SONY 32BX300, 32AF41 Diagram

HISTORY INFORMATION FOR THE FOLLOWING MANUAL:
SERVICE MANUAL
MODEL NAME REMOTE COMMANDER DESTINATION
KDL-22BX300
KDL-22BX300
KDL-22BX300
KDL-22BX300
KDL-32BX300
KDL-32BX300
KDL-32BX300
RM-YD035 CND
RM-YD035 MX
RM-YD035 LATIN AMERICA
RM-YD035 CND
RM-YD035 MX
AZ1-FK
CHASSIS
LEVEL
CONFIDENTIAL
3
CONFIDENTIAL
ELECTRICAL SERVICE MANUAL
INTERNAL ONLY
ORIGINAL MANUAL ISSUE DATE: 2/2010
REVISION DATE SUBJECT
2/2010 No revisions or updates are applicable at this time.
9-883-846-51
LCD DIGITAL COLOR TV
KDL-22BX300/32BX300

TABLE OF CONTENTS

SECTION TITLE PAGE
Safety-Related Component Warning ..........................................................................................................................................................................3
Safety Check-Out ....................................................................................................................................................................................................... 5
SECTION 1: DIAGRAMS ................................................................................................................................................................................................... 6
1-1. Circuit Boards Location ...................................................................................................................................................................................... 6
1-2. Printed Wiring Boards and Schematic Diagrams Information ............................................................................................................................ 6
1-3. Block Diagram .................................................................................................................................................................................................... 8
1-4. Schematics and Supporting Information ............................................................................................................................................................9
A Board Schematic Diagram (1 of 15) ................................................................................................................................................................ 9
A Board Schematic Diagram (2 of 15) .............................................................................................................................................................. 10
A Board Schematic Diagram (3 of 15) .............................................................................................................................................................. 11
A Board Schematic Diagram (4 of 15) .............................................................................................................................................................. 12
A Board Schematic Diagram (5 of 15) .............................................................................................................................................................. 13
A Board Schematic Diagram (6 of 15) .............................................................................................................................................................. 14
A Board Schematic Diagram (7 of 15) .............................................................................................................................................................. 15
A Board Schematic Diagram (8 of 15) .............................................................................................................................................................. 16
A Board Schematic Diagram (9 of 15) .............................................................................................................................................................. 17
A Board Schematic Diagram (10 of 15) ............................................................................................................................................................ 18
A Board Schematic Diagram (11 of 15) ............................................................................................................................................................ 19
A Board Schematic Diagram (12 of 15) ............................................................................................................................................................ 20
A Board Schematic Diagram (13 of 15) ............................................................................................................................................................ 21
A Board Schematic Diagram (14 of 15) ............................................................................................................................................................ 22
A Board Schematic Diagram (15 of 15) ............................................................................................................................................................ 23
GD1 (Power) Board Schematic Diagram (1 of 2) (KDL-22BX300 ONLY) ........................................................................................................ 26
GD1 (Power) Board Schematic Diagram (2 of 2) (KDL-22BX300 ONLY) ........................................................................................................ 27
G2LE (Power) Board Schematic Diagram (KDL-32BX300 ONLY) .................................................................................................................. 29
H Board Schematic Diagram ............................................................................................................................................................................ 31
Switch Unit Schematic Diagram ....................................................................................................................................................................... 32
APPENDIX A: ENCRYPTION KEY COMPONENTS ..................................................................................................................................................... A-1
KDL-22BX300/32BX300
2

