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8/18/2019 Esquemas Amplificadores Taramps
1/141
700 5, 2002 2, 400 45,
4004 3, 400 , 500 , 500 131 , 00, 1.2 , 2.0
10, 3.5 5, 3.5 , 4500 2, 5.0
5, 10.2 , 10. , 14200 6, 20 5
4, 30 2, 30.0 , 40 5
150 2, 300 4 2, 4004,
00 41, 1200 1 41
00 5, 1000, 1000,
16002000 5, 1.600 2.000 ,
27003500 6, 6.5 7
50 2, 100 4
600, 1500 33
10 , 4 , 4 .
2012
8/18/2019 Esquemas Amplificadores Taramps
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8/18/2019 Esquemas Amplificadores Taramps
3/141
DE
2
AR Q UI V O
F OL HA
P R OD UT O
1
A 3
P R O J E T O
DAT A
A MP L I F I C A D OR
F OL H
A
BL O C O
RE V
T A R A M
P S E L E T R Ô N
I C A L T D
A
DE S E
NH O
A DI L S ON
F r i J an 0 7 , 2 0 1 1
GI V A L D O
0 8 / 1 0 / 2 0 1 0
T 2 0 0 X 2 S MDR2
+ - +
R
1 0
1 2
13
19
6
1 4
-
L
I NP UT R
I NP UT L
- 3 d B
@ 1
0 0 Hz
- 3 d B
@ 1
0 0 Hz
- 3 d B
@ 1
0 0 Hz
- 3 d B
@ 1
0 0 Hz
R 5 5
4 7 K
1
3
5 2 1 1 8
2 1 2 2
CE41
10uF 10uF
CE9
R20
22K 1%
C2122pF
2 2 K
1 %
R2
7 2 2 pF
C2
9
R5
22K 1%
C2
22pF
T OP
OWE R
S UP L L Y
1K
R50
R43
1K
3K3
R57
6 8 nF
C1 7
R44
3K3
3 3 K
R1
0
R1 1
0
2 2
0 R1 W
2 2
0 R1 W
R1
9 9
33K
R30
R34
2K2
3 3 K R2 3
33nFC25
6
8 nF
C
3 2
CI 2 : B
T L
0 7 2
33KR19 33nF
C12
C1 4
6 8 nF
CE11147uF
ON
100nF
C131 H
I GHP A
S S
4 7 K
R 5 6
L OWP A
S S C169
100nF
1nFC77
HI GHP A
S S
c
L OWP A
S S
100nFC155
C 6 7
4 7
0 nF
6 K
8
R7 1
R 6 8
6 K
8 4 7
0 nF
C 6 1
R 5 4
6 K
8
CE161
470uF 35V
C82100nF
100nFC81
4 9
7
6K8
R97
C 8 4
100nF
20
23
18
24
1 7
1 6 1 5
4 7
uF
6 3 V
CE
9 6
C109 560pF
R104
10R
100nFC119
BTL
1
CE 2
6
1 0 uF
R 5 3
8 K 2
100nF
C115
C133
100nF
8 K 2
R4 2
1 0 uF
CE
8
6 8 nF
C 3 5
R 3 7
3 3 K
CE11247uF
CI 2 : A
T L
0 7 2
R 5 8
4 7 K
c 4 7 K
R 5 2
C140100nF
C7
0
4 7
0 nF
6 K
8
R 6 2
C 6 0
4 7
0 nF
1nFC76
CE162
470uF 35VC74
100nF
R16410R
C7347pF
R 9 8
6 K
8
100uF
CE99
100nFC79
DZ1
5V6
100nFC85
100nF
C89
C 9 1 100nF
C 9 3
1 0 0 nF
MURS120T3
D151
10RR105
D139MURS120T3
C106
560pF
C107560pF
100nF
C121 R118
27R 1W
27R 1W
R120
470nF/63VC124
CN1 1
F UL L
2 2 K 1
%
R 3 3
C201100nF
C136
100nF
C1
5 6 n
8
4 R7 1 W
R1 2 2
R 3 6
2 2 K 1
%
2 2 K
T P 2
2
K 2
R
2 2
6 8 n
F C1 6
2 2 K 1
%
R 3
2
2 K 1
%R 6 C7 2 2
pF
2 2 K
T P 1
6n8C13
3
3 K
R
1 1
15V
DZ2
C129
100nF
1 0 R
R1
6 7
1nF
C72
C66
2 2
0 pF 220pF
C 5 9
C168
100nF
F UL L
J MP 2
3K9R200
560pFC108 C
1 0 3
15nF
2 7
uH
L 2
MURS120T3
D148
2 7
uH
L 1
220pFC38
CI 1
: B T L 0 7 2
CI 4 : B
T L
0 7 2
6 8
nF
C2 4 R
3 1 3 3 K
15V
DZ3
CI 4 : A
T L
0 7 2
2 2 K 1
%
R4
CI 1
: A T L 0 7 2
3 3
K
R1
8
1nF
C 6 3
1 0 R
R1
6 6
4 ,7 uF
CE
3 9
C7
5
100nF
10RR165
4,7uFCE28
R78
27K 1%
J MP 1
L E DA Z
1 5 nF
C102
MURS120T3
D138
100nFC86
C123
4 7
0 nF
/ 6 3 V
1 0 0 nF
C92
CI 3 : A
T L
0 7 2
CI 3 : B
T L
0 7 2
CI P 1
T DF
8 5 9 1 T H
8/18/2019 Esquemas Amplificadores Taramps
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F OL H
A
2 RE V
A4
AR Q UI V O
DAT A
0 8 / 1 0 / 2 0 1 0
P R O J E T O
GI V A L D O
P R OD UT O
T 2 0 0 X 2 S MDR2
DE
2
DE S E
NH O
BL O C O
F OL HA
A DI L S ON
F r i J an 0 7 , 2 0 1 1
T A R A M
P S E L E T R Ô N
I C A L T DA
F ONT E CHA V E A DA
4 6 K Hz
GND
+1 2 V
1 0 uF
CF E 3
6 n 8 5 %
C1 8 2 K
2 1
% R2 4
1 K R1
3
D2
1 N4 1 4
8
C4
10nF
47uFCFE2
4 7 R
R 8
C1 9
1 0 0 nF
1 K
R2
6 27RR2
27RR1
C110nF
5 e s p
1 5 A W G
5 e s p.
1 5 A W
G
U1
6 2
0 R
U1
6 2
0
C ON1
R2 5
1 8 R
R1 5
4 K 7
CFE447uF
1000uF 16V
CFE1
10K
R12
10K
R9
10nFC3
T RF 1
4 K 7
R1 4
1 0 0 nF
C 5
4
K 7 R1 7
1 0 0 nF
C 6
4 6 K Hz
C
B
E
BCP56
Q1 7 1
RE M OT E
1 5 A
4 7 R
R
7
9 e s p.
1 8 A W
G
CFF5
2 2 0 0 uF
3 5 V
9 e s p.
