1 0 0 n F

4 7 u F

J 1 R C 2

1 N 4 1 4 8

1K 2200uF 200V

2 2 0 0 u F 2 0 0 V

18K

2K7 100nF

IR2110 100nF

C I 3 : B

100nF 100nF 10uF

T E M P

15V

10uF 10K

2K2

O N

0R10 5W

1

15V

0R10 5W

1 N 4 1 4 8 1

15V

2

3

0R10 5W

10K

2 7 R

2

3

IRGP4063D

IRGP4063D

0R10 5W 2,2uF 400V

100R 5W

1nF 1KV

100R 5W

1 9

2 0

T 1

1nF 1KV

F O N T E

F O N T E C H A V E A D A T H V -1 0 A

T A R A M P S E L E T R O N I C A L T D A .

1 N 4 9 3 7

1 N 4 9 3 7

1 N 4 9 3 7

1 N 4 9 3 7

MUR1660

1nF 1KV

220uF 35V

MUR1660

100R 5W

1nF 1KV 1

2

TL431

1nF 1KV

1 0 0 R 5 W

180R

MUR1660

1nF 1KV 6,8uF 250V

7 8 1 2

3 5 u H

1000uF 250V

3

C O + O - L E R S

P C 8 1 7

620R

MUR1660

1 0 0 R 5 W

1000uF 250V

1N4937 1N4937

225V DC / 10A

100K 1W

6 , 8 u F 2 5 0 V

1N4937

15V

1 N 4 1 4 8

2 7 R

1K

100K 1W

10uF

1K8 1%

6 8 K 1 % 5 6 K 1 % 5 6 K 1 %

1 5 V

T H 1

L O W I N

LOW IN

1 R 3 9 K 3 5 2 C 2 4 p 3 F C 3 9

1 0 0 n F

C 6 1

1 0 0 n F

C 2 2 C 2 0 C 1 3 C 2 3

1 0 0 n F 1 0 0 n F 1 0 0 n F 1 0 0 n F

C 1 6 C 6 0 C 1 8 C 1 7 C 2 4 C 2 5

M I D R 1 L 1 3 K 3 3 O 8 W I C57 N

1 0 0 n F 1 0 0 n F

1 0 0 n F 1 0 0 n F

1 0 0 n F

LL4148

D4

D3

C I 6 : A

1 0 u F

M A X F R E Q 4n7

68nF

6 8 n F

5 6 R K 1 1 3 % 4

2 C 2 p 5 F 8

C E 4 0

C P 2 3

T L 0 7 2

1 0 u F

C P 2 5

47nF

TPE1:A 50KB 18K

CP12

R13

T L 0 7 2

1 0 u F

F O L H A 1 D E

3

D E P S A E U N L H O O / A D I L S O N

R 2 4

R 8 9

1 0 C 4 p 5 F

1 0 C 4 p 6 F

1 2 K

100K

T L 0 7 2

R31

R28 5 R K 2 6 9 2 C 2 p 5 F 9

T L 0 7 2

4 7 0 R

100K

1 0 u F

R19

470R

T L 0 7 2

C E 2 7

C I 8 : B

M I D -L O W O U T

2,2uF

47K

CE26

R35

C I 3 : B

R18

L O W O U T

R32 5K6

C E 2 3

POT2:A 20KB

T A R A M P C R S O S E S L O V E E T R R 4 V O I A N S I R C 3 A L T R D E V A . .

