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7
6
5
4
3
2
1
REVISIONS
REV.
VDDAL
VDDAR
VDD
+25.7VDC
TP8
R2
P11
VDDAR
+
+
C2
47u/63V
VSS
1
GND_R
C4
220n
2
C66
470u/35V
3
VSSA
VSSD
SGND
VDDP2
24
VDD
VDD
4
C23
R11
5.6k
C9
220p
C18
330p
5
VDDA
BOOT2
IN2M
OUT2
C46
100n/100V
R6
10/2512
IN2P
VSSP2
MODE
NC19
19
D16
RF101L2S
R14
7
OSC
STABI
18
GND_R
5.4VAC
TP20
5.6k
470n
R43
6.8k C42
8
IN1P
VSSP1
17
C37
680n
C38
100n/100V
C37A
DO NOT STUFF
B2
BEAD
L1
9
IN1M
OUT1
16
22uH/3.5A
470n
5.6k
10
NC10
BOOT1
15
11
NC11
VDDP1
14
C44
15n
C48
C51
220p
100n
12
NC12
PROT
8
D17
RF101L2S
C54
100n/100V
GND_RIN
895mVAC
TP18
R21
10/2512
VDD
13
VDD
R10
C21
470n
VSSAL
6
GND_R
VDDA
4
C17
330p
C7
220p
22
BOOT2
IN2M
5
C45
100n/100V
21
OUT2
IN2P
6
C32
11 SINEWAVE
720mVpp @363kHz
WITH NO AUDIO
R5
10/2512
C20
20
19
NC19
OSC
8
C41
R19
5.6k
GND_LIN
VDD
198mVAC
TP15
B3
BEAD
11 SINEWAVE
800mVpp @320kHz
WITH NO AUDIO
TP13
10
C25A
DO NOT STUFF
C26
100n/100V
VSS
C31
100n/100V
SQUAREWAVE
54Vpp @320kHz
C33
C35
330n
TP11
10
C35A
DO NOT STUFF
L4
IN1M
10
NC10
BOOT1
15
11
NC11
VDDP1
14
PROT
13
R20
10/2512
C43
15n
D13
RF101L2S
C47
895mVAC
TP17
100n
11 SINEWAVE
1100mVpp @320kHz
WITH NO AUDIO
D14
RF101L2S
VSS
C50
220p
12
NC12
GND_R
VDD
VDD
C
GP2
R29
0
VDD
CS1
VSS
5.4VAC
TP19
C74
220p
47uH/2.5A
C53
100n/100V
C49
220p
C73
220p
B4
BEAD
16
OUT1
L_W
L_G
L_T
TO J1 ON
ON SPKR CONN PCB
FBL_GND
R17
22/2512
P16
LT_O
100n
9
CN2
1
2
3
CS3
GND_L
17
VSSP1
10.4VAC
TP21
C25
680n
C29
18
STABI
IN1P
D12
RF101L2S
R9
22/2512
SQUAREWAVE
54Vpp @320kHz
GND_L
5.6k
C39
330p
D11
RF101L2S
P14
LW_O
100n
470n
VSS
22uH/3.5A
VSSP2
MODE
7
R16
470n
VDD
L3
100n
R13
10.4VAC
TP22
C8
220p
C13
15n
100n
CS2
VSS
GND_L
C55
220p
C56
220p
7
3
30.9k 1%
D18
RF101L2S
VSS
C52
220p
C5
23
VDDP2
100n
C27
R_T
R_G
R_W
VSS
470n
5.6k
TO J16 ON
ON 1/4" JACK PCB
FBR_GND
R15
22/2512
P17
RW_O
100n
C40
330p
1
2
3
TP14
10
C36
SGND
VMO
C30
SQUAREWAVE
54Vpp @363kHz
R44
6.8k
CN1
CS4
GND_R
2
C15
GND_LIN
11 SINEWAVE
1000mVpp @363kHz
WITH NO AUDIO
C24A
DO NOT STUFF
C19
100n/100V
VSS
100n
R18
TP12
10
VDD
VDDAL
