Download Vizio L6 Service manual

Service Manual
Model #: VIZIO L32HDTV10A
V, Inc
320A Kalmus Drive Costa Mesa, CA 92626
TEL : +714-668-0588 FAX :+714-668-9099
Top
Confidential
Table of Contents
CONTENTS
PAGE
Sections
1. Features
1-1
2. Specifications
2-1
3. On Screen Display
3-1
4. Factory Preset Timings
4-1
5. Pin Assignment
5-1
6. Main Board I/O Connections
6-1
7. Theory of Circuit Operation
7-1
8. Waveforms
8-1
9. Trouble Shooting
9-1
10. Block Diagram
10-1
11. Spare parts list
11-1
12. Complete Parts List
12-1
Appendix
1. Main Board Circuit Diagram
2. Main Board PCB Layout
3. Assembly Explosion Drawing
Block Diagram
VIZIO L32HDTV10A Service Manual
VINC
Service Manual
VIZIO L32HDTV10A
COPYRIGHT © 2000 V, INC. ALL RIGHTS RESERVED.
IBM and IBM products are registered trademarks of International Business Machines
Corporation.
Macintosh and Power Macintosh are registered trademarks of Apple Computer, Inc.
VINC and VINC products are registered trademarks of V, Inc.
VESA, EDID, DPMS and DDC are registered trademarks of Video Electronics Standards
Association (VESA).
Energy Star is a registered trademark of the US Environmental Protection Agency (EPA).
No part of this document may be copied, reproduced or transmitted by any means for any
purpose without prior written permission from VINC.
FCC INFORMATION
This equipment has been tested and found to comply with the limits of a Class B digital device,
pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable
protection against harmful interference in a residential installation. This equipment generates,
uses and can radiate radio frequency energy, and if not installed and used in accordance with
the instructions, may cause harmful interference to radio communications. However, there is
no guarantee that the interference will not occur in a particular installation. If this equipment
does cause unacceptable interference to radio or television reception, which can be
determined by turning the equipment off and on, the user is encouraged to try to correct the
interference by one or more of the following measures -- reorient or relocate the receiving
antenna; increase the separation between equipment and receiver; or connect the into an
outlet on a circuit different from that to which the receiver is connected.
FCC WARNING
To assure continued FCC compliance, the user must use a grounded power supply cord and
the provided shielded video interface cable with bonded ferrite cores. Also, any unauthorized
changes or modifications to Amtrak products will void the user’s authority to operate this
device. Thus VINC Will not be held responsible for the product and its safety.
CE CERTIFICATION
This device complies with the requirements of the EEC directive 89/336/EEC with regard to
“Electromagnetic compatibility.”
SAFETY CAUTION
Use a power cable that is properly grounded. Always use the AC cords as follows – USA (UL);
Canada (CSA); Germany (VDE); Switzerland (SEV); Britain (BASEC/BS); Japan (Electric
Appliance Control Act); or an AC cord that meets the local safety standards.
VIZIO L32HDTV10A Service Manual
Chapter 1
Features
1.
Built in TV channel selector for TV viewing
2.
Simulatnueous display of PC and TV images
3.
Connectable to PC’s analog RGB port
4.
Built in s-video, HDTV, composite video, HDMI ,TV and DTV out
5. Built in auto adjust function for automatic adjument of screen display
6.
Smoothing function enables display of smooth texts and graphics even if image
withresolution lower than 1366x768 is magnified
7.
Picture In Picture (PIP) funtion to show TV or VCR images
8. Power saving to reduce consumption power too less than 3W
9. On Screen Display: user can define display mode (i.e. color, brightness, contrast,
sharpness), sound setting, PIP, TV channel program, aspect and gamma or
reset all setting.
CONFIDENTIAL – DO NOT COPY
Page 1-1
File No. SG-0182
Chapter 2
Specification
1. LCD CHARACTERISTICS
Type: WXGA TFT LCD
Size: 37 inch
Display Size: 37.02 inches (940.3mm) diagonal
Outline Dimension: 877.0/878.0 mm (H) x 516.8 mm (V) x 55.5 (D) mm (Typ.)
Pixel Pitch: 0.200mm x 0.600mm x RGB
Pixel Format: 1366 horiz. By 768 vert. Pixels RGB strip arrangement
Contrast ratio: 600(Typ)
Luminance, White: 500 cd/m2 (Typ)
Display Operating Mode: normally Black
Surface Treatment : Hard coating(3H), Anti-glare treatment of the front polarizer
Color Depth : 8-bit, 16.7 M colors
Viewing Angle (CR>10) : Viewing angle free ( R/L 176(Typ.), U/D 176(Typ.))
Power Consumption : Total 125Watt (Typ.) (Logic=4.5W, Lamp=120W [IBL=6.0mA] )
2. OPTICAL CHARACTERISTICS
Viewing Angle by Contrast Ratio :
Left: 88°typ.
Right: 88°typ.
Top: 88°typ.
Bottom: 88°typ.
3. SIGNAL (Refer to the Timing Chart)
3.1 Input Voltage Level: 90~240 Vac, 50/ 60 Hz
3.2 Input Signal :
3.2.1 RCA-type (Yellow) Composite Video Connector :
a. Signal Level Video (Y+C): Analog 1Vp-p/75
Sync (H+V): 0.3V below Video (Y+C)
b. Frequency H: 15.734KHz V:60Hz (NTSC)
3.2.2 Four-Pin mini DIN S-Video Connector
a. Pin Assignment
CONFIDENTIAL – DO NOT COPY
Page 2-1
File No. SG-0182
b. Signal Level Video (Y): Analog 0.1Vp-p/75
Video (C): Analog 0.286p-p/75
Sync (H+V): 0.3V below Video (Y)
c. Frequency H: 15.734KHz V: 60Hz (NTSC)
3.2.3 F-Type TV RF connector
3.2.3.1 NTSC System:
a. Signal Level: Analog 1Vp-p typical(45dB~90dB)
b. System :NTSC
c. Frequency: 55~801MHz (NTSC)
3.2.3.2 ATSC System
a. IF-output level: 1Vp-p minimum
b. System: ATSC
c. Frequency: 57~863MHz(ATSC)
3.2.4 PC connector 15 pin male D-sub connector
a. Pin Assignment :
CONFIDENTIAL – DO NOT COPY
Page 2-2
File No. SG-0182
b. Signal Level Video (R, G, B) : Analog 0.7Vp-p/75
Sync (H, V) : TTL level
c. Sync Type TTL (Separate / Composite) or Sync. On-Green
d. Sync polarity Positive or Negative
e. Frequency : H: support to 30K~70KHz
V: support to 50~85Hz
Pixel Clock: support to 110MHz
3.2.5 HDMI Signal (Digital HD):
a. Pin Assignment
CONFIDENTIAL – DO NOT COPY
Page 2-3
File No. SG-0182
b. Type:
TYPE A
c. Polarity: Positive or Negative
d. Frequency: H: 15.734KHz V: 60Hz (NTSC-480i)
H: 31KHz V: 60Hz (NTSC-480p)
H: 45KHz V: 60Hz (NTSC-720p)
H: 33KHz V: 60Hz (NTSC-1080i)
CONFIDENTIAL – DO NOT COPY
Page 2-4
File No. SG-0182
3.2.6 Component signal (Analog HD1 and Analog HD2)
3.2.6.1 Analog HD1
a. Frequency H: 15.734KHz V: 60Hz (NTSC-480i)
H: 31KHz V: 60Hz (NTSC-480p)
H: 45KHz V: 60Hz (NTSC-720p)
H: 33KHz V: 60Hz (NTSC-1080i)
b. Signal level Y: 1Vp-p Pb: ±0.350Vp-p Pr: ±0.350Vp-p
c. Impedance 75
3.2.6.2 Analog HD2
a. Frequency
H: 15.734KHz V: 60Hz (NTSC-480i)
H: 31KHz V: 60Hz (NTSC-480p)
H: 45KHz V: 60Hz (NTSC-720p)
H: 33KHz V: 60Hz (NTSC-1080i)
b. Signal level Y: 1Vp-p Pb: ±0.350Vp-p Pr: ±0.350Vp-p
c. Impedance 75
3.2.7 Audio Signal
a. Signal Level 1Vrms
b. Frequency Response 250Hz-20KHz
4.Input Connectors
RJ11, D-SUB15PIN ,mini jack(PC Audio in), HDMI CONNECT, RCAX2 (component),
RCAX3 (AUDIO in), RCAX3 (composite), RCAX3 (AUDIO in),F CONNECTx2,S-Video
5. POWER SUPPLY
Power Consumption: 220W MAX
Power OFF: to less than 3W MAX
6.Speaker
Output 6Ω/10W (max) X2
7. ENVIRONMENT
7-1. Operating Temperature: 5°C ~35°C (Ambient)
7-2. Relative Humidity: Ta= 35 °C, 10~90%RH (Non-condensing)
7-3. Altitude: 0~40,0000 feet (Non-Operating)
CONFIDENTIAL – DO NOT COPY
Page 2-5
File No. SG-0182
8. DIMENSIONS (Physical dimension)
Width: 959.9mm.
Depth: 311.0mm
Height: 748.4mm
9. WEIGHT (Physical weight)
a. Net: 25.9kgs
b. Gross: 33.5kg
9-1. MOUNTING PRECAUTIONS
(1) You must mount a module using holes arranged in four corners or four sides.
(2) You should consider the mounting structure so that uneven force (ex. Twisted
stress) is not applied to the module. And the case on which a module is mounted
should have sufficient strength so that external force is not transmitted directly to
the module.
(3) Please attach the surface transparent protective plate to the surface in order to
protect the polarizer. Transparent protective plate should have sufficient strength
in order to the resist external force.
(4) You should adopt radiation structure to satisfy the temperature specification.
(5) Acetic acid type and chlorine type materials for the cover case are not desirable
because the former generates corrosive gas of attacking the polarizer at high
temperature and the latter causes circuit break by electro-chemical reaction.
(6) Do not touch, push or rub the exposed polarizes with glass, tweezers or anything
harder than HB pencil lead. And please do not rub with dust clothes with chemical
treatment.
Do not touch the surface of polarizer for bare hand or greasy cloth.(Some
cosmetics are detrimental to the polarizer.)
(7) When the surface becomes dusty, please wipe gently with absorbent cotton or
other soft materials like chamois soaks with petroleum benzene. Normal-hexane
is recommended for cleaning the adhesives used to attach front / rear polarizers.
Do not use acetone, toluene and alcohol because they cause chemical damage to
the polarizer.
(8) Wipe off saliva or water drops as soon as possible. Their long time contact with
polarizer causes deformations and color fading.
(9) Do not open the case because inside circuits do not have sufficient strength.
CONFIDENTIAL – DO NOT COPY
Page 2-6
File No. SG-0182
9-2. OPERATING PRECAUTIONS
(1) The spike noise causes the mis-operation of circuits. It should be lower than
following voltage :
V=±200mV(Over and under shoot voltage)
(2) Response time depends on the temperature.(In lower temperature, it becomes
longer.)
(3) Brightness depends on the temperature. (In lower temperature, it becomes lower.)
And in lower temperature, response time(required time that brightness is stable
after turned on) becomes longer.
(4) Be careful for condensation at sudden temperature change. Condensation makes
damage to polarizer or electrical contacted parts. And after fading condensation,
smear or spot will occur.
(5) When fixed patterns are displayed for a long time, remnant image is likely to
occur.
(6) Module has high frequency circuits. Sufficient suppression to the electromagnetic
interference shall be done by system manufacturers. Grounding and shielding
methods may be important to minimized the interference.
9-3. HANDLING PRECAUTIONS FOR PROTECTION
(1) The protection film is attached to the bezel with a small masking tape. When the
protection film is peeled off, static electricity is generated between the film and
polarizer. This should be peeled off slowly and carefully by people who are
electrically grounded and with well ion-blown equipment or in such a condition,
etc.
(2) When the module with protection film attached is stored for a long time,
sometimes there remains a very small amount of glue still on the bezel after the
protection film is peeled off.
(3) You can remove the glue easily. When the glue remains on the bezel surface or its
vestige is recognized, please wipe them off with absorbent cotton waste or other
soft material like chamois soaked with normal-hexane.
CONFIDENTIAL – DO NOT COPY
Page 2-7
File No. SG-0182
Chapter 3
On Screen Display
Main unit button
Power
Input
CH ▲
CH ▼
VOL +
VOL MUTE / EXIT
MENU
TV Source
A. PICTURE ADJUST：
a. PICTURE MODE (USER/ VIVID1 /VIVID2 / VIVID3)
b. Adjust the BACKLIGHT (0~100)
c. Adjust the BRIGHTNESS (0~100)
d. Adjust the CONTRAST (0~100)
e. Adjust the COLOR (saturation)(0~100)
f. Adjust the TINT (hue) (0~100)
g. Adjust the SHARPNESS (0~100)
h. CLOSED CAPTION (OFF/CC1/CC2/CC3/CC4/TT1/TT2/TT3/TT4)
B. AUDIO ADJUST：
a. VOLUME (0~100)
b. BASS (0~100)
c. TREBLE (0~100)
d. BALANCE (0~100)
e. SURROUND (ON/OFF)
f. REVERB (OFF, CONCERT, LIVINGROOM, HALL, ARENA)
g. MUTE (ON/OFF)
h. SPEAKERS (ON/OFF)
C. TV TUNER SETUP：
a. SOUND (SAP/MONO/STEREO)
b. TV/CABLE (TV/CABLE)
c. CHANNEL SEARCH (RUN)
d. SET CHANNEL
CONFIDENTIAL – DO NOT COPY
Page 3-1
File No. SG-0182
e. SKIP CHANNEL (YES/NO)
D. PARENTAL CONTROL：
a. PARENT LOCK ENABLE (ON/OFF)
b. TV RATING
c. MOVIE RATING
d. ACCESS CODE EDIT
E. PIP SETUP：
a. STYLE (OFF/PIP/POP)
b. Source (AV1、AV2、AV3、ANALOGHD1、ANALOG HD2、DIGITAL HD
RGB、DTV)
c. SIZE (SMALL (20%)/MEDIUM (30%)/LARGE (40%))
d. POSITION (TOP LEFT/TOP CENTER/TOP RIGHT/MIDDLE LEFT
/MIDDLE RIGHT/BOTTOM LEFT/BOTTOM CENTER/BOTTOM RIGHT)
F. SPECIAL FEATURES：
a. LANGUAGE (ENGLISH/FRANCE/SPANISH)
b. SLEEP TIMER (OFF/30/60/90/120)
c. WIDE FORMAT (NORMAL/WIDE/ZOOM/PANORAMIC)
d. RESET ALL SETTING
PC Analog Mode
A. PICTURE ADJUST：
a. AUTO PICTURE (Run)
b. Adjust the BACKLIGHT (0~100)
c. Adjust the BRIGHTNESS (0~100)
d. Adjust the CONTRAST (0~100)
e. Adjust the V-POSITION (0~100)
f. Adjust the H-SIZE (0~100)
g. Adjust the H-POSITION (0~100)
h. Adjust the FINETUNE (0~100)
B. COLOR TEMP：
a. COLOR TEMP. (User, 5000K, 6500K,9300K)
b. RED (0~255)
c. GREEN (0~255)
d. BLUE (0~255)
CONFIDENTIAL – DO NOT COPY
Page 3-2
File No. SG-0182
C. AUDIO ADJUST：
a. VOLUME (0~100)
b. BASS (0~100)
c. TREBLE (0~100)
d. BALANCE (0~100)
e. SURROUND (ON/OFF)
f. REVERB (OFF, CONCERT, LIVING ROOM, HALL, ARENA)
g. MUTE (ON/OFF)
h. SPEAKERS (ON/OFF)
D. PIP SETUP：
a. STYLE (OFF/PIP/POP)
b. SOURCE (AV1、AV2、AV3、TV)
c. SIZE (SMALL (20%)/MEDIUM(30%)/LARGE (40%))
d. POSITION (TOP LEFT/TOP CENTER/TOP RIGHT/MIDDLE LEFT
/MIDDLE RIGHT/BOTTOM LEFT/BOTTOM CENTER/BOTTOM RIGHT)
E. SPECIAL FEATURES：
a. LANGUAGE (ENGLISH/FRANCE/SPANISH)
b. SLEEP TIMER (OFF/30/60/90/120)
c. WIDE FORMAT (WIDE/ NORMAL)
d. RESET ALL SETTING
DIGITAL HD MODE
A. PICTURE：
a. PICTURE MODE (USER/ VIVID1 /VIVID2 / VIVID3)
b. Adjust the BACKLIGHT (0~100)
c. Adjust the BRIGHTNESS (0~100)
d. Adjust the CONTRAST (0~100)
e. Adjust the COLOR (saturation)(0~100)
f. Adjust the TINT (hue) (0~100)
g. Adjust the SHARPNESS (0~100)
B. AUDIO ADJUST：
a. VOLUME (0~100)
b. BASS (0~100)
c. TREBLE (0~100)
d. BALANCE (0~100)
e. SURROUND (ON/OFF)
CONFIDENTIAL – DO NOT COPY
Page 3-3
File No. SG-0182
f. REVERB (OFF, CONCERT, LIVING ROOM, HALL, ARENA)
g. MUTE (ON/OFF)
h. SPEAKERS (ON/OFF)
i. AUDIO SOURCE(DIGITAL HD/DTV)
C. PARENTAL CONTROL：
a. PARENT LOCK ENABLE (ON/OFF)
b. TV RATING
c. MOVIE RATING
d. ACCESS CODE EDIT
D. PIP SETUP：
a. STYLE (OFF/PIP/POP)
b. SOURCE (AV1、AV2、AV3、TV)
c. SIZE (SMALL (20%)/MEDIUM (30%)/LARGE (40%))
d. POSITION (TOP LEFT/TOP CENTER/TOP RIGHT/MIDDLE LEFT
/MIDDLE RIGHT/BOTTOM LEFT/BOTTOM CENTER/BOTTOM RIGHT)
E. SPECIAL FEATURES：
a. LANGUAGE (ENGLISH/FRANCE/SPANISH)
b. SLEEP TIMER (OFF/30/60/90/120)
c. WIDE FORMAT (NORMAL/WIDE/ZOOM)
d. RESET ALL SETTING
Video Sources：
AV1、AV2、AV3、ANALOG HD1、ANALOG HD2
A. PICTURE：
a. PICTURE MODE (USER/ VIVID1 /VIVID2 / VIVID3)
b. Adjust the BACKLIGHT (0~100)
c. Adjust the BRIGHTNESS (0~100)
d. Adjust the CONTRAST (0~100)
e. Adjust the COLOR (saturation)(0~100)
f. Adjust the TINT (hue) (0~100)
g. Adjust the SHARPNESS (0~100)
h. CLOSED CAPTION (OFF/CC1/CC2/CC3/CC4/TT1/TT2/TT3/TT4)
CONFIDENTIAL – DO NOT COPY
Page 3-4
File No. SG-0182
B. AUDIO ADJUST：
a. VOLUME (0~100)
b. BASS (0~100)
c. TREBLE (0~100)
d. BALANCE (0~100)
e. SURROUND (ON/OFF)
f. REVERB (OFF, CONCERT, LIVING ROOM, HALL, ARENA)
g. MUTE (ON/OFF)
h. SPEAKERS (ON/OFF)
C. PARENTAL CONTROL：
a. PARENT LOCK ENABLE (ON/OFF)
b. TV RATING
c. MOVIE RATING
d. ACCESS CODE EDIT
D. PIP SETUP：
a. STYLE (OFF/PIP/POP)
b. SOURCE (AV2、AV3、ANALOGHD1、ANALOG HD2、DIGITAL HD、
RGB、TV)
c. SIZE (SMALL (20%)/MEDIUM (30%)/LARGE (40%))
d. POSITION (TOP LEFT/TOP CENTER/TOP RIGHT/MIDDLE LEFT
/MIDDLE RIGHT/BOTTOM LEFT/BOTTOM CENTER/BOTTOM RIGHT)
E. SPECIAL FEATURES：
a. LANGUAGE (ENGLISH/FRANCE/SPANISH)
b. SLEEP TIMER (OFF/30/60/90/120)
c. WIDE FORMAT (NORMAL/WIDE/ZOOM/PANORAMIC)
d. RESET ALL SETTING
DTV Sources：
A. PICTURE：
a. PICTURE MODE (USER/ VIVID1 /VIVID2 / VIVID3)
b. Adjust the BACKLIGHT (0~100)
c. Adjust the BRIGHTNESS (0~100)
d. Adjust the CONTRAST (0~100)
e. Adjust the COLOR (saturation)(0~100)
f. Adjust the TINT (hue) (0~100)
CONFIDENTIAL – DO NOT COPY
Page 3-5
File No. SG-0182
g. Adjust the SHARPNESS (0~100)
B. AUDIO ADJUST：
a. VOLUME (0~100)
b. BASS (0~100)
c. TREBLE (0~100)
d. BALANCE (0~100)
e. SURROUND (ON/OFF)
f. REVERB (OFF, CONCERT, LIVING ROOM, HALL, ARENA)
g. MUTE (ON/OFF)
h. SPEAKERS (ON/OFF)
C.DTV OSD
a. DTV TUNER SETUP
1. TIME ZONE:
α. HAWALL
β. EASTTERN TIME
γ. INDIANA
δ. CENTRAL TIME
ε. MOUNTAIN TIME
ζ. ARIZONA
η. PACIFIC TIME
θ. ALASKA
2. AUTO SCAN
3. MANUAL SCAN PRESS<OK>
(1) ADD-ON MODE
(2) RANGE MODE
α. FORM CHANNEL(2~69)
β. TO CHANNEL(2~69)
4. CHANNEL SKIP PRESS<OK>
b. CLOSED CAPTION:
1. ANALOG COLOSED CAPTION
α.OFF
β.CC1
γ.CC2
δ.CC3
ε.CC4
CONFIDENTIAL – DO NOT COPY
Page 3-6
File No. SG-0182
2. DIGITAL COLOSED CAPTION
α.OFF
β.SERVICE1
γ.SERVICE2
δ.SERVICE3
ε.SERVICE4.
ζ.SERVICE5
η.SERVICE6
3. DIGITAL CAPTION STYLE PRESS<OK>
(1) AS BROADCASTER
(2)CUSTOM
FONT SIZE
α.LARGE
β.SMALL
γ.MEDIUM
FONT COLOR
α.BLACK
β.WHITE
γ.GREEN
δ.BLUE
ε.RED
ζ.CYAN
η.YELLOW
θ.MAGENTA
FONT OPACITY
α.SOLID
β.TRANSLUCENT
γ.TRANSPARENT
BLACKGROUND COLOR
α.BLACK
β.WHITE
γ.GREEN
δ.BLUE
ε.RED
ζ.CYAN
CONFIDENTIAL – DO NOT COPY
Page 3-7
File No. SG-0182
η.YELLOW
θ.MAGENTA
BLACKGROUND OPACITY
α.SOLID
β.TRANSLUCENT
γ.TRANSPARENT
WINDOW COLOR
α.BLACK
β.WHITE
γ.GREEN
δ.BLUE
ε.RED
ζ.CYAN
η.YELLOW
θ.MAGENTA
WINDOW OPACITY
α.SOLID
β.TRANSLUCENT
γ.TRANSPARENT
c.PARENTAL CONTROL
PASSWORD PRESS<OK>
1.0000
2.CHANNEL BLOCK PRESS<OK>
D. PARENTAL CONTROL：
a. PARENT LOCK ENABLE (ON/OFF)
b. TV RATING
c. MOVIE RATING
d. ACCESS CODE EDIT
E. PIP SETUP：
a. STYLE (OFF/PIP/POP)
b. SOURCE (AV1、AV2、AV3、TV)
c. SIZE (SMALL (20%)/MEDIUM (30%)/LARGE (40%))
d. POSITION (TOP LEFT/TOP CENTER/TOP RIGHT/MIDDLE LEFT
/MIDDLE RIGHT/BOTTOM LEFT/BOTTOM CENTER/BOTTOM RIGHT)
CONFIDENTIAL – DO NOT COPY
Page 3-8
File No. SG-0182
F. SPECIAL FEATURES：
a. LANGUAGE (ENGLISH/FRANCE/SPANISH)
b. SLEEP TIMER (OFF/30/60/90/120)
c. WIDE FORMAT (NORMAL/WIDE)
d. RESET ALL SETTING
CONFIDENTIAL – DO NOT COPY
Page 3-9
File No. SG-0182
Chapter4
Factory preset timings
This timing chart is already preset for the TFT LCD analog & digital display monitors.
