Download SERVICE MANUAL

SERVICE MANUAL
8M79B CHASSIS
Design and specifications are subject to change without prior notice.
(Only Referrence)
Description:
SERVICE MANUAL 8M79B
MODEL.
Brand Name:
SKYWORTH
JOB NO.
Engineering Dept:
SIZE:A5
Artwork By:
Date:
Checked By:
Date:
Approved By:
Date:
2012-02-04
Content-------------------------------------------------------------------------------2
Technical Specification-----------------------------------------------------------3-13
8M79 Block Diagram -------------------------------------------------------------14
List of key parts---------------------------------------------------------------------15
IC BLOCK Diagram----------------------------------------------------------------16-29
MAIN PCB-TOP--------------------------------------------------------------------30
MAIN PCB-BOT--------------------------------------------------------------------31
Circuit Diagrams--------------------------------------------------------------------32-40
-2-
LCD 8M79B chassis.
-3-
4.
65
For 32LED
120
For 42LED
Base on different order
5.
93
95
97
93
95
97
-4-
400
FOR 32LED
450
FOR 42LED
For 42LED
For 42LED
9800
12500
８
８
１０
-5-
１５
12500(266, 276)
9800(280, 290)
6500(313, 329)
24
40
40
3
2
1
4.2
50
0.5
12000
80
40
6
-6-
1080 For 42LED
1920 For 42LED
40
uv
NO
YES
8
6
46
uv
46
NO
Standard
Standard
20
English
Base on different order
No
Middle
-7-
"Low" in some status
4
-8-
DTV-PRODUCTOINS SPECIFICATION
42"～55"
Model #
Country( West Eu./East Eu./Russia/AP/US/S.A./Japan/…)
Brazil & Argentina
Brand
Skyworth/ODM
Category (Monitor/TV/Combo/Portable TV…)
TV
Panel technology (LCD / PDP)
LED
Market Position (High/Mid/Access,,,)
Class
Cabinet Design (Example: 01,23 series )
E72
Product Nb
-
Chassis solution
MSD309 + ISDB-T Demod
Chassis name
8M79B
Chassis PCB Standard
Skyworth RGB New Standard
Predecessor (replace)
-
MP date requested (ETD)
2011.8
MP date confirmed by supplier (ETD/ETA)
-
Status( Pre./Finish )
Regional requirement
-
Homologation (Gostandard/CE/MPTT/CB/…)
CB
RoHS
Yes
Power supply(100-240V AC +/-10%/...)
100-240V AC (-20%,+10%)
Power consumption working / Annual
-
Power consumption standby
<1W
Power plug(VDE/UL/BS/…)
UCIEE/2pins
Picture display
Screen size : diagonale (inch)
42", 47",55"
Aspect ratio (16/9 // 4/3 // 15/9)
16:9
1st panel supplier : panel suppliers
LG
1st panel supplier : panel reference
Panel Display Type(MVA/PVA/IPS/…)
TFT LCD
1st panel supplier : resolution
42/47/55:1920x1080
Dynamic contrast ratio
>10000：1
Video signal process
Comb Filter (2D/3D)
3D
Noise Reduction (adaptative/3D/…)
3D
Picture improvement ( LTI/CTI,BLE,WLE,...)
LTI/CTI
Color process (Gama correction/Skin correction /... )
Follow main IC
Colour preset (Cool/Normal/Warm/Personal)
Neutral, Cool, Warm and Personal in PC mode
Picture control ( Bright/Con./Sharpness/Color/Tint/…)
Yes
Picture presets : Standard / Bright / Soft / User
Normal / Soft / Personal / Bright
-9-
Picture freeze
Yes
Multi picture : PIP ( AV )/POP（AV）
No
Dynamic Backlight Control
No
LED Backlight
Yes
Deinterlacer (No/linerar/motion adaptive/motion
compensative)
3D motion adaptive
Film mode / reverse 3:2/2:2 pull down
Yes / Yes
Full HD support ( 1080P )
Yes
Single scan / Dual scan ( 120HZ )
Single scan
Zoom type : 4/3 format
Yes
Zoom type : 14/9 Zoom
Yes
Zoom type : 16/9 Zoom
16/9 ZOOM 1
Zoom type : 16/9 Zoom up/down
16/9 ZOOM 2
Zoom type : Cinerama
Yes
Zoom type : 16/9 Format
Yes
Zoom type : Auto ( by SCART Pin8 and WSS )
Yes
Picture Auto adjustment (PC mode)
Yes
3D Panel Type(PR / SG)
PR
3D Mode
Left/Right, Up/Down, Frame Sequence
3D To 2D (Y/N)
Yes
2D To 3D (Y/N)
Yes
Left / Right Swap (For PR Panel)
Yes
Sound
Sound type ( Mono/AV stereo/Stereo )
stereo
Music Power (Watt)/RMS Power (Watt)
2 x 8W
Tone control ( Bass&Treble / Graphic Equalizer )
Bass&Treble
Special sound effect ( AVL / WIDE / Pseudo /… )
AVL
Suround system ( Dolby / VD / SRS / BBE / … )
Built-in Surround
Sound control ( Volume , Balance , Mute )
Volume, Balance, Mute
Sound presets (User/Speech/News/Standard)
Standard / Music / Film / News / Personal
Headphone volume control ( Separated / linked )
Yes(Linked)
Sound quality ( High / Mid / Low )
Mid
Reception and Decoding capability
RF range（ATV）
54MHz～864MHz
VHF 177-213 MHZ, UHF 473-803 MHZ
RF range（DTV）
Color System (PAL/SECAM/NTSC/PAL M,N )
PAL M,PAL N,NTSC M
Audio Standard ( B/G/H/D/K/K'/I/L/L' )
M,N
Stereo audio system ( Nicam,MTS,A2,….)
BTSC,SAP
Video standard NTSC 3.58 / 4.43 (AV)/PAL 60
NTSC 3.58/4.43 , PAL
DTV SD support (DVB-T/S/C , ATSC , QAM , … )
ISDB-T
DTV HD Support
MPEG2,MPEG4,H.264
MHEG5
No
HD capability with YPbPr
PC capability (up to maximum format)
Yes (720p; 1080i; 1080p@24/50/60Hz; 480i/p; 576i/p)
Up to 1280X1024 60Hz
Up to 1080P 24/50/60HZ
HDMI capability （AV/PC Format)
Compatible video format if DVD/USB:
DviX/VCD/SVCD/JPEG/AVI/MPEG2/WMV- HD/SD
JPEG/MPEG2/MPEG4/H.264/DivX (depending on license)
-10-
Compatible audio format if DVD/USB:
MP3/WMA/AAC/MPEG1/…
Playable Discs (CD/CD-R(RW)/CD-ROM/DVD+R/+RW/R/-RW)
Card reader format compatibility
Macrovision
PVR
MP3/WMA(depending on license)
No
No
Yes
Yes（FOR USB）
No
Network
User convenience
OSD Language*
OSD Positioning
OSD Transparency Adjust
OSD Timeout Adjust
Customer Brand name(LOGO)
IB languages
ATV Program Numbers (example: 99+3AV input )
English/Spanish/Portuguese/French
No
No
No
Yes
English
99+7AV
DTV Program Numbers
370
Program edit ( naming , sorting , skip , swap …. )
Skip / Delete
Auto Naming/Auto Sorting
No
TV Guide(DTV EPG)
EPG(next Seven-day)
Favorite program
Number of buttons on cabinet (Power; Vol+/-; Pr+/-, Menu
)
Main switch button (yes/No)
Yes
Vol+/-; CH+/-, Menu ,Source,Standby(optional)
Yes
Yes/No
CCD（Closed Caption)/V-CHIP
Text Standard: (Top, FLOF,,,)
No
Teletext Level: 2.5 / 1.5
-
Pages for teletext
-
Teletext character sets ****
-
DVB-T teletext
-
Real clock
From DTV
Sleep timer
10-240 Min.
Timer
Turn On / Off, Program Switch
Parent Control -Source and Channel lock (Input code for
certain channel)
Yes
Parent Control - Child lock (set the lock of the keyboard,
only the RCU can control the TV)
No
Parent Control - Kid pass (preset the ontime, channel for
each day of the week)
No
Parent Control - Channel lock (For digital transmission
and DVD program, to filter some programms)
Calendar / Games
Yes
No
No program auto switch off
15 mins.
Hotel mode (Y/N)
T.B.D
DVD player (No/slot/tray)
No
Tuner FM (yes/No)
No
software download(RS232/CI/USB/OAD)
USB
Factory reset
Yes
-11-
Screen saver
Yes
Blue Back
No
LED indicator(Power on/Standby)
Blue / Red
Connectors -Rear
RF Input (Antenna): Air/ Cable/ 2in1
Air+Cable
Scart : CVBS in&out / RGB / S-VIDEO
No
CINCH video in / out（AV1）
CINCH audio in / out (No volumpe control on Audio
out/can be jack 3,5mm)
S-video in
No
Component Video Input (YCrCb/YPrPb)
No
Component Audio Input (YCrCb/YPrPb)
No
No
No
VGA in / Audio L/R in / Jack audio in 3.5mm
VGA + dia. 3.5mm for audio in
HDMI
2
DVI
No
Audio input for DVI
No
CINCH subwoofer out / Coaxial out (S/PDIF)
No
Headphone output connector (mm)
No
CINCH subwoofer out / Coaxial out (S/PDIF)
S/PDIF out ( Coaxial ）
No
RS232 ( Y/N , VGA or DB9 port …)
Card Readers
USB slot (No/1.1/2)
No
1 (Software update, JPEG, MP3, WMA, RMVB, DivX) Multimedia
depends on license
DVB-CI (common interface)
No
External power converter input
No
Connectors -Side
HDMI
1
AV-IN
1
AV-OUT
No
Component Video Input (YCrCb/YPrPb)
1
Component Audio Input (YCrCb/YPrPb)
1 (Share with AV audio in)
Headphone output connector (dia.mm)
1（3.5mm)
No
CINCH subwoofer out / Coaxial out (S/PDIF)
USB slot (No/1.1/2)
1 (Software update, JPEG, MP3, WMA, RMVB, DivX) Multimedia
depends on license
DVB-CI (common interface)
No
DLNA
No
UI/RC
UI design (font/pixel, 2D/3D graphic engine..)
SOD Standard
RC Model
YK76B3 ( Toshiba code)
RC system
RGB Standard
RC # of keys
Accessories included
Carton (English/French/Spanish)
English
-12-
IB
English
Circuit diagram
No
Batteries
Yes
Product registration Card
Yes（English)
1.8m
AC Cable Length
Audio Cord (Jack 3.5mm)
No
VGA Cord
No
Wallmount frame
Optional
Antenna Cable
No
6 in 1( YPbPr & CVBS) cable adapter
No
3D Glasses
Yes (2 Sets)
General Data
Size (W x H x D, with stand) in mm
-
Size (W x H x D, without stand) in mm
-
Package Size (W x H x D, without stand) in mm
-
Net Weight in kg
-
Gross Weight in Kg
-
Design / Mechanical
Wallmount VESA compatible (standard reference)
Adaptor for VESA wallmount compatibility (accessory ref)
Yes
Yes
Desktop Stand (included/optionnal + ref/No)
included
Panel Tilt (Fowards/Backwards/Rotation)
No
Swivel function desktop stand (yes/No) + motorized?
No
Docking station (yes/No)
No
Floor Stand (included/optionnal + ref/No)
No
Glass shield (yes/No)
No
Finish on Front
-
Finish on side
-
Finish on back
-
Finish on stand
-
number of colors on carton box
2
Brand logo
Customer Inlet
Other logo
No
External AC/DC Power with DC power cord (yes/No)
No
Handle (yes/No)
No
Detachable speaker (yes/No)
No
Rating Label langages
English
-13-
SYSTEM
POWER SUPPLY
KEY PAD, IR Receiver ,Ambient Sensor
Uplayer1
Optional
PIXELWORKS 3D Processor
FLASH
Motion Engine
PA131DG
HDMI1
DDRII
DVB-T&ATV
Demo d
PR
MSD309PX-LF-SB
DVB-T & IF Demo. Build in
PB
MPEG1/2/4 /H.264 Decoder
Y
3D Comb filter Video Decoder
JPEG MP3 Decoder
TPA3121
R/L
10W + 10W
R
L
Toshiba TC90517
DTV
ATV
Video
ISDB-T Demod
SAW P/S
IF (ATV)
IF+/-
Uplayer2
Side Terminals
HDMI2
HDMI3
PC
PC Audio
Tuner
Rear Terminals
S/PDIF
-14-
List of key parts
No.
1
Name
IR
Position
Type
U29
Bass
2
3
P/N
HS0038B4
5300-140038-0010
SL-R3018H-3E
5600-106154-0060
Speaker
Treble
YDG3040-2
5600-708254-00
Y2
49U3H
4900-125453-R000
Y1
HC-49U/S
4900-124053-R000
Crystal
4
Tuner
U10
VA1P1BF8405
5202-45733D-7H10
5
Saw
U30
F4401
4900-744015-0X00
U3
MP1482DS
476A-M14820-0080
U5
MP1482DS
476A-M14820-0080
U50
MP1482DS
476A-M14820-0080
U51
MP1482DS
476A-M14820-0080
U9
W9751G6JB-25
4737-W97511-0840
U15
W9751G6JB-25
4737-W97511-0840
U24
EN25F32-100HIP
471R-N25321-0080
U55
TC90517FG
4701-T90510-0640
U37
AS1117L-3.3
47B6-A11170-03
U38
AS1117L-3.3
47B6-A11170-03
N1
AS1117L-3.3
47B6-A11170-03
N2
AS1117L-1.2
47B6-A11175-0300
U54
TPA3121D2PWPR
4722-T31210-0240
U2
MSD309PX-LF-Z1-SB
475C-M30900-5230
6
IC
-15-
IC Block Diagram
Pin Configurations---AS1117L-3.3
V OUT
V OUT
L Package
U Package
(SOT-223)
(SOT-89)
3
INPUT
2
OUTPUT
1
ADJ/GND
V OUT
INPUT
2
OUTPUT
1
ADJ/GND
T Package
R Package
(TO-220)
(TO-252)
3
INPUT
2
OUTPUT
1
ADJ/GND
V OUT
S Package
(TO-263)
V OUT
3
3
INPUT
2
OUTPUT
1
ADJ/GND
-16-
3
INPUT
2
OUTPUT
1
ADJ/GND
IC Block Diagram
Pin Configurations---AS1117L-ADJ
L Package
(SOT-223)
V OUT
3
INPUT
2
OUTPUT
1
ADJ/GND
PIN ASSIGNMENT
The package of AX3113 is SOP-8L; the pin assignment is given by:
Name
Description
FB
Feedback pin
Power-off pin
HΚnormal operation(Step-down)
LΚStep-down operation stopped
(All circuits deactivated)
Add an external resistor to set max
switch output current.
( Top View )
FB
1
EN
2
Ocset
Vcc
3
AX3113
4
SOP–8L
8
Vss
7
Vss
6
SW
5
SW
EN
OCSET
VCC
SW
VSS
-17-
IC power supply pin
Switch pin. Connect
inductor & diode here.
GND pin
external
IC Block Diagram
LM4558
MP1482DS
TOP VIEW
BS
1
8
SS
IN
2
7
EN
SW
3
6
COMP
GND
4
5
FB
-18-
IC Block Diagram
.
