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77
Figure 9. PS1 Power Stand Electronics Module with Top Cover Removed
78
Power Stand Procedures
Note: Refer to Figure 9 for the following
procedures.
1. Lower Housing Removal
1.1 Place the power stand on a soft surface
so that the line array opening faces down.
1.2 Using a Phillips-head screwdriver,
remove the 19 screws that secure the lower
housing to the upper housing. Lift off the
lower housing.
2. Amplifier Housing Removal
2.1 Perform procedure 1.
2.2 Make a note of the wiring, and discon-
nect the wiring harnesses and connectors
that run to the amplifier housing. The ampli-
fier housing is the large metal box with the
four fans.
2.3 Using a Phillips-head screwdriver,
remove the four screws that secure the
power stand base plate to the bottom of the
line array cavity. Lift it off of the cavity. Be
careful not to damage any wires.
2.4 Once all of the wiring is disconnected,
use a Phillips-head screwdriver to remove
the 16 screws that secure the amplifier
housing to the power stand upper housing.
Carefully lift the amplifier housing out of the
power stand upper housing.
3. Line Array Cavity Removal
3.1 Perform procedure 2.
3.2 Using a Phillips-head screwdriver,
remove the three screws that secure the line
array cavity to the upper housing. Lift the line
array cavity off of the upper housing. The
power stand foot pedal will disengage from
the shaft.
Disassembly Procedures
79
4. Amplifier PCB Removal
4.1 Perform procedure 2.
4.2 Make a note of the wiring and disconnect
all of the wiring harnesses that connect the
power supply box to the DSP PCB and to the
microprocessor PCB.
4.3 Using a Phillips-head screwdriver,
remove the 24 screws that secure the power
supply box top cover in place. Lift off the top
cover.
4.4 Once you have the top cover off, make a
note of the wiring configuration and unplug
the wiring harnesses that connect to the
amplifier PCB.
4.5 Using a Phillips-head screwdriver,
remove the 6 screws that secure amplifier
PCB in place. Lift the amplifier PCB out of
the chassis.
5. Switching DC Power Supply Removal
5.1 Perform procedure 2.
5.2 Make a note of the wiring and disconnect
all of the wiring harnesses that connect the
power supply box to the DSP PCB and to the
microprocessor PCB.
5.3 Using a Phillips-head screwdriver,
remove the 24 screws that secure the power
supply box top cover in place. Lift off the top
cover.
5.4 Once you have the top cover off, make a
note of the wiring configuration and unplug
the wiring harnesses that connect to the
switching DC power supply PCB you wish to
remove.
5.5 Using a Phillips-head screwdriver,
remove the 4 screws that secure power
supply PCB in place. Lift the power supply
PCB out of the chassis.
Disassembly Procedures
80
6. Auxiliary Power Supply Removal
6.1 Perform procedure 2.
6.2 Make a note of the wiring and disconnect
all of the wiring harnesses that connect the
power supply box to the DSP PCB and to the
microprocessor PCB.
6.3 Using a Phillips-head screwdriver,
remove the 24 screws that secure the power
supply box top cover in place. Lift off the top
cover.
6.4 Once you have the top cover off, make a
note of the wiring configuration and unplug
the wiring harnesses that connect to the
switching DC power supply PCB you wish to
remove.
6.5 Using a Phillips-head screwdriver,
remove the 4 screws that secure power
supply PCB in place. Lift the power supply
PCB out of the chassis.
7. EMI Filter PCB Removal
7.1 Perform procedure 2.
7.2 Make a note of the wiring and disconnect
all of the wiring harnesses that connect the
power supply box to the DSP PCB and to the
microprocessor PCB.
7.3 Using a Phillips-head screwdriver,
remove the 24 screws that secure the power
supply box top cover in place. Lift off the top
cover.
7.4 Once you have the top cover off, make a
note of the wiring configuration and unplug
the wiring harnesses that connect to the EMI
Filter PCB.
7.5 Using a Phillips-head screwdriver,
remove the 4 screws that secure the EMI
Filter PCB in place. Lift the EMI Filter PCB
out of the chassis.
Disassembly Procedures
81
8. Chassis Fan Removal
8.1 Perform procedure 2.
8.2 Using a Phillips-head screwdriver,
remove the 24 screws that secure the power
supply box top cover in place. Lift off the top
cover.
8.3 Using a Phillips-head screwdriver,
remove the 4 screws that secure the fan to
the chassis.
8.4 Follow the wire harness for the fan you
are removing to the auxiliary power supply
PCB and unplug it. Lift the fan out of the
chassis.
Re-assembly note: When installing the new
fan, be sure to match the orientation of the
fan next to it so that it will move air in the
proper direction when in use.
9. Microprocessor PCB Removal
9.1 Perform procedure 1.
9.2 Make a note of the wiring configuration
and unplug the six wire harnesses from the
connectors on the board.
9.3 Lift the microprocessor PCB off of the
connectors that engage it on the bottom of
the board and the pins that connect to the
preset switches.
Re-assembly note: When re-installing this
PCB, be sure that all of the pins from the
preset switches are straight and properly
engage the connectors on the bottom of the
microprocessor PCB.
Disassembly Procedures
82
Disassembly Procedures
10. DSP PCB Removal
10.1 Perform procedure 1.
10.2 Make a note of the wiring configuration
and unplug the six wire harnesses from the
connectors on the board.
10.3 Using a pair of needle-nose pliers,
compress the bottoms of the plastic standoff
posts used to attach the DSP PCB to the
Input/Output PCB. Lift the DSP PCB off of
the I/O PCB.
11. Input/Output PCB Removal
11.1 Perform procedures 9 and 10.
11.2 On the front panel of the power stand,
remove the four knobs for the mic trim and
level controls.
11.3 Using a nut driver, remove the nine nuts
and washers for the 1/4 inch phono jacks.
11.4 Using a Phillips-head screwdriver,
remove the 16 screws that secure the XLR,
Data in/out and Neutrik connectors to the
front panel.
11.5 Lift the I/O PCB off of the input panel.
83
Disassembly Procedures
Line Array Procedures
Note: The line arrays are divided into a
lower line array, which plugs directly into the
power stand, and an upper line array, which
uses a bayonet arrangement to align the
upper array to the lower array for connec-
tion. All electrical connections are automati-
cally made when the arrays are mounted
into the power stand and the upper array is
mounted to the lower array.
Note: Refer to Figure 7 for the following
procedures.
1. Grille Removal
1.1 Using a Phillips-head screwdriver,
remove the six screws that secure the end
cap to the line array enclosure. Lift off the
end cap. Unplug the molex connector from
the speaker harness.
1.2 Grasp the edge of the grille and gently
lift it away from the enclosure.
2. Nameplate Removal
2.1 Perform procedure 1.
2.2 On the back of the grille, unbend the
legs of the logo. Lift off the nameplate.
3. Driver Removal
3.1 Perform procedure 1.
3.2 Using a Phillips-head screwdriver,
remove the four screws that secure the
driver to the enclosure.
3.3 Lift the driver out of the enclosure. Note
the wiring configuration and cut the wires as
close to the driver terminals as possible.
4. Upper Line Array Top End Cap Removal
4.1 Using a Phillips-head screwdriver,
remove the seven screws that secure the
end cap to the line array enclosure. Lift off
the end cap.
Re-assembly note: Make sure that the end
cap gasket is properly aligned to achieve an
airtight seal.
5. Upper Line Array Bottom End Cap
Removal
5.1 Using a Phillips-head screwdriver,
remove the seven screws that secure the
end cap to the line array enclosure. Lift the
end cap away from the enclosure. Unplug
the molex connector from the speaker
harness.
Re-assembly note: Make sure that the end
cap gasket is properly aligned to achieve an
airtight seal.
6. Lower Line Array Top End Cap Removal
6.1 Using a Phillips-head screwdriver,
remove the six screws that secure the end
cap to the line array enclosure. Lift off the
end cap. Unplug the molex connector from
the speaker harness.
Re-assembly note: Make sure that the end
cap gasket is properly aligned to achieve an
airtight seal.
7. Lower Line Array Bottom End Cap
Removal
7.1 Using a Phillips-head screwdriver,
remove the seven screws that secure the
end cap to the line array enclosure. Lift the
end cap away from the enclosure. Unplug
the molex connector from the speaker
harness.
Re-assembly note: Make sure that the end
cap gasket is properly aligned to achieve an
airtight seal.
84
Disassembly Procedures
8. Front Cap Removal
8.1 Using a Phillips-head screwdriver,
remove the four screws that secure the front
cap to the bottom front of the line array
enclosure. Lift the end cap away from the
enclosure.
Bass Module Procedures
Note: Refer to Figure 8 for the following
procedures.
1. Grille Removal
1.1 Using an allen wrench, remove
the four screws that secure the grille to the
upper and lower speaker end caps.
1.2 Lift off the grille.
2. Nameplate Removal
2.1 Perform procedure 1.
2.2 On the back of the grille, remove the
retaining nut and spring from the post of the
nameplate. Lift the nameplate off of the
grille.
3. Driver Removal
3.1 Perform procedure 1.
3.2 Using a Phillips-head screwdriver,
remove the four screws that secure the
driver to the bass module enclosure.
3.3 Lift the driver out of the enclosure. Note
the wiring configuration and cut the wires as
close to the driver terminals as possible.
Re-assembly notes:
- When soldering the speaker harness wires
to the new driver, be sure to observe polarity
of the driver harness wires.
- Be sure to properly align the gasket behind
the new driver to ensure an airtight fit.
4. Input Panel Removal
4.1 Using a Phillips-head screwdriver,
remove the four screws that secure the
input panel to the bass module enclosure.
4.2 Lift the input panel away from the bass
module enclosure.
4.3 Make a note of the wiring configuration
and un-solder the speaker harness wires
from the input panel.
85
Figure 10. PS1 Power Stand Block Diagram
BLO
CK
DIA
GR
AM
- Sig
nal P
rocessin
g +
Routin
g
UR
ev:
01
Inp
ut-L
INE
12
3
Inp
ut-M
IC
INA
163
+8 to
+50 d
BT
rim
PH
AN
TO
M
+24
Off
+24v
A/D
CS
5361
D/A
CS
4392
PH
AN
TO
M
Ch
1
Dig
ital
Vo
lum
e
Co
ntro
l
2-C
h.
A/D
Ch
1 In
se
rt
Ch
2 In
se
rt
Hig
h
Re
mo
te
Le
ve
l
Mid
Lo
w
Ch
1C
h2
Rin
g =
Sen
d
Tip
= R
etu
rn
µC
5 4 3 2 16 7 89
All-A
mp
s
D/A
12
3
Ch
1 L
ine
Ou
t
12
3
Ch
2 L
ine
Ou
t
Maste
r
Am
p In
1
Am
p In
3
Am
p In
2
Po
wer
Am
p
Am
p1
Po
wer
Am
p
Am
p2
Po
wer
Am
p
Am
p3
Hi/F
ull R
ange
Bass
Ba
ss
Lin
eS
ou
rce
To
p
Ma
ste
r Vo
l Ctrl
01
PR
ES
ET
Ch
1C
h2
8/4
oh
m S
en
se
8/4
oh
m S
en
se
1-
2+
2-
1+
+5
1-
2+
2-
1+
1-
2+
2-
1+
Lin
eS
ou
rce
Bo
ttom
Sig
/OL
Sig
/OL
Sig
/OL
BA
SS
SP
EA
KE
R S
EN
SIN
G:
R=
Open: A
mp1&
2 W
ider-B
and E
QR
=10K
: 40-1
50H
z X
-Over o
n B
ass, >
150H
z-H
iR
=5K
: X-O
ver o
n B
ass C
h, -6
dB
Hi R
ange
R<
5K
: Debug M
ode: A
ll outs
flat, L
imite
r Off
Data
In
Data
-Ou
t
SP
DIF
Rc
vr
Rin
g =
Sen
dT
ip =
Retu
rn
DS
P
CS
8416
A/D
CS
5361
+20d
B
A/D
Ch
3 IN
Ch
4 IN
20K
15A
Le
ve
l
Le
ve
l+
20d
B20K
15A
DS
P P
roc
essin
g B
loc
k D
iag
-1 +1
Ch1/2 PresetRemote
Ch
1 In
Ch
2 In
Ch
3 In
Ch
4 In
Hi O
ut
Bass O
ut
Sys. E
Q+
X-O
ver, H
i
LR
S-D
AT
A O
ut
Lim
iter
S3P
C8475
TC
A9459F
User E
QP
reset E
QN
ois
eG
ate
User E
QP
reset E
QN
ois
eG
ate
(to S
PD
IF)
(SP
DIF
)
(SP
DIF
)
AD
S21065L
+1dB
V (1
.1V
) for
250W
@4 O
hm
s
+29dB
+29dB
+29dB
Clip
@ +
30dB
V
Maste
r Vo
l. Ran
ge: -8
0 to
+22d
B (+
10 @
12:0
0)
Sys. E
Q+
X-O
ver, L
oL
imite
r
(250W
4ohm
s)
5K
10C
Nom
.: 0dB
VC
lip@
+18dB
V
Max. G
ain
= 0
dB
Nom
. Gain
= -1
0dB
(12:0
0)
Min
. Gain
= -4
0dB
Red=
Clip
=+
6dB
VG
reen=
Sig
nal=
-30dB
V
Knee=
+1.5
dB
V
Clip
= -4
dB
V in
to A
/DS
ignal=
-40dB
V in
to A
/D
Max. L
evel =
+40dB
V+
Nom
. Level =
-13dB
V (p
ot @
ctr)
Min
. Level =
-30dB
V fo
r full o
utp
ut
Nom
. -10dB
VC
lip@
+6dB
V
Nom
. -10dB
VC
lip@
+6dB
V
Nom
. -10dB
VC
lip@
+6dB
V
Max. L
evel =
+18dB
V [in
put b
uffe
r clip
s]
Nom
. Level =
-1dB
VM
in. L
evel =
-46dB
V fo
r full o
utp
ut
(Ch1 V
ol+
Maste
r @ M
ax)
Max. L
evel =
+10dB
VN
om
. Level =
-21dB
V(T
rim c
tr)M
in. L
evel =
-66dB
V fo
r full o
utp
ut
(Trim
, Ch1 V
ol+
Maste
r @ M
ax)
+21dB
@ c
tr
Pers
iste
nce =
100m
sec
0dB
0dB
Nom
.: +6dB
V (B
ala
nced)
Clip
@+
24dB
V "
0dB
0dB
0dB
0dB
0dB
-1.5
dB
-1.5
dB
Nom
.: +6dB
V (B
ala
nced)
Clip
@+
24dB
V "
5 4 3 2 16 7 89
Bass S
end
Input
+5
Bass S
lave S
ense
SP
DIF
Xm
iter
CS
8406
Po
wer / P
rote
ct / D
iag
no
stic
0dB
-1+1
+1
+1
+1
+1
+1
+1
LP
F
LP
F
+1
+1
+1
-1 +1
-20dB
Mic
(XLR
) input
-12 to
+30 d
B+
1dB
@ c
trLin
e (1
/4") in
put
Inp
ut-L
INE
12
3
Inp
ut-M
ICIN
A163
+8 to
+50 d
BT
rim
Ch
2
Sig
/OL
5K
10C
+21dB
@ c
tr
+1
-20dB
Mic
(XLR
) input
-12 to
+30 d
B+
1dB
@ c
trLin
e (1
/4") in
put
+24
Off
+24v
+2.6
dB
@ 1
2:0
0
86
Test Procedures
PS1 Power Stand Tests
Equipment Required
• dB Meter
• Digital Multi-meter
• Audio Signal Generator
• Distortion Meter
• 3 - 4 Ohm, 250 Watt Load Resistors
• Test cables, see Appendix
Overall PS1 System Tests
Notes:
1. Do not connect the R1 remote control for
the following tests, unless specified. Power-
ing up the PS1 power stand without the
remote has the same effect as setting all of
the controls on the remote to the midpoint.
2. On the front panel of the PS1, set the
Channel 1 and Channel 2 Preset Select
switches to 00. Short out the 2+ and 2-
connections on the Amp 3 out connector
using the test cable described in section 1 of
the appendix of this manual. This will put the
PS1 into debug mode for the following tests.
In this mode the crossover, the compressor
and the EQ are disabled. The DSP will pass
a flat response. The level controls and the
clip indicators still operate in this mode.
3. Refer to Figure 10, PS1 Block Diagram,
for the following procedures.
1. Channel 1 and 2 Mic Input Gain Tests
1.1 Place a 1/4” mono shorting plug into the
Amp 2 IN and Amp 3 IN jacks on the right
hand side of the input/output panel. This will
disable the channel 2 and 3 amplifiers while
testing the channel 1 amplifier.