Refresh
Horizontal
Vertical
Horizontal
Vertical
Pixel
rate
Frequency
Frequency
Polarity
Polarity
Rate
640x480
60Hz
31.5kHz
59.94Hz
N
N
25.175
640x480
75Hz
37.5kHz
75.00Hz
N
N
31.500
800X600
60Hz
37.9kHz
60.317Hz
P
P
40.000
800x600
75Hz
46.9kHz
75.00Hz
P
P
49.500
800X600
85Hz
53.7kHz
85.06Hz
P
P
56.250
1024x768
60Hz
48.4kHz
60.01Hz
N
N
65.000
1024X768
75Hz
60.0kHz
75.03Hz
P
P
78.750
720x400
70Hz
31.46kHz
70.08Hz
N
P
28.320
1366X768
60
47.7KHZ
60.00HZ
P
N
85.500
Resolution
Remark:
CONFIDENTIAL – DO NOT COPY
P: positive
N: negative
Page 4-1
File No. SG-0182
Chapter5
Pin Assignment
The TFT LCD analog display monitors use a 15 Pin Mini D-Sub connector as video
input source.
Pin
Description
1
Red
2
Green
3
Blue
4
Ground
5
Ground
6
R-Ground
7
G-Ground
8
B-Ground
9
+5V for DDC
10
Ground
11
No Connection
12
(SDA)
13
H-Sync (Composite Sync)
14
V-Sync
15
(SCL)
Table 1.
1
5
6
11
CONFIDENTIAL – DO NOT COPY
10
15
Page 5-1
File No. SG-0182
PC connector 15 pin male D-sub connector
a. Pin Assignment Refer to Table 1
b. Signal Level Video (R, G, B): Analog 0.7Vp-p/75Ω
Sync (H, V): TTL level
RGB Signal:
a. Sync Type TTL (Separate / Composite) or Sync. On Green
b. Sync polarity Positive or Negative
c. Video Amplitude RGB: 0.7Vp-p
d. Frequency
H: support to 30K~70KHz
V: support to 50~85Hz
Pixel Clock: support to 110MHz
HDMI CONNECT PIN ASSIGNMENT
PIN
SIGNAL ASSIGNMENT
PIN
SIGNAL ASSIGNMENT
1
TMDS Data2+
11
TMDS Clock Shield
2
TMDS Data2 Shield
12
TMDS Clock-
3
TMDS Data2-
13
CEC
4
TMDS Data1+
14
Reserved (N.C on device)
5
TMDS Data1 Shield
15
SCL
6
TMDS Data1-
16
SDA
7
TMDS Data0+
17
DDC/CEC Ground
8
TMDS Data0 Shield
18
+5V Power
9
TMDS Data0-
19
Hot Plug Detect
10
TMDS Clock+
Table 2.
CONFIDENTIAL – DO NOT COPY
Page 5-2
File No. SG-0182
HDMI Signal (Digital HD):
a. Pin Assignment Refer to Table 2.
b. Type A
c. Polarity Positive or Negative
d. Frequency
H: 15.734KHz V: 60Hz (NTSC-480i)
H: 31KHz V: 60Hz (NTSC-480p)
H: 45KHz V: 60Hz (NTSC-720p)
H: 33KHz V: 60Hz (NTSC-1080i)
Four-Pin mini DIN S-Video Connector
a. Pin Assignment
CONFIDENTIAL – DO NOT COPY
Page 5-3
File No. SG-0182
b. Signal Level Video (Y): Analog 0.1Vp-p/75Ω
Video (C): Analog 0.286p-p/75
Sync (H+V): 0.3V below Video (Y)
Frequency H: 15.734KHz V: 60Hz (NTSC)
CONFIDENTIAL – DO NOT COPY
Page 5-4
File No. SG-0182
F-Type TV RF connector
NTSC System:
a. Signal Level: Analog 1Vp-p typical(45dB~90dB)
b. System :NTSC
c. Frequency: 55~801MHz (NTSC)
ATSC System
a. IF-output level: 1Vp-p minimum
b. System: ATSC
c. Frequency: 57~863MHz(ATSC)
Component signal (Analog HD1 and Analog HD2)
Analog HD1
a. Frequency H: 15.734KHz V: 60Hz (NTSC-480i)
H: 31KHz V: 60Hz (NTSC-480p)
H: 45KHz V: 60Hz (NTSC-720p)
H: 33KHz V: 60Hz (NTSC-1080i)
b. Signal level Y: 1Vp-p Pb: ±0.350Vp-p Pr: ±0.350Vp-p
c. Impedance 75Ω
CONFIDENTIAL – DO NOT COPY
Page 5-5
File No. SG-0182
Analog HD2
a. Frequency H: 15.734KHz V: 60Hz (NTSC-480i)
H: 31KHz V: 60Hz (NTSC-480p)
H: 45KHz V: 60Hz (NTSC-720p)
H: 33KHz V: 60Hz (NTSC-1080i)
b. Signal level Y: 1Vp-p Pb: ±0.350Vp-p Pr: ±0.350Vp-p
c. Impedance 75Ω
RCA-type (Yellow) Composite Video Connector(AV1,AV2,AV3)
a. Signal Level Video (Y+C): Analog 1Vp-p/75
Sync (H+V): 0.3V below Video (Y+C)
b. Frequency H: 15.734KHz V:60Hz (NTSC)
CONFIDENTIAL – DO NOT COPY
Page 5-6
File No. SG-0182
PHONE JACK AUDIO INPUT
:
a. Signal Level 1Vrms
b. Frequency Response 250Hz-20KHz
CONFIDENTIAL – DO NOT COPY
Page 5-7
File No. SG-0182
Chapter 6
Block Diagram
The TV system block diagram is powered by power board that transforms AC source
of 100V~240V AC +/- 10% @ 50/60 HZ into DC 5V & 12V& 24Vsource. The main
board receives different types of video signal into the MTK8205 Ic. Afterward, the
MTK8205 Ic process the signals control the various functions of the monitor and
outputs control signal, video signal and power to the 37” WXGA panel to be
displayed.
The power send to the panel is first processed by the inverter.
CONFIDENTIAL – DO NOT COPY
Page 6-1
File No. SG-0182
The function of the inverter is to step up the voltage supplied by the main board to the
power that is needed to light up the lamps in the panel. Simultaneously, the digital
video signals are processed in the panel and the outcome determines the brightness,
pixel on/off and the color displayed on the panel.
The analog video signals of S-video, YPbPr, TV, PC and A/V all video signals are
translated from analog signals into MTK8205 generates the vertical and horizontal
timing signals for display device.
The analog audio of s-video, YPbPr, TV, PC and A/V is transmitting to the WM8776
processed. The purpose is process the input audio signal to control volume, bass,
treble, surround, and balance. The HDMI video and audio is must transmitting to
sil9011 processed then TMDS signal to the MTK8205 generates the vertical and
horizontal timing signals for display device.
The DTV signal is processes to the tuner and output to MT5111 who handle ATSC
input to match MPEG-2 package, then transfer to MT5351. After passing through
decoder, the signal will be with the digital signal tri-dtate from HDMI transfer to digital
port of MT8205 . All functions are controllable by the main board. Plus, all functions in
the IC boards are programmable using I2C Bus.
CONFIDENTIAL – DO NOT COPY
Page 6-2
File No. SG-0182
Main Board Block Diagram
Video Signal
RJ11
P11
Audio Signal
Communicate Signal
24C02
U17
Control Pin
HDMI
CON.
P1
FFC 50PIN CON.
Sil9011
U16
+12V
For DTV Signal
+5V
+3.3V
+2.5V
24C02
U18
D_SUB
15PIN
P3
KEY
BOARD
CONN.
IR
CONN.
DDR SDRAM
U11,U12
DC/DC
FLASH
MEMORY
U10
DC
POWER
12V
IN
CONN.
Y
Cb
Cr
I2C
COMPONENT1&2
VIDEO P8
IDTQS3VH257
MT8205
U21
Y
Cb
37' LCD
Panel
U9
Cr
SEL
R
L
COMPONENT1&2
Audio P10
R
I2C
L
SY
V
V
R
R
L
L
Y+C
L/R
Y+C
L/R
SC
CVBS1
CVBS2
A/V RCA P2
AUO1L_SWO
U20
S-VIDEO J6
AUO1R_SWO
AUO2L_SWO
AUO2R_SWO
Y+C
V
DVI Audio
Input
P7
MM1492
Y
C
DETECT
PC Audio
Input
P5
Audio Processor
WM8776
U20
OPA
U28
R
RCA OUT
P9
L
HEAD
PHONE
J3
AV3 RCA J4
HEAD PHONE DETECT
I2C
R+
PWM1
TV CVBS
RTDA8946
UA1
SIF
PHILIPS FQ1236 TU1
L+
L-
Title
<Title>
Size
Document Number
Custom<Doc>
Date:
CONFIDENTIAL – DO NOT COPY
Monday, November 14, 2005
Rev
<RevCode>
Sheet
1
of
1
Page 6-3
File No. SG-0182
Video Board Block Diagram
Video Signal
Audio Signal
Communicate Signal
Control Pin
I2C
Narrow_IF_OP1&OP2
PORT SAW
FILTER
U7
AGC
Amplifiers
U8
IF AGC
PHILIPS TD1336
U6
I2C
Demodulator
MT5111
U9
I2C
DDR SDRAM
U12,U13
FCC
50PIN
CON.
J1
DTV Backend Decoder
MT5351
U10
AUD_CTRL
IDTQS3VH257
U18
For Main Board
DV33
VOLTAGE
CONTROL
CRYSTAL
OSCILLATOR
X1
Flash Memory
U15
Title
<Title>
Size
B
Date:
CONFIDENTIAL – DO NOT COPY
Document Number
<Doc>
Monday, November 14, 2005
Rev
<RevCode>
Sheet
1
of
1
Page 6-4
File No. SG-0182
Chapter7
Main Board I/o Connections
J7 CONNECTION (TOP→BOTTOM)
Pin
Description
1
“Auto”
2
“Left”
3
“Right”
4
“Down”
5
“Gnd”
6
“Up”
7
“Menu”
8
“Source”
9
“Power”
10
“LED”
11
“IR”
12
“+5V”
J1 CONNECTION (TOP→BOTTOM)
Pin
Description
1
“POWRSW”
2
“+12V”
3
“+12V”
4
“+12V”
5
“GND”
6
“GND”
7
“GND”
8
“GND”
9
“+5V”
10
“+5V”
11
“+5V”
12
“PWM”
13
“BL ON/OFF”
CONFIDENTIAL – DO NOT COPY
Page 7-1
File No. SG-0182
J3 CONNECTION (TOP→BOTTOM)
Pin
Description
Pin
Description
1
“+3.3V”
16
“HPR”
2
“GND”
17
“HPL”
3
“G/Y”
18
“GNDV”
4
“B/U”
19
“HPDET#”
5
“R/V”
20
“AV3_IN”
6
“LMAIN1”
21
“AV3_GND”
7
“RMAIN1”
22
“AV3L”
8
“+5.0V”
23
“AV3L GND”
9
“GND”
24
“AV3R”
10
“8302IR”
25
“AV3R GND”
11
“8302NET1”
26
“S1Y_IN”
12
“8302NET2”
27
“S1Y_GND”
13
“8302RXD”
28
“S1C_IN”
14
“8302TXD”
29
“S1C_GND”
15
“GNDV”
30
“SVDET2#”
CONFIDENTIAL – DO NOT COPY
Page 7-2
File No. SG-0182
J2 CONNECTION (TOP→BOTTOM)
Pin
Description
Pin
Description
1
“GND”
26
“GND”
2
“I2C_SW”
27
“VOG3”
3
“OREQUEST#”
28
“VOG2”
4
“OREADY#”
29
“VOG1”
5
“ORESET#”
30
“VOG0”
6
“GND”
31
“GND”
7
“VOPCLK”
32
“VOB7”
8
“VODE”
33
“VOB6”
9
“VOVSYNC”
34
“VOB5”
10
“VOHSYNC”
35
“VOB4”
11
“GND”
36
“GND”
12
“VOR7”
37
“VOB3”
13
“VOR6”
38
“VOB2”
14
“VOR5”
39
“VOB1”
15
“VOR4”
40
“VOB0”
16
“GND”
41
“GND”
17
“VOR3”
42
“AO1SDATA0”
18
“VOR2”
43
“AO1LRCK”
19
“VOR1”
44
“AO1BCK”
20
“VOR0”
45
“AO1MCLK”
21
“GND”
46
“GND”
22
“VOG7”
47
“U2RX”
23
“VOG6”
48
“U2TX”
24
“VOG5”
49
“U0RX”
25
“VOG4”
50
“U0TX”
CONFIDENTIAL – DO NOT COPY
Page 7-3
File No. SG-0182
J8 CONNECTION (TOP→BOTTOM)
Pin
Description
1
“+5V”
2
“GND”
3
“GND”
4
“+12V”
5
“+12V”
CONFIDENTIAL – DO NOT COPY
Page 7-4
File No. SG-0182
Chapter 8
Theory of Circuit Operation
The operation of D-SUB 15pin route
The D-SUB 15pin is input analog signal to the MTK8205 transfer A/D converter then
generates the vertical and horizontal timing signals for display device.
The operation of HDMII CON route
The HDMI CON is input digital signal the signal is process to the sil9011. Then transfer to the
MTK8205, the MTK8205 generates the vertical and horizontal timing signals for display
device.
The operation of HDTV & Component route
HDTV & Component signal is input to switch IDTQS3VH257 (Select Component1 or 2). Then
transfer to the MTK8205 the MTK8205 generates the vertical and horizontal timing signals for
display device.
The operation of Video 1,2,3 & S-Video route
The Video 1,2,3 and S-Video signal is transmission signal to main board MM1492 (Switch)
and output to MTK8205 the MTK8205 generates the vertical and horizontal timing signals for
display device.
The operation of TV route
TV signal is processes to the tuner and output to MM1492 (switch) then transfer to MTK8205
the MTK8205 generates the vertical and horizontal timing signals for display device. Audio is
processes to the tuner output to SIF circuit and output to MTK8205.Then MTK8205 process
to wm8776 and output to TDA8946J transfer to speaker
The operation of DTV route
DTV signal is processes to the tuner and output to MT5111 who handle ATSC input to match MPEG-2 package,
then transfer to MT5351. After passing through decoder, the signal will be with the digital signal tri-dtate from
HDMI transfer to digital port of MT8205
The operation of keypad
There are 8 keys to control and select the function of L32 and also has one LED to indicate
the status of operation. They are “Power, Mute/Exit, OSD, ▼▲, +
CONFIDENTIAL – DO NOT COPY
-, Input”.
Page 8-1
File No. SG-0182
1. The power key through POW and GND to control MTK8205, MTK8205 will receive a
low signal to turn on or off system while press the power key.
2. The other key the same as power key .
3. The LED is constructed with two separate LED which color is blue and orange. The
MTK8205 direct control the LED’s when MTK8205 (OGO5) is low the LED is orange
(Close power) when MTK8205 (OGO5) is high the LED is blue (Open power).
MT8205 Application
MT8205 is a highly integrated single chip for LCD TV supporting video input and output
format up to HDTV. It includes 3D comb filter TV Decoder to retrieve the best image from
popular composite signals. On-chip advanced motion adaptive de-interlacer converts
accordingly the interlace video into progressive one with overlay of a 2D Graphic processor.
Optional 2nd HDTV or SDTV inputs allows user to see multi-programs on same screen.
Flexible scalar provides wide adoption to various LCD panel for different video sources. Its
on-chip audio processor decodes analog signals from Tuner with lip sync control, delivering
high quality post-processed sound effect to customers. On-chip microprocessor reduces the
system BOM and shortens the schedule of UI design by high level C program. MT8205 is a
cost-effective and high performance HDTV-ready solution to TV manufactures.
CONFIDENTIAL – DO NOT COPY
Page 8-2
File No. SG-0182
BOLOCK DIAGRAM
1. Video input
a. Input Multiplexing
1.component X2
2.composite X3
3.s-videoX1
4.HDMI X1
5.VGA X1
6.RF X2
CONFIDENTIAL – DO NOT COPY
Page 8-3
File No. SG-0182
b. Input formats:
1.support HDTV 480i/480p/720p/1080p
2.support Y/C signal 1VP-P/75Ω
3.support Y/C signal 1VP-P/75Ω
4.support 480i/408p/720p/1080i/1080p
5.support VGA input up to 1366x168@60HZ
6.support NTSC system Frequency 55~801MHZ
7. support ATSC system Frequency 57~863MHZ
2. TV Decoder
For pip/pop:
Dual identical TVD on chip
3D-comb for both path
Dual VBI decoders for the application of V-chip
3. Support Formats:
Support NTSC, NTSC-4.43
Support ATSC
Automatic Luma / Chroma gain control
Automatic TV standard detection
NTSC Motion Adaptive 3D comb filter
Motion adaptive 3D Noise Reduction
VBI decoder for closed-caption/XDS/Teletext/WSS/VPS
Macro vision detection
CONFIDENTIAL – DO NOT COPY
Page 8-4
File No. SG-0182
BOLOCK DIAGRAM
4. 2D-Graphic/OSD processor
Two OSD planes.
Support alpha blending among these two planes and video
Support text/bitmap decoder
Support line/rectangle/gradient fill
Support bitblt
Support color key function
Support clip mask
65535/256/16/4/2-color bitmap format OSD
Automatic vertical scrolling of OSD image
Support OSD mirror and upside down
CONFIDENTIAL – DO NOT COPY
Page 8-5
File No. SG-0182
5. Microprocessor interface
When power is supplied and power key is pressed then the rest circuit lets Reset to low
state that will reset the MTK8205 to initial state. After that the Reset will transits to high
state and the MTK8205 start to work that microprocessor executes the programs and
configures the internal registers. The execution speed of CPU is 133 MHz.
a. The I/O ports are configured as follows：
Pin name
Function
Type
AF26
VGASCL
Input / Output
AE26
VGASDA
Input / Output
AB23
Description
REQUEST# Input / Output
AB24
READY#
Input / Output
AD22
SCL
Input / Output
AC22
SDA
Input / Output
OBO0
SOURCE
Input
Key detection
OBO1
MENU
Input
Key detection
OBO2
UP
Input
Key detection
OBO3
DOWN
Input
Key detection
OBO4
RIGHT
Input
Key detection
OBO5
LEFT
Input
Key detection
OBO6
AUTO
Input
Key detection
OBO7
POWER
Input
Key detection
OGO5
LED
Output
AF24
IR
Input / Output
AE23
GPIO
Output
Power on of TV board and panel
AD23
PWM0
Output
Backlight Adjustmance
AC23
PWM1
Output
Select mute
AF6
ORO6
Output
RCA out mute
AE20
UP1_4
Input
S-video Detect
AF20
UP1_3
Output
HDMI SCDT
AE19`
UP1_2
Output
YCBCRSEL
AE21
UP3_0
Output
Backlight ON/OFF
AD21
UP3_1
Output
HDMI CAB
CONFIDENTIAL – DO NOT COPY
Page 8-6
File No. SG-0182
b. PIP/POP HARDWARE LIMITION:
Secondary Window Source
ATSC Tuner
A
A
X
NTSC Tuner
B
9
X
9
9
9
9
9
9
9
A/V1
C
9
9
X
9
9
9
9
9
9
A/V2
D
9
9
9
X
9
9
9
9
9
A/V3 (Side)
E
9
9
9
9
X
9
9
9
9
Analog HD1 (480i~1080i)
F
X
9
9
9
9
X
X
X
X
Analog HD2 (480i~1080i)
G
X
9
9
9
9
X
X
X
X
Digital HD1 (HDMI)
H
X
9
9
9
9
X
X
X
X
RGB
I
X
9
9
9
9
X
X
X
X
Primary Window Source
B
9
C
9
D
9
E
9
F
X
G
X
H
X
I
X
Input Matrix for Windowing Functionality
6. Video processor
a. Color management
Flesh tone and multiple-color enhancement
Gamma/anti-Gamma correction
Color Transient Improvement (CTI)
Saturation/hue adjustment
Contrast/Brightness/Sharpness Management
Sharpness and DLTI/DCTI
Brightness and contrast adjustment
Black level extender
White peak level limiter
Adaptive Luma/Chroma Management
b. De-interlacing
Automatic detect film or video source
3:2/2:2 pull down source detection
Advanced Motion adaptive de-interlacing
CONFIDENTIAL – DO NOT COPY
Page 8-7
File No. SG-0182
c. Scaling
Arbitrary ratio vertical/horizontal scaling of video, from1/32X to 32X
Advanced linear and non-linear Panorama scaling
Programmable Zoom viewer
Picture in picture (PIP)
Picture in picture
d. Display
12/10 10/8 8/6 Dithering processing for LCD display
10bit gamma correction
Support Alpha blending for Video and two OSD panel
Frame rate conversion
7. DRAM Usage
8205,2pcs of 8X16 DDR166 is necessary
Here is a comparison chart between (2XDDR)and(1XDDR)
MTK8205 8MX16 DDRAM test report
CONFIDENTIAL – DO NOT COPY
Page 8-8
File No. SG-0182
8. Flash Usage
Flash is used to store FW code, fonts, bitmaps, and big tables for VGA, Video, and Gamma
2Mbyte is recommended to build a general TV model
MTK8205 Flash ROM support test report
CONFIDENTIAL – DO NOT COPY
Page 8-9
File No. SG-0182
DDR SDRAM (M13S128168A-6T) Application
Pin description
CONFIDENTIAL – DO NOT COPY
Page 8-10
File No. SG-0182
Command Truth Table
1. Power-Up and Initialization Sequence
The following sequence is required for POWER UP and Initialization.
1. Apply power and attempt to maintain CKE at a low state (all other inputs may be
undefined.)
- Apply VDD before or at the same time as VDDQ.
- Apply VDDQ before or at the same time as VTT & VREF).
2. Start clock and maintain stable condition for a minimum of 200us.
3. The minimum of 200us after stable power and clock (CLK, CLK), apply NOP & take CKE
high.
4. Issue precharge commands for all banks of the device.
5. Issue EMRS to enable DLL. (To issue “DLL Enable” command, provide “Low” to A0,
“High” to BA0 and “Low” to all of the rest address pins, A1~A11 and BA1)
CONFIDENTIAL – DO NOT COPY
Page 8-11
File No. SG-0182
6. Issue a mode register set command for “DLL reset”. The additional 200 cycles of clock
input is required to lock the DLL.(To issue DLL reset command, provide “High” to A8 and
“Low” to BA0)
7. Issue precharge commands for all banks of the device.
8. Issue 2 or more auto-refresh commands.
9. Issue a mode register set command with low to A8 to initialize device operation.
2. Mode Register Set (MRS)
The mode register stores the data for controlling the various operating modes of DDR
SDRAM. It programs CAS latency, addressing mode, burst length, test mode, DLL reset
and various vendor specific options to make DDR SDRAM useful for variety of different
applications. The default value of the register is not defined, therefore the mode register
must be written after EMRS setting for proper DDR SDRAM operation. The mode register
is written by asserting low on CS , RAS , CAS , WE and BA0 (The DDR SDRAM should be
in all bank recharge with CKE already high prior to writing into the mode register). The
state of address pins A0~A11 in the same cycle as CS , RAS , CAS , WE and BA0 going
low is written in the mode register. Two clock cycles are requested to complete the write
operation in the mode register. The mode register contents can be changed using the
same command and clock cycle requirements during operation as long as all banks are in
the idle state. The mode register is divided into various fields depending on functionality.
The burst length uses A0~A2, addressing mode uses A3, CAS latency (read latency from
column address) uses A4~A6. A7 is used for test mode. A8 is used for DLL reset. A7 must
be set to low for normal MRS operation. Refer to the table for specific codes for various
burst length, addressing modes and CAS latencies.
CONFIDENTIAL – DO NOT COPY
Page 8-12
File No. SG-0182
3. Precharge
The precharge command is used to precharge or close a bank that has activated. The
precharge command is issued when CS, RAS and WE are low and CAS is high at the
rising edge of the clock. The precharge command can be used to precharge each bank
respectively or all banks simultaneously. The bank select addresses (BA0, BA1) are used
to define which bank is precharged when the command is initiated. For write cycle,
tWR(min.) must be satisfied until the precharge command can be issued. After tRP from
the precharge, an active command to the same bank can be initiated.