SAFETY-RELATED COMPONENT WARNING

KDL-22BX300/32BX300
There are critical components used in LCD color TVs that are important for safety. These components are identifi ed with shading and mark on the schematic diagrams and the electrical parts list. It is essential that these critical parts be replaced only with the part number specifi ed in the electrical parts list to prevent electric shock, fi re, or other hazard.
NOTE: Do not modify the original design without obtaining written permission from the manufacturer or you will void the original parts and labor guarantee.
!
USE CAUTION WHEN HANDLING THE LCD PANEL
When repairing the LCD panel, be sure you are grounded by using a wrist band.
When installing the LCD panel on a wall, the LCD panel must be secured using the 4 mounting holes on the rear cover.
To avoid damaging the LCD panel:
do not press on the panel or frame edge to avoid the risk of electric shock. do not scratch or press on the panel with any sharp objects. do not leave the module in high temperatures or in areas of high humidity for an extended period of time. do not expose the LCD panel to direct sunlight. avoid contact with water. It may cause a short circuit within the module. disconnect the AC adapter when replacing the backlight (CCFL) or inverter circuit.
(High voltage occurs at the inverter circuit at 650Vrms.)
always clean the LCD panel with a soft cloth material. use care when handling the wires or connectors of the inverter circuit. Damaging the wires may cause a short. protect the panel from ESD to avoid damaging the electronic circuit (C-MOS).
LEAKAGE CURRENT HOT CHECK CIRCUIT
KDL-22BX300/32BX300
3
KDL-22BX300/32BX300
The circuit boards used in these models have been processed using Lead Free Solder. The boards are identified by the LF logo located close to the board designation e.g. H1 etc [ see example ]. The servicing of these boards requires special precautions to be taken as outlined below.
example
It is strongly recommended to use Lead Free Solder material in order to guarantee optimal quality of new solder joints. Lead Free Solder is available under the following part numbers :
r e b m u n t r a P r e t e m a i D s k r a m e R
9 1 - 5 0 0 - 0 4 6 - 7m m 3 . 0g K 5 2 . 0
0 2 - 5 0 0 - 0 4 6 - 7m m 4 . 0g K 0 5 . 0
1 2 - 5 0 0 - 0 4 6 - 7m m 5 . 0g K 0 5 . 0
2 2 - 5 0 0 - 0 4 6 - 7m m 6 . 0g K 5 2 . 0
3 2 - 5 0 0 - 0 4 6 - 7m m 8 . 0g K 0 0 . 1
4 2 - 5 0 0 - 0 4 6 - 7m m 0 . 1g K 0 0 . 1
5 2 - 5 0 0 - 0 4 6 - 7m m 2 . 1g K 0 0 . 1
6 2 - 5 0 0 - 0 4 6 - 7m m 6 . 1g K 0 0 . 1
Due to the higher melting point of Lead Free Solder the soldering iron tip temperature needs to be set to 370 degrees centigrade. This requires soldering equipment capable of accurate temperature control coupled with a good heat recovery characteristics.
For more information on the use of Lead Free Solder, please refer to
http://www.sony-training.com
KDL-22BX300/32BX300
4

SAFETY CHECK-OUT

To E
l
KDL-22BX300/32BX300
After correcting the original service problem, perform the following safety checks before releasing the set to the customer:
1. Check the area of your repair for unsoldered or poorly soldered connections. Check the entire board surface for solder splashes and bridges.
2. Check the interboard wiring to ensure that no wires are “pinched” or touching high-wattage resistors.
3. Check that all control knobs, shields, covers, ground straps, and mounting hardware have been replaced. Be absolutely certain that you have replaced all the insulators.
4. Look for unauthorized replacement parts, particularly transistors, that were installed during a previous repair. Point them out to the customer and recommend their replacement.
5. Look for parts which, though functioning, show obvious signs of deterioration. Point them out to the customer and recommend their replacement.
6. Check the line cords for cracks and abrasion. Recommend the replacement of any such line cord to the customer.
7. Check the antenna terminals, metal trim, “metallized” knobs, screws, and all other exposed metal parts for AC leakage. Check leakage as described below.
The AC leakage from any exposed metal part to earth ground and from all exposed metal parts to any exposed metal part having a return to chassis, must not exceed 0.5 mA (500 microamperes). Leakage current can be measured by any one of three methods.
1. A commercial leakage tester, such as the Simpson 229 or RCA WT-540A. Follow the manufacturers’ instructions to use these instructions.
2. A battery-operated AC milliampmeter. The Data Precision 245 digital multimeter is suitable for this job.
3. Measuring the voltage drop across a resistor by means of a VOM or battery-operated AC voltmeter. The “limit” indication is 0.75 V, so analog meters must have an accurate low voltage scale. The Simpson’s 250 and Sanwa SH-63TRD are examples of passive VOMs that are suitable. Nearly all battery-operated digital multimeters that have a 2 VAC range are suitable (see Figure A).
How to Find a Good Earth Ground
A cold-water pipe is a guaranteed earth ground; the cover-plate retaining screw on most AC outlet boxes is also at earth ground. If the retaining screw is to be used as your earth ground, verify that it is at ground by measuring the resistance between it and a cold-water pipe with an ohmmeter. The reading should be zero ohms.
If a cold-water pipe is not accessible, connect a 60- to 100-watt trouble- light (not a neon lamp) between the hot side of the receptacle and the retaining screw. Try both slots, if necessary, to locate the hot side on the line; the lamp should light at normal brilliance if the screw is at ground potential (see Figure B).
Leakage Test
0.15 μF
Figure A. Using an AC voltmeter to check AC leakage. Figure B. Checking for earth ground.
xposed Meta
Parts on Set
Earth Ground
AC Voltmeter (0.75V)
Trouble Light
AC Outlet Box
Ohmmeter
Cold-water Pipe
KDL-22BX300/32BX300
5

1-1. CIRCUIT BOARDS LOCATION

H
KDL-22BX300/32BX300

SECTION 1: DIAGRAMS

A
GD1 (KDL-22BX300 ONLY) G2LE (KDL-32BX300 ONLY)
SWITCH UNIT
1-2.