1.2 On the left hand side of the input/output
panel, set the channel 1 Mic Trim control to
the 6 setting. Ensure that the Phantom
Power push button is not pushed in.
1.3 Using a balanced XLR male input cable,
apply a 1 kHz, -30dBV signal to the channel
1 input.
1.4 Reference a dB meter to the input level.
Measure the gain output at the Amp 1 OUT
jack. It should be +48.5 dB + 3 dB.
1.5 Move the shorting plug from the Amp 2
IN jack to the Amp 1 IN jack and repeat
steps 1.1 to 1.4 for the channel 2 Mic input.
2. Channel 1 and 2 Mic Input Frequency
Reponse and Distortion Tests
2.1 Place a 1/4” mono shorting plug into the
Amp 2 IN and Amp 3 IN jacks on the right
hand side of the input/output panel. This will
disable the channel 2 and 3 amplifiers while
testing the channel 1 amplifier.
2.2 On the left hand side of the input/output
panel, set the channel 1 Mic Trim control to
the 6 setting. Ensure that the Phantom
Power push button is not pushed in.
2.3 Using a balanced XLR male input cable,
apply a 1 kHz, -30 dBV signal to the channel
1 input.
2.4 Use an 80kHz low-pass filter on your
measuring equipment. Reference a dB
meter to the input level. Measure the fre-
quency response at the Amp 1 OUT jack. It
should be 0 dB + 3 dB from 30 Hz to 15 kHz.
2.5 Measure the Total Harmonic Distortion
(THD) level at the Amp 1 OUT jack.
It should be 0.25% max at 1 kHz and 1.5%
max at 15 kHz.
2.6 Move the shorting plug from the Amp 2
IN jack to the Amp 1 IN jack and repeat
steps 2.1 to 2.5 for the channel 2 Mic input.
87
Test Procedures
3. Channel 1 and 2 Mic Input Signal to
Noise Ratio (Dynamic Range) Tests
3.1 Place a 1/4” mono shorting plug into the
Amp 2 IN and Amp 3 IN jacks on the right
hand side of the input/output panel. This will
disable the channel 2 and 3 amplifiers while
testing the channel 1 amplifier.
3.2 On the left hand side of the input/output
panel, set the channel 1 Mic Trim control to
the 6 setting. Ensure that the Phantom
Power push button is not pushed in.
3.3 Using a balanced XLR male input cable,
apply a 1 kHz, -30 dBV signal to the channel
1 input.
3.4 Reference a dB meter to the output level
at the Amp 1 OUT jack. Remove the input
signal and measure the A-Weighted output
level. It should be -80 dB minimum.
3.5 Move the shorting plug from the Amp 2
IN jack to the Amp 1 IN jack and repeat
steps 3.1 to 3.4 for the channel 2 Mic input.
4. Channel 1 and 2 Mic Input Phantom
Power Test
4.1 Plug an XLR connector into the channel
1 Mic input. Do not connect any cables to
the channel 1 or channel 2 Mic inputs.
Power on the unit.
4.2 Press the channel 1 phantom power
switch. Verify that the LED lights. Using a
DMM, measure the DC voltage level across
pins 1 and 2 of the XLR connector. Verify
that the DC level is +24Vdc + 1Vdc relative
to pin 1.
4.3 Measure the DC voltage level across
pins 1 and 3 of the XLR connector. Verify
that the DC level is +24Vdc + 1Vdc relative
to pin 1.
4.4 Repeat steps 4.1 to 4.3 for channel 2.
5. Channel 1 and 2 Line Input Gain Tests
5.1 Place a 1/4” mono shorting plug into the
Amp 2 IN and Amp 3 IN jacks on the right
hand side of the input/output panel. This will
disable the channel 2 and 3 amplifiers while
testing the channel 1 amplifier.
5.2 On the left hand side of the input/output
panel, set the channel 1 Mic Trim control to
the 6 setting. Ensure that the Phantom
Power push button is not pushed in.
5.3 Using an unbalanced 1/4” phono jack
input cable, apply a 1 kHz, -10 dBV signal
to the channel 1 input.
5.4 Reference a dB meter to the input level.
Measure the gain output at the Amp 1 OUT
jack. It should be +28.5 dB + 4 dB.
5.5 On the signal generator, turn the input
level all the way down. Verify that the chan-
nel 1 Signal/OL LED is off. Increase the
signal generator level. Verify that the LED
lights green. Increase the signal level again
and verify that the LED lights red.
Note: You may have to increase the Mic
Trim level on the PS1 channel 1 input as
well to get the LED to light red.
5.5 Move the shorting plug from the Amp 2
IN jack to the Amp 1 IN jack and repeat
steps 5.1 to 5.5 for the channel 2 Line input.
6. Channel 1 and 2 Line Input Frequency
Reponse and Distortion Tests
6.1 Place a 1/4” mono shorting plug into the
Amp 2 IN and Amp 3 IN jacks on the right
hand side of the input/output panel. This will
disable the channel 2 and 3 amplifiers while
testing the channel 1 amplifier.
6.2 On the left hand side of the input/output
panel, set the channel 1 Mic Trim control to
the 6 setting. Ensure that the Phantom
Power push button is not pushed in.
88
6.3 Using an unbalanced 1/4” phono jack
input cable, apply a 1 kHz, -10 dBV signal
to the channel 1 input.
6.4 Use an 80 kHz low-pass filter on your
measuring equipment. Reference a dB
meter to the input level. Measure the fre-
quency response at the Amp 1 OUT jack.
It should be 0 dB + 3 dB from 30 Hz to
15 kHz.
6.5 Measure the Total Harmonic Distortion
(THD) level at the Amp 1 OUT jack. It should
be 0.25% max at 1 kHz and 1.5% max at
15 kHz.
6.6 Move the shorting plug from the Amp 2
IN jack to the Amp 1 IN jack and repeat
steps 6.1 to 6.5 for the channel 2 Line input.
7. Channel 1 and 2 Line Input Signal to
Noise Ratio (Dynamic Range) Tests
7.1 Place a 1/4” mono shorting plug into the
Amp 2 IN and Amp 3 IN jacks on the right
hand side of the input/output panel. This will
disable the channel 2 and 3 amplifiers while
testing the channel 1 amplifier.
7.2 On the left hand side of the input/output
panel, set the channel 1 Mic Trim control to
the 6 setting. Ensure that the Phantom
Power push button is not pushed in.
7.3 Using an unbalanced 1/4” phono jack
input cable, apply a 1 kHz, -10 dBV signal to
the channel 1 input.
7.4 Reference a dB meter to the output level
at the Amp 1 OUT jack. Remove the input
signal and measure the A-Weighted output
level. It should be -80 dB minimum.
7.5 Move the shorting plug from the Amp 2
IN jack to the Amp 1 IN jack and repeat
steps 7.1 to 7.4 for the channel 2 Line input.
Test Procedures
8. Channel 3 and 4 Line Input Gain Tests
8.1 Place a 1/4” mono shorting plug into the
Amp 1 IN and Amp 2 IN jacks on the right
hand side of the input/output panel. This will
disable the channel 1 and 2 amplifiers while
testing the channel 3 amplifier.
8.2 On the left hand side of the input/output
panel, set the channel 3 Level control to the
6 setting.
8.3 Using an unbalanced 1/4” phono jack
input cable, apply a 1 kHz, -20 dBV signal to
the channel 1 input.
8.4 Reference a dB meter to the input level.
Measure the gain output at the Bass/Amp 3
OUT jack. It should be +40.1 dB + 3 dB.
8.5 Repeat steps 8.1 to 8.4 for the channel
4 Line input.
9. Channel 3 and 4 Line Input Frequency
Reponse and Distortion Tests
9.1 Place a 1/4” mono shorting plug into the
Amp 1 IN and Amp 2 IN jacks on the right
hand side of the input/output panel. This will
disable the channel 1 and 2 amplifiers while
testing the channel 3 amplifier.
9.2 On the left hand side of the input/output
panel, set the channel 4 Mic Trim control to
the 6 setting.
9.3 Using an unbalanced 1/4” phono jack
input cable, apply a 1 kHz, -20 dBV signal
to the channel 1 input.
9.4 Use an 80 kHz low-pass filter on your
measuring equipment. Reference a dB
meter to the input level. Measure the fre-
quency response at the Amp 1 OUT jack.
It should be 0 dB + 3 dB from 30 Hz to
15 kHz.
9.5 Measure the Total Harmonic Distortion
(THD) level at the Amp 1 OUT jack. It should
be 0.25% max at 1 kHz and 1.5% max at
15 kHz.
89
9.6 Repeat steps 9.1 to 9.5 for the channel
4 Line input.
10. Channel 3 and 4 Line Input Signal to
Noise Ratio (Dynamic Range) Tests
10.1 Place a 1/4” mono shorting plug into
the Amp 1 IN and Amp 2 IN jacks on the
right hand side of the input/output panel.
This will disable the channel 1 and 2 amp-
lifiers while testing the channel 3 amplifier.
10.2 On the left hand side of the input/
output panel, set the channel 3 Level
control to the 6 setting.
10.3 Using an unbalanced 1/4” phono jack
input cable, apply a 1 kHz, -10 dBV signal to
the channel 1 input.
10.4 Reference a dB meter to the output
level at the Bass/Amp 3 OUT jack. Remove
the input signal and measure the A-
Weighted output level. It should be -80 dB
minimum.
10.5 Repeat steps 10.1 to 10.4 for the
channel 4 Line input.
11. Channel 1 and 2 Remote Control,
Preset Switch and Insert Function Tests
11.1 Connect the PS1 power stand to a
known good L1 line array. Set the channel 1
preset switch to 00. Connect the remote
control to the unit using the remote control
MIDI cable supplied with the PS1.
11.2 Connect an analog audio source to the
Channel 1 line input 1/4 inch jack. This
source can be a CD player with a music
disc.
11.3 Adjust the trim level so that the LED is
lit mostly green. The audio should sound
normal.
Test Procedures
11.4 With the audio playing, change the
channel 1 preset to 97 and back to 00. The
channel should mute gracefully when the
preset switch is operated. The audio should
fade back in again about a second after the
switch has stopped operating.
Note: Preset 97 is a 1 kHz band pass
(telephone-type sound). Preset 00 should
sound normal.
11.5 Operate all channel 1 controls on the
remote (high, mid, low, volume and master
volume). All tone controls should have a
clearly audible effect and operate smoothly.
Channel volume may display a little “zipper”
noise, which is normal.
Note: Channel volume all the way down
does not mute the channel, but the output
level should be very low. There is a small,
but noticeable time delay between operating
the control and the audible effect. This is
normal. The master volume control should
operate smoothly without any artifacts.
11.6 Insert a 1/4 inch phono jack all the way
into the channel 1 Insert jack. The audio
should sound normal.
11.7 Insert a 1/4 inch phono jack into the
channel 3 Line IN jack and operate the
volume control on the power stand. The
audio should sound normal.
11.8 Repeat steps 11.1 to 11.7 for the chan-
nel 2 input.
12. Channel 1 Send, Line Output and
Digital Output Tests
Note: For these tests you will need an
external device that can accept both 1/4
inch and XLR inputs. A small mixer, such
as a Mackie or Behringer with headphones
connected works well for this. The master
volume control on the PS1’s remote control
should be set all the way down to mute all
sound coming from the unit under test.
90
Test Procedures
12.1 Connect the PS1 power stand to a
known good L1 line array. Set the channel 1
preset switch to 00. Connect the remote
control to the unit using the remote control
MIDI cable supplied with the PS1.
12.2 Connect an analog audio source to the
Channel 1 Line IN 1/4 inch jack. This source
can be a CD player with a music disc.
12.3 Adjust the trim level so that the LED is
lit mostly green. The audio should sound
normal.
12.4 Insert a 1/4 inch plug halfway into the
channel 1 Insert jack. The audio should
sound normal.
12.5 Connect the PS1 channel 1 XLR Line
OUT jack to the XLR input of the mixer. The
audio should sound normal.
Note: The PS1 puts out a “professional”
+4dBu level. You may have to turn the the
input trim control on the mixer all the way
down to prevent overloading the signal and
distorting it.
12.6 Connect the Data Out jack of the PS1
to a device that accepts a 48 kHz S/PDIF
data stream. The audio should sound nor-
mal.
13. Power Amplifier Tests
13.1 Connect the PS1 power stand to a
known good L1 line array. Set the channel 1
preset switch to 00. Connect the remote
control to the unit using the remote control
MIDI cable supplied with the PS1.
13.2 Connect an analog audio source to the
Amp 1 IN 1/4 inch phono jack. This source
can be a CD player with a music disc.
13.3 Verify that the audio comes from the
upper section of the L1 line array. The audio
should sound clean and undistorted.
13.4 Connect the audio source to the Amp 2
IN 1/4 inch phono jack. Verify that the audio
comes from the lower section of the L1 line
array. The audio should sound clean and
undistorted.
13.5 Connect a B1 bass module to the PS1
power stand at the Bass/Amp 3 OUT jack.
Connect the audio source to the Amp 3 IN
1/4 inch phono jack. Sound should come
from the bass module only and be clean and
undistorted.
13.6 Connect the audio source to the All
Amps IN 1/4 inch phono jack. Sound should
come from both of the L1 line array sections
and the bass module simultaneously. The
audio should be clear and undistorted.
14. High SPL System Sweep Test
CAUTION: This test will be extremely loud.
Hearing protection is advised.
14.1 Connect a R1 remote control to the
PS1 power stand under test. Set the chan-
nel 1 controls to mid-level. Set the master
volume control on the remote to the 1
o’clock position. Set the channel 1 Mic Trim
control on the PS1 to 6. Connect a L1 line
array to the PS1. Connect a B1 bass mod-
ule to the PS1.
14.2 Connect a signal generator to the
channel 1 input on the PS1. Adjust the
signal generator and/or trim control so that
the Signal/OL LED is just below red.
14.3 Sweep the input frequency from 40 Hz
to 14 kHz. Listen for any unusual noises and
excessive distortion or drop-outs.
15. Bass Module Auto-EQ Test
15.1 Connect a L1 line array to the PS1
power stand. Connect an R1 remote control
to the power stand. Connect a B1 bass
module to the Bass/Amp 3 OUT jack on the
power stand. Connect an audio source to
the channel 1 and 2 inputs of the power
stand.
91
Test Procedures
15.2 Set the channel 1 and 2 level controls
to identical settings so that both LEDs are
mainly green.
15.3 While the audio is playing, disconnect
the B1 bass module from the power stand.
The system should mute and un-mute and
audio should resume. The audio should
sound normal, but not punchy (no deep
bass).
15.4 Plug a dummy 1/4 inch phono jack into
the Bass Line Out jack. The system should
mute and un-mute again, but the audio
should sound thinner than before.
15.5 Remove the dummy plug. The system
should mute and un-mute and the audio
should sound normal again.
15.6 Re-connect the B1 bass module to the
power stand. The audio should mute and un-
mute again and sound normal.
15.7 Connect a second B1 bass module to
the first one. The audio should mute and un-
mute. The audio will sound very similar to
having only one bass module attached.
Disconnect the second bass module. The
system should mute and un-mute and the
audio should sound normal again.
L1 Line Array Tests
Set up the unit under test as shown below.
1. Air Leak Test
1.1 Apply a 100 Hz, 10 Vrms sine wave to
the unit under test.
1.2 Listen carefully for air leaks from around
the end cap, the transducers and the grille.
Air leaks will be heard as a hissing or sput-
tering sound. All repairs must be hidden.
Test duration should be 5 seconds minimum.
2. Transducer Rub and Tick Test
2.1 Remove the transducer you wish to test
using the disassembly procedures in this
manual. Do not unplug the wires at the
transducer assembly terminals.
2.2 Connect a signal generator directly to
the terminals of the transducer assembly
under test.
2.3 Apply a 20 Hz, 5 Vrms signal to the
transducer assembly.
2.4 Listen carefully for any extraneous
noises such as rubbing, scraping or ticking.
Note: To distinguish between normal sus-
pension noise and rubs or ticks, displace the
cone slightly with your fingers. If the noise
stays the same, it is normal suspension
noise and the driver is good. Suspension
noise will not be heard with program mate-
rial.
3. Transducer Phase Test
3.1 Apply a DC voltage of 10V, positive
applied to the positive tab of the dual
banana jack on the line array test cable and
negative applied to negative (gnd) tab.
3.2 All of the driver cones should move
outward when the DC voltage is applied.