1 8 A W
G
100nFC20
R
1 6
4 1 K 2 1
%
SG3525
CI F 1
1N5404
D1
IRFZ48
CFF1
2 2 0 0 uF
3 5 V
IRFZ48
OB S : OBT I D O S
Á
1 2 , 6 V
c cE M RE P O U S O
8/18/2019 Esquemas Amplificadores Taramps
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A4
RE V
AR Q UI V O
DE
F OL HA
3
3
DAT A
P R O J E T O
BL O C O
F OL HA
2 4 / 0 9 / 2 0 1 0
P R OD UT O
T 4 0 0 X 4 S MDR 3
DE S
E NH O
GI V A L D O
A DI L S ON
F on t e
T A R
A M
P S E L E T R Ô N
I C A L T D
A
+ 1 2 V
G ND
R e m o t o
1 0 K
R1 0 6
3 n 3 5 %
C 1 1 8
-2 5 V
+ 2 5 V
47uF
CFE4
C F E 3
1 0 uF
4 7 R
R1 0 7
4 K 7
R1 0 3
4 K 7
R1 0 5
1 0 0 nF
C
1 1 7 4 4 K2
R1 0 4
47uFCFE2
100nFC116
2 7 R
R 9 8
2 7 RR 9 7
2 7 R
R 9 6
1 0 nF
C 1 1 4
2 7 R
R 9 5
U1 6 2 0
-2 5 V
+ 2 5 V
1 K
R1 0 1
S G 3 5 2 5
E
C
B
K S H
3 1 C
Q1
1N5404
DF1
1 0 K
R 9 9
1 0 nF
C 1 1 3
4 K 7
R1 0 2
100nF
C120
10nF
C115
1 KR1 0 8
IRF1404
1 5 7
IRF1404
1 5 8
1 0 K
R1 0 0
6 X2 2 0 0 uF 3 5 V
1 N4 1 4 8
DF 2
2 2 0 0 uF / 1 6 V
CFE1
1 0 0 nF
C 1 1 9
U1 6 2 0 R
8/18/2019 Esquemas Amplificadores Taramps
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AR Q UI V O
DAT A
F OL HA
2 4
/ 0 9 / 2 0 1
0
BL O C O
T 4
0 0 X 4
S MDR
3
F
OL HA
D
E S E NH O
DE
A2 _1
GI V A L D
O
3 RE V
P R O J E T O
F r i J
an
0 7
, 2 0 1 1
A m
pl i -A
P R OD UT O
A DI L
S ON
1
T A R A M
P S E L E T R Ô
NI C A L T D
A
- + -+
VDD
GAI N
GAI N
F UL L
4 7 K
R2 7
HI GHP A S S
+ 2 5 V
1 0 uH
+ 1 5 V
E NT RADA C H2
10uF
CE3
E NT RADA C H1
C E 2
1 0 uF
100nFC57
22K 1%R9
22pFC8 C
1 2
2 2 pF
22K 1%R3
2 2 pF
C 1
2 2 pF
C 2
2 2 K1 %
R4
100nF
C50
1 0 uF
C E 4
R2 4
8 K2
1 0 uF
C E 1
6 8 nF
C 1 4
3K3
R28 3K3R19
1 2 0 pF
C 5 4
6 K 8 1 % R
3 6
6 8 n
F C 9
2K2R16 33K
R13
33nFC10
6 n 8
C 1 1
2 K2
R1 0
6 8 nF
C 1 3
33K
R7 6 8 nF C
6 3 3 K
R 6
6 n 8
C 4
100nFC48
100nFC49
c
HI GHP A S S
L O W P A S S
4 7 K
R2 9 L O
W P A S S
c
F UL L
220nF
C44
5V6DZ4
4,7uFCE6
6 K 8
R 3 3
1 nF
C 2 1 1 n
F C 2 0
6 K 8
R2 5
100nFC29
100nF
C30
1 0 0 nF
C 2 7
1 0 0 nF
C 2 8
-2 5 V
1 0 0 nF
C 3 1
1 0 0 nF
C 3 2
100nF
C34
1 0 0 nF
C 3 5
1 0 0 nF
C 3 7
100uF
CE8
100nF
C53
CE21 2 2
0 uF / 3 5 V
1 0 0 nF
C 3 3
560pFC42
MURS120T3
D4
15nF
C39
1 0 R
R38 560pF
C40
V S S
DZ3
15V
100nFC47
1 0 0 nF
C 4 6
L 2
1 0 uH
LED AZ
-1 5 V
1
1K
R22 1K
R21
8 K2
R2 0
3 3 K
R1 4
33K
R8
6 8 nF
C 5
4 7 K
R 3 2
100nFC55
100nF
C56
4 7 K
R2 6
6 K 8
R 3 1
6 K 8
R 3 0
2 2 0 pF
C 2 2
10R R47
6K8
R34
10R R46
DA FONTE
220uF/35VCE22
C52100nF
560pF
C43
MURS120T3
D2
10R
R39
560pF
C41
C 3 8
1 5 n
F
15V
DZ2
27R 1WR43
MURS120T3D1
2 7 R1 W
R4 2
5K6
R50
2 2 K1 %
R1 7
T DF 8 5 9 1 T H
O UT P UT C H2
O UT P UT C H1
100nFC45
100nF
C51
R1 5
2 2 K1 %
T L 0 7 2
C I 4 : B
2 2 K1 %
R1 2
2 2 K
2 2 K1 %
R2
T L 0 7 2
C I 4 : A
2 2 K
4 7 0 nF C 2
3
1nF
C25
C 7
6 8 nF
T L 0 7 2
C I 3 : A
C E 5
4,7uF
4 7 0 nF
C 1 8
3 3 K R 5
T L 0 7 2
C I 2 : A
3 3 nF
C 3
3 K 3
R 3 7
1 0 R
R4 8 47pF
C26
1 0 0 nF
C 3 6
MURS120T3
D3
6 K 8
R 3 5
5V6DZ1
4 7 uF / 6 3 V
C E 7
47uFCE10
LED AZ
1 2 0 R2 W
R4 0
1 2 0 R2 W
R4 1
5 5 3 2
C I 1 : B
220pFC15
4 R 7 1 W
R4 4
2 2 K1 %
R1
5 5 3 2
C I 1 : A
33K
R11 3 3 K
R1 8
T L 0 7 2
C I 2 : B
4 7 0 nF
C 2 4
T L 0 7 2
C I 3 : B
1 nF
C 1 9
4 7 0 nF
C 1 7
2 2 0 pF
C 1 6
1uF/63VCP2
10R
R49
1uF/63VCP1
47uFCE9
I C 1
3
1
2 4
1 3
1 8
2 3
1 4
2 0
1 0
6
5 1 1 9
1 9
2 1
2 2
1 7
4 2 8
1 2
7
1 5
1 6
C I P 1
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DE
3
AR Q UI V O
F OL HA
P R OD UT O
2
A 3
P R O J E T O
DAT A
A m pl i -B
F OL H
A
BL O C O
RE V
T A R A M
P S E L E T R Ô N
I C A L T D
A
DE S E
NH O
A DI L S ON
F r i J an 0 7 , 2 0 1 1
GI V A L D O
2 4 / 0 9 / 2 0 1 0
T 4 0 0 X 4 S MDR 3
- + - +
220pF C72
I NP UT CH 3
GAI N GA
I N
F UL L
F UL L
T DF 8 5 9 1 T H
I NP UT CH4
2 2 K1 %
R 6 9
2 2 K1 % R
6 7
22K 1%R61
2 2 pF
C 5 8
22K 1%R55
2 2 K1 %
R 5 1
100nFC103
100nFC112
1 0 uF
CE 1 4
100nFC109
C108
100nF
T L 0 7 2
CI 8 : B
2 2 K 1K
R74
33K
R63
6 8 nF
C 7 1
C686n8
3 3 K
R 7 0
2 K2
R 6 2 6n8
C61 C 6 2
6 8 nF
100nFC106
T L 0 7 2
CI 7 : B
33nF
C67 T L 0 7 2
CI 6 : B
C110100nF
33nFC60
1 nF
C 8 4
1nF
C80
220pF C 7 7
4 7 0 nF
C 7 8
4 7 0 nF
C 7 5
1 0 R
R 9 3
C81
47pF
10R
R94
C91
1 0 0 nF
5V6
DZ5
100uF
CE18
6 K 8
R 8 6
560pFC101
1 0 0 nF
C 8 8
100nFC90
15nF
C98
1 0 0 nF
C 9 2
10R
R87
V S S
1 0 uH
L 1 0 0 1
1 0 uH
MURS120T3
D7
OUTPUT CH4
10uFCE13
10uF
CE12
22pFC65
4 R 7 1 W
R4 5
1 0 uF
CE 1 1
1K
R73
2 2 K
T L 0 7 2 C
I 8 : A
6 8 nF
C 6 3
33K
R59
3 3 K
R 5 7
C 6 4
6 8 nF 3 K
3
R 8 2
T L 0 7 2 C
I 6 : A
4,7uFCE16
4,7uFCE15
1nF
C76
1 nF
C 8 5
4 7 0 nF
C 7 9
1 0 0 nF
C 8 2
10R R91
C 7 3
220pF
C 7 4
4 7 0 nF
6K8
R85
2 2 0 uF / 3 5 V
CE 2 0
220uF/35VCE19
10R
R88
560pFC99
C93100nF
2 7 R1 W
R 9 0
2 7 R1 W
R 8 9
MURS120T3
D5
1uF/63V
CP3
OUTPUT CH3
1uF/63VCP4
2 2 K1 %
R 6 4
L O W P A S S
VDD
5 5 3 2