W25X40BVSNIG
PWP (TSSOP) PACKAGE
(TOP VIEW)
PVCCL
SD
PVCCL
MUTE
LIN
RIN
BYPASS
AGND
AGND
PVCCR
VCLAMP
PVCCR
1
2
3
4
5
6
7
8
9
10
11
12
24
23
22
21
20
19
18
17
16
15
14
13
PGNDL
PGNDL
LOUT
BSL
AVCC
AVCC
GAIN0
GAIN1
BSR
ROUT
PGNDR
PGNDR
PAD CONFIGURATION
WSON 6X5-MM
PIN CONFIGURATION
SOIC 150-MIL / 208-MIL
PIN CONFIGURATION
PDIP 300-MIL
-19-
IC Block Diagram
EN25F32
Figure.1 CONNECTION DIAGRAMS
8 - LEAD SOP / DIP
8 - CONTACT VDFN
16 - LEAD SOP
-20-
IC Block Diagram
EN25F32
Figure 2. BLOCK DIAGRAM
-21-
IC Block Diagram
EN25F32
SIGNAL DESCRIPTION
Serial Data Input (DI)
The SPI Serial Data Input (DI) pin provides a means for instructions, addresses and data to be serially
written to (shifted into) the device. Data is latched on the rising edge of the Serial Clock (CLK) input pin.
Serial Data Output (DO)
The SPI Serial Data Output (DO) pin provides a means for data and status to be serially read from
(shifted out of) the device. Data is shifted out on the falling edge of the Serial Clock (CLK) input pin.
Serial Clock (CLK)
The SPI Serial Clock Input (CLK) pin provides the timing for serial input and output operations. ("See
SPI Mode")
Chip Select (CS#)
The SPI Chip Select (CS#) pin enables and disables device operation. When CS# is high the device is
deselected and the Serial Data Output (DO) pin is at high impedance. When deselected, the devices
power consumption will be at standby levels unless an internal erase, program or status register cycle
is in progress. When CS# is brought low the device will be selected, power consumption will increase to
active levels and instructions can be written to and data read from the device. After power-up, CS#
must transition from high to low before a new instruction will be accepted.
Hold (HOLD#)
The HOLD pin allows the device to be paused while it is actively selected. When HOLD is brought low,
while CS# is low, the DO pin will be at high impedance and signals on the DI and CLK pins will be
ignored (don’t care). The hold function can be useful when multiple devices are sharing the same SPI
signals.
Write Protect (WP#)
The Write Protect (WP#) pin can be used to prevent the Status Register from being written. Used in
conjunction with the Status Register’s Block Protect (BP0, BP1and BP2) bits and Status Register
Protect (SRP) bits, a portion or the entire memory array can be hardware protected.
Table 1. PIN Names
Symbol
Pin Name
CLK
Serial Clock Input
DI
Serial Data Input
DO
Serial Data Output
CS#
Chip Enable
WP#
Write Protect
HOLD#
Hold Input
Vcc
Supply Voltage (2.7-3.6V)
Vss
Ground
-22-
IC Block Diagram
CONFIDENTIAL
2.
TC90517FG Toshiba products specification [Tentative]
Configuration
All functions required for ISDB-T demodulation and error correction are built into the TC90517.
The input signals to be supported are a low IF (intermediate frequency) signal and direct IF signal.
Baseband IQ signals can also be input.
The output signal is an MPEG-2 transport stream (TS) in serial format. Note that a TS in parallel format
can be output by setting registers.
Tuner
AGC
control
External AGC input
AGC distortion signal
2
Tuner I C• •
2
Host I C
Crystal
(reference clock)
2
IC
control
Synchroni
zation
Layer
isolation
Clock PLL
Frequency
deinterleaving
Memory
Time
deinterleaving
Control
Frequency
CPE
FFT
FFT window
control
CVI
(CW interference
detection)
Pilot
extraction
Adaptive
interpolation
filter
CSI
Equalization
RS
decoding
Error
detection
Synchronization flag
Output
control
TS output
(reliability
detection)
TMCC
demodulation
Demapping
CSI
processing
Demapping
CSI
processing
Demapping
CSI
processing
Viterbi
decoding
Energy
despreading
Energy
despreading
Energy
despreading
Fig. 2.1 TC90517FG Block Diagram
-23-
TS multiplex
SW
Interpolation ISIC (unguarded
phase
preecho/postecho
suppression)
correction
Byte deinterleaving
ADC
Filter
AGC• •
Bit deinterleaving• •
AGC control output
Quadrature
detection
AFC
ADC
Modulation division
IF input
or IQ input
IC Block Diagram
CONFIDENTIAL
3.
TC90517FG Toshiba products specification [Tentative]
Pin Assignment (Top view)
-24-
IC Block Diagram
4.
Pin Functions
This specification indicates pins and their signals in upper case letters and registers and their signals in lower case
letters.
Pin
Pin name
1
2
TSMD0
XSEL1
3
XSEL0
4
5
6
7
8
9
VSS
SLADRS1
SLADRS0
AGCI
S_INFO
AGCCNTI
10
AGCCNTR
(Note4) (Note5,7)
I
-
I/O
I/O
I
I
I/O
Crystal frequency division ratio 0
PD
I/O
Digital GND
Slave address 1
Slave address 0
External AGC input
Pin for pre-shipment test
IF_AGC control output
PD
11
CKI
I
-
12
TNSCL
I/O
OD
13
VDDS
-
-
14
TNSDA
I/O
OD
15
16
17
VSS
VDDC
PLLVSS
-
-
18
XO
O
-
19
XI
I
20
PLLVDD
FIL
O
21
22
AD_AVDD
23
AD_AVSS
24 AD_VREFP
25 AD_VREFN
26
AD_VREF
-
(Note 3)
Function
PU/PD
Shut down
Crystal frequency division ratio 1
I/O
I
I
-
-
27
ADQ_AIN
I
-
28
ADQ_AIP
I
-
29
ADI_AIN
I
-
30
ADI_AIP
I
-
Remarks(Note 2 and 6)
0: Normal operation 1: Shut down
Set according to crystal frequency.
Set according to crystal frequency.
Connects to DGND.
Set according to slave address.
Set according to slave address.
Connects to DGND when not used.
Connects to DGND.
Connects to tuner IF_AGC control input pin.
Connects to tuner RF_AGC control input pin.
RF_AGC control output
Open, fixed to L when not used.
Pin for pre-shipment test
Connects to DGND.
Connects to tuner I2C clock pin.
I2C clock output
(Pull-up performed outside IC.)
I/O power supply
Connects to digital +3.3 V typ.
Connects to tuner I2C data pin.
I2C data I/O
(Pull-up performed outside IC.)
Digital GND
Connects to DGND.
Digital +1.2 V power supply
Connects to digital +1.2 V typ.
Clock PLL GND
Connects to AGND.
Connects to crystal.
Crystal output
ixosl="1" and open when an external reference clock
is input.
Connects to crystal.
Crystal or reference clock input
The amplitude (p-p) is 0.5 V to PLLVDD when an
external reference clock is input.
Clock PLL power supply
Connects to analog +2.5 V typ.
PLL filter output
Connects to AGND via 1500 pF.
ADC analog power supply
Connects to analog +2.5 V typ.
ADC analog GND
Connects to AGND.
ADC reference voltage output
+1.75 V typ. Connects to AGND via PC.
ADC reference voltage output
+0.75 V typ. Connects to AGND via PC.
ADC reference voltage output
+1.25 V typ. Connects to AGND via PC.
Single-ended IF: Connects to AGND via PC.
Differential IF: Connects to AGND via PC.
Q signal (differential negative side)
Single-ended IQ: Connects to AGND via PC.
input
Differential IQ: Connects to tuner Q (-) output after
the DC component was cut.
Single-ended IF: Connects to AGND via PC.
Differential IF: Connects to AGND via PC.
Q signal (differential positive side) Single-ended IQ: Connects to tuner Q output after
input
the DC component was cut.
Differential IQ: Connects to tuner Q (+) output after
the DC component was cut.
Single-ended IF: Connects to AGND via PC.
Differential IF: Connects to tuner IF (-) output after
IF signal (differential negative side)
the DC component was cut.
input or I signal (differential
Single-ended IQ: Connects to AGND via PC.
negative side) input
Differential IQ: Connects to tuner I (-) output after the
DC component was cut.
Single-ended IF: Connects to tuner IF output after
the DC component was cut.
IF signal (differential positive side) Differential IF: Connects to tuner IF (+) output after
input or I signal (differential the DC component was cut.
positive side) input
Single-ended IQ: Connects to tuner I output after the
DC component was cut.
Differential IQ: Connects to tuner I (+) output after the
-25-
IC Block Diagram
CONFIDENTIAL
31
32
33
34
35
36
37
38
39
40
41
42
43
44
AD_DVSS
AD_ DVDD
VSS
DR1VDD
VDDS
VDDC
VSS
STSFLG1
DTCLK
DTMB
TSMD1
SYRSTN
DR2VDD
VSS
45
I
I
I
I/O
-
PD
PD
PU
OD
-
ADC digital GND
ADC digital power supply
Digital GND
Digital +1.2 V power supply
I/O power supply
Digital +1.2 V power supply
Digital GND
Status flag 1 output
Pin for pre-shipment test
Pin for pre-shipment test
Pin for pre-shipment test
System reset input
Digital +2.5 V power supply
Digital GND
SCL
I/O
OD
I2C clock input for host CPU
46
SDA
I/O
OD
I2C data I/O for host CPU
47
48
49
50
51
VSS
DR1VDD
VDDS
VSS
STSFLG0
I/O
PD
Digital GND
Digital +1.2 V power supply
I/O power supply
Digital GND
Status flag 0 output
Synchronization completion
(sequence 8 or higher) flag
RS decoding error flag output
RS decoding error free flag output
TS error flag output
Digital +1.2 V power supply
Digital GND
TS valid flag output
TS synchronization byte flag output
Serial TS data output
TS serial clock output
Digital GND
Digital +1.2 V power supply
I/O power supply
52
53
54
55
56
57
58
59
60
61
62
63
64
SLOCK
Note 4
Note 5
Note 6
Note 7
O
O
RERR
RLOCK
RSEORF
VDDC
VSS
PBVAL
SBYTE
SRDT
SRCK
VSS
VDDC
VDDS
Note 2
Note 3
-
TC90517FG Toshiba products specification [Tentative]
O
O
O
O
O
O
O
-
-
DC component was cut.
Connects to DGND.
Connects to digital +2.5 V typ.
Connects to DGND.
Connects to digital +1.2 V typ.
Con nects to digital +3.3 V typ.
Connects to digital +1.2 V typ.
Connects to DGND.
Open, fixed to L when not used.
Open or connects to DGND.
Open or connects to digital +3.3 V typ.
Connects to DGND.
Inputat specified timing at power ON.
Connects to digital +2.5 V typ.
Connects to DGND.
Connects to I2C clock bus.
(Pull-up performed outside IC.)
Connects to I2C data bus.
(Pull-up performed outside IC.)
Connects to DGND.
Connects to digital +1.2 V typ.
Con nects to digital +3.3 V typ.
Connects to DGND.
Open, fixed to L when not used.
Open, fixed to L when not used.
Open, fixed to L when not used.
Open, fixed to L when not used.
Open, fixed to L when not used.
Connects to digital +1.2 V typ.
Connects to DGND.
Open, fixed to L when not used.
Open, fixed to L when not used.
Connects to DGND.
Connects to digital +1.2 V typ.
Con nects to digital +3.3 V typ.
AGND is the abbreviation for analog GND, and DGND is the abbreviation for digital GND.
The test dedicated pin is used for the pre-shipment test only. Make sure that processing is performed as
indicated in the "Remarks" column. Any other method will lead to malfunction or failure.
I/O indicates the type of the cell used. It may be different from the pin function because a test is conducted
concurrently.
PU indicates an I/O with a pull-up resistor (50 k typ.) and PD indicates an I/O with a pull-down resistor (50
k typ.). Pulling down the PU pin or pulling up the PD pin outside the IC sometimes changes the electric
potential to the midpoint, resulting in instability. Caution is required.
The unused output pins must be open and fixed to L by setting the output enable control register of each pin
for noise reduction or to
set
the output OFF state.
OD indicates an open drain I/O. To use the pin for output, pull up the resistance outside the IC.
* The following pins are added with the upgrade from TC90507 to TC90517 (except the changes of power
supply and GND pins):
Pin
Number
21
27
28
7
52
Pin Name
Description
FIL
ADQ_AIN
ADQ_AIP
AGCI
SLOCK
Added to the PLL loop filter.
Added for IQ input (differential).
Added for IQ input.
Added to passthrough the AGC control signal of other ICs.
Changed from conventional FLOCK.
-26-
IC Block Diagram
PRELIMINARY W9751G6JB
4. B A L L C O N FIG U R A TIO N
1
2
3
VD D
NC
VSS
A
VSSQ U D Q S VD D Q
UDM
B
U D Q S VSSQ
D Q 15
DQ9
VD D Q
C
VD D Q
DQ8
VD D Q
D Q 12 V S S Q
D Q 11
D
D Q 10 V S S Q
D Q 13
D Q 14 V S S Q
VD D Q
4
5
6
7
8
9
VD D
NC
VSS
E
V S S Q LD Q S V D D Q
DQ6
VSSQ
LD M
F
LD Q S V S S Q
DQ7
VD D Q
DQ1
VD D Q
G
VD D Q
DQ0
VD D Q
DQ4
VSSQ
DQ3
H
DQ2
VSSQ
DQ5
VD D L VR EF
VSS
J
VSSDL
C LK
VD D
C KE
W E
K
RAS
C LK
ODT
BA0
BA1
L
CAS
CS
A 10/A P
A1
M
A2
A0
A3
A5
N
A6
A4
A7
A9
P
A 11
A8
A 12
NC
R
NC
NC
NC
VSS
VD D
-27-
VD D
VSS
IC Block Diagram
PRELIMINARY W9751G6JB
5. BALL DESCRIPTION
BALL NUMBER
SYMBOL
FUNCTION
DESCRIPTION
Provide the row address for active commands, and the column
address and Auto-precharge bit for Read/Write commands to select
one location out of the memory array in the respective bank.
Row address: A0−A12.
Column address: A0−A9. (A10 is used for Auto-precharge)
BA0−BA1 define to which bank an ACTIVE, READ, WRITE or
PRECHARGE command is being applied.
M8,M3,M7,N2,N8,N3
,N7,P2,P8,P3,M2,P7
,R2
A0−A12
Address
L2,L3
BA0−BA1
Bank Select
G8,G2,H7,H3,H1,H9
,F1,F9,C8,C2,D7,D3,
D1,D9,B1,B9
DQ0−DQ15
Data Input
/ Output
K9
ODT
On Die Termination
Control
ODT (registered HIGH) enables termination resistance internal to the
DDR2 SDRAM.
LOW Data Strobe
Data Strobe for Lower Byte: Output with read data, input with write
data for source synchronous operation. Edge-aligned with read data,
center-aligned with write data. LDQS corresponds to the data on
LDQS,
F7,E8
LDQS
DQ0−DQ7. LDQS is only used when differential data strobe mode
is enabled via the control bit at EMR (1)[A10 EMRS command].
UDQS,
B7,A8
UDQS
Bi-directional data bus.
UP Data Strobe
Data Strobe for Upper Byte: Output with read data, input with write
data for source synchronous operation. Edge-aligned with read data,
center-aligned with write data. UDQS corresponds to the data on
DQ8−DQ15. UDQS is only used when differential data strobe mode
is enabled via the control bit at EMR (1)[A10 EMRS command].
All
L8
CS
Chip Select
commands
are
masked
when
CS
is
registered
HIGH. CS provides for external bank selection on systems with
multiple ranks. CS is considered part of the command code.
K7,L7,K3
RAS , CAS ,
Command Inputs
RAS , CAS and WE (along with CS ) define the command being
entered.
Input Data Mask
DM is an input mask signal for write data. Input data is masked when
DM is sampled high coincident with that input data during a Write
access. DM is sampled on both edges of DQS. Although DM pins are
input only, the DM loading matches the DQ and DQS loading.