3.3 Rewire any incorrectly connected trans-
ducers.Power Amplifier
INPUT OUTPUT
Audio Signal
Generator
Upper or Lower
L1 Line Array
Upper or Lower L1
Line Array Test Cable
92
Test Procedures
Power Amplifier
INPUT OUTPUT
Audio Signal
Generator
B1 Bass Module
Test Cable
B1 Bass Module
4. L1 Line Array Sweep Test
4.1 Set up the upper or lower line array
section as shown in the figure on the previ-
ous page.
4.2 Apply a 100 Hz, 10 Vrms sine wave to
the input.
4.3 While listening to the output of the
system, sweep the input frequency slowly
from 100 Hz to 15 kHz.
4.4 Listen carefully for any extraneous
noises such as buzzing and ticking.
B1 Bass Module Tests
Set up the unit under test as shown below.
1. Air Leak Test
1.1 Apply a 100 Hz, 20 Vrms sine wave to
the unit under test.
1.2 Listen carefully for air leaks from around
the end cap, the transducers and the grille.
Air leaks will be heard as a hissing or sput-
tering sound. All repairs must be hidden.
Test duration should be 5 seconds minimum.
2. Transducer Rub and Tick Test
2.1 Remove the transducer you wish to test
using the disassembly procedures in this
manual. Do not unplug the wires at the
transducer assembly terminals.
2.2 Connect a signal generator directly to
the terminals of the transducer assembly
under test.
2.3 Apply a 10 Hz, 10 Vrms signal to the
transducer assembly.
2.4 Listen carefully for any extraneous
noises such as rubbing, scraping or ticking.
Note: To distinguish between normal sus-
pension noise and rubs or ticks, displace the
cone slightly with your fingers. If the noise
stays the same, it is normal suspension
noise and the driver is good. Suspension
noise will not be heard with program mate-
rial.
3. Transducer Phase Test
3.1 Apply a DC voltage of 20V, positive
applied to the positive tab of the dual
banana jack on the bass module test cable
and negative applied to negative (gnd) tab.
3.2 Notice carefully that all driver cones
should move outward when the DC voltage
is applied.
3.3 Rewire any incorrectly connected trans-
ducers.
4. System Sweep Test
4.1 Set up the system as shown in the
figure at left.
4.2 Apply a 10 Hz, 20 Vrms sine wave to the
input.
4.3 While listening to the output of the
system, sweep the input frequency slowly
from 10 Hz to 400 Hz.
4.4 Listen carefully for any extraneous
noises such as buzzing and ticking.
93
12
A B C D
43
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P/N
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Sheet 1
of 1
120V
Vers
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97
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56
78
A B C D
87
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R509
51R
R510
51R
R502
1K
Z5
03
18
V
Z5
04
18
V
D5
02
UF
4006
R511
10
0/2
W
C501
10
0p
1K
V
R512
47
R 2
WC
502
1nF
C503
1nF
R513
47
R 2
W
D5
03
BY
V3
2-2
00
C504
2200uF
35V
C505
2200uF
35V
D5
04
BY
V3
2-2
00
C523
100n
D5
10
1N
41
48
R514
680R
C515
153
R515
470R
C517
222
R503
8.2
K
D5
11
1N
41
48
C518
102
D5
05
1N
41
48
R516
47
K
D5
06
1N
41
48
R517
33R
Q5
05
2N
39
04
Q5
07
2N
39
06
R518
75
0R
1W
C519
1uF
/50V
C508
100n
C516
103
R519
240R
R520
47R
D5
09
UF
4003
AC
GN
D
C520
100uF
/50V
C510
100n
D5
07
1N
41
48
R521
39
K
R522
3K
Q5
06
2N
39
04
R523
12
K
R524
47
K
Z5
05
18
V
R525
20
0K
R504
1K
TP
501
1K
B
R505
1K
D5
08
1N
41
48
R526
12
K
T5
01
TT
-99
72
14
5 6 7 8
EG
ND
DG
ND
C506
2200uF
35V
C522
2200uF
35V
C511
100n
C512
100n
T5
02
TT
-99
71
31
56
37
9.1
0
11.1
2
13.1
4
15.1
6
T5
03
ET
D3
9
CO
MP
1
VF
B2
ISE
N3
RT
/CT
4
GND5
OU
T6
VCC7
VR
EF
8
IC501
UC
2842B
FB
501F
B502
FB
504
FB
503
FB
505F
B506
R506
12
K
R527
12
K
C513
1nF
AC
GN
D
L5
01
20
0u
H
D5
12
1N
41
48
V+
(-27
V)
(+2
7V
)
+2
4V
D
VD
D
VS
S
( Ea
rth G
ND
)( D
igita
l GN
D)
FB
507
FB
508
R528
47
R 2
W
R529
47
R 2
W
C524
1nF
C525
1nF
FB
509
FB
510
FB
511
FB
512
(or SYN2,SYN3)
FB
513
AC
GN
D
NO
TE
:
Th
is s
ch
em
atic
ca
n b
e a
pp
lied
to th
ree
+/-2
7V
po
we
r su
pp
lies
FAULT
SYN1
1 2
TH
50
1B
D222/1
00C
R530
22
K
Q5
08
2N
39
06
C514
100n
C507
22uF
400V
!
!
!
(FR
OM
EM
I FIL
TE
R )
(FR
OM
AU
X P
S C
N615 o
r CN
616,C
N617)
(TO
D A
MP
CN
80
2A
or C
N8
06
A,C
N8
10
A)
AC
GN
D
(CN
50
1)
(CN
50
2)
(FR
OM
EM
I FIL
TE
R)
1234
CN
503
(TO
D A
MP
CN
80
2A
or C
N8
06
A,C
N8
10
A)
R531
4K
7
-15
V
D5
13
1N
41
48
D5
14
1N
41
48
D5
15
1N
41
48
SC
R501
MC
R100-6
R532
47
K
Z5
06
30
V
R533
47
0R
0.5
W
TP
502
220R
PS
1 P
ow
er S
tan
d+
/-27V
Po
we
r Su
pply
PC
B, R
ev. F
P/N
: 28
33
71
Sh
ee
t 1 o
f 1
12
0V
Ve
rsio
n 1
.1 S
yste
ms
23
0V
Ve
rsio
n 1
.0 a
nd
1.1
Syste
ms
98
12
3
A B C D
43
21
DCBA
4
C6
10
82
uF
40
0V
C6
24
10
0n
CO
MP
1
VF
B2
ISE
N3
RT
/CT
4
GND5
OU
T6
VCC7
VR
EF
8
IC6
01
UC
28
43
AN
C6
19
10
3
IC6
02
PC
81
7A
Q6
01
K2
64
5
R6
14
22
R
R6
15
22
K
R61
31
00
R
R6
21
0.4
7R
3W
Z6
01
18
V
D6
03
1N
41
48
R6
19
8K
2C6
17
22
2
C6
18
30
0P
R6
06
56
0K
R6
05
56
0K
C6
13
10
0n
R6
11
2R
2
R6
12
22
R
C6
14
1n
F
D6
02
UF
40
03
R6
07
24
0K
R6
08
24
0K
R6
20
1K
2
R6
18
1M
R6
17
1K
C6
15
10
0P
1K
V
D6
04
UF
40
06
R6
16
2K
2 1
/2W
D6
01
UF
40
06
R6
10
33
K 2
WR
60
93
3K
2W
C6
11
47
nF
63
0V
IC6
03
TL
43
1
C6
21
10
0n
C6
20
10
0n
R6
22
1K
R6
23
10
KR
62
61
00
R
R6
27
5K
1
R6
25
3K
9
5 3 16
811
9 710
12
11
11
T6
01
EC
28
D6
08
31
DQ
10
C6
30
1n
F
C6
26
1n
F
C6
23
47
0u
F 3
5V
C6
41
47
0u
F 2
5V
D6
06
31
DQ
10
R6
28
22
R 1
/2W
R6
29
22
R 1
/2W
C6
34
1n
F
L6
10
30
uH
C6
22
1n
F
D6
07
31
DQ
10
R6
314
7R
1/2
W
R6
30
47
R 1
/2W
C6
29
47
0u
F 3
5V
L6
08
30
uH
L6
09
30
uH
C6
33
47
0u
F 3
5V
D6
09
1N
58
22
R6
32
10
0R
2W
C6
37
1n
F
D6
05
UF
54
04
C6
40
10
0n
C6
32
10
0n
C6
35
10
0n
C6
28
10
0n
C6
36
47
0u
F 2
5V
L6
11
30
uH
C6
27
10
00
uF
35
V
C6
31
10
00
uF
35
V
C6
38
10
00
uF
35
VC
63
91
00
0u
F 3
5V
C6
25
47
0u
F 3
5V
L6
07
30
uH
R6
24
51
K
C6
16
10
0n
V+
AC
GN
D
AC
GN
D
AC
GN
D
DG
ND
AG
ND
EG
ND
(Dig
ital g
nd)
(Analo
g g
nd)
(Earth
gnd)
FB
60
4
FB
60
5
FB
60
6
FB
60
7FB
60
8
FB
60
9
FB
60
3F
B6
02
+24V
+15V
-15V
+5VD
+3.3VD
AC
GN
D
C6
42
1n
F
AC
GN
D
!
!
C6
48
10
0n
FB
61
0
+24V
D
C6
12
10
0u
F 5
0V
AC
GN
D
(CN
613)
(CN
614)
(FR
OM
EM
I FIL
TE
R )
(FR
OM
EM
I FIL
TE
R )
DGND
AGND
PR
OT
(TO MCU-1C CN409B)
+5V
D
1 2
TH
60
3B
D2
22
/10
0C
R6
40
56
K
D6
14
1N
41
48
C6
49
10
0n
MC
R1
00
-6S
CR
60
1
12345678
CN
623
R6
39
4K
7
-15V
C6
52
1u
F/5
0V
R6
44
4K
7
R6
45
4K
7
R6
46
3K
3
R6
47
12
K
R6
48
12
K
Q6
04
2N
39
04
D6
13
1N
41
48
D6
15
1N
41
48
IC6
06
PC
81
7A
!
PS
1 P
ow
er S
tan
d
Au
xilia
ry P
ow
er S
up
ply
PC
B, R
ev. F
P/N
: 274637
Sh
ee
t 1 o
f 2
12
0V
Ve
rsio
n 1
.0 S
yste
ms
99
12
3
A B C D
43
21
DCBA
R6
33
47
K
R6
34
3K
9
C6
43
15
0P
C6
46
15
0P
C6
44
15
0P
C6
45
15
0P
D6
10
1N
41
48
D6
11
1N
41
48
D6
12
1N
41
48
D7
CL
K9
R6
Q0
5
Q1
4
Q2
3
Q3
10
IC6
05
BC
D4
01
5
IC6
04
IC6
05
16
14
78
+5V
D
SY
N1
SY
N2
SY
N3
123
IC6
04
A
CD
40
93
564
IC6
04
B
CD
40
93
891
0
IC6
04
C
CD
40
93
12
13
11
IC6
04
D
CD
40
93
D1
5
CL
K1
RS
T1
4
Q0
13
Q1
12
Q2
11
Q3
2
IC6
05
AC
D4
01
5
TP
60
12
K
Q6
02
2N
39
04
R6
35
47
K
R6
36
4K
7
Fa
ilure
PR
OT
Q6
03
BD
14
0R6
37
2K
R6
38
4K
7
FC
+24V
D
(FA
NS
CO
NT
RO
L)
(TO
D A
MP
CN
81
2A
)
(TO THREE +/-27V PS CN503)
(CN
623-2
)
1234
CN
6151234
CN
6161234
CN
617
12
CN
618
12
CN
619
12
CN
621
12
CN
620
123C
N622
(TO
FA
N6
01
)(T
O F
AN
60
2)
(TO
FA
N6
03
)(T
O F
AN
60
4)
FB
611
+5V
P
C6
50
10
0n
Z6
02
15
V
R6
42
75
0R
-15V
R6
43
4K
7C
65
11
00
n
4
PS
1 P
ow
er S
tan
d
Au
xilia
ry P
ow
er S
up
ply
PC
B, R
ev. F
P/N
: 27
46
37
Sh
ee
t 2 o
f 2
12
0V
Ve
rsio
n 1
.0 S
yste
ms
100
12
34
A B C D
43
21
DCBA
C6
10
82
uF
40
0V
C6
24
100n
CO
MP
1
VF
B2
ISE
N3
RT
/CT
4
GND5
OU
T6
VCC7
VR
EF
8
IC601
UC
2843A
N
C6
19
103
IC602
PC
81
7A
Q601
K2645
R6
14
22
R
R6
15
22K
R6
13
10
0R
R6
21
0.4
7R
3W
Z601
18V
D603
1N
4148
R6
19
8K
2C6
17
222
C6
18
30
0P
R6
06
560K
R6
05
560K
C6
13
100n
R6
11
2R
2
R6
12
22
R
C6
14
1n
F
D602
UF
40
03
R6
07
240K
R6
08
240K
R6
20
1K
2
R6
18
1M
R6
17
1K
C6
15
100P
1K
V
D604
UF
40
06
R6
16
2K
2 1
/2W
D601
UF
40
06
R6
10
33K
2W
R6
09
33K
2W
C6
11
47
nF
63
0V
IC603
TL
43
1
C6
21
100n
C6
20
100n
R6
22
1K
R6
23
10K
R6
26
10
0R
R6
27
5K
1
R6
25
3K
9
5 3 16
811
9 710
12
11
11
T6
01
EC
28
D608
31D
Q10
C6
30
1n
F
C6
26
1n
F
C6
23
47
0u
F 3
5V
C6
41
47
0u
F 2
5V
D606
31D
Q10
R6
28
22
R 1
/2W
R6
29
22
R 1
/2W
C6
34
1n
F
L610
30uH
C6
22
1n
F
D607
31D
Q10
R6
314
7R
1/2
W
R6
30
47
R 1
/2W
C6
29
47
0u
F 3
5V
L608
30uH
L609
30uH
C6
33
47
0u
F 3
5V
D609
1N
5822
R6
32
100R
2W
C6
37
1n
F
D605
UF
54
04
C6
40
100n
C6
32
100n
C6
35
100n
C6
28
100n
C6
36
47
0u
F 2
5V
L611
30uH
C6
27
10
00
uF
35
V
C6
31
10
00
uF
35
V
C6
38
10
00
uF
35
V
C6
39
10
00
uF
35
V
C6
25
47
0u
F 3
5V
L607
30uH
R6
24
51K
C6
16
100n
V+
AC
GN
D
AC
GN
D
AC
GN
D
DG
ND
AG
ND
EG
ND
(Dig
ital g
nd)
(Analo
g g
nd)
(Earth
gnd)
FB
60
4
FB
60
5
FB
60
6
FB
60
7FB
60
8
FB
60
9
FB
60
3F
B6
02
+2
4V
+15V
-15V
+5VD
+3.3VD
AC
GN
D C6
42
1n
F
AC
GN
D
!
!
C6
48
100n
FB
61
0
+24V
D
C6
12
10
0u
F 5
0V
AC
GN
D
(CN
61
3)
(CN
61
4)
(FR
OM
EM
I FIL
TE
R )
(FR
OM
EM
I FIL
TE
R )
DGND
AGND
PR
OT
(TO MCU-1C CN409B)
+5V
D
1
2
TH
60
3
BD
22
2/1
00
C
R6
40
56K
D614
1N
4148
C6
49
100n
MC
R1
00
-6
SC
R6
01
12345678 CN
62
3
R6
39
4K
7
-15
V
C6
52
1u
F/5
0V
R6
44
4K
7
R6
45
4K
7
R6
46
3K
3
R6
47
12K
R6
48
12K
Q604
2N
3904
D613
1N
4148
D615
1N
4148
IC606
PC
81
7A
!