PRINTED WIRING BOARDS AND SCHEMATIC DIAGRAMS INFORMATION

All capacitors are in μF unless otherwise noted. pF : μμF 50WV or less are not indicated except for electrolytics and tantalums.
All electrolytics are in 50V unless otherwise specifi ed.
All resistors are in ohms. k=1000, M=1000k
Indication of resistance, which does not have one for rating electrical power, is as follows: Pitch : 5mm Rating electrical power :
1
/
W in resistance, 1/
4
W and 1/
10
W in chip resistance.
16
1
/
4
: nonfl ammable resistor
: fusible resistor
: internal component
: panel designation and adjustment for repair
: earth ground
: earth-chassis
All variable and adjustable resistors have characteristic curve B, unless otherwise noted.
All voltages are in V.
S : Measurement impossibility.
: B+line.
: B-line. (Actual measured value may be different).
: signal path. (RF)
Circled numbers are waveform references.
W
The components identifi ed by shading and ! symbol are critical for safety. Replace only with part number specifi ed.
The symbol indicates a fast operating fuse and is displayed on the component side of the board. Replace only with fuse of the same rating as marked.
Les composants identifi es per un trame et une marque securite. Ne les remplacer que par une piece portant le numero specifi e.
Le symbole indique une fusible a action rapide. Doit etre remplace par une fusible de meme yaleur, comme maque.
Readings are taken with a color-bar signal input.
Readings are taken with a 10M digital multimeter.
Voltages are DC with respect to ground unless otherwise noted.
Voltage variations may be noted due to normal production tolerances.
NOTE: The components identifi ed by a red outline and a mark contain confi dential information. Specifi c instructions must be adhered to whenever these components are repaired and/or replaced. See Appendix A: Encryption Key Components in the back of this manual.
!
sont critiques pour la
KDL-22BX300/32BX300
6
KDL-22BX300/32BX300
REFERENCE INFORMATION
RESISTOR : RN METAL FILM : RC SOLID : FPRD NONFLAMMABLE CARBON : FUSE NONFLAMMABLE FUSIBLE : RW NONFLAMMABLE WIREWOUND : RS NONFLAMMABLE METAL OXIDE : RB NONFLAMMABLE CEMENT : ADJUSTMENT RESISTOR
COIL : LF-8L MICRO INDUCTOR
CAPACITOR : TA TANTALUM : PS STYROL : PP POLYPROPYLENE : PT MYLAR : MPS METALIZED POLYESTER : MPP METALIZED POLYPROPYLENE : ALB BIPOLAR : ALT HIGH TEMPERATURE : ALR HIGH RIPPLE
Terminal name of semiconductors in silk screen printed circuit ( )
Device Printed symbol Terminal name
Transistor
1
Transistor
2
3
Diode
4
Diode
Diode
5
Diode
6
Diode
7
8
Diode
Diode
9
Diode
10
Diode
11
Diode
12
Transistor
13
(FET)
Transistor
14
(FET)
Transistor
15
(FET)
Transistor
16
Transistor
17
Transistor
18
Transistor
19
Transistor
20
Transistor
21
Transistor
22
Transistor
23
Discrete semiconductor
(Chip semiconductors that are not actually used are included.)
*
Collector
Base
Collector
Base
Cathode
Cathode
Anode
Cathode
Anode
Common
Anode
Common
Anode Cathode
Common
Anode
Common
Anode Anode
Common
Cathode
Common
Cathode
Anode Anode
Cathode
Drain
Drain
B1 E1
C2
B2 C1E2
B2 E2
C1
B1 C2
E1
B2 E2
C1
B1 C2E1
B2 E2
C1
B1 C2E1
E2
B1 E1
C2
(B2)
E1
B1
C1
(B2)
E1
E2
C2
Emitter
Emitter
Anode
(NC)
(NC)
Cathode
Anode
Cathode
Cathode
Cathode Anode Anode
Source
Gate
Source
Gate
Source Drain Gate
Emitter Collector Base
C1(B2)
E2
C2
B1
C1
Circuit
D
G
D
S
B1
B1
B1
B1
B1
B1
D
G
S
S
D
G
C1
E1
C1
E1
E1
C1
E2
C1
C1
G
S
C2
B2
E2
C2
B2
E2
E2
B2
C2
C2C1(B2)
E2 E2E1(B2)
C2 C2E1(B2)
C2
Ver.1.6
KDL-22BX300/32BX300
7

1-3. BLOCK DIAGRAM

KDL-22BX300/32BX300
KDL-22BX300/32BX300
8

1-4. SCHEMATICS AND SUPPORTING INFORMATION

A BOARD SCHEMATIC DIAGRAM (1 OF 15)