WE
B3,F3
J8,K8
UDM
LDM
CLK,
CLK
Differential Clock
Inputs
CLK and CLK are differential clock inputs. All address and control
input signals are sampled on the crossing of the positive edge of CLK
and negative edge of CLK . Output (read) data is referenced to the
crossings of CLK and CLK (both directions of crossing).
K2
CKE
Clock Enable
J2
VREF
Reference Voltage
A1,E1,J9,M9,R1
VDD
Power Supply
A3,E3,J3,N1,P9
A9,C1,C3,C7,C9,E9,
G1,G3,G7,G9
VSS
Ground
VDDQ
DQ Power Supply
VSSQ
DQ Ground
A7,B2,B8,D2,D8,E7,
F2,F8,H2,H8
A2,E2,L1,R3,R7,R8
NC
No Connection
J7
VSSDL
DLL Ground
J1
VDDL
DLL Power Supply
CKE (registered HIGH) activates and CKE (registered LOW)
deactivates clocking circuitry on the DDR2 SDRAM.
VREF is reference voltage for inputs.
Power Supply: 1.8V ± 0.1V.
Ground.
DQ Power Supply: 1.8V ± 0.1V.
DQ Ground. Isolated on the device for improved noise immunity.
No connection.
DLL Ground.
DLL Power Supply: 1.8V ± 0.1V.
-28-
IC Block Diagram
PRELIMINARY W9751G6JB
6. BLOCK DIAGRAM
CLK
CLK
DLL
CLOCK
BUFFER
CKE
CONTROL
CS
SIGNAL
RAS
GENERATOR
COMMAND
CAS
DECODER
WE
A10
COLUMN DECODER
COLUMN DECODER
CELL ARRAY
BANK #0
CELL ARRAY
BANK #1
MODE
REGISTER
A0
SENSE AMPLIFIER
SENSE AMPLIFIER
A9
A11
A12
BA0
BA1
ADDRESS
BUFFER
ODT
PREFETCH REGISTER
DQ
DATA CONTROL
BUFFER
CIRCUIT
REFRESH
COLUMN
COUNTER
COUNTER
ODT
CONTROL
DQ0
|
DQ15
LDQS
LDQS
UDQS
UDQS
LDM
UDM
COLUMN DECODER
COLUMN DECODER
CELL ARRAY
BANK #2
CELL ARRAY
BANK #3
SENSE AMPLIFIER
SENSE AMPLIFIER
NOTE: The cell array configuration is 8192 * 1024 * 16
-29-
MAIN PCB-TOP
-30 -
MAIN PCB-BOT
-31-
5
4
3
Power Input
2
1
DC-DC Module
1.32V DC-DC
1.32V
3.3VU
5VA
1k
5VU 12VA 24VA
R342
PWR-ON/OFF
C105
1n
R319
2
D
2
H:ON
L:OFF
STB
100R
C178
0.1u
PB-ADJUST
PB-ON/OFF
CA54
+
100uF/16V
14
13
12
11
10
9
8
7
6
5
4
3
2
1
U50
MP1482
VCC
10k 1482EN
1482COMP
7
6
EN
COMP
C116
0.1u
C14
1n
8
SS
1482OUT
3
OUT
R52
1
BST
22uH
12VA
4
GND
R55
4.7K
5
FB
C1
For MCU
CA17
470uF/16V
2
R53
CA12
100uF/16V
+
C396
10u
12-24
NC/FB
4
GND
6
COMP
7
EN
5VA
SW
3
BS
1
FB
5
C383
C11
3.3nF
R40
5.6K
8
SS
L3
C3
10nF
22uH
C2
C386
1nF
nc
R14
43K_1%
R18 2K_1%
R12
10K_1%
C4
10u C6
CA2
+
D
0.1uF
470uF/16V
47NF
5V DC-DC
5VA
L116
Low ESR
IN
1.8VA
Note: C103,C104 close to CON6 for EMI
FB
C114
0.1u
2
1.8V DC-DC
CON25-J25-14
L108
CA1 0.1uF
100uF
2010-3-14
C118
0.1u
12VA 24VA
R41
100K
+
+
C123
CON6
U3
MPS1482
L2
FB
R57
2.2K
1482FB
0.1u
R29
4.7k
L37
C122
0.1u
U51
MP1482
VCC
7
6
EN
COMP
C15
1n
8
SS
1482OUT18 L38
3
OUT
10k 1482EN18
1482COMP18
1
BST
R60
10K_1%
1482FB18
0.1u
R30
4.7k
22uH
C127
0.1u
+
CA18
470uF/16V
R58
10K_1% Low ESR
C128
4
GND
5
FB
C389
0.1u
For DDR
C
C
MST Power supply
PANEL POWER
12VA
OUT
IN
1
2
3
4
ADJ
U37
AMS1117-3.3V
150mA
3.3VA
C377
0.1u
C380
0.1u
1.32V
1100mA
C407
NC/0.1u
C394
NC/0.1u
C410
NC/0.1u
110mA
1.8VA
C412
0.1u
C399
0.1u
C400
0.1u
5VA
PL5V
VCC-PL
NC/FB
C401
0.1u
R37
10K
C13
0.1uF
+
0.1u
VCC-Panel
8
7
6
5
+
CEM9435A
CA10
100uF/16V
R27
1K
ON_PANEL
3
C438
0.1u
C436
0.1u
2
C452
0.1u
CA6
+
C391
NC/0.1u
C393
0.1u
C432
0.1u
C445
0.1u
C441
0.1u
C468
0.1u
C443
0.1u
C427
0.1u
B
5VA
3.3VA
1N4001
100uF/16V
CA8
100uF/16V
+
300mA_DDR2 Max
1.8VA
C429
0.1u
R20
10K
R19
10K
C444
0.1u
2
R21
R24
ON_PBACK
1K 1
For Power Drop
C481
3.3nF
R43
5.6K
C37
0.1uF
IN
4
GND
6
COMP
SW
BS
1
R178
NC/10K
10nF
R74
11K
22uH
C31
nc
7
EN
8
SS
FB
5
C475
0.1uF
ON_USB_MOS
C495
C29
1nF
R42
2K_1%
R49
47K_1%
+
12VA
C34
CA19
470uF/16V
0.1uF
D141
9.1V
C449
10n
HW-RST
2
3
R67
4.7K
1
R68
2.2K
Q413
3904
R76
39K
D139
4.1V
DD31
BAT54
1
1
HW-RST
2
R69
10K
2
DCR-OUT
R31
NC/0
2
ADJ-PWM
R25
0
R39
NC/0
2
LEDR
3
3
R15
10K
R339
10K
5VU
3
10uF
R45
100K
+5V_USB
2
2
C25
L9
3
U5
MPS1482
L8
FB
5VA
2
USB Power
100R PB-ON/OFF
C334
1n
2
L:ON
H:OFF
Q407
3904
R17
4.7K
R16
PB-ADJUST
C255
NC/0.1u
Note: Left C255 NC if want to output PWM puls
DCR-IN
2
Q415
3904
A
R46
10K_1%
Power Test Point
5V DC-DC
+5V_USB Power trace width
should be > 40mil
5VU
12VA
3.3VU
3.3VA
2.5VA
VCC-PL
1
TP3
1
TP4
1
TP5
1
TP6
1
TP7
1
TP11
5V_TUNER
VCC-Panel
1.8VA
1.32V
1
TP22
1
TP12
1
TP8
1
TP9
Title
Size
A2
Date:
5
0 / 22k
Q406
3904
1
2
2
C450
0.1u
3
IN
1
C473
0.1u
C104
4
OUT
D38
C384
0.1u
C442
0.1u
Q409
3904
1
Inverter Interface
230mA
2.5VA
3.3VA
0.1u
8
D
D
D
D
Q411
3904
1
2
H:ON
L:OFF
C379
A
S
S
S
G
3
NC/0.1u
ADJ
U38
AMS1117-3.3V
5VA
CA4
100uF/16V
NC/100K
U1
+
CA11
100uF/16V
C32
NC/0.1uF
R44
10K
R22
10K
C439
0.1u
+
1
2
3
4
2
0.1u
C387
3
C385
CA7 100uF/16V
C378
+
1.8VA
12VA
VCC-PL
3.3VU
100uF/16V
B
R10 NC
R203
FB
10n
5VU
CA40
380mA
3.3VU
PL12V
4
3
2
POWER
Document Number
1/10
Rev
0.1
Saturday, July 02, 2011
1
Sheet
1
of
10
5
4
3
2
1
SYSTEM EEPROM
MSD309PX
AC8
AD9
AC9
AD10
AE10
AC10
AE8
AD8
AE7
AD7
AC7
RXC0N
RXC0P
RXC1N
RXC1P
RXC2N
RXC2P
RXCCLKN
RXCCLKP
DDCCSCL
DDCCSDA
HOTPLUGC
6
K5
HDMI-CEC
AB4
AB5
AC3
AUVRP
AUVAG
AUVRM
PAD_I2S_OUT_MCK
PAD_I2S_OUT_SD
PAD_I2S_OUT_WS
PAD_I2S_OUT_BCK
A6
B5
B6
C6
C30
2.2u
PAD_I2S_IN_BCK(USB_OCD)
PAD_I2S_IN_SD(LED_ON)
PAD_I2S_IN_WS(WARM_LED_ON)
C1
H6
G6
I2S_OUT_MCK
I2S_OUT_SD
C36
2.2u
L34
I2S_OUT_BCK
FB
PAD_CEC
PAD_SPDIF_OUT
P5
SPDIFO
AD16
Y13
Y14
AA13
AC14
AB23
AB20
AB14
AA21
PAD_PCM_IRQA_N
PAD_PCM_OE_N
PAD_PCM_IORD_N
PAD_PCM_CE_N
PAD_PCM_WE_N
PAD_PCM_CD_N
PAD_PCM_WAIT_N
PAD_PCM_IOWR_ N
PAD-PCM_REG_N
7
Y25
PAD_QP
PAD_QM
PAD_PCM2_CE_N
RGB0_RINRGB0_RIN+
RGB0_GINRGB0_GIN+
RGB0_BINRGB0_BIN+
RGB0-SOG
VGA_HSYNC
VGA_VSYNC
M2
M3
L2
L3
K1
K3
K2
N4
N5
7
7
7
7
7
7
7
RGB1_RRGB1_R+
RGB1_GRGB1_G+
RGB1_BRGB1_B+
RGB1_SOG
R3
P2
P3
N2
N3
M1
N1
W6
Y6
PADA_RIN1M
PADA_RIN1P
PADA_GIN1M
PADA_GIN1P
PADA_BIN1M
PADA_BIN1P
PADA_SOGIN1
PAD_HSYNC1
PAD_VSYNC1
7
7
7
7
7
7
7
COMP_RCOMP_R+
COMP_YCOMP_Y+
COMP_BCOMP_B+
COMP_SOG+
U2
U3
T2
T1
R1
R2
T3
V4
PADA_RIN2M
PADA_RIN2P
PADA_GIN2M
PADA_GIN2P
PADA_BIN2M
PADA_BIN2P
PADA_SOGIN2
PAD_HSYNC2
PADA_RIN0M
PADA_RIN0P
PADA_GIN0M
PADA_GIN0P
PADA_BIN0M
PADA_BIN0P
PADA_SOGIN0
PAD_HSYNC0
PAD_VSYNC0
PADA_CVBS0
PADA_CVBS1
PADA_CVBS2
PADA_CVBS3
PADA_CVBS4
PADA_CVBS5
PADA_CVBS_OUT1
PADA_CVBS_OUT2
PADA_VCOM
AC5
W4
W5
AA5
W2
W3
7
7
AV4-Vin+
7
CVBS_OUT
V3
AA4
W1 47n
CVBS_OUT
C82 68R
T21
T19
P21
P20
R20
T20
P19
7
TS_D0
TS_D1
TS_D2
TS_D3
TS_D4
TS_D5
TS_D6
TS_D7
TS_CLK
TSVALID
TSSTART
U20
V20
R19
AE13
AC13
Y11
AB11
AB13
Y19
Y23
W20
PAD_PF_ALE
PAD_PF_AD[15]
PAD_PF_CE0Z
PAD_PF_CE1Z
PAD_PF_OEZ
PAD_PF_WEZ
PAD_F_RBZ
TS_D0
TS_D1
TS_D2
TS_D3
TS_D4
TS_D5
TS_D6
TS_D7
TS_CLK
TSVALID
TSSTART
10
10
10
10
10
10
10
10
10
10
10
C171 0.1u
C174 0.1u
AA3
AA2
U2F
VIFP
VIFM
PAD_SIFP
PAD_SIFM
AB2
AB3
TV-SIFP
TV-SIFM
PAD_IFAGC
PAD_RFAGC_TAGC
AD3
AE3
PAD_TGPIO0(RF_AGC_CTRL)
PAD_TGPIO1(DEMOD_RESET)
PAD_TGPIO2(TUNER_SCL)
PAD_TGPIO3(TUNER_SDA)
AC4
AD2
AD4
AE4
E22
F22
E21
F21
G21
H21
E20
F20
G20
G22
R381
R382
2.2K
2.2K
DVDD_MIUA
DVDD_MIUB
J21
AVDD1P2
M8
M9
AVDD2P5_ADC
AVDD2P5_ADC
N8
N9
AVDD25_REF
AVDD25_REF
R9
AVDD_AU25
P8
P9
AVDD25_MOD
AVDD25_MOD
C44
T8
AVDD25_PGA
0.1u
U8
AVSS_PGA
E9
E10
F9
F10
G9
AVDD_DVI
AVDD_DVI
AVDD_DVI
AVDD_DVI
AVDD_DVI
G10
AVDD_DMPLL
H9
H10
AVDD3P3_ADC
AVDD3P3_ADC
2.5VA
L35
RF_AGC_SEL
SIF_CTL
4
5V_Tuner
FB
R176
10K
R180
10k
RF_AGC
4
L41
C166
47n
R215
R188
4.7K
4.7K
R216
R217
100
100
3.3VU
FB
5V_Tuner
T_SDA
T_SCL
T_SDA
T_SCL
4,11
4,11
2010-9-10 For IIC selection
MSD309PX
K9
AVDD_AU33
J9
AVDD_EAR33
3.3VA
MSD309PX
SAR
KEY0
KEY1
10K
J5
G4
B4
AA7
R534
SPI-CSN
22R
SPI-SCK
22R
SPI-SDI22R
SPI-SDO
22R
PAD_SAR0
PAD_SAR1
PAD_SAR2(POWER_DET)
PAD_SAR3
SPI
SPI-CSNI
R505
SPI-SCKI
R506
SPI-SDII
R507
SPI-SDOI
R508
FLASH_WP
C4
A4
A2
B3
A3
B2
PAD_GPIO_PM6(BOOT_FLASH_CS)
PAD_SPI_CZ(BACKUP_FLASH_CS)
PAD_SPI_CK
PAD_SPI_DI
PAD_SPI_DO
PAD_GPIO_PM8(FLASH_WP)
UART/I2CS
UART-RX
UART-TX
P6
N6
DDCA_CK
DDCA_DA
10
10
SCL
SDA
SCL
SDA
AA23
AA24
C172
39p
G5
LVB0N 0RX4
LVB0P
LVB1N
LVB1P
LVB2N 0RX4
LVB2P
LVBCN
LVBCP
LVB3N 0RX4
LVB3P
LVB4N
LVB4P
PADA_OUTP_CH[12](PAD_G_ODD[3])
PADA_OUTN_CH[12](PAD_G_ODD[2])
PADA_OUTP_CH[13](PAD_G_ODD[1])
PADA_OUTN_CH[13](PAD_G_ODD[0])