Burst Selection for Precharge by Bank address bits
A10/AP
BA1
BA0
Precharge
0
0
0
Bank A Only
0
0
1
Bank B Only
0
1
0
Bank C Only
0
1
1
Bank D Only
1
X
X
All Banks
CONFIDENTIAL – DO NOT COPY
Page 8-13
File No. SG-0182
4. Row Active
The Bank Activation command is issued by holding CAS and WE high with CS and RAS
low at the rising edge of the clock (CLK). The DDR SDRAM has four independent banks;
so two Bank Select addresses (BA0, BA1) are required. The Bank Activation command to
the first read or write command must meet or exceed the minimum of RAS to CAS delay
time (tRCD min). Once a bank has been activated, it must be precharged before another
Bank Activation command can be applied to the same bank. The minimum time interval
between interleaved Bank Activation command (Bank A to Bank B and vice versa) is the
Bank-to-Bank delay time (tRRD min).
5. Read Bank
This command is used after the row activates command to initiate the burst read of data.
The read command is initiated by activating CS, CAS , and deasserting WE at the same
clock sampling (rising) edge as described in the command truth table. The length of the
burst and the CAS latency time will be determined by the values programmed during the
MRS command.
6. Write Bank
This command is used after the row activates command to initiate the burst write of data.
The write command is initiated by activating CS, CAS, and WE at the same clock sampling
(rising) edge as describe in the command truth table. The length of the burst will be
determined by the values programmed during the MRS command.
CONFIDENTIAL – DO NOT COPY
Page 8-14
File No. SG-0182
7. Burst Read Operation
Burst Read operation in DDR SDRAM is in the same manner as the current SDRAM such
that the Burst read command is issued by asserting CS and CAS low while holding RAS
and WE high at the rising edge of the clock (CLK) after tRCD from the bank activation. The
address inputs determine the starting address for the Burst, The Mode Register sets type
of burst.
(Sequential or interleave) and burst length (2, 4, 8). The first output data is available after
the CAS Latency from the READ command, and the consecutive data are presented on
the falling and rising edge of Data Strobe (DQS) adopted by DDR SDRAM until the burst
length is completed.
8. Burst Write Operation
The Burst Write command is issued by having CS , CAS and WE low while holding RAS
high at the rising edge of the clock (CLK). The address inputs determine the starting
column address. There is no write latency relative to DQS required for burst write cycle.
The first data of a burst write cycle must be applied on the DQ pins tDS (Data-in setup time)
prior to data strobe edge enabled after tDQSS from the rising edge of the clock (CLK) that
the write command is issued. The remaining data inputs must be supplied on each
subsequent falling and rising edge of Data Strobe until the burst length is completed. When
the burst has been finished, any additional data supplied to the DQ pins will be ignored.
CONFIDENTIAL – DO NOT COPY
Page 8-15
File No. SG-0182
MX29LV160BTTC (Flash) Application
The MX29LV800T/B & MX29LV800AT/AB is a 8-mega bit Flash memory organized as 1M
bytes of 8 bits or 512K words of 16 bits. MXIC's Flash memories offer the most cost-effective
and reliable read/write non-volatile random access memory. The MX29LV800T/B &
MX29LV800AT/AB is packaged in 44-pin SOP, 48-pin TSOP, and 48-ball CSP. It is designed
to be reprogrammed and erased in system or in standard EPROM programmers.
CONFIDENTIAL – DO NOT COPY
Page 8-16
File No. SG-0182
BLOCK DIAGRAM
1. COMMAND DEFINITIONS
Device operations are selected by writing specific address and data sequences into the
command register. Writing incorrect address and data values or writing them in the
improper sequence will reset the device to the read mode. Table 5 defines the valid
register command sequences. Note that the Erase Suspend (B0H) and Erase Resume
(30H) commands are valid only while the Sector Erase operation is in progress.
CONFIDENTIAL – DO NOT COPY
Page 8-17
File No. SG-0182
2. WRITE COMMANDS/COMMAND SEQUENCES
To program data to the device or erase sectors of memory, the system must drive WE and
CE to VIL, and OE to VIH. The device features an Unlock Bypass mode to facilitate faster
programming. Once the device enters the Unlock Bypass mode, only two write cycles are
required to program a byte, instead of four. The "byte Program Command Sequence"
section has details on programming data to the device using both standard and Unlock
Bypass command sequences. An erase operation can erase one sector, multiple sectors,
or the entire device. Table indicates the address space that each sector occupies. A
"sector address" consists of the address bits required to uniquely select a sector. The
"Writing specific address and data commands or sequences into the command register
initiates device operations. Figure 1 defines the valid register command sequences.
Writing incorrect address and data values or writing them in the improper sequence resets
the device to reading array data. Section has details on erasing a sector or the entire chip,
or suspending/resuming the erase operation.
CONFIDENTIAL – DO NOT COPY
Page 8-18
File No. SG-0182
After the system writes the auto select command sequence, the device enters the auto
select mode. The system can then read auto select codes from the internal register (which
is separate from the memory array) on Q7-Q0. Standard read cycle timings apply in this
mode. Refer to the Auto select Mode and Auto select Command Sequence section for
more information. ICC2 in the DC Characteristics table represents the active current
specification for the write mode. The "AC Characteristics" section contains timing
specification table and timing diagrams for write operations.
Figure 1
3. READ/RESET COMMAND
The read or reset operation is initiated by writing the read/reset command sequence into
the command register. Microprocessor read cycles retrieve array data. The device remains
enabled for reads until the command register contents are altered. If program-fail or
erase-fail happen, the write of F0H will reset the device to abort the operation. A valid
command must then be written to place the device in the desired state.
CONFIDENTIAL – DO NOT COPY
Page 8-19
File No. SG-0182
4. READING ARRAY DATA
The device is automatically set to reading array data after device power-up. No commands
are required to retrieve data. The device is also ready to read array data after completing
an Automatic Program or Automatic Erase algorithm. After the device accepts an Erase
Suspend command, the device enters the Erase Suspend mode. The system can read
array data using the standard read timings, except that if it reads at an address within
erase suspended sectors, the device outputs status data. After completing a programming
operation in the Erase Suspend mode, the system may once again read array data with the
same exception. See Erase Suspend/Erase Resume Commands” for more information on
this mode. The system must issue the reset command to re-enable the device for reading
array data if Q5 goes high, or while in the auto select mode. See the "Reset Command"
section, next.
5. RESET COMMAND
Writing the reset command to the device resets the device to reading array data.
Addresses bits are don't care for this command. The reset command may be written
between the sequence cycles in an erase command sequence before erasing begins. This
resets the device to reading array data. Once erasure begins, however, the device ignores
reset commands until the operation is complete. The reset command may be written
between the sequence cycles in a program command sequence before programming
begins. This resets the device to reading array data (also applies to programming in Erase
Suspend mode). Once programming begins, however, the device ignores reset commands
until the operation is complete. The reset command may be written between the sequence
cycles in an SILICON ID READ command sequence. Once in the SILICON ID READ mode,
the reset command must be written to return to reading array data (also applies to
SILICON ID READ during Erase Suspend). If Q5 goes high during a program or erase
operation, writing the reset command returns the device to reading array data (also applies
during Erase Suspend).
CONFIDENTIAL – DO NOT COPY
Page 8-20
File No. SG-0182
MT5111 Application:
MT5111 Functional Block Diagram
MT5111 is fully integrated single-chip 8-VSB , designed specifically for the digital terrestrial.
HDTV receivers . The chip is fully compliant with the ATSC A/53 digital TV standard.
MT5111 includes a 10-bit A/D converter , 8-VSB demodulator , TCM(Trellis-Coded
Modulation).
Decoder . and Reed-Solomon Forward Error Correction decoder . Moreover , an internal
controller handles the acquisition and tracking to ensure the best receiving performance .
The internal controller communicates with the external host controller via the I2C-compatible
interface , and also provides direct control to the RF tuner via the second I2C-compatible
interface.
MT5111 accepts either the direct IF signals centered at 44MHZ or 43.75MHZ , or the low IF
signal Centered at 5.38MHZ . The center frequency of the incoming IF signal can also be
programmed to other frequencies for Various applications . An On-chip programmable
gain-controlled amplifier is designed to provide sufficient signal amplitude when the received
RF signal is weak . The If signal is first sampled by a 10-bit A/D converter . Afterward , the
digitized samples are further processed for adjacent channel interference rejection.
MT5111 measures the power level of the digitized sequence , and feeds the control voltages
back to the RF tuner and the IF amplifier respectively . The control voltages are converted to
analog signals through the on-chip 1-bit sigma-delta D/A converters plus the off-chip R-C
low-pass filters . The automatic gain control keeps the received power level at a desired
level and maximizes the received SNR .
CONFIDENTIAL – DO NOT COPY
Page 8-21
File No. SG-0182
The carrier frequency offset and symbol timing offset are both estimated and compensated
by a fully digital synchronizer . The synchronizer also controls the rate conversion in the
digital re-sampling device by estimating the sampling frequency offset . All synchronization in
MT5111 are integrated in digital circuits , no external VCXO is required.
The equalizer is adopted to cancel the effect of multi-path fading channel during signal
propagation in the air . The equalizer is not only capable of acquiring correct coefficients
combination by specified adaptive algorithms , but also programmable to different
configurations for various channel conditions.
The following FEC decoder corrects most of the errors by the concatenation of TCM and
Reed-Solomon decoders . The on-chip error rate estimator can simultaneously monitor the
receiving qualities at the three stages: equalizer output , TCM decoder , and transport stream
packets . The chip finally outputs the decoded MPEG-2 packets in either the serial or parallel
transport stream format.
In addition to the demodulation of HDTV signal , MT5111 also provides the capability to
remove the NTSC co-channel interference.To achieve the best reception condition , an
antenna interface compliant with EIA/CEA-909 is designed to control the antenna
parameters.
MT5111 is designed with efficient mechanisms of power saving . When configured to enter
the sleep mode by the system host , it can immediately turn off almost all embedded
hardware except the on-chip controller to reduce the power consumption . Resuming form
sleep mode is also triggered by the system host . Upon returning to the operation mode , the
chip will try to re-acquire the DTV signal automatically.
MT5111 Key Features:
1. ATSC compliant 8-VSB demodulator
2. Accepts dirtect IF (44 MHZ or 43.75 MHZ) and low IF (5.38 MHZ)
3. Differential IF input with programmable input signal level : 0.5 Vpp to 2 Vpp
4. NTSC interference rejection capability
5. Compensate echo up to –5 to +47 us range
6. On-chip 10-bit ADC for HDTV demodulator
7. On-chip programmable gain amplifier
CONFIDENTIAL – DO NOT COPY
Page 8-22
File No. SG-0182
8. 25MHZ crystal for clock generation
9. Full-digital timing recovery , no VCXO is required
10. Full-digital frequency offset recovery with wide acquisition range –1MHZ~+1MHZ
11. Dual digital AGC control for IF and RF respectively
12. MPEG-2 transport stream output in parallel or serial format
13. On-chip error rate estimators for TS packets , TCM decoder , and equalizer
14. EIA/CEA-909 antenna interface
15. Controlled by I2C interface
16. Supports sleep mode to save power consumption
17. Core power supply : 1.8V , peripheral power supply : 3.3V
18.100-LQFP package
MT5351 Application :
MediaTek MT5351 is a DTV Backend Decoder SOC which support flexible transport demux ,
HD MPEG-2 video decoder , JPEG decoder , MPEG1,2,MP3,AC3 audio decoder , HDTV
encoder . The MT5351 enables consumer electronics manufactures to build high quality ,
feature-rich DTV , STB or other home entertainment audio/video device.
World-Leading Technology : HW support worldwide major broadcast network and CA
standards , include ATSC , DVB , OpenCable , DirectTV , MHP.
Rich Feature for high value product : To enrich the feature of DTV , the MT5351 support
1394-5C component to external DVHS . Dual display , PIP/POP and quad pictures provide
user a whole new viewing experience.
Credible Audio/Video Quality : The MT5351 use advanced motion-adaptive de-interlace
algorithm to achieve the best movie/video playback , The embedded 4X over-sample video
DAC could generate very fine display quality . Also , the audio 3D surround and equalizer
provide professional entertainment.
CONFIDENTIAL – DO NOT COPY
Page 8-23
File No. SG-0182
General Feature List :
A . Host CPU:
1. ARM 926EJ
2.16K I-Cache and 16K D-Cache
3. 8K Data TCM and 8K instruction
4. JTAG ICE interface
5. Watch Dog timers
B . Transport Demuxer :
1. Support 3 independent transport stream inputs
2. Support serial/parallel interface for each transport stream input
3. Support ATSC , DVB , and MPEG2 transport stream inputs.
4. Programmable sync detection.
5. Support DES/3-DES De-scramble.
6. 96 PID filter and 128 section filters.
7. Support TS recording via IEEE1394 interface.
C . MPEG2 Decoder :
1. Support dual MPEG-2 HD decoder or up to 8 SD decoder.
2. Complaint to MP@ML , MP@HL and MPEG-1 video standards.
D . JPEG Decoder :
1. Decode Base-line or progressive JPEG file.
E . 2D Graphics :
1. Support multiple color modes.
2. Point , horizontal/vertical line primitive drawing.
3. Rectangle fill and gradient fill functions.
4. Bitblt with transparent , alpha blending , alpha composition and stretch.
5. Font rendering by color expansion.
6. Support clip masks.
7. YCrCb to RGB color space transfer.
F . OSD Display :
1. 3 linking list OSDs with multiple color mode.
2. OSD scaling with arbitary ratio from 1/2x to 2x.
3. Square size , 32x32 or 64x64 pixel , hardware cursor.
CONFIDENTIAL – DO NOT COPY
Page 8-24
File No. SG-0182
G . Video Processing :
1. Advanced Motion adaptive de-interlace on SDTV resolution.
2. Support clip
3. 3:2/2:2 pull down source detection.
4. Arbitrary ratio vertical/horizontal scaling of video , from 1/15X to 16X.
5. Support Edge preserve.
6. Support horizontal edge enhancement.
7. Support Quad-Picture.
H . Main Display :
1. Mixing two video and three OSD and hardware cursor.
2. Contrast/Brightness adjustment.
3. Gamma correction.
4. Picture-in-Picture( PIP ).
5. Picture-Out-Picture( POP ).
6. 480i/576i/480p/576p/720p/1080i output
I . Auxiliary Display :
1. Mixing one video and one OSD.
2. 480i/576i output.
J . TV Encoder :
1. Support NTSC M/N , PAL M/N/B/D/G/H/I
2. Macrovision Rev 7.1.L1
3. CGMS/WSS.
4. Closed Captioning.
5. Six 12-bit video DACs for CVBS , S-video or RGB/YPbPr output.
K . Digital Video Interface :
1. Support SAV/EAV.
2. Support 8/16 for SD/HD digital video input.
3. Support 8/16/24 bits digital output for main display.
4. Support 8 bits digital output for aux display.
L . DRAM Controller :
1. Support 64Mb to 1Gb DDR DRAM devices.
2. Configurable 32/64 bit data bus interface.
3. Support DDR266 , DDR333 , DDR400 , JEDEC specification compliant SDRAM.
CONFIDENTIAL – DO NOT COPY
Page 8-25
File No. SG-0182
M . Peripheral Bus Interface :
1. Support NOR/NAND flash.
2. Support CableCard host control bus.
N . Audio :
1. Support Dolby Digital AC-3 decoding.
2. MPEG-1 layer I/II , MP3 decoding.
3. Dolby prologic II.
4. Main audio output : 5.1ch + 2ch ( down mix )
5. Auxiliary audio output : 2ch.
6. Pink noise and white noise generator.
7. Equalizer.
8. Bass management.
9. 3D surround processing include virtual surround.
10. Audio and video lip synchronization.
11. Support reverberation.
12. SPDIF out.
13. I2S I/F.
O . Peripherals :
1. Three UARTs with Tx and Rx FIFO , two of them have hardware flow control.
2. Two serial interfaces , one is master only the other can be set to master mode or slave
mode.
3. Two PWMs.
4. IR blaster and receiver.
5. IEEE1394 link controller.
6. IDE bus : ATA/ATAPI7 UDMA mode 5 , 100MB/s.
7. Real-time clock and watchdog controller.
8. Memory card I/F : MS/MS-pro ,SD ,CF ,and MMC
9. PCMCIA/POD/CI interface
P . IC Outline :
1. 471 Pin BGA Package.
2. 3.3V/1.2V dual Voltage.
CONFIDENTIAL – DO NOT COPY
Page 8-26
File No. SG-0182
MX29LV320BTTC (Flash) Application :
The MX29LV320AT/B is a 32-mega bit Flash memory organized as 4M bytes of 8 bits and
2M words of 16 bits. MXIC's Flash memories offer the most cost-effective and reliable
read/write non-volatile random access memory.
The MX29LV320AT/B is packaged in 48-pin TSOP and 48-ball CSP. It is designed to be
reprogrammed and erased in system or in standard EPROM programmers. The standard
MX29LV320AT/B offers access time as fast as 70ns, allowing operation of high-speed
microprocessors without wait states. To eliminate bus contention, the MX29LV320AT/B has
separate chip enable (CE) and output enable (OE) controls.
MXIC's Flash memories augment EPROM functionality with in-circuit electrical erasure and
programming. The MX29LV320AT/B uses a command register to manage this functionality.
MXIC Flash technology reliably stores memory contents even after 100,000 erase and
program cycles. The MXIC cell is designed to optimize the erase and program mechanisms.
In addition, the combination of advanced tunnel oxide processing and low internal electric
fields for erase and programming operations produces reliable cycling.
The MX29LV320AT/B uses a 2.7V to 3.6V VCC supply to perform the High Reliability Erase
and auto Program/Erase algorithms.
The highest degree of latch-up protection is achieved with MXIC's proprietary non-epi
process. Latch-up protection is proved for stresses up to 100 milliamperes on address and
data pin from -1V to VCC + 1V.
CONFIDENTIAL – DO NOT COPY
Page 8-27
File No. SG-0182
CONFIDENTIAL – DO NOT COPY
Page 8-28
File No. SG-0182
BLOCK DIAGRAM
CONFIDENTIAL – DO NOT COPY
Page 8-29
File No. SG-0182
BUS OPERATION--1
Legend:
L=Logic LOW=VIL, H=Logic High=VIH, VID=12.0　0.5V, VHH=11.5-12.5V, X=Don't Care,
AIN=Address IN, DIN=Data IN,DOUT=Data OUT
Notes:
1. When the WP/ACC pin is at VHH, the device enters the accelerated program mode. See
"Accelerated Program Operations" for more information.
2.The sector group protect and chip unprotect functions may also be implemented via
programming equipment. See the "Sector Group Protection and Chip Unprotection"
section.
3.If WP/ACC=VIL, the two outermost boot sectors remain protected. If WP/ACC=VIH, the two
outermost boot sector protection depends on whether they were last protected or
unprotected using the method described in "Sector/Sector Block Protection and
Unprotection". If WP/ACC=VHH, all sectors will be unprotected.
4.DIN or Dout as required by command sequence, data polling, or sector protection
algorithm.
5.Address are A20:A0 in word mode (BYTE=VIH), A20:A-1 in byte mode (BYTE=VIL).
CONFIDENTIAL – DO NOT COPY
Page 8-30
File No. SG-0182
BUS OPERATION--2
Notes:
1.Code=00h means unprotected, or code=01h protected.
2.Code=99 means factory locked, or code=19h not factory locked.
WRITE COMMANDS/COMMAND SEQUENCES
To program data to the device or erase sectors of memory , the system must drive WE and
CE to VIL, and OE to VIH.
An erase operation can erase one sector, multiple sectors , or the entire device. A "sector
address" consists of the address bits required to uniquely select a sector. Writing specific
address and data commands or sequences into the command register initiates device
operations. Table A defines the valid register command sequences. Writing incorrect address
and data values or writing them in the improper sequence resets the device to reading array
data. Section has details on erasing a sector or the entire chip, or suspending/resuming the
erase operation.
After the system writes the Automatic Select command sequence, the device enters the
Automatic Select mode. The system can then read Automatic Select codes from the internal
register (which is separate from the memory array) on Q7-Q0. Standard read cycle timings
apply in this mode. Refer to the Automatic Select Mode and Automatic Select Command
Sequence section for more information.
ICC2 in the DC Characteristics table represents the active current specification for the write
mode. The "AC Characteristics" section contains timing specification table and timing
diagrams for write operations.
CONFIDENTIAL – DO NOT COPY
Page 8-31
File No. SG-0182
TABLE A. MX29LV320AT/B COMMAND DEFINITIONS
Legend:
X=Don't care
RA=Address of the memory location to be read.
RD=Data read from location RA during read operation.
PA=Address of the memory location to be programmed.
Addresses are latched on the falling edge of the WE or CE pulse.
PD=Data to be programmed at location PA. Data is latched on the rising edge of WE or CE pulse.
SA=Address of the sector to be erased or verified. Address bits A20-A12 uniquely select any sector.
ID=22A7h(Top), 22A8h(Bottom)
Notes:
1.All values are in hexadecimal.
2.Except when reading array or Automatic Select data, all bus cycles are write operation.
3.The Reset command is required to return to the read mode when the device is in the Automatic
Select mode or if Q5 goes high.
4.The fourth cycle of the Automatic Select command sequence is a read cycle.
5.The data is 99h for factory locked and 19h for not factory locked.
6.The data is 00h for an unprotected sector/sector block and 01h for a protected sector/sector block. In
the third cycle of the command sequence, address bit A20=0 to verify sectors 0~31, A20=1 to verify
sectors 32~70 for Top Boot device.
7.Command is valid when device is ready to read array data or when device is in Automatic Select
mode.
8.The system may read and program functions in non-erasing sectors, or enter the Automatic Select
mode, when in the erase Suspend mode. The Erase Suspend command is valid only during a sector
erase operation.
9.The Erase Resume command is valid only during the Erase Suspend mode.
CONFIDENTIAL – DO NOT COPY
Page 8-32
File No. SG-0182
STANDBY MODE
MX29LV320AT/B can be set into Standby mode with two different approaches. One is using both CE
and RESET pins and the other one is using RESET pin only.
When using both pins of CE and RESET, a CMOS Standby mode is achieved with both pins held at
Vcc ±0.3V. Under this condition, the current consumed is less than 0.2uA (typ.). If both of the CE and
RESET are held at VIH, but not within the range of VCC ± 0.3V, the device will still be in the standby
mode, but the standby current will be larger. During Auto Algorithm operation, Vcc active current (ICC2)
is required even CE = "H" until the operation is completed. The device can be read with standard
access time (tCE) from either of these standby modes.
When using only RESET, a CMOS standby mode is achieved with RESET input held at Vss ± 0.3V,
Under this condition the current is consumed less than 1uA (typ.). Once the RESET pin is taken high,
the device is back to active without recovery delay.
In the standby mode the outputs are in the high impedance state, independent of the OE input.
MX29LV320AT/B is capable to provide the Automatic Standby Mode to restrain power consumption
during readout of data. This mode can be used effectively with an application requested low power
consumption such as handy terminals.
To active this mode, MX29LV320AT/B automatically switch themselves to low power mode when
MX29LV320AT/B addresses remain stable during access time of tACC+30ns. It is not necessary to
control CE, WE, and OE on the mode. Under the mode, the current consumed is typically 0.2uA
(CMOS level).
RESET OPERATION
01The RESET pin provides a hardware method of resetting the device to reading array data. When the
RESET pin is driven low for at least a period of tRP, the device immediately terminates any operation
in progress, tristates all output pins, and ignores all read/write commands for the duration of the
RESET pulse. The device also resets the internal state machine to reading array data. The operation
that was interrupted should be reinitiated once the device is ready to accept another command
sequence, to ensure data integrity.
Current is reduced for the duration of the RESET pulse. When RESET is held at VSS±0.3V, the device
draws CMOS standby current (ICC4). If RESET is held at VIL but not within VSS±0.3V, the standby
current will be greater.
The RESET pin may be tied to system reset circuitry. A system reset would that also reset the Flash
memory, enabling the system to read the boot-up firm-ware from the Flash memory.
If RESET is asserted during a program or erase operation, the RY/BY pin remains a "0" (busy) until the
internal reset operation is complete, which requires a time of tREADY (during Embedded Algorithms).