5.6k
C24
330n
R12
22/2512
SQUAREWAVE
54Vpp @363kHz
VSSD
VDD
C11
220n
R7
B1
BEAD
P15
RT_O
C22
100n
27.4k 1%
198mVAC
TP16
D15
RF101L2S
21
20
24
VSS
L2
100n
6
R22
VDD
FBL_GND
22
VMO
C28
C
C10
220p
D
VSSA
GND_L
VSS
47uH/2.5A
C34
U1
TDA8920C
C68
470u/35V
+
C3
220n
C6
23
C14
15n
R8
470n
VSS
1
5.6k
VSSAR
10/2512
P12
VSSAL
VDDAR
GND_RIN
VSSAL
GND_L
100n
C12
220n
FBR_GND
470n
RJD
R3
U2
TDA8920C
C64
+ 470u/35V
C16
APPROVED
VSSAL
-25.7VDC
TP9
P13
VSSAR
DATE
26-APR-13
+
+
C1
47u/63V
VSSAR
GND_R
R4
10/2512
D
10/2512
P10
VDDAL
C65
470u/35V
VSSAR
-25.7VDC
TP10
PR1193
R1
+25.7VDC
TP7
10/2512
DESCRIPTION
A
VDD
GND_R
GND_L
GND_L
VSSAL
VSSAR
5
4
3
+0.65V W/HP
+4.34VDC
9
TP6
2
R23
5.6k
1
D1
CN3
FROM PRE-AMP
(PW1)
VMO
R91
R92
DO NOT STUFF
DO NOT STUFF
GND_LIN
R28
RT1
100 VAC
120 VAC
+268 VDC
+323 VDC
10/3A
220 VAC
230 VAC
240 VAC
+298 VDC
+312 VDC
+326 VDC
C69
222/250V/Y1
330k
4
L6
2
R45
330k
C72
334/275V/X2
3
L7
4
2
3
R32
6
+323VDC
TP1
C58
1000u/35V
P20
V_DC
GT1
1
6
+
C67
330u/200V
8
TP2
D8
ES1M
+
P21
CLIP_V
+
C75
330u/200V
CN6
R31
68K
2W
C62
10n/500V
-26.0VDC
TP5
100-120V
VOLTAGE
SELECTOR
SWITCH
A
L
P25
MOS_D
5
N
22
1000p/500V
TP2
C78
DO NOT STUFF
D10
ES1G
4. ALL DIODES ARE 1N4148 OR 1N4448.
5. TESTPOINT VOLTAGES READ WITH A DVM REFERENCED TO PA_G (PAD P18). ALL PCBS
INTERCONNECTED INCLUDING PREAMP, WITH LEVEL CONTROL VR1 SET FULLY CW, SW1
& SW2 SET TO MIDDLE "0" POSITION, WITH 2.5V RMS 3150Hz SINEWAVE SIGNAL CONNECTED
TO REAR PANEL BALANCED INPUTS J1 & J2. RESISTIVE LOADS CONNECTED AT CN1 & CN2.
USE 4 OHM (50W MIN) LOADS FOR WOOFERS AND 8 OHM (30W MIN) LOADS FOR TWEETERS.
AC VOLTAGES ARE UNCLIPPED SINEWAVES. VOLTAGES MAY VARY BY 5%.
R33
1.5K
6. REFERENCE TP1-TP3 TESTPOINTS TO PW_G (PAD P24).
R35
6.8K
2W
D4
ES1M
12
11
10
9
8
6
1
D
V
7. TP1 VOLTAGE DEPENDS ON SPECIFIC AC VOLTAGE SUPPLIED AT IEC INLET (SEE TABLE).
U3
EL817
4
8. TP2 & TP3 TYPICAL WAVEFORMS SHOWN FOR 120 VAC INPUT; SIGNAL TO J1 & J2 REMOVED.
1
D7
ES1M
9. TEMPORARILY CONNECT A 3.5mm PLUG TO FRONT PANEL HP OUT JACK (J4) TO VERIFY TP6
VOLTAGE DROPS TO +0.65V.