PS
1 P
ow
er S
tan
dA
uxilia
ry P
ow
er S
up
ply
PC
B, R
ev. F
P/N
: 28
33
68
Sh
ee
t 1 o
f 2
12
0V
Ve
rsio
n 1
.1 S
yste
ms
23
0V
Ve
rsio
n 1
.0 a
nd
1.1
Syste
ms
101
12
34
A B C D
43
21
DCBA
R6
33
47K
R6
34
3K
9
C6
43
15
0P
C6
46
15
0P C6
44
15
0P
C6
45
15
0P
D610
1N
4148
D611
1N
4148
D612
1N
4148
D7
CLK
9
R6
Q0
5
Q1
4
Q2
3
Q3
10
IC6
05
B
CD
40
15
IC604
IC605
16
14
78
+5V
D
SY
N1
SY
N2
SY
N3
12
3
IC604A
CD
40
93
56
4
IC6
04
B
CD
40
93
89
10
IC6
04
C
CD
40
93
12
13
11
IC604D
CD
40
93
D15
CLK
1
RS
T14
Q0
13
Q1
12
Q2
11
Q3
2
IC605A
CD
40
15
TP
60
12K
Q602
2N
3904
R6
35
47K
R6
36
4K
7
Failu
re
PR
OT
Q603
BD
14
0
R6
37
2K
R6
38
4K
7
FC
+24V
D
(FA
NS
CO
NT
RO
L)
(TO
D A
MP
CN
812A
)
(TO THREE +/-27V PS CN503)
(CN
62
3-2
)
1234
CN
61
5
1234
CN
61
6
1234
CN
61
7
1
2
CN
61
8
1
2
CN
61
9
1
2
CN
62
1
1
2
CN
62
0
123C
N6
22
(TO
FA
N601)
(TO
FA
N602)
(TO
FA
N603)
(TO
FA
N604)
FB
611
+5V
P
C6
50
100n
Z602
15V
R6
42
75
0R
-15
V
R6
43
4K
7C
65
1
100n
PS
1 P
ow
er S
tan
dA
uxilia
ry P
ow
er S
up
ply
PC
B, R
ev. F
P/N
: 28
33
68
Sh
ee
t 2 o
f 2
12
0V
Ve
rsio
n 1
.1 S
yste
ms
23
0V
Ve
rsio
n 1
.0 a
nd
1.1
Syste
ms
102
12
34
56
7
A B C D
87
65
43
21
DCBA
8
C1
66
47
u/2
5V
C1
67
47
u/2
5V
D1
02
1N
41
48
-15
V
C11
34
7u
F/3
5V
R1
29
10
R 1
%
D1
01
1N
41
48
+1
5V
R1
04
1K
1%
-15
V
+1
5V
R1
28
2K
1%
R1
27
2K
1%
R1
30
10
R 1
%
C1
01
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67
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W-6
P2
LE
D1
01
RG
_L
ED
R1
92
2K
2
LE
D1
02
Re
d3 2
1
U11
0A
NJM
20
68
M
R1
88
15
0K
R1
89
1K
R1
90
1K
567
U11
0B
NJM
20
68
M
R1
91
30
K
Z1
01
5v6
D1
25
1N
41
48
C1
69
4u
7/5
0V
C1
68
1u
F/5
0V
Z1
02
5v1
LE
D1
03
RG
_L
ED
R2
02
2K
2
3 21
U111
A
NJM
20
68
M
R1
98
15
0K
R1
99
1K
R2
00
1K
567
U111
B
NJM
20
68
M
R2
01
30
K
Z1
03
5v6
D1
26
1N
41
48
C1
72
4u
7/5
0V
C1
71
1u
F/5
0V
Z1
04
5v1
+1
5V
-15
V
48
U111
C
NJM
20
68
M
C1
77
10
0n
C1
76
10
0n
48
U11
0C
NJM
20
68
M
C1
75
10
0n
C1
74
10
0n
R1
87
51
K
R1
97
51
K
Off
+2
4V
Ph
an
tom
GR
GR
CA
P: C
168
-C1
79
RE
S: R
18
7-R
20
8
DIO
DE
: D1
25
-D1
28
ZE
NE
R: Z
10
1-Z
10
6L
ED
: LED
10
1-L
ED
104
IC: U
11
0-U
111
CO
N: C
N1
05
B-C
N10
6BS
W:
SW
10
2, S
W1
04
Q1
01
90
13
R1
25
1K
2Z
10
53
v3
Q1
04
90
13
R1
26
1K
2
Z1
06
3v3
R11
02
2K
R11
21
M
Q1
02
2N
39
04
R2
07
22
0R
123456
CN
10
5B
FR
OM
CN
10
1A
-15
V
Mic
Sh
ort1
Mic
Sh
ort1
123456
CN
10
6B
FR
OM
CN
10
2A
+1
5V+
24
V
Mic
Sh
ort2
Mic
Sh
ort2
Q1
03
2N
39
04
C1
78
a1
00
uF
/35V
R111
5K
6
R1
09
10
K
R2
04
3K
3
+2
4V
13
264
5
SW
10
4S
W-6
P2 LE
D1
04
Re
d
Off
+2
4V
Ph
an
tom
R11
42
2K
R11
61
M
Q1
05
2N
39
04
R2
08
22
0R
Q1
06
2N
39
04
C1
79
a1
00
uF
/35V
R11
5
5K
6
R11
3
10
K
D1
27a
1N
41
48
D1
28a
1N
41
48
TR
:Q
10
1-Q
10
6
4
PS
1 P
ow
er S
tan
d
Inp
ut P
an
el P
CB
, Re
v. G
P/N
: 273731
Sh
ee
t 3 o
f 3
12
0V
Ve
rsio
n 1
.0 S
yste
ms
105
12
34
56
7
A B C D
87
65
43
21
DCBA
C1
66
47
u/2
5V
C1
67
47
u/2
5V
D1
02
1N
41
48
-15
V
C1
13
47
uF
/35
V
R1
29
10
R 1
%
D1
01
1N
41
48
+1
5V
R1
04
1K
1%
-15
V
+1
5V
R1
28
2K
1%
R1
27
2K
1%
R1
30
10
R 1
%
C1
01
-C1
67
R1
01
-R1
86
U1
01
-U1
09
J1
01
-J1
06
CA
P:
CN
101A
-CN
104A
RE
S:
IC:
JA
CK
:C
ON
:
DIO
DE
:D
101-D
120
1 3
2J1
03
CH
1_
OU
T
CH
1_In
SG
AD
2_In
+1
5V
-15
V
R1
33
20
R 1
%
1 3
2J1
04
CH
2_
OU
T
J1
06
JY
-65
31
-02
-25
0
R1
31
10
K 1
%
R1
32
10
K 1
%
R1
34
1M
1%
C1
14
47
uF
/35
V
C1
01
10
0p
F
3 21
U106A
NJM
20
68
M
C1
06
20
pF
C1
07
20
pF
R1
19
10
K 1
%
R1
21
10
K 1
%
R1
35
10
R
R1
20
22
0R
R1
24
22
0R
C1
12
22
uF
/63
V
C1
10
22
uF
/63
V
5 67
U1
06
B
NJM
20
68
M
3 21
U107A
NJM
20
68
M
C1
23
20
pF
C1
24
20
pF
R1
54
10
K 1
%
R1
53
10
K 1
%
R1
55
10
K 1
%
R1
57
10
K 1
%
R1
59
22
0R
R1
58
22
0R
C1
27
22
uF
/63
V
C1
29
22
uF
/63
V
5 67
U1
07
B
NJM
20
68
M
C1
17
10
0n
R1
75
30
0R
321
U101A
TL072
C1
15
10
0p
F
C1
16
10
0p
F
C1
53
10
0n
C1
52
10
0n
C1
57
10
0n
C1
56
10
0n
C1
59
10
0n
C1
58
10
0n
48
U1
06
C
NJM
20
68
M
SG
101-S
G110
GA
P:
CH
2_
PA
TC
H
To
MC
U-1
J
R1
01
10
M
611
U1
02
B
INA
163
R1
02
1M
1%
21
481
0
71
RG
+
RG
-
51234
9
U102A
INA
163
D1
09
1N
41
48
-15
V
C1
30
47
uF
/35
V
R1
64
10
R 1
%
D1
10
1N
41
48
+1
5V
R1
39
1K
1%
R1
63
2K
1%
R1
62
2K
1%
R1
65
10
R 1
%
R1
68
20
R 1
%
R1
66
10
K 1
%
R1
67
10
K 1
%
R1
69
1M
C1
31
47
uF
/35
V
C1
19
10
0p
F
R1
70
10
R
C1
34
10
0n
C1
32
10
0p
F
C1
33
10
0p
F
R1
36
10
MR
13
71
M 1
%
21
481
0
71
RG
+
RG
-
51234
9
U105A
INA
163
R1
18
10
K 1
%
J1
05
JY
-65
31
-02
-25
0
R1
71
30
0R
CH
1_
PA
TC
H
C1
49
10
0n
C1
48
10
0n
48
U1
01
C
TL072
611
U1
05
B
INA
163
48
U1
07
C
NJM
20
68
M
C1
51
10
0n
C1
50
10
0n
R1
17
10
0R
R1
52
10
0R
+2
4V
C1
35
10
0p
F
C1
38
10
0p
F
D1
05
1N
41
48
D1
06
1N
41
48
-15
V+
15
V
D1
07
1N
41
48
D1
08
1N
41
48
-15
V+
15
V
D1
15
1N
41
48
D1
16
1N
41
48
-15
V+
15
V
D1
13
1N
41
48
D1
14
1N
41
48
-15
V+
15
V
C1
41
10
0n
321
U103A
TL072
L101
2.2
uH
R1
23
10
K 1
%
12345
CN
101A
To P
AN
EL-2
J S
heet(C
N105B
)
12345
CN
102A
To P
AN
EL-2
J S
heet(C
N106B
)
21 SG
10
9
21
SG
11
0
21
SG
10
8
21
SG
10
4
21
SG
10
121
SG
10
3
21
SG
10
5
21
SG
10
7
2
3G
GN
1
TRSSS
RS
TS
J1
01
CH
1_IN
2
3G
GN
1
TRSSS
RS
TS
J1
02
CH
2_IN
+2
4V
Input T
RIM
Channel 1
Channel 2
Input T
RIM
R2
31
10
K 1
%
R2
32
10
K 1
%
D1
39
1N
41
48
D1
40
1N
41
48
-15
V
+1
5V
R2
34
47
K
D1
41
1N
41
48
D1
42
1N
41
48
-15
V
+1
5V
R2
35
47
K
R2
26
10
K 1
%
R2
27
10
K 1
%
D1
36
1N
41
48
D1
35
1N
41
48
-15
V
+1
5V
D1
37
1N
41
48
D1
38
1N
41
48
-15
V+
15
V
R2
29
47
KR2
30
47
K
DIO
DE
:D
135-D
142
XLR
_3M
XLR
_3M
12345
CN
103A
5p
in
12345
CN
120A
5p
in
To M
CU
-1J (S
heet)
C1
61
10
0n
C1
60
10
0n
SG
567
U1
09
B
NJM
20
68
M
R1
76
10
0R
321
U109A
NJM
20
68
M
R1
72
10
0R
C1
39
10
uF
/25
V
C1
36
10
uF
/25
V
R1
74
10
0R
R1
78
10
0R
D1
17
1N
41
48
D11
81
N4
14
8
D11
91
N4
14
8
D12
01
N4
14
8
-15
V
+1
5V
48
U1
09
C
NJM
20
68
M
C1
65
10
0n
C1
64
10
0n
EA
RT
H
C2
01
1n
F
C2
02
1n
F
C2
03
1n
F
C1
02
10
0n
21
SG
11
8S
PC
3
21
SG
11
9S
PC
3
C2
14
1n
F
C2
12
1n
F
C2
11
1n
F
C2
13
1n
F
C2
04
1n
F
21
SG
12
0S
PC
3C
21
51
nF
C2
17
1n
F
21
SG
12
1S
PC
3
C2
18
1n
F
C2
16
1n
F
1
2
3V
R102A
5K
/10
C
1
2
3
VR
101A
5K
/10
C
CN
120A
-CN
121A
CO
N:
C2
01
-C2
18
CA
P:
R2
26
-R2
45
RE
S:
SG
118-S
G121
GA
P:
11
22
33
44
55
66
CN
104A
To
DS
P-1
J
321
U108A
NJM
20
68
M
C1
47
10
0p
F
C1
44
10
0p
F
R1
81
51
K
R1
85
51
K
R1
79
22
0R
R1
82
22
0R
567
U1
08
B
NJM
20
68
M
J1
07
Aux In
-L
C1
46
2u
2/5
0V
12
3
VR
10
320K
/15A
R1
83
22
0R
J1
08
Aux In
-R
C1
43
2u
2/5
0V
12
3
VR
10
420K
/15A
R1
86
22
0R
21
SG
11
1
21
SG
11
2
D1
24
1N
41
48
D1
23
1N
41
48
+1
5V
-15
V
D1
22
1N
41
48
D1
21
1N
41
48
-15
V
+1
5V
C1
45
1n
F
C1
42
1n
F
C1
63
10
0n
C1
62
10
0n
48
U1
08
C
NJM
20
68
M
CA
P:
C228-C
237
R1
80
22
K
C2
34
10
uF
/25
V
R2
39
47
KR
23
85
K6
R1
73
12
K
R1
77
12
K
-15
V
C1
40
1n
F
C1
37
1n
F
C2
32
10
uF
/25
V
R2
40
47
K
C2
33
10
uF
/25
VV
R2
41
47
K
C2
35
10
uF
/25
V
R2
44
47
KR
24
22
2K
R2
43
5K
6
C24
13
3p
F
C24
21
nF
CH
3_IN
CH
4_IN
R2
45
100
K
R2
46
100
K
R1
08
15
K 1
%
R1
50
15
K 1
%
R1
05
15
K 1
%
R1
07
15
K 1
%
R1
03
51
R 1
%
Mic
Sh
ort1
R1
06
50
R %
Lin
eS
hort2
5 67
U1
01
B
TL072
5 67
U1
03
B
TL072
48
U1
03
C
TL072
Mic
Sh
ort2
C1
18
10
0n
+1
5V
C1
70
22
0u
F/3
5V
-15
V
C1
73
22
0u
F/3
5V
C2
29
*no
stu
ff
C2
31
*no
stu
ff
Lin
eS
hort
CH
2_IN
CH
1_
Ou
t
CH
2_
OU
T
R1
40
10
K 1
%D
10
31
N4
14
8
R1
38
10
0R
R1
42
10
K 1
%
D1
04
1N
41
48
R1
41
10
0R
C2
36
10
00
uF
/16
V
C2
37
10
00
uF
/16
V
PS
1 P
ow
er S
tand
Input P
anel P
CB
, Rev. J
P/N
: 283366
Sheet 1
of 3
120V
Vers
ion 1
.1 S
yste
ms
8
230V
Vers
ion 1
.0 a
nd 1
.1 S
yste
ms
106
12
34
56
A B C D
87
65
43
21
DCBA
2+1+
2-
1-
J1
17
NL
-4M
D-V
-15
V
+1
5V
AM
P1
_O
/P+
2+1+
2-
1-
J1
18
NL
-4M
D-V
2+
1+
2-
1-
J1
19
NL
-4M
D-V
48
U1
12
C
NJM
20
68
M
48
U1
13
C
NJM
20
68
M
C1
89
10
0n
C1
88
10
0n
C1
78
-C2
00
R2
07
-R2
25
J1
12
-J1
19
CN
11
2A
-CN
11
9A
CA
P:
RE
S:
JA
CK
:
CO
N:
DIO
DE
:D
12
7-D
13
4
C1
91
10
0n
C1
90
10
0n
12345
CN
11
9A
CO
N3
LE
D1
05
PO
WE
R/P
RO
R2
24
2K
7
R2
25
2K
7
ALL A
MP
_IN
BA
SS
1_
OU
T
BA
SS
3_
OU
T
LE
D1
05
LE
D:
To
DS
P-1
J S
he
et
P1
01
-P1
03
PA
D:
To
MC
U-B
(CN
90
6B
)
To
MC
U-1
J S
he
et
J1
12
JA
CK
-9P
IN
C1
95
2u
2/5
0V
D1
30
1N
41
48
-15
V
C1
92
2u
2/5
0V
D1
29
1N
41
48
+1
5V
C1
98
2u
2/5
0V
R2
52
22
K
C1
84
1n
C1
85
2u
2/5
0V
21 SG
11
6
21 SG
11
5
21
SG
11
7
12
CN
80
1B
To
D_
AM
P1
12
CN
80
5B
To C
LA
SS
D_A
MP
2_IN
TO
CLA
SS
D_A
MP
1_IN
C1
94
10
uF
/25
V
321
U1
13
A
NJM
20
68
M
C1
97
10
u/2
5V
R2
12
10
0R
567
U1
12
B
NJM
20
68
M
R2
16
10
0R
R2
14
47
K
R2
15
10
0R
R2
18
47
K
R2
19
10
0R
12
CN
80
9B
BA
SS
_O
UT
TO
CLA
SS
D_A
MP
3_IN
C2
00
10
u/2
5V
R2
20
10
0R
567
U1
13
B
NJM
20
68
M
R2
22
47
K
R2
23
10
0R
123
CN
11
5A
Fu
ll_In
C1
83
1n
FC
18
21
nF
J1
14
Aux In
-L
D1
32
1N
41
48
-15
V
D1
31
1N
41
48
+1
5V
D1
34
1N
41
48
-15
V
D1
33
1N
41
48
+1
5V
J1
15
Aux In
-L
J1
16
Aux In
-L
C1
86
2u
2/5
0V
21
SG
11
4
321
U1
12
A
NJM
20
68
M
R2
10
12
kC
18
71
nF
R2
09
10
0R
D1
28
1N
41
48
-15
V
D1
27
1N
41
48
+1
5V
R2
11
10
R
21
SG
11
3
GR
GA
P:
SG
11
3-S
G1
17
1
2
P1
01
PA
D-2
1
2
P1
02
PA
D-2
1
2
P1
03
PA
D-2
C2
21
1n
F
C2
23
1n
F
C2
25
1n
F
C2
27
1n
F
21
SG
12
7
21
SG
12
6
21
SG
12
8
21
SG
12
9
21
SG
13
0
21
SG
13
1
Lin
e A
rray 1
Lin
e A
rray 2
BA
SS
2_
OU
T
Lin
e A
rray 3
C2
19
-C2
27
CA
P:
U1
12
-U1
14
IC:
J1
07
-J1
08
JA
CK
:
GA
P:
SG
12
2-S
G1
31
PS
1 P
AN
EL
-1P
CB
CO
N: C
N8
01
B-C
N8
09