CONFIDENTIAL – DO NOT COPY
Page 8-33
File No. SG-0182
The system can thus monitor RY/BY to determine whether the reset operation is complete. If RESET
is asserted when a program or erase operation is not executing (RY/BY pin is "1"), the reset operation
is completed within a time of tREADY (not during Embedded Algorithms). The system can read data
tRH after the RESET pin returns to VIH. Refer to the AC Characteristics tables for RESET parameters
and to Figure 14 for the timing diagram.
WRITE PROTECT (WP)
The write protect function provides a hardware method to protect boot sectors without using VID.
If the system asserts VIL on the WP/ACC pin, the device disables program and erase functions in the
two "outermost" 8 Kbyte boot sectors independently of whether those sectors were protected or
unprotected using the method described in Sector/Sector Group Protection and Chip Unprotection".
The two outermost 8 Kbyte boot sectors are the two sectors containing the lowest addresses in a
bottom-boot-configured device, or the two sectors containing the highest addresses in a
top-boot-configured device.
If the system asserts VIH on the WP/ACC pin, the device reverts to whether the two outermost 8K Byte
boot sectors were last set to be protected or unprotected. That is, sector protection or unprotection for
these two sectors depends on whether they were last protected or unprotected using the method
described in "Sector/Sector Group Protection and Chip Unprotection".
Note that the WP/ACC pin must not be left floating or unconnected; inconsistent behavior of the device
may result.
SOFTWARE COMMAND DEFINITIONS :
Device operations are selected by writing specific address and data sequences into the command
register. Writing incorrect address and data values or writing them in the improper sequence will reset
the device to the read mode. Table 3 defines the valid register command sequences. Note that the
Erase Suspend (B0H) and Erase Resume (30H) commands are valid only while the Sector Erase
operation is in progress. Either of the two reset command sequences will reset the device
(whenapplicable).
All addresses are latched on the falling edge of WE or CE, whichever happens later. All data are
latched on rising edge of WE or CE, whichever happens first.
WRITE OPERATION STATUS
The device provides several bits to determine the status of a write operation: Q2, Q3, Q5, Q6, Q7, and
RY/BY.Table B and the following subsections describe the functions of these bits. Q7, RY/BY, and Q6
each offer a method for determining whether a program or erase operation is complete or in progress.
These three bits are discussed first.
CONFIDENTIAL – DO NOT COPY
Page 8-34
File No. SG-0182
Table B. Write Operation Status
Notes:
1.Performing successive read operations from the erase-suspended sector will cause Q2 to toggle.
2.Performing successive read operations from any address will cause Q6 to toggle.
3.Reading the byte/word address being programmed while in the erase-suspend program mode will
indicate logic "1" at the Q2 bit.
However, successive reads from the erase-suspended sector will cause Q2 to toggle.
Fig C. COMMAND WRITE OPERATION
CONFIDENTIAL – DO NOT COPY
Page 8-35
File No. SG-0182
Fig D. READ TIMING WAVEFORMS
CONFIDENTIAL – DO NOT COPY
Page 8-36
File No. SG-0182
Fig E. RESET TIMING WAVEFORM
CONFIDENTIAL – DO NOT COPY
Page 8-37
File No. SG-0182
DDR SDRAM (NT5DS16M16CS-5T) Application :
Functional Description
The 256Mb DDR SDRAM is a high-speed CMOS, dynamic random-access memory containing 268,
435, 456 bits. The 256Mb DDR SDRAM is internally configured as a quad-bank DRAM.
The 256Mb DDR SDRAM uses a double-data-rate architecture to achieve high-speed operation. The
double-data-rate architecture is essentially a 2n prefetch architecture, with an interface designed to
transfer two data words per clock cycle at the I/O pins. A single read or write access for the 256Mb
DDR SDRAM consists of a single 2n-bit wide, one clock cycle data transfer at the internal DRAM core
and two corresponding n-bit wide, one-half clock cycle data transfers at the I/O pins.
Read and write accesses to the DDR SDRAM are burst oriented; accesses start at a selected location
and continue for a programmed number of locations in a programmed sequence. Accesses begin with
the registration of an Active command, which is then followed by a Read or Write command. The
address bits registered coincident with the Active command are used to select the bank and row to be
accessed (BA0, BA1 select the bank; A0-A12 select the row). The address bits registered coincident
with the Read or Write command are used to select the starting column location for the burst access.
Prior to normal operation, the DDR SDRAM must be initialized. The following sections provide detailed
information covering device initialization, register definition, command descriptions and device
operation.
CONFIDENTIAL – DO NOT COPY
Page 8-38
File No. SG-0182
Block Diagram (16Mb x 16)
Note: This Functional Block Diagram is intended to facilitate user understanding of the operation of the
device; it does not represent an actual circuit implementation.
Note: DM is a unidirectional signal (input only), but is internally loaded to match the load of the
bidirectional DQ and DQS signals.
CONFIDENTIAL – DO NOT COPY
Page 8-39
File No. SG-0182
Pin Configuration - 400mil TSOP II (x4 / x8 / x16)
CONFIDENTIAL – DO NOT COPY
Page 8-40
File No. SG-0182
Mode Register Operation
Operating Mode
The normal operating mode is selected by issuing a Mode Register Set Command with bits A7-A12 to
zero, and bits A0-A6 set to the desired values. A DLL reset is initiated by issuing a Mode Register Set
command with bits A7 and A9-A12 each set to zero, bit A8 set to one, and bits A0-A6 set to the desired
values. A Mode Register Set command issued to reset the DLL should always be followed by a Mode
Register Set command to select normal operating mode.
All other combinations of values for A7-A12 are reserved for future use and/or test modes. Test modes
and reserved states should not be used as unknown operation or incompatibility with future versions
may result.
CONFIDENTIAL – DO NOT COPY
Page 8-41
File No. SG-0182
Extended Mode Register
The Extended Mode Register controls functions beyond those controlled by the Mode Register; these
additional functions include DLL enable/disable, bit A0; output drive strength selection, bit A1; and
QFC output enable/disable, bit A2 (NTC optional). These functions are controlled via the bit settings
shown in the Extended Mode Register Definition. The Extended Mode Register is programmed via the
Mode Register Set command (with BA0 = 1 and BA1 = 0) and retains the stored information until it is
programmed again or the device loses power. The Extended Mode Register must be loaded when all
banks are idle, and the controller must wait the specified time before initiating any subsequent
operation. Violating either of these requirements result in unspecified operation.
Extended Mode Register Definition
CONFIDENTIAL – DO NOT COPY
Page 8-42
File No. SG-0182
Truth Table a: Commands
1. CKE is high for all commands shown except Self Refresh.
2. BA0, BA1 select either the Base or the Extended Mode Register (BA0 = 0, BA1 = 0 selects Mode
Register; BA0 = 1, BA1 = 0 selects ,Extended Mode Register; other combinations of BA0-BA1 are
reserved; A0-A12 provide the op-code to be written to the selected Mode Register.)
3. BA0-BA1 provide bank address and A0-A12 provide row address.
4. BA0, BA1 provide bank address; A0-Ai provide column address (where i = 9 for x8 and 9, 11 for x4);
A10 high enables the Auto Precharge feature (non-persistent), A10 low disables the Auto Precharge
feature.
5. A10 LOW: BA0, BA1 determine which bank is precharged.A10 HIGH: all banks are precharged and
BA0, BA1 are “Don’t Care.”
6. This command is auto refresh if CKE is high; Self Refresh if CKE is low.
7. Internal refresh counter controls row and bank addressing; all inputs and I/Os are “Don’t Care”
except for CKE.
8. Applies only to read bursts with Auto Precharge disabled; this command is undefined (and should
not be used) for read bursts with Auto Precharge enabled or for write bursts
9. Deselect and NOP are functionally interchangeable.
Active
The Active command is used to open (or activate) a row in a particular bank for a subsequent access.
The value on the BA0,BA1 inputs selects the bank, and the address provided on inputs A0-A12 selects
the row. This row remains active (or open) for accesses until a Precharge (or Read or Write with Auto
Precharge) is issued to that bank. A Precharge (or Read or Write with Auto Precharge) command must
be issued and completed before opening a different row in the same bank.
Read
The Read command is used to initiate a burst read access to an active (open) row. The value on the
BA0, BA1 inputs selects the bank, and the address provided on inputs A0-Ai, Aj (where [i = 9, j = don’t
care] for x8; where [i = 9, j = 11] for x4) selects the starting column location. The value on input A10
determines whether or not Auto Precharge is used. If Auto Precharge is selected, the row being
accessed is precharged at the end of the Read burst; if Auto Precharge is not selected, the row
remains open for subsequent accesses.
CONFIDENTIAL – DO NOT COPY
Page 8-43
File No. SG-0182
Write
The Write command is used to initiate a burst write access to an active (open) row. The value on the
BA0, BA1 inputs selects the bank, and the address provided on inputs A0-Ai, Aj (where [i = 9, j = don’t
care] for x8; where [i = 9, j = 11] for x4) selects the starting column location. The value on input A10
determines whether or not Auto Precharge is used. If Auto Precharge is selected, the row being
accessed is precharged at the end of the Write burst; if Auto Precharge is not selected, the row
remains open for subsequent accesses. Input data appearing on the DQs is written to the memory
array subject to the DM input logic level appearing coincident with the data. If a given DM signal is
registered low, the corresponding data is written to memory; if the DM signal is registered high, the
corresponding data inputs are ignored, and a Write is not executed to that byte/column location.
Auto Refresh
Auto Refresh is used during normal operation of the DDR SDRAM and is analogous to CAS Before
RAS (CBR) Refresh in previous DRAM types. This command is nonpersistent, so it must be issued
each time a refresh is required.
The refresh addressing is generated by the internal refresh controller. This makes the address bits
“Don’t Care” during an Auto Refresh command. The 256Mb DDR SDRAM requires Auto Refresh
cycles at an average periodic interval of 7.8μs (maximum).
Self Refresh
The Self Refresh command can be used to retain data in the DDR SDRAM, even if the rest of the
system is powered down.When in the self refresh mode, the DDR SDRAM retains data without
external clocking. The Self Refresh command is initiated as an Auto Refresh command coincident with
CKE transitioning low. The DLL is automatically disabled upon entering Self Refresh, and is
automatically enabled upon exiting Self Refresh (200 clock cycles must then occur before a Read
command can be issued). Input signals except CKE (low) are “Don’t Care” during Self Refresh
operation.
The procedure for exiting self refresh requires a sequence of commands. CK (and CK) must be stable
prior to CKE returning high. Once CKE is high, the SDRAM must have NOP commands issued for
tXSNR because time is required for the completion of any internal refresh in progress. A simple
algorithm for meeting both refresh and DLL requirements is to apply NOPs for 200 clock cycles before
applying any other command.
CONFIDENTIAL – DO NOT COPY
Page 8-44
File No. SG-0182
Operations :
Reads
Subsequent to programming the mode register with CAS latency, burst type, and burst length, Read
bursts are initiated with a Read command.
The starting column and bank addresses are provided with the Read command and Auto Precharge is
either enabled or disabled for that burst access. If Auto Precharge is enabled, the row that is accessed
starts precharge at the completion of the burst, provided tRAS has been satisfied. For the generic
Read commands used in the following illustrations, Auto Precharge is disabled.
During Read bursts, the valid data-out element from the starting column address is available following
the CAS latency after the Read command. Each subsequent data-out element is valid nominally at the
next positive or negative clock edge (i.e. at the next crossing of CK and CK). The following timing
figure entitled “Read Burst: CAS Latencies (Burst Length=4)” illustrates the general timing for each
supported CAS latency setting. DQS is driven by the DDR SDRAM along with output data. The initial
low state on DQS is known as the read preamble; the low state coincident with the last data-out
element is known as the read postamble . Upon completion of a burst, assuming no other commands
have been initiated, the DQs and DQS goes High-Z. Data from any Read burst may be concatenated
with or truncated with data from a subsequent Read command. In either case, a continuous flow of
data can be maintained. The first data element from the new burst follows either the last element of a
completed burst or the last desired data element of a longer burst which is being truncated. The new
Read command should be issued x cycles after the first Read command, where x equals the number
of desired data element pairs (pairs are required by the 2n prefetch architecture). This is shown in
timing figure entitled “Consecutive Read Bursts: CAS Latencies (Burst Length =4 or 8)”.A Read
command can be initiated on any positive clock cycle following a previous Read command.
Nonconsecutive Read data is shown in timing figure entitled “Non-Consecutive Read Bursts: CAS
Latencies (Burst Length = 4)”. Full-speed Random Read Accesses: CAS Latencies (Burst Length = 2,
4 or 8) within a page (or pages) can be performed as shown on following:
CONFIDENTIAL – DO NOT COPY
Page 8-45
File No. SG-0182
Random Read Accesses: CAS Latencies (Burst Length = 2, 4 or 8)
CONFIDENTIAL – DO NOT COPY
Page 8-46
File No. SG-0182
Read Command
Writes
Write bursts are initiated with a Write command, as shown in timing figure Write Command on
following: The starting column and bank addresses are provided with the Write command, and Auto
Precharge is either enabled or disabled for that access. If Auto Precharge is enabled, the row being
accessed is precharged at the completion of the burst. For the generic Write commands used in the
following illustrations, Auto Precharge is disabled.
During Write bursts, the first valid data-in element is registered on the first rising edge of DQS following
the write command, and subsequent data elements are registered on successive edges of DQS. The
Low state on DQS between the Write command and the first rising edge is known as the write
preamble; the Low state on DQS following the last data-in element is known as the write postamble.
The time between the Write command and the first corresponding rising edge of DQS (tDQSS) is
specified with a relatively wide range (from 75% to 125% of one clock cycle), so most of the Write
diagrams that follow are drawn for the two extreme cases (i.e. tDQSS(min) and tDQSS(max)). Timing
figure Write Burst (Burst Length = 4) on page 33 shows the two extremes of tDQSS for a burst of four.
Upon completion of a burst, assuming no other commands have been initiated, the DQs and DQS
enters High-Z and any additional input data is ignored.
CONFIDENTIAL – DO NOT COPY
Page 8-47
File No. SG-0182
Data for any Write burst may be concatenated with or truncated with a subsequent Write command. In
either case, a continuous flow of input data can be maintained. The new Write command can be
issued on any positive edge of clock following the previous Write command. The first data element
from the new burst is applied after either the last element of a completed burst or the last desired data
element of a longer burst which is being truncated. The new Write command should be issued x cycles
after the first Write command, where x equals the number of desired data element pairs (pairs are
required by the 2n prefetch architecture).
Write Command
CONFIDENTIAL – DO NOT COPY
Page 8-48
File No. SG-0182
Data Input (Write)
Data Output (Read)
WM8776 Application
The WM8776 is a high performance, stereo audio codec with five channel input selector. The
WM8776 is ideal for surround sound processing applications for home hi-fi, DVD-RW and
other audiovisual equipment. Etch ADC channel has programmable gain control with
automatic level control. Digital audio output word lengths from 16-32 bits and sampling rates
from 32kHZ to 96KHZ are supported. The DAC has an input mixer allowing an external
analogue signal to be mixed with the DAC signal. There are also Headphone and line outputs,
with control for the headphone
The WM8776 supports fully independent sample rates for the ADC and DAC. The audio data
interface supports I2S, left justified, right justified and DSP formats.
CONFIDENTIAL – DO NOT COPY
Page 8-49
File No. SG-0182
BLOCK DIAGRAM
1. Audio sample rate
The master clock forWM8776 supports DAC and ADC audio sampling rates 256fs to 768fs,
where fs is the audio sample frequency (DACLRC or ADCLRC) typically 32KHZ, 44.1KHZ,
48KHZ or 96KHZ (the DAC also supports operation at 128fs and 192fs and 192KHZ
sample rate). The master clock is used to operate the digital filters and the noise shaping
circuits.
In slave mode the WM8776 has a master detection circuit that automatically determines
the relationship between the master clock frequency and the sampling rate (to within +/- 32
system clocks) If there is a greater than 32 clocks error the interface is disabled and
ADCLRC/DACLRC for optical performance, although the WM8776 is tolerant of phase
variations or jitter on this clock.
Table shows the typical master clock frequency inputs for the WM8776.
CONFIDENTIAL – DO NOT COPY
Page 8-50
File No. SG-0182
2. DIGITAL AUDIO INTERFACE
a. Slave mode
The audio interfaces operations in either slave mode selectable using the MS control bit. In
slave mode DIN is always an input to the WM8776 and DOUT is always an output. The
default is Slave mode. In slave mode (ms=0) ADCLRC, DACLRC, ADCBCLK, DACBCLK
are input to the WM8776 .
DIN and DACLRC are sampled by the WM8776 on the rising edge of DACBCLK; ADCLRC
is sampled on the rising edge of ADCBCLK. ADC data is output on DOUT and changes on
the falling edge of ADCBCLK. By setting control bit BCLKINV the polarity of ADCBCLK and
DACBCLK may be reversed so that DIN and DACLRC are sample on the falling edge of
DACBCLK, ADCLRC is sampled on the falling edge of ADCBCLK and DOUT changes on
the rising of ADCBCLK Slave mode as shown in the following figure.
CONFIDENTIAL – DO NOT COPY
Page 8-51
File No. SG-0182
b. 2 Wire serial control mode
The wm8776 supports software control via a 2-wire serial bus. Many devices can be
controlled by the same bus, and each device has a uni ue 7-bit address (this is not the
same as the 7-bit address of each register in the wm8776). The wm8776 operates as a
slave device only.
2-wire serial interface as shown in the following figure.
The wm8776 has two possible device addresses, which can be selected using the CE pin
In the L37 LCD TV CE pin is LOW (device address is 34h).
In the L37 wm8776 has 2-wire interface
CONFIDENTIAL – DO NOT COPY
Page 8-52
File No. SG-0182
Sil9011 Application
The sil9011 provides a complete solution for receiving HDMI compliant digital audio and
video. Specialized audio and video processing is available within the sil9011 to easily and
cost effectively adds HDMI capability to consumer electronics devices such as digital TVs,
plasma displays, LCD TVs and projectors.
BLOCK DIAGRAM
CONFIDENTIAL – DO NOT COPY
Page 8-53
File No. SG-0182
1. TMDS Digital Core
The core performs 10-to-8-bit TMDS decoding on the audio and video received from the
three TMDS differential data lines along with a TMDS differential clock. The TMDS core
supports link clock rates to 165MHZ, including CE modes to 720P/1080I/1080P.
2. Active port detection
The Pane Link core detects an active TMDS clock and actively toggling DE signal. These
states are accessible in register bits, useful for monitoring the status of the HDMI input or
for automatically powering down the receiver. The 5V supply from the HDMI connector is
used as a cable detect indicator. The sil9011 can monitor the presence of this+5V supply
and, if and when necessary, provide a fast audio mute without pops when it senses the
HDMI cable pulled. The microcontroller can also poll registers in the sil9011 to check
whether an HDMI cable is connected.
3. HDCP Decryption engine
The HDCP decryption engine contains all necessary logic to decrypt the incoming audio
and video data. The decryption process is entirely controlled by the host microprocessor
through a set sequence of register reads and wires through the DDC channel.
Pre-programmed HDCP keys and key Selection Vector are used in the decryption process.
A resulting calculated to an XOR mask during each clock cycle to decrypt the audio/video
data in sync with the host.
4. Video Data Conversion and Video Output
The Sil9011 can output video in many different formats as shown in the following figure.
CONFIDENTIAL – DO NOT COPY
Page 8-54
File No. SG-0182
The receiver can also process the video data before it is output as show below figure
5. I2c Interface to Display Controller
The Controller I2c interface (CSDA, CSCL) on the sil9011 is a slave interface capable of
running up to 400KHZ. This bus is used to configure the SIL9011 by reading/writing to the
appropriate registers. The SIL9011 is accessible on the local I2c bits at two-device address.
The logic state of the CI2CA pin is latched on the rising edge of REST# providing a choice
of two pairs of device address.
Control of local I2c address with CI2CA pin
MM1942 Application
The MM1942 IC is a 5-input 2-output AV switch controlled by the I2C BUS developed for use in
television.
CONFIDENTIAL – DO NOT COPY
Page 8-55
File No. SG-0182
BLOCK DIAGRAM
1. I2c Bus
I2C BUS is interring bus system controlled by 2 lines (SDA, SCL). Data are transmitted and received
in the units of byte and Acknowledge. It is transmitted by MSB first from the Start conditions.
The data format is set as shown in the following figure.
In the L32 TV MM1492 slave address, ADR terminal is L, and 90H is selected.
The following figure indicates the control contents of control registers and switches.
CONFIDENTIAL – DO NOT COPY
Page 8-56
File No. SG-0182
2. Switch control table
a. Video output 1
b. Audio output 1
c. Audio gain
CONFIDENTIAL – DO NOT COPY
Page 8-57
File No. SG-0182
TDA8946 Application
In L32 TV the TDA8946AJ is a dual-channel audio power amplifier with DC gain control. It has an
output power of 2 × 10 W at an 8 Ω load and a 12 V supply.
Block diagram
1. Input configuration
The TDA8946AJ inputs can be driven symmetrical (floating) as well as asymmetrical. In the
asymmetrical mode one input pin is connected via a capacitor to the signal source and the other
input is connected to the signal ground. The signal ground should be as close as possible to the
SVR (electrolytic) capacitor ground. Note that the DC level of the input pins is half of the supply
voltage VCC, so coupling capacitors for both pins are necessary.
CONFIDENTIAL – DO NOT COPY
Page 8-58
File No. SG-0182
2. Output power measurement
The output power as a function of the supply voltage is measured on the output pins at THD =
10%,in the L32 LCD TV Vcc=12V so we can see as shown in the following figure output about 7W.
CONFIDENTIAL – DO NOT COPY
Page 8-59
File No. SG-0182
3. Mode selection
In the L32 LCD TV TDA8946AJ has two functional modes, which can be selected by applying the
proper DC voltage to pin MODE.
a. Mute — In this mode the amplifier is DC-biased but not operational (no audio output).
This allows the input coupling capacitors to be charged to avoid pop-noise. The device is in mute
mode when 3.5 V < VMODE < (VCC − 1.5 V).
b. Operating — In this mode the amplifier is operating normally. The operating mode is activated at
VMODE<1.0V.
CONFIDENTIAL – DO NOT COPY
Page 8-60
File No. SG-0182
Chapter 9
Waveforms
1. PC MODE(1366X768 60HZ)
CH1 H-sync (FB46); CH2 V-sync (FB45)
GREEN (R194)
CONFIDENTIAL – DO NOT COPY
Page 9-1
File No. SG-0182
CH1 VGAHSYNC# (FB46); CH2 VGAVSYNC# (FB45)
CH1 VGAVSYNC# (FB45); CH2 GREEN (R194)
CONFIDENTIAL – DO NOT COPY
Page 9-2
File No. SG-0182
CH1 VGAL (CE81); CH2 AVOL (R252)
CH1 AUSPL (RA12) ; CH2 L+ (UA1 PIN17)
CONFIDENTIAL – DO NOT COPY
Page 9-3
File No. SG-0182
CH1 XTALI (U9 PIN A15);CH2 XTALO (U9 PIN B15)
2.
AV&TV MODE (AV1/AV2/AV3/TV) VIDEO
CH1 (R88); CH2 (Q4 PIN1)
CONFIDENTIAL – DO NOT COPY
Page 9-4
File No. SG-0182
CH1 CVBS1+ (U9 PINA2); CH2 CVBS1 (R136)
CH1 AV1L (U20 PIN1); CH2 AUO1L_SWO (U20 PIN36)
CONFIDENTIAL – DO NOT COPY
Page 9-5
File No. SG-0182
CH1 AUSPL (RA12) ; CH2 L+ (UA1 PIN17)
CH1 D_CLK# (U11 PIN46);CH2 D_DQ15(U11 PIN65)
CONFIDENTIAL – DO NOT COPY
Page 9-6
File No. SG-0182
CH1 DACMCLK (U22 PIN11);CH2 DOUT (U22 PIN12)
CH1 SCL34H(U22 PIN19);CH2 SDA34H (U22 PIN18)
CONFIDENTIAL – DO NOT COPY
Page 9-7
File No. SG-0182
3.