R39
1K
3
U5
TOP271_V
2
10. TEMPORARILY REMOVE SIGNAL TO J1 & J2 TO SEE CARRIER WAVEFORMS AT TP11-TP14.
11. TEMPORARILY REMOVE SIGNAL TO J1 & J2 TO SEE FILTERED CARRIER AT TP19-TP22.
C84
R40
C 3
S
7
5
X
2
A
200k 1%
F
4
33n
R41
6.8
THIS DOCUMENT CONTAINS INFORMATION OF
C85
100n
+
-130V
38uS
CONFIDENCE AND SHALL NOT BE DISCLOSED OR
R42
10K
ATION FROM FENDER MUSICAL INSTRUMENTS.
TITLE:
APPROVED BY:
38uS
SIZE
DATE:
DRAWN: MT / B.DESI
ENGR: HUGHES/DESI
DATABASE FILE: Z1193S2.SCH
7
6
5
4
3
2
SERVICE DIAGRAM, COMBINED
(schematic)
PASSPORT STUDIO
SMPS & DAMP
DATE:
APPROXIMATE WAVEFORMS
8
Corona, CA U.S.A.
TRANSMITTED TO OTHERS WITHOUT AUTHORIZ-
C86
47u/16V
1.5uS
0V
MUSICAL INSTRUMENTS
INSTRUMENTS AND IS SUBMITTED TO YOU IN
TL431-AU
CHECKED BY:
1.5uS
R
A PROPRIETARY NATURE TO FENDER MUSICAL
U4
C63
560pF
1kV
(UNLESS OTHERWISE NOTED)
3. ALL POLARIZED CAPACITORS IN uF, 20%; 50V MINIMUM.
C81
+ 1000u/35V
R38
R30
DO NOT
STUFF
TP3
3.3uH/3.5A
T-EI35/10P
9uS
POWER
SWITCH
PRIMARY WIRING
R37
NOTES:
1. ALL RESISTORS IN OHMS, 5%; 1/8W (0805) OR 1/10W (0603).
6
3.5uS
+330V
TO PRE-AMP
(PW2)
D5
ZD24V
C82
C83 +
10u/25V
+200V
B7
CN4
1
2
3
2. ALL UNPOLARIZED CAPACITORS IN uF, 10% OR BETTER; 50V MINIMUM.
(POWER SUPPLY BYPASS CAPACITORS ARE 20%.)
C79
C80
+
1000u/35V 1000u/35V
8
4.7
+405V
B6
L9
6
6
8
+300V
VSS
B5
3
R36
4.7M
P24
PW_G
BEAD
BEAD
P23
-25V
1
2
220-240V
P18
PA_G
1000p/500V
+
YELLOW BLUE
+
C60
1000u/35V
BEAD
D9
STTH3002CG
4
BLACK
3.3uH/3.5A
+
2
ZD1
ZD10
TP3
WHITE
B
VDD
+25V
C61
R24
1
22
R34
4.7M
-
222/250V/Y1
4401
P19
C59
1000u/35V
8
AC
Q2
4401
T1
10
BD1
3A/600V
Q1
ZD5.6V
L5
7
C76
330k
D2
STTH3002CG
AC +
C71
DO NOT STUFF
GP1
1
+26.0VDC
TP4
C57
222/250V/Y1
AC INPUT TP1 VOLTAGE
F6.3A H
FUSE
BLACK
WHITE
GREEN/YELLOW
RED
+ C70
100u/10V
D6
B
C77
334/275V/X2
R26
10k
5.6k
7
1
2
3
D3
ZD15V
R25
10k
R27
VMO
GND_RIN
CN5
P22
MT_V
D
DRAWING NUMBER
REV.