PADA_OUTP_CH[14](PAD_B_ODD[7])
PADA_OUTN_CH[14](PAD_B_ODD[6])
PADA_OUTP_CH[15](PAD_B_ODD[5])
PADA_OUTN_CH[15](PAD_B_ODD[4])
PADA_OUTP_CH[16](PAD_B_ODD[3])
PADA_OUTN_CH[16](PAD_B_ODD[2])
PADA_OUTP_CH[17](PAD_B_ODD[1])
PADA_OUTN_CH[17](PAD_B_ODD[0])
AC20
AD21
AE20
AD20
AE19
AC19
AC18
AD19
AC17
AD18
AE17
AD17
LVA0P
LVA0N
LVA1P
LVA1N
LVA2P
LVA2N
LVACP
LVACN
LVA3P
LVA3N
LVA4P
LVA4N
LVA0N 0RX4
LVA0P
LVA1N
LVA1P
LVA2N 0RX4
LVA2P
LVACN
LVACP
LVA3N 0RX4
LVA3P
LVA4N
LVA4P
PAD_DDCR_CK
PAD_DDCR_DA
PAD_IRIN
2
Y1
24MHZ
3
R212
R476
XTAL
XTALI AD1
XTALOAE2
1M
0R
1
C173
39p
LVB0P
LVB0N
LVB1P
LVB1N
LVB2P
LVB2N
LVBCP
LVBCN
LVB3P
LVB3N
LVB4P
LVB4N
PAD_TCON0
PAD_TCON1(SC1_RE1)
PAD_TCON2(FE_ANT5V_MONITOR)
PAD_TCON3(TUNER_RESET)
PAD_TCON4
PAD_TCON5(SC1_MUTE)
PAD_TCON6(PCM_5V_CTL)
PAD_TCON7(SIDE_AV_DET)
IR
IR_SYNC
AC24
AC25
AD24
AD25
AE24
AC23
AE23
AD23
AE22
AC22
AC21
AD22
PAD_XTAL_IN
PAD_XTAL_OUT
E5
C2
B1
AD11
AE11
USB_DP
USB_DM
USB1_DP
USB1_DM
RP58
RP53
RP54
RP55
RP56
RXO0RXO0+
RXO1RXO1+
RXO2RXO2+
RXOCRXOC+
RXO3RXO3+
RXO4RXO4+
MIUA_DQ[0:15]
3 MIUA_DQ[0:15]
RXE0RXE0+
RXE1RXE1+
RXE2RXE2+
RXECRXEC+
RXE3RXE3+
RXE4RXE4+
R6
Y8
Y9
PAD_TCON15(SC1_DET)
T4
EPM_WP
PAD_GPIO0(NTP_MUTE)
PAD_GPIO1(AMP_RST)
PAD_GPIO2(INV_CTL)
PAD_GPIO3(PANEL_CTL)
PAD_GPIO4(USB_CTL)
PAD_GPIO5(ERROR_OUT)
PAD_GPIO12(AMD_SCL)
PAD_GPIO13(AMP_SDA)
PAD_DP_P0
PAD_DM_P0
PAD_DP_P1
PAD_DM_P1
A7
C7
F4
E4
C3
D4
F6
F5
3 MIUA_DQS0
3 MIUA_DQS0B
3 MIUA_DQS1
3 MIUA_DQS1B
L_R_INDICATOR
LOCAL_DIM
Demod_RST
10
3 MIUA_DQM0
3 MIUA_DQM1
HEADPHONE_DET 9
3 MIUA_MCLK
3 MIUA_MCLKZ
3 MIUA_MCKE
3D_EN
ON_USB
MUTE_HP
8
3
3
3
3
3
3
3
3D_FLAG
GPIO
PAD_RESET
USB
8
8
8
8
AA10
T5
AB10
AB7
AA9
V5
AC11
AA8
PAD_TCON9(COMP_DET)
PAD_TCON10(HP_DET)
PAD_TCON11(HP_MUTE)
RESET
HW-RST
RP52
GPIO_TCON
I2CM
B
PADA_OUTP_CH[6](PAD_R_ODD[7])
PADA_OUTN_CH[6](PAD_R_ODD[6])
PADA_OUTP_CH[7](PAD_R_ODD[5])
PADA_OUTN_CH[7](PAD_R_ODD[4])
PADA_OUTP_CH[8](PAD_R_ODD[3])
PADA_OUTN_CH[8](PAD_R_ODD[2])
PADA_OUTP_CH[9](PAD_R_ODD[1])
PADA_OUTN_CH[9](PAD_R_ODD[0])
PADA_OUTP_CH[10](PAD_G_ODD[7])
PADA_OUTN_CH[10](PAD_G_ODD[6])
PADA_OUTP_CH[11](PAD_G_ODD[5])
PADA_OUTN_CH[11](PAD_G_ODD[4])
8 6 4 2 8 6 4 2 8 6 4 2
ADJ-PWM
PAD_PWM0
PAD_PWM1
PAD_PWM2
PAD_PWM3
7 5 3 1 7 5 3 1 7 5 3 1
1
AB25
AB24
E6
D6
8 6 4 2 8 6 4 2 8 6 4 2
PWM0
PWM1
MIUA_A[0:13]
3 MIUA_A[0:13]
LVDS
PWM
7 5 3 1 7 5 3 1 7 5 3 1
U2D
靠近MSD306放置
MUTE_AMP
9
RF_SW1
ON_PBACK
ON_PANEL
RF_SW2
11
1
1
11
3.3VA
R376
4.7K
R375
NC/4.7K
R371
4.7K
R372
4.7K
MIUA_WEZ
MIUA_RASZ
MIUA_CASZ
MIUA_BA0
MIUA_BA1
MIUA_BA2
MIUA_ODT
PAD_GPIO_PM0(5V_HDMI_3)
PAD_GPIO_PM1(5V_HDMI_1)
PAD_GPIO_PM4(POWER_ON_OFF)
PAD_GPIO_PM5(5V_HDMI_2)
PAD_GPIO_PM11(DSUB_DET)
PAD_GPIO_PM12(EDID_WP)
PAD_GND_EFUSE
PAD_TESTPIN
MIUB
C10
A22
A9
B23
B9
A23
C9
C23
B8
A24
B22
C8
B24
B7
PAD_IO[8](A_A0)
PAD_IO[41](A_A1)
PAD_IO[5](A_A2)
PAD_IO[44](A_A3)
PAD_IO[3](A_A4)
PAD_IO[43](A_A5)
PAD_IO[6](A_A6)
PAD_IO[45](A_A7)
PAD_IO[4](A_A8)
PAD_IO[46](A_A9)
PAD_IO[42](A_A10)
PAD_IO[2](A_A11)
PAD_IO[35](A_A12)
PAD_IO[0](A_A13)
MIUA_DQ0
MIUA_DQ1
MIUA_DQ2
MIUA_DQ3
MIUA_DQ4
MIUA_DQ5
MIUA_DQ6
MIUA_DQ7
MIUA_DQ8
MIUA_DQ9
MIUA_DQ10
MIUA_DQ11
MIUA_DQ12
MIUA_DQ13
MIUA_DQ14
MIUA_DQ15
C13
A19
A12
B19
C20
B12
C19
A13
B14
C18
C14
A18
B18
B13
B17
C15
PAD_IO[14](A_DQ0)
PAD_IO[32(A_DQ1)
PAD_IO[15](A_DQ2)
PAD_IO[33](A_DQ3)
PAD_IO[34](A_DQ4)
PAD_IO[13](A_DQ5)
PAD_IO[31](A_DQ6]
PAD_IO[17](A_DQ7)
PAD_IO[18](A_DQ8)
PAD_IO[29](A_DQ9)
PAD_IO[19](A_DQ10)
PAD_IO[30](A_DQ11)
PAD_IO[28](A_DQ12)
PAD_IO[16](A_DQ13)
PAD_IO[27](A_DQ14)
PAD_IO[20](A_DQ15)
MIUA_DQS0
MIUA_DQS0B
MIUA_DQS1
MIUA_DQS1B
A16
C16
A15
B15
PAD_IO[23](A_DQS0)
PAD_IO[24](A_DQS0B)
PAD_IO[21](A_DQS1)
PAD_IO[22](A_DQS1B)
MIUA_DQM0
MIUA_DQM1
B16
C17
PAD_IO[26](A_DQM0)
PAD_IO[25](A_DQM1)
MIUA_MCLK
MIUA_MCLKZ
MIUA_MCKE
C12
B11
C21
PAD_IO[12](A_MCLK)
PAD_IO[10](A_MCLKZ)
PAD_IO[37](A_CKE)
MIUA_WEZ
MIUA_RASZ
MIUA_CASZ
MIUA_BA0
MIUA_BA1
MIUA_BA2
MIUA_ODT
B20
B10
A10
A21
B21
C22
C11
PAD_IO[36](A_WEZ)
PAD_IO[9](A_RASZ)
PAD_IO[7](A_CASZ)
PAD_IO[39](A_BA0)
PAD_IO[38](A_BA1)
PAD_IO[40](A_BA2)
PAD_IO[11](A_ODT)
PAD_IO[55](B_A0)
PAD_IO[88](B_A1)
PAD_IO[52](B_A2)
PAD_IO[91](B_A3)
PAD_IO[50](B_A4)
PAD_IO[90](B_A5)
PAD_IO[53](B_A6)
PAD_IO[92](B_A7)
PAD_IO[51](B_A8)
PAD_IO[93](B_A9)
PAD_IO[89](B_A10)
PAD_IO[49](B_A11)
PAD_IO[82](B_A12)
PAD_IO[47](B_A13)
E23
U24
D24
V25
D25
V24
D23
W25
C25
W24
V23
C24
W23
B25
MIUB_A0
MIUB_A1
MIUB_A2
MIUB_A3
MIUB_A4
MIUB_A5
MIUB_A6
MIUB_A7
MIUB_A8
MIUB_A9
MIUB_A10
MIUB_A11
MIUB_A12
MIUB_A13
PAD_IO[61](B_DQ0)
PAD_IO[79](B_DQ1)
PAD_IO[62](B_DQ2)
PAD_IO[80](B_DQ3)
PAD_IO[81](B_DQ4)
PAD_IO[60](B_DQ5)
PAD_IO[78](B_DQ6)
PAD_IO[64](B_DQ7)
PAD_IO[65](B_DQ8)
PAD_IO[76](B_DQ9)
PAD_IO[66](B_DQ10)
PAD_IO[77](B_DQ11)
PAD_IO[75](B_DQ12)
PAD_IO[63](B_DQ13)
PAD_IO[74](B_DQ14)
PAD_IO[67](B_DQ15)
H23
P24
G24
R23
R24
G25
P23
H24
J25
N23
J24
N24
N25
J23
M25
K23
MIUB_DQ0
MIUB_DQ1
MIUB_DQ2
MIUB_DQ3
MIUB_DQ4
MIUB_DQ5
MIUB_DQ6
MIUB_DQ7
MIUB_DQ8
MIUB_DQ9
MIUB_DQ10
MIUB_DQ11
MIUB_DQ12
MIUB_DQ13
MIUB_DQ14
MIUB_DQ15
PAD_IO[70](B_DQS0)
PAD_IO[71](B_DQS0B)
PAD_IO[68](B_DQS1)
PAD_IO[69](B_DQS1B)
L24
L23
K24
K25
MIUB_DQS0
MIUB_DQS0B
MIUB_DQS1
MIUB_DQS1B
PAD_IO[73](B_DQM0)
PAD_IO[72](B_DQM1)
M23
M24
MIUB_DQM0
MIUB_DQM1
PAD_IO[59](B_MCLK)
PAD_IO[57](B_MCLKZ)
PAD_IO[84](B_CKE)
G23
F25
T23
MIUB_MCLK
MIUB_MCLKZ
MIUB_MCKE
PAD_IO[83](B_WEZ)
PAD_IO[56](B_RASZ)
PAD_IO[54](B_CASZ)
PAD_IO[86](B_BA0)
PAD_IO[85](B_BA1)
PAD_IO[87](B_BA2)
PAD_IO[58](B_ODT)
R25
F23
E24
T24
T25
U23
F24
MIUB_WEZ
MIUB_RASZ
MIUB_CASZ
MIUB_BA0
MIUB_BA1
MIUB_BA2
MIUB_ODT
MVREF
D22
MVERF
R373
4.7K
IPOD_RX
IPOD_TX
MIUB_A[0:13]
MIUB_A[0:13]
3
E19
F19
G18
VDDP
VDDP
AVDD_LPLL_MEMPLL
1.8VA
MIUB_DQ[0:15]
MIUB_DQ[0:15] 3
E17
E18
F17
F18
G17
AVDD_DDRA
AVDD_DDRA
AVDD_DDRA
AVDD_DDRA
AVDD_DDRA
G16
H16
H17
J16
J17
AVDD_DDRB
AVDD_DDRB
AVDD_DDRB
AVDD_DDRB
AVDD_DDRB
DVDD_NODIEL10
DVDD_NODIE
C52
2.2u
MIUB_DQS0
MIUB_DQS0B
MIUB_DQS1
MIUB_DQS1B
3
3
3
3
MIUB_DQM0
MIUB_DQM1
3
3
MIUB_MCLK
MIUB_MCLKZ
MIUB_MCKE
3
3
3
MIUB_WEZ
MIUB_RASZ
MIUB_CASZ
MIUB_BA0
MIUB_BA1
MIUB_BA2
MIUB_ODT
3
3
3
3
3
3
3
N19
M19
L19
K19
N20
M20
L20
K20
N21
M21
L21
K21
N22
M22
L22
K22
J22
H22
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
AB8
H5
C5
K4
L5
M6
R8
10k
MUTE_AMP
U18
T18
R18
P18
N18
M18
L18
K18
GND
GND
GND
GND
GND
GND
GND
GND
LEDR
IPOD_RX
PWR-ON/OFF
1
R145
IPOD_TX
R154
3D_EN
R155
3D_FLAG
R164
100
I/O
100
MODE
NC/100
MVERF
R9
10k
DCR-IN
C39
0.1u
GND
GND
GND
AC2
AE1
Y10
GND
GND
V7
W7
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
V8
W8
V9
W9
J10
K10
M10
N10
P10
R10
T10
U10
V10
W10
D11
G11
H11
J11
K11
L11
M11
N11
P11
R11
T11
U11
V11
W11
D12
E12
F12
G12
H12
J12
K12
L12
M12
N12
P12
R12
T12
U12
V12
W12
D13
E13
F13
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
H13
J13
K13
L13
M13
N13
P13
R13
T13
U13
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
D14
E14
F14
G14
H14
J14
K14
L14
M14
N14
P14
R14
T14
U14
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
D15
E15
F15
G15
H15
J15
K15
L15
M15
N15
P15
R15
T15
U15
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
1.8VA
GPIO_PM
F11
E11
MIUA
MIUA_A0
MIUA_A1
MIUA_A2
MIUA_A3
MIUA_A4
MIUA_A5
MIUA_A6
MIUA_A7
MIUA_A8
MIUA_A9
MIUA_A10
MIUA_A11
MIUA_A12
MIUA_A13
VDDC1.2V
VDDC1.2V
VDDC1.2V
VDDC1.2V
VDDC1.2V
VDDC1.2V
VDDC1.2V
VDDC1.2V
VDDC1.2V
VDDC1.2V
H20
J20
4
4
R504
U2A
SDA
MSD309PX
100
R364
100
C507
C508
NC/100pF
NC/100pF
10
C-L10W05-2
C-L10W05-2
10
SCL
SDA
D
I2C-SCL
I2C-SDA
2010-5-6
LVDS CONNECTOR
CON3
46
44
42
40
38
36
34
32
30
28
26
24
22
20
18
16
14
12
10
8
6
4
2
I2C-SCL
RXO0RXO1RXO2RXOCRXO3RXO41
7
DCR-OUT
MODE
SG_SYNC
RXE0RXE1RXE2RXECRXE3RXE4-
DCR-OUT
SG
R240
0/NC
VCC-Panel
C75
0.1u
45
43
41
39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1
GND GND
SCL
SDA
GND GND
A0A0+
A1A1+
A2A2+
ACACA3A3+
A4A4+
GND GND
DCR-IDCR-O
MODE I/O
SG
GND
B0B0+
B1B1+
B2B2+
BCBC+
B3B3+
B4B4+
GND GND