ANALOG HD MODE (ANALOG HD1/HD2)
CH1Y1_IN (R105); CH2 Y (U21 PIN7)
CH1Y (R280); CH2 Y+ (C120)
CONFIDENTIAL – DO NOT COPY
Page 9-8
File No. SG-0182
CH1 TUL (U20 PIN44); CH2 AUO1L_SWO (U20 PIN 36)
CH1 AUSPL (RA12) ; CH2 L+ (UA1 PIN17)
CONFIDENTIAL – DO NOT COPY
Page 9-9
File No. SG-0182
4. DIGITAL HD
CH1 DATA2+ (P1 PIN 1); CH2 DATA2- (P1 PIN3)
CH1 HDMI0 (U16 PIN 124) ;CH2 HDMI15 (U16 PIN 102)
CONFIDENTIAL – DO NOT COPY
Page 9-10
File No. SG-0182
CH1 XTLI (U16 PIN85) ;CH2 XTLO (U16 PIN86)
CH1 HDMISDA (U16 PIN39);CH2 HDMISCL (U16 PIN40)
CONFIDENTIAL – DO NOT COPY
Page 9-11
File No. SG-0182
DTV Mode(Video Board):
CH1 AO1BCK (J1 Pin 7) ; CH2 AO1SDATA0 (J1 PIN 9)
CH1 VOPCLK (J1 Pin 44) ; CH2 VOB0 (J1 PIN 11)
CONFIDENTIAL – DO NOT COPY
Page 9-12
File No. SG-0182
CH1 VOPCLK (J1 Pin 44) ; CH2 VOG0 (J1 PIN 21)
CH1 VOPCLK (J1 Pin 44) ; CH2 VOR0 (J1 PIN 31)
CONFIDENTIAL – DO NOT COPY
Page 9-13
File No. SG-0182
CH1 XTAL1 (C63) ; CH2 XTAL2 (C62)
CH1 OPWM0 (R42) ; CH2 OXTALI (R43)
CONFIDENTIAL – DO NOT COPY
Page 9-14
File No. SG-0182
5.
POWER ON/OFF
CH1 DV120B (F1); CH2 GPIO (R3); POWER ON
CONFIDENTIAL – DO NOT COPY
Page 9-15
File No. SG-0182
CH1 DV120B (F1); CH2 GPIO (R3); POWER OFF
CH1 DV50B (U7 PIN8); CH2 GPIO (R3); POWER ON
CONFIDENTIAL – DO NOT COPY
Page 9-16
File No. SG-0182
CH1 DV50B (U7 PIN8); CH2 GPIO (R3); POWER OFF
CH1 DV120B (U6 PIN1); CH2 AV_V90 (U6 PIN3) POWER ON
CONFIDENTIAL – DO NOT COPY
Page 9-17
File No. SG-0182
CH1 DV120B (U6 PIN1); CH2 AV_V90 (U6 PIN3) POWER OFF
CH1 DV50A (U4 PIN1); CH2 DV33A (F3) AC POWER ON
CONFIDENTIAL – DO NOT COPY
Page 9-18
File No. SG-0182
CH1 DV50A (U4 PIN1); CH2 DV33A (F3) AC POWER OFF
CH1 DV33A (U5 PIN 1); CH2 DV18A (U5 PIN2) AC POWER ON
CONFIDENTIAL – DO NOT COPY
Page 9-19
File No. SG-0182
CH1 DV33A (U5 PIN 1); CH2 DV18A (U5 PIN2) AC POWER OFF
CH1 DV50B(U14 PIN 3); CH2 DV25 (U14 PIN2) POWER ON
CONFIDENTIAL – DO NOT COPY
Page 9-20
File No. SG-0182
CH1 DV25 (U13 PIN7); CH2 D1V25 (U13 PIN3) POWER OFF
CH1 GPIO (R3); CH2 LVDS-SEQ (R10) POWER ON
CONFIDENTIAL – DO NOT COPY
Page 9-21
File No. SG-0182
CH1 GPIO (R3); CH2 LVDS-SEQ (R10) POWER OFF
CH1 GPIO (R3); CH2 ATSC-SW(R121) POWER ON
CONFIDENTIAL – DO NOT COPY
Page 9-22
File No. SG-0182
CH1 GPIO (R3); CH2 ATSC-SW(R121) POWER OFF
CONFIDENTIAL – DO NOT COPY
Page 9-23
File No. SG-0182
Chapter 10
Trouble shooting
MONITOR DISPLAY NOTHING (PC MODE)
Start
N0
LED is lighted
1.
2.
3.
4.
Is Power board output
+5V?
Is J1 connector good?
Is DC-DC OK?
Is U4 (3.3V) working ok?
Yes
N0
LED is lighting?
It is in power saving
1. Check video cable
2. Is the timing supported?
3. Check sync input
4. Check VGASOG rout if analog
(SOG)
Yes
N0
Is backlight on?
1.Check J1 PIN 1
2.Is inverter ok?
Yes
Yes
N0
U9 no data out?
It means data to LVDS
1.Is J6 connecting well?
2.Check J1 +5V&+12V
3.Is panel ok?
Yes
N0
U9 no data in?
1.
2.
1.Is U9 working good?
2.Is U11&U12 working good?
3.IS U10 working good?
Check P3 D-sub Input correct
Check analog input route
END
CONFIDENTIAL – DO NOT COPY
Page 10-1
File No. SG-0182
(TV, COMPOSITE VIDEO1, 2, 3, S-VIDEO) IS NOT DISPLAY CORRECTLY
Start
N0
1.Check video
2.Check DVD player
Input signal good?
Yes
N0
1.Check P2 signal
2.Check signal between P2 and
U20 (IF AV1/AV2 mode)
3.Check Tuner &U20 (IF TV mode)
4.Check J4&J6 (IF AV3&S-Video)
5.Check U20 POWER +9V
6.Check U22 data input/output
U20 input correct?
Yes
N0
1.Check signal between U20 and
U9
U20 output correct?
Yes
N0
LVDS output correct?
1.Check signal between U20 and
U9
2.Check U9 clock (27MHz)
3.Check U9 power
Yes
1.Chcak J6 Connect is good?
2.Is panel working ok?
END
CONFIDENTIAL – DO NOT COPY
Page 10-2
File No. SG-0182
(COMPONENT1, 2) IS NOT DISPLAY CORRECTLY
Start
N0
1.Check video
2.Check host’s setting
Input signal good?
Yes
N0
1.Check signal between P8&U21
2.Check U21 power 3.3V
U21 input correct?
Yes
N0
1.Check signal between U21&U9
2.Check U9 Clock (27MHZ)
U9 input correct?
Yes
N0
LVDS output correct ?
1.Check U9
2.Check U9 power 3.3V 1.8V
Yes
1.Is J6 connected good?
2.Is panel working ok?
END
CONFIDENTIAL – DO NOT COPY
Page 10-3
File No. SG-0182
(HDMI) IS NOT DISPLAY CORRECTLY
Start
N0
1.Check video
2.Check host’s setting
Input signal good?
Yes
N0
1.Check p1 connect
2.Check signal between P1 and
U16
U16 input correct?
Yes
N0
U16 no data out ?
1.Check U16 power
2.Check between signal U16 and
U9
3.Check clock 28.224MHZ
Yes
1.Is J6 connected good?
2.Is panel working ok?
END
CONFIDENTIAL – DO NOT COPY
Page 10-4
File No. SG-0182
TROUBLE OF DC-DC CONVERTER
Start
N0
J1 PIN 9,10,11
The voltage is about + 5V
1.Check power board
2.Check power cable connection
J1
N0
The voltage is about + 12V while
power switch on
1.J1 connection good
2.Check U9 GPIO Pin
3.Check power board
Yes
J1 PIN 2,3,4,5
Yes
N0
Yes
N0
U7 pin 5 6 7 8
U4 pin2
The voltage is about +5V while
power switch on
1.J1 connection good
2. Check U9 GPIO Pin
The voltage is about +3.3V
1.J1 to connection good?
2.Check U4
Yes
N0
U6 pin 3
Yes
The voltage is about +9V
1.Check U9 GPIO Pin
2.Check U6
N0
The voltage is about +2.5V while
power switch on
1.Check U9 GPIO Pin
2.Check U14
U14 pin2
Yes
N0
U5 pin2
U13 pin2
The voltage is about +1.8V
1.Check J1 Connect
2.Check U5&L5
The voltage is about +1.25V
while power switch on
1.Check J1 Connect
2.Check U13
END
CONFIDENTIAL – DO NOT COPY
Page 10-5
File No. SG-0182
TROUBLE OF DDC READING
Start
N0
Support DDC1/2B
1.Analog cable ok?
2.Check signal (U18 to P3)
3.Check U18 Voltage
4.Is compliant protocol?
Analog DDC OK?
Yes
N0
HDMIDDC OK?
Support DDC1/2B
1.Analog cable ok?
2.Check signal (U17 to P1)
3.Check U17 Voltage
4.Is compliant protocol?
Yes
END
CONFIDENTIAL – DO NOT COPY
Page 10-6
File No. SG-0182
TROUBLE OF THE DTV
CONFIDENTIAL – DO NOT COPY
Page 10-7
File No. SG-0182
Chapter 11 Spare Parts List
PART NO
DESCRIPTION
LOC
QTY
0185-1202-0073
FUSE 125V/2A SMD (R45102) L-F
F3
0185-1302-0073
FUSE 125V/3A SMD (R451003)
F1
1
0303-3000-0010
TV JACK 3/8-32UNEF (RF JACK)
TU1-1
1
0304-1000-0110
CONN. HDMI 19P 90' SMD With Flange L-F
P1
1
0320-4000-0142
POWER CORD 110V UL/CSA 1800mm BLK N.M. (VINC)
0321-0000-0411
AV CABLE RCA(Y/W/R) 1800mm BLK (VINC)
0430-3006-0619
IC MM1492AF 44PIN SOP-44B
U20
1
0430-6002-8079
IC AP1117E25LA SOT-223 L-F
U14
1
0430-6002-8079
IC AP1117E25LA SOT-223 L-F
U4
1
0430-6007-5075
IC AME1117CCGTZ 3PIN SOT-223 L-F
U19
1
LF
1
1
1
0430-6009-1051
IC AMC1117SKF-ADJ SMD 3PIN SOT-223 LF
U5
1
0430-6009-7051
IC AMC1117-1.8SKFT SMD 3PIN (SOT-223)L-F
U15, U5
2
0430-6011-3207
IC L7805CV
3PIN TO-220 LF
U1
1
0430-6013-4072
IC N2596SG-ADJ 3A 150KHZ TO-263-5L LF
U4
1
0430-7035-0999
IC MT5111AE 100PIN LQFP LF
U9
1
0430-7035-1999
1801-0119-3050
IC MT5351 471PIN BGA LF
U10
BEZEL VIZIO L32 HDTV10A(MTK)(ABS,433C+877C) ASS'Y
1
1801-0211-3010
REAR COVER (TM-32V)(ABS, 433C) ASS'Y
1
1925-1000-2510
EPS FORM_TR (TM-32V)
1
1925-1000-2520
EPS FORM_TL (TM-32V)
1
1925-1000-2550
EPS FORM_BR (TM-32V)
1
1925-1000-2560
EPS FORM_BL (TM-32V)
1
1925-1100-0230
PE BAG 320*230*0.04T
1
1925-1100-0280
PE BAG (180W*290L*0.04t)(PE-LD)(ACC.-1)
1
1925-1100-1970
PE BAG (850.0L*950.0W*0.3t)
1
1925-1200-7080
ACCESSARY BOX (330W*230D*50H)
1
1925-1200-7831
CARTON TRAY (TM-32V)
1
1925-1200-8500
CARTON VIZIO L32 HDTV10A(MTK)
1
1925-1300-7080
Brochure VIZIO Series
1
1925-1300-7370
Quick Setup Guide VIZIO L32 HDTV10A(MTK)
1
1925-1300-7380
MANUAL VIZIO L32 HDTV10A(MTK)
1
1925-1400-2710
Register
1
1925-1400-2810
WARRANTY CARD Vinc VIZIO L32
1
1925-1900-0610
CARTON JOINT (TM-32V)
4
1936-1100-8070
1947-1200-0400
B/C LBL VIZIO L32 HDTV10A
ACETATE CLOTH TAPE ( 醋酸布膠帶 ) 20*45mm
13
1947-1200-0820
ACETATE CLOTH TAPE ( 醋酸布膠帶 ) 60*45mm
5
1947-1200-2410
ACETATE CLOTH TAPE ( 醋酸布膠帶 ) 60*90mm
1
1947-1700-0020
SHIELDING AL. TAPE (45.0*25.0)
1
1947-1700-0050
SHIELDING AL. TAPE (50.0*40.0)
3
1947-1700-0130
SHIELDING AL.TAPE (70.0*50.0)
1
1947-1700-0260
GASKET BLOCK (10.0*10.5*60.0mm)
4
1947-1800-0030
GASKET BLOCK (10*17*60)
6
1947-1800-0460
GASKET BLOCK (3.0H*10.0W*100.0L mm)
2
1947-1800-0490
GASKET BLOCK (12L*10W*2.5Hmm) HOLE 6 φ
1
1947-1900-0030
HEATPATH (25x14mm)
1
3320-0012-0156
LCD DISPLAY BD ASS'Y
CARD/VIZIO L15
3320-0012-0187
VIDEO BOX BD ASS'Y VIZIO L32
3320-0012-0189
LCD IR BD ASS'Y (VIZIO L32)
3320-0062-0146
CONNECTOR BD ASS'Y VIZIO L32
3320-0102-0150
MAIN BD ASS'Y VIZIO L32 HDTV
CONFIDENTIAL – DO NOT COPY
REMARK
1
1
Page 11-1
File No. SG-0182
Chapter 12 Complete Parts List
9632-8500-2143 LCD TV MONITOR 32'' L32 HDTV10A(AUO)(ABS,433C)(MTK)
ITEM
M/S
LOCATION
PART NO.
DESCRIPTION
Q’TY
1
3320-0042-0334
BASE ASS'Y (TM-32)(ABS, 877C)
1
2
3320-0092-0312
1
3
3320-0102-0331
PACKING ASS'Y VIZIO L32 HDTV10A(MTK)
PANEL ASS'Y VIZIO L32 HDTV10A
(AUO)(ABS,433C)(MTK)
CONFIDENTIAL – DO NOT COPY
1
Page 12-1
File No. SG-0182
3320-0042-0334 BASE ASS'Y (TM-32)(ABS, 877C)
ITEM
M/S
LOCATION
PART NO.
DESCRIPTION
Q’TY
1
1701-0516-2010
BASE (TM-32V)(ABS, 877C)
1
2
1701-1000-0180
BASE FOOT ( φ 18.0*2.0t, PORON )
8
3
1701-1000-0430
BASE FOOT (TM-32V)
4
4
1712-0100-8110
BASE BRACKET BOTTOM (TM-32V)
2
5
1712-0100-8120
BASE BRACKET (TM-32V)
2
6
1720-3004-0820
MAC. SCREW-MF M4.0*8.0L,NI
8
7
1721-3004-0820
TAP.SCREW-TR #4.0*8.0L,Ni
8
CONFIDENTIAL – DO NOT COPY
Page 12-2
File No. SG-0182
3320-0092-0312 PACKING ASS'Y VIZIO L32 HDTV10A(MTK)
ITEM
M/S
LOCATION
PART NO.
DESCRIPTION
Q’TY
2
1701-0800-1730
WIRE CLIP (VIZIO C20L )
(PC,TRANSPARENT/877C)
REAR PLATE VIZIO L32 HDTV10A(MTK)
3
1925-1000-2510
EPS FORM_TR (TM-32V)
1
4
1925-1000-2520
EPS FORM_TL (TM-32V)
1
5
1925-1000-2550
EPS FORM_BR (TM-32V)
1
6
1925-1000-2560
EPS FORM_BL (TM-32V)
1
1
1701-0516-0010
1
1
7
1925-1100-1970
PE BAG (850.0L*950.0W*0.3t)
1
8
1925-1200-7831
CARTON TRAY (TM-32V)
1
1
9
1925-1200-8500
CARTON VIZIO L32 HDTV10A(MTK)
10
1925-1900-0610
CARTON JOINT (TM-32V)
4
11
1936-1100-8070
B/C LBL VIZIO L32 HDTV10A
1
12
3320-0092-0393
ACCESSARY ASS'Y VIZIO L32 HDTV10A(MTK)
1
CONFIDENTIAL – DO NOT COPY
Page 12-3
File No. SG-0182
3320-0102-0331 PANEL ASS'Y VIZIO L32 HDTV10A
(AUO)(ABS,433C)(MTK)
ITEM
M/S
LOCATION
PART NO.
1
0211-0315-0677
2
0260-0000-0290
DESCRIPTION
Q’TY
3
0335-0008-0090
LCD MODULE 31.5'' TFT T315XW01(V5)(AU)
AC INLET +VHR5P 1617#22 700mm 1015#18
100mm CORE
SPEAKER 6ohm 10W 1020*620mm
4
0460-1004-0301
WH PH4P-PH4P 1061#26 80mm
1
1
1
1
5
0460-1012-0171
WH PH12P-PH12P 1061#26 450mm SHIELDING
1
6
0460-1105-0080
WH XH5P-PH5P 1007#24 100mm
1
7
0460-2830-0092
FFC 30P(0.5mm) 270mm CORE
1
8
0460-2850-0130
FFC 50P(0.5mm) 180mm CORE
1
9
0460-3430-0651
WH DF14-30P/FI-E30H 20276#30 160mm + CORE
1
10
0460-4012-0100
WH A2543H12P-PH14P 1007#24 520mm CORE
1
11
0460-4013-0070
WH A2543H13P-PH13P 1007#24 350mm CORE
1
12
0500-0502-0102
1
13
0950-0000-0010
14
0950-0000-0020
POWER BD ASS'Y 0469D03 REV B
License: Dolbly-AC3 Two-Channel Dolby Digital
Deco
License: MPEG-LA Consumer Products
15
0960-0000-0050
SOFTWARE MTK HDCP KEY CODE (China)
1
16
1701-1923-0010
CARD READER COVER (TM-32V)(ABS, 433C)
1
17
1712-0100-4590
HEAT SINK FIX MTEAL (TM-30A)
1
18
1712-0100-8072
PANEL BRACKET-R (TM-32V)
1
1
1
19
1712-0100-8100
BASE BRACKET TOP (TM-32V)
2
20
1712-0100-8130
POWER SHIELDING (TM-32V)
1
21
1712-0100-8140
POWER BRACKET (TM-32V)
1
22
1712-0100-8222
PANEL BRACKET-L (TM-32V)
1
23
1712-0100-8680
PANEL HOLDER TOP (TM-32V_AUO)
2
24
1712-0100-8690
2
25
1712-0100-9650
26
1712-0100-9750
27
1712-0100-9760
PANEL HOLDER SIDE (TM-32V_AUO)
CHASSIS FOR MAIN BD VIZIO L32
HDTV10A(MTK)
SHIELDING FOR MAIN BD VIZIO L32
HDTV10A(MTK)
I/O PLATE BRACKET VIZIO L32 HDTV10A(MTK)
28
1712-0400-0720
HEAT SINK (PD-42S)
1
29
1720-0003-0620
MAC. SCREW-MB M3.0*6.0L,Ni
21
30
1720-0004-0520
MAC. SCREW-MB M4.0*5.0L,Ni
14
31
1720-0004-1020
MAC. SCREW-MB M4.0*10.0L Ni
4
32
1720-1204-0820
MAC. SCREW-MPGW M4.0*8.0L,Ni
1
33
1720-1504-0820
MAC. SCREW-MPSWF M4.0*8.0L,NI
18
34
1720-1504-1450
MAC.SCREW-MPSWF M4.0*14.0L Blk-Ni
4
35
1720-3003-0820
MAC.SCREW-MF M3.0*8.0L,NI
2
36
1720-4003-0620
MAC. SCREW-MRF M3.0*6.0L, Ni
10
1
1
1
37
1720-7344-0820
MAC. SCREW-MHSW #4-40*8.0L,Ni
2
38
1721-0003-0820
TAP. SCREW-TB #3.0*8.0L,NI
8
39
1721-0004-0820
TAP. SCREW-TP #4.0*8.0L,NI
2
40
1721-0004-1050
TAP. SCREW-TP #4.0*10.0L, BLK-Ni
10
41
1721-0004-1620
TAP. SCREW-TP #4.0*16.0L,NI
6
42
1721-0504-1020
TAP SCREW-MBSFW #TP4.0*10.0L, Ni
8
43
1721-2103-1050
TAP. SCREW-TRFW #3.0*10.0L,BLK-NI
4
44
1721-3003-0850
TAP. SCREW-TF #M3.0X8.0L,BLK-Ni
2
45
1721-4104-1220
6
46
1801-0119-3050
13
5
47
1801-0211-3010
48
1947-1200-0400
TAP. SCREW-TRF #4.0*12.0L,Ni
BEZEL VIZIO L32
HDTV10A(MTK)(ABS,433C+877C) ASS'Y
REAR COVER (TM-32V)(ABS, 433C) ASS'Y
ACETATE CLOTH TAPE ( 醋酸布膠帶 ) 20*45mm
49
1947-1200-0820
ACETATE CLOTH TAPE ( 醋酸布膠帶 ) 60*45mm
CONFIDENTIAL – DO NOT COPY
1
1
Page 12-4
File No. SG-0182
ITEM
M/S
LOCATION
PART NO.
DESCRIPTION
Q’TY
50
1947-1200-2410
ACETATE CLOTH TAPE ( 醋酸布膠帶 ) 60*90mm
1
51
1947-1700-0020
SHIELDING AL. TAPE (45.0*25.0)
1
52
1947-1700-0050
SHIELDING AL. TAPE (50.0*40.0)
3
53
1947-1700-0130
SHIELDING AL.TAPE (70.0*50.0)
1
54
1947-1700-0260
GASKET BLOCK (10.0*10.5*60.0mm)
4
55
1947-1800-0030
GASKET BLOCK (10*17*60)
6
56
1947-1800-0460
GASKET BLOCK (3.0H*10.0W*100.0L mm)
2
57
1947-1800-0490
GASKET BLOCK (12L*10W*2.5Hmm) HOLE 6 φ
1
58
1947-1900-0030
HEATPATH (25x14mm)
1
59
3320-0012-0156
LCD DISPLAY BD ASS'Y (VIZIO L32)
1
60
3320-0012-0187
VIDEO BOX BD ASS'Y VIZIO L32 HDTV10A(MTK)
1
61
3320-0012-0189
1
62
3320-0062-0146
63
3320-0102-0150
LCD IR BD ASS'Y (VIZIO L32)
CONNECTOR BD ASS'Y VIZIO L32
HDTV10A(MTK)
MAIN BD ASS'Y VIZIO L32 HDTV10A(MTK)
CONFIDENTIAL – DO NOT COPY
1
1
Page 12-5
File No. SG-0182
3320-0012-0156 LCD DISPLAY BD ASS'Y (VIZIO L32)
ITEM
M/S
LOCATION
1
PART NO.
0170-1740-1412
DESCRIPTION
Q’TY
AJD1
0451-2003-1263
0451-2000-1266
PCB DISPLAY BD V0 141*25*1.6t (VIZIO L32)
WAFER 2.00mm 12P 90' KINK (A2001WR2-12P)
L-F
WAFER 2.0mm 12P 90' DIP KINK (M242612R) L-F
4
AJD2
0451-2000-0466
WAFER 2.0mm 4P 90' DIP KINK (M24264R) L-F
1
5
SWD1
0220-7020-0965
SW TACT 6*6mm 180' 160g SFKHHAM2520
1
0220-7020-0981
SW TACT 6*6mm 180' 160g TSAB-2
2
3
6
SS
SS
7
8
SWD2
SS
9
10
SWD3
SS
11
12
SWD4
SS
13
14
SWD5
SS
15
16
SWD6
SS
17
18
SWD7
SS
19
20
SWD8
SS
0220-7020-0965
SW TACT 6*6mm 180' 160g SFKHHAM2520
0220-7020-0981
SW TACT 6*6mm 180' 160g TSAB-2
0220-7020-0965
SW TACT 6*6mm 180' 160g SFKHHAM2520
0220-7020-0981
SW TACT 6*6mm 180' 160g TSAB-2
0220-7020-0965
SW TACT 6*6mm 180' 160g SFKHHAM2520
0220-7020-0981
SW TACT 6*6mm 180' 160g TSAB-2
0220-7020-0965
SW TACT 6*6mm 180' 160g SFKHHAM2520
0220-7020-0981
SW TACT 6*6mm 180' 160g TSAB-2
0220-7020-0965
SW TACT 6*6mm 180' 160g SFKHHAM2520
0220-7020-0981
SW TACT 6*6mm 180' 160g TSAB-2
0220-7020-0965
SW TACT 6*6mm 180' 160g SFKHHAM2520
0220-7020-0981
SW TACT 6*6mm 180' 160g TSAB-2
0220-7020-0965
SW TACT 6*6mm 180' 160g SFKHHAM2520
0220-7020-0981
SW TACT 6*6mm 180' 160g TSAB-2
CONFIDENTIAL – DO NOT COPY
1
1
1
1
1
1
1
1
1
Page 12-6
File No. SG-0182
3320-0012-0187 VIDEO BOX BD ASS'Y VIZIO L32 HDTV10A(MTK)
ITEM
M/S
LOCATION
PART NO.