R 8 6 1 0 K

C P 1 1

4 7 n F

C I 3 : A

T L 0 7 2

1 0 R 1 K 3 3 C I 8 A T : L 0 7 2

1 0 C p 3 F 1

1 R 8 1 K 2

C E 4 1

1 R 1 0 3 K 7

R 4

5 T 0 P K E B 1 : B

4 n 7

POT11:A 50KB

1 0 K

C I 4 : B

C I 7 : A

T L 0 7 2

3 R K 9 3 9

C I 1 : B

1 C 0 E u 2 F 8

R 8 8 K 7 2

2 R 2 1 K 3 1

3K3

2 C 2 p 4 F 4

R 1 8 0 3 K

P 5 O 0 K T B 3 : A

POT3:B 50KB R100

R 9 2 5 6 K 1 %

C I 6 : B

C I T 4 A L : 0 7 2

5 T 0 P K E B 2 : B

CP24

CP26

P R O D U T O

D1

R 1 3 0 K

2 2 R K 9 1

C I 1 T : L A 0 7 2

P F O R O L H J A E T G O B T I V L h A O u L C S D O e O p L 1 O 6 W , 2 / 0 M 1 0 I D

D2

5 5 3 2

LL4148

5 5 3 2

TPE2:A R98 50KB 22K

D A T A

LL4148

1 1 3 0 K 1 3

M I N F R E Q

A R Q U I V O

LL4148

22pF R

1 0 0 n F

1 3 R K 9 3 3

100KB POT1:A

1 K

1 C n P F 7

R 1 7

100nF

1K8 CP8

CE29

R 3 0

C I 7 : B

1 0 u F

4 7 0 R

G N D

R E M

+ 1 2 V

C N 3

D 7

S 1 M

S D 1 1 M 0

220uF 16V

1 R 0 6 K 1K R8 B E

100nF C10

Q 9

1K

C

R14

MMBT3904

B

220uF 16V C

MPSA29

1 R 0 3 K 8

M U R S 1 2 0 T 3

C 4 P 3 n 5 7

M U R S 1 2 0 T 3 4 7 0 u F / 3 5 V

D 1 4

D 1 3

470uF/35V 100nF C55

E

C

S

7 9 L 1 5

100nF C12

E

C

S

47uF 16V

47uF 16V

CE31

CE32

ON R10 3K9

M P S A 2 9

Q 1 1

1 C 0 5 0 6 n F

1 C 0 1 0 1 n F

F O N T E

T R A F O

T 2

R 1 3 K 7


BCP53

10nF

Q 1 0

C P 4 4 n 1 7

E

R36 10R

CP32

Q 4

7 8 L 1 5

1 R 0 3 K 9

MID HIGH / HIGH

R

L

1 R 3 1 K 3 2 4

C49 22pF

C47 22pF

1 R 3 1 K 0 3 6

1 R 3 1 K 1 3 0 LL4148

LL4148

D8

D9

R 1 0 8 5 6 K 1 %

C I 5 : 5 A 5 3 2

POT8:B 50KB

H I G H P A S S

1 0 u F

C P C 3 P 6 4 0

R118

R 1 1 6

4 n 7

MIN. FREQ POT5:B

3 9 K

R105 1K

T L 0 7 2 C I 1 2 : B

POT9:B 50KB

R 1 2 5

C E 3 6

T L 0 7 2

1 0 K

T C L 2 0 I 7 : 2 B

2 C 2 5 p 1 F

1 0 u F

R 1 2 6

R 4 7 3 0 4 R

2K2 R115

CP33 C P 3 9

4 n 7

R 1 1 4

3 9 K

1 0 K

5 0 K B

R107 3K3

3n3

1 0 K

C I 2 : A

R 1 2 7 1 0 K

2 C 2 5 p 3 F

POT6:A

5 0 K B

3 P n 3 3 0

A D R A Q T U A I V O T h u S e p 1 6 , 2 0 1 0 F O L H A 3 D E 3


D E S P E A N U H L O O / A D I L S O N

F P T O R A L O H D R A U A T B O M L O C P C R O O S S E S O L M V E I E D T R H R 4 I G V O H I A / S N H R I I G 3 C H R E V .

A L T D A .

C 2 7 C 2 6 C 3 0 C 3 5 C 3 7

1 0 0 n F 1 0 0 n F 1 0 0 n F 1 0 0 n F 1 0 0 n F

C 2 9 C 2 8 C 3 3 C 3 6 C 3 8

C

R 1 2 9

1 0 K

C I 1 1 : A

T L 0 7 2 4 7 0 R

1 0 0 n F 1 0 0 n F 1 0 0 n F 1 0 0 n F 1 0 0 n F 1 0 0 n F

H I G H O U T ( R )

H I G H O U T ( L )

