Hammond XK-5 User manual
SERVICE MANUAL
SUZUKI MUSICAL INST.MFG.CO.,LTD.
MAR.2017
CAUTION !
see safety notice inside
2-25-12, RYOKE, NAKAKU, HAMAMATSU, 430-0852 JAPAN
Great care has been taken in the design and manufacture of this product to assure that no shock hazard exists on any exposed
metal parts. Internal service operations can expose the technician to hazardous line voltages and accidentally cause these
voltages to appear on exposed metal parts during repair or reassembly of product components. To prevent this, work on these
products should only be performed by those who are thoroughly familiar with the precautions necessary when working on this
type of equipment.
To pr otect the user, it is required that all enc losu re p ar ts and safety interlocks be restored to their original condition and the
following tests be performed before returning the product to the owner after any service operation.
Plug the AC line cord directly into a line voltage AC receptacle (do not use an isolation transformer for this test) and turn the
product on. Connect the network (as shown below) in series with all exposed metal parts and a known earth ground such as a
water pipe or conduit. Use an AC Voltmeter of 5,000 ohms per volt or higher sensitivity to measure the voltage drop across the
network. Move the network connection to each exposed metal part (metal chassis, screw heads, knobs and control shafts,
escutcheon, etc.) and measure the voltage drop across the network. Reverse the line plug and repeat the measurements. Any
reading of 4 volts RMS or more is excessive and indicates a potential shock hazard which must be corrected before returning
the product to the user.
SAFETY NOTICE
CAUTION
Danger of explosion if battery is incorrectly replaced. Replace only with the same or equivalent type recommended by the
equipment manufacturer. Discard used batteries according to manufacturer's instructions.
Advarsell
Lithiumbatteri. Eksplosionsfare ved fejlagtig håndering.
Udskiftning må kun ske med batteri as samme fabriket og type.
Lebér det brugte batteri tilbage til leverandoren.
Norge: ADVARSEL
Lithiumbatteri - Eksplosjonsfare.
Ved utskiftning benyttes kun batteri som anbefalt av apparatfabrikanten.
Brukt batteri returneres apparatleverandoren.
Sverige: VARNING
Explosionsfara vid felaktigt batteribyte.
Använd samma batterityp eller et ekvivalent typ som
rekommenderes av apparattillverkaren,
Kassera använt batteri enlig fabrikantens instruktion.
Finland: VAROITUS
Paristo voi räjähtää, jos se on virheeliseeti ansennettu
Vaihda paristo ainoastaan laitevalmistajan suosittelemaan
tyyppoonn, Hävitä käytetty paristo valmistajan ohjeiden mukaisesti.
VOM
AC SCALE
10K
2W
0.01MF
CERAMIC RF
BYPASS CAP
TEST CLIPS
CONNECTED T O KNOWN
EARTH GROUND
TEST
PROBE
TOEXPOSED METAL PARTS
XK-5
-Table of Contents-
1.SPECIFICATIONS
2.BLOCK DIAGRAM
3.TEST AND ADJUSTMENT
4.WIRING CONNECTION
5.WIRING CHART
6.PRINTED WIRING BOARD ASS'Y LIST
7.SCHEMATICS
MGH-106A 1/16~16/16
MXH-40A 1/7~7/7
SWH-536A 1/2,2/2
SWH-537A
SWH-538A 1/2,2/2
CNH-44A
KCH-21A
KCH-22A
KCH-23A
VRH-50A,50B
DB-602C
8.PARTS LIST
9.DISASSEMBLING PROCEDURE
10.TECHNICAL DESCRIPTION
11.INITIALIZATION AND
HOW TO CHECK THE SOFTWARE VERSION
12.TROUBLE SHOOTING
1
2
3-1~3-8
4
5-1 ~ 5-3
6
7-1 ~ 7-16
7-17 ~ 7-23
7-24, 7-25
7-26
7-27, 7-28
7-29
7-30
7-31
7-32
7-33
7-34
8-1 ~ 8-10
9-1~9-4
10-1~10-8
11
12-1~12-4
1.SPECIFICATIONS
Sound Generator
MTW I (Modelled Tone Wheel I)
61 polyphony (for manual)
3 polyphony (for pedal)
Keyboards
73 (61+12 Preset Keys)
Water Fall type
Virtual Murti Contact
Harmonic Drawbars
Drawbars
Upper:2x9 Pitches
Lower:2x9 Pitches
Pedal:2 Pitches
Voicing
Manuals:4 choices (A-100, B-3, C-3, Mellow)
Pedal:4 choices (Normal, Muted, Synth1, Synth2)
Virtual Murti Contact
Touch Response Percussion
Bottons
Percussion On, Third Harmonic, Fast Decay, Volume Soft
Adjustable
Touch, Velocity, Decay (Fast, Slow),Level (Normal, Soft)
Effects
Vibrato and Chorus
Digital Scanner
Tube Pre-Amp
Device: 12AX, 12AU7
Adjustable: Routing, Level
Overdrive
XK-5
Control: On, Depth
Murti Effects
8 programs
Equalizer
Bass, Mid, Treble, Tone
Internal Leslie
Advanced Digital, 2 Rotors
Buttons: Bypass, Stop, Fast
Reverb
Digital, 11 programs
Control: On, Depth
Leslie On Reverb
Master Equalizer
Bass, Mid, Treble
Keymap
Buttons
Pedal To Lower, Split, Transpose, Octave Down,
Adjustable
Coupler Highest note, Split Point
Octave Up, Lower
Patches
Capacity
100 User Patches, 100 Factory Patches, Adjust Preset A#B
Favorites
10 Keys
Patch Load Options
Drawbar Registration, Drawbar Parameters, Intenal Zone,
External Zone, Effects, Reverb
Controllers
Volume
Master Volume
Controllers
Switch
Power On / Off
Storage
USB Flash Drive
Display
20-Characters, 2-Lines
7 Control Buttons and Value knob
MIDI
Templates
5 Templates
Zones
3External Zones (Upper)
2 External Zones (Lower)
1 External Zone (Pedal)
and Keyboard Channels:Upper, Lower, Pedal
Connections
MIDI
In (Pedal), In(Lower / Other), Out
USB
To Host
H-Bus
To Keyboard / Pedal (0.3A max)
Audio
Line Out L / Mono, R, Headphones (Rear, Bottom)
Leslie
11-Pin, 1 and 3 channels available
Others
Leslie Switch, Foot Controller 1, 2, Exp.Pedal, AC Inlet
Dimensions
119 (W), 40 (D), 12( H) cm
46.8” (W), 15.8” (D), 4.7” ( H)
Weight
15.7 kg
34.6 lbs
1
2.BLOCK DIAGRAM
&
4.WIRING CONNECTION
XK-5
XK-5
UPPER DRAWBARS
VRH- 50A LOWER DRAWBARS
VRH-50B
OLED Uni t 20x2
LESLIE 11PIN
EXP-100F
61key 3 contact Keyboard Ass'y
KCH-21A, KCH-22A, KCH-23A
U3
MA I N C P U
24MHz
AC IN
with Powe r OFF Relay
OMRON A8GS-D1385
SWH-536A(1/ 2)
SWH- 537A
SWH- 538A
SWH-536A
(2/2)
RO T ARY
SW
J410
J414
J406 J405
J407
SW&LED
JK1
-15V
VOLUME
SW&LED
POWER SW
SWITCHING POWER SUPPLY
UPPER DRAWBARS
VRH- 50A LOWER DRAWBARS
VRH-50B
V1
VACUUM
TUBE
12AU7
V2
VACUUM
TUBE
12AX7
J401 J404
J402
VOLUME
SW&LED
Rotary Encoder
J408
J409
U2
SUB
CPU
PEDAL
DRAW
BARS
DB- 602C
J411 J413
U7
SUB
CPU
+3.3V
+3.3V
JK2
JK7
JK6
JK4
JK5 JK3
SW2 SW1
J308
J305 J307
J303
J304 J311 J312
J302
J301
J306
EXP-50/EXP-20 FS-9H
MIDI IN 1
MIDI IN 2
MIDI OUT
FOOT CNT 1
IN
FOOT CNT 2
IN
TYPE
SELECT
TYPE
SELECT
HEA DPHO NE
LINE O UT L/MONO
LINE O UT R
100~240V
50/60Hz
MXH-40A MGH-106A
J2
J1
USB A type
HOST
USB B type
DEV ICE
JK3 JK1
U15
DSP
JK2 JK4
mi croSD mi croSD
J7
J501
JK1
JK3
JK2
CNH-44A
HEA DPHO NE
CU-1
to Lower
U19
SUB CPU
U3
CODEC
4IN/8OUT
+30V +12.6V
heater
+3.3V
U26
ELECTRONIC
VOLUME
+13V
Digital Audio Data
(TDM8ch 44.1kHz 24bi t)
U27
ELECTRONIC
VOLUME
U17
DC/ DC
CONVERTER
LT1534
-15V
+15V
U18
DC/DC
CONVERTER
AOZ1905
+13V +30V U20
DC/ DC
CONVERTER
AOZ1905
+16V
Lamp
+16V
Lamp
+15V
+5V
Lamp
GND
AD_LAM P
(EXP-100F INSERT DETECT)
+5V
charge pump
+5V
+5V
+5V +5V
+5V
power off relay coil
+5V 455mA
SPI( SWSCAN),RESET_SWLED
Paralell 8bit(OLED)
SPI(SWSCAN),RESET_SWLED
SPI(KEYSCAN)
I2C(CODEC,VOLUME Control)
U29
OPAMP
NJU7032M
for TUBE BIAS
-15V
U12,13,14,15,16
OPAMP
NJM4580M
U4,5,9,11,23,28
OPAMP
NJM4580M
-15V
+15V
+15V
-15V
+5V
+5V
+5V
+5V
D5
U12
POWER
MANAGEMENT
IC (PMIC)
+4.2V
U4,5,6,7
DDR3 RAM
I2C(DSP Control)
SPI
SPI
+5V
U17
DDR3 RAM
Digital Audio Data
(TDM4ch 44.1kHz 24bi t)
U22
CLOCK
GENE RATOR
25MHz
U23, 24, 26, 27, 28,29,30
Power Management Circuit +5V
U11
FRAM
U20
Serial
Flas h
ROM
Digital Audio Data
(TDM8ch 44.1kHz 24bit)
1.1V,1.0V,1.8V,
1.5V,0.75V
+3.3V
5V,1.375V,2.8V,
1.8V,3.3V,
1.5V,0.75V
+3.3V
+5V
U25
SUB CPU
SPI(SWSCAN)
SPI(KEYSCAN)
I2C(CODEC,VOLUME Control)
GPIO(see signal list)
UART1,2,4
Paralell 8bit(OLED)
UART1,2,4
GPIO(see signal list) SPI(SWSCAN)
Paralell 8bit (OLED )
SPI(SWSCAN)
RE SE T_ S WL E D
Paralell 8bit(OLED)
UART2,4
UART1
U30,Q6,Q10
POWER ON/OFF
Pop Noise Mut e
Circu it
+5V
5V_SENS
OMRON S8E X-N030 05
30W/5V
5V,3.3V,1.8V
+3.3V,+1.8V
PERIPHERAL MOTH ER
RIGHT PANEL
END BLOCK
LEFT PANEL
U7,10
OPAMP
OPA1662AIDGK
+15V
-15V
+13V
U32
REG.