B
2
1
J1
10
SP
DIF
2
1
J1
09
SP
DIF
Da
ta IN
Da
ta O
ut
PS
1 P
AN
EL-4
PC
B 12
CN
11
2A
12
CN
11
3A
21
SG
12
3
21
SG
12
2
21
SG
12
5
21
SG
12
4
CA
P: C
17
8-C
17
9C
AP
: C2
19
-C2
20
RC
A:J
J1
09
-J1
10
9 5 6 7 4 8 3 2 1J1
13
BA
SS
_O
UT
R2
21
12
KC
19
91
nF
R2
17
12
KC
19
61
nF
R2
13
12
KC
19
31
nF
48
U1
14
C
NJM
20
68
M
C2
38
10
0n
C2
39
10
0n
3 21
U1
14
A
NJM
20
68
M
5 67
U1
14
B
NJM
20
68
M
C2
40
2u
2/5
0V
R2
47
10
0K
R2
53
56
0R
C2
36
-C2
40
CA
P:
R2
45
-R2
46
RE
S:
R2
51
10
K 1
%R
25
01
0K
1%
R2
54
10
K 1
%
R2
56
22
K
C2
46
1n
C2
45
2u
2/5
0V
21
SG
13
2
C2
47
1n
F
R2
57
56
0R
R2
48
10
K 1
%
R2
49
10
K 1
%
C2
43
20
pF
C2
44
20
pF
R2
55
10
K 1
%
R2
58
10
0K
R2
59
10
0K
R2
60
10
0K
R2
61
10
0K
D1
43
1N
41
48
+1
5V
D1
44
1N
41
48
-15
V
MA
P2
_O
/P+
MA
P3
_O
/P+
4/8
Oh
m c
he
ck
pro
MA
P2
_O
/P-
MA
P1
_O
/P-
1-
1-1-
MA
P3
_O
/P-
BA
SS
_IN
C1
78
10
0p
F
C2
19
10
0p
F
C1
79
10
0p
F
C2
20
10
0p
F
C2
48
82
0p
FC
24
98
20
pF
C2
55
10
00
PF
C2
52
10
00
PF
C2
53
10
00
PF
C2
54
10
00
PF
C2
51
10
00
PF
C2
50
10
00
PF
Z1
08
5v6
Z1
07
5v6
Z1
10
5v6
Z1
09
5v6
87
PS
1 P
ow
er S
tand
Input P
anel P
CB
, Rev. J
P/N
: 283366
Sheet 2
of 3
120V
Vers
ion 1
.1 S
yste
ms
230V
Vers
ion 1
.0 a
nd 1
.1 S
yste
ms
107
12
34
A B C D
43
21
DCBA
R1
93
3K
3
+2
4V
13
264
5
SW
10
2S
W-6
P2
LE
D1
01
RG
_LE
DR
19
22
K2
LE
D1
02
Re
d3 2
1
U1
10
A
NJM
20
68
M
R1
88
15
0K
R1
89
1K
R1
90
1K
567
U1
10
B
NJM
20
68
M
R1
91
30
K
Z101
5v6
D1
25
1N
41
48
C1
69
4u
7/5
0V
C1
68
1u
F/5
0V
Z102
5v1
LE
D1
03
RG
_LE
DR
20
22
K2
3 21
U1
11
A
NJM
20
68
M
R1
98
15
0K
R1
99
1K
R2
00
1K
567
U1
11
B
NJM
20
68
M
R2
01
30
K
Z103
5v6
D1
26
1N
41
48
C1
72
4u
7/5
0V
C1
71
1u
F/5
0V
Z104
5v1
+1
5V
-15V
48 U1
11
C
NJM
20
68
M
C1
77
10
0n
C1
76
10
0n
48
U1
10
C
NJM
20
68
M
C1
75
10
0n
C1
74
10
0n
R1
87
51
K
R1
97
51
K
Off
+2
4V
Phanto
m
GR
GR
CA
P: C
168-C
179
RE
S: R
187-R
208
DIO
DE
: D125-D
128
ZE
NE
R: Z
101-Z
106
LE
D: L
ED
101-L
ED
104
IC: U
110-U
111
CO
N: C
N105B
-CN
106B
SW
:S
W1
02
, SW
10
4
Q1
01
90
13
R1
25
1K
2Z
105
3v3
Q1
04
90
13
R1
26
1K
2
Z106
3v3
R1
10
22
K
R1
12
1M
Q1
02
2N
39
04
R2
07
22
0R
12345
CN
105B
FR
OM
CN
101A
-15V
Mic
Sh
ort1
Mic
Sh
ort1
12345
CN
106B
FR
OM
CN
102A
+1
5V+
24
V
Mic
Sh
ort2
Mic
Sh
ort2
Q1
03
2N
39
04
C1
78
A1
00
uF
/35
V
R1
11
5K
6
R1
09
10
K
R2
04
3K
3
+2
4V
13
264
5
SW
10
4S
W-6
P2
LE
D1
04
Re
d
Off
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4V
Phanto
m
R1
14
22
K
R1
16
1M
Q1
05
2N
39
04
R2
08
22
0R
Q1
06
2N
39
04
C1
79
A
10
0u
F/3
5V
R1
15
5K
6
R1
13
10
K
D1
27
A1
N4
14
8
D1
28
A1
N4
14
8
TR
:Q
101-Q
106
PS
1 P
ow
er S
tand
Input P
anel P
CB
, Rev. J
P/N
: 283366
Sheet 3
of 3
120V
Vers
ion 1
.1 S
yste
ms
230V
Vers
ion 1
.0 a
nd 1
.1 S
yste
ms
108
12
3
A B C D
43
21
DCBA
C3
07
4u
7/5
0V
R3
09
10
0k
C3
13
10
0n
C3
12
10
0n
C3
14
47
u/2
5VC
311
47
u/2
5V
C3
22
47
u/2
5V
C3
21
47
u/2
5V
48
U3
01
C
NJM
20
68
M
-15
V
+1
5V
-15
V+
15
V
C3
08
4u
7/5
0V
C3
15
4u
7/5
0V
R3
10
10
0k
C3
17
4u
7/5
0V
L-O
UT
2
NC
3
L-IN
4
L-L
D1
5
L-L
D2
6
A-G
ND
7
NC
8
CS
19
CS
21
6
NC
17
A-G
ND
18
R-L
D2
19
R-L
D1
20
R-IN
21
NC
22
R-O
UT
23
NC
10
GN
D11
ST
B1
4
NC
15
VS
S1
VD
D24
CK
12
DA
TA
13
U3
02
TC
94
59
F
CH
2_
In
CH
1_
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t
CH
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28
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27
10
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m P
AN
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1 2 3 4 5 6 7 8
CN
40
9B
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pro
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FR
OM
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et
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10
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C3
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10
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C3
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10
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321
U3
01
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JM
20
68
M
12345
CN
10
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12
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SP
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38
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1234 CN
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4
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30
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rrite B
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3
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rrite B
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1F
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2F
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ad
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5
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34
41
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311
10
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10
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33
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317
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6
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PS
1 P
ow
er S
tan
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rop
roce
sso
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CB
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v. I
P/N
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37
32
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ee
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109
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A B C D
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43
21
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41
30
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30
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22
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10
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1N
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48
C3
32
10
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C3
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10
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36
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1O
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D1
4V
SS
7
U3
45
74
LC
X1
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D
C3
40
10
0n
FL
AG
4
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70
22
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R3
69
22
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41
48
MID
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RFA
CEL3
41
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rrite B
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L3
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rrite B
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1254 6
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CN
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Fe
rrate
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ad
C3
39
47
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1
2
3
4
5
6
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10
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Mic
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B, R
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P/N
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Sheet 1
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PS
1 P
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tand
Mic
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CU
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B, R
ev. J
P/N
: 283367
Sheet 2
of 2
120V
Vers
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ms
230V
Vers
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nd 1
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ch
dsp
-3i.s
ch
dsp
-2i.s
ch
dsp
-2i.s
ch
FL
AG
4
Fro
m M
CU
-1E
Sh
ee
t
FL
AG
5(D
SP
13
8P
in)
(DS
P 1
97
Pin
)
SD
IN_
43
92
C3
58
12
0p
F
C3
59
12
0p
F
C3
62
12
0p
F
C3
63
12
0p
F
C3
66
12
0p
F
C3
67
12
0p
F
C3
70
12
0p
F
C3
71
12
0p
F
5 67
U3
88
B
NJM
20
68
C4
29
10
0n
Fro
m M
CU
-1E
Sh
ee
t(C
N3
81
B)
C4
28
10
0u
F/1
0V
C4
27
10
uF
/25
VC
42
61
00
n
U3
89
78
L0
5AIN
OU
T
GN
D
VR
EF
1
VR
EF
2
53
61
_M
CL
K
RS
T5
36
1
(DS
P_
P2
2)
(DS
P_
P2
01
)
C4
03
6n
8
C4
10
6n
8
D3
81
1N
41
48
D3
83
1N
41
48
D3
82
1N
41
48
D3
84
1N
41
48
+5
VA
D3
85
1N
41
48
D3
87
1N
41
48
D3
86
1N
41
48
D3
88
1N
41
48
+5
VA
D3
89
1N
41
48
D3
91
1N
41
48
D3
90
1N
41
48
D3
92
1N
41
48
+5
VA
D3
93
1N
41
48
D3
95
1N
41
48
D3
94
1N
41
48
D3
96
1N
41
48
+5
VA
1 2 3 4 CN
38
1A
WF
4
R4
21
10
k
+3
.3V
D
11
22
33
44
55
66
CN
34
1B
WF6
FL
AG
11
RS
T
(DS
P 7
6P
in)
(DS
P 1
57
Pin
)
FB
38
1
Fe
rrite B
ea
d
C4
07
10
0n
FB
38
2
Fe
rrite B
ea
d
FB
38
3
Fe
rrite B
ea
d
+3
.3V
Fro
m P
an
el-3
Sh
ee
t
-15
V'
+1
5V
'
+3
.3V
D
C3
50
10
uF
/25
V
C3
51
10
uF
/25
V
C4
00
10
uF
/25
V
C4
01
10
uF
/25
V
Q3
832
SC
28
78
Q3
81D
TC
11
4E
S
Q3
82
DTA
11
4E
SA
R3
78
10
K
Q3
842
SC
28
78
-15
V' +
5V
A
R3
79
2K
R3
80
2K
Fro
m D
SP
-3C
Sh
ee
tF
LA
G9
No
te: T
he
se
parts
do
n't n
ee
d in
se
rt.
On
ly fo
r test.