1
332000120187A
2
332000120187M
3
332000120187S
CONFIDENTIAL – DO NOT COPY
DESCRIPTION
Q’TY
VIDEO BOX BD ASS'Y VIZIO L32 HDTV10A(MTK)
AI
VIDEO BOX BD ASS'Y VIZIO L32 HDTV10A(MTK)
MI
VIDEO BOX BD ASS'Y VIZIO L32 HDTV10A(MTK)
SMD
1
1
1
Page 12-7
File No. SG-0182
3320-0012-0189 LCD IR BD ASS'Y (VIZIO L32)
ITEM
M/S
LOCATION
1
2
CI3
PART NO.
DESCRIPTION
Q’TY
0170-1640-0302
PCB IR BD V0 30*25*1.6t (VIZIO L32)
1
0111-1104-5102
C/C DISK 0.1UF 50V Y5V F-K
1
3
DI1
0440-5000-0030
LED L-3WYGW 3 ψ
1
4
JI1
0451-2000-0466
WAFER 2.0mm 4P 90' DIP KINK (M24264R) L-F
1
0410-2000-3106
TRANSISTOR 2SC1213AC TO-92 T
1
0410-2000-3119
TRANSISTOR KTC200-O/Y TO-92 T
5
6
QI1
CS
7
8
QI2
CS
0410-0000-2106
TRANSISTOR 2SA673AC TO-92 T
0410-0000-2119
TRANSISTOR KTA200-O/Y TO-92 T
1
9
RI1
0130-4709-1850
RES. CF 47ohm 1/8W J A
10
RI3
0130-2200-1850
RES. CF 220ohm 1/8W J A
1
11
RI4
0130-4700-1850
RES. CF 470ohm 1/8W J A
1
12
RI5
0130-3301-1850
RES. CF 3.3Kohm 1/8W J A
1
13
RI6
0130-3301-1850
RES. CF 3.3Kohm 1/8W J A
1
14
RI7
0130-3301-1850
RES. CF 3.3Kohm 1/8W J A
1
15
UI1
0980-0200-2130
MODULE. IR RECEIVER (FM-6038LM-5AN)
1
16
UI1S
1701-1500-0360
IR HOLDER (TM-15A)
1
CONFIDENTIAL – DO NOT COPY
1
Page 12-8
File No. SG-0182
3320-0062-0146 CONNECTOR BD ASS'Y VIZIO L32 HDTV10A(MTK)
ITEM
M/S
LOCATION
1
C5
SS
4
5
C6
SS
6
0111-3104-1637
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0303-1000-0304
Q’TY
1
1
1
8
J2
0300-3041-0090
CONN. B TO FPC FH12-30S-0.5SH
CONN. B TO FPC 0.5mm 30P 90' SMD
(AF7301-N2G1Z) L-F
S-VIDEO 4PIN 90' (2MJ-0602-005) L-F
9
J3
0302-0350-0012
PHONE JACK 3.5 φ
10
J4
0302-9030-0114
RCA JACK 1ROW 3I/O (Y-W-R) L-F
1
1
7
J1
DESCRIPTION
PCB CONN. BD FR4 115*27*1.6t(L32
HDTV10A_MTK)(1:5)
C/M Multi. 0.1uF 16V Y5V 0402
0171-3871-0111
2
3
PART NO.
SS
0303-1007-0307
5P 90' +SHIELD L-F
1
1
1
11
L2
0130-0000-0055
RES. CF 0.0ohm 1/10W J 0603
12
L8
0130-0000-0055
RES. CF 0.0ohm 1/10W J 0603
1
13
R1
0130-2208-1654
RES. CF 2.2 ohm 1/16W J 0402
1
14
R2
0130-2208-1654
RES. CF 2.2 ohm 1/16W J 0402
1
CONFIDENTIAL – DO NOT COPY
Page 12-9
File No. SG-0182
3320-0092-0393 ACCESSARY ASS'Y VIZIO L32 HDTV10A(MTK)
ITEM
M/S
LOCATION
PART NO.
DESCRIPTION
Q’TY
2
0321-0000-0411
POWER CORD 110V UL/CSA 1800mm BLK N.M.
(VINC)
AV CABLE RCA(Y/W/R) 1800mm BLK (VINC)
3
0602-3000-0020
Battery Zn-Carbon 1.5V AA
4
0980-0303-5010
REMOTE CONTROL Vinc VIZIO L32
1
5
1925-1100-0230
PE BAG 320*230*0.04T
1
1
0320-4000-0142
1
1
2
6
1925-1100-0280
PE BAG (180W*290L*0.04t)(PE-LD)(ACC.-1)
1
7
1925-1200-7080
ACCESSARY BOX (330W*230D*50H)
1
8
1925-1300-7080
Brochure VIZIO Series
1
9
1925-1300-7370
Quick Setup Guide VIZIO L32 HDTV10A(MTK)
1
10
1925-1300-7380
MANUAL VIZIO L32 HDTV10A(MTK)
1
11
1925-1400-2710
Register
1
12
1925-1400-2810
WARRANTY CARD Vinc VIZIO L32
CONFIDENTIAL – DO NOT COPY
CARD/VIZIO L15
1
Page 12-10
File No. SG-0182
3320-0102-0150 MAIN BD ASS'Y VIZIO L32 HDTV10A(MTK)
ITEM
M/S
LOCATION
PART NO.
DESCRIPTION
Q’TY
1
332001020150A
MAIN BD ASS'Y VIZIO L32 HDTV10A(MTK) AI
1
2
332001020150M
MAIN BD ASS'Y VIZIO L32 HDTV10A(MTK) MI
1
3
332001020150S
MAIN BD ASS'Y VIZIO L32 HDTV10A(MTK) SMD
1
CONFIDENTIAL – DO NOT COPY
Page 12-11
File No. SG-0182
3320-0012-0187A VIDEO BOX BD ASS'Y VIZIO L32 HDTV10A(MTK) AI
ITEM
M/S
LOCATION
PART NO.
DESCRIPTION
Q’TY
1
C11
0103-1221-1211
E/C VZ 220uF 16V 105'C F-T (6.3*11mm)
2
C111
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
3
C12
0103-1221-1211
E/C VZ 220uF 16V 105'C F-T (6.3*11mm)
1
4
C122
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
5
C135
0103-1479-1511
E/C VT 4.7uF 50V 105'C F-T (5*11mm)
1
6
C140
0103-1479-1511
E/C VT 4.7uF 50V 105'C F-T (5*11mm)
1
7
C148
0103-1221-1211
E/C VZ 220uF 16V 105'C F-T (6.3*11mm)
1
8
C150
0103-1470-1211
E/C VT 47uF 16V 105'C F-T (5*11mm)
1
9
C164
0103-1221-1211
E/C VZ 220uF 16V 105'C F-T (6.3*11mm)
1
10
C17
0103-1221-1211
E/C VZ 220uF 16V 105'C F-T (6.3*11mm)
1
11
C18
0103-1221-1211
E/C VZ 220uF 16V 105'C F-T (6.3*11mm)
1
12
C185
0103-1221-1211
E/C VZ 220uF 16V 105'C F-T (6.3*11mm)
1
13
C19
0103-1221-1211
E/C VZ 220uF 16V 105'C F-T (6.3*11mm)
1
14
C2
0103-1221-1211
E/C VZ 220uF 16V 105'C F-T (6.3*11mm)
1
15
C20
0103-1221-1211
E/C VZ 220uF 16V 105'C F-T (6.3*11mm)
1
16
C207
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
17
C239
0103-1221-1211
E/C VZ 220uF 16V 105'C F-T (6.3*11mm)
1
18
C25
0103-1221-1211
E/C VZ 220uF 16V 105'C F-T (6.3*11mm)
1
19
C26
0103-1221-1211
E/C VZ 220uF 16V 105'C F-T (6.3*11mm)
1
20
C29
0103-1221-1211
E/C VZ 220uF 16V 105'C F-T (6.3*11mm)
1
21
C34
0103-1221-1211
E/C VZ 220uF 16V 105'C F-T (6.3*11mm)
1
22
C5
0103-1221-1211
E/C VZ 220uF 16V 105'C F-T (6.3*11mm)
1
23
C64
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
24
C74
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
25
C82
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
26
C99
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
27
D1
0390-6001-4060
SCHOTTKY DIODE SB560 T
1
0390-6001-4270
SCHOTTKY DIODE 5A 60V SB560 DO-201AD LF
28
SS
CONFIDENTIAL – DO NOT COPY
1
Page 12-12
File No. SG-0182
332000120187M VIDEO BOX BD ASS'Y VIZIO L32 HDTV10A(MTK) MI
ITEM
M/S
1
2
SS
3
4
C4
SS
5
6
LOCATION
C13
C8
SS
PART NO.
DESCRIPTION
0103-6102-1212
E/C HF 1000uF 16V 105'C F (10*20)
0103-6102-1210
E/C HF 1000uF 16V 105'C N-F (10*20)
Q’TY
1
0103-6101-1311
E/C HF 100uF 25V 105'C F-T (6.3*11mm)
0102-2101-1370
E/C L-L 100uF 25V 105'C NF-T 6.3*11 (KY LF)
1
0103-6101-1311
E/C HF 100uF 25V 105'C F-T (6.3*11mm)
0102-2101-1370
E/C L-L 100uF 25V 105'C NF-T 6.3*11 (KY LF)
1
7
J2
0451-2500-0543
WAFER 2.50mm 5P 90' KINK (A2501WR2-5P) L-F
1
8
L1
0370-0000-1011
FERRITE CORE RH 3.5X6X1.0(W)X2
L-F
1
L-F
1
9
L2
0370-0000-1011
FERRITE CORE RH 3.5X6X1.0(W)X2
10
L5
0360-1000-0151
COIL CHOKE 70uH 3A LF
1
11
P1
0300-6400-0030
OPTO CONN. Transmitter W/O Screw Hole L-F
1
12
U1
0430-6011-3210
IC MC7805CTG 3PIN
1
13
U6
0980-0103-0010
14
U7
0370-0020-0510
15
Y1
0280-2500-0012
MODULE TUNER TD1336O/FGHP L-F
BANDPASS FILTER 44MHZ (B39440-X6965-N201)
5PIN DIP
X'TAL 25MHZ 49/US 30PPM 20PF LF
CONFIDENTIAL – DO NOT COPY
TO-220 LF
1
1
1
Page 12-13
File No. SG-0182
3320-0012-0187S VIDEO BOX BD ASS'Y VIZIO L32 HDTV10A(MTK) SMD
ITEM
M/S
LOCATION
PART NO.
1
332000120187B
2
332000120187T
CONFIDENTIAL – DO NOT COPY
DESCRIPTION
Q’TY
VIDEO BOX BD ASS'Y VIZIO L32 HDTV10A(MTK)
SMD BOT
VIDEO BOX BD ASS'Y VIZIO L32 HDTV10A(MTK)
SMD TOP
1
1
Page 12-14
File No. SG-0182
3320-0102-0150A MAIN BD ASS'Y VIZIO L32 HDTV10A(MTK) AI
ITEM
M/S
LOCATION
PART NO.
DESCRIPTION
Q’TY
1
CA2
0103-1102-1216
E/C VZ 1000uF 16V 105'C F (10*12.5)
2
CA4
0103-1220-1211
E/C VT 22uF 16V 105'C F-T (5*11mm)
1
3
CA6
0103-1471-1211
E/C VZ 470uF 16V 105'C F-T (8*11.5mm)
1
4
CA7
0103-1471-1211
E/C VZ 470uF 16V 105'C F-T (8*11.5mm)
1
5
CE1
0103-1221-1211
E/C VZ 220uF 16V 105'C F-T (6.3*11mm)
1
0103-6102-1212
E/C HF 1000uF 16V 105'C F (10*20)
1
0103-6102-1210
E/C HF 1000uF 16V 105'C N-F (10*20)
6
7
CE10
SS
1
8
CE11
0103-1221-1211
E/C VZ 220uF 16V 105'C F-T (6.3*11mm)
1
9
CE12
0103-1221-1211
E/C VZ 220uF 16V 105'C F-T (6.3*11mm)
1
10
CE13
0103-1221-1211
E/C VZ 220uF 16V 105'C F-T (6.3*11mm)
1
11
CE17
0103-1220-1211
E/C VT 22uF 16V 105'C F-T (5*11mm)
1
12
CE18
0103-1221-1211
E/C VZ 220uF 16V 105'C F-T (6.3*11mm)
1
13
CE2
0103-1101-1211
E/C VZ 100uF 16V 105'C F-T (5*11mm)
1
14
CE20
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
15
CE21
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
16
CE22
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
17
CE23
0103-1471-1211
E/C VZ 470uF 16V 105'C F-T (8*11.5mm)
1
18
CE25
0103-1221-1211
E/C VZ 220uF 16V 105'C F-T (6.3*11mm)
1
19
CE27
0103-1220-1211
E/C VT 22uF 16V 105'C F-T (5*11mm)
1
20
CE28
0103-1470-1211
E/C VT 47uF 16V 105'C F-T (5*11mm)
1
21
CE29
0103-1220-1211
E/C VT 22uF 16V 105'C F-T (5*11mm)
1
22
CE3
0103-1221-1211
E/C VZ 220uF 16V 105'C F-T (6.3*11mm)
1
23
CE30
0103-1470-1211
E/C VT 47uF 16V 105'C F-T (5*11mm)
1
24
CE31
0103-1470-1211
E/C VT 47uF 16V 105'C F-T (5*11mm)
1
25
CE32
0103-1470-1211
E/C VT 47uF 16V 105'C F-T (5*11mm)
1
26
CE33
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
27
CE34
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
28
CE35
0103-1221-1211
E/C VZ 220uF 16V 105'C F-T (6.3*11mm)
1
29
CE36
0103-1221-1211
E/C VZ 220uF 16V 105'C F-T (6.3*11mm)
1
30
CE38
0103-1221-1211
E/C VZ 220uF 16V 105'C F-T (6.3*11mm)
1
31
CE39
0103-1221-1211
E/C VZ 220uF 16V 105'C F-T (6.3*11mm)
1
32
CE4
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
33
CE41
0103-1101-1211
E/C VZ 100uF 16V 105'C F-T (5*11mm)
1
34
CE42
0103-1101-1211
E/C VZ 100uF 16V 105'C F-T (5*11mm)
1
35
CE43
0103-1221-1211
E/C VZ 220uF 16V 105'C F-T (6.3*11mm)
1
36
CE44
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
37
CE45
0103-1101-1211
E/C VZ 100uF 16V 105'C F-T (5*11mm)
1
38
CE46
0103-1221-1211
E/C VZ 220uF 16V 105'C F-T (6.3*11mm)
1
39
CE47
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
40
CE48
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
41
CE49
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
42
CE5
0103-1229-1511
E/C VT 2.2uF 50V 105'C F-T (5*11mm)
1
43
CE50
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
44
CE51
0103-1470-1211
E/C VT 47uF 16V 105'C F-T (5*11mm)
1
45
CE52
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
46
CE53
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
47
CE54
0103-1229-1511
E/C VT 2.2uF 50V 105'C F-T (5*11mm)
1
48
CE55
0103-1229-1511
E/C VT 2.2uF 50V 105'C F-T (5*11mm)
1
49
CE56
0103-1229-1511
E/C VT 2.2uF 50V 105'C F-T (5*11mm)
1
50
CE57
0103-1229-1511
E/C VT 2.2uF 50V 105'C F-T (5*11mm)
1
51
CE58
0103-1229-1511
E/C VT 2.2uF 50V 105'C F-T (5*11mm)
1
52
CE59
0103-1229-1511
E/C VT 2.2uF 50V 105'C F-T (5*11mm)
1
53
CE60
0103-1229-1511
E/C VT 2.2uF 50V 105'C F-T (5*11mm)
1
54
CE61
0103-1229-1511
E/C VT 2.2uF 50V 105'C F-T (5*11mm)
1
CONFIDENTIAL – DO NOT COPY
Page 12-15
File No. SG-0182
ITEM
M/S
LOCATION
PART NO.
DESCRIPTION
Q’TY
55
CE62
0103-1220-1211
E/C VT 22uF 16V 105'C F-T (5*11mm)
1
56
CE63
0103-1229-1511
E/C VT 2.2uF 50V 105'C F-T (5*11mm)
1
57
CE64
0103-1229-1511
E/C VT 2.2uF 50V 105'C F-T (5*11mm)
1
58
CE65
0103-1220-1211
E/C VT 22uF 16V 105'C F-T (5*11mm)
1
59
CE66
0103-1220-1211
E/C VT 22uF 16V 105'C F-T (5*11mm)
1
60
CE67
0103-1220-1211
E/C VT 22uF 16V 105'C F-T (5*11mm)
1
61
CE68
0103-1220-1211
E/C VT 22uF 16V 105'C F-T (5*11mm)
1
62
CE69
0103-1220-1211
E/C VT 22uF 16V 105'C F-T (5*11mm)
1
63
CE70
0103-1220-1211
E/C VT 22uF 16V 105'C F-T (5*11mm)
1
64
CE71
0103-1470-1211
E/C VT 47uF 16V 105'C F-T (5*11mm)
1
65
CE76
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
66
CE77
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
67
CE78
0103-1470-1211
E/C VT 47uF 16V 105'C F-T (5*11mm)
1
68
CE79
0103-1470-1211
E/C VT 47uF 16V 105'C F-T (5*11mm)
1
69
CE8
0103-1221-1211
E/C VZ 220uF 16V 105'C F-T (6.3*11mm)
1
70
CE80
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
71
CE81
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
72
CE82
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
73
CE83
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
74
CE85
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
75
CE86
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
76
CE87
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
77
CE88
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
78
CE89
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
79
CE9
0103-6221-1311
E/C HF 220uF 25V 105'C F-T (8*11.5mm)
1
80
CE90
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
81
CE91
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
82
CE92
0103-1221-1211
E/C VZ 220uF 16V 105'C F-T (6.3*11mm)
1
83
CE93
0103-1221-1211
E/C VZ 220uF 16V 105'C F-T (6.3*11mm)
1
84
CE94
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
85
CE95
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
86
CE96
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
87
CE97
0103-1101-1211
E/C VZ 100uF 16V 105'C F-T (5*11mm)
1
88
CE98
0103-1100-1511
E/C VT 10uF 50V 105'C F-T (5*11mm)
1
89
D2
0390-6001-4060
SCHOTTKY DIODE SB560 T
1
0390-6001-4270
SCHOTTKY DIODE 5A 60V SB560 DO-201AD LF
90
SS
CONFIDENTIAL – DO NOT COPY
Page 12-16
File No. SG-0182
3320-0102-0150M MAIN BD ASS'Y VIZIO L32 HDTV10A(MTK) MI
ITEM
M/S
LOCATION
PART NO.
DESCRIPTION
Q’TY
1
J1
0451-2000-1366
WAFER 2.0mm 13P 90' DIP KINK (M242613R) L-F
2
J5
0451-2500-0443
WAFER 2.50mm 4P 90' KINK (A2501WR2-4P) L-F
1
1
3
J7
0451-2000-1266
WAFER 2.0mm 12P 90' DIP KINK (M242612R) L-F
1
4
J8
0451-2000-0566
WAFER 2.0mm 5P 90' DIP KINK (M24265R) L-F
1
5
L15
0370-0000-1011
FERRITE CORE RH 3.5X6X1.0(W)X2
L-F
1
6
L19
0370-0000-1011
FERRITE CORE RH 3.5X6X1.0(W)X2
L-F
1
7
L2
0361-2047-0020
COIL CHOKE 47UH 1.6A 11*14 DIP
8
L20
0370-0000-1011
FERRITE CORE RH 3.5X6X1.0(W)X2
L-F
1
1
9
L22
0370-0000-1011
FERRITE CORE RH 3.5X6X1.0(W)X2
L-F
1
10
L23
0370-0000-1011
FERRITE CORE RH 3.5X6X1.0(W)X2
L-F
1
11
L4
0360-1000-0151
COIL CHOKE 70uH 3A LF
1
12
P10
0302-9040-0010
RCA JACK 2ROW 4I/O 90' (W-R) L-F
1
13
P11
0202-6000-0003
RJ11 6P6C Gray UNDER CONTACT L-F
1
14
P2
0302-9060-0022
1
15
P3
0300-1205-3150
L-F
1
L-F
1
16
P5
0302-0350-0012
RCA JACK 2ROW 6I/O (Y-W-R) L-F
D-SUB FEMALE 90' 15P 3ROW (DV11201-P33-4F)
L-F
PHONE JACK 3.5 φ 5P 90' +SHIELD L-F
17
P7
0302-9020-0114
RCA JACK 2ROW 2I/O (W-R)
1
1
18
P8
0302-9060-0020
RCA JACK 2ROW 6I/O (G-B-R)
19
P9
0302-9020-0114
RCA JACK 2ROW 2I/O (W-R)
20
SW1
0220-7020-0130
SW TACT 6*6mm 180' 160g SFKHHAM2525 L-F
1
21
TU1
0980-0102-3010
MODULE TUNER (FQ1236/PH-5)
1
22
TU1-1
0303-3000-0011
TV JACK RCA(MALE) TO F (FEMALE) 180' L-F
1
23
UA1
0430-4013-3109
IC TDA8946AJ 17PIN DIP LF
1
24
U6
0430-6011-2235
IC KA7809 TO-220 3PIN LF
1
25
Y1
0280-2700-0012
X'TAL 27MHZ 49/US 30PPM 20PF 40ohm
1
26
Y2
0280-2700-0012
X'TAL 27MHZ 49/US 30PPM 20PF 40ohm
1
CONFIDENTIAL – DO NOT COPY
1
Page 12-17
File No. SG-0182
3320-0102-0150S MAIN BD ASS'Y VIZIO L32 HDTV10A(MTK) SMD
ITEM
M/S
LOCATION
PART NO.
1
332001020150B
2
332001020150T
CONFIDENTIAL – DO NOT COPY
DESCRIPTION
Q’TY
MAIN BD ASS'Y VIZIO L32 HDTV10A(MTK) SMD
BOT
MAIN BD ASS'Y VIZIO L32 HDTV10A(MTK) SMD
TOP
1
1
Page 12-18
File No. SG-0182
3320-0012-0187B VIDEO BOX BD ASS'Y
VIZIO L32 HDTV10A(MTK) SMD BOT
ITEM
M/S
1
2
SS
3
4
C101
SS
5
6
C102
SS
7
8
C103
SS
9
10
C104
SS
11
12
C105
SS
13
14
C106
SS
15
16
C107
SS
17
18
C108
SS
19
20
C109
SS
21
22
C110
SS
23
24
C112
SS
25
26
C113
SS
27
28
C114
SS
29
30
C115
SS
31
32
C116
SS
33
34
C117
SS
35
36
C118
SS
37
38
C119
SS
39
40
C120
SS
41
42
C121
SS
43
44
C123
SS
45
46
C124
SS
47
48
C125
SS
49
50
C126
SS
51
52
LOCATION
C100
C127
SS
PART NO.
DESCRIPTION
0111-3475-1135
C/M MULTI 4.7uF 10V Y5V 0805
0112-3475-1135
C/M MULTI 4.7uF 10V Y5V 0805
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3475-1135
C/M MULTI 4.7uF 10V Y5V 0805
0112-3475-1135
C/M MULTI 4.7uF 10V Y5V 0805
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3475-1135
C/M MULTI 4.7uF 10V Y5V 0805
0112-3475-1135
C/M MULTI 4.7uF 10V Y5V 0805
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3475-1135
C/M MULTI 4.7uF 10V Y5V 0805
0112-3475-1135
C/M MULTI 4.7uF 10V Y5V 0805
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3475-1135
C/M MULTI 4.7uF 10V Y5V 0805
0112-3475-1135
C/M MULTI 4.7uF 10V Y5V 0805
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
CONFIDENTIAL – DO NOT COPY
Q’TY
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 12-19
File No. SG-0182
ITEM
M/S
53
54
C128
SS
55
56
C129
SS
57
58
C130
SS
59
60
C131
SS
61
62
C132
SS
63
64
C133
SS
65
66
C134
SS
67
68
C136
SS
69
70
C137
SS
71
72
C139
SS
73
74
C14
SS
75
76
C142
SS
77
78
C143
SS
79
80
C144
SS
81
82
C145
SS
83
84
C146
SS
85
86
C147
SS
87
88
C15
SS
89
90
C158
SS
91
92
C160
SS
93
94
C161
SS
95
96
C162
SS
97
98
C163
SS
99
100
C165
SS
101
102
C166
SS
103
104
C167
SS
105
106
C168
SS
107
108
C169
SS
109
110
111
LOCATION
C170
SS
C171
PART NO.