+5V
+13V
+3.3V
+3.3V
J314
signals for emulator
J6
signals for emulator
MI DI
I/F
Level
sh if t
+3.3V
+1.8V
RL2,5
Pho tMO S
Relay
RL1
Pho tMO S
Relay
RL3,4
Pho tMO S
Relay
MUTE_RELA Y
MUTE_RELA Y
MUTE_RELA Y
MUTE_RELA Y
Q11,12
Power ON/OFF
Pop Noise Mute
Circuit
WR-HZ185-A
WR-HZ185-B
WR-HZ185-C
WR-HZ185-D
WR-HZ185-E
WR-HZ185-F
WR-HZ185-G
WR-HZ185-H
WR-HZ185-J
WR-HZ185-K
WR-HZ185-K
WR-HZ185-L
WR-HZ185-L
WR-DB602C-A
F16D700
WR-XK3-S
FFC20B190 FFC20B190
FFC20A50
POWER ON
SEQUENCE
DC/DC CONVERT ER
REG UL AT OR
LOAD SWITCH
Co n tr ol & G en e rat e
i.MX6
ARM A9
1GHz
Quad
C6657
1GHz
Dual
3.3V,1.8V
KEYSCAN
JACK INSERT DETECT
GPIO signal list
name description
RESET_KEY reset for sub CPU(keyscan)
RESET_SWLED reset for sub CPU(swscan)
RESET_LK reset for sub CPU(XLK-5)
POWER_OFF power sw remote off
SLOW leslie control(slow)
FAST leslie control(fast)
MUTE audio mute when turn on/off power
MUTE
SLOW
FA S T Q5
driver
POWER_OFF
Q1,2,4
driver
LESLIE_DETECT
Q3
+3.3V
+3.3V
LES LIE_D ETEC T
AD_LAM P
+3.3V
JACK INSERT DETECT
RESET
AD_EXP100
AD_FOOT1,2
AD_FOOT1,2
RESET
RESET _KEY
+16V
Lamp
Level
sh if t
+5V +3.3V
bus
SW
SPI
SPI(DSP
soft ware update)
SPI (clock ge n
c on tr ol)
I2C(PMIC Control)
I2C(PMIC Control)
U34
lo a d
SW
+3.3V
+1.5V
+3.3V
Level
sh if t
+5V
RESET _L K
+10.5V
3. TEST AND ADJUSTMENT
1 Operation and display check
1. Power on with pressing✞
✝
☎
✆
OVERDRIVE ✞
✝
☎
✆
EFF ✞
✝
☎
✆
REVERB buttons at the same time.
Keep pressing them until the following screen appears.
2. Operate the SW, drawbar, knob and preset key and check if the variation of the value is
properly.
•SW: While pressing, the name of SW is displayed on the OLED. Lighting the LED
if there is the corresponding LED.
•VIBRATO SW: The corresponding LED is lighted when switching it.
•Drawbar: The screen is switched and drawbar display is changed.
*A# and B are displayed on the same position
•Knob: The value is increased when turning it CW, and decreased when turning CCW
(0 - 127).
*The value knob is required to check the operation of increase and decrease, and not
necessary to check the value to 127.
3-1
•Preset key: The corresponding LED is lighted.
3. After checking all of above, turn offthe power.
*The state of the preset key will not be stored.
2 standard value list
Refer to the next page.
3-2
2. STANDARD VALUE LIST
SETTING
SETTINGSETTING
SETTING
1--1
a
AC Power Supply
100V, 120V, 220-230V, 230-240V
AC LINE
see below.
b
DC Power Supply
+5V
MXH-40A J308 3,4pin
DC +5V ±5%
c
+15V
MXH-40A F1
DC +15V ±5%
d
-15V
MXH-40A F2
DC -15V ±5%
e +16V_LAMP
MXH-40A JP10
terminals close toF6
DC +16.2V ±5%
f +13V
MXH-40A R356
terminals close to R270
DC +12.25V ±5%
g
+30V
MXH-40A C360 +
DC +33V ±15%
MasterVR max,EQ All center,Overdrive,Effect,Reverb Off,BYPASS ON,
TUBE ROUTING : "BYPASS"
1--2
a
LINE OUT PEDAL
PED DRAWBAR 16' MAX MANUAL BASS ON
C2
LINE OUT L JACK
580±60mVrms
b
LINE OUT L-LF
UM DRAWBAR 16' MAX
LINE OUT L JACK
150±15mVrms
c
R-LF
R JACK
150±15mVrms
d
L-HF
UM DRAWBAR 2' MAX
C5
L JACK
64±6
mVrms
e
R-HF
R JACK
64±6
mVrms
1--3
a
LESLIE 11pin ROT
UM DRAWBAR 2' MAX BYPASS OFF
C5
11pin-
①
pin
155 ± 15
mVrms
b
ROT
UM DRAWBAR 16' MAX
C2
11pin-
①
pin
580 ± 60
mVrms
c
STA-L
LES1ch-->3ch BYPASS ON
11pin-
②
pin
580 ± 60
mVrms
see below.
d
STA-R
11pin-
③
pin
580 ± 60
mVrms
1--4 a TUBE BIAS Adjustment
MXH-40A
VR1,3,4,5
necessary when exchanging
TUBE. see section 3.2
b TUBE Level Adjustment in software
necessary when exchanging
MXH-40A or MGH-106A.
see section 3.3
1--5
a
NOISE LINE OUT L
OFF
LINE OUT L
JACK
150 uV max (IEC"A"net)
b
LINE OUT R
R JACK
150 uV max (IEC"A"net)
c
11P ROT
11pin-
①
pin
200 uV max (IEC"A"net)
d
11P STA-L
11pin-
②
pin
200 uV max (IEC"A"net)
e
11P STA-R
11pin-
③
pin
200 uV max (IEC"A"net)
f
TUBE NOISE
TUBE ROUTING : "X7toU7"
LINE OUT L
JACK
250 uV max (IEC"A"net)
see below.
1-1a details VOLTAGE AC CURRENT(rms)
AC CURRENT(AC
Average Rectified Multimeter
100V
388mA±5
233mA±5
120V
335mA±5
195mA±5
230V
199mA±5
113mA±5
240V
195mA±5
110mA±5
*Displaying in general tester
multimeter
(using an rectified average value)
3-3
1--5f details: Set the ROUTING of TUBE to “X7toU7”.
(Press in the order corresponding to
([MENU/EXIT]→[▲]twice→[ENTER])
To continue to press [→] twice, and press [RECORD]+[→],
and then press [→] until displaying TUBE CALB3 screen.
(See the right photo)
Set the NOISE GATE to OFF.
*After the operation, set the NOISE GATE to ON.
1--3c details:For setting the Leslie ch to 3ch,hold down [BYPASS] or [STOP] or [FAST] button for a while and
display the cabinet number screen.
Press[▲]six times, display the Leslie channel screen and set the CH to “3”.
STEP SPECIFICATION
SPECIFICATIONSPECIFICATION
SPECIFICATION NOTE
NOTENOTE
NOTE
SUBJECT
SUBJECT SUBJECT
SUBJECT TEST POINT
TEST POINTTEST POINT
TEST POINT
ADJUSTMENT POINT
ADJUSTMENT POINTADJUSTMENT POINT
ADJUSTMENT POINT
PLAY KEYS
PLAY KEYSPLAY KEYS
PLAY KEYS
3 Adjustment method of the vacuum tube
It is required bias and level adjustment when the vacuum tube is exchanged.
The parameters of the vacuum tube level adjustment is stored in MGH-106A, so when MXH-
40A, which is already adjusted the bias, is exchanged, MGH-106A is required to adjust the level
as MGH-106A is set accordance with MXH-40A.
3.1 3.1 Description of the adjustment screen
The method for calling screen is described in each adjusting method.
3.1.1 TUBE CALB1
For adjusting SEND/RETURN level mainly.
Parameter name Contents Value Description of value
BYP Output setting OF Vacuum tube circuit selected by SEL
ON Bypass (not passing through the vacuum
tube circuit)
SEL Channel selection
T1U 12AU7 1
T1X 12AX7 1
T2U 12AU7 2
T2X 12AX7 2
SEN Send Level 0127
RET Return Level 0127
3.1.2 TUBE CALB2
For setting the test output waveform
Parameter name Contents Value Description of value
SEL Channel selection
T1U 12AU7 1
T1X 12AX7 1
T2U 12AU7 2
T2X 12AX7 2
LEVEL Test waveform level 0127
3-4
3.2 Bias adjustment
Adjust for trimmer potentiometers of MXH-40A
3.2.1 Preparations
1. Remove the expression pedal or set expression value to the maximum.
2. Turn offOVERDRIVE, EFFECT and UPPER VIBRATO.
3. To enable adjusting VR1,4,5 of MXH-40A by screw driver.
4. Minimize the VR2.
5. Power on and leave it for more than five minutes.
6. Enter to AMP/EFF TUBE screen from MENU.Then press ✄
✂
'
✁
◃button and enter to the
right end item.
7. Press ✄
✂
'
✁
◃button while pressing ✞
✝
☎
✆
RECORD button and enter to TUBE CALB1 screen.
Test sine wave is outputted.
8. Press ✄
✂
'
✁
◃button again and enter to TUBE CALB2 screen.
3-5
3.2.2 Adjustment and measurement point
3.2.3 Notes for operation of trimmer potentiometers
•Use flathead screwdriver which is fit to the hole shown in the figure.
(If Philips screwdriver is used, there is in danger of crushing the screw thread)
•The rotary angle is 240 degrees, so do not turn it more than that with force.
3.2.4 V1 12AU7
Set LEVEL to 0 on TUBE CALB2 screen and make the output of the test sine wave silent.
Measure the DC voltage of the vacuum tube side of C156 (T1U out) and C165 (T2U out) by
multimeter or the like, and adjust VR1 to set the both of the value around +15V (13V-16V).