CI 5 : B
2 2 pF
C 5 9
2 2 K1 %
R 5 6
2K2
R68
C107100nF
C 6 6
6 8 nF
4 7 K
R 8 1
8 K2
R 7 5
3 3 K
R 6 6
c
HI GHP A S S
33K
R60
100nFC111
HI GHP A S S
8 K2
R 7 1
3 3 K
R 5 8
L O W P A S S
4 7 K
R 7 2
C86
100nF
C87
100nF
1 0 0 nF
C 8 9
C102
560pF
6 K 8
R 8 4
6 K 8
R 8 3
MURS120T3
D8
6 K 8
R 7 6
1 0 0 nF
C 9 4 47uF/63V
CE 1 7
100nFC95
100nFC96
1 0 0 nF
C1 0 5
1 0 0 nF
C1 0 4
2 2 pF
C 6 9
2 2 K1 %
R 5 2
5 5 3 2
CI 5 : A
3K3
R78
6 8 nF C
7 0 33K
R65
4 7 K
R 7 9
R 7 7
4 7 K c
T L 0 7 2
CI 7 : A
MURS120T3
D6
6 K 8
R 8 0
10R R92
1 5 nF
C 9 7
560pF
C100
1 0 0 nF
C 8 3
3
1
2 4
1 3
1 8
2 3
1 4
2 0
1 0
6
5 1 1 9
1 9
2 1
2 2
1 7
4 2 8
1 2
7
1 5
1 6
8/18/2019 Esquemas Amplificadores Taramps
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F OL H
A
3 RE V
A4
AR Q UI V O
DAT A
2 4
/ 0 9 / 2 0 1
0
P R O J E T O
GI V A L D
O
P R OD UT O
T 4
0 0 X 4
S MDR
3
DE
3
DE S E
NH O
BL O C O
F OL HA
A DI L
S ON
F r i J an
0 7
, 2 0 1 1
T A R A M
P S E L E T R Ô N
I C A L T DA
F on
t e
+ 1 2 V
G ND
R e m o t o
1 0 K
R1 0 6
3 n 3 5 %
C1 1 8
-2 5 V
+ 2 5 V
47uFCFE4
CF E 3
1 0 uF
4 7 R
R1 0 7
4 K 7
R1 0 3
4 K 7
R1 0 5
1 0 0 nF
C
1 1 7 4 4 K2
R1 0 4
47uFCFE2
100nFC116
2 7 R
R 9 8
2 7 R
R 9
7
2 7 R
R 9 6
1 0 nF
C1 1 4
2 7 R
R 9 5
U1 6 2 0
-2 5 V
+ 2 5 V
1 K
R1 0 1
S G 3 5 2 5
E
C
B
K S H
3 1 C
Q1
1N5404DF1
1 0 K
R 9 9
1 0 nF
C1 1 3
4 K 7
R1 0 2
100nF
C120
10nFC115
1 K
R1 0 8
IRF1404
1 5 7
IRF1404
1 5 8
1 0 K
R1 0 0
6 X2 2 0 0 uF 3 5 V
1 N4 1 4 8
DF 2
2 2 0 0 uF / 1 6 V
CFE1
1 0 0 nF
C1 1 9
U1 6 2 0 R
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1
A R QU I V O
D A T A
A 3
F OL H A
P R O J E T O
P R OD U T O
2 4 / 0 9 / 2 0 1 0
F OL H A
D E
3
R E V
GI V A L D O
T 4 0 0 X 4 S MD R 5 _ C
A D I L S ON
B L O C O
D E S E N H O
A m pl i - A
TARA MPSA M
PL I FI CADORES
- +-+
VDD
GAI N
GAI N
F UL L
4 7 K
R2 7
HI GHP A S S
+2 5 V
1 0 uH
+1 5 V
E NT RADA C H2
10uF
CE3
E NT RADA C H1
C E 2
1 0 uF
100nF
C57
22K 1%R9
22pFC8 C
1 2
2 2 pF
22K 1%R3
2 2 pF
C 1
2 2 pF
C 2
2 2 K1 %
R4
100nF
C50
1 0 uF
C E 4
R2 4
8 K2
1 0 uF
C E 1
6 8 nF
C 1 4
3K3
R28 3K3R19
1 2 0 pF
C 5 4
6 K 8 1 % R
3 6
6 8 nF C 9
2K2R16
33K
R13
33nFC10
6 n 8
C 1 1
2 K2
R1 0
6 8 nF
C
1 3
33K
R7 6 8 nF C 6 3 3
KR 6
6 n 8
C 4
100nFC48
100nFC49
c
HI GHP A S S
L O W P A S S
4 7 K
R2 9 L O
W P A S S
c
F UL L
220nF
C44
5V6DZ4
4,7uFCE6
6 K 8
R 3 3
1 nF
C 2 1 1 n
F C 2 0
6 K 8
R2 5
100nFC29
100nF
C30
1 0 0 nF
C 2 7
1 0 0 nF
C 2 8
-2 5 V
1 0 0 nF
C 3 1
1 0 0 nF
C 3 2
100nF
C34
1 0 0 nF
C 3 5
1 0 0 nF
C 3 7
100uF
CE8
100nF
C53
CE21 2 2
0 uF / 3 5 V
1 0 0 nF
C 3 3
560pFC42
MURS120T3
D4
15nF
C39
1 0 R
R38 560pF
C40
V S S
DZ3
15V
100nFC47
1 0 0 nF
C 4 6
L 2
1 0 uH
LED AZ
-1 5 V
1
1K
R22 1K
R21
8 K2
R2 0
3
3 K
R
1 4
33K
R8
6 8 nF
C 5
4 7 K
R 3 2
100nFC55
100nF
C56
4 7 K
R2 6
6 K 8
R 3 1
6 K 8
R 3 0
2 2 0 pF
C 2 2
10RR47
6K8
R34
10RR46
DA FONTE
220uF/35VCE22
C52100nF
560pF
C43
MURS120T3
D2
10R
R39
560pF
C41
C 3 8
1 5 nF
15V
DZ2
27R 1WR43
MURS120T3D1
2 7 R1 W
R4 2
5K6
R50
2 2 K1 %
R1 7
T D F 8 5 9 1 T H
O UT P UT
C H2
O UT P UT
C H1
100nFC45
100nF
C51
R1 5
2 2 K1 %
T L 0 7 2
C I 4 : B
2 2
K1 %
R1 2
2 2 K
2 2 K1 %
R2
T L 0 7 2
C I 4 : A
2 2 K
4
7 0 nF C 2
3
1nF
C25
C 7
6 8 nF
T L 0 7 2
C I 3 : A
C E 5
4,7uF
4
7 0 nF
C 1 8
3 3 K R 5
T L 0 7 2
C I 2 : A
3 3 nF
C 3
3 K 3
R 3 7
1 0 R
R4 8 47pF
C26
1 0 0 nF C 3
6
MURS120T3
D3
6 K 8
R 3 5
5V6DZ1
47uFCE10
LED AZ
1 2 0 R2 W
R4 0
1 2 0 R2 W
R4 1
5
5 3 2 C I 1 : B
220pFC15
4 R 7 1 W
R4 4
2 2 K1 %
R1
5 5
3 2 C I 1 : A
33K
R11 3 3 K
R1 8
T L 0 7 2
C I 2 : B
4
7 0 nF
C 2 4
T L 0 7 2
C I 3 : B
1 nF
C 1 9
4
7 0 nF
C 1 7 2 2 0 pF
C 1 6
1uF/63VCP2
10R
R49
1uF/63VCP1
4 7 uF / 6 3 V
C E 7
47uFCE9
I C 1
3
1
2 4
1 3
1 8
2 3
1 4
2 0
1 0
6
5 1 1 9
1 9
2 1
2 2
1 7
4 2 8
1 2
7
1 5
1 6
C I P 1
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B L O C O
F OL H A
D E
D E S E N H O
A 3
T 4 0 0 X 4 S MD R 5 _ C
2
3
A m pl i - B
A R QU I V O
P R O J E T O
F OL H A T
ARA MPSA MPL I FI CADORES
D A T A
A D I L S ON
GI V A L D O
2 4 / 0 9 / 2 0 1 0
R E V
P R OD U T O
- + - +
220pF C72
I NP
UT
C H
3
GAI N GA
I N
F UL L
F UL L
T D F 8 5 9 1 T
H
I NP
UT
C H4
2 2 K1
%
R 6 9
2 2 K1
% R 6 7
22K 1%R61
2 2
pF
C 5 8
22K 1%R55
2 2 K1
%
R 5 1
100nFC103
100nFC112
1 0 uF
C E 1 4
100nFC109
C108100nF
T L
0 7 2
C I 8
: B
2 2 K 1K
R74
33K
R63
6 8 nF
C 7 1
C686n8
3 3 K
R 7 0
2 K2
R 6 2 6n8
C61 C 6 2
6 8 nF
100nFC106
T L
0 7 2
C I 7
: B
33nF
C67 T L
0 7 2
C I 6
: B
C110100nF
33nFC60
1 nF C 8 4
1nFC80
220pF C 7 7
4 7 0 nF
C 7 8
4 7 0 nF
C 7 5
1 0 R
R 9
3
C81
47pF
10R
R94
C911 0
0 nF
5V6
DZ5
100uFCE18
6 K
8
R 8 6
560pFC101
1 0 0 nF
C 8 8
100nFC90
15nF
C98
1 0 0 nF
C 9 2
10R
R87
47uF/63V
C E 1
7 V S S
1 0 uH
L 1
0 0 1
1 0 uH
MURS120T3
D7
OUTPUT CH4
10uFCE13
10uFCE12