1193CMU004
RELEASE DATE: 26-APR-13
1
SHEET: 1 OF 2
A
8
7
R24
R27
R28
R25
C110
15k
2.7k
2.7k
4.7k
T
2
VRR_IN
3
GNDA
4
HP_L
5
HP_R
6
HP_S
L_L
L_R
GNDA
R_L
R_R
GNDA
4.7k
S2-D
SW845P-002
R42
18k
2.7k
SW845P-002
SW845P-002
R141
100k
3
10k 1%
U5-A
TL072
R2
10k 1%
1
39k
5
C107
10uF
U1-B
6
5
10uF
10k 1%
6
TL072
7
R69
10uF
R37
C61
10k 1%
27pF
100pF
R12
10k
R101
VR1-A
B10k
TP7
9
1
J8
L_L
L_R
GNDA
R_L
R_R
C56
100uF
25V
R107
3k
6
5
4560
R22
7
J9
J6
CONNECT TO J5 ON 1/4" JACK PCB
GNDA
47 ohm
HP_L
HP_R
C57
100uF
25V
HP_S
CONNECT TO J7 ON 3.5mm JACK PCB
5
4560
C9
C10
10uF
10uF
R6
10k 1%
510pF
5
R54
1
C14
6
B10k
TP8
9
100pF
R44
VR1-B
4
3
TL072
6
10uF
R144
5
10k 1%
6
7
1SS355TE-17
100k
GNDA
1
7
R148
R176
R145
C114
10k 1%
10uF
10k 1%
27pF
C115
C116
C127
.1
560pF
R174
7.5k
HPF = 41.68Hz
470pF
R154
2.49k
1%
2.49k
1%
1.58VAC
1
TL072
3
R155
2.49k
1%
0.15uF
0.15uF
R149
36k
TP14
2
R104
TL072
R172
C126
C128
1.8k
8.2nF
510pF
TP16
2
TL072
1
R98
0 ohm
0805
TP18
FROM SMPS/DAMP
(CN4)
TP2
A
2.7 ohm
0805
-25V
C37
.1
50V
C39
22uF
D8
1
D1
8
D2
2
7915
IN
OUT
8
U1-C
C44
.1
8
U2-C
C46
.1
8
U3-C
C48
.1
8
U4-C
C50
.1
8
U5-C
C52
.1
8
U6-C
C54
.1
2
1
TL072
8
U7-C
10k
4560
4560
TL072
TL072
TL072
TL072
TL072
TL072
4
4
4
4
4
4
4
4
C43
.1
C45
.1
C47
.1
C49
.1
C51
.1
C53
.1
C55
.1
6
R9
TL072
R109
7
+15V
R79
3k
U12-B
TL072
8
8
U11-C
8
U12-C
8
U13-C
C72
.1
8
U14-C
C101
.1
8
U15-C
8
U16-C
7
3
2
TP33
R111
1M
U18-A
TL072
1
6
D7
5
C31
10k
5.6 pF
TL072
7
D4
8
U18-C
TL072
TL072
TL072
TL072
TL072
TL072
TL072
TL072
4
4
4
4
4
4
4
4
4
C63
.1
C67
.1
C69
.1
C71
.1
C73
.1
C102
.1
C98
.1
C100
.1
R32
47 ohm
10k
5
TL072
8
+11.4VDC
R50
10k
U18-B
7
R41
R15
R112
6.8k
6.2k
3
C27
0.47uF
TL072
1
8
R
R113
U19-B
TL072
+2.5V
159 uS
WAVEFORM FOR TP37
A
R
A PROPRIETARY NATURE TO FENDER MUSICAL
MUSICAL INSTRUMENTS
C33
.1
317 uS
10k
R17
6
5
U17-B
TL072
7
CONFIDENCE AND SHALL NOT BE DISCLOSED OR
-10V
R20
D6
D18
WAVEFORM FOR TP33-TP36
ATION FROM FENDER MUSICAL INSTRUMENTS.
TITLE:
CHECKED BY:
DATE:
APPROVED BY:
SIZE
DATE:
ENGR: HUGHES / DESI
DATABASE FILE: Z1193S1.SCH
4
Corona, CA U.S.A.