1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 |
KDL-22BX300/32BX300
A
B
C
D
E
F
+3V3SB_PWR
DIGITAL POWER DV33
+5V_PWR
3
INPUT
12
12
C237
C237
10U_10V_M
10U_10V_M
0805_X5R
0805_X5R
C27
C27
0.1U_16V_K
0.1U_16V_K 0603_X7R
0603_X7R
+5V
L3 100R-100MHZ_0805L3 100R-100MHZ_0805
Stand By Power
L62 100R-100MHZ_0805L62 100R-100MHZ_0805
12
C192
C192 10U_10V_M
10U_10V_M 0805_X5R
0805_X5R
U29
U29
2
OUTPUT
4
12
4
ADJ/GND
AZ1084S-ADJTRE1
AZ1084S-ADJTRE1
1
null
null
R27
R27
110_F
110_F 0603
0603
12
R3251
R3251
180_F
180_F 0603
0603
Core Power 1.1V
12
12
C19
C19
C18
C18
0.1U_50V_K
10U_16V_K
10U_16V_K
1206_X7R
1206_X7R
0.1U_50V_K 0603_X7R
0603_X7R
+3V3SB
12
C2
C2
0.1U_16V_K
0.1U_16V_K 0603_X7R
0603_X7R
L79 100R-100MHZ_0805L79 100R-100MHZ_0805
12
C22
C22 10U_10V_M
10U_10V_M 0805_X5R
0805_X5R
12
C14
C14 NC_0.1U_16V_K
NC_0.1U_16V_K 0603_X7R
0603_X7R
12
R3252
R3252
36K_F
36K_F 0402
0402
12
C612
C612 330P_16V_J
330P_16V_J 0402_NP0
0402_NP0
DV33
1
12
C21
C21 10U_10V_M
10U_10V_M 0805_X5R
0805_X5R
4
3
1
null U34
null
IN
LX_1 LX_2
EN
COMP
FREQ
GND
G5682P11U
G5682P11U
2
12
U34
5 6
8
FB
7
(RP5=36K , SW Freq=1.4MHz)
TP227TP227
C26
C26
0.1U_16V_K
0.1U_16V_K 0603_X7R
0603_X7R
12
R3253
R3253
30K_J
30K_J 0402
0402
ANALOG POWER AV33
+5V_PWR
12
12
C235
C235
C236
10U_10V_M
10U_10V_M
0805_X5R
0805_X5R
C236
0.1U_16V_K
0.1U_16V_K 0603_X7R
0603_X7R
10U_10V_M
10U_10V_M
0805_X5R
0805_X5R
L1
L1
1.5UH_3.3A_0.038R
1.5UH_3.3A_0.038R VLC5020T-1R5N
VLC5020T-1R5N
1 2
21
D2 B340BD2B340B
C181
C181
AV33
12
U27
U27
OUT
VIN
VOUT
ADJ
FR1117-R3GTR
FR1117-R3GTR null
null
2
12
4
R3249
R3249
12
C12
C12
110_F
110_F
10U_10V_M
10U_10V_M 0805_X5R
0805_X5R
0603
0603
12
R3250
R3250
180_F
180_F 0603
0603
3
1
ANALOG POWER AV125
U1
U1
3
VIN
12
C9
C9
0.1U_16V_K
0.1U_16V_K 0603_X7R
0603_X7R
12
C160
C160 NC_0.1U_16V_K
NC_0.1U_16V_K 0603_X7R
0603_X7R
12
R336
R336
20K_F
20K_F 0603
0603
(0.8 x (1+7.5K/20K) = 1.1V)
1
ADJ
FR1117-R3GTR
FR1117-R3GTR null
null
12
R3254
R3254
7.5K_F
7.5K_F 0603
0603
OUT
VOUT
L27 100R-100MHZ_0805L27 100R-100MHZ_0805
2
12
4
R3
R3
100_F
100_F 0603
0603
12
R4
R4
0_J
0_J 0603
0603
12
C95
C95
0.1U_16V_K
0.1U_16V_K 0603_X7R
0603_X7R
AV33
12
C15
C15
0.1U_16V_K
0.1U_16V_K 0603_X7R
0603_X7R
L65 100R-100MHZ_0805L65 100R-100MHZ_0805
12
C182
C182 10U_10V_M
10U_10V_M 0805_X5R
0805_X5R
DV11
12
CAP13
CAP13
+
+
220U_16V_M
220U_16V_M
6.3x11
6.3x11
12
C31
C31 10U_10V_M
10U_10V_M 0805_X5R
0805_X5R
12
C10
C10
0.1U_16V_K
0.1U_16V_K 0603_X7R
0603_X7R
DV11
1
12
TP229TP229
C13
C13 10U_10V_M
10U_10V_M 0805_X5R
0805_X5R
12
C53
C53 10U_10V_M
10U_10V_M 0805_X5R
0805_X5R
AV125
1
12
TP228TP228
C11
C11 1U_16V_K
1U_16V_K 0603_X7R
0603_X7R
C239
C239
10U_16V_K
10U_16V_K
1206_X7R
1206_X7R
+5V
DV11
12
1U_16V_K
1U_16V_K
0603_X7R
0603_X7R
12
C240
C240
R254 10K_J 0603R254 10K_J 0603
1
2
1
R252
R252
10K_J
10K_J
0603
0603
R253 470K_J 0603R253 470K_J 0603
C
C
B
B
Q11
Q11
E
E
MMBT3904
MMBT3904
2 3
1 2 3
12
1
D50
D50
1
B0530WS-7-F
B0530WS-7-F null
null
+12V
Q10
Q10 P2003EVG
P2003EVG null
null
S
S
4
2
2
GND
+5V_PWR
+3V3SB_PWR
+3V3SB DV11
DV33 AV33 AV125 +5V
5 6
D
D
7 8
G
G
12
C243
C243
0.01U_25V_K
0.01U_25V_K 0603_X7R
0603_X7R
+5V_PWR+5V_PWR
12
+
CAP24
+
CAP24 NC_220U_16V_M
NC_220U_16V_M
6.3x11
6.3x11
GND
+5V_PWR +3V3SB_PWR +3V3SB DV11
DV33 AV33 AV125 +5V +12V
+5V_PWR
1
12
C244
C244
0.1U_50V_K
0.1U_50V_K 0603_X7R
0603_X7R
TP231TP231
G
H
I
KDL-22BX300/32BX300
+12V
L14 100R-100MHZ_0805L14 100R-100MHZ_0805
12
+
+
CAP20
CAP20 470U_16V_M
470U_16V_M 8x11.5
8x11.5
12
C28
C28
0.1U_50V_K
0.1U_50V_K 0603_X7R
0603_X7R
U2
U2 FP6346-T6GTR null
FP6346-T6GTR null
1
VIN
6
GND_2
SD
5
OUT
GND_13FB
L2
L2
33UH_3A_0.0648R
33UH_3A_0.0648R SCDS127T-330M-N
2
4
21
SCDS127T-330M-N
1 2
D3 B340BD3B340B
12
12
R338
R338
3.09K_F
3.09K_F 0603
0603
R337
R337
1K_F
1K_F 0603
0603
12
CAP14
CAP14
+
+
220U_16V_M
220U_16V_M
6.3x11
6.3x11
+5V
12
C96
C96
0.1U_16V_K
0.1U_16V_K 0603_X7R
0603_X7R
TP230TP230
1
21
D88
D88 LLZ5235B
LLZ5235B null
null
A 1/15
DIGITAL/ANALOG POWER
1-857-611-11 <AZ1FK> A-P1
9