22pFC65
4 R
7 1
W
R4
5
1 0 uF
C E 1 1
1K
R73
2 2 K
T L
0 7 2 C
I 8 : A
6 8 nF
C 6 3
33K
R59
3 3 KR 5 7 C 6 4
6 8 nF 3 K
3
R 8 2
T L
0 7 2 C
I 6 : A
4,7uFCE16
4,7uFCE15
1nF
C76
1 nF
C 8 5
4 7 0 nF
C 7 9
1 0 0 nF
C 8 2
10RR91
C 7 3
220pF
C 7 4
4 7 0 nF
6K8
R85
2 2
0 uF
/ 3 5 V
C E 2
0
220uF/35VCE19
10R
R88
560pFC99
C93100nF
2 7 R1
W
R 9 0
2 7 R1
W
R 8 9
MURS120T3
D5
1uF/63VCP3
OUTPUT CH3
1uF/63VCP4
2 2 K
1 %
R
6 4
L O W P A
S S
VDD
5 5
3 2 C I 5
: B
2 2 pF
C 5 9
2 2 K
1 %
R 5
6
2K2
R68
C107100nF
C 6 6
6 8 nF
4 7 K
R 8 1
8 K2
R 7 5
3 3 K
R 6 6
c
HI GHP A
S S
33K
R60
100nFC111
HI GHP A
S S
8 K2
R 7 1
3 3 K
R 5 8
L O W P A
S S
4 7 K
R 7 2
C86
100nF
C87
100nF
1 0 0 nF
C 8 9
C102
560pF
6 K
8 R
8 4
6 K
8 R
8 3
MURS120T3
D8
6 K
8 R
7 6
1 0 0 nF
C 9 4
100nFC95
100nFC96
1 0 0 nF
C 1
0 5
1 0 0 nF
C 1
0 4
2 2
pF
C 6 9
2 2 K1
%
R 5 2
5 5 3
2 C I 5 : A
3K3
R78
6 8 nF C
7 0 33K
R65
4 7 K
R 7 9
R 7 7
4 7 K c
T L
0 7 2
C I 7
: A
MURS120T3
D6
6 K
8 R
8 0
10RR92
1 5 nF
C 9 7
560pF
C100
1 0 0 nF
C 8 3
3
1
2 4
1 3
1 8
2 3
1 4
2 0
1 0
6
5 1 1 9
1 9
2 1
2 2
1 7
4 2 8
1 2
7
1 5
1 6
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R E V
A 4
A R Q U I V O
D A T A
2 4 / 0 9 / 2 0 1 0
P R O J E T O
B L O C O
F OL H A
P R OD U T O
D E
F OL H A
3
D E S E N H O
3
T 4 0 0 X 4 S MD R 5 _ C
F on t e
A D I L S ON
GI V A L D O
TARA MPSA MPL I
FI CADORES
+1 2 V
G ND
R e m o t o
1 0 K
R1 0 6
3 n 3 5 %
C 1 1 8
-2 5 V
+2 5 V
47uFCFE4
C
F E 3
1
0 uF 4 7 R
R1 0 7
4 K 7
R1 0 3
4 K
7
R1
0 5
1 0 0 nF
C 1 1 7 4
4 K2
R1
0 4
47uFCFE2
100nFC116
2 7 R
R 9 8
2 7 R
R 9 7
2 7 R
R 9 6
1 0 nF
C 1 1 4
2 7 R
R 9 5
U1 6 2 0
-2 5 V
+2 5 V
1 K
R1 0 1
S G 3 5 2 5
EC
B
K S H 3 1 C
Q1
1N5404DF1
1 0 K
R 9 9
1 0 nF
C 1 1 3
4 K 7
R1 0 2
100nFC120
10nFC115
1 K
R1 0 8
IRF1404
1 5 7
IRF1404
1 5 8
1 0 K
R1 0 0
6 X2 2 0 0 uF 3 5 V
1 N4 1 4 8
D F 2
2 2 0 0 uF / 1 6 V
CFE1
1 0 0 nF
C 1 1 9
U1 6 2 0 R
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2 2 K 1 %
1 0 0 n F
0°0°
23K2 1%
HPF
LOW PASS
R
L
4 7 p F
R 4 0
4 R 7 1 W
1 0 0 n F
C P 1 7
C 7 2
1 0 0 u F / 2 5 V
180°
22K 1%
47pF
1 0 0 n F
0°
1 0 0 K
1 0 0 n F
4K99 1%
1 8 n F
4K99 1%
6n8C13
3 3 n F
C 1 2
33KR11
68nFC14
1 0 0 n F
-3dB @ 100Hz
FULL
INPUT(RCA)
22K 1%
C P 1 6
1 0 0 n F
C 7 1
1 0 0 u F / 2 5 V
2 2 K
L E V E L
3
21CI1:A
TL0722
1
43c
6K8
47pF
HPF (100Hz a 2.2KHz)
R3910R 1W
47R
2K7 22K 1%
100K18nF
6
57CI2:B
TL072
33KR10
10R 1WR47
2K7
5
67CI1:B
TL072
2
31CI2:A
TL072
SENSIBILIDADE DEENTRADA = 0,300VACNO MOMENTO DO CLIP@ 1KHz
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R 8 2 A
1 0 0 K
R 9
1 0 K
1 0 K
-B_(-37,2V)
B Z X 7 9 C 4 7 V
D Z 1 2
4 7 V 0 . 5 W
1 0 K
R 2 2
1N4148
D16A
2 2 u F / 2 5 V
D Z 5 A
5 V 6 0 . 5 W
RED
1 0 K
R 1 5
47K
R14
( 3 0 V 0 . 5 W )
330uF/25V
100K
R21
1 0 0 R
R 9 4 A
R 1 4 5 A
3 0 0 R 1 %
2 2 u F / 2 5 V
1 0 0 K
R 1 3 1 A
R139A
8K2 8K2
R126A
1 N 4 9 3 7
D 1 1 A
R 3 5 A
1 5 K
R 1 8 5 A
1 0 K
-B_(-37,2,
2
3
1
I R F B 5 6 2 0
2
3
1
I R F B 5 6 2 0
2 N 3 9 0 4
Q3
R 1 7
4 K 7
2 N 3 9 0 6
Q11
C 7 9 A
1 n F
10K
R13
2 N 3 9 0 6
Q12
R 8
3 9 K 1 %
PROT
4 K 7
R 9 7 A
10K
R12
10K
R20
C26A
1nF
C80A
1nF
C 2 7 A
1 0 0 n F
2 K 2 2 W
R 8 8 A
3 9 K 1 %
2 K 2
R 1 3 7 A
2 2 u F / 2 5 V
1 0 K
R
1 0 4 A
B L U E
O N
T I P 3 1 C
2 2 0 R 2 W
R 3 4 A
R 1 1 0 A
4 R 7 1 / 4 W
R 1
9
4 K
7
R 1 8
8 2 0 R
OTPPROTEÇÃO TÉRMICA
2K2 2W
22uF/25V
R 9 0 A
1 0 0 K
UPVBAIXA TENSÃO
Q7 2 N 3 9 0 4
D Z 1 0
B Z X 7 9 C 3 0 V
C 1 9 A 1
n F
C 2 4 A
1 0 0 n F
47uF/25V
22uF
C4A
D4A15V 1W
1N4937
D14A
22RR95A
R146A
10R 1/4W
22uF/25V
DZ6A15V 1W
22RR128A
1 0 0 n F / 5 0 V
C 1 1
330R
R84A
3K3
R135A
IRS2092
Q19ABC 327
5 V 6 0 . 5 W
D Z 2 3 A
3 3 K
R 8 9 A
CIRCUITO DE BIAS DOIRS2092
2 2 0 n F / 2 5 0 V
C 5 9 A
10K 1%R78A
OVPTENSÃO ALTA
DCPPROTEÇÃO DC
Q13 2 N 3 9 0 6
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GND
REM
+12V
+
10uF
CF6 100nF
4K7
RF9
4K7
RF8
1N4148
DF2
R 1
0 8
6 K 8
I R F 1 4 0 4
CF8
100nF
6 8 n F C 4
7
2 7 R 1 W
R 1 3 0
-U1620R
U1620
C 6 3
4 7
u F
CF73n3
4K7
RF11****
RF15 27R
R100
4 7 0 0 u F
4 7 0 0 u F
6 K 8
R 1 0 1
1K
RF14
2 7 R 1 W
R 1 2 9
6 8 n F
C 6
0
C P 5
4 7 u F C
6 4
SG3525
+B_(+37,2V)
100nFCF5
100nFCF9
47RRF13
RF128K2 1%
47uF/25V
47uF/25VCFE4
1K
RF7
1 0 n F
C F 4
27R
R116
680R 3W
R24
6 A 1 0
I R F 1 4 0 4
1
3
2
BD139
R23
680R 3W
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BL O C O
F OL HA
DE
1
4
T 5 0 0 DX 1 _R 9 _ C ( 1 R / 2 R ) D
E S E NH O
A 3
P RE
AR Q UI V O
DAT A
1 7 / 1 2 / 2 0 1 0
F OL HA
RE V
P R O J E T O
A DI L S ON
GI V A L D O
P R OD UT O
T A R A M
P S A M
P L I F I
C A D
OR E S
0 °
2 R
L R
LEVEL
R 5
0 °
0 °
4 7 pF
C2 5
1 R
HP F
L OWP A S S
1 6 0 mV
@
-1 3 , 6 9 d B u
2 K 7
R2 7
2 K 7
R2 8
T L 0 7 2
CI 1 : B R
3
1 8 K 1 %
CP16100nF100nF
CP11
1 8 0 °