C3
52
10
uF
/25
V
R3
81
-R4
25
U3
81
-U3
89C
N1
04
B
CA
P:
RE
S:
IC:
CO
N:
C3
00
-C3
01
,C3
52
-C4
07
,C4
09
-C4
29
CN
11
5B
CN
34
1B
DIO
DE
:D
38
1-D
39
6F
B3
81
-FB
38
3F
B:
TR
:Q
38
1-Q
38
4
8
PS
1 P
ow
er S
tan
d
Dig
ital S
ign
al P
roce
sso
r PC
B, R
ev. I
P/N
: 27
37
30
Sh
ee
t 1 o
f 3
12
0V
Ve
rsio
n 1
.0 S
yste
ms
113
12
34
56
A B C D
87
65
43
21
DCBA
C4
36
47
nF
R4
30
75
R
C4
44
10
0p
F
R4
51
23
2
R4
52
10
0
+3.3
VD
+3.3
VD
+3.3
VD
+3.3
VD
CO
PY
/C1
TE
ST
2
EM
PH
*3
SF
MT
04
SF
MT
15
VD
6
TE
ST
7
TE
ST
8
RS
T*
9
AP
MS
10
TC
BL
D11
ILR
CK
12
IBIC
K1
3
SD
IN1
4
OR
IG2
8
TE
ST
27
TX
P2
6
TX
N2
5
H/S
*2
4
VL
23
DG
ND
22
OM
CK
21
TE
ST
20
AU
DIO
*1
9
U1
8
V1
7
CE
N1
6
TC
BL
15
U4
35
CS
84
06
RX
P3
1
RX
P2
2
RX
P1
3
RX
P0
4
RX
N5
VA
+6
AG
ND
7
FIL
T8
RS
T*
9
RX
SE
L1
10
RX
SE
L0
11
TX
SE
L1
12
TX
SE
L0
13
NV
/RE
RR
14
OL
RC
K2
8
OB
ICK
27
SD
OU
T2
6
OM
CK
25
RM
CK
24
VD
+2
3
DG
ND
22
VL
+2
1
TX
20
C1
9
U1
8
RC
BL
17
96
KH
Z1
6
AU
DIO
*1
5
CS
84
16
U4
31
CS
84
16
84
16
_L
RC
K8
41
6_
BIC
K
84
06
_L
RC
K8
40
6_
BIC
K
+3
.3V
D
R4
31
3K
C4
31
22
n C4
32
1n
RS
T8
41
6
84
16
_A
UD
IO
C4
38
10
0n
C4
40
1n
RS
T8
40
6
R4
39
4k7
R4
36
47
k
R4
35
47
k
+3
.3V
D+
3.3
VD
+3
.3V
D
R4
33
47
k
R4
34
47
k
R4
37
47
kR
43
84
7k
+3
.3V
DR
45
94
7k
+3
.3V
DC4
47
10
0n
84
06
_V
84
06
_C
EN
+3
.3V
DC4
49
10
0n
R4
62
47
k
+3
.3V
D
84
06
_T
XP
84
06
_T
CB
LD
R4
61
47
K
GND4
OE
1
VD
D8
OU
T5
XTA
L4
31
12
.28
8M
Hz
C4
42
10
uF
/25
VC
44
31
00
n
+3
.3V
D
R4
50
10
K
+3
.3V
D
SD
IN_
84
06
SD
OU
T_
84
16
12CN
11
2B
WF
2
12CN
11
3B
WF2
C4
37
10
0P
F
DA
TA
_IN
C4
45
10
0p
F
C4
46
10
0p
F DA
TA
_O
UT
C4
48
10
uF
/25
VC
45
0
10
uF
/25
V
C4
35
10
uF
/25
V
C4
39
10
uF
/25
V
R4
60
47
K
R4
63
47
K+
3.3
VD
(DS
P_
13
8P
in)
(DS
P_
80
Pin
)
(DS
P_
13
7P
in)(D
SP
_2
3P
in)
FB
43
1
Fe
rrite B
ea
d
C4
33
10
0n
Fro
m P
an
el-E
2 Sh
ee
t
(CN
11
2A
)
Fro
m P
an
el-E
2 Sh
ee
t
(CN
11
3A
)
C4
51
1n
C4
52
1n
C4
53
1n
C4
34
10
n
84
06
_M
CL
K
456
U4
32
B
74
LV
32
9
10
8
U4
32
C
74
LV
32
12
13
11
U4
32
D
74
LV
32
7 14
U4
32
E
74
LV
32
123
U4
32
A
74
LV
32
DS
P_
BIC
K
DS
P_
LR
CK
53
61
_L
RC
K_
S
53
61
_B
ICK
_S
43
92
_B
ICK
43
92
_L
RC
K
84
06
_L
RC
K 84
06
_B
ICK
53
61
_L
RC
K_
M
53
61
_B
ICK
_MM
CL
K_
SY
S5
36
1_
MC
LK
43
92
_M
CL
K
84
06
_M
CL
K
A0
2
A1
3
A2
4
A3
5
A4
6
A5
7
A6
8
A7
9
E1
9
DIR
1
B7
11
B6
12
B5
13
B4
14
B3
15
B2
16
B1
17
B0
18
Vcc20
GND10
U4
34
74
LV
24
5
A0
2
A1
3
A2
4
A3
5
A4
6
A5
7
A6
8
A7
9
E1
9
DIR
1
B7
11
B6
12
B5
13
B4
14
B3
15
B2
16
B1
17
B0
18
Vcc20
GND10
U4
33
74
LV
24
5
(DS
P_
P5
)
(DS
P_
P7
)(D
SP
_P
8)
(DS
P_
P1
9)
(DS
P_
P1
8)
C4
54
1n
C4
30
1n
FB
43
2F
errite
Be
ad
C4
55
10
n
C4
56
10
0p
FC
45
71
00
pF
R4
32
75
R
D4
31
1N
41
48
D4
32
1N
41
48
21S
G4
31
21
SG
43
2
R4
66
15
0R
R4
65
15
0R
R4
64
15
0R
R4
26
15
0R
R4
27
15
0R
R4
28
15
0R
R4
29
15
0R
R4
53
15
0R
R4
54
15
0R
R4
55
15
0R
R4
56
15
0R
R4
57
15
0R
R4
58
15
0R
C4
41
10
0n
18
45
T4
32
1:1
XF
MR
18
45
T4
31
1:1
XF
MR
G1
C4
58
47
pF
R4
26
-R4
66
U4
31
-U4
35
CN
11
2B
-CN
11
3B
CA
P:
RE
S:
IC:
CO
N:
C4
30
-C4
58
FB
43
1-F
B4
32
TR
AN
:
FB
:
T4
31
-T4
32
XTA
L:
XTA
L4
31
-XTA
L4
31
D4
31
-D4
32
DIO
DE
:
SG
43
1-S
G4
32
SP
AR
K G
AP
:
78
PS
1 P
ow
er S
tan
d
Dig
ital S
ign
al P
roce
sso
r PC
B, R
ev. I
P/N
: 27
37
30
Sh
ee
t 2 o
f 3
12
0V
Ve
rsio
n 1
.0 S
yste
ms
114
12
34
56
A B C D
87
65
43
21
DCBA
A0
12
A1
11
A2
10
A3
9
A4
8
A5
7
A6
6
A7
5
A8
27
A9
26
A1
02
3
A11
25
A1
24
A1
32
8
A1
42
9
A1
53
A1
62
A1
73
0
Q0
13
Q1
14
Q2
15
Q3
17
Q4
18
Q5
19
Q6
20
Q7
21
CE
22
OE
24
VD
D3
2
GN
D1
6
VP
P1
WE
31
U4
62
SS
T2
9L
E0
20
DA
TA
7D
ATA
6D
ATA
5D
ATA
4D
ATA
3D
ATA
2D
ATA
1D
ATA
0
R48310k
R48210k
R48110k
R48010k
R47910k
R47810k
R47710k
R47610k
R47510k
R48410k
R48610k
R48510k
+3
.3V
D
CL
KIN
XTA
L4
61
30
.0M
Hz
C4
96
30
pF
C4
95
30
pF
R4
98
10
kR
49
71
0k
R4
96
10
k
+3
.3V
D
C4
97
10
0n
+3
.3V
D
FL
AG
4F
LA
G5
R4
88
3k3
R4
87
10
k+
3.3
VD
DA
TA
0D
ATA
1D
ATA
2D
ATA
3D
ATA
4D
ATA
5D
ATA
6D
ATA
7
DS
P_
BIC
KD
SP
_L
RC
K
RS
T8
41
6
R4
89
10
k
RS
T8
40
6R
ST
43
92
RS
T5
36
1
84
16
_A
UD
IO
SD
OU
T_
53
61
SS
DO
UT
_5
36
1M
SD
IN_
43
92
SD
IN_
84
06
SD
OU
T_
84
16
C4
61
10
0n
+3
.3V
D
+3.3
VD
VDD1
VDD9
VDD20
VDD21
VDD29
VDD32
VDD36
VDD45
VDD54
VDD61
VDD66
VDD67
VDD77
VDD85
VDD93
VDD95
VDD105
VDD110
VDD120
VDD124
VDD130
VDD131
VDD140
VDD141
VDD156
VDD158
VDD163
VDD172
VDD176
VDD182
VDD191
VDD192
VDD200
GND3
GND10
GND14
GND25
GND33
GND35
GND41
GND49
GND57
GND60
GND68
GND72
GND73
GND81
GND89
GND94
GND99
GND106
GND114
GND119
GND125
GND129
GND135
GND139
GND150
GND154
GND155
GND159
GND167
GND168
GND177
GND181
GND186
GND187
GND196
GND204
DA
TA
08
2
DA
TA
18
3
DA
TA
28
4
DA
TA
38
6
DA
TA
48
7
DA
TA
58
8
DA
TA
69
0
DA
TA
79
1
DA
TA
89
2
DA
TA
99
6
DA
TA
10
97
DA
TA
11
98
DA
TA
12
10
0
DA
TA
13
10
1
DA
TA
14
10
4
DA
TA
15
10
7
DA
TA
16
10
8
DA
TA
17
10
9
DA
TA
18
111
DA
TA
19
11
2
DA
TA
20
11
3
DA
TA
21
11
6
DA
TA
22
11
7
DA
TA
23
11
8
DA
TA
24
12
1
DA
TA
25
12
2
DA
TA
26
12
3
DA
TA
27
12
6
DA
TA
28
12
7
DA
TA
29
12
8
DA
TA
30
13
2
DA
TA
31
13
3
AD
DR
01
95
AD
DR
11
94
AD
DR
21
93
AD
DR
31
90
AD
DR
41
89
AD
DR
51
88
AD
DR
61
85
AD
DR
71
84
AD
DR
81
83
AD
DR
91
80
AD
DR
10
17
9
AD
DR
11
17
8
AD
DR
12
17
5
AD
DR
13
17
4
AD
DR
14
17
3
AD
DR
15
17
1
AD
DR
16
17
0
AD
DR
17
16
9
AD
DR
18
16
6
AD
DR
19
16
5
AD
DR
20
16
4
AD
DR
21
16
2
AD
DR
22
16
1
AD
DR
23
16
0
RF
S0
2
RF
S1
13
TF
S0
7
TF
S1
18
RC
LK
04
RC
LK
11
5
TC
LK
08
TC
LK
11
9
SD
CL
K0
37
SD
CL
K1
34
DR
0A
5
DR
0B
6
DR
1A
16
DR
1B
17
DT
0A
11
DT
0B
12
DT
1A
22
DT
1B
23
CL
KIN
30
XTA
L3
1
PW
M_
EV
EN
T1
24
PW
M_
EV
EN
T0
26
BR
12
7
BR
22
8
DM
AR
13
8
DM
AR
23
9
DM
AG
15
0
DM
AG
25
1
HB
R4
0
HB
G5
2
RA
S4
2
CA
S4
3
SD
WE
44
DQ
M4
6
SD
CK
E4
7
CS
55
SB
TS
56
WR
58
RD
59
SW
64
CPA
65
RE
DY
63
BS
EL
15
2
SD
A1
04
8
BM
ST
R5
3
AC
K6
9
MS
07
0
MS
17
1
MS
27
4
MS
37
5
EM
U1
45
TR
ST
14
7
BM
S1
53
RE
SE
T1
57
IRQ
02
05
IRQ
12
06
IRQ
22
07
TD
01
46
TD
11
48
TM
S1
49
TC
K1
51
NC
10
2
NC
10
3
NC
11
5
NC
14
2
NC
20
2
NC
20
3
ID0
14
4
ID1
14
3
FL
AG
01
97
FL
AG
11
98
FL
AG
21
99
FL
AG
32
01
FL
AG
41
38
FL
AG
51
37
FL
AG
61
36
FL
AG
71
34
FL
AG
88
0
FL
AG
97
9
FL
AG
10
78
FL
AG
11
76
NC
20
8
AN
AL
OG
DE
VIC
ES
AD
SP
- 21
06
5L
GND62
U4
61
DS
P2
10
65
L
(DS
P-2
E S
he
et)
(DS
P-1
E S
he
et)
C4
62
10
0n
C4
63
10
0n
C4
64
10
0n
C4
65
10
0n
C4
66
10
0n
C4
67
10
0n
C4
68
10
0n
C4
69
10
0n
C4
70
10
0n
C4
71
10
0n
C4
72
10
0n
C4
73
10
0n
C4
74
10
0n
C4
75
10
0n
C4
76
10
0n
C4
77
10
0n
C4
78
10
0n
C4
79
10
0n
C4
80
10
0n
C4
81
10
0n
C4
82
10
0n
C4
83
10
0n
C4
84
10
0n
C4
85
10
0n
C4
86
10
0n
C4
87
10
0n
C4
88
10
0n
C4
89
10
0n
C4
90
10
0n
C4
91
10
0n
C4
92
10
0n
C4
93
10
0n
C4
98
10
0n
(DS
P-2
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he
et)
(DS
P-2
E S
he
et)
(DS
P-2
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he
et)
(DS
P-1
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he
et)
(DS
P-1
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he
et)
R47410k
(DS
P-2
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he
et)
(DS
P-2
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he
et)
(DS
P-2
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he
et)
(DS
P-1
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he
et)
(DS
P-1
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he
et)
(DS
P-1
E S
he
et)
(DS
P-1
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he
et)
R4
95
30
0R
LE
D4
61
GR
NL
ED
+3
.3V
D
R4
99
1M
R4
91
10
k
R4
90
10
k
R4
92
10
kR
49
31
0k
R4
94
10
k
123U
46
3A
74
LV
08
456
U4
63
B
74
LV
08
9
10
8
U4
63
C
74
LV
08
12
13
11
U4
63
D
74
LV
08
7 14
U4
63E
74
LV
08
84
16
_B
ICK
+3.3
VD
84
16
_L
RC
K(D
SP
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Sh
ee
t)(D
SP
-2E
Sh
ee
t)
RS
T(D
SP
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Sh
ee
t)
FL
AG
11
(DS
P-1
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he
et)
R4
73
10
kR
47
21
0k
+3
.3V
D
(DS
P-1
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he
et)
FL
AG
9
C4
99
10
uF
/25
V
C4
60
4u
7/1
6VR
47
2-R
49
9
U4
61
-U4
63
CA
P:
RE
S:
IC:
C4
60
-C4
99
XTA
L4
61
-XTA
L4
61
XTA
L:
LE
D4
61
-LE
D4
61
LE
D:
78
PS
1 P
ow
er S
tan
d
Dig
ital S
ign
al P
roce
sso
r PC
B, R
ev. I
P/N
: 27
37
30
She
et 3
of 3
12
0V
Ve
rsio
n 1
.0 S
yste
ms
115
12
34
56
A B C D
87
65
43
21
DCBA
C4
25
10
0n
C4
24
10
0n
48
U3
84
C
NJM
20
68
-15
V
48
U3
88
C
NJM
20
68
+1
5V
R3
81
-R4
25
U3
81
-U3
89
CN
10
4B
CA
P:
RE
S:
IC:
CO
N:
C4
23
10
0n
C4
22
10
0n
C3
00
-C3
01
,C3
52
-C4
07
,C4
09
-C4
29
3 21
U3
81
A
NJM
20
68
C3
60
1n
R3
82
5k6
R3
81
11
k
R3
83
5k6
R3
84
5k6
R3
85
15
0R
R3
86
15
0R
5 67
U3
81
B
NJM
20
68
R4
12
47
K
R4
11
56
0R
R4
07
1K
5
R4
09
3K
3
R4
06
3K
R4
05
3K
R4
10
3K
3
R4
08
1K
5
C4
02
1n
5
C4
05
68
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F
C4
04
68
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F
VR
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1
RS
T*
1
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6
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7
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8
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11
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12
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13
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14
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T+
24
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23
VQ
22
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21
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20
VA
19
AG
ND
18
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17
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16
OV
FL*
15
U3
85
CS
53
61
53
61
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K_
S5
36
1_
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S5
36
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MC
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RS
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36
1
C3
73
10
0n
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VA
C3
87
10
0n
C3
75
10
0n
R4
23
10
k
+3
.3V
D
C3
83
10
0n
C3
85
10
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CH
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CH
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D
RS
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1
M/S
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LR
CK
3
SC
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4
MC
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5
VD
6
DG
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8
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T9
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0
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11
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12
M0
13
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14
FIL
T+
24
RE
FG
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23
VQ
22
AIN
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21
AIN
R-
20
VA
19
AG
ND
18
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L-
17
AIN
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16
OV
FL*
15
U3
86
CS
53
61
53
61
_L
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K_
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36
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K_
M5
36
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MC
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36
1
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VA
C3
93
10
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C3
94
1u
F/5
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R4
24
10
k
+3
.3V
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D
AIN
CH
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AIN
CH
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AIN
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4-
AIN
CH
4+
RS
T*
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VL
2
SD
AT
A3
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4
LR
CK
5
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6
M3
7
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8
M1
9
M0
10
FIL
T+
11
CM
OU
T1
2B
MU
TE
C1
3A
OU
TB
-1
4
AM
UT
EC
20
AO
UT
A-
19
AO
UT
A+
18
VA
17
AG
ND
16
AO
UT
B+
15
U3
87
CS
43
92
43
92
_B
ICK
43
92
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RC
K4
39
2_
MC
LK
RS
T4
39
2
+5
VA
+3
.3V
DC3
81
10
0n
AO
UT
L-
AO
UT
L+
AO
UT
R-
AO
UT
R+
C3
97
10
0n
C3
98
10
uF
/25
V
C3
99
1u
F/5
0V
R4
25
47
k
+3
.3V
D
11
22
33
44
55
66
CN
10
4B
WF
6
AIN
CH
3+
AIN
CH
3-
AIN
CH
4+
AIN
CH
4-
AIN
CH
1+
AIN
CH
1-
AIN
CH
2+
AIN
CH
2-
AO
UT
L-
AO
UT
L+
SD
OU
T_
53
61
S
SD
OU
T_
53
61
M
C3
74
1u
F/5
0V
48
U3
83
C
NJM
20
68
C4
21
10
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C4
20
10
0n
48
U3
82
C
NJM
20
68
C4
19
10
0n
C4
18
10
0n
48
U3
81
C
NJM
20
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17
10
0n
C4
16
10
0n
+5
VA
BA
SS
_In
1 2 3
CN
11
5B
WF
3
Fu
ll_In
C3
57
10
uF
/25
V
3 21
U3
82
A
NJM
20
68
C3
64
1n
R3
88
5k6
R3
87
11
k
R3
89
5k6
R3
90
5k6
R3
91
15
0R
R3
92
15
0R
5 67
U3
82
B
NJM
20
68
VR
EF
1
C3
61
10
uF
/25
V
3 21
U3
83
A
NJM
20
68
C3
68
1n
R3
94
5k6
R3
93
11
k
R3
95
5k6
R3
96
5k6
R3
97
15
0R
R3
98
15
0R
5 67
U3
83
B
NJM
20
68
VR
EF
2
C3
65
10
uF
/25
V
3 21
U3
84
A
NJM
20
68
C3
72
1n
R4
00
5k6
R3
99
11
k
R4
01
5k6
R4
02
5k6
R4
03
15
0R
R4
04
15
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5 67
U3
84
B
NJM
20
68
VR
EF
2
C3
69
10
uF
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V
C4
06
10
uF
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V3 2
1
U3
88
A
NJM
20
68
R4
20
47
K
R4
19
56
0R
R4
15
1K
5
R4
17
3K
3
R4
14
3K
R4
13
3K
R4
18
3K
3
R4
16
1K
5
C4
09
1n
5
C4
12
68
0p
F
C4
11
68
0p
F
AO
UT
R-
AO
UT
R+
C4
13
10
uF
/25
V
+3
.3V
D
C3
77
10
0n
C3
79
10
0n
+3
.3V
D
C3
78
1u
F/5
0V
C3
84
10
uF
/25
V
C3
86
1u
F/5
0V
C3
89
10
0n
C3
91
10
0n
C3
90
10
uF
/25
V
C3
92
1u
F/5
0V
C3
88
1u
F/5
0V
C3
95
10
0n
C3
96
1u
F/5
0V
C3
82
1u
F/5
0V
C3
53
10
0P
F
C3
54
10
0P
F
C3
55
10
0P
F
C3
56
10
0P
F
Fro
m P
an
el-1
J S
he
et
(CN
40
1A
)
(CN
11
5A
)
CN
11
5B
dsp
-3j.s
ch
dsp
-3j.s
ch
dsp
-2j.s
ch
dsp
-2j.s
ch
FLA
G4
Fro
m M
CU
-2J S
he
et
FLA
G5
(DS
P 1
38
Pin
)(D
SP
19
7P
in)
CN
34
1B
SD
IN_
43
92
C3
58
12
0p
F
C3
59
12
0p
F
C3
62
12
0p
F
C3
63
12
0p
F
C3
66
12
0p
F
C3
67
12
0p
F
C3
70
12
0p
F
C3
71
12
0p
F
5 67
U3
88
B
NJM
20
68
C4
29
10
0n
Fro
m M
CU
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he
et
(CN
38
1B
)
C4
28
10
0u
F/1
0V
C4
27
10
uF
/25
V
C4
26
10
0n
U3
89
78
L0
5A
INO
UT
GN
D
VR
EF
1
VR
EF
2
53
61
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CL
K
RS
T5
36
1
(DS
P_
P2
2)
(DS
P_
P2
01
)
C4
03
6n
8
C4
10
6n
8
D3
81
1N
41
48
D3
83
1N
41
48
D3
82
1N
41
48
D3
84
1N
41
48
+5
VA
D3
85
1N
41
48
D3
87
1N
41
48
D3
86
1N
41
48
D3
88
1N
41
48
+5
VA
D3
89
1N
41
48
D3
91
1N
41
48
D3
90
1N
41
48
D3
92
1N
41
48
+5
VA
D3
93
1N
41
48
D3
95
1N
41
48
D3
94
1N
41
48
D3
96
1N
41
48
+5
VA
DIO
DE
:D
38
1-D
39
6
1 2 3 4
CN
38
1A
WF
4
R4
21
10
k
+3
.3V
D
11
22
33
44
55
66
CN
34
1B
WF
6
FLA
G11
(DS
P 7
6P
in)
FB
38
1
Fe
rrite B
ea
d
C4
07
10
0n
FB
38
1-F
B3
83
FB
:F
B3
82
Fe
rrite B
ea
d
FB
38
3
Fe
rrite B
ea
d
+3
.3V
Fro
m P
an
el-3
J S
he
et
TR
:Q
38
1-Q
38
4
-15
V'
+1
5V
'
+3
.3V
D
C3
50
10
uF
/25
V
C3
51
10
uF
/25
V
C4
00
10
uF
/25
V
C4
01
10
uF
/25
V
Q3
83
2S
C2
87
8
Q3
81
DT
C1
14
ES
Q3
82
DT
A114E
SA
R3
78
10
K
Q3
84
2S
C2
87
8-1
5V
' +5
VA
R3
79
2K
R3
80
2K
Fro
m D
SP
-3C
Sh
ee
t
FLA
G9
No
te: T
he
se
pa
rts d
on
't ne
ed
inse
rt.