A BOARD SCHEMATIC DIAGRAM (2 OF 15)

1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 |
KDL-22BX300/32BX300
A
B
C
D
E
F
G
H
I
U22
U22
G8
DDRV
RDQ16 RDQ17 RDQ18 RDQ19 RDQ20 RDQ21 RDQ22 RDQ23 RDQ24 RDQ25 RDQ26 RDQ27 RDQ28 RDQ29 RDQ30 RDQ31
RDQS3 RDQS3# RDQS2 RDQS2# RDQM3 RDQM2 RVREF2 2_CKE
DQ0
G2
DQ1
H7
DQ2
H3
DQ3
H1
DQ4
H9
DQ5
F1
DQ6
F9
DQ7
C8
DQ8
C2
DQ9
D7
DQ10
D3 D1 D9 B1 B9 A2 E2 B7 A8
F7 E8 B3
F3
J2 K2 A1 A9 C1 C3 C7 C9 E1 E9 G1 G3 G7 G9
J1
J9
R1
A10/AP DQ11 DQ12 DQ13
NC_6 NC_4
DQ14 DQ15
NC_5 NC_1 NC_2 UDQS
NC_3 UDQS# LDQS LDQS# UDM
CAS# LDM
ODT
VREF
RAS# CKE
WE#
VDD_1
VSS_1
VSSQ_1
VDDQ_1
VSSQ_2
VDDQ_2 VDDQ_3
VSSQ_3
VDDQ_4
VSSQ_4 VSSQ_5
VDDQ_5 VDD_2
VSS_2
VSSQ_6
VDDQ_6
VSSQ_7
VDDQ_7
VSSQ_8
VDDQ_8 VDDQ_9
VSSQ_9
VDDQ_10
VSSQ_10
VSS_3
VDDL VDD_3
VSSDL
VDD_4M9VSS_4
VSS_5
VDD_5
SDRAM_BGA-84_512MB
SDRAM_BGA-84_512MB NT5TU32M16CG-25C
NT5TU32M16CG-25C
DDR#2 DDR#1
DRAM POWER DDRV
L67 100R-100MHZ_0805L67 100R-100MHZ_0805
C338
C338
10U_10V_M
10U_10V_M
0805_X5R
0805_X5R
AV125
AV12_MEMPLL
L69 100R-100MHZ_0805L69 100R-100MHZ_0805
DRAM DE-CAP.
[ RESERVE ]
12
C340
C340 NC_10U_10V_M
NC_10U_10V_M
0805_X5R
0805_X5R
[ RESERVE ]
12
C341
C341 NC_10U_10V_M
NC_10U_10V_M
0805_X5R
0805_X5R
12
12
C32
C32 1U_16V_K
1U_16V_K 0603_X7R
0603_X7R
AVSS12_MEMPLL
DDRV
12
DDRV
12
3
12
C23
C23
0.1U_16V_K
0.1U_16V_K 0603_X7R
0603_X7R
AV12_MEMPLL
C34
C34
4.7U_10V_K
4.7U_10V_K 0603_X5R
0603_X5R
C44
C44
4.7U_10V_K
4.7U_10V_K 0603_X5R
0603_X5R
INPUT
MT5388 DE-CAP.
DDRV
12
C339
C339 10U_10V_M
10U_10V_M 0805_X5R
0805_X5R
12
C54
C54
4.7U_10V_K
4.7U_10V_K 0603_X5R
0603_X5R
A0 A1 A2 A3 A4 A5 A6 A7 A8 A9
A11 A12
BA0 BA1
CK CK# CS#
12
12
12
M8
2_A0
M3
2_A1
M7
2_A2
N2
2_A3
N8
2_A4
N3
2_A5
N7
2_A6
P2
2_A7
P8
2_A8
P3
2_A9
M2
2_A10
P7
2_A11
R2
2_A12 R8 R3 R7 L2
2_BA0 L3
2_BA1 L1
2_BA2 J8
CLK1 K8
CLK1# L8
2_CS# L7
2_CAS# K9
2_ODT K7
2_RAS# K3
2_WE# A3 A7 B2 B8 D2 D8 E3 E7 F2 F8 H2 H8 J3 J7 N1 P9
U24
U24
2
OUTPUT
4
4
ADJ/GND
AZ1084S-ADJTRE1
AZ1084S-ADJTRE1 1
null
null
12
C33
C33
0.01U_16V_K
0.01U_16V_K 0402_X7R
0402_X7R
C65
C65 1U_16V_K
1U_16V_K 0603_X7R
0603_X7R
C45
C45 1U_16V_K