C I 1 0 : B

1 C 0 E u 3 F 9

470R

C 3 4

C I 9 : B

2 R K 1 2 1 3

MAX FREQ

R 2 2

1 0 0 n F

22nF

POT7:A 50KB

R33

C 3 2

2 2 n F

CP28

T L 0 7 2

R 4 7 2 0 3 R

2 C 2 5 p 2 F

R102 1K

T L 0 7 2

CP31

1 C 0 E u 3 F 8

R 1 2 8

MIN. FREQ POT5:A

C I 1 2 : A

POT9:A 50KB

T L 0 7 2

T C L I 1 0 1 7 : 2 B

C I 5 : B

5 R 6 1 K 0 1 3 %

C E 3 4

4n7

T L 0 7 2

C E 3 7

R 1 1 2 1 0 K

D5

5 5 3 2

C I 1 0 : A

POT7:B 50KB

R 1 1 1 1 0 K

3 R 9 1 K 1 9

3 C n P 3 3 7

R117

3n3

H I G H P A S S

2 R K 1 2 2 0

MAX FREQ POT6:B 3K3 50KB

C P 3 4

D6

2 C 2 5 p 0 F

POT8:A 50KB

C P 2 9

CP38

C I 9 : A

LL4148

1 0 u F

22nF

5 0 K B

T L 0 7 2

1 0 u F

2 2 n F

LL4148

C E 3 5

4n7

2K2

1 R 3 1 K 0 3 9

M I D H I G H O U T ( R )

M I D H I G H O U T ( L )

1 0 R 1 K 3 0

2 C 2 5 p 4 F

C P 2 7

M I N 3 R 9 1 F K 0 R E 4 Q

2 C 2 4 p 8 F

G N D

R E M

+ 1 2 V

1 N 4 0 0 7

1 N 4 0 0 7

220uF

1 0 K M P S A 2 9

1K

100nF

1K

B

220uF C

E

MPSA29

BD140

10R

T R A F O

10nF

4 n 7

1 0 K

M P S A 2 9

1 0 0 n F

4 n 7

1 K

1 N 4 9 3 7

1 0 0 n F

F O N T E


1 N 4 9 3 7 4 7 0 u F / 3 5 V

4 7 0 u F / 3 5 V 100nF

E

7 9 L 1 5

C

100nF E

7 8 L 1 5

C

S

S

47uF

47uF

ON

3K9

1 0 K

LOW IN

1 3 K 3

22pF

1 0 0 n F

1 0 0 n F

1 0 0 n F

1 0 0 n F

1 0 0 n F

1 0 0 n F

1 0 0 n F

1 0 0 n F

1 0 0 n F 1 0 0 n F

1 3 K 3

M I D 1 3 L K O 3 W I N

22pF

1N4148

1 3 K 3 1N4148

1 0 0 n F 1 0 0 n F

5 6 K 1 %

C I 6 : A

5 5 3 2

2 2 p F

T L 0 7 2

68nF

22K

6 8 n F

T L 0 7 2

5 0 K B T L 0 7 2

2 2 K

M A X F R E Q 4n7

4 n 7

47nF

T L 0 7 2

50KB

C I 8 A T : L 0 7 2

F O L H A 1 D E 3

D E S P E A N U H L O O / A D I L S O N

T A R A M P S E L E T R O N I C A L R T E D V . A .

1 0 p F

18K

5K6

T L 0 7 2

100KB 2,2uF

2 2 p F

T L 0 7 2

4 7 0 R

100K

C I 3 : B

470R

1 0 u F

T L 0 7 2

C I 7 : B

4 7 0 R

100nF

5 K 6

20KB

F P O R L O H D A U T B O L O C C R O O S L S O O W V / E M R I D 4 V I A S R 3

1 2 K

100K

1 0 K

1 0 p F

8 K 2

1 0 u F

1 0 K


1 0 K

4 7 n F

C I 3 : A

T L 0 7 2

1 0 u F

A D R A Q T U A I V O F r i M a y 2 8 , 2 0 1 0

C I 4 : B

1 8 K

3K3

50KB

1 0 p F

1 0 K

5 0 K B

3 K 3

C I 1 : B

C I 4 : A

C I 7 : A

T L 0 7 2

5 0 K B

50KB

1 0 u F

1 0 K

2 2 K

50KB

2 2 p F

5 6 K 1 %

1 0 K

1 0 u F

M I N F R E Q

C I 6 : B

5 5 3 2

1N4148

1N4148

C I 8 : B

1K8

47K

1 K

1 n F

1 0 u F

Esquemas Amplificadores Taramps

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