100nFC9
R 5
* * * * 4 4 K 2 1 %
3 9 K
1 8 nF
CP 1
100nFC10
1 0 0 K
33nF
C12
- 3 d B @ 1 0 0 Hz
0 °
10nFCP2
1 0 0 nF
CP 1 0
T L 0 7 2
CI 3 : A
1 0 0 nF CP
1 3
CP 1 5
4 7 nF
R 3 6
1 2 0 K
T L 0 7 2
CI 3 : B
R404R7 1W
R 3 9
1 0 R1 W
1 0 R1 W
R4 7
18K 1%
R44 7 pF
C1
C7 3
4 7 uF / 2 5 V
R7 7
6 K 8 1 %
T L 0 7 2
CI 1 : A
R7 6
4 7 R
100K
3 3 K R1 0
T L 0 7 2
CI 2 : A
T L 0 7 2
CI 2 : B
2
1 4
3 c
BASS BOOST
100nFC19
4 7 nF
CP 1 4
R41220K 1%
1 0 K 1 %
R 3 7
F UL L
1 8 0 °
I NP UT
( R CA )
R1
1 8 K 1 %
1 8 K 1 %
R2
C71
100uF/25V
4 K 9 9 1 %
R6
18nF
CP4
4 K 9 9 1 %
R7
6 n 8
C1 3
100nFC4
6 8 nF
C1 4
100nFC15
4K99 1%R48
10K 1%
R52
R4 9
1 0 K 1 %
C7 4
2 2 uF / 2 5 V
47pF
C2
C72
100uF/25V
3 3 K R1 1
22K
100nFC18
10KB
R 3 8
1 0 0 R
2 2
K 1 %
R
4 5
HP F ( 1 0 0 Hz a2
.2 K Hz )
B A S S B O O S T
+1 0 d B @ 5 0 Hz
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2
AR Q UI V O
DAT A
A 3
F OL HA
P R O J E T O
P R OD UT O
1 7 / 1 2 / 2 0 1 0
F OL HA
DE
4
RE V
GI V A L D O
T 5 0 0 DX 1 _R 9 _ C ( 1 R / 2 R )
A DI L S ON
BL O C O
DE S E NH O
A MP L I F I CA D OR ( 2 OHM S )
T A R A M
P S A M
P L I
F I C A D
OR
E S
DZ 2
R7 9
R 3 4
R2 5
DZ 3
R4 3
R4 6
RED
V C C
( -B )
d B
( + B )
B Z X 7 9 C1 5
2 K 2 -2 W
2 K 2 -2 W
2 2 0 R-2 W
1 Oh m
NTC
O UT
+ / -B
4 1 , 8 6 V r m s
5 0 , 5 V d d
O UT
B Z X 7 9 C 5 6
2 2 K 1 %
1 0 0 K 1 %
2 2 uF / 2 5 V
1 2 0 K
( -B )
3 K 3
R7 1
100nF/50V
C11
R19
4K7
22uF/25V
5V6 0.5W
DZ1
1 5 nF C2 9
R 5 1
4 K 7
1
8 V C C
R8
220K 1%
R17
4K7 100RR50
R74
300R 1%
C
E
B
Q7
MMBT3904
E
CB
MMBT3906
Q 6
UP V
B A I X A T E N S Ã O
7 , 9 V C C
4 7 K
R1 4
R 6 6
8 K 2 1 %
10K 1%
R3210K 1%
R58
2
1
3
KSH41CBYV27-200
D6
2 2 uF / 2 5 V
D4
1 5 V 1 W
2
3
1
IRFB5620
100nF/250VC41
100nF/250V
CP7
10R 1W
R16
1uF/250V
CP9
+2 9 ,2
1
1 Oh m
( -B )
-
R782K2
+ 3 4 , 6
2 Oh m s
100K 1%R35
1nF 5%
C79
R18
820R4 7 uF / 2 5 V
1 N4 1 4 8
D7
PROT
R22
10K 1%
22uF/25V
C2 8
1 nF 5 %
100nF
C27
****R43
DZ2
****
22uF/25VD3
MURS120T3
R25
****
1 5 V 1 W
Z 1
R644R7 1/4W
ON
2 2 uF / 2 5 V
C 3
22RR29
2
3
1
IRFB5620
100nF/250V
CP8
MURS120T3
D9
100nF/250V
CP3
D
S
G
M _F E T 1
OP CI ONA L
****
R34
B Z X 7 9 C 3 0
2 K 7 -2 W
8 2 0 R- 3 W
2 Oh m s
2 2 , 3 7 V r m s
3 7 ,2 V
d c
+
B Z X 7 9 C 6 2
OT P
P R OT E ÇÃ OT É RMI CA
1 3 K 3 1 %
2 K 7 -2 W
100nF
C24
R7 9
* * * *
R4 2
3 3 0 R
R70
100K 1%
R1 2
1 0 K 1 %
R1 3
1 0 K 1 %
3 3 0 uF / 2 5 V
1 0 K 1 %
R2 0
D CP
P R OT E ÇÃ OD C
1 0 0 K 1 %
R2 1
C20
1nF 5%
R7 3
8 K 2 1 %
R33RX
R4433K
MURS120T3
D5
R3010R 1/4W
2 2 uH
22R
R67
C
E
B Q 3
MMBT3904
E
C
B Q4
MMBT3906R9
10K 1% 10K 1%
R80
E
C
B
MMB T 3 9 0 6
Q 8
****
R46
DZ3
****
EC
B
Q 5
MMBT3906
R15
10K 1%
C2 6
1 nF 5 %
I R S 2 0 9 2
DZ4
5V6 0.5W
R72
2K2 1%
R75
10R 1/4W
R26
15K
150pF/250V
C21
10K 1%R31
OV P
T E N S
à OA L T A
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BL O C O
F OL HA
DE
3
4
T 5 0 0 DX 1 _R 9 _ C ( 1 R / 2 R ) D
E S E NH O
A 3
F ONT E
AR Q UI V O
DAT A
1 7 / 1 2 / 2 0 1 0
F OL HA
RE V
P R O J E T O
A DI L S ON
GI V A L D O
P R OD UT O
T A R A M
P S A M
P L I F I
C A D
OR E S
3 7 ,2
- +
G ND
RE M
+ / -B
R 6 0
7 5 0 mA
5 0 , 5
7 3 K 1 %
1 Oh m
( -B )
( + B )
( + B )
+ 1 2 V
CF E 3
C
1 0 uF / 2 5 V
C 7 3
n 3 5 %
8 K2 1 %
R 6 1
4 7 R
R 6 2
C 8
1 0 0 nF 4
K 7
R 5 9
* * * *
R 6 0
2 7 R
R 5 3
R63
6K8 1%
6A10
4700uF
4700uF
R54
6K8 1%
1 K
RF 1 4
CF 8 1 0
0 nF
68nF
C4768nF
C60
U1 6 2 0 R
U1 6 2 0
CP5
100nF
47uF/25V
C64
100nFCP6
C63
47uF/25V
RF28
15K 1W
R2 4
R2 3
1 0 0 0 uF / 6 3 V
6 8 0 R- 3 W
6 8 0 R- 3 W
R 5 7
4 K 7
U C 3 5 2 5 AD W
1 N4 1 4 8
D1 0
R 5 6
4 K 7
27R 1WR6927R 1W
R68
C ON S UM O
RE P O U S O
RF27
15K 1W
1 0 0 0 uF / 6 3 V
8 8 0 mA
1 0 0 K 1 %
2 Oh m s
1 0 0 nF
C1 6
1 0 0 nF
C 6
4 7 uF / 2 5 V
CF E 2 1 K
R 5 5
10nF
C17
F E CHA OP UL S O
E M1 4 ,7
V c c DE
E NT R
A DA
D2
15V 1W
R2 3
* * * *
15V 1W
D1
1 K 5 - 5 W
1 K 5 - 5 W
CF E 4
4 7 uF
/ 2 5 V
C
B
E
Q1
BCP56
2 7 R
R 6 5
IRF1404
R2 4
* * * *
IRF1404
OB
S : DA D O S OB T I D O S E MRE P O U S O À
1 2 , 6 0 V c c
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4
PRODUTO REV
FOLHA
DATA
ARQUIVO FOLHA 4 DE
BLOCO
17/12/2010
A4
PROJETO
T500D X1_R9_C (1R / 2R)
DESENHO
GIVALDO ADILSON
CONFIGURAÇÕES
TA R A M P S A M P LI F I CA D OR ES
39K
2 Ohms
R5 44K2 1%
R23 1K5-5W
R34 2K7-2W
R43 13K3 1%
R79 2K7-2W
DZ2 BZX79C30
CONSUMOREPOUSO 880mA
1 Ohm
680R-3W
2K2-2W
22K 1%
2K2-2W
BZX79C15
750mA
R24 1K5-5W
R25
R60
R46
820R-3W
100K 1%
120K
+/- B
DZ3
50,5
BZX79C62
680R-3W
220R-2W
73K 1%
100K 1%
37,2
BZX79C56
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3
DE
GI V A L D O
B L O C O
3
A MP L I F I CA D O
RT 7 0 0 A B
F OL HA
DE S E NH OA
DI L S ON
F OL HA
RE V .
P R OD UT O
DA T A
P R O J E T O
A R Q UI V O
F r i M a y 2 8 ,2 0 1 0
T A RA MP S E L E T R ONI CA L T DA .