1U_16V_K 0603_X7R
0603_X7R
C55
C55 1U_16V_K
1U_16V_K 0603_X7R
0603_X7R
Damping for DDR#2 ADDR/CMD
NEAR BRANCH
2_A0
2_A8 RA8 2_A11
2_A3 2_A10 2_A1 2_BA2
2_BA0 2_BA1 2_CKE 2_WE#
2_A4 2_A6 2_A2 2_CAS#
2_A9 2_A12 2_A7 2_A5 RA5
RCS#
RRAS#
RODT
RCLK1
RCLK1#
12
R20
R20
110_F
110_F 0603
0603
12
R24
R24
48.7_F
48.7_F 0603
0603
12
C36
C36
0.1U_16V_K
0.1U_16V_K 0402_X7R
0402_X7R
12
C46
C46
0.1U_16V_K
0.1U_16V_K 0402_X7R
0402_X7R
12
C56
C56
0.1U_16V_K
0.1U_16V_K 0402_X7R
0402_X7R
1
RP2
RP2
2 3 4
56R 0804_8P4R
56R 0804_8P4R
1
RP4
RP4
2 3 4
56R 0804_8P4R
56R 0804_8P4R
1
RP6
RP6
2 3 4 5
56R 0804_8P4R
56R 0804_8P4R
1
RP8
RP8
2 3 4 5
56R 0804_8P4R
56R 0804_8P4R
1
RP10
RP10
2 3 4
56R 0804_8P4R
56R 0804_8P4R
1 2
R8 56_J0402R8 56_J0402
1
R10 56_J0402R10 56_J0402
1 2
R29 56_J0402R29 56_J0402
1 2
R14 22_J
R14 22_J
R18 22_J
R18 22_J
1
12
CAP56
CAP56
+
+
560U_4V_M
560U_4V_M 8x8
8x8
12
C37
C37
0.1U_16V_K
0.1U_16V_K 0402_X7R
0402_X7R
12
C47
C47
0.1U_16V_K
0.1U_16V_K 0402_X7R
0402_X7R
12
C57
C57
0.1U_16V_K
0.1U_16V_K 0402_X7R
0402_X7R
0402
0402
0402
0402
12
12
12
8 7 6 5
8 7 6 5
8 7 6
8 7 6
8 7 6 5
2
NEAR DRAMNEAR IC
2
C38
C38
0.1U_16V_K
0.1U_16V_K 0402_X7R
0402_X7R
C48
C48
0.1U_16V_K
0.1U_16V_K 0402_X7R
0402_X7R
C58
C58
0.1U_16V_K
0.1U_16V_K 0402_X7R
0402_X7R
12
12
RA0
RA11
RA3 RA10 RA1 RBA2
RBA0 RBA1 RCKE RWE#
RA4 RA6 RA2 RCAS#
RA9 RA12 RA7
2_CS#
2_RAS#
2_ODT
CLK1
R16
R16
100_F
100_F 0402
0402
CLK1#
C24
C24 1U_16V_K
1U_16V_K 0603_X7R
0603_X7R
12
C39
C39
0.1U_16V_K
0.1U_16V_K 0402_X7R
0402_X7R
12
C49
C49
0.1U_16V_K
0.1U_16V_K 0402_X7R
0402_X7R
12
C59
C59
0.1U_16V_K
0.1U_16V_K 0402_X7R
0402_X7R
Damping for DDR#1 ADDR/CMD
NEAR BRANCH
1_A11
RP3
RP3
1_A0
56R 0804_8P4R
56R 0804_8P4R
56R
56R
1_A5 1_A7 1_A9 1_A12 RA12
RP5
1_CAS#
RP7
RP7 1_A2 1_A6 1_A4
56R 0804_8P4R
56R 0804_8P4R
1_BA2 1_A1 1_A10 1_A3
1_WE# 1_CKE 1_BA1 1_BA0
RCS#
R9 56_J0402R9 56_J0402
RRAS#
R11 56_J0402R11 56_J0402
RODT
R31 56_J0402R31 56_J0402
RCLK0
RCLK0#
DDRVDV33
1
TP234TP234
12
C25
C25 NC_0.1U_16V_K
NC_0.1U_16V_K 0603_X7R
0603_X7R
12
C40
C40
0.1U_16V_K
0.1U_16V_K 0402_X7R
0402_X7R
12
C50
C50