GND GND
VCC VCC
VCC VCC
I2C-SDA
RXO0+
RXO1+
RXO2+
RXOC+
RXO3+
RXO4+
DCR-IN
I/O
DCR-IN
1
RXE0+
RXE1+
RXE2+
RXEC+
RXE3+
RXE4+
CON46
FLASH
C
3.3VU
C170
0.1u
1
HOLD
2
VCC
3
NC1
4
NC2
5
NC3
U24
MX25L6445E
SOIC8
208mil
6
NC4
SPI-CSN
7
SO16-CS
SPI-SDO
8
DO
CLK
16
SPI-SCK
DI
15
SPI-SDI
NC8
14
NC7
13
12
NC6
NC5
11
VSS
10
9
WP/Vpp
100K
R224
FLASH_WP
C336
0.1u
#F_WP
KEYBOARD
5VU
CON10
B
1
2
3
4
5
6
7
8
9
10
11
12
KEY1-in
KEY2-in
IR-in
LED
R496
D131D133D132
LED_R
100
D138
CON20W-J20-12
U16
T16
R16
P16
N16
M16
L16
K16
F16
E16
D16
K17
L17
M17
N17
P17
R17
T17
U17
INPAQ_VPORT
INPAQ_VPORT
INPAQ_VPORT
INPAQ_VPORT
3.3VA 3.3VU
R499
NC/0
R500
0
R497
NC/4.7K
R493
100
KEY0
KEY0
R492
100
KEY1
KEY1
2010-4-14
3.3VU
R495 R489
KEY2-in
8.2K
8.2K
KEY1-in
DCR-OUT
100
R344
1.32V
靠近MSD306放置
Y3
Y2
AB1
AA1
NAND FLASH
AV1-Vin+
SV2-Yin
SV2-Cin
3.3VA
SCL
SDA
SCL
PAD_VIFP
PAD_VIFM
MSD309PX
CVBS
EPM_WP
FRONT END
PAD_IP
PAD_IM
SCL
SDA
I2C address
at 0xA0
TS0
PAD_TS0_D[0]
PAD_TS0_D[1]
PAD_TS0_D[2]
PAD_TS0_D[3]
PAD_TS0_D[4]
PAD_TS0_D[5]
PAD_TS0_D[6]
PAD_TS0_D[7]
PAD_TS0_CLK
PAD_TS0_VLD
PAD_TS0_SYNC
0.1u
8
7
6
5
VCC
WP
SCL
SDA
R248
PAD_VRP
PAD_VAG
AVSS_VRM_ADC_DAC
靠近MSD309放置
A0
A1
A2
GND
R237
9
9
1
2
3
4
R239
AUOUTL2
AUOUTR2
PAD_PCM_A[0]
PAD_PCM_A[1]
PAD_PCM_A[2]
PAD_PCM_A[3]
PAD_PCM_A[4]
PAD_PCM_A[5]
PAD_PCM_A[6]
PAD_PCM_A[7]
PAD_PCM_A[8]
PAD_PCM_A[9]
PAD_PCM_A[10]
PAD_PCM_A[11]
PAD_PCM_A[12]
PAD_PCM_A[13]
PAD_PCM_A[14]
PAD_PCM_RESET
Y16
AD14
AD15
AC15
AC16
Y17
AB17
AB19
Y18
AE16
AB16
10K
AD5
AE5
Y24
Y22
AB22
AA22
AA20
Y21
AA18
AA19
AA16
AA14
AA12
Y15
AA17
AA15
AE14
Y20
PAD_TS1_D[0]
PAD_TS1_D[1]
PAD_TS1_D[2]
PAD_TS1_D[3]
PAD_TS1_D[4]
PAD_TS1_D[5]
PAD_TS1_D[6]
PAD_TS1_D[7]
PAD_TS1_CLK
PAD_TS1_VLD
PAD_TS1_SYNC
4.7K
PAD_EARPHONE_OUTL
PAD_EARPHONE_OUTR
SPDIF
RGB
C
9
9
I2S
PAD_RX0N_C
PAD_RX0P_C
PAD_RX1N_C
PAD_RX1P_C
PAD_RX2N_C
PAD_RX2P_C
PAD_RXCN_C
PAD_RXCP_C
DDCDC_CK
DDCDC_DA
PAD_HOTPLUGC
U2E
7
7
7
7
7
7
7
7
7
AUOUTL0
AUOUTR0
AUOUTL1
AUOUTR1
PAD_PCM_D[0]
PAD_PCM_D[1]
PAD_PCM_D[2]
PAD_PCM_D[3]
PAD_PCM_D[4]
PAD_PCM_D[5]
PAD_PCM_D[6]
PAD_PCM_D[7]
2
6
6
6
6
6
6
6
6
6
6
6
V1
V2
AA6
Y5
7
7
W21
U21
U19
AD12
AC12
AD13
Y12
AA11
1
PAD_RX0N_B
PAD_RX0P_B
PAD_RX1N_B
PAD_RX1P_B
PAD_RX2N_B
PAD_RX2P_B
PAD_RXCN_B
PAD_RXCP_B
DDCDB_CK
DDCDB_DA
HOTPLUGB
7
7
24
23
22
21
D2
E3
E2
F3
F2
F1
D3
D1
J6
L6
J4
PAD_LINEOUT_L0
PAD_LINEOUT_R0
PAD_LINEOUT_L3
PAD_LINEOUT_R3
HD-Lin
HD-Rin
AV1-Lin
AV1-Rin
VGA-Lin
VGA-Rin
AV2-Lin
AV2-Rin
SOP8-VCC
SOP8-HOLD
SOP8-CLK
SOP8-DI
RXB0N
RXB0P
RXB1N
RXB1P
RXB2N
RXB2P
RXBCLKN
RXBCLKP
DDCBSCL
DDCBSDA
HOTPLUGB
R4
R5
T6
U6
V6
U5
AD6
AC6
SOP8-CS
SOP8-DO
SOP8-WP/Vpp
VSS
6
6
6
6
6
6
6
6
6
6
6
PAD_LINEIN_L0
PAD_LINEIN_R0
PAD_LINEIN_L1
PAD_LINEIN_R1
PAD_LINEIN_L2
PAD_LINEIN_R2
PAD_LINEIN_L5
PAD_LINEIN_R5
17
18
19
20
PAD_RX0N_A
PAD_RX0P_A
PAD_RX1N_A
PAD_RX1P_A
PAD_RX2N_A
PAD_RX2P_A
PAD_RXCN_A
PAD_RXCP_A
DDCDA_CK
DDCDA_DA
PAD_HOTPLUGA
2
G2
H3
H2
J3
J2
J1
G3
G1
M4
M5
K6
2
RXA0N
RXA0P
RXA1N
RXA1P
RXA2N
RXA2P
RXACLKN
RXACLKP
DDCASCL
DDCASDA
HOTPLUGA
TS1
2
6
6
6
6
6
6
6
6
6
6
6
C316
PCMCIA
HD1-Lin
HD1-Rin
AV1-Lin
AV1-Rin
VGA-Lin
VGA-Rin
HD2-Lin
HD2-Rin
U21
NC/24C64
1
D
AUDIO
2010-3-31
1
HDMI
MSD309PX
1
U2B
R238
NC/0
MSD309PX
4.7K
3.3VA
U2C
20100122
C330 C331
0.1uF
0.1uF
5VU
R490
Mode Selection
3D
DEBUG PORT
2.2K
C309 0.1u
2
C308
2.2u
10K 1
3906
Q41
R249
3
R259
3.3VA
3.3VU
DD30
BAV99
R411
R253
100K
2
3
3.3VU
1
A
LED
R252
100K
100R HW-RST
LEDR
R347
100R
LED_R
1
HW-RST
1
LEDR
HW-RST
LEDR
10K
I2S_OUT_SD
NC/10K
R350
R35
NC/10K
I2S_OUT_MCK
10k
R349
R70
10K
I2S_OUT_BCK
NC/10K
R351
CON31
R26
10K
PWM1
NC/10K
R352
R47
10K
PWM0
NC/10K
R356
1
2
3
4
10K
R494
5VA
A
IR_SYNC
1K
C337
R221
4.7K
R222
4.7K
39pF
IR_SYNC
Close to MSD309
R126
ISP-RXD 22R UART-RX
ISP-TXD 22R UART-TX
R124
NC/CON4-2.0mm
Debug Port
C307
1n
IR-in
3.3VU
R33
C208
39P
RESET
ISP-TXD
ISP-RXD
7
7
Title
MSD309
Size
Document Number
Custom2/10
5
4
3
2
Date:
Friday, July 08, 2011
1
Rev
0.1
Sheet
2
of
10
5
75RX4
MA_WEZ
MA_CKE
MA_BA1
MA_BA0
Close to MSD306
Close to MSD306
MIUA_A[0:13]
RP3
22RX4
MIUA_DQ7
MIUA_DQ0
MIUA_DQ2
MIUA_DQ5
RP4
2 4 6 8
1 3 5 7
2 4 6 8
1 3 5 7
2 4 6 8
1 3 5 7
22RX4
1 3 5 7
7 5 3 1
MIUA_DQ15
MIUA_DQ8
MIUA_DQ10
MIUA_DQ13
MA_DQ6
MA_DQ1
MA_DQ3
MA_DQ4
22RX4
MIUA_A5
MIUA_A10
MIUA_A1
MIUA_BA2
RP6
MA_DQ15
MA_DQ8
MA_DQ10
MA_DQ13
MIUA_A12
MIUA_A7
MIUA_A9
MIUA_A3
RP7
MA_DQ7
MA_DQ0
MA_DQ2
MA_DQ5
MIUA_A2 RP18
MIUA_A0
MIUA_CASZ
MIUA_RASZ
2 MIUA_BA2
2 MIUA_CASZ
2 MIUA_RASZ
MA_A4
MA_A6
MA_A8
MA_A11
75RX4
2 4 6 8
RP2
RP5
MA_A5
MA_A10
MA_A1
MA_BA2
75RX4
1 3 5 7
MIUA_DQ6
MIUA_DQ1
MIUA_DQ3
MIUA_DQ4
MIUA_A4
MIUA_A6
MIUA_A8
MIUA_A11
MA_DQ11
MA_DQ12
MA_DQ9
MA_DQ14
22RX4
2 4 6 8
RP1
MA_A12
MA_A7
MA_A9
MA_A3
75RX4
7 5 3 1 1 3 5 7
MIUA_DQ11
MIUA_DQ12
MIUA_DQ9
MIUA_DQ14
8 6 4 2
MIUA_DQ[0:15]
2 MIUA_DQ[0:15]
8 6 4 2 2 4 6 8
2 MIUA_A[0:13]
75RX4
MIUA_A13 R383
75R
MA_A2
MA_A0
MA_CASZ
MA_RASZ
D3
D1
C2
B1
DQ11
DQ12
DQ9
DQ14
MA_DQ6
MA_DQ1
MA_DQ3
MA_DQ4
F1
G2
H3
H1
DQ6
DQ1
DQ3
DQ4
A9
C1
C3
C7
C9
E9
G1
G3
G7
G9
J1
VddL
MA_DQ11
MA_DQ12
MA_DQ9
MA_DQ14
VddQ
VddQ
VddQ
VddQ
VddQ
VddQ
VddQ
VddQ
VddQ
VddQ
A1
E1
J9
M9
R1
LDQS
LDQS#
UDQS
UDQS#
Vdd
Vdd
Vdd
Vdd
Vdd
UDM
LDM
F7
E8
B7
A8
1
2
3
Vdd
NC
Vss
Vref
CKE
CLK
CLK#
J2
K2
J8
K8
A_MVERF
MA_CKE
MA_MCLK
MA_MCLKZ
DQ15
DQ8
DQ10
DQ13
B9
C8
D7
D9
MA_DQ15
MA_DQ8
MA_DQ10
MA_DQ13
DQ7
DQ0
DQ2
DQ5
F9
G8
H7
H9
MA_DQ7
MA_DQ0
MA_DQ2
MA_DQ5
ODT
RAS#
CS#
CAS#
K9
K7
L8
L7
MA_ODT
MA_RASZ
M8
M7
N8
N7
MA_A0
MA_A2
MA_A4
MA_A6
Vdd
A0
A2
A4
A6
A8
A11
WE#
P8
P7
K3
MA_A8
MA_A11
MA_WEZ
Vss
7
8
VssQ
UDQS# VddQ
9
UDQS
VssQ
DQ15
VddQ
DQ8
VddQ
DQ10
VssQ
DQ13
VssQ
LDQS# VddQ
LDQS
VssQ
A
B
DQ14
VssQ
UDM
VddQ
DQ9
VddQ
DQ12
VssQ
DQ11
Vdd
NC
Vss
DQ6
VssQ
LDM
C
D
E
F
DQ7
G
VddQ
DQ1
VddQ
DQ4
VssQ
DQ3
VddQ
DQ0
DQ2
VssQ
VddQ
H
MA_BA1
MA_BA0
L3
L2
BA1
BA0
VddL
M3
M2
N3
A1
A10
A5
RFU
MA_A9
MA_A12
MA_A7
MA_A3
P3
R2
P2
N2
A9
A12
A7
A3
MA_BA2
R7
L1
R3
RFU
RFU
RFU
MA_A1
MA_A10
MA_A5
MA_A13
DQ5
J
Vref
Vss
VssDL CK
Vdd
RAS#
CK#
ODT
CAS#
CS#
A2
A0
A6
A4
A11
A8
RFU
NC
K
CKE
WE#
BA0
BA1
L
M
A10
A1
A3
A5
N
Vss
P
A7
A9
A12
RFU
D
R23
R71
100R
100R
C430
47n
Close to DRAM
MA_CASZ
R
Vdd
VssQ
VssQ
VssQ
VssQ
VssQ
VssQ
VssQ
VssQ
VssQ
VssQ
VssDL
MIUA_WEZ RP15
MIUA_MCKE
MIUA_BA1
MIUA_BA0
MIUA_WEZ
MIUA_MCKE
MIUA_BA1
MIUA_BA0
MA_ODT
75R
A7
B2
B8
D2
D8
E7
F2
F8
H2
H8
J7
2
2
2
2
R13
B3
F3
MA_DQS0
MA_DQSB0
MA_DQS1
MA_DQSB1
Vss
Vss
Vss
Vss
Vss
MIUA_ODT
MA_DQM1
MA_DQM0
NC
NC
NC
MA_DQM1
MA_DQM0
1
1.8VA
R8
A2
E2
1 3 5 7
22RX4
2 4 6 8
RP12
MIUA_DQM1
MIUA_DQM0
MA_MCLK
MA_MCLKZ
U9 W9751G6IB-25
2 MIUA_ODT
2 MIUA_DQM1
2 MIUA_DQM0
2
A3
E3
J3
N1
P9
MA_DQS1
MA_DQSB1
Close to DRAM
D
1 3 5 7
2 MIUA_MCLK
2 MIUA_MCLKZ
2 4 6 8
22RX4
RP57
MA_DQS0
MA_DQSB0
8 6 4 2
2 4 6 8
1 3 5 7
22RX4
3
RP39
22RX4
7 5 3 1
MIUA_DQS1
MIUA_DQS1B
RP50
2 4 6 8
2 MIUA_DQS1
2 MIUA_DQS1B
MIUA_DQS0
MIUA_DQS0B
1 3 5 7
2 MIUA_DQS0
2 MIUA_DQS0B
4
MA_A13
Close to DRAM
Close to MSD309
1.8VA
C
C
R107
10k
A_MVERF
R116
10k
2 4 6 8
2 4 6 8
1 3 5 7
1 3 5 7
7 5 3 1
8 6 4 2
MIUB_A12
MIUB_A7
MIUB_A9
MIUB_A3
RP10
MB_DQ7
MB_DQ0
MB_DQ2
MB_DQ5
MIUB_A2 RP19
MIUB_A0
MIUB_CASZ
MIUB_RASZ
2 MIUB_BA2
2 MIUB_CASZ
2 MIUB_RASZ
75RX4
75RX4
MIUB_A13 R396
75R
MB_A5
MB_A10
MB_A1
MB_BA2
MB_A12
MB_A7
MB_A9
MB_A3
MB_A2
MB_A0
MB_CASZ
MB_RASZ
MB_A13
MB_DQ6
MB_DQ1
MB_DQ3
MB_DQ4
F1
G2
H3
H1
DQ6
DQ1
DQ3
DQ4
MB_BA1
MB_BA0
L3
L2
BA1
BA0
VddL
M3
M2
N3
A1
A10
A5
RFU
MB_A9
MB_A12
MB_A7
MB_A3
P3
R2
P2
N2
A9
A12
A7
A3
MB_BA2
R7
L1
R3
RFU
RFU
RFU
J1
A9
C1
C3
C7
C9
E9
G1
G3
G7
G9
VddQ
VddQ
VddQ
VddQ
VddQ
VddQ
VddQ
VddQ
VddQ
VddQ
DQ11
DQ12
DQ9
DQ14
VddL
A1
E1
J9
M9
R1
D3
D1
C2
B1
Vdd
Vdd
Vdd
Vdd
Vdd
MB_DQ11
MB_DQ12
MB_DQ9
MB_DQ14
1
2
3
Vdd
NC
Vss
Vref
CKE
CLK
CLK#
J2
K2
J8
K8
B_MVERF
MB_CKE
MB_MCLK
MB_MCLKZ
DQ15
DQ8
DQ10
DQ13
B9
C8
D7
D9
MB_DQ15
MB_DQ8
MB_DQ10
MB_DQ13
DQ7
DQ0
DQ2
DQ5
F9
G8
H7
H9
MB_DQ7
MB_DQ0
MB_DQ2
MB_DQ5
ODT
RAS#
CS#
CAS#
K9
K7
L8
L7
MB_ODT
MB_RASZ
M8
M7
N8
N7
MB_A0
MB_A2
MB_A4