-
27R 1W 27R 1W
GND
RE M
+1 2 V
F ONT E CHA V E A DA
3 . 0
1 0 uF
4 7 R
3 n 3
1 0 0 nF
4 K 7
4 K 7
1 0 0 nF
1 0 0 nF
1 K
4 K 7
27R
IRF1404
6A10
4700uF IRF1404
6K8
27R
IRF1404
27R 1W
4700uF
IRF1404
6K8 27R
U1 6 2 0
+
100nF
15V
1 K 2 5 W
1 K 2 5 W
4 7 uF
1 0 K
1 0 0 nF
6K8
27R
68nF
6K8
MMT -4 5 1 4
U1 6 2 0 R
15V
4 7 uF
# 4 e s pi r a s
1 N4 1 4 8
1 K
10nF
68nF
100nF
3 3 0 0 uF
1 0 0 V
68nF 27R 1W
1 N4 9 3 7
2 2 0 uF / 3 5 V
68nF
100nF
220uF/35V
3 3 0 0 uF 1 0 0 V
B D1 3 9
SG3525
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3
DE
GI V A L D O
B L O C O
1
A MP L I F I CA D O
RT 7 0 0 A B
F OL HA
DE S E NH OA
DI L S ON
F OL HA
RE V .
P R OD UT O
DA T A
P R O J E T O
A R Q UI V O
F r i M a y 2 8 ,2 0 1
0
T A RA MP S E L E T
R ONI CA L T DA .
R
T I ME
0 °
L
1K5 10K
0 °
120K 82K
10K
1N4148
10K
0 °
1 8 0 °
3 0 K 1 %
6 8 K
6 K 8
CL I P
3 . 0
4R7 1W
22K 1%
33pF
100uF 25V
NTC 10K
6K8
4 ,7 uF
22K 47K
3 n 3
47uF 25V
CI 3 : A T
L 0 7 2
1 0 0 K
4 ,7 uF 0
°
P R
OT T L 0 7 2
C
I 3 : B
1 0 0 K
100K
CL I P
2 K 2
100uF 25V
1K
ON
B C 6 4 0
T E MP
E RA T URA
V OL UME
HP F ( 5 0 0 Hz a2 .2 K Hz )
P RE -A MP L I F I CA D OR
1 N4 1 4 8
5 5 3 2
2 2 K 1 %
2 2 K 1 %
2 K 7
2 K 7
I NP UT
( R CA )
2 2 K 1 %
3 3 pF
CI 1 : B
5 5 3 2
1 0 0 nF
1 K 2
3 0 K 1
%
2 2 K
3n3
3 3 pF
1uF
CI 2 : B
T L 0 7 2
4 1 K 2 1 %
1 N4 1 4 8
CI 4 : B T
L 0 7 2
100nF
100K
4 K 7
T L 0 7 2
CI 2 : A
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3
DE
GI V A L D O
B L O C O
2
A MP L I F I CA D O
RT 7 0 0 A B
F OL HA
DE S E NH OA
DI L S ON
F OL HA
RE V .
P R OD UT O
DA T A
P R O J E T O
A R Q UI V O
F r i M a y 2 8 ,2 0 1 0
T A RA MP S E L E T R ONI CA L T DA . - +
100K
100nF
1N4148
3K3
10K
100R 1W
0 °
4K7
100R 5W
4R7 4R7
2 K 2
4 7 R1 W
4 7 R
3 . 0
100K
1 5 0 pF
100R
47V
100R
2 ,2 uF 6 3 V
1 0 0 K
47uF 100V
E
B
C
15032
BD139
4 7 pF
E
B
C
15033
VM
470nF/250V
E
B
C
BD140
220R
47uF
220R
1 0 nF
1N4002
100nF
1 nF
1 0 0 R
15033 15032
FJL4215 0R47 5W FJL4315
220nF/250V FJL4215 0R47 5W FJL4315
E T A P A DE S A I DA
100nF 250V
O UT
1K8 C
B
E
KSP93
C
E
B
KSP43
1K8
47V
2K7 2W
100nF
2K7 2W
47uF 50V
390R 1% 100R 1W 390R 1%
10K
1 0 nF
4 7 uF
1
3
2
BD139
47uF 100V
4 7 R
1 0 0 R
100K
10R 1W 22uF/25V
4R7
10R 1W
4R7
4R7
4R70R47 5W
4R7
4R7
1N5404 1N5404
0R47 5W
220nF/250V
100R 5W
2 K 2
3 3 K
2 K 7
2 K 7
0 . 0 8 uH
1N4148
1 0 K CI 4
: A
T L 0 7 2 100R
47uF 50V
47uF
100R
1N4002
1 0 uF / 2 5 V
1 K
4 7 R1 W
FJL4215
1 0
0 nF
1 N4 0 0 2
0R47 5W
J 1 R C2
1 0 R 5 W
FJL4315
FJL4315
C
B
E KSP93
C
E
B
KSP43
47uF
6N139
4 7 pF 1N4002
FJL4215 10R 2W
0R47 5W
3 7 , 6 V r m s @ 7 0 6 Wr m s
s o b r e2 R
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-1 5 V
-1 5 V
220nF
100nF
+ 5 V
T E RRA
+1 5 V
-1 5 V
T E RRA
T E RRA
T E RRA
1 0 0 pF
T E RRA
1 uF
-1 5 V
100nF
-1 5 V
1 0 0 nF
T E RRA
+1 5 V
T E RRA
1 0 0 nF
100nF
2 2 0 nF
1 0 0 nF
T E RRA
6 n 8
T E RRA
T E RRA
-1 5 V
T E RRA
T E RRA
T E RRA
1 0 0 nF
1 0 0 nF
T E RRA
T E RRA
T E RRA
T E RRA
6n8
+1 5 V 1 nF
100nF
T E RRA
5 0 K HZ
4 7 pF
P I N O _1 0 _I R # 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 RRA
1 0 0 nF
+1 5 V
1 nF
3 9 K
+1 5 V
1 0 0 pF
T E RRA
T E RRA 1 0
0 nF
100nF
T E RRA
+ 5 V
T E RRA 1
0 0 nF
1 0 0 nF
T L 0 7 2
1 0 0 nF
+1 5 V
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+B
(DO PRÉ) (DO PRÉ)
1K
4R7
100K
10K
100nF
100nF 100nF
47uF 47uF
4R7
+2 0 V
P I N O _1 0 _I R # 2
P I N O _1 2 _I R # 2
S H UT D OWN
+ 5 V
T E RRA
T E RRA +B2
3 2 uH
+
S A I DA
P I N O _1 2 _I R # 1
P I N O _1 0 _I R # 1
2 2 0 nF
0 R 0 5 5 W
0 R 0 5 5 W
T E RR
A
47uF
+B -I R
1 0 uF
15V BYV27-200
T E RRA
15V
1 N
4 1 4 8
10K
15V
10K
15V
1 N
4 1 4 8
10K
15V
1 N
4 1 4 8
T E RRA
100K 6,8uF 100V
T E RRA
100K 6,8uF 100V
3 2 uH
1uF 250V
+ --
T E RRA 100pF 100pF
100nF
10uF
15V BYV27-200
15V100nF
10uF
( DA F ONT
E )
( DA F ONT
E )
( DA F ONT
E )
( DA F ONT
E )
100pF
E NT RA DA P ONT E H
( L a d o p o s i t i v o )
E NT RA DA P ONT E H
( L a d on e g a t i v o )
T E RRA
100pF
2
7 R
1 N4
1 4 8
2
7 R 2 7 R
2K7 5W T E RRA
1 nF 2 5 0 V
1 nF 2 5 0 V
2K7 5W
2
7 R
100K
7 8 1 2
3
1
2
5 2 N1 5
3 2
1
5 2 N1 5
2
3
1
5 2 N1 5
IR2010
2 3
1
5 2 N1 5
IR2010
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REMOTE
4700uF 25V
GATE_B
470uF 100V
470uF 100V
470uF 100V
470uF 100V
GNDB A T .