0.1U_16V_K
0.1U_16V_K 0402_X7R
0402_X7R
12
C60
C60
0.1U_16V_K
0.1U_16V_K 0402_X7R
0402_X7R
1 2 3 4 5
4 5 3 2 1
1 2 3 4 5
8 7 6 5
8 7 6
1 2
1 2
1 2
NEAR IC
1 2
R15
R15
22_J
22_J 0402
0402
R19
R19 22_J
22_J
1 2
0402
0402
12
12
12
C41
C41
0.1U_16V_K
0.1U_16V_K 0402_X7R
0402_X7R
12
C51
C51
0.1U_16V_K
0.1U_16V_K 0402_X7R
0402_X7R
12
C61
C61
0.1U_16V_K
0.1U_16V_K 0402_X7R
0402_X7R
R3242
R3242
1K_F
1K_F 0402
0402
R3243
R3243
1K_F
1K_F 0402
0402
8 7 6
6 7 8
8 7 6
1
RP9
RP9 2 3 4
1
RP11
RP11 2 3 45
RA11 RA81_A8
RA0
RA5 RA7 RA9
0804_8P4RRP5
0804_8P4R
RCAS# RA2 RA6 RA4
RBA2 RA1 RA10 RA3
56R0804_8P4R
56R0804_8P4R
RWE# RCKE RBA1 RBA0
56R0804_8P4R
56R0804_8P4R
1_CS#
1_RAS#
1_ODT
NEAR DRAM
CLK0
12
R17
R17
100_J
100_J 0402
0402
CLK0#
12
12
C42
C42
0.1U_16V_K
0.1U_16V_K 0402_X7R
0402_X7R
12
C52
C52
0.1U_16V_K
0.1U_16V_K 0402_X7R
0402_X7R
C177
C177
0.1U_16V_K
0.1U_16V_K 0402_X7R
0402_X7R
12
RDQ0 RDQ1 RDQ2 RDQ3 RDQ4 RDQ5 RDQ6 RDQ7 RDQ8 RDQ9 RDQ10 RDQ11 RDQ12 RDQ13 RDQ14 RDQ15
RDQS1 RDQS1# RDQS0 RDQS0# RDQM1 RDQM0 RVREF1 1_CKE
DDRV
C43
C43
0.1U_16V_K
0.1U_16V_K 0402_X7R
0402_X7R
U23
U23
G8
DQ0
G2
DQ1
H7
DQ2
H3
DQ3
H1
DQ4
H9
DQ5
F1
DQ6
F9
DQ7
C8
DQ8
C2
DQ9
D7
DQ10
D3
DQ11
D1
DQ12
D9
DQ13
B1
DQ14
B9
DQ15
A2
NC_1
E2
NC_2
B7
UDQS
A8
UDQS#
F7
LDQS
E8
LDQS#
B3
UDM
F3
LDM
J2
VREF
K2
CKE
A1
VDD_1
A9
VDDQ_1
C1
VDDQ_2
C3
VDDQ_3
C7
VDDQ_4
C9
VDDQ_5
E1
VDD_2
E9
VDDQ_6
G1
VDDQ_7
G3
VDDQ_8
G7
VDDQ_9
G9
VDDQ_10
J1
VDDL
J9
VDD_3 VDD_4M9VSS_4
R1
VDD_5
SDRAM_BGA-84_512MB
SDRAM_BGA-84_512MB NT5TU32M16CG-25C
NT5TU32M16CG-25C
DDRVDDRV
12
R3244
R3244
1K_F
1K_F 0402
0402
12
R3245
R3245
1K_F
1K_F 0402
0402
A10/AP
NC_6 NC_4 NC_5
NC_3
CAS#
ODT
RAS#
WE#
VSS_1 VSSQ_1 VSSQ_2 VSSQ_3 VSSQ_4 VSSQ_5
VSS_2 VSSQ_6 VSSQ_7 VSSQ_8 VSSQ_9
VSSQ_10
VSS_3
VSSDL
VSS_5
12
M8
A0
M3
A1
M7
A2
N2
A3
N8
A4
N3
A5
N7
A6
P2
A7
P8
A8
P3
A9
M2 P7
A11
R2
A12
R8 R3 R7 L2
BA0
L3
BA1
L1 J8
CK
K8
CK#
L8
CS#
L7 K9 K7 K3 A3 A7 B2 B8 D2 D8 E3 E7 F2 F8 H2 H8 J3 J7 N1 P9
C178
C178
0.1U_16V_K
0.1U_16V_K 0402_X7R
0402_X7R
1_A0 1_A1 1_A2 1_A3 1_A4 1_A5 1_A6 1_A7 1_A8 1_A9 1_A10 1_A11 1_A12
1_BA0 1_BA1 1_BA2 CLK0 CLK0# 1_CS# 1_CAS# 1_ODT 1_RAS# 1_WE#