MB_A6
Vdd
A0
A2
A4
A6
A8
A11
WE#
P8
P7
K3
MB_A8
MB_A11
MB_WEZ
Vss
7
8
VssQ
UDQS# VddQ
9
UDQS
VssQ
VddQ
DQ8
VddQ
DQ10
VssQ
DQ13
VssQ
LDQS# VddQ
LDQS
VssQ
A
B
DQ14
VssQ
VddQ
DQ9
VddQ
DQ12
VssQ
UDM
DQ11
Vdd
NC
Vss
DQ6
VssQ
LDM
DQ15
C
D
E
F
DQ7
G
VddQ
DQ1
VddQ
DQ4
VssQ
DQ3
VddQ
DQ0
VddQ
DQ2
VssQ
DQ5
H
MB_A1
MB_A10
MB_A5
J
Vref
Vss
VssDL CK
Vdd
RAS#
CK#
ODT
CAS#
CS#
A2
A0
A6
A4
A11
A8
RFU
NC
K
CKE
WE#
BA0
BA1
L
M
A10
A1
A3
A5
N
Vss
P
A7
A9
A12
RFU
R378
100R
B
R379
100R
C433
47n
Close to DRAM
MB_CASZ
R
Vdd
VssQ
VssQ
VssQ
VssQ
VssQ
VssQ
VssQ
VssQ
VssQ
VssQ
VssDL
RP20 22RX4
MB_DQ15
MB_DQ8
MB_DQ10
MB_DQ13
75RX4
LDQS
LDQS#
UDQS
UDQS#
A7
B2
B8
D2
D8
E7
F2
F8
H2
H8
J7
MIUB_DQ7
MIUB_DQ0
MIUB_DQ2
MIUB_DQ5
RP9
2 4 6 8
RP21 22RX4
MIUB_A5
MIUB_A10
MIUB_A1
MIUB_BA2
MB_A4
MB_A6
MB_A8
MB_A11
75RX4
2 4 6 8
MIUB_DQ15
MIUB_DQ8
MIUB_DQ10
MIUB_DQ13
MB_DQ6
MB_DQ1
MB_DQ3
MB_DQ4
RP8
8 6 4 2 2 4 6 8
RP14 22RX4
MIUB_A4
MIUB_A6
MIUB_A8
MIUB_A11
MB_DQ11
MB_DQ12
MB_DQ9
MB_DQ14
UDM
LDM
F7
E8
B7
A8
Vss
Vss
Vss
Vss
Vss
Close to MSD306
7 5 3 1 1 3 5 7
MIUB_DQ6
MIUB_DQ1
MIUB_DQ3
MIUB_DQ4
2 4 6 8
RP11 22RX4
1 3 5 7
MIUB_DQ11
MIUB_DQ12
MIUB_DQ9
MIUB_DQ14
MB_WEZ
MB_CKE
MB_BA1
MB_BA0
MIUB_A[0:13]
2 MIUB_A[0:13]
MIUB_DQ[0:15]
MB_ODT
B3
F3
MB_DQS0
MB_DQSB0
MB_DQS1
MB_DQSB1
A3
E3
J3
N1
P9
MIUB_WEZ RP17
MIUB_MCKE
MIUB_BA1
MIUB_BA0
MIUB_WEZ
MIUB_MCKE
MIUB_BA1
MIUB_BA0
75R
75RX4
MB_DQM1
MB_DQM0
NC
NC
NC
2
2
2
2
Close to MSD306
2 MIUB_DQ[0:15]
1.8VA
R8
A2
E2
MB_DQM1
MB_DQM0
R380
8 6 4 2
MIUB_ODT
7 5 3 1
1 3 5 7
22RX4
2 4 6 8
RP13
MIUB_DQM1
MIUB_DQM0
MB_MCLK
MB_MCLKZ
U15 W9751G6IB-25
2 MIUB_ODT
2 MIUB_DQM1
2 MIUB_DQM0
2 4 6 8
MB_DQS1
MB_DQSB1
Close to DRAM
B
1 3 5 7
2 MIUB_MCLK
2 MIUB_MCLKZ
1 3 5 7
1 3 5 7
RP40
22RX4
MB_DQS0
MB_DQSB0
1 3 5 7
22RX4
2 4 6 8
1 3 5 7
RP60
MIUB_DQS1
MIUB_DQS1B
2 MIUB_DQS1
2 MIUB_DQS1B
22RX4
2 4 6 8
RP59
MIUB_DQS0
MIUB_DQS0B
2 MIUB_DQS0
2 MIUB_DQS0B
C428
47n
MB_A13
Close to DRAM
Close to MSD309
1.8VA
A
A
R310
10k
B_MVERF
R377
10k
C431
47n
Title
Size
C
5
4
3
2
Date:
MEMORY
Document Number
3/10
Tuesday, May 17, 2011
Rev
0.1
1
Sheet
3
of
10
5
4
3
2
ISDB-T TUNER
1
TUNER POWER
U11
VA1P1BF8401
Q604靠近tuner RFAGC脚放置
4
U10
RF AGC Switch
VA1P1BF8402
U23
T_RF_AGC
T_IFAGC
IF_OUT
#IF_OUT
C474
1
0.1u
5V_TUNER
3
RF_AGC
2
D
3.3VA
R409
10K
C446
R415
10K
+
3
0.1u
470uF/16V
+
R422
100K
5V_B
L40
FB
CA5
100uF/16V
IF_TV
10,11
10,11
10,11
2,11
2,11
CA57
T_SCL
T_SDA
2
1
Body
Body
NC
RFAGC_M
2
1
14
13
SCL
AS
NC
IFD_OUT2
IFD_OUT1
IF_AGC
IFA_OUT
VCC_5V
SDA
8
7
6
5
4
3
T_RF_AGC
2,11
2,11
5V_TUNER
RF_AGC
2
Q604
3906
Q403
3904
靠近tuner放置
10,11
10,11
10,11
1
R400
10K
RF_AGC_SEL
2
2
T_IFAGC
IF_OUT
#IF_OUT
11
10
9
Body
Body
15
12
Body
Body
NC
RFAGC_M
2
1
14
13
SCL
AS
NC
5
4
3
IFA_OUT
VCC_5V
SDA
8
7
6
IFD_OUT2
IFD_OUT1
IF_AGC
11
10
9
15
12
IF_TV
10,11 IF_AGC_DVB
5V_B
T_SCL
T_SDA
3
LM7805
OUT
T_RF_AGC
GND
5V_B
C509
47pF
C510
47pF
12VA
IN
Body
Body
D
T_IFAGC
C
C
SAW Drive
5V_TUNER
B
B
C465
47n
R429
NC/390R
A
U30
1
IN
SAWOUT2
5
L42
2
ING
F4401
GND
R456
22R
OUT1
C87
0.1u
VIFP
VIFP
2
C89
0.1u
VIFM
VIFM
2
2.2uH
4
A
3
IF_TV
close together
Close to MSD309
Title
TUNER
Size
Document Number
Custom4/10
5
4
3
2
Date:
Thursday, July 28, 2011
Rev
0.1
1
Sheet
4
of
10
5
4
3
2
1
HDMI Input
22
23
21
DATA2+
20
DATA2 SHIELD
DATA2DATA1+
DATA1 SHIELD
DAT1ADATA0+
DATA0 SHIELD
DATA0CLK+
CLK SHIELD
CLK22
CEC
23
NC
SCL
SDA
DDC/CEC GND
+5V POWER
HOT PLUG
DB2+
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
DB1DB0+
DB0CLKB+
10R
10R
10R
10R
10R
10R
10R
10R
10R
10R
RXB2P
RXB2N
RXB1P
RXB1N
RXB0P
RXB0N
RXBCLKP
RXBCLKN
DDCBSDA
DDCBSCL
21
CLKBcec
20
1K
R152
10K
R153
10K
DB2+
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
21
DATA2+
DATA2 SHIELD
DATA2DATA1+
DATA1 SHIELD
DAT1ADATA0+
DATA0 SHIELD
DATA0CLK+
CLK SHIELD
CLK22
CEC
23
NC
SCL
SDA
DDC/CEC GND
+5V POWER
20 HOT PLUG
HDMIB_5V
R157
HDMI CEC
P1A
22
23
DDCBSCL1
DDCBSDA1
HOTPLUGB1
HDMI_H
R133
R135
R137
R136
R139
R140
R141
R142
R143
R146
DB2DB1+
ESD-0402
D
P1
ESD-0402
21
20
DB2DB1+
3.3VU
DB1DB0+
2
2
2
2
2
2
2
2
2
2
DB0CLKB+
CLKBcec
DDCBSCL1
DDCBSDA1
HDMIB_5V
RXB0N
RXB0P
RXB1N
RXB1P
RXB2N
RXB2P
RXBCLKN
RXBCLKP
DDCBSCL
DDCBSDA
RXB0N
RXB0P
RXB1N
RXB1P
RXB2N
RXB2P
RXBCLKN
RXBCLKP
DDCBSCL
DDCBSDA
cec
R324
NC/33K
R389
100R
HDMI-CEC
2
D
HOTPLUGB1
HDMI_V
1K
R161
HOTPLUGB
HOTPLUGB
DB2+
DB2-
NC/ESD-0402
DD83
<=0.6pF
DD82
<=0.6pF
DD81
<=0.6pF
NC/ESD-0402
DB1+
NC/ESD-0402
DB1-
DD80
NC/ESD-0402
DB0+
NC/ESD-0402
<=0.6pF
DD79
DB0-
NC/ESD-0402
<=0.6pF
DD78
CLKB+
DD72
<=0.6pF
2
2
1
<=0.6pF
DD73
10K
R353
3
Q412
3904
R354 NC/10K
<=0.6pF
R353 must pull up
to HDMI_5V
NC/ESD-0402
5VA
NC/ESD-0402
CLKB-
DD55
DD50
HDMIB_HP
HDMIB_5V
DD54
ESD-0402
<20pF
22
23
P2
21
DATA2+
20
DATA2 SHIELD
DATA2DATA1+
DATA1 SHIELD
DAT1ADATA0+
DATA0 SHIELD
DATA0CLK+
CLK SHIELD
CLK22
CEC
23
NC
SCL
SDA
DDC/CEC GND
+5V POWER
HOT PLUG
C
DA2+
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
DA1DA0+
DA0CLKA+
10R
10R
10R
10R
10R
10R
10R
10R
10R
10R
RXA2P
RXA2N
RXA1P
RXA1N
RXA0P
RXA0N
RXACLKP
RXACLKN
DDCASDA
DDCASCL
21
CLKAcec
P2A
21
DATA2+
DATA2 SHIELD
DATA2DATA1+
DATA1 SHIELD
DAT1ADATA0+
DATA0 SHIELD
DATA0CLK+
CLK SHIELD
CLK22
CEC
23
NC
SCL
SDA
DDC/CEC GND
+5V POWER
20 HOT PLUG
22
23
DDCASCL1
DDCASDA1
HDMIA_5V
R162
HOTPLUGA1
HDMI_H
R134
R172
R151
R163
R144
R149
R148
R173
R150
R147
DA2DA1+
ESD-0402
21
20
ESD-0402
C
20
1K
R158
10K
R183
10K
DA2+
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
DA2DA1+
DA1DA0+
2
2
2
2
2
2
2
2
2
2
DA0CLKA+
CLKAcec
DDCASCL1
DDCASDA1
HDMIA_5V
RXA0N
RXA0P
RXA1N
RXA1P
RXA2N
RXA2P
RXACLKN
RXACLKP
DDCASCL
DDCASDA
HOTPLUGA1
HDMI_V
Q416
3904
1K
HOTPLUGA
HOTPLUGA
DA2+
DA2-
NC/ESD-0402
B
DD91
<=0.6pF
DD90
<=0.6pF
DD89
<=0.6pF
NC/ESD-0402
DA1+
NC/ESD-0402
DA1-
NC/ESD-0402
<=0.6pF
DD88
NC/ESD-0402
<=0.6pF
DD87
DA0+
NC/ESD-0402
<=0.6pF
DD86
DA0-
CLKA+
NC/ESD-0402
<=0.6pF
DD84
NC/ESD-0402
CLKAR186
<=0.6pF
2
2
1
R357 NC/10K
3
R355
10K
R353 must pull up
to HDMI_5V
DD85
DD51
DD66
5VA
HDMIA_5V
DD67
B
HDMIA_HP
ESD-0402
<20pF
DC1DC0+
DC0CLKC+
RXC2P
RXC2N
RXC1P
RXC1N
RXC0P
RXC0N
RXCCLKP
RXCCLKN
DDCCSDA
DDCCSCL
10R
10R
10R
10R
10R
10R
10R
10R
10R
10R
RXC2P
RXC2N
RXC1P
RXC1N
RXC0P
RXC0N
RXCCLKP
RXCCLKN
DDCCSCL
DDCCSDA
2
2
2
2
2
2
2
2
2
2
CLKCcec
DDCCSCL1
DDCCSDA1
HDMIC_5V
10K
1
R358
Q417
3904
1K
R191
NC/ESD-0402
DC2+
<=0.6pF
A
<=0.6pF
DD99
DC2-
NC/ESD-0402
DC1+
NC/ESD-0402
<=0.6pF
DD98
<=0.6pF
DD97
DC1-
NC/ESD-0402
<=0.6pF
DD96
NC/ESD-0402
<=0.6pF
DD95
DC0+
NC/ESD-0402
<=0.6pF
DD94
DC0-
CLKC+
<=0.6pF
5VA
R359 NC/10K
DD69
<20pF
NC/ESD-0402
1K
DD92
10K
CLKC-
10K
R197
NC/ESD-0402
R193
DD93
R190
ESD-0402
ESD-0402
HDMIC_5V
DD52
A
R174
R182
R171
R181
R160
R169
R165
R185
R170
R166
DC2DC1+
HOTPLUGC1
ESD-0402
HDMI_H
DC2+
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
3HDMIC_HP
21
DATA2+
20
DATA2 SHIELD
DATA2DATA1+
DATA1 SHIELD
DAT1ADATA0+
DATA0 SHIELD
DATA0CLK+
CLK SHIELD
CLK22
CEC
23
NC
SCL
SDA
DDC/CEC GND
+5V POWER
HOT PLUG
DD68
22
23
P3
2
21
20
HOTPLUGC
Title
HOTPLUGC
2
Size
A2
R358 must pull up
to HDMI_5V
Date:
5
4
3
2
HDMI
Document Number
6/10
Rev
0.1
Thursday, July 28, 2011
1
Sheet
6
of
10
5
4
3
VGA INPUT
HD1-Y
R119
R167
ISP-TXD
2
VGA-HS
R113
100R DDC-SDA
DDC-SCLIN
R118
100R DDC-SCL
2
RGB0_BIN+
DD16
DD17
2
DD18
R92
33R C58
47n
RGB0_RIN+
2
ESD-0402
DD24
DD25
ESD-0402
ESD-0402
R117
68R C90
47n
RGB0_BIN-
2
R114
68R C91
47n
RGB0_GIN-
2
R111
68R C92
47n
RGB0_RIN-
2
DD22
ESD-0402
VGA-HS
ESD-0402
VGA-VS
ESD-0402
7
76
6
5
54
4
3
1
3
2
1
DDC-SCLIN
ESD-0402
ESD-0402
VGA_TX
3
VGA_RX
1
HD1-Pb
HD1-Pr
2
HD1-Pr
YPbPr IN
P16A
DDC-SDAIN
ESD-0402
HD1-Y
HD1-Pb
RCA2-R
34
4
RCA2-L
12
2
RCA2-R
R331
DD76
P18A
RCA2-L
NC/ESD-0402
R330
DD77
P13
10K
R332
12K
C69
200p
R329
12K
C67
200p
10K
NC/ESD-0402
C125
2.2u HD-Rin
HD-Rin
2
C126
2.2u HD-Lin
HD-Lin
2
D48
BAT54C
PHONEJACK STEREO SW 180d
6100-020100-0410
DDC-SCL
DDC-SDA
12
13
14
R125
10k
15
17