The voltage is reduced when turning VR1 to the right.
3-6
3.2.5 V2 12AX7(If you have an oscilloscope)
Set LEVEL around 20 on TUBE CALB2 screen.
1. Set the SEL item to T1X.
2. Observe the vacuum tube side of C176 (T1X out) with the oscilloscope and adjust VR4
to make the upper and lower part of the waveform saturated uniformly.
VR4 Left ⇐⇒ Right
State The upper part of the
waveform is saturated
Appropriate The lower part of the
waveform is saturated
waveform
Note that there is a time lag changing from turning to change.
3. Set the SEL item to T2X.
4. Observe the vacuum tube side of C186 (T2X out) with oscilloscope and adjust VR5 to
make the upper and lower part of the waveform saturated uniformly.
Note the time lag as well.
3.2.6 V2 12AX7(If you do not have an oscilloscope)
1. Set the SEL item to T2X on TUBE CALB2 screen.
2. Adjust VR4 and make it to the most beautiful sound when you hear and feel(less overtone
to hear and close to sine wave).
3. Set the SEL item to T2X
4. Adjust VR5 and make it to the most beautiful sound when you hear and feel.
3-7
3.3 Level adjustment
Adjust the software parameter. The measured adjusted value is stored to the memory of MGH-
106A.
3.3.1 Environment measurement
For measuring the output of LINE OUT L, prepare one of the following environments.
•The mixer with level meter
•Connect the phone plug to the input of the multimeter or the AC voltmeter
*The measurement error tolerance of the AC voltmeter is under 0.01V when measuring
the AC voltage 0.5V.
3.3.2 Preparation
1. Remove the expression pedal or set expression value to the maximum value.
2. 2. Turn offOVERDRIVE, EFFECT and UPPER VIBRATO.
3. 3. If LEVEL on TUBE CALB2 screen is changed at bias adjustment, reset it to 5.
4. 4. Press ✄
✂
'
✁
▹button and enter to TUBE CALB1 screen.
3.3.3 Adjustment
1. Set SEL to 12AU7 1.
2. Set the SEN (SEND) value to 100.
3. Set BYP to ON and adjust MASTER VOLUME or the mixer volume to make the level
easy to understand as the reference.
4. Set BYP to OFF and adjust RET value to make it to the same level as it is ON.
5. For the other channels, adjust the RET value to make it to the same level.
For the SEN value, set to 100 for 12AU7 and set to 80 for 12AX7.
6. Press ✄
✂
'
✁
▹button until exiting TUBE CALB1 screen and finish the adjustment.
*The adjusted value of SEN/RET is stored even when the power is turned off.
3-8
5.WIRING CHART XK-5
PLUG FROM TO PLUG WIRE TO PWB
No. PIN No. & PIN No.
COLOR
NAME
PLUG FROM TO PLUG WIRE TO PWB
J401 3 J303-3 WHT MXH-40A SPI_SCK
No. PIN No. & PIN No.
COLOR
NAME 4-4 WHT SPI_MOSI
J1 J302 MXH-40A 5-5 WHT SPI_MISO
J2 J301 MXH-40A 6-6 WHT CS1
J6 U25 MGH-106A +3.3V 7-7 WHT CS0
J7 1 3 YEL SW POWER SUPPLY +5V 8-8 BLK GND
2NC J402 1 J411-1 RED SWH-538A +3.3V
3 1 BLK SW POWER SUPPLY +V 2-2 WHT RESET
3-3 WHT SPI_SCK
4-4 WHT SPI_MOSI
J301 J2 MGH-106A 5-5 WHT SPI_MISO
J302 J1 MGH-106A 6-6 WHT CS1
J303 1 J401-1 RED SWH-536A +3.3V 7-7 BLK GND
2-2 WHT RESET J404 1 J901-1 BLK VRH-50A GND
3-3 WHT SPI_SCK 2WHT 4'
4-4 WHT SPI_MOSI 3WHT 2'
5-5 WHT SPI_MISO 4WHT 1'
6-6 WHT CS1 5WHT 13/5'
7-7 WHT CS0 6WHT 8'
8-8 BLK GND 7WHT 16'
J304 1 J501-1 WHT CNH-44A HP_L 8WHT 11/3'
2-2 WHT HP_R 9WHT 22/3'
3-3 BLK HP_GND 10 WHT 51/3'
4-4 BLK AGND 11 RED +Vcc
5NC J405 1 J901-1 BLK VRH-50A GND
6NC 2 2 WHT 4'
7 J501-7 YEL CNH-44A +5V 3 3 WHT 2'
8-8 WHT XLR_DownStream 4 4 WHT 1'
9-9 WHT XLR_UpStream 5 5 WHT 13/5'
10 -10 WHT CU-1 TIP 6 6 WHT 8'
11 -11 WHT CU-1 RING 7 7 WHT 16'
12 -12 BLK DGND 8 8 WHT 11/3'
J305 1 11Pin-1 BRN LESLIE 11Pin ROTARY 9 9 WHT 22/3'
2-2 RED STATL 10 10 WHT 51/3'
3-3 ORG STATR 11 11 RED +Vcc
4-4 BLK AGND J406 1 1 BLK DB-602C GND
5-5 BLK CTL-GND 2 2 BRN 8'
6-6 BLU POWER ON 3 3 RED 16'
7-7 VIO FAST 4 4 YEL +Vcc
8-8 GRY SLOW J407 1 J410-1 WHT SWH-537A COMMON_0
9NC 2-2 WHT COMMON_1
10 NC 3-3 WHT COMMON_2
11 11Pin-9 WHT LESLIE 11Pin +B 4-4 WHT COMMON_3
J306 OLED UNIT 20x2 5-5 WHT COMMON_4
J307 1 1 RED POWER SW RESET- 6-6 WHT COMMON_5
2 2 BLK POWER SW RESET+ 7-7 WHT SWDATA_2
3NC 8-8 WHT SWDATA_3
J308 1 1 BLK SW POWER SUPPLY -V 9-9 WHT SWDATA_4
2NC 10 -10 WHT LEDDATA_5
3NC 11 -11 WHT LEDDATA_6
4 4 YEL SW POWER SUPPLY +V 12 -12 WHT LEDDATA_7
J311 J804 KCH-22A 13 -13 BLK FG
J312 J805 KCH-22A J408 1 J409-1 RED SWH-536A +3.3V
J314 U19 MXH-40A 2-2 WHT V/C POSITION
3-3 BLK GND
J409 1 J408-1 RED SWH-536A +3.3V
J401 1 J303-1 RED MXH-40A +3.3V 2-2 WHT V/C POSITION
2-2 WHT MXH-40A RESET 3-3 BLK GND
PANEL SW-L
SWH-536A
FUNCTION
5-1
MAIN
MGH-106A
FUNCTION
PERIPHERAL
MXH-40A
XK-5
PLUG FROM TO PLUG WIRE TO PWB
No. PIN No. & PIN No.
COLOR
NAME
PLUG FROM TO PLUG WIRE TO PWB
J501 11 J304-11 WHT MXH-40A CU-1 RING
No. PIN No. & PIN No.
COLOR
NAME 12 J304-12 BLK MXH-40A DGND
J410 1 J410-1 WHT SWH-536A COMMON_0
2-2 WHT COMMON_1
3-3 WHT COMMON_2 J801 J802 WHT KCH-22A
4-4 WHT COMMON_3
5-5 WHT COMMON_4
6-6 WHT COMMON_5 J802 J801 WHT KCH-21A
7-7 WHT SWDATA_2 J803 J806 WHT KCH-23A
8-8 WHT SWDATA_3 J804 J311 WHT MXH-40A
9-9 WHT SWDATA_4 J805 J312 WHT MXH-40A
10 -10 WHT LEDDATA_5
11 -11 WHT LEDDATA_6
12 -12 WHT LEDDATA_7 J806 J803 KCH-22A
13 -13 BLK FG
J901 1 J404-1 BLK SWH-536A GND
J411 1 J402-1 RED SWH-536A +3.3V 2-2 WHT 4'
2-2 WHT RESET 3-3 WHT 2'
3-3 WHT SPI_SCK 4-4 WHT 1'
4-4 WHT SPI_MOSI 5-5 WHT 1 3/5'
5-5 WHT SPI_MISO 6-6 WHT 8'
6-6 WHT CS1 7-7 WHT 16'
7-7 BLK GND 8-8 WHT 1 1/3'
J413 1 J902-1 BLK VRH-50B GND 9-9 WHT 2 2/3'
2-2 WHT 4' 10 -10 WHT 5 1/3'
3-3 WHT 2' 11 -11 RED +Vcc
4-4 WHT 1'
5-5 WHT 1 3/5'
6-6 WHT 8' J901 1 J405-1 BLK SWH-536A GND
7-7 WHT 16' 2-2 WHT 4'
8-8 WHT 1 1/3' 3-3 WHT 2'
9-9 WHT 2 2/3' 4-4 WHT 1'
10 -10 WHT 5 1/3' 5-5 WHT 1 3/5'
11 -11 RED +Vcc 6-6 WHT 8'
J414 1 J902-1 BLK VRH-50B GND 7-7 WHT 16'
2-2 WHT 4' 8-8 WHT 1 1/3'
3-3 WHT 2' 9-9 WHT 2 2/3'
4-4 WHT 1' 10 -10 WHT 5 1/3'
5-5 WHT 1 3/5' 11 -11 RED +Vcc
6-6 WHT 8'
7-7 WHT 16'
8-8 WHT 1 1/3' J902 1 J413-1 BLK SWH-538A GND
9-9 WHT 2 2/3' 2-2 WHT 4'
10 -10 WHT 5 1/3' 3-3 WHT 2'
11 -11 RED +Vcc 4-4 WHT 1'
5-5 WHT 1 3/5'
6-6 WHT 8'
J501 1 J304-1 WHT MXH-40A HP_L 7-7 WHT 16'
2-2 WHT HP_R 8-8 WHT 1 1/3'
3-3 BLK HP_GND 9-9 WHT 2 2/3'
4-4 BLK AGND 10 -10 WHT 5 1/3'
5NC 11 -11 RED +Vcc
6NC
7 J304-7 YEL MXH-40A +5V
8-8 WHT XLR_DownStream J902 1 J414-1 BLK SWH-538A GND
9-9 WHT XLR_UpStream 2-2 WHT 4'
10 -10 WHT CU-1 TIP 3-3 WHT 2'
DRAWBAR (MANUAL-LOWER-R)
VRH-50B
DRAWBAR (MANUAL-UPPER-R)
VRH-50A
DRAWBAR (MANUAL-LOWER-L)
VRH-50B
FUNCTION
PRESET KEY CONTACT
KCH-21A
PANEL SW-R
SWH-538A
JACK
CNH-44A
ENDBLOCK L SW
SWH-537A
5-2
FUNCTION
32KEY CONTACT
KCH-22A
KCH-23A
29KEY CONTACT
DRAWBAR (MANUAL-UPPER-L)
VRH-50A
XK-5
PLUG FROM TO PLUG WIRE TO PWB
No. PIN No. & PIN No.