RA12 RA11 RA10 RA9 RA8 RA7 RA6 RA5 RA4 RA3 RA2 RA1 RA0
RBA0 RBA1 RBA2
RCLK1 RCLK1#
RCLK0 RCLK0#
RCS# RRAS# RCAS# RWE#
RODT RCKE
DDRV
DV33 AV125
DDRV
GND
12
R23
R23
100_J
100_J 0402
0402
GND3,5,6,7,8,9,10,11,12,13,14,15,16,17
DV333,5,6,8,12,13,15,16,17 AV1253,5,7,8,13,16
DDRV16
MT5388 RVREFDDR1 RVREF DDR2 RVREF
DDRV
12
R3247
R3247
1K_F
1K_F 0402
0402
RVREF3RVREF2RVREF1
12
R3246
R3246
1K_F
1K_F 0402
0402
12
C183
C183
0.1U_16V_K
0.1U_16V_K 0402_X7R
0402_X7R
TP73TP73 TP74TP74
1 1
AV12_MEMPLL
AVSS12_MEMPLL
RDQM0 RDQM1 RDQM2 RDQM3
RDQ0 RDQ1 RDQ2 RDQ3 RDQ4 RDQ5 RDQ6 RDQ7 RDQS0 RDQS0#
RDQ8 RDQ9 RDQ10 RDQ11 RDQ12 RDQ13 RDQ14 RDQ15 RDQS1 RDQS1#
RDQ16 RDQ17 RDQ18 RDQ19 RDQ20 RDQ21 RDQ22RDQ22 RDQ23 RDQS2 RDQS2#
RDQ24 RDQ25 RDQ26 RDQ27 RDQ28 RDQ29 RDQ30 RDQ31 RDQS3 RDQS3#
MEMTP MEMTN
RVREF3 RVREF3
U3B
U3B
J23
RDQM0
J22
RDQM1
C15
RDQM2
D15
RDQM3
F25
RDQ0
L24
RDQ1
E24
RDQ2
L25
RDQ3
L26
RDQ4
E25
RDQ5
K24
RDQ6
F24
RDQ7
J25
RDQS0
J26
RDQS0_
G22
RDQ8
K25
RDQ9
G23
RDQ10
K23
RDQ11
K22
RDQ12
F23
RDQ13
J24
RDQ14
G24
RDQ15
G25
RDQS1
G26
RDQS1_
D12
RDQ16
C17
RDQ17
C12
RDQ18
B18
RDQ19
A18
RDQ20
B12
RDQ21
B17
RDQ22
E12
RDQ23
B16
RDQS2
A16
RDQS2_
D13
RDQ24
D16
RDQ25
C13
RDQ26
E15
RDQ27
E16
RDQ28
B13
RDQ29
C16
RDQ30
E13
RDQ31
B14
RDQS3
A14
RDQS3_
E21
MEMTP
D21
MEMTN
H17
AVDD12_MEMPLL_2
J17
AVDD12_MEMPLL_1
J16
AVSS12_MEMPLL_1
H16
AVSS12_MEMPLL_2
E17
MEM_VREF_2
D17
MEM_VREF_1
MT5388JFMG
MT5388JFMG null
null
RA12 RA11 RA10
RBA0 RBA1 RBA2
RCLK1
RCLK1_
RCLK0
RCLK0_
RCS_ RRAS_ RCAS_
RWE_
REXTDN
RODT
RCKE
VCC2IO_2 VCC2IO_3 VCC2IO_4 VCC2IO_5 VCC2IO_6 VCC2IO_7 VCC2IO_8
VCC2IO_9 VCC2IO_10 VCC2IO_11 VCC2IO_12 VCC2IO_13 VCC2IO_14 VCC2IO_15 VCC2IO_16 VCC2IO_17 VCC2IO_18 VCC2IO_19
VCC2IO_1 VCC2IO_20 VCC2IO_21
C25 C18 A23 B26
RA9
D20
RA8
A25
RA7
C21
RA6
A24
RA5
B20
RA4
B24
RA3
D22
RA2
B23
RA1
C20
RA0
B22 C22 C23
A12 A11
E26 D26
E20 E18 A20 B21 B11 D18 A21
A10 B10 C11 D11 E11 E19 A19 B19 C19 D19 F22 L22 E23 L23 D24 D25 M25 C26 M26 C10 M24
A 2/15
DRAM
KDL-22BX300/32BX300
1-857-611-11 <AZ1FK> A-P2
10
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