If U6=24C01/24C02,solder R125
and left R120 float
100R
VGA_HSYNC
2
VGA-VS
R105
100R
VGA_VSYNC
2
R108
R103
C66
VGA-Lin1
VGA-B
VGA
3
VGA-VS
4
DDC-SDAIN
2
Videoin
2
3
2
Videoin
R94
C68
200p
C71
200p
DD102
R101
10K
C63
DD20
R106
12K
33R
R95
75R
NC/ESD-0402
2.2u
VGA-Lin
2
C101
47n
AV4-Vin+
2
HD1-Y
HD1-Pb
HD1-Pr
C43
R79
0R
1n
COMP_SOG+
2
R84
33R
C49
47n
COMP_Y+
2
R81
33R
C45
47n
COMP_B+
R83
33R
C48
47n
COMP_R+
R104
68R C76
47n
COMP_Y-
2
R102
68R C81
47n
COMP_B-
2
R100
68R C88
47n
COMP_R-
2
2
2
C65
200p
ESD-0402
P5A
6100-020000-0410
VGA AUDIO
1
VGA-HS
1
VGA-Rin
1
P5
R115
12K
2.2u
D
RCA1
ESD-0402
VGA-Rin1
VGA_RX
VGA_5V
CON7
10
8
6
4
2
GND
GND
GND
GND
GND
SG
5V
V
L
R
9
7
5
3
1
SG
SG
5VA
2
AVOUT-V
LINEOUTL
LINEOUTR
CON46
AV Out
DDC-SCLIN
10K
R109
VGA-G
VGA_TX
VGA-HS
10K
VGA-R
1
6
2
7
3
8
4
9
5
10
2
NC
NC
NC
GND
11
3
NC/24C02
VCC 8
VCLK 7
SCL 6
SDA 5
16
U6
10K
DD19
4
1
2
3
4
10K
C73
0.1u
R120
NC
10K
3
VGA-5V
R112
P4A
6100-266010-1500
R122
R121
VGA-5V
DD74 DD65 DD75
NC/ESD-0402
NC/ESD-0402
NC/ESD-0402
2
DDC-SDAIN
RGB0_GIN+
DD14
DD21
DD23
VGA-VS
5VA
47n
2
R242
VGA-R
0R
0R
33R C57
RGB0-SOG
R254
R91
47n
2
VGA
VGA_TX
33R C56
1n
R241
VGA-B
ISP-RXD
C62
75R
0R
R128
0R
R168
R129
D
VGA-B
VGA_RX R156
R110
17
15
75R
14
R90
75R
13
VGA-G
VGA-G
75R
12
0R
75R
16
R97
VGA-R
1
6
2
7
3
8
4
9
5
10
75R
VGA_5V
11
1
1
Analog Video & Audio in
P4
C
2
C
FOR UN-USED PORTS
VIDEO_OUT
5VA
2010-4-22
C271
+
R54
4.7k
Q632
3906
1
3
CVBS_OUT
2
2
1
2
R56
220R
R66
10K
Q414
3904
R59
R63
75R
100R
1
0.1u
2.2u
3
C41
C94
R62
75R
AVOUT-V
H17
TPAD
2010-4-22
100uF/16V2010-4-22
RGB1_SOG
2
R131
33R C46
47n
RGB1_G+
2
Pr
R130
33R C96
47n
RGB1_B+
2
R132
33R C51
47n
RGB1_R+
C97
2
75R
75R
75R
0R
R88
R138
R87
1n
Pb
R86
Y
B
R48
33R
C42
47n
SV2-Yin
2
R51
33R
C77
47n
SV2-Cin
2
R99
68R C59
47n
RGB1_B-
2
R98
68R C60
47n
RGB1_G-
2
R96
68R C61
47n
RGB1_R-
2
B
SPDIF_Coaxial Out
P12
FOR UN-USED PORTS
RCA1
1
2
3
SPDIFO
A
DD15
P12A
3
2
SPDIF
C27
NC
R346
NC/100R
R50
33R
C47
47n
SV2-Yin
2
R64
33R
C78
47n
SV2-Cin
2
2
R78
330R
A
ESD-0402
CLOSED TO MSD309
1
Title
AV IN & OUT
Size
A1
Document Number
7/10
Date:
5
4
3
2
Thursday, July 28, 2011
1
Rev
0.1
Sheet
7
of
10
5
4
3
2
1
+5V_USB
D
R189
4.7K
D
CA110
100uF/16V
+
3.3VA
close to USB connector
3
ON_USB_MOS 1
ON_USB R61
ON_USB
4.7K
1
Q434
3904
+5V_USB
2
2
C
USB1_DMO
USB1_DPO
2
2
USB_DP
USB_DM
R297 0R
DD44
USB_DMO
USB_DPO
DD58
<=2pF
NC/ESD-0402
B
1
2
3
4
P9
1
2
3
4
1
2
3
4
USB_A
5 5
6
C
6
+5V_USB
USB_DPO
USB_DMO
R282 0R
P8
1
2
3
4
USB_A
5 5
6
6
<=2pF
NC/ESD-0402
B
+5V_USB
2
2
USB1_DP
USB1_DM
R298 0R
USB1_DPO
USB1_DMO
R287 0R
DD46
P9A
1
2
3
4
USB_DPO
USB_DMO
1
2
3
4
USB_A
5 5
6
6
DD64
2010-3-3
<=2pF
NC/ESD-0402
A
<=2pF
NC/ESD-0402
A
Title
Size
A
5
4
3
Date:
USB
Document Number
8/10
Thursday, July 28, 2011
2
Rev
0.1
Sheet
8
1
of
10
5
4
3
2
1
Power Down MUTE
AMPLIFIER AUDIO pre-ap
HeadPhone Out
12VA
12-24
12-24
2
R460
TL062
33K
C497
CA464
R397
100uF/16V
10R
R404
R405
330R
AMP-PLout
AMP-PLout
D126
ESD
AMP-PRout
R441
C345
C179
NC/200P
1nF
10K
6 -
R461
C496
TL062
33K
NC/2.2K
3
2
R295
MUTE_TDA3121
MUTE_TDA3121 :
HEADPHONE_DET
2
2
R398
100uF/16V
10R
R406
330R
mute
2.2K
R293
MUTE_AMP
10K
MUTE_AMP :
LOW =
1
CA81
47uF/16V
MUTE
3
2.2K
C392
2N2
AMP-PRout
mute
Q16
1
R299
100K
1
NPN_3904
Q424
3904
AMP_LIN
U19
p23051
5VA
2
2010-4-2
R438
OP_VCC1
3
470
D127
ESD
R407
HIGH = MUTE
+
Q433
3904
AMP_RIN
3
2.2uF
CA465
R336
mute
47K
R303
100K
1
Q445
3904
100pF
R300
100K
mute
R301
47K
2
AUOUTR2 C343
R335
1
AUOUTR2
4
2
0
1N4148
U45B
2
8
OP_VCC1
7
NC/2.2K
D41
R334
100pF
5 +
R337
5VA
47K
10k
R333
R443 24K
R280
10K
1
1nF
1
2 -
D
3
NC/200P
10K
4.7K
D39
1N4148
2
C342
R288
3
3 +
R439
C344
3
R286
NC/10K
R374
47K
2
R442 24K
2
2.2uF
Place close to OP
PWD_MT
220uF/35V
1
AUOUTL2 C340
4
AUOUTL2
3906
Q622
12-24
mute
12-24
+ CA55
U45A
2
8
470uF/16V
2
C270
1uF/35V
NC/1N4148
D37
D40
SHUTDOWN
Q447
3904/NC
1
10k/NC
4
3
OP_VCC1
100
C341 CA83
+
0.1uF
33K
1
R416
2
P6
33K
R306
1uF C248
+
R418
R296
24K
1N4148
R437
100uF/16V CA84
D
R283
10K
R294
NC/24K
PHONEJACK STEREO SW 180d
5VA
1
6VBuf1
C
C
2010-5-8
Close to MSD309PX
TDA3121
C250
1u
AMP_RIN R401
330R
C251
1u
R369
10K
C243 C244
R360
10K
1nF
1nF
12-24
C257 C263C267
12-24
R361
10K
R367
10K
GAIN0
R366
NC/10K
C264
1uF
1uF 1uF
1uF
PVCCL
SD
PVCCL
MUTE
LIN
RIN
BYPASS
AGND
AGND
PVCCR
VCLAMP
PVCCR
TPA312X
PGNDL
PGNDL
LOUT
BSL
AVCC
AVCC
GAIN0
GAIN1
BSR
ROUT
PGNDR
PGNDR
24
23
22
21
20
19
18
17
16
15
14
13
3
3
CA99
220uF
R370
1.5K
C262
2
CA97
220uF
C258 0.22uF
GAIN0
GAIN1
CON2
+
C269
10uH/Inductor
1
0.68uF
+
1
SHUTDOWN 2
3
MUTE_TDA3121
4
5
6
7
8
9
10
11
12
2
1
0.68uF
L6
1uF
5
330R
+ CA100
220uF
4
R395
AMP_LIN
0.1uF
5
C253
4
C266
+
220uF/35V
12K
10n
CA82
+
THERMAL
B
CA80
220uF/35V
+
U54
R317
C236
100R
10n
AUOUTR0
C237
2
C254
4.7u R316
CA85
220uF/35V
+
10uH/Inductor
1
C268
1
CON5
CON5
0.22uF
B
25
CA86
220uF/35V
100R
12K
C252
4.7u R278
AUOUTL0
R320
2
CON4
2
+
R365
1.5K
L5
2
CA98
220uF
CA96
220uF
+
12-24
TPA3121 MUTE PIN
LOW:OPERATING
HIGH:MUTE
GAIN1
R368
NC/10K
Near MST.IC
Ground in the middle of the L/R
HOLE
H1
5
8
4
8
3
7
3
7
3
7
2
6
2
6
10
2
6
NC
L1
9
1
9
4
1
5
8
1
9
H18
LOC-HOLE
1
H3
1
H5
4
5
H19
LOC-HOLE
NC
NC
4
3
2
1
5
6
CON2_1
EMI Cover
7
H14
TPAD
H15
TPAD
6
H13
TPAD
H16
TPAD
H12
TPAD
H11
TPAD
1
2
H10
TPAD
NC
H2
TPAD
H7
TPAD
1
3
6
1
7
1
NC
8
1
2
A
9
1
3
6
4
1
7
NC
8
1
2
4
5
1
3
8
H8
9
1
4
5
1
H4
9
1
5
1
H6
A
H9
TPAD
Title
Size
A2
Date:
5
4
3
2
AUDIO
Document Number
9/10
Rev
0.1
Thursday, August 04, 2011
1
Sheet
9
of
10
5
4
60mA
3.3V_Demod
2.5V_Demod
B3_3.3V
L406
FB0603
3
2
1
DR2VDD
L407
FB0603
3.3V_Demod
D
R509
C883
NC/10p
RP62 33RX4
B4_1.2V
B3_3.3V
closed to Demod
SLOCK
RERR
RLOCK
RSEORF
VDDC
VSS
PBVAL
59
60
61
SBYTE
SRDT
SRCK
62
VSS
63
64
VDDC
VDDS
B4_1.2V
10K
B4_1.2V
B3_3.3V
38
37
36
35
34
33
10K
10K
R515
R512
R514
100R SDA
SCL
52
53
54
55
56
57
58
TC90517FG
3.3V_Demod
AD_DVDD
AD_DVSS
ADI_AIP
ADI_AIN
ADQ_AIP
ADQ_AIN
AD_VREF
AD_VREFN
AD_VREFP
32
31
30
29
28
27
26
25
24
AD_AVSS
AD_AVDD
23
22
AD_AVDD
FIL
21
C881 1500pF
PLLVDD
X1
20
19
X0
18
PLLVSS
17
AD_DVDD
L409
NC
L0603
C864 1u
C865 1u
C866 R517 0R
C0402
NC
R518 0R
#IF_OUT
#IF_OUT
4,11
IF_OUT
IF_OUT
4,11
C870 0.1u
C872 0.1u
C873 0.1u
PLLVDD
R519
1M
C882 18p
Y2
25.4MHz
C
3
R520
C884 18p
1K2
2
TS_D7
2
TS_D6
R521
NC/33R
R522
NC/33R
R531
1K
B4_1.2V
R530
1K
B3_3.3V
C896
100nF
C0402
C897
100uF/16V
R529 10K
+
10K
10K
15K
2.5V_Demod
R526
R527
R528
L10
FB
2.5VA
STSFLG0
1
C
51
2
C887
0.1u
B4_1.2V
VSS
VDDC
RP61 33RX4
VDDS
50
16
TSVALID
TSSTART
TS_D0
TS_CLK
7 5 3 1
C885
1u
0.1u
2
2
2
2
L412
FB0603
8 6 4 2
C888
PLLVDD
7 5 3 1
C886
1u
2.5V_Demod
TS_D4
TS_D3
TS_D2
TS_D1
8 6 4 2
AD_DVDD
L411
FB0603
2
2
2
2
49
STSFLG1
VSS
VDDC
VDDS
DR1VDD
VSS
R516 33R
TS_D5
closed to Demod
2.5V_Demod
U55
B3_3.3V
2
100R
DR2VDD
R511
C871
0.1u
CKI
TNSCL
VDD33
TNSDA
VSS
1u
11
12
13
14
15
C869
0.1u
0.1u
39
C880
0.1u
DTCLK
C877 C878 C879
0.1u
AGCCNTR
C876
0.1u
B4_1.2V
AD_AVDD
L408
FB0603
46
45
44
43
42
41
40
C874 C875
1u
0.1u
2.5V_Demod
120mA
48
47
B4_1.2V
L410
FB220/300mA
4.7k
100R
10K
10K
10K
1.2V_Demod
R510
SCL
SDA
10
Demod_RST
2
2
R513
2
closed to Demod
SLADRS0
AGC I
S_INFO
AGCCNTI
0.1u
6
7
8
9
C868
1u
SDA
SCL
VSS
DR2VDD
SYRSTN
TSMD1
DTMB
C867
0.1u
0.1u
DR1VDD
VSS
C863
0.1u
TSMDO
XSEL1
XSEL0
VSS
SLADRS1
C861 C862
0.1u
1
2
3
4
5
C860
R523
R524
R525
C859
1u
D
IF_AGC
ADJ
OUT
IN
2
3
N1
AMS1117-3.3V
1
4
C893
100nF
C0402
3.3V_Demod
B
B
5VA
+
C894
100uF/16V
C856
0.1u
C855
1u
+
C857
100uF/16V
C858
0.1u
5VA 3.3V_Demod
4
R532
NC/1K
IF_AGC
T_IFAGC
C895
100nF
T_IFAGC
4,11
AGC CIRCUIT
3
2
1
IN
OUT
ADJ
N2
AMS1117-1.2V
R533 Close to tuner
NC/1K
R535
1K
1.2V_Demod
3.3V_Demod
C890
0.1u
C889
1u
+
C891
100uF/16V
C892
0.1u
A
A
Title
ISDB-TC90517FG
Size
A2
Date:
5
4
3
2
Document Number
Rev
1.0
Demodulator
Tuesday, May 17, 2011
1
Sheet
10
of
15
SKYWORTH R&D CENTER
Power Supply Service Manual
: 168P-P32EWM-K0
PART NO.