On
ly fo
r test.
C3
52
10
uF
/25
V
C1
0D
10
00
PF
C1
0A
10
00
PF
C1
0C
10
00
PF
PS
1 P
ow
er S
tand
Dig
ital S
ignal P
rocessor P
CB
, Rev. J
P/N
: 283364
Sheet 1
of 3
120V
Vers
ion 1
.1 S
yste
ms
87
230V
Vers
ion 1
0. a
nd 1
.1 S
yste
ms
116
12
34
56
A B C D
87
65
43
21
DCBA
R4
26
-R4
66
U4
31
-U4
35
CN
11
2B
-CN
11
3B
CA
P:
RE
S:
IC:
CO
N:
C4
30
-C4
58
C4
36
47
nF
R4
30
75
R
C4
44
10
0p
F
R4
51
22
0R
R4
52
10
0
+3
.3V
D
+3
.3V
D
CO
PY
/C1
TE
ST
2
EM
PH
*3
SF
MT
04
SF
MT
15
VD
6
TE
ST
7
TE
ST
8
RS
T*
9
AP
MS
10
TC
BLD
11
ILR
CK
12
IBIC
K1
3
SD
IN1
4
OR
IG2
8
TE
ST
27
TX
P2
6
TX
N2
5
H/S
*2
4
VL
23
DG
ND
22
OM
CK
21
TE
ST
20
AU
DIO
*1
9
U1
8
V1
7
CE
N1
6
TC
BL
15
U4
35
CS
84
06
RX
P3
1
RX
P2
2
RX
P1
3
RX
P0
4
RX
N5
VA
+6
AG
ND
7
FIL
T8
RS
T*
9
RX
SE
L1
10
RX
SE
L0
11
TX
SE
L1
12
TX
SE
L0
13
NV
/RE
RR
14
OLR
CK
28
OB
ICK
27
SD
OU
T2
6
OM
CK
25
RM
CK
24
VD
+2
3
DG
ND
22
VL
+2
1
TX
20
C1
9
U1
8
RC
BL
17
96
KH
Z1
6
AU
DIO
*1
5
U4
31
CS
84
16
84
16
_L
RC
K8
41
6_
BIC
K
84
06
_L
RC
K8
40
6_
BIC
K
+3
.3V
D
R4
31
3K
C4
31
22
n
C4
32
1n
RS
T8
41
6
84
16
_A
UD
IO
C4
38
10
0n
C4
40
1n
RS
T8
40
6
R4
39
4k7
R4
36
47
k
R4
35
47
k
+3
.3V
D+
3.3
VD
+3
.3V
D
R4
33
47
k
R4
34
47
k
R4
37
47
k
R4
38
47
k
+3
.3V
D
R4
59
47
k
+3
.3V
DC4
47
10
0n
84
06
_V
84
06
_C
EN
+3
.3V
D
C4
49
10
0n
R4
62
47
k
+3
.3V
D
84
06
_T
XP
84
06
_T
CB
LD
R4
61
47
K
GND4
OE
1
VD
D8
OU
T5
XT
AL
43
11
2.2
88
MH
z
C4
42
10
uF
/25
VC
44
31
00
n
+3
.3V
D
R4
50
10
K
+3
.3V
D
SD
IN_
84
06
SD
OU
T_
84
16
12
CN
11
2B
WF
2
12
CN
11
3B
WF
2
C4
37
10
0P
F
DA
TA
_IN
C4
45
10
0p
F
C4
46
10
0p
F DA
TA
_O
UT
C4
48
10
uF
/25
VC
45
0
10
uF
/25
V
C4
35
10
uF
/25
V
C4
39
10
uF
/25
V
R4
60
47
K
R4
63
47
K+
3.3
VD
(DS
P_
13
8P
in)
(DS
P_
80
Pin
)
(DS
P_
13
7P
in)(D
SP
_2
3P
in)
FB
43
1
Fe
rrite B
ea
d
C4
33
10
0n
Fro
m P
an
el-2
J S
he
et
(CN
11
2A
)
Fro
m P
an
el-2
J S
he
et
(CN
11
3A
)
FB
43
1-F
B4
32
TR
AN
:
FB
:
T4
31
-T4
32
XT
AL:
XT
AL
43
1-X
TA
L4
31
C4
51
10
0n
C4
53
10
0n
C4
34
10
n
84
06
_M
CL
K
456
U4
32
B
74
LV
32
9
10
8
U4
32
C
74
LV
32
12
13
11
U4
32
D
74
LV
32
7 14
U4
32
E
74
LV
32
123
U4
32
A
74
LV
32
DS
P_
BIC
K
DS
P_
LR
CK
53
61
_L
RC
K_
S
53
61
_B
ICK
_S
43
92
_B
ICK
43
92
_L
RC
K
84
06
_L
RC
K 84
06
_B
ICK
53
61
_L
RC
K_
M
53
61
_B
ICK
_MM
CL
K_
SY
S5
36
1_
MC
LK
43
92
_M
CL
K
84
06
_M
CL
K
A0
2
A1
3
A2
4
A3
5
A4
6
A5
7
A6
8
A7
9
E1
9
DIR
1
B7
11
B6
12
B5
13
B4
14
B3
15
B2
16
B1
17
B0
18
Vcc20
GND10
U4
33
74
LV
24
5
(DS
P_
P5
)
(DS
P_
P7
)(D
SP
_P
8)
(DS
P_
P1
9)
(DS
P_
P1
8)
C4
54
1n
C4
30
1n
FB
43
2F
errite
Be
ad
C4
55
10
n
C4
56
10
0p
FC
45
71
00
pF
R4
32
75
R
D4
31
1N
41
48
D4
32
1N
41
48
R4
66
15
0R
R4
65
15
0R
R4
64
15
0R
R4
26
15
0R
R4
27
15
0R
R4
28
15
0R
R4
29
15
0R
R4
53
15
0R
R4
54
15
0R
R4
55
15
0R
R4
56
15
0R
R4
57
15
0R
R4
58
15
0R
D4
31
-D4
32
DIO
DE
:
SG
43
1-S
G4
32
SP
AR
K G
AP
:
C4
41
10
0n
18
45
T4
32
1:1
XF
MR
18
45
T4
31
1:1
XF
MR
G1
L1
0A
10
uH
87
PS
1 P
ow
er S
tand
Dig
ital S
ignal P
rocessor P
CB
, Rev. J
P/N
: 283364
Sheet 2
of 3
120V
Vers
ion 1
.1 S
yste
ms
230V
Vers
ion 1
0. a
nd 1
.1 S
yste
ms
117
12
34
56
A B C D
87
65
43
21
DCBA
R4
72
-R4
99
U4
61
-U4
63
CA
P:
RE
S:
IC:
C4
60
-C4
99
A0
12
A1
11
A2
10
A3
9
A4
8
A5
7
A6
6
A7
5
A8
27
A9
26
A10
23
A11
25
A12
4
A13
28
A14
29
A15
3
A16
2
A17
30
Q0
13
Q1
14
Q2
15
Q3
17
Q4
18
Q5
19
Q6
20
Q7
21
CE
22
OE
24
VD
D3
2
GN
D1
6
VP
P1
WE
31
U4
62
SS
T2
9L
E0
20
DA
TA
7D
AT
A6
DA
TA
5D
AT
A4
DA
TA
3D
AT
A2
DA
TA
1D
AT
A0
R48310k
R48210k
R48110k
R48010k
R47910k
R47810k
R47710k
R47610k
R47510k
R48410k
R48610k
R48510k
+3
.3V
D
CLK
IN
XT
AL461
30
.0M
Hz
C4
96
30
pF
C4
95
30
pF
R4
98
10
kR
49
71
0k
R4
96
10
k
+3
.3V
D
C4
97
10
0n
+3
.3V
D
FLA
G4
FLA
G5
R4
88
3k3
R4
87
10
k+
3.3
VD
DA
TA
0D
AT
A1
DA
TA
2D
AT
A3
DA
TA
4D
AT
A5
DA
TA
6D
AT
A7
DS
P_
BIC
KD
SP
_LR
CK
RS
T8
41
6
R4
89
10
k
RS
T8
40
6R
ST
43
92
RS
T5
36
1
8416_A
UD
IO
SD
OU
T_
53
61
SS
DO
UT
_5
36
1M
SD
IN_
43
92
SD
IN_
84
06
SD
OU
T_
84
16
C4
61
10
0n
+3
.3V
D
+3
.3V
D
VDD1
VDD9
VDD20
VDD21
VDD29
VDD32
VDD36
VDD45
VDD54
VDD61
VDD66
VDD67
VDD77
VDD85
VDD93
VDD95
VDD105
VDD110
VDD120
VDD124
VDD130
VDD131
VDD140
VDD141
VDD156
VDD158
VDD163
VDD172
VDD176
VDD182
VDD191
VDD192
VDD200
GND3
GND10
GND14
GND25
GND33
GND35
GND41
GND49
GND57
GND60
GND68
GND72
GND73
GND81
GND89
GND94
GND99
GND106
GND114
GND119
GND125
GND129
GND135
GND139
GND150
GND154
GND155
GND159
GND167
GND168
GND177
GND181
GND186
GND187
GND196
GND204
DA
TA
08
2
DA
TA
18
3
DA
TA
28
4
DA
TA
38
6
DA
TA
48
7
DA
TA
58
8
DA
TA
69
0
DA
TA
79
1
DA
TA
89
2
DA
TA
99
6
DA
TA
10
97
DA
TA
11
98
DA
TA
12
10
0
DA
TA
13
10
1
DA
TA
14
10
4
DA
TA
15
10
7
DA
TA
16
10
8
DA
TA
17
10
9
DA
TA
18
11
1
DA
TA
19
11
2
DA
TA
20
11
3
DA
TA
21
11
6
DA
TA
22
11
7
DA
TA
23
11
8
DA
TA
24
12
1
DA
TA
25
12
2
DA
TA
26
12
3
DA
TA
27
12
6
DA
TA
28
12
7
DA
TA
29
12
8
DA
TA
30
13
2
DA
TA
31
13
3
AD
DR
01
95
AD
DR
11
94
AD
DR
21
93
AD
DR
31
90
AD
DR
41
89
AD
DR
51
88
AD
DR
61
85
AD
DR
71
84
AD
DR
81
83
AD
DR
91
80
AD
DR
10
17
9
AD
DR
11
17
8
AD
DR
12
17
5
AD
DR
13
17
4
AD
DR
14
17
3
AD
DR
15
17
1
AD
DR
16
17
0
AD
DR
17
16
9
AD
DR
18
16
6
AD
DR
19
16
5
AD
DR
20
16
4
AD
DR
21
16
2
AD
DR
22
16
1
AD
DR
23
16
0
RF
S0
2
RF
S1
13
TF
S0
7
TF
S1
18
RC
LK
04
RC
LK
11
5
TC
LK
08
TC
LK
11
9
SD
CLK
03
7
SD
CLK
13
4
DR
0A
5
DR
0B
6
DR
1A
16
DR
1B
17
DT
0A
11
DT
0B
12
DT
1A
22
DT
1B
23
CLK
IN3
0
XT
AL
31
PW
M_
EV
EN
T1
24
PW
M_
EV
EN
T0
26
BR
12
7
BR
22
8
DM
AR
13
8
DM
AR
23
9
DM
AG
15
0
DM
AG
25
1
HB
R4
0
HB
G5
2
RA
S4
2
CA
S4
3
SD
WE
44
DQ
M4
6
SD
CK
E4
7
CS
55
SB
TS
56
WR
58
RD
59
SW
64
CP
A6
5
RE
DY
63
BS
EL
15
2
SD
A10
48
BM
ST
R5
3
AC
K6
9
MS
07
0
MS
17
1
MS
27
4
MS
37
5
EM
U1
45
TR
ST
14
7
BM
S1
53
RE
SE
T1
57
IRQ
02
05
IRQ
12
06
IRQ
22
07
TD
01
46
TD
11
48
TM
S1
49
TC
K1
51
NC
10
2
NC
10
3
NC
11
5
NC
14
2
NC
20
2
NC
20
3
ID0
14
4
ID1
14
3
FLA
G0
19
7
FLA
G1
19
8
FLA
G2
19
9
FLA
G3
20
1
FLA
G4
13
8
FLA
G5
13
7
FLA
G6
13
6
FLA
G7
13
4
FLA
G8
80
FLA
G9
79
FLA
G10
78
FLA
G11
76
NC
20
8
AN
ALO
G
DE
VIC
ES
AD
SP
- 21065L
GND62
U4
61
DS
P2
10
65
L
(DS
P-2
J S
he
et)
(DS
P-1
J S
he
et)
C4
62
100
n
C4
63
10
0n
C4
64
10
0n
C4
65
10
0n
C4
66
10
0n
C4
67
10
0n
C4
68
10
0n
C4
69
10
0n
C4
70
10
0n
C4
71
10
0n
C4
72
10
0n
C4
73
10
0n
C4
74
10
0n
C4
75
10
0n
C4
76
10
0n
C4
77
10
0n
C4
78
10
0n
C4
79
10
0n
C4
80
10
0n
C4
81
10
0n
C4
82
10
0n
C4
83
10
0n
C4
84
10
0n
C4
85
10
0n
C4
86
10
0n
C4
87
10
0n
C4
88
10
0n
C4
89
10
0n
C4
90
10
0n
C4
91
10
0n
C49
2
10
0n
C4
93
10
0n
C4
98
10
0n
XT
AL461-X
TA
L461
XT
AL:
(DS
P-2
J S
he
et)
(DS
P-2
J S
he
et)
(DS
P-2
J S
he
et)
(DS
P-1
J S
he
et)
(DS
P-1
J S
he
et)
R47410k
(DS
P-2
E S
he
et)
(DS
P-2
E S
he
et)
(DS
P-2
E S
he
et)
(DS
P-1
E S
he
et)
(DS
P-1
E S
he
et)
(DS
P-1
E S
he
et)
(DS
P-1
E S
he
et)
R4
95
47
0R
LE
D461
GR
NLE
D
+3
.3V
D
LE
D461-L
ED
461
LE
D:
R4
99
1M
R4
91
10
k
R4
90
10
k
R4
92
10
kR
49
31
0k
R4
94
10
k
123
U463A
74LV
08
456
U4
63
B
74LV
08
9
10
8
U4
63
C
74LV
08
12
13
11
U4
63
D
74LV
08
7 14
U4
63
E74LV
08
8416_B
ICK
+3
.3V
D
8416_LR
CK
(DS
P-2
J S
he
et)
(DS
P-2
J S
he
et)
RS
T(D
SP
-1E
Sh
ee
t)
FLA
G11
(DS
P-1
E S
he
et)
R4
73
10
kR
47
21
0k
+3
.3V
D
(DS
P-1
E S
he
et)
FLA
G9
C4
99
10
uF
/25
V
C4
60
4u
7/1
6V
87
PS
1 P
ow
er S
tand
Dig
ital S
ignal P
rocessor P
CB
, Rev. J
P/N
: 283364
Sheet 3
of 3
120V
Vers
ion 1
.1 S
yste
ms
230V
Vers
ion 1
0. a
nd 1
.1 S
yste
ms
118
12
34
5
A B C D
65
43
21
DCBA
6
R8
86
47
K
R8
87
47
KR
88
8
10
K
R8
91
10
K
R8
89
47
K
R8
90
10
KD
811
1N
41
48
D8
12
1N
41
48
D8
10
1N
41
48
Q8
07
KTA
15
04
Y
Q8
06
KT
C3
87
5Y
C9
61
10
uF
/25
V
R8
81
47
K
R8
80
47
K
R8
72
47
K
R8
71
47
K
CL
OC
K-1
OU
T-2
OU
T-1
mo
de
-1
MU
ZO
CL
AS
S-D
cla
ss-d
1.s
ch
OU
T-4
mo
de
-2
OU
T-3
CL
OC
K-2
MU
ZO
CL
AS
S-D
cla
ss-d
2.s
chC
LO
CK
-3
mo
de
-3
OU
T-5
OU
T-6
MU
ZO
CL
AS
S-D
cla
ss-d
3.s
ch
VS
SP
VD
DP
R8
82
10
K
R8
85
10
K
R8
83
47
K
R8
84
10
KD
80
81
N4
14
8
D8
09
1N
41
48
D8
07
1N
41
48
Q8
05
KTA
15
04
Y
Q8
04
KT
C3
87
5Y
C9
60
10
uF
/25
VVS
SP
VD
DP
R8
73
10
K
R8
76
10
K
R8
74
47
K
R8
75
10
KD
80
21
N4
14
8
D8
01
1N
41
48
D8
03
1N
41
48
Q8
02
KTA
15
04
Y
Q8
01
KT
C3
87
5Y
C9
56
10
uF
/25
VVS
SP
VD
DP
D8
05
1N
41
48
D8
04
1N
41
48
D8
06
1N
41
48
R8
78
10
K
R8
77
20
K
C9
57
2u
2/5
0V
Q8
03
KT
C3
87
5Y
1 2 3C
N8
12
A
3P
IN
DG
ND
FC
+5
VP
D8
13
1N
41
48
D8
15
1N
41
48
D8
14
1N
41
48
R8
92
10
K
pro
-in1 2
CN
80
3A
CO
N2
PS
1 P
ow
er S
tan
d
Dig
ital A
mp
lifier P
CB
, Re
v. G
P/N
: 27
37
29
Sh
ee
t 1 o
f 4
12
0V
Ve
rsio
n 1
.0 S
yste
ms
119
12
34
56
7
A B C D
87
65
43
21
DCBA
C8
01
1n
FC
81
61
nF
C8
04
22
0n
F
C8
13
22
0n
F
C8
05
22
0n
F
C8
14
22
0n
F
C8
02
10
00
uF
/35
V
C8
11
10
00
uF
/35
V
C8
03
47
uF
/63
V
C8
12
47
uF
/63
V
L8
01
BE
AD
L8
02
BE
AD
VD
DA
VS
SA
VS
SP
VD
DP
L8
03
BE
AD
L8
04
BE
AD
SW
ITC
H1
1
SW
ITC
H2
17
RE
LE
AS
E1
2
DIA
GN
OS
E3
EN
AB
LE
14
VD
D1
5
BO
OO
T1
6
OU
T1
7
VS
S1
8
VS
TA
B1
9
VS
S2
10
OU
T2
11
BO
OT
21
2
VD
D2
13
EN
AB
LE
21
4
PO
WE
R U
P1
5
RE
LE
AS
E2
16
U8
02
TD
A8
92
7J/N
1E
SW
ITC
H1
1
SW
ITC
H2
17
RE
LE
AS
E1
2
DIA
GN
OS
E3
EN
AB
LE
14
VD
D1
5
BO
OO
T1
6
OU
T1
7
VS
S1
8
VS
TA
B1
9
VS
S2
10
OU
T2
11
BO
OT
21
2
VD
D2
13
EN
AB
LE
21
4
PO
WE
R U
P1
5
RE
LE
AS
E2
16
U8
01
TD
A8
92
7J/N
1E
VS
S1
1
SG
D1
2
VD
D1
3
IN1
-4
IN1
+5
MO
DE
6
OS
C7
IN2
+8
IN2
-9
VD
D2
10
SG
D2
11
VS
S2
12
SW
H2
13
RE
L2
14
DIA
T1
5E
NA
21
6P
WM
21
7V
SS
D1
8STA
11
9P
WM
12
0E
NA
12
1D
IAC
22
RE
L1
23
SW
H1
24
U8
03
TD
A8
92
9T
/N1
F
C8
40
22
0n
F
C8
23
22
0n
F
C8
18
22
0n
F
VS
SA
C8
17
47
uF
/63
V
C8
39
47
uF
/63
V
C8
22
47
uF
/63
V
VS
SP
C8
41
22
0n
F
C8
34
56
0pF
C8
45
22
0n
F
C8
10
22
0n
F
C8
42
33
0n
F/6
3V
C8
44
47
uF
/63
V
VS
SP
VS
SP
VS
SA
VD
DP
VS
SP
VD
DP
C8
35
56
0pF
C8
48
56
0pF
C8
49
56
0p
F
C8
46
15
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37
29
She
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12
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12
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73
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76
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56
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PS
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Sheet 1
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230V
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120V
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127
Appendix