RE M OT E
T E RRA
4 R7
T E RRA
+B
+1 2 V D C
T E RRA
4700uF 25V
1 0 R 1 0 R
GATE_A
6 8 nF
1K
4 R7
4 R7
IRF1404 I RF 1 4 0 4
U1 6 2 0
470uF 35V 470uF 35V
+2 0 V
T E RRA
T E RRA
-1 5 V
+1 5 V
6A10
6 8 nF T
E RRA
T E RRA
T E RRA
T E RRA
U1 6 2 0
R
T E RRA
C
S
E I N
O UT
GND
T E R
RA
T E RRA
4 R7
1 0 R
+1 2 V
6 8 n
F
1 0 R
IRF1404
1K
I RF 1 4 0 4
1 N4 9 3 7
1 0 0 nF
100uF
1 0 0 nF
100uF
T E RRA
6 8 nF
1 N4 9 3 7
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TERRA
2K2 1%
+B -I R
100nF
5 0 K HZ
( P / P RÉ )
RE M OT E
GA T E _B
GA T E _A
S H UT D OWN
P I N O _1 2 _I R # 2 100nF
+1 2 V
1K220uF 35V
CL I P
1 0 0 nF
1 0 0 uF 100nF
1K220uF
T E RRA
B Y V 2 7 -2 0 0
T E RRA
2K2 1%
+ 5 V
2 2 0 nF
T E RRA
100nF
T E RRA
10K
100nF
3
2
1
BC327
T E RRA 330R
330R
330R
E
C
B
B D1 4 0
1K
6 n 8
C
S
E
6K8
1K 1%
100nF
47uF
1nF
100nF
P I C1 6 F 6 1 6
M C1
+B
1 0 K
+B 2
P R OT
ON
( P / S A Í DA )
T E RRA
1 N4 1 4 8
1nF
C
B
E
B C 3 3 7
1 0 0 nF
47uF
6 N1 3 9
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-1 5 V
-1 5 V
220nF
100nF
T E RRA
+1 5 V
-1 5 V
T E RRA
T E RRA
+ 5 V
P I N O _1 0 _I R # 2
P I N O _1 2 _I R # 2
P I N O _1 0 _I R # 1
T E RRA
1 0 0 pF
T E RRA
1 uF
-1 5 V
100nF
-1 5 V
1 0 0 nF
T E RRA
+1 5 V
T E RRA
1 0 0 nF
100nF
2 2 0 nF
1 0 0 nF
T E RRA
6 n 8
T E RRA 1 0
0 nF
+ 5 V
T E RRA 1 0
0 nF
-1 5 V
T E RRA
P I N O _1 2 _I R # 1
T E RRA
T E RRA
1 0 0 nF
1 0 0 nF
T E RRA
T E RRA
T E RRA
T E RRA
6n8
+1 5 V 1 nF
100nF
T E RRA
5 0 K HZ
1 0 0 pF
T E RRA
1 0 0 nF
+1 5 V
1 nF
3 9 K
+1 5 V
1 0 0 pF
T E RRA
100nF
T E R
RA
T E RRA 1
0 0 nF
1 0 0 nF
T L 0 7 2
T E R
RA
+1 5 V
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+B
(DO PRÉ) (DO PRÉ)
1K
4R7
10K
100nF
100nF 100nF
47uF 47uF
4R7
+2 0 V
P I N O _1 0 _I R # 2
P I N O _1 2 _I R # 2
S H UT D OWN
+ 5 V
T E RRA
T E RRA +B2
3 2 uH
+ S A I DA
P I N O _1 2 _I R # 1
P I N O _1 0 _I R # 1
2 2 0 nF
S H UNT
T E RR
A
47uF
+B -I R
1 0 uF
15V BYV27-200
T E RRA
15V
1 N
4 1 4 8
10K
15V
10K
15V
1 N
4 1 4 8
10K
15V
1 N
4 1 4 8
T E RRA
6,8uF 250V
T E RRA
6,8uF 250V
3 2 uH
-
T E RRA 120pF 120pF
100nF
10uF
15V BYV27-200
15V100nF
10uF
2,2uF 250V
( DA F ONT
E )
( DA F ONT
E )
( DA F ONT
E )
( DA F ONT
E )
120pF
E NT RA DA P ONT E H
( L a d o p o s i t i v o )
E NT RA DA P ONT E H
( L a d on e g a t i v o )
T E RRA
120pF
4
7 R
1 N4
1 4 8
4
7 R 4 7 R
2K7 5W T E RRA
1 nF 2 5 0 V
1 nF 2 5 0 V
2K7 5W
4
7 R
7 8 1 2
D
S
G
5 2 N1 5
D
S
G
5 2 N1 5
IR2010
D
S
G
5 2 N1 5
IR2010
D
S
G
5 2 N1 5
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RE M
+1 2 V
GND
6A10
+B
RE M OT E
T E RRA
6A10
T E R
RA
F E P 1 6 DT A
F E P 1 6 DT
1 N
4 9 3 7
470uF 35V
1 0 0 nF
470uF 35V
1 0 0 nF
T E RRA
100uF
T E RRA
100uF
-1 5 V
+1 5 V
1 N
4 9 3 7
T E RRA
+1 2 V
T E RRA
A C 3 A
C2
GA T E _B
GA T E _A
T E RRA
+2 0 V
C
S
E
C
E
S
1500uF 200V
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TERRA
2K2 1%
+B -I R
100nF
5 0 K HZ
( P / P RÉ )
RE M OT E
1 0 0 nF
GA T E _B
GA T E _A
S H UT D OWN
P I N O _1 2 _I R # 2 100nF
+1 2 V
1K
220uF 35V
T E RRA 330R
330R
330R
100nF
1K220uF
T E RRA
B Y V 2 7 -2 0 0
T E RRA
2K2 1%
+ 5 V
100uF
2 2 0 nF
T E RRA
100nF
T E RRA
10K
3
2
1
BC327
CL I P
E
C
B
B D1 4 0
1K
6 n 8
C
S
E
RB
1K 1%
100nF
47uF
1nF
100nF
P I C1 6 F 6 1 6
M C1
+B
RA
+B 2
100nF
( P / S A Í DA )
T E RRA
1 N4 1 4 8
100nF
1nF
ON
P R OT
C
B
E
B C 3 3 7
1 0 0 nF
47uF
6 N1 3 9
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DE
4
AR Q UI V O
F OL HA
P R OD UT O
1
A 3
P R O J E T O
DAT A
P R
É
F OL H
A
BL O C O
RE V
T A R A M
P S E L E T R Ô N
I C A L T D
A
DE S E
NH O
A DI L
S ON
F r i J an
0 7
, 2 0 1 1
GI V A L D
O
{ D a t e }
A MP L . DI GI T A L T 2
0 0 0 R
1 0
+1
5 V 1
-1 5 V
100nF
+1
5 V
-1 5 V
13K3 1%
-1 5 V
-1 5 V
5 0 K HZ
T E RR
A
+1
5 V
-1 5 V
+ 5 V
-1 5 V
+1
5 V
+1
5 V
P I N
O _1
0 _I R
# 2
P I N
O _1 2
_I R
# 2
P I N
O _1
0 _I R
# 1
1 0 0 pF
22K 1%
-1 5 V
-1 5 V
100nF
+1
5 V
T E RRA
T E RRA
1 nF
T E RRA
1 uF
-1 5 V
3K3
470R
100nFT E RRA
+1
5 V
T E RRA
T E RRA
-1 5 V
100nF
100nF
T E RRA
T E RRA
100nF
T E RRA
100K
2 2 0 nF
1 0 0 nF
100nF
220nF
220R
1 5 nF 47K
220R
1 0 0 K
T E RRA 1
0 0 nF
T E RRA 1
0 0 nF
P I N
O _1 2
_I R
# 1
T E RRA
T E RRA
2 K 2
T L 0 7 2
T E RRA
3K3
T E RRA
CROSSOVER
47KT E RRA
+ 5 V
15nF
T E RRA
100nF
T E RRA
100nF
1 nF
100nF
( D OP I C
)
3 9 K
-1 5 V
2 2 K 1
%
T E RRA
1 3 K
3 1
%
+1
5 V
2 2 K 1
%
1 0 0 pF
+1
5 V
T L
0 7 2
T E RRA
T E RRA
T L
0 7 2
T L
0 7 2
8 K 2
S UB
S ONI C
O
T E RRA
+1
5 V +1
5 V
3 0 K 1
%
1 0 0 nF
1 0 0 pF
CI 1 : A
T L
0 7 2
2 2 K 1
%
CI 2 : A T L
0 7 2
T L
0 7 2
CI 3 : A
100nF
T L
0 7 2
T L
0 7
2
T L
0 7 2
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DE
4
AR Q UI V O
F OL HA
P R OD UT O
2
A 3
P R O J E T O
DAT A
S A
ÍDA
F OL H
A
BL O C O
RE V
T A R A M
P S E L E T R Ô N
I C A L T D
A
DE S E
NH O
A DI L
S ON
F r i J an
0 7
, 2 0 1 1
GI V A L D
O
{ D a t e }
A MP L . DI GI T A L T 2
0 0 0 R
1 0
+B
(DO PRÉ) (DO PRÉ)
1K
4R7
10K
100nF
100nF 100nF
47uF 47uF
4R7
+2
0 V
P I N
O _1
0 _I R
# 2
P I N
O _1 2
_I R
# 2
S H
UT D
OWN
+ 5 V
T E RRA
T E RRA +B2
3 2 uH
+ S A I DA
P I N
O _1 2
_I R
# 1
P I N
O _1
0 _I R
# 1
2 2 0 nF
T E RRA
47uF
+B -I R
100uF/50V
15V BYV27-200
T E RRA
15V
1 N4 1 4 8
10K
15V
10K
15V
1 N4
1 4 8
10K
15V
1 N4 1 4 8
T E RRA
6,8uF 250V
T E RRA
6,8uF 250V