COLOR
NAME
J902 4 J414-4 WHT SWH-538A 1'
5-5 WHT 1 3/5'
6-6 WHT 8'
7-7 WHT 16'
8-8 WHT 1 1/3'
9-9 WHT 2 2/3'
10 -10 WHT 5 1/3'
11 -11 RED +Vcc
1 J406-1 BLK DB-602C GND
2 2 BRN 8'
3 3 RED 16'
4 4 YEL +Vcc
5-3
DRAWBAR (PEDAL)
DB-602C
FUNCTION
DRAWBAR (MANUAL-LOWER-R)
VRH-50B
6.PRINTED WIRING BOARD ASS'Y LIST XK-5
FUNCTION PWB.NAME PART No.
MAIN MGH-106A 00228-26241
PERIPHERAL MXH-40A 00230-07231
PANEL SW - L SWH-536A 00225-45276
ENDBLOCK L SW SWH-537A 00225-45286
PANEL SW - R SWH-538A 00225-45301
JACK CNH-44A 00225-45266
PRESET KEY CONTACT KCH-21A 00229-23201
32KEY CONTACT KCH-22A 00229-23211
29KEY CONTACT KCH-23A 00229-23221
DRAWBAR(MANUAL-L) VRH-50A 00225-46211
DRAWBAR(MANUAL-R) VRH-50B 00225-46212
DRAWBAR(PEDAL) DB-602C 00278-51009
-6-
VDDARM_IN_1
H14
VDDARM_IN_2
J14
VDDARM_IN_3
K14
VDDARM_IN_4
L14
VDDARM_IN_5
M14
VDDARM_IN_6
N14
VDDARM_IN_7
P14
VDDARM_IN_8
R14
VDDARM_CAP_1 H13
VDDARM_CAP_2 J13
VDDARM_CAP_3 K13
VDDARM_CAP_4 L13
VDDARM_CAP_5 M13
VDDARM_CAP_6 N13
VDDARM_CAP_7 P13
VDDARM_CAP_8 R13
VDDARM23_CAP_1 H11
VDDARM23_CAP_2 J11
VDDARM23_CAP_3 K11
VDDARM23_CAP_4 L11
VDDARM23_CAP_5 M11
VDDARM23_CAP_6 N11
VDDARM23_CAP_7 P11
VDDARM23_CAP_8 R11
VDDARM23_IN_1
K9
VDDARM23_IN_2
L9
VDDARM23_IN_3
M9
VDDARM23_IN_4
N9
VDDARM23_IN_5
P9
VDDARM23_IN_6
R9
VDDARM23_IN_7
T9
VDDARM23_IN_8
U9
VDDSOC_CAP_1 R10
VDDSOC_CAP_2 T10
VDDSOC_CAP_3 T13
VDDSOC_CAP_4 T14
VDDSOC_CAP_5 U10
VDDSOC_CAP_6 U13
VDDSOC_CAP_7 U14
VDDPU_CAP_1 H17
VDDPU_CAP_2 J17
VDDPU_CAP_3 K17
VDDPU_CAP_4 L17
VDDPU_CAP_5 M17
VDDPU_CAP_6 N17
VDDPU_CAP_7 P17
VDDSOC_IN_1
H16
VDDSOC_IN_2
J16
VDDSOC_IN_3
K16
VDDSOC_IN_4
L16
VDDSOC_IN_5
M16
VDDSOC_IN_6
N16
VDDSOC_IN_7
P16
VDDSOC_IN_8
R16
VDDSOC_IN_9
T16
VDDSOC_IN_10
U16
VDDHIGH_IN_1
H9
VDDHIGH_IN_2
J9 VDD_CACHE_CAP N12
VDDHIGH_CAP_1 H10
VDDHIGH_CAP_2 J10
VDD_SNVS_IN
G11
VDD_SNVS_CAP G9
i.MX6Q - POWER 1
U3A
MCIMX6Q5EYM10AD
GND_1
A13
GND_2
A25
GND_3
A4
GND_4
A8
GND_5
AA10
GND_6
AA13
GND_7
AA16
GND_8
AA19
GND_9
AA22
GND_10
AA7
GND_11
AB24
GND_12
AB3
GND_13
AD10
GND_14
AD13
GND_15
AD16
GND_16
AD19
GND_17
AD22
GND_18
AD4
GND_19
AD7
GND_20
AE1
GND_21
AE25
GND_22
B4
GND_23
C1
GND_24
C10
GND_25
C4
GND_26
C6
GND_27
D3
GND_28
D6
GND_29
D8
GND_30
E5
GND_31
E6
GND_32
E7
GND_33
F5
GND_34
F6
GND_35
F7
GND_36
F8
GND_37
G10
GND_38
G19
GND_39
G3
GND_40
H12
GND_41
H15
GND_42
H18
GND_43
H8
GND_44
J12
GND_45
J15
GND_46
J18
GND_47
J2
GND_48
J8
GND_49
K10
GND_50
K12
GND_51
K15
GND_52
K18
GND_53
K8
GND_54
L10
GND_55
L12
GND_56
L15
GND_57
L18
GND_58
L2
GND_59
L5
GND_60
L8
GND_61
M10
GND_62
M12
GND_63
M15
GND_64
M18
GND_65
M8
GND_66
N10
GND_67
N15
GND_68
N18
GND_69
N8
GND_70
P10
GND_71
P12
GND_72
P15
GND_73
P18
GND_74
P8
GND_75
R12
GND_76
R15
GND_77
R17
GND_78
R8
GND_79
T11 GND_106 Y5
GND_105 W19
GND_104 W18
GND_103 W17
GND_102 W16
GND_101 W15
GND_100 W13
GND_99 W12
GND_98 W11
GND_97 W10
GND_96 W9
GND_95 W8
GND_94 W7
GND_93 W3
GND_92 V19
GND_91 V8
GND_90 U19
GND_89 U8
GND_88 U17
GND_87 U15
GND_86 U12
GND_85 U11
GND_84 T8
GND_83 T19
GND_82 T17
GND_81 T15
GND_80 T12
GND_107 Y24
VDD_FA B5
FA_ANA A5
GPANAIO C8
NVCC_JTAG J7
NVCC_NANDF G15
NVCC_SD3 G14
NVCC_SD2 G17
NVCC_SD1 G16
NVCC_RGMII G18
NVCC_PLL_OUT E8
NVCC_GPIO P7
NVCC_ENET R19
NVCC_EIM2 M19
NVCC_EIM1 L19
NVCC_EIM0 K19
NVCC_MIPI K7
NVCC_CSI N7
NVCC_LCD P19
i.MX6Q - POWER 2
U3B
MCIMX6Q5EYM10AD
GND GND
GND
10V
C49
0.22uF
10V
C50
0.22uF
10V
C51
0.22uF
10V
C52
0.22uF
6.3V
C53
22uF
10V
C55
0.22uF
10V
C56
0.22uF
10V
C57
0.22uF
10V
C58
0.22uF
6.3V
C59
22uF
10V
C70
0.22uF
10V
C71
0.22uF
10V
C72
0.22uF
10V
C73
0.22uF
10V
C74
0.22uF
10V
C75
0.22uF
6.3V
C76
22uF
10V
C89
0.22uF
10V
C90
0.22uF
10V
C91
0.22uF
10V
C92
0.22uF
10V
C93
0.22uF
6.3V
C94
22uF
10V
C97
0.22uF
GND
GND
GND
GND
GND
10V
C43
0.22uF
10V
C44
0.22uF
10V
C45
0.22uF
10V
C46
0.22uF
10V
C47
0.22uF
6.3V
C48
22uF
GND
10V
C42
0.22uF
10V
C60
0.22uF
10V
C61
0.22uF
10V
C62
0.22uF
10V
C63
0.22uF
6.3V
C64
22uF
GND
10V
C81
0.22uF
10V
C82
0.22uF
10V
C83
0.22uF
10V
C84
0.22uF
6.3V
C85
22uF
6.3V
C86
22uF
6.3V
C87
22uF
GND
10V
C77
0.22uF
10V
C78
0.22uF
10V
C79
0.22uF
10V
C80
0.22uF
6.3V
C96
22uF
10V
C95
0.22uF
GND
GND
16V
C105
0.22uF
10V
C101
0.22uF
10V
C102
0.22uF
10V
C103
0.22uF
10V
C104
0.22uF
GND GND GND GND
NVCC_3V3
VDD_ARM_CAP
VDDSOC_CAP
VDDPU
VDDHIGH_VPH
VDDCORE
VDDSOC
VDDHIGH_IN
GEN_2V8
VSNVS_3V0
VDD_SNVS_CAP
10V
C106
0.22uF
GND
16V
C98
0.01uF
10V
C99
0.22uF
6.3V
C100
22uF
GND
NVCC_3V3
10V
C54
0.22uF
GND
ETH_3V3
6.3V
C66
22uF
GND
10V
C65
0.22uF
10V
C67
0.22uF
GND
NVCC_3V3
NVCC_PLL_OUT
6.3V
C69
22uF
GND
10V
C68
0.22uF
10V
C88
0.22uF
GND
NVCC_RGMII
10V
C110
0.22uF
10V
C111
0.22uF
10V
C112
0.22uF
10V
C118
0.22uF
10V
C119
0.22uF
6.3V
C120
22uF
GND
GND
DDR_1V5
10V
C108
0.22uF
10V
C109
0.22uF
10V
C116
0.22uF
10V
C117
0.22uF
10V
C115
0.22uF
6.3V
C121
22uF
10V
C113
0.22uF
VDDSOC_CAP VDDSOC_VP
VDDHIGH_VPH GEN_2V5 VGEN3_2V5
GEN_3V3NVCC_3V3