TRANSMITTED TO OTHERS WITHOUT AUTHORIZ-
DRAWN: B.DESI
5
+4V
7
THIS DOCUMENT CONTAINS INFORMATION OF
TP36
6
DOUBLE-LED
R38
1k
INSTRUMENTS AND IS SUBMITTED TO YOU IN
10k
7
G
0V
C18
100pF
CLIP_W_R
8
G
GNDA
TP34
10k
U19-C
D17
-11.4VDC
+5.5V
K
LED1
+1.8V
D5
8
TP39
100k
R35
10k
R
5
R16
+11.4VDC
1
TL072
R63
6
U17-A
2
3
U19-A
2
10k
CLIP DETECT
C17
100pF
C32
.1
TL072
220k
R29
D16
R60
R59
R14
U11-B
6
C138
.1
C99
.1
8
U17-C
-13.4VDC
TP38
TP37
D15
TP35
C136
.1
C97
.1
100pF
1.8k
D3
C16
R11
C23
R64
R10
10k
C70
.1
B
TP32
TP20
5
10k
CLIP_T_R
C68
.1
895mVAC
GND_R
2.83VAC
6
6.2k
U10-C
-15V
C66
.1
TL072
U14-B
5
CLIP_W_L
U26
C62
.1
6
7
C131
3900pF
C15
C137
.1
8
U9-C
10k
-6dB Hole @ 4200Hz
6.8k
4
U16-B
5
GND_R
C135
.1
8
U8-C
8200pF
R169
TP28
3
-15.5VDC
TP4
10k
R168
10k
TL072
GND_R
CLIP_W_R
U16-A
3
LPF = 4 POLE LRF
100pF
4
GND_R
1.42VAC
R151
5.1k
TL072
C41
.1
PS_GND
GND
R62
-26.0VDC
C35
47uF
35V
10k
R167
C129
3900pF
3
D9
R166
2.36VAC
910k
C42
.1
D13
470 ohm
R165
1M
3.06VAC
D14
C132
8200pF
U14-A
3
R110
C40
.1
1k
R97
200 ohm
GND_R
560 ohm
1200pF
GNDA
R170
1
GND_R
R152
15k
TL072
2
R161
20k
GND_R
C117
GND_R
3900pF
TP24
-9dB Hole @ 1038Hz
910 ohm
R150
47 ohm
GNDA
1
U12-A
3
K
+25V
-25V
3900pF
CLIP_T_R
10k
C124
Fc = 3126 Hz
100pF
C38
22uF
R159
20k
C123
7
TL072
6
C130
R164
1M
GND_R
ADJ
C36
.1
50V
U10-B
5
GND_R
U25
C34
47uF
35V
TP30
GND_R
+15V
PW2
C122
3900pF
0.22uF
U8-A
GND_R
R160
HPF = 4 POLE LRF
10k
C121
3900pF
2.17VAC
GNDA
2
1.17VAC
TP26
R158
U10-A
2
C119
7
10k
7815
8
TO SMPS/DAMP
(CN3)
GNDA
R163
3
2.19VAC
39k 1%
C112
C125
18k
U6-B
TL072
R173
130 ohm
GND_L
7
PW1
R162
GND_R
GND_R
C
PA_MUTE
2
5
R153
0.033uF
TP3
1
1
TP19
3
U8-B
D12
2.7 ohm
0805
TP31
6
TL072
Q108
2N2222
+15.5VDC
OUT
895mVAC
GND_L
TP22
R232
CLIP_T_L
IN
TL072
R99
0 ohm
C118
2200pF
R61
6
C90
3900pF
2.83VAC
DNS
D121
GNDA
+25V
10k
7
-6dB Hole @ 4200Hz
GND_L
C133
R146
R177
10k
GNDA
+26.0VDC
TP1
U15-B
5
U13-B
TL072
2.20VAC
39k 1%
C134
0.39uF
U6-A
2
C111
10k 1%
100k
R108
3k
10k
LPF = 4 POLE LRF
PA_MUTE
C196
10uF
R147
R47
100k
CLIP_W_L
TL072
2
TP27
+15V
R229
D200
1SS355TE-17
R175
10pF
5
2.50VAC
10k
8200pF
R92
4