3 2 uH
-
T E RRA 120pF 120pF
100nF
10uF
15V BYV27-200
15V100nF
10uF
2,2uF 250V
( DA F ONT E )
( DA F ONT E )
( DA F ONT E )
( DA F ONT E )
120pF
E NT RA DA P ONT E H
( L a d o p o s i t i v o )
E NT RA DA P ONT E H
( L a d on e g a t i v o )
T E RRA
120pF
4 7
R
D
S
G
FET
1 N4 1
4 8
4 7
R
D
S
G
FET
4 7 R
2K7 5W T E RRA
1 nF 2 5 0 V
1 nF 2 5 0 V
2K7 5W
4 7 R
D
S
G
FET
D
S
G
FET
7 8 1 2 IR2010 IR2010
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DE
4
AR Q UI V O
F OL HA
P R OD UT O
3
A 3
P R O J E T O
DAT A
F ONT E
F OL H
A
BL O C O
RE V
T A R A M
P S E L E T R Ô N
I C A L T D
A
DE S E
NH O
A DI L
S ON
F r i J an
0 7
, 2 0 1 1
GI V A L D
O
{ D a t e }
A MP L . DI GI T A L T 2
0 0 0 R
1 0
1K 10R
10R
10R
10R
GND
RE M
+1 2 V
T E R
RA
A C2
+B
1 N4 9 3
7
T E RRA
T E RRA
T E RRA
T E RRA
T E RRA
T E RRA
-1 5 V
+1
5 V
T E RRA
6 8 nF
+1 2 V
1K
4 R7 1 W
4 R7 1 W
T E RRA
A C 3
T E RRA
1 N4 9
3 7
15V
470uF 35V
120R 1W
100nF
10uF/25VT E RRA
100nF
6 8 nF
IRFP40046A10
4700uF 25V
4700uF 25V
4700uF 25V
4700uF 25V
T E RRA
120R1W
470uF 35V
15V
10uF/25V
1500uF 200V
1500uF 200V
RE M
OT E
GA T E
_A
T E RRA
+2
0 V
6 8 nF 6
8 nF
4 R7 1 W
4 R7 1 W
T E RRA
GA T E
_B
T E RRA
E
B
C B
D1 4
0
220uF/35V
1
3
2
B D1
3 9
6A10
IRFP4004
IRFP4004
IRFP4004
4700uF 25V
T R
3
220uF/35V
F E P 1 6 DT A
F E P 1 6 DT
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DE
4
AR Q UI V O
F OL HA
P R OD UT O
4
A 3
P R O J E T O
DAT A
D S P
F OL H
A
BL O C O
RE V
T A R A M
P S E L E T R Ô N
I C A L T D
A
DE S E
NH O
A DI L
S ON
F r i J an
0 7
, 2 0 1 1
GI V A L D
O
{ D a t e }
A MP L . DI GI T A L T 2
0 0 0 R
1 0
+B -I R
560R 10K
TERRA
100nF
5 0 K HZ
( P / P RÉ )
P I N
O _1 2
_I R
# 2
+1 2 V
1 0 0 nF
T E RRA
+ 5 V
4 7 R
GA T E
_B
GA T E
_A
S H
UT D
OWN
100nF
RE M
OT E
1K
100nF
T E RRA
330R
330R
330R
100nF
E
C
B
B D1 4 0
1K
RA
220uF
C
S
E
7 8 L
0 5
T E RRA
2K2 1%
100uF
4 R7 1 W
47uF
1nF
2 2 0 nF
4 7 R
100nF
4 7 R
1nF
T E RRA
10K
3
2
1
BC327
220uF 35V
CL I P
1K
6 n 8
RB
B Y V 2 7 -2 0 0
1K 1%
100nF
RX
47uF
100nF
P I C1 6 F 6 1 6
M C1
T E RRA
+B
R C
+B 2
( P / S A Í DA )
100nF
T E RRA
100nF
P R OT
ON
1 N4 1 4 8
C
B
E
B C 3 3 7
6 N1 3 9
M C 3 3 1
5 2
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1
4
1 0 0 nF
4 7 pF
P RE -A MP L I F I CA D OR
3
47pF
4 7 pF
1 0 0 nF
T L 0 7 2
1 nF
1 0 0 nF
1 0 0 nF
100nF
2 2 uF
1 0 0 nF
6n82 2 uF
1 0 0 nF
100nF
1 nF
3 9 K
100nF
100nF
220nF
100nF
1 0 0 nF
1 0 0 nF
A MP L I F I CA D ORT 3 . 5 K W
1 0 uF
1 0 0 nF
6 n 8
2 2 0 nF
1 0 0 nF
1 0 0 nF
1 0 0 nF
GI V A L D O ( CI R C UI T O
)
P A UL O ( L A Y O UT E S Q
. / P CI )
1 0 0 nF
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+ -
2
4
(DO PRÉ)
100nF
100nF
47uF
15V
100nF
100nF
47uF
15V
S H UNT A
E T A P A DE S A I DA
3
(DO PRÉ)
2 2 0 nF
47uF
S H UNT B
100nF
6,8uF 250V 6,8uF 250V
1nF 250V
J UMP
1uF 400V
S A I DA
47uF
100nF
10uF
15V BYV27-200
10uF
15V BYV27-200
1nF 250V
( D OD S P / F ONT E
B A I X A T E N S Ã O )
A MP L I F I CA D ORT 3 . 5 K W
( D OD S P / F ONT E
B A I X A T E N S Ã O )
( D OD S P / F ONT E
B A I X A T E N S Ã O )
1 0 0 uF
15V
2
1
3
15V 15V 15V
( D OB A N C O
CA P A CI T I V O
)
2
3
1
2
3
1
2
1
3
GI V A L D O ( CI R C UI T O
)
P A UL O ( L A Y O UT E S Q
. / P CI )
( f i o C u pr o t h al 1 4 A W G
- 0 , 0 3 0 oh m s )
( f i o C u pr o t h al 1 4 A W G
- 0 , 0 3 0 oh m s )
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3
3
4
100nF
1 0 0 nF
100nF 100nF100nF
2 2 0 uF
2 2 0 nF
100nF
B Y V 2 7 -2 0 0
6 n 8
47uF
100nFP R OT
P WR
1 0 0 uF
2 2 0 nF
470uF 35V
100nF
100uF
1 0 0 nF
4 7 uF
100nF
1 nF
CL I P
1nF
1 0 0 nF
4 7 uF
2
3 1
B C 3 2 7
1 0 0 nF
4 7 uF
1 nF
6 N1 3 9
100nF
470uF 35V1nF
100nF
100nF
100uF
A MP L I F I CA D ORT 3 . 5 K
W
4 7 uF
220uF 35V
1 N4 1 4 8
D S P / C ONT R OL E DA
F ONT E
1 N4 9 3 7
1 N4 9 3 7
1 0 0 nF
C
E
S
C
B
E T I P 4 2 C
C
B
E
B C 3 3 7
100nF
1 0 0 nF
GI V A L D O ( CI R C UI T O )
P A UL O ( L A Y O UT E S Q
. / P CI )
S
C
E
47uF
E S T A B .F ONT E ( A B RE P UL S O C OM1 0 ,7 V / F E CHA P UL S O C OM1
4 , 5 V )
6 N1 3 9
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4
4
F ONT E CHA V E A DA
3
GND
RE M
+1 2 V
6A10
6A10
U1 6 2 0
R
U1 6 2 0
U1 6 2 0
5 x 1 5 0 0 uF 2 0 0 V
U1 6 2 0
R
A MP L I F I CA D ORT 3 . 5 K W
GI V A L D O ( CI R C UI T O )
P A UL O ( L A Y O UT E S Q
. / P CI )
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1
4
1 0 0 nF
1 0 0 pF
P RE -A MP L I F I CA D O
R
4
100pF
1 0 0 pF
1 0 0 nF
T L 0 7 2
1 nF
1 0 0 nF
1 0 0 nF
100nF
2 2 uF
1 0 0 nF
2 2 uF
15nF
1 0 0 nF
100nF
1 nF
3 9 K
100nF
100nF
220nF
100nF
1 0 0 nF
1 0 0 nF
A MP L I F I CA D ORT 3 . 5 K W
1 uF
1 0 0 nF
1 5 nF
2 2 0 nF
1 0 0 nF
1 0 0 nF
1 0 0 nF
GI V A L D O ( CI R C UI T O )
P A UL O ( L A Y O UT E
S Q. / P CI )
1 0 0 nF
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+ -
2
4
(DO PRÉ)
100nF
100nF
47uF
15V
100nF
100nF
47uF
15V
S H UNT A
E T A P A DE S A I DA
4
(DO PRÉ)
2 2 0 nF
47uF
S H UNT B
100nF
6,8uF 250V 6,8uF 250V
1nF 250V
J UMP
1uF 400V
47uF
100nF
10uF
15V BYV27-200
10uF
15V BYV27-200
1nF 250V
( D OD S P / F ONT E
B A I X A T E N S Ã O )
A MP L I F I CA D ORT 3 . 5 K W
( D OD S P / F ONT E
B A I X A T E N S Ã O )
( D OD S P / F ONT E
B A I X A T E N S Ã O )
1 0 0 uF
15V
2
1
3
15V 15V 15V
( D OB A N C O
CA P A CI