GEN_1V8
10V
C107
0.22uF
GND
10V
C125
0.22uF
GND
GEN_3V3
10V
C122
0.22uF
GND
10V
C123
0.22uF
6.3V
C124
22uF
GEN_2V5
10V
C114
0.22uF
GND
NVCC_CSI
NVCC_MIPI
NVCC_EIM
NVCC_EIM
NVCC_EIM
NVCC_SD1
D1
NSR0320MW2T1G
JPS2
JPS3
JPS4
NVCC_SD1
NVCC_EIM
NVCC_MIPI
NVCC_CSI
R14
0
R13 0
R12
0
R11
0
R10
0
i.MX6 POWER
1%
1/4W
NU
R15
0.02
GEN_3V3
10V
C511
0.22uF
10V
C512
0.22uF
10V
C513
0.22uF
10V
C514
0.22uF
10V
C515
0.22uF
10V
C516
0.22uF
10V
C517
0.22uF
10V
C518
0.22uF
10V
C521
0.22uF
10V
C522
0.22uF
10V
C523
0.22uF
10V
C524
0.22uF
10V
C525
0.22uF
10V
C526
0.22uF
10V
C527
0.22uF
10V
C528
0.22uF
10V
C529
0.22uF
10V
C530
0.22uF
10V
C531
0.22uF
10V
C534
0.22uF
10V
C532
0.22uF
10V
C533
0.22uF
10V
C519
0.22uF
10V
C520
0.22uF
GND
NU : NotUsed
JPS : Connected with pattern
XK-5
MGH-106A 1/16
00228-26241
XK-5
7-1
EIM_LBA K22
EIM_OE J24
EIM_RW K20
EIM_CS0 H24
EIM_CS1 J23
EIM_A16 H25
EIM_A17 G24
EIM_A18 J22
EIM_A19 G25
EIM_A20 H22
EIM_A21 H23
EIM_A22 F24
EIM_A23 J21
EIM_A24 F25
EIM_A25 H19
EIM_D16 C25
EIM_D17 F21
EIM_D18 D24
EIM_D19 G21
EIM_D20 G20
EIM_D21 H20
EIM_D22 E23
EIM_D23 D25
EIM_D24 F22
EIM_D25 G22
EIM_D26 E24
EIM_D27 E25
EIM_D28 G23
EIM_D29 J19
EIM_D30 J20
EIM_D31 H21
EIM_EB2 E22
EIM_EB3 F23
EIM_BCLK N22
EIM_WAIT M25
EIM_EB0 K21
EIM_EB1 K23
EIM_DA0 L20
EIM_DA1 J25
EIM_DA2 L21
EIM_DA3 K24
EIM_DA4 L22
EIM_DA5 L23
EIM_DA6 K25
EIM_DA7 L25
EIM_DA8 L24
EIM_DA9 M21
EIM_DA10 M22
EIM_DA11 M20
EIM_DA12 M24
EIM_DA13 M23
EIM_DA14 N23
EIM_DA15 N24
i.MX6Q - EIM
U3C
MCIMX6Q5EYM10AD
CSI0_MCLK
P4 DI0_DISP_CLK N19
CSI0_PIXCLK
P1
CSI0_VSYNC
N2
CSI0_DATA_EN
P3
CSI0_DAT4
N1
CSI0_DAT5
P2
CSI0_DAT6
N4
CSI0_DAT7
N3
CSI0_DAT8
N6
CSI0_DAT9
N5
CSI0_DAT10
M1
CSI0_DAT11
M3
CSI0_DAT12
M2
CSI0_DAT13
L1
CSI0_DAT14
M4
CSI0_DAT15
M5
CSI0_DAT16
L4
CSI0_DAT17
L3
CSI0_DAT18
M6
CSI0_DAT19
L6
DI0_PIN2 N25
DI0_PIN3 N20
DI0_PIN4 P25
DI0_PIN15 N21
DISP0_DAT0 P24
DISP0_DAT1 P22
DISP0_DAT2 P23
DISP0_DAT3 P21
DISP0_DAT4 P20
DISP0_DAT5 R25
DISP0_DAT6 R23
DISP0_DAT7 R24
DISP0_DAT8 R22
DISP0_DAT9 T25
DISP0_DAT10 R21
DISP0_DAT11 T23
DISP0_DAT12 T24
DISP0_DAT13 R20
DISP0_DAT14 U25
DISP0_DAT15 T22
DISP0_DAT16 T21
DISP0_DAT17 U24
DISP0_DAT18 V25
DISP0_DAT19 U23
DISP0_DAT20 U22
DISP0_DAT21 T20
DISP0_DAT22 V24
DISP0_DAT23 W24
CSI_CLK0M
F4
CSI_CLK0P
F3
CSI_D0M
E4
CSI_D0P
E3
CSI_D1M
D1
CSI_D1P
D2
CSI_D2M
E1
CSI_D2P
E2
CSI_D3M
F2
CSI_D3P
F1
CSI_REXT
D4
DSI_REXT G4
DSI_D1P H1
DSI_D1M H2
DSI_D0P G1
DSI_D0M G2
DSI_CLK0P H4
DSI_CLK0M H3
i.MX6Q - DISP;CSI
U3D
MCIMX6Q5EYM10AD
SD1_CMD
B21 ENET_MDC V20
SD1_CLK
D20
SD1_DAT0
A21
SD1_DAT1
C20
SD1_DAT2
E19
SD1_DAT3
F18
ENET_CRS_DV U21
ENET_REF_CLK V22
ENET_RX_ER W23
ENET_TX_EN V21
ENET_RXD0 W21
ENET_RXD1 W22
MLB_CP
B11
MLB_CN
A11
MLB_SP
B9
MLB_SN
A9
MLB_DP
A10
MLB_DN
B10
GPIO_6 T3
GPIO_0 T5
i.MX6Q
SD2_CMD
F19
SD2_CLK
C21
SD2_DAT0
A22
SD2_DAT1
E20
SD2_DAT2
A23
SD2_DAT3
B22
SD3_CMD
B13
SD3_CLK
D14
SD3_DAT0
E14
SD3_DAT1
F14
SD3_DAT2
A15
SD3_DAT3
B15
SD3_DAT4
D13
SD3_DAT5
C13
SD3_DAT6
E13
SD3_DAT7
F13
SD3_RST
D15
ENET_MDIO V23
ENET_TXD0 U20
ENET_TXD1 W20
KEY_COL0 W5
KEY_ROW0 V6
KEY_COL1 U7
KEY_ROW1 U6
KEY_COL2 W6
KEY_ROW2 W4
KEY_COL3 U5
KEY_ROW3 T7
KEY_COL4 T6
KEY_ROW4 V5
GPIO_1 T4
GPIO_2 T1
GPIO_3 R7
GPIO_4 R6
GPIO_5 R4
GPIO_7 R3
GPIO_8 R5
GPIO_9 T2
GPIO_16 R2
GPIO_17 R1
GPIO_18 P6
GPIO_19 P5
NANDF_CS0 F15
NANDF_CS1 C16
NANDF_CS2 A17
NANDF_CS3 D16
NANDF_ALE A16
NANDF_CLE C15
NANDF_WP E15
NANDF_RB0 B16
NANDF_D0 A18
NANDF_D1 C17
NANDF_D2 F16
NANDF_D3 D17
NANDF_D4 A19
NANDF_D5 B18
NANDF_D6 E17
NANDF_D7 C18
SD4_CLK E16
SD4_CMD B17
SD4_DAT0 D18
SD4_DAT1 B19
SD4_DAT2 F17
SD4_DAT3 A20
SD4_DAT4 E18
SD4_DAT5 C19
SD4_DAT6 B20
SD4_DAT7 D19
U3E
MCIMX6Q5EYM10AD
ONOFF
D12
POR
C11
BOOT_MODE0
C12
BOOT_MODE1
F12
TEST_MODE
E12
TAMPER
E11
PMIC_STBY_REQ
F11
PMIC_ON_REQ
D11
XTALI
A7
XTAL0
B7
RTC_XTALI
D9
RTC_XTAL0
C9
i.MX6Q - CONTROL
JTAG_TCK H5
JTAG_TMS C3
JTAG_TDI G5
JTAG_TD0 G6
JTAG_TRST C2
JTAG_MOD H6
CLK1_N C7
CLK1_P D7
CLK2_N C5
CLK2_P D5
U3G
MCIMX6Q5EYM10AD
NVCC_LVDS2P5
V7
i.MX6Q - LVDS
LVDS0_TX0_N U2
LVDS0_TX0_P U1
LVDS0_TX1_N U4
LVDS0_TX1_P U3
LVDS0_TX2_N V2
LVDS0_TX2_P V1
LVDS0_CLK_N V4
LVDS0_CLK_P V3
LVDS0_TX3_N W2
LVDS0_TX3_P W1
LVDS1_TX0_N Y1
LVDS1_TX0_P Y2
LVDS1_TX1_N AA2
LVDS1_TX1_P AA1
LVDS1_TX2_N AB1
LVDS1_TX2_P AB2
LVDS1_CLK_N Y3
LVDS1_CLK_P Y4
LVDS1_TX3_N AA3
LVDS1_TX3_P AA4
U3H
MCIMX6Q5EYM10AD
i.MX6Q - HDMI
HDMI_VP
L7
HDMI_VPH
M7
HDMI_HPD K1
HDMI_DDCCEC K2
HDMI_CLKM J5
HDMI_CLKP J6
HDMI_REF
J1
HDMI_D0M K5
HDMI_D0P K6
HDMI_D1M J3
HDMI_D1P J4
HDMI_D2M K3
HDMI_D2P K4
U3J
MCIMX6Q5EYM10AD
i.MX6Q - PCIe
PCIE_VP
H7
PCIE_VPTX
G8
PCIE_RXM B1
PCIE_RXP B2
PCIE_TXM A3
PCIE_TXP B3
PCIE_VPH
G7
PCIE_REXT
A2
U3K
MCIMX6Q5EYM10AD
i.MX6Q - USB
VDDUSB_CAP
F9
USB_OTG_CHD B8
USB_OTG_VBUS E9
USB_OTG_DN B6
USB_OTG_DP A6
USB_H1_DP E10
USB_H1_DN F10
USB_H1_VBUS D10
U3L
MCIMX6Q5EYM10AD
i.MX6Q - RGMII
RGMII_TXC D21
RGMII_TD0 C22
RGMII_TD1 F20
RGMII_TD2 E21