DESCRIPTION ：
VERSION NO.
：
1.0
PAGE
：
13
DESCRIBED ：
Zhou
Cong
CHECKED
：
Hu xiangfeng
APPROVED
：
Bao xiaojie
Released Date: 2012-07-21
168P-P32EWM-K0 Service manual
Modification record
Edition
Modification
date
Record
Described
Checked
Approved
1.0
2012-7-21
First record
Zhou Cong
Hu Xiangfeng
Bao Xiaojie
I
168P-P32EWM-K0 Service manual
Contents
NO.
Main contents
Page
1
General Description
1
2
General Introduction of Circuit
2
3
The main chip description
4
4
PCB TopOverlay or BottomOverlay
9
5
Maintenance instructions
11
6
The information of power supply designer
14
7
Schematic diagram
14
II
168P-P32EWM-K0 Service manual
Warning
This manual is only used for the experienced service person , and does not apply to the general
consumer。The manual does not have warnning or alert for the potential hazards caused of the non-technical
personnel attempting to repair this product . Electrical products should be an experienced professional and
technical personnel for maintenance and repair ,any other person attempts to maintain and repair the
products covered by this manual will likely be seriously hurt or even life-threatening.
1.General Description
1.1 General description of power supply
This power apply to 32-inch universal standard power interface; the total standby power consumption
less than 1W (5V DC the Load 50mA); protection functions; low cost; mature power supply structure; the
voltage range is 90-264V and wide supply voltage input,.For 32” LED panel, supplies 4 channels, each
channel nominal current value is 130mA。
1.2 Main technical specifications
1.2.1 Input Electrical Characteristics
Input voltage range
90Vac to 264Vac
Rated voltage range
100Vac to 240Vac
50Hz/60Hz±5%
Frequency range
0.85Amax at 100Vac input & full load condition
Max input ac current
70Atyp peak
Inrush current (cold start)
80%min @ 100Vac,Full Load
Efficiency(full load)
Harmonic current
Meet GB17625.1-1998/IEC61000-3-2 class D
Leakage Current
Less Than 0.75mA, 230Vac input
≦1W, 240Vac input, 50mA Load
Standby Power Loss
T3.15A L/250Vac
Input Fuse
1.2.2
of 5V
Output Electrical Characteristics
Output
Voltage
Regulation
Min. current
Rated current
Peak current
+24V
+24V±5%
0.1A
2.0A
2.5A
+12V
+12V±5%
0.1A
2.0A
3.0A
+5VSB
+5V±5%
0.1A
0.5A
0.8A
Note:* pulse width within 100ms .
1
168P-P32EWM-K0 Service manual
1.2.3
Output ripple and noise
Output Voltage
Ripple & Noise (Max.)
+24V
240mVp-p@25℃; 350mVp-p@-10℃
+12V
120mVp-p@25℃; 200mVp-p@-10℃
+5VSB
100mVp-p@25℃; 200mVp-p@-10℃
Note: 1) Measurements shall be made with an oscilloscope with 20MHz bandwidth.
2) Outputs shall be bypassed at the connector with a 0.1uF ceramic capacitor and a 10uF
electrolytic capacitor to simulate system loading.
2.Circuit
description
2.1
The power circuit diagram
2.2
Each part of the circuit description
2.2.1 the main part of the circuit：NXP TEA1733P
2
168P-P32EWM-K0 Service manual
2.2.2 the LED driver of the circuit：MICRO ELECTRONICS OZ9967
3
168P-P32EWM-K0 Service manual
3. The main chip description
3.1
The main chip
3.1.1 The main chip general description
The main chip of power supply is the TEA1733P which is produced by NXP corporation.
The operating mode is CCM (continuous conduction mode), and the operating frequency is
65KHz.
3.1.2 The chip pin information
3.1.3
The chip block diagram
4
168P-P32EWM-K0 Service manual
3.1.4
The IC pin description
3.2 The DC-DC chip
3.2.1 General description
The DC-DC used for standby chip, using SY8172Y, double synchronous rectification,and operating
frequency is 700KHz.
3.2.2 The chip block diagram
5
168P-P32EWM-K0 Service manual
3.2.3
The chip pin information
3.2.4 The pin description and the voltage
6
168P-P32EWM-K0 Service manual
3.3 The LED driver chip
3.3.1 General description
The OZ9967 is an LED controller that drives a number of LEDs connected in serial or parallel
configuration.
3.3.2 The chip block diagram
3.3.3 The chip pin information
7
168P-P32EWM-K0 Service manual
3.3.4 The pin description and the voltage
8
168P-P32EWM-K0 Service manual
4. PCB TopOverlay and BottomOverlay
4.1 The power supply TopOverlay
4.2
The power supply BottomOverlay
9
168P-P32EWM-K0 Service manual
5. Maintenance instructions
5.1 Common Fault Analysis and Notes
1.No +5VSB output voltage
If there is no +5VSB output voltage , we should focus on checking the DC-DC IC(IC301) and judge
whether the IC is operating . Monitor its VIN pin and check voltage is normal or abnormal . If it is normal ,
firstly , check the DC-DC IC peripheral circuit . Secondly, check DC-DC IC(IC301)and judge it has broken
or not. If the VIN pin voltage is abnormal, you need to check the IC100 power circuits.
2.+5VSB output is normal ,+12V output is abnormal
First, check +12 V voltage of the MOS transistor(Q300) S pole is normal or abnormal , if it is
normal,please check the MOS transistor(Q300) peripheral circuit is normal or not. If the +12 V voltage of
the MOS transistor(Q300) S pole is abnormal, please check the IC100 circuits.
3.+5VSB is abnormal
Check the +5 VSB feedback loop , and the reference voltage of the IC301 is normal or not.
10
168P-P32EWM-K0 Service manual
5.2
Service process
NO +5VSB
Check+5V output,Whether
the short-circuit
Y
Examine the reason
N
Is IC301 damaged?
Y
Change the damaged component
N
Examine the positive voltage
of C312: 11.8V-12.2V?
Y
Check the peripheral circuit of
IC301
N
Is IC100 damaged?
Y
Change the damaged component
N
Check
the
peripheral
circuit of IC100
Y
N
Examine overvoltage detection
circuit：Q304 ZD304 ZD302
ZD303
& Change the damaged component
11
Examine the reason a n d
Change the damaged component
168P-P32EWM-K0 Service manual
5.2 Port and the connection defined
5.2.1 PIN10 CN400 Connection And Function
NO.
Pin Connection
Function
1
LED-
LED-
2
LED-
LED-
3
LED-
LED-
4
LED-
LED-
5
NC
NC
6
NC
NC
7
60V
LED+
8
60V
LED+
9
60V
LED+
10
60V
LED+
Note: CN400
TYPE : 2.0mm
5.2.2 PIN14 CN300 Connection And Function
NO.
Pin Connection
Function
1
+24V
+24V DC OUTPUT
2
+24V
+24V DC OUTPUT
3
GND
GND
4
GND
GND
5
+12V
+12V DC OUTPUT
6
+12V
+12V DC OUTPUT
7
GND
GND
8
GND
GND
9
+5VSB
+5VSB DC OUTPUT
10
GND
GND
11
ON/OFF
POWER_ON/OFF
12
GND
GND
13
ADJ
BL_ADJUST
14
ENA
BL_ON/OFF
Note: CN300
TYPE : 2.5mm
12
168P-P32EWM-K0 Service manual
5.3
Key components and service parts list
Material
NO.
Position
Material number
Substitute
Function
models
number
TEA1733P
IC100
Main chip
SY8172Y
IC301
DC-DC chip
476K-Z99671-0280
OZ9967GN
IC400
4
4655-P27610-00
AOTF10N65
Q201
Main MOS
5
4666-M15N10-0S00
ME15N10-G/TO252
Q412
Boost MOS
6
D301
Secondary
451F-210200-0000
HBR10200HF
D302
Schottky
1
4706-B17330-0080
2
47EC-S81721-0080
3
LED driver
chip
7
5132-064955-0000
SANHE-42-102
T101
transformer
8
47AH-P817C0-04
BPC-817C0
IC101
Optocoupler
5.4
Remark
Material
Storage, transportation and using conditions
5.4.1 Package
Box must have the product name, model, identification，quality inspection department certification，the
date of manufacture and so on.
5.4.2 Transportation
The productor adapted to cars, boats, aircraft transport .Transportation should be covered, prevented
sunshine and loading lightly.
5.4.3 Storage
Products should be stored in a box if it is not used .The storehouse environment temperature is from
-40 ℃ to -55 ℃, relatived humidity is from 10% to -95%. The storehouse must not allow any harmful
gases, flammable ,explosive and corrosive product chemicals, and must not allow strong mechanical
vibration, shock and strong magnetic field. Boxes should be at least 20cm high from the ground .The
distance from the wall, heat source, windows or air enter is at least 50cm. The storage period is about two
years, more than two years should be re-tested under the regulation .
13
168P-P32EWM-K0 Service manual
6.Information of Power supply designers
Team Ⅱ Power Supply,R&D Center
Hu Xiangfeng and Zhou Cong
Email： [email protected]
[email protected]
7. Schematic diagram
C301
R301
C210
+ 1
R210
D101
L301
D102
2
3
+
C103
+
+24V/2A
D301
C104
+ C303
C302
+
C304
R309
R310
D205
T101
D104
4 -
D103
C307
C102
R306
9
Q201
C101
C305
R303
R207
4
R202
R202A
R204
R203
IC100
TEA1733
5
C202
6
7
VDR101
VDR102
ZD204
8
C203
Protect
Driv er
CTRL
GND
Optimer
VCC
R211
4
C206
+12V/2A
D302
15
R212
+
16
C309
3
C208
2
R213
5
C312
+
Q300
C314
ZD302
C310 C311
+
+
R326
1
1
D303
C323
ZD303
D207
CX102
11
R215
ZD201
2
12
13
+ C209
C205
C204
IC301
R313
R206
IN
CY 105
D201
R319
EN
2
8
2
3
4
5
4
6
1
BST
L303
+5V/0.5A
SW
FB
GND
D202
1
D304
R317
C207
R205
CY102
CY 101
ZD301
L302
ZD205
Visense Isense
R300
R304
R209
R208
ZD202
3
R106
R105
2
R308
R307
C306
R302
R203A
LF102
PS_ON
7
8
Q302
R305
10
D206
1
Q303
Q301
C321
C322
+
C332
R319
R311
R312
C327
C328
LF101
IC101
A1
R323A
A2
R103
R104
4
1
R101
R102
3
2
R323
ZD304
R314
D305
C320
R201
R315
Q304
CX101
R327
SPECIFICATION
IC300
C330
TNR101
INPUT: 90-264V AC
F101
TH101
5.0
R316
R328
R316A
OUTPUT: +24V/2A
FUSE T3.15A L 250VAC
3
2
1
+12V/2A
+5VSB/0.5A
N
L
CN101
D402
+24V
100V/5A
L401
VOUTB
D401
68uH/5A
100V/5A
ON/OFF
+
C401
100V/22uF
+
C401A
100V/22uF
Q412
R401
R401
150V/10A
DRVB
DRVB
150V/10A
10
R412
10K
1
2
3
4
5
6
7
8
9
10
LEDB1
LEDB2
LEDB3
LEDB4
NC
NC
R418
1M
Q411
VSEN
10
R419
C411
47K
R403
C405
0.47
10nF
R404
R405
0.47
0.47
R405A
CN400
NC
ZD402
0.47
R406
12V
100
R408
1M
C408
10nF
R414
220K
17
R409
18
12V
100K
C404
19
2.2uF/50V
C405
1nF
C407
PWM
R416
R413
1K
100nF
10K
DIM
R411
DIM
10nF R417
C410 100K
VSEN
VREF 14
GNDA
DRV
13
GNDP
12
ISW
COMP6 11
VIN
ISEN6
20 SSTCMP
COMP5
21 LCT
ISEN5
22 UVLS
COMP4
23 DIM
ISEN4
24
STATUS
COMP3
TIMER
ISEN3
26
27
28
100nF
CT
ENA
25
C409
22K
10nF
LEDB3
LEDB4
LEDB5
LEDB2
OVP
COMP2
RANGLED
ISEN2
ISEN1
COMP1
5V
DRVB
C402
2.2uF
R425
COMPB6
10
ISENB6
9
COMPB5
8
ISENB5
R429
COMPB1
COMPB2
5.1K
Q400
R422
R426
ISENB2
ISENB3
COMPB4
1K
6
ISENB4
R423
R424
R427
R428
5
5.1
4.7
5.1
4.7
COMPB3
4
ISENB3
3
COMPB2
2
ISENB2
1
COMPB1
ISENBI
OZ9967
R420
510K
R421
220K
14
Q403
50V/0.5W
50V/0.5W
R434
ISENB4
5.1
5.1K
Q404
50V/0.5W
R438
ISENB5
Q405
50V/0.5W
R442
ISENB6
1K
1K
R431
R445
COMPB6
5.1K
Q402
1K
1K
COMPB5
5.1K
R430
7
R441
R437
COMPB4
5.1K
Q401
50V/0.5W
50V/0.5W
ISENB1
R433
COMPB3
5.1K
5V
C412
LEDB6
47K
15
16
R410
LEDB1
C413
1uF
IC400
C403
220pF
10
ZD401
NC
R407
R415
5V
1K
R432
R435
R436
R439
R430
4.7
5.1
4.7
5.1
4.7
R443
R444
5.1
4.7