DESCRIPTION
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
CONFIDENTIAL – DO NOT COPY
Q’TY
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 12-20
File No. SG-0182
ITEM
112
M/S
SS
113
114
SS
C173
SS
117
118
C174
SS
119
120
C175
SS
121
122
C176
SS
123
124
C177
SS
125
126
C178
SS
127
128
C179
SS
129
130
C180
SS
131
132
C181
SS
133
134
C182
SS
135
136
C183
SS
137
138
C184
SS
139
140
C186
SS
141
142
C187
SS
143
144
C188
SS
145
146
C189
SS
147
148
C190
SS
149
150
C191
SS
151
152
C192
SS
153
154
C193
SS
155
156
C194
SS
157
158
C195
SS
159
160
C198
SS
161
162
C199
SS
163
164
C200
SS
165
166
C201
SS
167
168
C202
SS
169
170
C203
SS
PART NO.
0112-3104-1637
C172
115
116
LOCATION
DESCRIPTION
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
CONFIDENTIAL – DO NOT COPY
Q’TY
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 12-21
File No. SG-0182
ITEM
M/S
171
172
C205
SS
173
174
C208
SS
175
176
C209
SS
177
178
C22
SS
179
180
C237
SS
181
182
C27
SS
183
184
C30
SS
185
186
C35
SS
187
188
C57
SS
189
190
C61
SS
191
192
C65
SS
193
194
C66
SS
195
196
C67
SS
197
198
C68
SS
199
200
C69
SS
201
202
C70
SS
203
204
C71
SS
205
206
C72
SS
207
208
C73
SS
209
210
C75
SS
211
212
C76
SS
213
214
C77
SS
215
216
C78
SS
217
218
C79
SS
219
220
C80
SS
221
222
C81
SS
223
224
C83
SS
225
226
C84
SS
227
228
229
LOCATION
C85
SS
C86
PART NO.
DESCRIPTION
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3100-5107
C/M Multi. 10PF 50V NPO J 0402
0112-3100-5107
C/M Multi. 10PF 50V NPO 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
CONFIDENTIAL – DO NOT COPY
Q’TY
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 12-22
File No. SG-0182
ITEM
230
M/S
SS
231
232
SS
C88
SS
235
236
C89
SS
237
238
C9
SS
239
240
PART NO.
0112-3104-1637
C87
233
234
LOCATION
C90
SS
DESCRIPTION
Q’TY
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3562-5117
C/M Multi. 5600PF 50V X7R K 0402
0112-3562-5117
C/M Multi. 5600PF 50V X7R K 0402
1
1
1
1
1
241
C93
0111-3152-5117
C/M Multi. 1500PF 50V X7R 0402
1
242
C94
0111-3152-5117
1
243
FB3
0371-6880-0482
244
RP15
0141-7509-3851
C/M Multi. 1500PF 50V X7R 0402
CHIP COIL 0.68uH 300mA 0805
(GL201209TR68KTM) LF
ARRAY RES. A(X) 75ohm 4R J 8P
245
RP19
0141-7509-3851
ARRAY RES. A(X) 75ohm 4R J 8P
1
246
RP23
0141-7509-3851
ARRAY RES. A(X) 75ohm 4R J 8P
1
247
RP30
0141-2209-3851
ARRAY RES. A(X) 22ohm 4R J 8P
1
248
RP31
0141-7509-3851
ARRAY RES. A(X) 75ohm 4R J 8P
1
249
R115
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
250
R46
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
251
R48
0130-1000-1654
RES. CF 100ohm 1/16W J 0402
1
252
R58
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
253
R60
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
254
R61
0130-2209-1654
RES. CF 22ohm 1/16W J 0402
1
255
R62
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
256
R66
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
257
R75
0130-2209-1654
RES. CF 22ohm 1/16W J 0402
1
258
R76
0130-1000-1654
RES. CF 100ohm 1/16W J 0402
1
259
R77
0130-2209-1654
RES. CF 22ohm 1/16W J 0402
1
260
R78
0130-2209-1654
RES. CF 22ohm 1/16W J 0402
1
261
R79
0130-1000-1654
RES. CF 100ohm 1/16W J 0402
1
262
R80
0130-2209-1654
RES. CF 22ohm 1/16W J 0402
1
263
R85
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
264
R88
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
265
U18
0430-3006-1065
IC IDTQS3VH257Q 3.3V QSOP 16PIN
IC IDTQS3VH257QG 3.3V QSOP 16PIN (Green
Parts)
1
266
SS
0430-3009-6065
CONFIDENTIAL – DO NOT COPY
1
1
Page 12-23
File No. SG-0182
332000120187T VIDEO BOX BD ASS'Y VIZIO L32 HDTV10A(MTK) SMD T
ITEM
M/S
LOCATION
1
C138
SS
4
5
C141
SS
6
7
C149
SS
8
9
C151
SS
10
11
C152
SS
12
13
C153
SS
14
15
C154
SS
16
17
C155
SS
18
19
C156
SS
20
21
C157
SS
22
23
C159
SS
24
25
C16
SS
26
27
C196
SS
28
29
C197
SS
30
31
C204
SS
32
33
C21
SS
34
35
C23
SS
36
37
C24
SS
38
39
C241
SS
40
41
C28
SS
42
43
C3
SS
DESCRIPTION
Q’TY
0111-3104-1637
PCB VIDEO BOX BD FR4 140*140*1.6t 4M (L37
HDTV_ATSC)
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0171-1472-0320
2
3
PART NO.
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
44
C31
0111-3103-1637
C/M Multi. 0.01uF 16V Y5V 0402
1
45
C32
0111-3102-2517
C/M Multi. 1000PF 25V X7R K 0402
1
1
46
47
C33
SS
48
49
C36
SS
50
51
C39
SS
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3105-1636
C/M MULTI 1uF 16V Y5V 0603
0112-3105-1636
C/M Multi. 1.0uF 16V Y5V 0603
0111-3105-1636
C/M MULTI 1uF 16V Y5V 0603
0112-3105-1636
C/M Multi. 1.0uF 16V Y5V 0603
1
1
52
C40
0111-3103-1637
C/M Multi. 0.01uF 16V Y5V 0402
1
53
C52
0111-3473-2517
C/M Multi. 0.047uF 25V X7R 0402
1
CONFIDENTIAL – DO NOT COPY
Page 12-24
File No. SG-0182
ITEM
54
M/S
SS
55
56
C53
SS
57
58
C54
SS
59
60
C56
SS
61
62
C58
SS
63
64
C59
SS
65
66
C6
SS
67
68
C60
SS
69
70
C62
SS
71
72
C63
SS
73
74
C7
SS
75
76
LOCATION
C95
SS
PART NO.
DESCRIPTION
0112-3473-2517
C/M Multi. 0.047uF 25V X7R
0111-3473-2517
C/M Multi. 0.047uF 25V X7R 0402
0112-3473-2517
C/M Multi. 0.047uF 25V X7R
Q’TY
0402
1
0402
0111-3105-1636
C/M MULTI 1uF 16V Y5V 0603
0112-3105-1636
C/M Multi. 1.0uF 16V Y5V 0603
0111-3105-1636
C/M MULTI 1uF 16V Y5V 0603
0112-3105-1636
C/M Multi. 1.0uF 16V Y5V 0603
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3106-6055
C/M MULTI 10UF 6.3V X5R 0805
0112-3106-6055
C/M MULTI 10UF 6.3V X5R 0805
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3180-5107
C/M Multi. 18PF 50V NPO 0402
0112-3180-5107
C/M Multi. 18PF 50V NPO 0402
0111-3180-5107
C/M Multi. 18PF 50V NPO 0402
0112-3180-5107
C/M Multi. 18PF 50V NPO 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
1
1
1
1
1
1
1
1
1
1
77
C96
0111-3103-1637
C/M Multi. 0.01uF 16V Y5V 0402
1
78
C97
0111-3102-2517
C/M Multi. 1000PF 25V X7R K 0402
1
0111-3470-5107
C/M Multi. 47pF 50V NPO 0402
1
0112-3470-5107
C/M Multi. 47PF 50V NPO J 0402
CHIP COIL 0.68uH 300mA 0805
(GL201209TR68KTM) LF
CHIP COIL 0.68uH 300mA 0805
(GL201209TR68KTM) LF
CHIP COIL 0.68uH 300mA 0805
(GL201209TR68KTM) LF
FUSE 125V/3A SMD (R451003) LF
79
80
C98
SS
81
FB1
0371-6880-0482
82
FB2
0371-6880-0482
83
FB4
0371-6880-0482
84
F1
0185-1302-0073
85
J1
0303-1007-0504
1
1
1
1
87
L10
0370-0000-6452
88
L11
0130-0000-1858
CONN. B TO FPC FH12-50S-0.5SH(55) LF 50PIN
CONN. B TO FPC 0.5mm 50P 90' SMD
(AF7501-N2G1Z) L-F
CHIP BEAD CORE 80ohm
(MLB-201209-0080A-N2)
RES. CF 0.0ohm 1/8W J 0805
89
L12
0130-0000-1858
RES. CF 0.0ohm 1/8W J 0805
90
L20
0130-0000-1858
91
L21
0370-0000-6452
92
L22
0370-0000-6452
93
L23
0370-0000-6452
94
L24
0370-0000-6452
95
L25
0370-0000-6452
96
L26
0370-0000-6452
97
L27
0370-0000-6452
98
L35
0130-0000-1858
RES. CF 0.0ohm 1/8W J 0805
CHIP BEAD CORE 80ohm
(MLB-201209-0080A-N2)
CHIP BEAD CORE 80ohm
(MLB-201209-0080A-N2)
CHIP BEAD CORE 80ohm
(MLB-201209-0080A-N2)
CHIP BEAD CORE 80ohm
(MLB-201209-0080A-N2)
CHIP BEAD CORE 80ohm
(MLB-201209-0080A-N2)
CHIP BEAD CORE 80ohm
(MLB-201209-0080A-N2)
CHIP BEAD CORE 80ohm
(MLB-201209-0080A-N2)
RES. CF 0.0ohm 1/8W J 0805
99
L36
0130-0000-1858
RES. CF 0.0ohm 1/8W J 0805
1
100
L4
0130-0000-1858
1
101
L7
0370-0000-6452
102
L8
0130-0000-1858
103
L9
0370-0000-6452
104
RP1
0141-2209-3851
RES. CF 0.0ohm 1/8W J 0805
CHIP BEAD CORE 80ohm
(MLB-201209-0080A-N2)
RES. CF 0.0ohm 1/8W J 0805
CHIP BEAD CORE 80ohm
(MLB-201209-0080A-N2)
ARRAY RES. A(X) 22ohm 4R J 8P
86
SS
0303-1007-0507
CONFIDENTIAL – DO NOT COPY
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 12-25
File No. SG-0182
ITEM
M/S
LOCATION
PART NO.
DESCRIPTION
Q’TY
105
RP10
0141-2209-3851
ARRAY RES. A(X) 22ohm 4R J 8P
1
106
RP11
0141-3309-3851
ARRAY RES. A(X) 33ohm 4R J 8P
1
107
RP12
0141-3309-3851
ARRAY RES. A(X) 33ohm 4R J 8P
1
108
RP13
0141-3309-3851
ARRAY RES. A(X) 33ohm 4R J 8P
1
109
RP14
0141-2209-3851
ARRAY RES. A(X) 22ohm 4R J 8P
1
110
RP16
0141-4709-3851
ARRAY RES. A(X) 47ohm 4R J 8P
1
111
RP17
0141-7509-3851
ARRAY RES. A(X) 75ohm 4R J 8P
1
112
RP18
0141-2209-3851
ARRAY RES. A(X) 22ohm 4R J 8P
1
113
RP20
0141-4709-3851
ARRAY RES. A(X) 47ohm 4R J 8P
1
114
RP21
0141-7509-3851
ARRAY RES. A(X) 75ohm 4R J 8P
1
115
RP22
0141-2209-3851
ARRAY RES. A(X) 22ohm 4R J 8P
1
116
RP24
0141-4709-3851
ARRAY RES. A(X) 47ohm 4R J 8P
1
117
RP25
0141-7509-3851
ARRAY RES. A(X) 75ohm 4R J 8P
1
118
RP26
0141-4709-3851
ARRAY RES. A(X) 47ohm 4R J 8P
1
119
RP27
0141-7509-3851
ARRAY RES. A(X) 75ohm 4R J 8P
1
120
RP28
0141-4709-3851
ARRAY RES. A(X) 47ohm 4R J 8P
1
121
RP29
0141-7509-3851
ARRAY RES. A(X) 75ohm 4R J 8P
1
122
RP3
0141-2209-3851
ARRAY RES. A(X) 22ohm 4R J 8P
1
123
RP32
0141-4709-3851
ARRAY RES. A(X) 47ohm 4R J 8P
1
124
RP33
0141-7509-3851
ARRAY RES. A(X) 75ohm 4R J 8P
1
125
RP34
0141-4709-3851
ARRAY RES. A(X) 47ohm 4R J 8P
1
126
RP35
0141-7509-3851
ARRAY RES. A(X) 75ohm 4R J 8P
1
127
RP36
0141-4709-3851
ARRAY RES. A(X) 47ohm 4R J 8P
1
128
RP37
0141-7509-3851
ARRAY RES. A(X) 75ohm 4R J 8P
1
129
RP4
0141-2209-3851
ARRAY RES. A(X) 22ohm 4R J 8P
1
130
RP5
0141-2209-3851
ARRAY RES. A(X) 22ohm 4R J 8P
1
131
RP6
0141-2209-3851
ARRAY RES. A(X) 22ohm 4R J 8P
1
132
RP7
0141-2209-3851
ARRAY RES. A(X) 22ohm 4R J 8P
1
133
RP8
0141-2209-3851
ARRAY RES. A(X) 22ohm 4R J 8P
1
134
RP9
0141-2209-3851
ARRAY RES. A(X) 22ohm 4R J 8P
1
135
R1
0130-3309-1654
RES. CF 33ohm 1/16W J 0402
1
136
R10
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
137
R100
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
138
R101
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
139
R11
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
140
R117
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
141
R12
0130-1000-1654
RES. CF 100ohm 1/16W J 0402
1
142
R13
0130-1000-1654
RES. CF 100ohm 1/16W J 0402
1
143
R14
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
144
R17
0131-5110-1614
RES. MF 511 ohm 1/16W F 0402
1
145
R18
0131-5110-1614
RES. MF 511 ohm 1/16W F 0402
1
146
R2
0130-5600-1654
RES. CF 560ohm 1/16W J 0402
1
147
R20
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
148
R29
0130-1001-1654
RES. CF 1Kohm 1/16W J 0402
1
149
R3
0130-3300-1654
RES. CF 330ohm 1/16W J 0402
1
150
R30
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
151
R31
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
152
R32
0130-1001-1654
RES. CF 1Kohm 1/16W J 0402
1
153
R35
0130-1004-1654
RES. CF 1Mohm 1/16W J 0402
1
154
R36
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
155
R37
0130-3300-1654
RES. CF 330ohm 1/16W J 0402
1
156
R38
0130-5600-1654
RES. CF 560ohm 1/16W J 0402
1
157
R42
0130-8201-1654
RES. CF 8.2Kohm 1/16W J 0402
1
158
R43
0130-1009-1654
RES. CF 10ohm 1/16W J 0402
1
159
R45
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
160
R47
0130-1000-1654
RES. CF 100ohm 1/16W J 0402
1
161
R49
0130-4709-1654
RES. CF 47ohm 1/16W J 0402
1
162
R50
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
163
R51
0130-4709-1654
RES. CF 47ohm 1/16W J 0402
1
CONFIDENTIAL – DO NOT COPY
Page 12-26
File No. SG-0182
ITEM
M/S
LOCATION
PART NO.
DESCRIPTION
Q’TY
164
R52
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
165
R53
0130-4709-1654
RES. CF 47ohm 1/16W J 0402
1
166
R54
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
167
R55
0130-4709-1654
RES. CF 47ohm 1/16W J 0402
1
168
R56
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
169
R57
0130-2209-1654
RES. CF 22ohm 1/16W J 0402
1
170
R59
0130-2209-1654
RES. CF 22ohm 1/16W J 0402
1
171
R6
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
172
R63
0130-4709-1654
RES. CF 47ohm 1/16W J 0402
1
173
R64
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
174
R65
0130-2209-1654
RES. CF 22ohm 1/16W J 0402
1
175
R67
0130-4709-1654
RES. CF 47ohm 1/16W J 0402
1
176
R68
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
177
R69
0130-4709-1654
RES. CF 47ohm 1/16W J 0402
1
178
R7
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
179
R70
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
180
R71
0130-2209-1654
RES. CF 22ohm 1/16W J 0402
1
181
R73
0130-4709-1654
RES. CF 47ohm 1/16W J 0402
1
182
R74
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
183
R8
0130-1000-1654
RES. CF 100ohm 1/16W J 0402
1
184
R81
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
185
R87
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
186
R89
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
187
R9
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
188
R90
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
189
R94
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
190
R95
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
191
U10
0430-7035-1999
1
192
U12
0430-7031-9603
193
U13
0430-7031-9603
194
U14
0430-6010-9028
IC MT5351AG 471PIN BGA LF
IC DDR 16Mx16 NT5DS16M16CS-5T 66PIN
TSOPII LF
IC DDR 16Mx16 NT5DS16M16CS-5T 66PIN
TSOPII LF
IC G2996F1Uf 8PIN SOP-8(FD) LF
195
U15
0430-3039-4645
IC MX29LV320CTTC-70G 48PIN TSOP LF
1
1
196
197
U19
SS
198
199
U2
SS
200
U3
201
SS
202
SS
0430-6007-5075
IC AME1117CCGTZ 3PIN SOT-223 L-F
0430-6007-5079
IC AP1117E33LA LF SOT-223
0430-6013-4072
IC N2596SG-ADJ 3A 150KHZ TO-263-5L LF
0430-6015-2099
IC MSP1250-ADJS 3A 150KHZ TO-263-5L LF
0430-6009-7051
IC AMC1117-1.8SKFT SMD 3PIN (SOT-223)L-F
0430-6005-5079
IC AP1117E18LA LF SOT-223
1
1
1
1
1
0430-6009-7075
IC AME1117ECGTZ 1.8V 3PIN SOT-223 L-F
203
U4
0430-6002-8079
IC AP1117E25LA SOT-223 L-F
204
U5
0430-6009-1051
IC AMC1117SKF-ADJ SMD 3PIN SOT-223 LF
1
205
U8
0430-4017-5621
IC uPC3218GV-E1-A 8PIN SSOP LF
1
206
U9
0430-7035-0999
IC MT5111CE 100PIN LQFP LF
1
207
X1
0286-2700-0024
OSC 27MHz 25ppm 3.3V SMD VCXO
1
CONFIDENTIAL – DO NOT COPY
1
Page 12-27
File No. SG-0182
332001020150B MAIN BD ASS'Y VIZIO L32 HDTV10A(MTK) SMD BOT
ITEM
M/S
1
2
SS
3
4
CB100
SS
5
6
CB101
SS
7
CB102
8
SS
9
SS
10
11
CB104
SS
12
13
CB105
SS
14
15
CB106
SS
16
17
CB107
SS
18
19
CB108
SS
20
21
CB109
SS
22
23
CB110
SS
24
25
CB111
SS
26
27
CB112
SS
28
29
CB113
SS
30
31
CB114
SS
32
33
CB115
SS
34
35
CB118
SS
36
37
CB119
SS
38
39
CB122
SS
40
41
CB123
SS
42
43
CB124
SS
44
45
CB125
SS
46
47
CB126
SS
48
49
CB131
SS
50
51
CB132
SS
52
53
54
LOCATION
CB1
CB140
SS
CB141
PART NO.
DESCRIPTION
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
CONFIDENTIAL – DO NOT COPY
Q’TY
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 12-28
File No. SG-0182
ITEM
55
M/S
SS
56
57
SS
CB147
SS
60
61
CB148
SS
62
63
CB149
SS
64
65
CB151
SS
66
67
CB152
SS
68
69
CB154
SS
70
71
CB155
SS
72
73
CB156
SS
74
75
CB157
SS
76
77
CB158
SS
78
79
CB159
SS
80
81
CB160
SS
82
83
CB161
SS
84
85
CB162
SS
86
87
CB163
SS
88
89
CB2
SS
90
91
CB23
SS
92
93
CB24
SS
94
95
CB25
SS
96
97
CB26
SS
98
99
CB29
SS
100
101
CB30
SS
102
103
CB31
SS
104
105
CB32
SS
106
107
CB35
SS
108
109
CB36
SS
110
111
CB37
SS
112
113
114
PART NO.
0112-3104-1637
CB142
58
59
LOCATION
CB38
SS
CB43
DESCRIPTION
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
CONFIDENTIAL – DO NOT COPY
Q’TY
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 12-29
File No. SG-0182
ITEM
115
M/S
SS
116
117
SS
CB45
SS
120
121
CB46
SS
122
123
CB47
SS
124
125
CB53
SS
126
127
CB57
SS
128
129
CB61
SS
130
131
CB62
SS
132
133
CB72
SS
134
135
CB73
SS
136
137
CB74
SS
138
139
CB75
SS
140
141
CB76
SS
142
143
CB77
SS
144
145
CB78
SS
146
147
CB79
SS
148
149
CB80
SS
150
151
CB81
SS
152
153
CB82
SS
154
155
CB83
SS
156
157
CB84
SS
158
159
CB85
SS
160
161
CB86
SS
162
163
CB87
SS
164
165
CB88
SS
166
167
CB89
SS
168
169
CB90
SS
170
171
CB91
SS
172
173
CB99
SS
PART NO.
0112-3104-1637
CB44
118
119
LOCATION
DESCRIPTION
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
CONFIDENTIAL – DO NOT COPY
Q’TY
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 12-30
File No. SG-0182
ITEM
M/S
174
175
C24
SS
176
177
LOCATION
C8
SS
PART NO.
DESCRIPTION
0111-3105-1636
C/M MULTI 1uF 16V Y5V 0603
0112-3105-1636
C/M Multi. 1.0uF 16V Y5V 0603
0111-3105-1636
C/M MULTI 1uF 16V Y5V 0603
0112-3105-1636
C/M Multi. 1.0uF 16V Y5V 0603
Q’TY
1
1
178
FB10
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
179
FB11
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
1
180
FB14
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
181
FB15
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
182
FB19
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
183
FB38
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
184
FB41
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
185
FB44
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
186
RN1
0141-2209-3851
ARRAY RES. A(X) 22ohm 4R J 8P
1
187
RN24
0141-2209-3851
ARRAY RES. A(X) 22ohm 4R J 8P
1
188
RN3
0141-2209-3851
ARRAY RES. A(X) 22ohm 4R J 8P
1
189
RN5
0141-2209-3851
ARRAY RES. A(X) 22ohm 4R J 8P
1
190
R230
0130-4702-1654
RES. CF 47Kohm 1/16W J 0402
1
191
R36
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
192
R41
0130-2209-1654
RES. CF 22ohm 1/16W J 0402
1
193
R49
0130-2209-1654
RES. CF 22ohm 1/16W J 0402
1
194
R51
0130-2209-1654
RES. CF 22ohm 1/16W J 0402
1
195
R96
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
CONFIDENTIAL – DO NOT COPY
Page 12-31
File No. SG-0182
332001020150T MAIN BD ASS'Y VIZIO L32 HDTV10A(MTK) SMD TOP
ITEM
M/S
LOCATION
PART NO.