RGMII_RXC B25
RGMII_RD0 C24
RGMII_RD1 B23
RGMII_TD3 A24
RGMII_TX_CTL C23
RGMII_RD2 B24
RGMII_RD3 D23
RGMII_RX_CTL D22
U3M
MCIMX6Q5EYM10AD
EIM_LBA
EIM_OE
EIM_RW
MX6_ONOFF
EIM_A16
EIM_A17
EIM_A18
EIM_A19
EIM_A20
EIM_A21
EIM_CS0
EIM_CS1
EIM_A22
EIM_A23
EIM_A24
BOOT_MODE0
BOOT_MODE1
TEST_MODE
TAMPER
PMIC_ON_REQ
PMIC_STBY_REQ
JTAG_nTRST
R27 0 UART4_TXD
R29 0 UART4_RXD
R33 0
R36 0
R38 0
R40 0
R61 0
R62 0
R64 0
R65 0
i.MX6Q - SATA
SATA_VP
G13
SATA_VPH
G12
SATA_RXP B14
SATA_RXM A14
SATA_TXM B12
SATA_TXP A12
SATA_REXT C14
U3I
MCIMX6Q5EYM10AD
EIM_D27
EIM_D28
EIM_D30
EIM_D31
EIM_D26
EIM_DA7
EIM_DA8
EIM_DA9
EIM_DA10
EIM_DA11
EIM_DA12
EIM_DA13
EIM_DA14
EIM_DA15
EIM_EB1
EIM_DA0
EIM_DA1
EIM_DA2
EIM_DA3
EIM_DA4
EIM_DA5
EIM_DA6
EIM_EB3
EIM_WAIT
EIM_EB0
EIM_EB2
SD3_RST
JTAG_MOD
JTAG_TDO
JTAG_TDI
JTAG_TMS
JTAG_TCK
POR_B
RTC_XTALO
RTC_XTALI
CPU_XTALO
CPU_XTALI
NU
X1 ABS07 32.768kHz
2
41
3
X2
CX2520DB 24MHz
NU
C133
18pF
C132
100(Ohm)
GND
C135
4pF
C134
4pF
R95
2.2M
GND
NU
R91
10M
R79 0 WDOG_B
GEN_2V5
10V
C142
0.22uF
GND
R98
0
LVDS_2V5
TP32_16757721
TP31_16757721
TP509
TP510
PCIe_REXT
1%
R99
200
PCIe_VPH
PCIe_VPTX
PCIe_VP
R97
0
10V
C141
0.22uF
GND
GEN_2V5
10V
C137
0.22uF
GND
10V
C131
0.22uF
GND
10V
C130
0.22uF
GND
HDMI_RESREF
R92
01%
R93
1.6k
GND
HDMI_VPH
HDMI_VP
R88
0
VDDSOC_VP
GEN_2V5
R86
0
VDDSOC_VP
10V
C129
0.22uF
GND
GND
R89
0
NU
R87
0
GND
HDMI_CEC_IN
ENET_REFCLK
10V
C126
1uF
R34
68k
R19
68k
ETH_3V3
GND
I2C2_SCL
I2C2_SDA
UART2_RXD
UART2_TXD
SD3_CD_B
SD4_DATA4
SD4_DATA5
SD4_DATA6
SD4_DATA7
SD4_DATA0
SD4_DATA1
SD4_DATA2
SD4_DATA3
SD4_CLK
SD4_CMD
SATA_VPH
SATA_VP
10V
C127
0.22uF
GND
10V
C128
0.22uF
GND
R70
0
R81
0
GEN_2V5
VDDSOC_VP
SATA_REXT
1%
NU
R84
191
GND
1%
R83
6.04k
GND
I2C1_SDA
I2C1_SCL
UART1_TXD
UART1_RXD
SD3_DATA3
SD3_DATA2
SD3_DATA1
SD3_DATA0
SD3_CLK
SD3_CMD
USB_OTG_DN
USB_OTG_DP
USB_HOST_DP
USB_HOST_DN
R94
0
R96
0
10V
C140
0.22uF
GND
PMIC_5V
10V
C136
0.22uF
GND
10V
C139
0.22uF
10V
C138
10uF
GND
CSI_REXT
DSI_REXT
1%
R85
6.04k
GND
NU
R90
10M
LDO_USB_IN
HDMI_DDCCEC
VDDUSB
SPINOR_MOSI
R57 10
R52 10 SPINOR_CLK
R55 10 SPINOR_MISO
SPINOR_CS0
EIM_D29
UART4_TX_DATA
EIM_D24
EIM_D25
CSPI2_MOSI
CSPI2_MISO
CSPI2_CLK
CSPI2_CS0
CSPI3_MISO
CSPI3_MOSI
CSPI3_CLK
CSPI3_CS0
R21 10
R18 10
CSPI5_CLK
CSPI5_MOSI
CSPI5_MISO R24 10
i.MX6 SIGNALS
RESET_KEY
RESET_SWLED
RESET_LK
CSPI1_CLK
CSPI1_MISO
CSPI1_MOSI
CSPI1_CS0
Power Group NVCC_CSI:1.8V
POWER_OFF
TEST_IN1
MODE_SELECT1
MODE_SELECT2
MODE_SELECT3
MODE_SELECT4
RESET_KEY
RESET_SWLED
RESET_LK
POWER_OFF
MODE_SELECT1
MODE_SELECT2
MODE_SELECT3
MODE_SELECT4
TEST_IN1
TO1 HK-3-G
TEST_OUT1
TEST_OUT2
TEST_OUT3
TEST_OUT4
LCD_RS
TO2 HK-3-G
TO3 HK-3-G
TO4 HK-3-G
TO5 HK-3-G
SD2_CMD
SD2_CLK
SD2_DATA0
BOOT_COMPLETE
SD2_DATA2
SD2_DATA3
SD2_DATA4
SD2_DATA5
SD2_DATA6
SD2_DATA7
SD4_CD_B
SD2_WP
SD3_CMD
SD3_CLK
SD3_DATA0
SD3_DATA1
SD3_DATA2
SD3_DATA3
SD3_DATA4
SD3_DATA5
SD3_DATA6
SD3_DATA7
SD3_CD_B
SD3_WP
RGMII_TXCLK
RGMII_TXD0
RGMII_TXD1
RGMII_TXD2
RGMII_TXD3
RGMII_TXEN
RGMII_RXCLK
RGMII_RXD0
RGMII_RXD1
RGMII_RXD2
RGMII_RXD3
RGMII_RXDV
LVDS0_TX0_N
LVDS0_TX0_P
LVDS0_TX1_N
LVDS0_TX1_P
LVDS0_TX2_N
LVDS0_TX2_P
LVDS0_CLK_N
LVDS0_CLK_P
LVDS1_TX0_N
LVDS1_TX0_P
LVDS1_TX1_N
LVDS1_TX1_P
LVDS1_TX2_N
LVDS1_TX2_P
LVDS1_CLK_N
LVDS1_CLK_P
AUD6_RXFS
AUD6_RXC
DISP0_DAT7
DISP0_DAT8
DISP0_DAT9
DISP0_DAT10
DISP0_DAT11
DISP0_DAT12
DISP0_DAT13
DISP0_DAT14
DISP0_DAT20
DISP0_DAT21
DISP0_DAT22
DISP0_DAT23
DISP0_CLK
DISP0_HSYNCH
DISP0_VSYNCH
DISP0_DRDY
EIM_D21
EIM_D22
EIM_D23
EIM_D24
EIM_D25
EIM_D26
EIM_D27
EIM_D28
EIM_D29
EIM_D30
EIM_D31
EIM_D20
SATA_RXP
SATA_RXN
SATA_TXN
SATA_TXP
CSI_CLK0M
CSI_CLK0P
CSI_D0M
CSI_D0P
CSI_D1P
CSI_D1M
DSI_CLK0M
DSI_CLK0P
DSI_D0M
DSI_D0P
DSI_D1P
DSI_D1M
HDMI_HPD
HDMI_CLKM
HDMI_CLKP
HDMI_D0P
HDMI_D0M
HDMI_D1P
HDMI_D1M
HDMI_D2M
HDMI_D2P
PCIE_RXM
PCIE_RXP
PCIE_TXM
PCIE_TXP
(USB_H1_OC)
AUD3_TXC
AUD3_TXFS
AUD3_TXD
AUD3_RXD
R20 22
R22 22
R25 0
DSP_McBSP0_RXCLK
DSP_McBSP0_FSR
DSP_McBSP0_RX
DSP_McBSP0_TX
CSI_PWN(CNTRST)
(HEADPHONE_DET)
RGMII_nRST
USB_OTG_ID
NU
R16
100k
ETH_WOL_INT
UOK_B
RGMII_INT
DISP0_PWR_EN
USB_H1_PWR_EN
DISP0_WR
AUX_5V_EN
DISP_RST_B
DISP_PWR_EN
DSP_PORZ
DSP_RESETFULLZ
DSP_RESETZ
DSP_LRESETNMIENZ
DSP_CORESEL0
DSP_CORESEL1
DSP_LRESETZ
DSP_NMIZ
DSP_RESETSTAT#
DSP_BOOTCOMPLETE
DSP_HOUT
(CSI0_HSYNCH)
(CSI0_PIXCLK)
(CSI0_VSYNCH) CSPI5_CS0 R37 10
SD3_WP
SD3_DATA4
SD3_DATA5
SD3_DATA6
SD3_DATA7
MUTE
SLOW
FAST
UART4_RX_DATA
UART4_TX_DATA
UART4_RX_DATA
EIM_A25
EIM_BCLK
CABC_EN0
CABC_EN1
CAP_TCH_INT0
CAP_TCH_INT1
DISP0_PWM
ENET_REF_CLK
CLK1_N
CLK1_P PCIe REFCLK
R51 0 CSPI2_CS1
BOOT_COMPLETE
PMIC_INT_B
R321 0
DSP_TRGRSTZ
R414 0 CSPI3_CS1
LCD_RS
CSPI5_CS0
AUD6_RXD
AUD6_RXD
AUD6_RXFS
AUD6_RXC
SD4_CD_B
SD4_WP
AUD_MCLK R263 22
Audio Master Clock
R440 22
(SD2_CD_B)
NU : NotUsed
FB28
BLM18PG121SH1
XK-5
MGH-106A 2/16
00228-26241
XK-5
7-2
DRAM_D0
AD2
DRAM_D1
AE2
DRAM_D2
AC4
DRAM_D3
AA5
DRAM_D4
AC1