TP15
68k
TP12
6
TP6
10k
R91
1
1.42VAC
C65
47 ohm
2.20VAC
TL072
TP17
U15-A
3
C88
3900pF
5
5
R226
1k
62k
7
GND_L
470 ohm
6
R67
C109
10uF
2.36VAC
8200pF
R90
-9dB Hole @ 1038Hz
R88
1M
27pF
2.50VAC
10k 1%
C12
C87
8.2nF
C113
U2-B
6
39k
R8
C85
1.8k
-15V
39k
R19
1
TL072
2
R95
D10
D11
GND_L
GND_L
C76
1k
R80
200 ohm
GND_L
R86
27pF
U2-A
3
R89
GND_L
HP_S
C30
DO NOT STUFF
47 ohm
10k
R103
R5
10k 1%
TL072
PS_GND
C105
10k 1%
2
GND_L
1200pF
GND_L
HEADPHONE MUTE
CW
B
15k
1
C91
560pF
1
ALL PASS EQ
PS_GND
100pF
GND_L
TL072
2
R84
20k
R93
C89
R87
1M
C94
0.22uF
3900pF
TP23
U13-A
3
R140
7.5k
U11-A
3
C120
R18
10k
C11
47 ohm
0.1uF
R53
7
U4-A
4560
3900pF
CLIP_T_L
10k
C83
560 ohm
C86
HP_R
7
U4-B
6
62k
3
6
R82
20k
C82
7
TL072
Fc = 3126 Hz
HP_L
TP10
R66
R102
PS_GND
HP OUT
3900pF
2.17VAC
GND_L
HP OUT
62k
2
U9-B
5
GND_L
C19
DO NOT STUFF
R65
10k
1
2
3
4
3900pF
R78
2.49k
1%
HPF = 4 POLE LRF
10k
C81
R83
7
10k
R68
R7
R73
TP9
R21
15pF
VRR_IN
GNDA
GNDA
R94
1.80VAC
47 ohm
1
GNDA
VRL_IN
GNDA
GNDA
C80
1
1
TL072
2
C84
2200pF
U3-B
C22
AUX IN
1
2
3
4
U9-A
0.033uF
R74
5.1k
U3-A
4560
3
TP29
R81
TL072
3
1.17VAC
TP25
3.06VAC
62k
2
2
130 ohm
U7-A
3
GNDA
R96
910 ohm
R72
36k
TP13
R75
HPF = 41.68Hz
18k
2.19VAC
39k 1%
C59
C75
0.15uF
C74
0.15uF
U5-B
1.80VAC
L&R BALANCED INPUTS
11
R71
C77
R51
10k
3
6
2.50VAC
C8
R52
7
TL072
TP5
C78
7
1.58VAC
R85
C26
2.50VAC
10k 1%
R4
R36
R143
10k
15pF
CW
10uF
R13
R77
2.49k
1%
TP21
R100
39k
TL072
2
C58
C95
0.39uF
1
27pF
10k 1%
470pF
R76
2.49k
1%
2
U7-B
TL072
GND_L
GNDA
U1-A
ALL PASS EQ
5
39k 1%
R142
3
18k
C106
100pF
R3
2.7k
S1-D
8
TP11
R26
D
C79
R70
2.20VAC
10k 1%
C7
R40
C60
COMPONENTS ON 1/4" JACK PCB
GNDA
R43
S1-C
27pF
R23
RJD
9. FOR UNITS WITH DUAL CONTROL VR1 VALUE OF A2.5k, R107 & R108 ARE NOT STUFFED.
0.22uF
2.20VAC
10pF
APPROVED
5. TESTPOINT VOLTAGES READ WITH A DVM REFERENCED TO GND. ALL PCBS INTERCONNECTED WITH
+/-26V PRESENT AT PW2, LEVEL VR1 FULLY CW, SW1 AND SW2 SET TO MIDDLE "0" POSITION, WITH
2.5V RMS 3150Hz SINEWAVE INPUT TO J1 & J2. AC VOLTAGES ARE UNCLIPPED SINEWAVES. FOR
TP33-37, OBSERVE TYPICAL WAVEFORMS ON OSCILLOSCOPE. VOLTAGES MAY VARY BY 5%.