PS1 Power Stand Test Cables
Note: In order to be able to properly test the PS1 Power Stand, you will need to make up a few
test cables.
1. Amplifier Output Test Cable:
Parts needed:
1- Neutrik NL4FX Speakon X-Line/4 Pole connector.
4 - Dual banana jacks
2 - 10k ohm, 1/4 Watt resistors
16 or 18 AWG twisted pair wire, 6 feet
18 AWG twisted pair wire, 2 feet
This cable is used to connect the Amp 1 OUT, Amp 2 OUT or Bass/Amp3 OUT jacks to the load
resistors used in the test procedures. The connector used is a Neutrik NL4FX Speakon X-Line /
4 Pole type. This connector has 4 terminals labeled 1+, 1-, 2+ and 2-. Terminals 1+ and 1- are
used to connect to the load resistors. Use 18 or 16 AWG wire for these terminals. Use twisted
pair wires to avoid inducing noise into the cable during use.
The 2+ and 2- terminals will be used to sense the loads connected to the Speakon connector
when used with the Bass/Amp3 OUT jack. This jack automatically senses the load on this jack
to properly tailor the EQ and output level for the connection of one or two bass modules. It does
this by sensing the resistive value across terminals 2+ and 2-. The bass modules have a 10k
ohm resistor across these terminals. When only one bass module is connected, the PS1 sees
the 10k resistance and sets the EQ and output level accordingly. When two bass modules are
connected, it sees 5k and sets the EQ and output level accordingly. For the test cable, you will
use 18 AWG twisted pair wire to a dual banana jack.
It is also useful to have 3 spare banana jacks, one with a short across it and 2 with a 10k Ohm,
1/4 Watt resistor each to simulate a bass module connected to the terminals. The Amp 1 OUT
and Amp 2 OUT jacks to not sense this load.
1+1-
2-2+
Amplifier output
to load resistor
Bass module
sensing output
Neutrik Speakon
4 pole connector
(back shown)
16-18AWG twisted pair wire
18AWG twisted pair wire
Dual banana jack
Dual banana jack
GND
GND
Figure 11. Amplifier Output Test Cable Wiring Diagram
128
PS1 Power Stand Test Cables (continued)
2. XLR Microphone Input Test Cable
Parts needed:
1 - XLR male connector
1 - Dual banana jack
18 AWG shielded twisted pair wire, 6 feet
This cable is used to test the channel 1 and 2 microphone inputs on the PS1 Power Stand.
These input jacks are dual purpose jacks that will accept either XLR or 1/4” TRS phono jack
balanced inputs.
Connect the dual banana jack’s positive (+) connection to pin 2 of the XLR jack. Connect the
dual banana jack negative (-) connection to pin 3 of the XLR jack. Connect the cable shield to
pin 1 of the XLR jack.
3. Line Input 1/4” Phono Jack Test Cable
Parts needed:
1 - Mono 1/4” phono jack
1 - Dual banana jack
18 AWG shielded twisted pair wire, 6 feet
This cable is used to test the channel 1 and 2 line inputs on the PS1 Power Stand.
Connect the dual banana jack’s positive (+) connection to the tip connection of the 1/4” phono
jack. Connect the dual banana jack negative (-) connection to the ring connection of the 1/4”
phono jack.
4. Insert Jack Test Cable
This cable is used to test the channel 1 and 2 insert jacks on the PS1 Power Stand. When you
plug it into the channel 1 or channel 2 insert jack, you will be able to separate the sections of the
electronics. Refer to the PS1 Power Stand block diagram on page 78. The RETURN dual
banana jack will give you the output of the circuitry up to the output of the 2 channel digital
volume control. The SEND dual banana jack will allow you to input a signal to test the circuitry
after the insert jack, which is the input to the
A/D converter and DSP.
Parts needed:
1 - Tip/Ring/Sleeve (stereo) 1/4” phono jack
2 - Dual banana jacks
Shielded stereo cable, 6 feet
For each of the shielded stereo pairs of wires, connect the dual banana jack’s positive (+)
connection to the center conductor. Connect the dual banana jack’s negative (-) connection to
the shield wires. Use an Ohmmeter to determine which of the center conductors is connected to
the ring of the 1/4 inch TRS phono jack. Using a permanent black magic marker, label this dual
banana connector SEND. Determine which of the center conductors is connected to the tip of
the 1/4 inch TRS phono jack. Label this dual banana connector RETURN. The sleeve portion of
the jack is the common ground where the shields are connected.
Appendix
TIP RING SLEEVE
129
Appendix5. L1 Line Array Test Cables
These two cables will allow you to test the upper and lower line array sections without a PS1
power stand. Use these cables for the line array test procedures in this service manual.
Lower Line Array Section Test Cable
Parts needed:
1 - 10 pin Molex male connector, Molex part
number 39-00-0039 (F)
4 - Molex crimp-on pins for above connector,
Molex part number 39-00-0039
1 - dual banana jack
12 feet of 16 or 18AWG twisted pair wire
Cut the 12 foot length of twisted pair wire in half. Strip all of the
wires back about 1/4 inch. Crimp the molex pins onto the wires. The positive (+) side of the
twisted pair wires will go into pins 3 and 8 of the Molex connector. The negative (-) side of the
twisted pair wires will go into pins 4 and 9 of the Molex connector. Connect the wires that go to
pins 3 and 8 of the Molex connector to the positive (+) side of the dual banana jack. Connect
the wires that go to pins 4 and 9 of the Molex connector to the negative (-) side of the dual
banana jack.
Upper Line Array Section Test Cable
Parts needed:
1 - 4 pin Molex male connector, Molex part number 39-01-2041
4 - Molex crimp-on pins for above connector, Molex part number
39-00-0041 (M)
1 - dual banana jack
12 feet of 16 or 18AWG twisted pair wire
Cut the 12 foot length of twisted pair wire in half. Strip all of the wires back
about 1/4 inch. Crimp the molex pins onto the wires. The positive (+) side of the twisted pair
wires will go into pins 2 and 4 of the Molex connector. The negative (-) side of the twisted pair
wires will go into pins 1 and 3 of the Molex connector. Connect the wires that go to pins 2 and 4
of the Molex connector to the positive (+) side of the dual banana jack. Connect the wires that
go to pins 1 and 3 of the Molex connector to the negative (-) side of the dual banana jack.
6. Bass Module Test Cable
Parts needed:
1 - Neutrik Speakon NL4FX connector
1 - dual banana jack
6 feet of 16 or 18AWG twisted pair wire
Strip all of the wires back about 1/4 inch.
Connect the dual banana jack’s positive (+)
connection to the 1+ connection of the
Speakon connector. Connect the dual
banana jack negative (-) connection to the
1- connection of the Speakon connector.
1 2 3 54
6 7 8 9 10
Molex Connector Rear View
Molex Connector
Rear View
1 2
3 4
1+1-
2-2+
Neutrik Speakon
4 pole connector
(back shown)
16-18AWG twisted pair wire
Dual banana jack
GNDBass Module Test Cable
130
PS1 Power Stand Software Update Procedure
Required Equipment:
1- CD player with a S/PDIF digital output (do not use a Bose® Lifestyle® media center)
1- PS1 Power Stand update CD (see the instructions for creating this disc below)
1- S/PDIF video cable, part number 183200, or an audio cable with RCA connectors
1- PS1 Power Stand AC line cord, part number 273790
PS1 Power Stand Update CD Procedure:
• Go to the Bose Technical Service web page at http://intranet.bose.com/tsg (Bose internal
repair centers) or http:serviceops.bose.com (external Bose affiliated repair centers).
• Navigate to the Personal Amplification System web page. The link to it is located on the
Pro Products web page.
• Scroll down the page until you see the table that the link to the PS1 Power Stand software
update is located in. Download the file to your computer’s desktop.
• Using a CD burner and your CD burner software, burn the file onto a blank CD-R or CD-RW
disc. Once this disc is successfully created, label the disc with the revision of the software.
Update Procedure:
• Plug the CD player into an AC mains outlet.
• Connect the S/PDIF cable to the Audio Outputs/Digital jack on the back of the CD player.
• Connect the other end of the S/PDIF cable to the DATA IN jack on the PS1 Power Stand’s input
panel. This jack is located in the middle of the panel. It’s an RCA jack with a white center.
• Connect the PS1 Power Stand’s AC line cord to the AC mains jack on the PS1 input panel.
This jack is located on the right side next to the power switch.
• Connect the other end of the AC line cord to an AC mains outlet.
• Power up the PS1 Power Stand by moving the power switch to the ON position. Wait for the
power LED to light steady green.
• Load the update CD into the CD player. Press the PLAY CD/DVD button on the remote
control. The update process should begin.
• Wait about 5 seconds while the disc is playing. The green power LED on the PS1 Power Stand
should blink rapidly, about 10 times per second. After about 10 seconds, the LED should begin
to blink slower, about twice a second.
• The update process is complete. Power down the PS1 Power Stand. Disconnect the S/PDIF
cable from the DATA IN jack.
• Verify proper operation of the PS1 Power Stand using the test procedures in this service
manual before returning the unit to the customer.
Troubleshooting:
Problems with this update procedure are indicated by the PS1 Power Stand’s power LED.
Typical indicators are:
• LED stays a steady green.
• LED blinks slowly red
In either case, simply repeat the process above. Make sure you wait 5 seconds after power
up of the PS1 Power Stand before playing the update disc. Ensure all of the cables are properly
connected.
Appendix
131
Service Manual Revision History
Date Revision
Level
Description of Change Change Driven
By
Pages
Affected
2/04 00 Document released at revision 00. Service manual
release
All
4/05 01 Added information for non-US versions Non-US product
release
Various
©2005 Bose Corporation
Reference Number 264018-SM Rev. 01Service Manual
Personalized Amplification SystemTM
PS1 Power Stand, R1 Remote Control, L1 Line Array and
B1 Bass Module
US/Canada, European, UK and Australian Versions 1.0 and 1.1
Electronic Copy Only
SPECIFICATIONS AND FEATURES SUBJECT TO CHANGE WITHOUT NOTICE
Bose Corporation
The Mountain
Framingham Massachusetts USA 01701
P/N: 264018-SM Rev. 01 5/2005 (P)
http://serviceops.bose.com