DRAM_D5
AD1
DRAM_D6
AB4
DRAM_D7
AE4
DRAM_A0 AC14
DRAM_A1 AB14
DRAM_A2 AA14
DRAM_A3 Y14
DRAM_A4 W14
DRAM_A5 AE13
DRAM_A6 AC13
DRAM_A7 Y13
DRAM_D8
AD5
i.MX6Q - DDR
DRAM_SDQS0
AE3
DRAM_SDQS0
AD3
DRAM_DQM0
AC3
DRAM_D9
AE5
DRAM_D10
AA6
DRAM_D11
AE7
DRAM_D12
AB5
DRAM_D13
AC5
DRAM_D14
AB6
DRAM_D15
AC7
DRAM_D16
AB7
DRAM_SDQS1
AD6
DRAM_SDQS1
AE6
DRAM_DQM1
AC6
DRAM_D17
AA8
DRAM_D18
AB9
DRAM_D19
Y9
DRAM_D20
Y7
DRAM_D21
Y8
DRAM_D22
AC8
DRAM_D23
AA9
DRAM_SDQS2
AD8
DRAM_SDQS2
AE8
DRAM_DQM2
AB8
DRAM_D24
AE9
DRAM_D25
Y10
DRAM_D26
AE11
DRAM_D27
AB11
DRAM_D28
AC9
DRAM_D29
AD9
DRAM_D30
AD11
DRAM_D31
AC11
DRAM_SDQS3
AC10
DRAM_SDQS3
AB10
DRAM_DQM3
AE10
DRAM_D32
AA17
DRAM_D33
AA18
DRAM_D34
AC18
DRAM_D35
AE19
DRAM_D36
Y17
DRAM_D37
Y18
DRAM_D38
AB19
DRAM_D39
AC19
DRAM_SDQS4
AD18
DRAM_SDQS4
AE18
DRAM_DQM4
AB18
DRAM_D40
Y19
DRAM_D41
AB20
DRAM_D42
AB21
DRAM_D43
AD21
DRAM_D44
Y20
DRAM_D45
AA20
DRAM_D46
AE21
DRAM_D47
AC21
DRAM_SDQS5
AD20
DRAM_SDQS5
AE20
DRAM_DQM5
AC20
DRAM_D48
AC22
DRAM_D49
AE22
DRAM_D50
AE24
DRAM_D51
AC24
DRAM_D52
AB22
DRAM_D53
AC23
DRAM_D54
AD25
DRAM_D55
AC25
DRAM_SDQS6
AD23
DRAM_SDQS6
AE23
DRAM_DQM6
AD24
DRAM_D56
AB25
DRAM_D57
AA21
DRAM_D58
Y25
DRAM_D59
Y22
DRAM_D60
AB23
DRAM_D61
AA23
DRAM_D62
Y23
DRAM_D63
W25
DRAM_SDQS7
AA25
DRAM_SDQS7
AA24
DRAM_DQM7
Y21
DRAM_A8 AB13
DRAM_A9 AE12
DRAM_A10 AA15
DRAM_A11 AC12
DRAM_A12 AD12
DRAM_A13 AC17
DRAM_A14 AA12
DRAM_A15 Y12
DRAM_SDBA0 AC15
DRAM_SDBA1 Y15
DRAM_SDBA2 AB12
DRAM_CS0 Y16
DRAM_CS1 AD17
DRAM_RAS AB15
DRAM_CAS AE16
DRAM_SDWE AB16
DRAM_SDCKE0 Y11
DRAM_SDCKE1 AA11
DRAM_SDODT0 AC16
DRAM_SDODT1 AB17
DRAM_RESET Y6
DRAM_SDCLK_0 AD15
DRAM_SDCLK_0 AE15
DRAM_SDCLK_1 AD14
DRAM_SDCLK_1 AE14
DRAM_VREF AC2
ZQPAD AE17
NVCC_DRAM_1 R18
NVCC_DRAM_2 T18
NVCC_DRAM_3 U18
NVCC_DRAM_4 V10
NVCC_DRAM_5 V11
NVCC_DRAM_6 V12
NVCC_DRAM_7 V13
NVCC_DRAM_8 V14
NVCC_DRAM_9 V15
NVCC_DRAM_10 V16
NVCC_DRAM_11 V17
NVCC_DRAM_12 V18
NVCC_DRAM_13 V9
U3F
MCIMX6Q5EYM10AD
WE
L3
CK
J7
CK
K7
CKE
K9
BA2
M3
CS
L2
RAS
J3
CAS
K3
A12/BC
N7
A13
T3
BA0
M2
BA1
N8
A8
T8
A9
R3
A10/AP
L7
A11
R7
A4
P8
A5
P2
A6
R8
A7
R2
A0
N3
A1
P7
A2
P3
A3
N2
RESET
T2
DQ5 H8
DQ4 H3
DQ3 F8
DQ2 F2
DQ9 C3
DQ8 D7
DQ7 H7
DQ6 G2
DQ13 A2
DQ12 A7
DQ11 C2
DQ10 C8
LDQS G3
LDQS F3
DQ15 A3
DQ14 B8
NC_J9 J9
NC_J1 J1
UDQS B7
UDQS C7
NC_T7 T7
NC_M7 M7
NC_L9 L9
NC_L1 L1
DQ1 F7
DQ0 E3
ZQ
L8
ODT
K1
VREFCA
M8
VREFDQ
H1
LDM
E7
UDM
D3
VSS11
T1
VSS12
T9
VSS7
M1
VSS8
M9
VSS9
P1
VSS10
P9
VSS3
E1
VSS4
G8
VSS5
J2
VSS6
J8
VSS1
A9
VSS2
B3
VSSQ7
F9
VSSQ8
G1
VSSQ9
G9
VSSQ3
D1
VSSQ4
D8
VSSQ5
E2
VSSQ6
E8
VSSQ1
B1
VSSQ2
B9 VDDQ3 C1
VDDQ2 A8
VDDQ1 A1
VDDQ7 F1
VDDQ6 E9
VDDQ5 D2
VDDQ4 C9
VDDQ9 H9
VDDQ8 H2
VDD3 G7
VDD2 D9
VDD1 B2
VDD7 N9
VDD6 N1
VDD5 K8
VDD4 K2
VDD9 R9
VDD8 R1
U6
MT41K128M16JT-125:K
WE
L3
CK
J7
CK
K7
CKE
K9
BA2
M3
CS
L2
RAS
J3
CAS
K3
A12/BC
N7
A13
T3
BA0
M2
BA1
N8
A8
T8
A9
R3
A10/AP
L7
A11
R7
A4
P8
A5
P2
A6
R8
A7
R2
A0
N3
A1
P7
A2
P3
A3
N2
RESET
T2
DQ5 H8
DQ4 H3
DQ3 F8
DQ2 F2
DQ9 C3
DQ8 D7
DQ7 H7
DQ6 G2
DQ13 A2
DQ12 A7
DQ11 C2
DQ10 C8
LDQS G3
LDQS F3
DQ15 A3
DQ14 B8
NC_J9 J9
NC_J1 J1
UDQS B7
UDQS C7
NC_T7 T7
NC_M7 M7
NC_L9 L9
NC_L1 L1
DQ1 F7
DQ0 E3
ZQ
L8
ODT
K1
VREFCA
M8
VREFDQ
H1
LDM
E7
UDM
D3
VSS11
T1
VSS12
T9
VSS7
M1
VSS8
M9
VSS9
P1
VSS10
P9
VSS3
E1
VSS4
G8
VSS5
J2
VSS6
J8
VSS1
A9
VSS2
B3
VSSQ7
F9
VSSQ8
G1
VSSQ9
G9
VSSQ3
D1
VSSQ4
D8
VSSQ5
E2
VSSQ6
E8
VSSQ1
B1
VSSQ2
B9 VDDQ3 C1
VDDQ2 A8
VDDQ1 A1
VDDQ7 F1
VDDQ6 E9
VDDQ5 D2
VDDQ4 C9
VDDQ9 H9
VDDQ8 H2
VDD3 G7
VDD2 D9
VDD1 B2
VDD7 N9
VDD6 N1
VDD5 K8
VDD4 K2
VDD9 R9
VDD8 R1
U7
MT41K128M16JT-125:K
DRAM_SDQS0_B
DRAM_A0
DRAM_A1
DRAM_A2
DRAM_A3
DRAM_A4
DRAM_A5
DRAM_A6
DRAM_A7
DRAM_A8
DRAM_A9
DRAM_A10
DRAM_A11
DRAM_A12
DRAM_A13
DRAM_SDBA0
DRAM_SDBA1
DRAM_SDBA2
DRAM_CS0_B
DRAM_RAS_B
DRAM_CAS_B
DRAM_WE_B
DRAM_SDCLK0
DRAM_SDCLK0_B
DRAM_SDCKE0
DRAM_RESET_B
DRAM2_ZQ
DRAM_SDODT0
DRAM_DQM4
DRAM_DQM5
16V
C149
0.22uF
GND
16V
C148
0.22uF
GND
DDR_VREF
R104
240
GND
DRAM_A0
DRAM_A1
DRAM_A2
DRAM_A3
DRAM_A4
DRAM_A5
DRAM_A6
DRAM_A7
DRAM_A8
DRAM_A9
DRAM_A10
DRAM_A11
DRAM_A12
DRAM_A13
DRAM_SDBA0
DRAM_SDBA1
DRAM_SDBA2
DRAM_CS0_B
DRAM_RAS_B
DRAM_CAS_B
DRAM_WE_B
DRAM_SDCLK0
DRAM_SDCLK0_B
DRAM_SDCKE0
DRAM_RESET_B
DRAM3_ZQ
DRAM_SDODT0
DRAM_DQM7
DRAM_DQM6
16V
C157
0.22uF
GND
16V
C156
0.22uF
GND
R106 240
GND
GNDGND
DDR_1V5
DRAM_SDQS5_B
DRAM_D32
DRAM_D39
DRAM_D35
DRAM_D38
DRAM_D36
DRAM_D34
DRAM_D33
DRAM_D37
DRAM_D40
DRAM_D43
DRAM_D42
DRAM_D46
DRAM_D47
DRAM_D44
DRAM_D45
DRAM_D41
DRAM_SDQS5
DRAM_SDQS4_B
DRAM_SDQS4
DRAM_SDQS6_B
DRAM_D56
DRAM_D60
DRAM_D62
DRAM_D57
DRAM_D63
DRAM_D59
DRAM_D58
DRAM_D61
DRAM_D48
DRAM_D51
DRAM_D53
DRAM_D55
DRAM_D49
DRAM_D54
DRAM_D52
DRAM_D50
DRAM_SDQS6
DRAM_SDQS7_B
DRAM_SDQS7
DRAM_A14
DRAM_A15
WE
L3
CK
J7
CK
K7
CKE
K9
BA2
M3
CS
L2
RAS
J3
CAS
K3
A12/BC
N7
A13
T3
BA0
M2
BA1
N8
A8
T8
A9
R3
A10/AP
L7
A11
R7
A4
P8
A5
P2
A6
R8
A7
R2
A0
N3
A1
P7
A2
P3
A3
N2
RESET
T2
DQ5 H8
DQ4 H3
DQ3 F8
DQ2 F2
DQ9 C3
DQ8 D7
DQ7 H7