DNS
R58
100k
DATE
26-APR-13
6. TO VERIFY OPERATION OF AUX IN (J3), TEMPORARILY REMOVE INPUT SIGNALS TO J1 & J2. CONNECT
A 641mV SINEWAVE SIGNAL TO J3 TIP & RING AND CONFIRM 2.5V AT TP7 & TP8.
C64
2
R1
10k 1%
4
R39
7
9
S2-C
SW845P-002
C13
R57
100k
C3
220pF
PR1193
8. TEMPORARILY INCREASE J1/J2 SINEWAVE LEVEL TO 5.0V TO OBSERVE DC POLARITY CHANGES AT
TP38 & TP39. ALSO VERIFY LED1 CHANGES COLOR FROM GREEN TO RED.
10
R46
2.7k
J5
C4
220pF
DESCRIPTION
A
4. ALL DIODES ARE 1N4148 OR 1N4448.
J16
C93
220pF
FROM SMPS/DAMP
(CN1)
1
2
3
4
5
6
100k
10uF
C92
220pF
6
R56
100k
REV.
3. ALL POLARIZED CAPACITORS IN uF, 20%; 25V MINIMUM.
3
2
1
12
R49
2.7k
CONNECT TO J6
C
J15
RIGHT SPEAKER
6
1
R48
15k
8
R55
100k
C2
220pF
GNDA
+4dBu Nominal
T
TS
RS
R
S
C24
R45
7
RIGHT INPUT
3
(OFFSET BY -3.0dB)
COMPONENTS ON 3.5mm JACK PCB
C1
220pF
T
TS
RS
R
S
J2
18k
LF BOOST/CUT =
+/-1.5 dB @ 75Hz
+/-1.5 dB @ 7.5kHz
C104
220pF
(UNLESS OTHERWISE NOTED)
7. TO MEASURE TP9 & TP10, TEMPORARILY REDUCE J1/J2 SINEWAVE LEVEL TO 500mV AND CONNECT
STEREO 2 x 33 OHM RESISTIVE LOAD TO HP OUT (J4).
HF BOOST/CUT =
C25
2200pF
+4dBu Nominal
2.7k
8
9
C103
220pF
1
REVISIONS
2. ALL UNPOLARIZED CAPACITORS IN uF, 10% OR BETTER; 25V MINIMUM.
(POWER SUPPLY BYPASS CAPACITORS ARE 20%).
GNDA
T
TS
RS
R
S
J1
R31
COMPONENTS ON 1/4" JACK PCB
10
C96
220pF
LEFT INPUT
R34
S1-B
SW845P-002
C20
2200pF
CONNECT TO J8 & J9
S
GNDA
2.7k
S1-A
SW845P-002
12
R
HP OUT
18k
0.22uF
7
RS
7
R33
5
GNDA
TS
J4
S2-B
SW845P-002
1
11
D
S2-A
SW845P-002
J7
R30
2
VRL_IN
2
R106
100k
C29
220pF
GNDA
1
2
3
4
5
6
2
1. ALL RESISTORS IN OHMS, 5%; 1/10W.
6
1
2.2uF
R105
100k
C28
220pF
4
2.2uF
5
S
-10dBV Nominal
C6
3
NOTES:
3
R
C5
4
C21
RS
AUX IN
6
5
C108
T
TS
J3
6
3
2
D
SERVICE DIAGRAM, COMBINED
PASSPORT STUDIO
PRE-AMP
DRAWING NUMBER
1193CMU001
RELEASE DATE: 26-APR-13
SHEET: 1 OF 2
1
(schematic)
REV.
A
FPS Speaker Interconnect PCB Schematic
FPS Speaker Interconnect PCB Top View
FPS Speaker Interconnect PCB Bottom View
Passport Studio - Exploded View
MASTER Cabinet Components
3
4
1
5
11
14
12
13
9
22
17
16
15
26
11 10
21
18
19
20
6
7
23
24
25
8
Passport Studio - Exploded View
REMOTE Cabinet Components
4
2
3
13
14
12
10
8
11
9
11
28
28
6
7
27
16
15
17
Passport Studio Schematics-Diagrams.pdf (PDF, 1.7 MB)
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