DQ6 G2
DQ13 A2
DQ12 A7
DQ11 C2
DQ10 C8
LDQS G3
LDQS F3
DQ15 A3
DQ14 B8
NC_J9 J9
NC_J1 J1
UDQS B7
UDQS C7
NC_T7 T7
NC_M7 M7
NC_L9 L9
NC_L1 L1
DQ1 F7
DQ0 E3
ZQ
L8
ODT
K1
VREFCA
M8
VREFDQ
H1
LDM
E7
UDM
D3
VSS11
T1
VSS12
T9
VSS7
M1
VSS8
M9
VSS9
P1
VSS10
P9
VSS3
E1
VSS4
G8
VSS5
J2
VSS6
J8
VSS1
A9
VSS2
B3
VSSQ7
F9
VSSQ8
G1
VSSQ9
G9
VSSQ3
D1
VSSQ4
D8
VSSQ5
E2
VSSQ6
E8
VSSQ1
B1
VSSQ2
B9 VDDQ3 C1
VDDQ2 A8
VDDQ1 A1
VDDQ7 F1
VDDQ6 E9
VDDQ5 D2
VDDQ4 C9
VDDQ9 H9
VDDQ8 H2
VDD3 G7
VDD2 D9
VDD1 B2
VDD7 N9
VDD6 N1
VDD5 K8
VDD4 K2
VDD9 R9
VDD8 R1
U4
MT41K128M16JT-125:K
WE
L3
CK
J7
CK
K7
CKE
K9
BA2
M3
CS
L2
RAS
J3
CAS
K3
A12/BC
N7
A13
T3
BA0
M2
BA1
N8
A8
T8
A9
R3
A10/AP
L7
A11
R7
A4
P8
A5
P2
A6
R8
A7
R2
A0
N3
A1
P7
A2
P3
A3
N2
RESET
T2
DQ5 H8
DQ4 H3
DQ3 F8
DQ2 F2
DQ9 C3
DQ8 D7
DQ7 H7
DQ6 G2
DQ13 A2
DQ12 A7
DQ11 C2
DQ10 C8
LDQS G3
LDQS F3
DQ15 A3
DQ14 B8
NC_J9 J9
NC_J1 J1
UDQS B7
UDQS C7
NC_T7 T7
NC_M7 M7
NC_L9 L9
NC_L1 L1
DQ1 F7
DQ0 E3
ZQ
L8
ODT
K1
VREFCA
M8
VREFDQ
H1
LDM
E7
UDM
D3
VSS11
T1
VSS12
T9
VSS7
M1
VSS8
M9
VSS9
P1
VSS10
P9
VSS3
E1
VSS4
G8
VSS5
J2
VSS6
J8
VSS1
A9
VSS2
B3
VSSQ7
F9
VSSQ8
G1
VSSQ9
G9
VSSQ3
D1
VSSQ4
D8
VSSQ5
E2
VSSQ6
E8
VSSQ1
B1
VSSQ2
B9 VDDQ3 C1
VDDQ2 A8
VDDQ1 A1
VDDQ7 F1
VDDQ6 E9
VDDQ5 D2
VDDQ4 C9
VDDQ9 H9
VDDQ8 H2
VDD3 G7
VDD2 D9
VDD1 B2
VDD7 N9
VDD6 N1
VDD5 K8
VDD4 K2
VDD9 R9
VDD8 R1
U5
MT41K128M16JT-125:K
DRAM_A0
DRAM_A1
DRAM_A2
DRAM_A3
DRAM_A4
DRAM_A5
DRAM_A6
DRAM_A7
DRAM_A8
DRAM_A9
DRAM_A10
DRAM_A11
DRAM_A12
DRAM_A13
DRAM_SDBA0
DRAM_SDBA1
DRAM_SDBA2
DRAM_CS0_B
DRAM_RAS_B
DRAM_CAS_B
DRAM_WE_B
DRAM_SDCLK1
DRAM_SDCLK1_B
DRAM_SDCKE0
DRAM_RESET_B
DRAM0_ZQ
DRAM_SDODT0
DRAM_DQM0
DRAM_DQM1
16V
C144
0.22uF
GND
16V
C143
0.22uF
GND
R100
240
GND
DRAM_A0
DRAM_A1
DRAM_A2
DRAM_A3
DRAM_A4
DRAM_A5
DRAM_A6
DRAM_A7
DRAM_A8
DRAM_A9
DRAM_A10
DRAM_A11
DRAM_A12
DRAM_A13
DRAM_SDBA0
DRAM_SDBA1
DRAM_SDBA2
DRAM_CS0_B
DRAM_RAS_B
DRAM_CAS_B
DRAM_WE_B
DRAM_SDCLK1
DRAM_SDCLK1_B
DRAM_SDCKE0
DRAM_RESET_B
DRAM1_ZQ
DRAM_SDODT0
DRAM_DQM3
DRAM_DQM2
16V
C146
0.22uF
GND
16V
C145
0.22uF
GND
R101
240
GND
GNDGND
DRAM_SDQS1_B
DRAM_D0
DRAM_D5
DRAM_D4
DRAM_D1
DRAM_D3
DRAM_D7
DRAM_D2
DRAM_D6
DRAM_D8
DRAM_D14
DRAM_D15
DRAM_D10
DRAM_D9
DRAM_D12
DRAM_D11
DRAM_D13
DRAM_SDQS1
DRAM_SDQS0_B
DRAM_SDQS0
DRAM_SDQS2_B
DRAM_D24
DRAM_D28
DRAM_D29
DRAM_D25
DRAM_D26
DRAM_D31
DRAM_D27
DRAM_D30
DRAM_D16
DRAM_D22
DRAM_D17
DRAM_D18
DRAM_D20
DRAM_D19
DRAM_D21
DRAM_D23
DRAM_SDQS2
DRAM_SDQS3_B
DRAM_SDQS3
DRAM_A0
DRAM_A1
DRAM_A2
DRAM_A3
DRAM_A4
DRAM_A5
DRAM_A6
DRAM_A7
DRAM_A8
DRAM_A9
DRAM_A10
DRAM_A11
DRAM_A12
DRAM_A13
DRAM_A15
DRAM_A14
DRAM_DQM0
DRAM_SDQS0
DRAM_D0
DRAM_D1
DRAM_D2
DRAM_D3
DRAM_D4
DRAM_D5
DRAM_D6
DRAM_D7
DRAM_D8
DRAM_D9
DRAM_D10
DRAM_D11
DRAM_D12
DRAM_D13
DRAM_D14
DRAM_D15
DRAM_D16
DRAM_D17
DRAM_D18
DRAM_D19
DRAM_D20
DRAM_D21
DRAM_D22
DRAM_D23
DRAM_D24
DRAM_D25
DRAM_D26
DRAM_D27
DRAM_D28
DRAM_D29
DRAM_D30
DRAM_D31
DRAM_D32
DRAM_D33
DRAM_D34
DRAM_D35
DRAM_D36
DRAM_D37
DRAM_D38
DRAM_D39
DRAM_D40
DRAM_D41
DRAM_D42
DRAM_D43
DRAM_D44
DRAM_D45
DRAM_D46
DRAM_D47
DRAM_D48
DRAM_D49
DRAM_D50
DRAM_D51
DRAM_D52
DRAM_D53
DRAM_D54
DRAM_D55
DRAM_D56
DRAM_D57
DRAM_D58
DRAM_D59
DRAM_D60
DRAM_D61
DRAM_D62
DRAM_D63
DDR_1V5
R105 240
GND
ZQPAD
25V
C147
0.1uF
GND
DRAM_SDBA0
DRAM_SDBA1
DRAM_SDBA2
DRAM_CS0_B
DRAM_CAS_B
DRAM_WE_B
DRAM_RAS_B
DRAM_SDCKE0
DRAM_SDODT0
DRAM_RESET_B
R103 10k
GND
DRAM_SDCLK0
DRAM_SDCLK0_B
DDR_SDCLK0
DDR_SDCLK0_B
JPS5
JPS6
DRAM_SDCLK1
DRAM_SDCLK1_B
DDR_SDCLK1
DDR_SDCLK1_B
JPS7
JPS8
C174
6.3V
C175
22uF
6.3V
C176
22uF
C172 C173C171
C177
C161 C162 C163
GND
GND
DDR_1V5
C159 C160
6.3V
C164
22uF
C153
6.3V
C154
22uF
6.3V
C155
22uF
C151 C152C150
C192
6.3V
C194
22uF
6.3V
C195
22uF
C190 C191C189
6.3V
C196
22uF
6.3V
C186
22uF
C187 C188
6.3V
C185
22uF
C168
6.3V
C169
22uF
6.3V
C170
22uF
C166 C167C165
C181 C182 C193
GND C179 C180C178
DDR_1V5_R
DRAM_A14
DRAM_A15
DRAM_A14
DRAM_A15
DRAM_A14
DRAM_A15
DDR_1V5
DDR_1V5DDR_1V5
DDR_VREF
DDR_VREFDDR_VREF
DDR_VREF
DRAM_SDQS1_B
DRAM_DQM1
DRAM_SDQS1
DRAM_SDQS2_B
DRAM_DQM2
DRAM_SDQS2
DRAM_SDQS3_B
DRAM_DQM3
DRAM_SDQS3
DRAM_SDQS4_B
DRAM_DQM4
DRAM_SDQS4
DRAM_SDQS5_B
DRAM_DQM5
DRAM_SDQS5
DRAM_SDQS6_B
DRAM_DQM6
DRAM_SDQS6
DRAM_SDQS7_B
DRAM_DQM7
DRAM_SDQS7
R102
10k
GND
1%
1%
DRAM_A[15..0]
DRAM_D[63..0]
i.MX6 DDR3
1%
R45
200
DRAM_SDCLK0
DRAM_SDCLK0_B
1%
R47
200
DRAM_SDCLK1
DRAM_SDCLK1_B
C539 C549 C550 C551 C552 C553 C554 C555 C556 C557
C540 C541 C542 C543 C544 C545 C546 C547
16V
C548
0.22uF
FL16
0.022uF
FL17
0.022uF
10V
C535
10uF
10V
C536
10uF
GND
GND
FL18
0.022uF
FL19
0.022uF
10V
C537
10uF
GND
10V
C538
10uF
GND
GND
GND
DDR_1V5
DDR_1V5_LDDR_1V5_R
DDR_1V5_L
GND
R415
910
GND
R416
910
R417
910
R418
910
R419
910
R420
910
R421
910
R422
910
R423
910
GND GND
GND
GND
C158
C183 C184
FL16-19 : NFM18CC223R1C3
JPS : Connected with pattern
XK-5
MGH-106A 3/16
00228-26241
XK-5
7-3
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