DESCRIPTION
Q’TY
2
CA1
0111-3104-2516
PCB MAIN BD FR4 275*155*1.6t 4M (VIZIO L37
HDTV)
C/M Multi. 0.1uF 25V X7R 0603
3
CA10
0111-3474-1636
C/M Multi. 0.47uF 16V Y5V 0603
1
4
CA11
0111-3474-1636
C/M Multi. 0.47uF 16V Y5V 0603
1
5
CA12
0111-3474-1636
C/M Multi. 0.47uF 16V Y5V 0603
1
6
CA13
0111-3104-2516
C/M Multi. 0.1uF 25V X7R 0603
1
7
CA16
0112-3224-2516
C/M Multi. 0.22uF 25V X7R 0603
1
0111-3224-2516
C/M Multi. 0.22uF 25V X7R 0603
1
8
0171-2272-1973
SS
9
10
CA17
SS
0112-3224-2516
C/M Multi. 0.22uF 25V X7R 0603
0111-3224-2516
C/M Multi. 0.22uF 25V X7R 0603
1
1
1
11
CA3
0111-3474-1636
C/M Multi. 0.47uF 16V Y5V 0603
1
12
CA5
0112-3224-2516
C/M Multi. 0.22uF 25V X7R 0603
1
0111-3224-2516
C/M Multi. 0.22uF 25V X7R 0603
13
SS
14
CA8
0111-3104-2516
C/M Multi. 0.1uF 25V X7R 0603
1
15
CA9
0112-3224-2516
C/M Multi. 0.22uF 25V X7R 0603
1
0111-3224-2516
C/M Multi. 0.22uF 25V X7R 0603
16
SS
17
18
CB10
SS
19
20
CB11
SS
21
22
CB116
SS
23
24
CB117
SS
25
26
CB12
SS
27
28
CB121
SS
29
30
CB127
SS
31
32
CB128
SS
33
34
CB129
SS
35
36
CB13
SS
37
38
CB136
SS
39
40
CB137
SS
41
42
CB138
SS
43
44
CB139
SS
45
46
CB14
SS
47
48
CB143
SS
49
50
CB144
SS
51
52
53
CB145
SS
CB146
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
CONFIDENTIAL – DO NOT COPY
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 12-32
File No. SG-0182
ITEM
54
M/S
SS
55
56
SS
CB150
SS
59
60
CB153
SS
61
62
PART NO.
0112-3104-1637
CB15
57
58
LOCATION
CB16
SS
DESCRIPTION
Q’TY
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
1
1
1
1
63
CB164
0111-3104-2516
C/M Multi. 0.1uF 25V X7R 0603
1
64
CB165
0111-3105-1636
C/M MULTI 1uF 16V Y5V 0603
1
0112-3105-1636
C/M Multi. 1.0uF 16V Y5V 0603
65
SS
66
67
CB166
SS
68
69
CB167
SS
70
71
CB168
SS
72
73
CB169
SS
74
75
CB17
SS
76
77
CB170
SS
78
79
CB171
SS
80
81
CB173
SS
82
83
CB174
SS
84
85
CB175
SS
86
87
CB176
SS
88
89
CB177
SS
90
91
CB178
SS
92
93
CB179
SS
94
95
CB180
SS
0111-3105-1636
C/M MULTI 1uF 16V Y5V 0603
0112-3105-1636
C/M Multi. 1.0uF 16V Y5V 0603
0111-3105-1636
C/M MULTI 1uF 16V Y5V 0603
0112-3105-1636
C/M Multi. 1.0uF 16V Y5V 0603
0111-3105-1636
C/M MULTI 1uF 16V Y5V 0603
0112-3105-1636
C/M Multi. 1.0uF 16V Y5V 0603
0111-3105-1636
C/M MULTI 1uF 16V Y5V 0603
0112-3105-1636
C/M Multi. 1.0uF 16V Y5V 0603
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3105-1636
C/M MULTI 1uF 16V Y5V 0603
0112-3105-1636
C/M Multi. 1.0uF 16V Y5V 0603
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
96
CB181
0111-3104-2516
C/M Multi. 0.1uF 25V X7R 0603
1
97
CB19
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
1
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
98
SS
99
100
CB20
SS
101
102
CB21
SS
103
104
CB22
SS
105
106
CB27
SS
107
108
CB28
SS
109
110
CB3
SS
111
112
CB33
SS
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
CONFIDENTIAL – DO NOT COPY
1
1
1
1
1
1
1
Page 12-33
File No. SG-0182
ITEM
M/S
113
114
CB34
SS
115
116
CB4
SS
117
118
CB40
SS
119
120
CB41
SS
121
122
CB5
SS
123
124
CB51
SS
125
126
CB52
SS
127
128
CB54
SS
129
130
CB55
SS
131
132
CB58
SS
133
134
CB59
SS
135
136
CB6
SS
137
138
CB60
SS
139
140
CB63
SS
141
142
CB64
SS
143
144
CB65
SS
145
146
CB66
SS
147
148
CB67
SS
149
150
CB68
SS
151
152
CB69
SS
153
154
CB7
SS
155
156
CB70
SS
157
158
CB71
SS
159
160
CB9
SS
161
162
CB92
SS
163
164
CB93
SS
165
166
CB94
SS
167
168
CB95
SS
169
170
171
LOCATION
CE105
SS
CE106
PART NO.
DESCRIPTION
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3105-1636
C/M MULTI 1uF 16V Y5V 0603
0112-3105-1636
C/M Multi. 1.0uF 16V Y5V 0603
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3105-1636
C/M MULTI 1uF 16V Y5V 0603
0112-3105-1636
C/M Multi. 1.0uF 16V Y5V 0603
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3105-1636
C/M MULTI 1uF 16V Y5V 0603
0112-3105-1636
C/M Multi. 1.0uF 16V Y5V 0603
0111-3105-1636
C/M MULTI 1uF 16V Y5V 0603
0112-3105-1636
C/M Multi. 1.0uF 16V Y5V 0603
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3103-5116
C/M MULTI 0.01UF 50V X7R 0603
0112-3103-5116
C/M Multi. 0.01uF 50V X7R 0603
0111-3104-2516
C/M Multi. 0.1uF 25V X7R 0603
CONFIDENTIAL – DO NOT COPY
Q’TY
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 12-34
File No. SG-0182
ITEM
M/S
172
173
LOCATION
CE16
SS
PART NO.
DESCRIPTION
0111-3103-5116
C/M MULTI 0.01UF 50V X7R 0603
0112-3103-5116
C/M Multi. 0.01uF 50V X7R 0603
Q’TY
1
174
CE19
0111-3104-2516
C/M Multi. 0.1uF 25V X7R 0603
1
175
C1
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
1
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
176
SS
177
178
C100
SS
179
180
C101
SS
0111-3150-5107
C/M Multi. 15PF 50V NPO 0402
0112-3150-5107
C/M Multi. 15PF 50V NPO 0402
0111-3150-5107
C/M Multi. 15PF 50V NPO 0402
0112-3150-5107
C/M Multi. 15PF 50V NPO 0402
181
C102
0111-3509-5107
C/M Multi. 5PF 50V NPO 0402
182
C103
0111-3473-2517
C/M Multi. 0.047uF 25V X7R 0402
0112-3473-2517
C/M Multi. 0.047uF 25V X7R
183
SS
1
1
1
1
0402
184
C104
0111-3472-5117
C/M Multi. 4700PF 50V X7R K 0402
1
185
C105
0111-3473-2517
C/M Multi. 0.047uF 25V X7R 0402
1
0112-3473-2517
C/M Multi. 0.047uF 25V X7R
186
SS
187
188
C106
SS
0402
0111-3473-2517
C/M Multi. 0.047uF 25V X7R 0402
0112-3473-2517
C/M Multi. 0.047uF 25V X7R
189
C108
0111-3509-5107
C/M Multi. 5PF 50V NPO 0402
190
C109
0111-3473-2517
C/M Multi. 0.047uF 25V X7R 0402
0112-3473-2517
C/M Multi. 0.047uF 25V X7R
191
SS
1
0402
1
1
0402
192
C11
0111-3330-5107
C/M Multi. 33PF 50V NPO 0402
1
193
C110
0111-3473-2517
C/M Multi. 0.047uF 25V X7R 0402
1
0112-3473-2517
C/M Multi. 0.047uF 25V X7R
194
SS
195
196
C111
SS
197
198
C112
SS
0402
0111-3473-2517
C/M Multi. 0.047uF 25V X7R 0402
0112-3473-2517
C/M Multi. 0.047uF 25V X7R
0111-3473-2517
C/M Multi. 0.047uF 25V X7R 0402
0112-3473-2517
C/M Multi. 0.047uF 25V X7R
C114
0111-3509-5107
C/M Multi. 5PF 50V NPO 0402
200
C115
0111-3473-2517
C/M Multi. 0.047uF 25V X7R 0402
0112-3473-2517
C/M Multi. 0.047uF 25V X7R
SS
202
203
C116
SS
1
0402
199
201
1
0402
1
1
0402
0111-3473-2517
C/M Multi. 0.047uF 25V X7R 0402
0112-3473-2517
C/M Multi. 0.047uF 25V X7R
1
0402
204
C117
0111-3509-5107
C/M Multi. 5PF 50V NPO 0402
1
205
C118
0111-3509-5107
C/M Multi. 5PF 50V NPO 0402
1
206
C119
0111-3472-5117
C/M Multi. 4700PF 50V X7R K 0402
1
207
C12
0111-3330-5107
C/M Multi. 33PF 50V NPO 0402
1
1
208
209
C120
SS
0111-3473-2517
C/M Multi. 0.047uF 25V X7R 0402
0112-3473-2517
C/M Multi. 0.047uF 25V X7R
0402
210
C121
0111-3330-5107
C/M Multi. 33PF 50V NPO 0402
1
211
C122
0111-3473-2517
C/M Multi. 0.047uF 25V X7R 0402
1
0112-3473-2517
C/M Multi. 0.047uF 25V X7R
212
SS
213
214
C123
SS
215
216
C124
SS
0402
0111-3473-2517
C/M Multi. 0.047uF 25V X7R 0402
0112-3473-2517
C/M Multi. 0.047uF 25V X7R
1
0402
0111-3473-2517
C/M Multi. 0.047uF 25V X7R 0402
0112-3473-2517
C/M Multi. 0.047uF 25V X7R
1
0402
217
C125
0111-3330-5107
C/M Multi. 33PF 50V NPO 0402
1
218
C127
0111-3103-1637
C/M Multi. 0.01uF 16V Y5V 0402
1
219
C128
0111-3473-2517
C/M Multi. 0.047uF 25V X7R 0402
1
0112-3473-2517
C/M Multi. 0.047uF 25V X7R
220
SS
221
222
C129
SS
223
224
C13
SS
225
226
C130
SS
0402
0111-3473-2517
C/M Multi. 0.047uF 25V X7R 0402
0112-3473-2517
C/M Multi. 0.047uF 25V X7R
1
0402
0111-3105-1636
C/M MULTI 1uF 16V Y5V 0603
0112-3105-1636
C/M Multi. 1.0uF 16V Y5V 0603
0111-3473-2517
C/M Multi. 0.047uF 25V X7R 0402
0112-3473-2517
C/M Multi. 0.047uF 25V X7R
1
1
0402
227
C131
0111-3330-5107
C/M Multi. 33PF 50V NPO 0402
1
228
C133
0111-3473-2517
C/M Multi. 0.047uF 25V X7R 0402
1
0112-3473-2517
C/M Multi. 0.047uF 25V X7R
0111-3473-2517
C/M Multi. 0.047uF 25V X7R 0402
229
230
SS
C134
CONFIDENTIAL – DO NOT COPY
0402
1
Page 12-35
File No. SG-0182
ITEM
231
M/S
SS
232
233
LOCATION
C137
SS
PART NO.
DESCRIPTION
0112-3473-2517
C/M Multi. 0.047uF 25V X7R
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
Q’TY
0402
1
234
C14
0111-3103-1637
C/M Multi. 0.01uF 16V Y5V 0402
1
235
C140
0111-3473-2517
C/M Multi. 0.047uF 25V X7R 0402
1
0112-3473-2517
C/M Multi. 0.047uF 25V X7R
236
SS
0402
237
C142
0111-3101-5107
C/M Multi. 100PF 50V NPO J 0402
1
238
C143
0111-3101-5107
C/M Multi. 100PF 50V NPO J 0402
1
239
C144
0111-3101-5107
C/M Multi. 100PF 50V NPO J 0402
1
240
C145
0111-3101-5107
C/M Multi. 100PF 50V NPO J 0402
1
241
C146
0111-3101-5107
C/M Multi. 100PF 50V NPO J 0402
1
242
C147
0111-3101-5107
C/M Multi. 100PF 50V NPO J 0402
1
243
C148
0111-3101-5107
C/M Multi. 100PF 50V NPO J 0402
1
244
C15
0111-3104-2516
C/M Multi. 0.1uF 25V X7R 0603
1
245
C16
0111-3152-5117
C/M Multi. 1500PF 50V X7R 0402
1
246
C17
0111-3105-1636
C/M MULTI 1uF 16V Y5V 0603
1
0112-3105-1636
C/M Multi. 1.0uF 16V Y5V 0603
247
SS
248
249
C18
SS
250
251
C19
SS
252
253
C2
SS
254
255
C20
SS
256
257
C21
SS
258
259
C23
SS
260
261
C25
SS
262
263
C26
SS
264
265
C27
SS
266
267
C28
SS
268
269
C29
SS
270
271
C3
SS
272
273
C30
SS
274
275
C31
SS
0111-3105-1636
C/M MULTI 1uF 16V Y5V 0603
0112-3105-1636
C/M Multi. 1.0uF 16V Y5V 0603
0111-3105-1636
C/M MULTI 1uF 16V Y5V 0603
0112-3105-1636
C/M Multi. 1.0uF 16V Y5V 0603
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3105-1636
C/M MULTI 1uF 16V Y5V 0603
0112-3105-1636
C/M Multi. 1.0uF 16V Y5V 0603
0111-3105-1636
C/M MULTI 1uF 16V Y5V 0603
0112-3105-1636
C/M Multi. 1.0uF 16V Y5V 0603
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3105-1636
C/M MULTI 1uF 16V Y5V 0603
0112-3105-1636
C/M Multi. 1.0uF 16V Y5V 0603
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3180-5107
C/M Multi. 18PF 50V NPO 0402
0112-3180-5107
C/M Multi. 18PF 50V NPO 0402
1
1
1
1
1
1
1
1
1
1
1
1
1
1
276
C32
0111-3821-5117
C/M Multi. 820pF 50V X7R K 0402
277
C33
0111-3103-1637
C/M Multi. 0.01uF 16V Y5V 0402
1
278
C35
0111-3821-5117
C/M Multi. 820pF 50V X7R K 0402
1
279
C37
0111-3103-1637
C/M Multi. 0.01uF 16V Y5V 0402
1
280
C38
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
1
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
281
SS
282
283
C4
SS
284
285
C40
SS
286
287
C43
SS
288
289
C44
SS
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
CONFIDENTIAL – DO NOT COPY
1
1
1
1
1
Page 12-36
File No. SG-0182
ITEM
M/S
LOCATION
PART NO.
DESCRIPTION
Q’TY
290
C46
0111-3103-1637
C/M Multi. 0.01uF 16V Y5V 0402
291
C47
0111-3103-1637
C/M Multi. 0.01uF 16V Y5V 0402
1
292
C48
0111-3330-5107
C/M Multi. 33PF 50V NPO 0402
1
293
C49
0111-3330-5107
C/M Multi. 33PF 50V NPO 0402
1
294
C5
0111-3103-1637
C/M Multi. 0.01uF 16V Y5V 0402
1
295
C50
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
1
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
296
SS
297
298
C51
SS
299
300
C52
SS
301
302
C53
SS
303
304
C54
SS
305
306
C55
SS
307
308
C56
SS
309
310
C57
SS
311
312
C58
SS
313
314
C59
SS
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
1
1
1
1
1
1
1
1
1
1
315
C6
0111-3821-5117
C/M Multi. 820pF 50V X7R K 0402
1
316
C61
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
1
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
317
SS
318
319
C7
SS
320
321
C70
SS
322
323
C71
SS
324
325
C72
SS
326
327
C73
SS
328
329
C74
SS
330
331
C79
SS
332
333
C80
SS
334
335
C81
SS
336
337
C82
SS
0111-3105-1636
C/M MULTI 1uF 16V Y5V 0603
0112-3105-1636
C/M Multi. 1.0uF 16V Y5V 0603
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
0111-3331-5106
C/M Multi 330PF 50V NPO 0603
0112-3331-5106
C/M Multi. 330PF 50V NPO 0603
0111-3331-5106
C/M Multi 330PF 50V NPO 0603
0112-3331-5106
C/M Multi. 330PF 50V NPO 0603
0111-3331-5106
C/M Multi 330PF 50V NPO 0603
0112-3331-5106
C/M Multi. 330PF 50V NPO 0603
0111-3331-5106
C/M Multi 330PF 50V NPO 0603
0112-3331-5106
C/M Multi. 330PF 50V NPO 0603
0111-3331-5106
C/M Multi 330PF 50V NPO 0603
0112-3331-5106
C/M Multi. 330PF 50V NPO 0603
0111-3331-5106
C/M Multi 330PF 50V NPO 0603
0112-3331-5106
C/M Multi. 330PF 50V NPO 0603
0111-3103-5116
C/M MULTI 0.01UF 50V X7R 0603
0112-3103-5116
C/M Multi. 0.01uF 50V X7R 0603
0111-3103-5116
C/M MULTI 0.01UF 50V X7R 0603
0112-3103-5116
C/M Multi. 0.01uF 50V X7R 0603
1
1
1
1
1
1
1
1
1
1
338
C85
0111-3103-1637
C/M Multi. 0.01uF 16V Y5V 0402
1
339
C86
0111-3103-1637
C/M Multi. 0.01uF 16V Y5V 0402
1
340
C88
0111-3103-1637
C/M Multi. 0.01uF 16V Y5V 0402
1
341
C89
0111-3103-1637
C/M Multi. 0.01uF 16V Y5V 0402
1
342
C90
0111-3103-1637
C/M Multi. 0.01uF 16V Y5V 0402
1
343
C91
0111-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
1
0112-3104-1637
C/M Multi. 0.1uF 16V Y5V 0402
344
SS
345
C92
0111-3103-1637
C/M Multi. 0.01uF 16V Y5V 0402
1
346
C93
0111-3103-1637
C/M Multi. 0.01uF 16V Y5V 0402
1
347
C94
0111-3103-1637
C/M Multi. 0.01uF 16V Y5V 0402
1
348
C95
0111-3103-1637
C/M Multi. 0.01uF 16V Y5V 0402
1
CONFIDENTIAL – DO NOT COPY
Page 12-37
File No. SG-0182
ITEM
M/S
LOCATION
PART NO.
DESCRIPTION
Q’TY
349
C96
0111-3103-1637
C/M Multi. 0.01uF 16V Y5V 0402
1
350
C97
0111-3103-1637
C/M Multi. 0.01uF 16V Y5V 0402
1
351
C98
0111-3105-1636
C/M MULTI 1uF 16V Y5V 0603
1
0112-3105-1636
C/M Multi. 1.0uF 16V Y5V 0603
352
SS
353
354
C99
SS
355
DA1
356
SS
357
SS
358
DA2
359
SS
360
SS
361
D10
362
SS
363
SS
364
D12
365
SS
366
SS
367
D13
368
SS
369
SS
370
371
D15
SS
372
373
D16
SS
374
375
D17
SS
376
377
D18
SS
378
379
D19
SS
380
D4
0111-3473-2517
C/M Multi. 0.047uF 25V X7R 0402
0112-3473-2517
C/M Multi. 0.047uF 25V X7R
0390-5004-2343
GEN. DIODE LL4148WP SMD 1206 L-F
0390-3006-7353
DIODE FAST 0.3A 100V LL4148 LL-34 LF
0390-5004-2223
GEN. DIODE RLS4148NTE-11 SMD L-F
0390-5004-2343
GEN. DIODE LL4148WP SMD 1206 L-F
0390-3006-7353
DIODE FAST 0.3A 100V LL4148 LL-34 LF
0390-5004-2223
GEN. DIODE RLS4148NTE-11 SMD L-F
0390-5004-2343
GEN. DIODE LL4148WP SMD 1206 L-F
0390-3006-7353
DIODE FAST 0.3A 100V LL4148 LL-34 LF
0390-5004-2223
GEN. DIODE RLS4148NTE-11 SMD L-F
0390-5004-2343
GEN. DIODE LL4148WP SMD 1206 L-F
0390-3006-7353
DIODE FAST 0.3A 100V LL4148 LL-34 LF
0390-5004-2223
GEN. DIODE RLS4148NTE-11 SMD L-F
0390-5004-2343
GEN. DIODE LL4148WP SMD 1206 L-F
0390-3006-7353
DIODE FAST 0.3A 100V LL4148 LL-34 LF
0390-5004-2223
GEN. DIODE RLS4148NTE-11 SMD L-F
0390-5003-5273
DUAL SURFACE DIODE BAV99 SMD (SOT-23) L-F
DUAL SURFACE DIODES BAV99-7-F SOT-23 L-F
0390-5003-5273
DUAL SURFACE DIODE BAV99 SMD (SOT-23) L-F
0390-5003-5293
DUAL SURFACE DIODES BAV99-7-F SOT-23 L-F
0390-5003-5273
DUAL SURFACE DIODE BAV99 SMD (SOT-23) L-F
0390-5003-5293
DUAL SURFACE DIODES BAV99-7-F SOT-23 L-F
0390-5003-5273
DUAL SURFACE DIODE BAV99 SMD (SOT-23) L-F
0390-5003-5293
DUAL SURFACE DIODES BAV99-7-F SOT-23 L-F
0390-5004-2343
GEN. DIODE LL4148WP SMD 1206 L-F
0390-3006-7353
DIODE FAST 0.3A 100V LL4148 LL-34 LF
GEN. DIODE RLS4148NTE-11 SMD L-F
SS
386
387
D6
SS
388
389
D7
SS
390
D9
391
SS
392
SS
1
0390-5003-5293
0390-5004-2223
385
1
DUAL SURFACE DIODE BAV99 SMD (SOT-23) L-F
SS
D5
1
DUAL SURFACE DIODES BAV99-7-F SOT-23 L-F
SS
SS
1
0390-5003-5293
382
384
1
0390-5003-5273
381
383
1
0402
0390-5004-2343
GEN. DIODE LL4148WP SMD 1206 L-F
0390-3006-7353
DIODE FAST 0.3A 100V LL4148 LL-34 LF
0390-5004-2223
GEN. DIODE RLS4148NTE-11 SMD L-F
DUAL SURFACE DIODE BAV99 SMD (SOT-23) L-F
DUAL SURFACE DIODES BAV99-7-F SOT-23 L-F
0390-5003-5273
DUAL SURFACE DIODE BAV99 SMD (SOT-23) L-F
0390-5003-5293
DUAL SURFACE DIODES BAV99-7-F SOT-23 L-F
GEN. DIODE LL4148WP SMD 1206 L-F
DIODE FAST 0.3A 100V LL4148 LL-34 LF
0390-5004-2223
GEN. DIODE RLS4148NTE-11 SMD L-F
1
1
1
1
0390-5003-5293
0390-5004-2343
1
1
0390-5003-5273
0390-3006-7353
1
1
1
1
393
FB1
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
394
FB12
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
395
FB13
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
396
FB16
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
397
FB17
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
398
FB18
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
399
FB2
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
400
FB20
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
401
FB21
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
402
FB22
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
403
FB23
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
404
FB24
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
405
FB25
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
406
FB26
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
407
FB27
0130-0000-0055
RES. CF 0.0ohm 1/10W J 0603
1
CONFIDENTIAL – DO NOT COPY
Page 12-38
File No. SG-0182
ITEM
M/S
LOCATION
PART NO.
DESCRIPTION
Q’TY
408
FB28
0130-0000-0055
RES. CF 0.0ohm 1/10W J 0603
1
409
FB29
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
410
FB3
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
411
FB30
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
412
FB31
0130-0000-1858
RES. CF 0.0ohm 1/8W J 0805
1
413
FB32
0130-0000-1858
RES. CF 0.0ohm 1/8W J 0805
1
414
FB33
0130-0000-0055
RES. CF 0.0ohm 1/10W J 0603
1
415
FB34
0130-0000-0055
RES. CF 0.0ohm 1/10W J 0603
1
416
FB35
0130-0000-0055
RES. CF 0.0ohm 1/10W J 0603
1
417
FB36
0130-0000-0055
RES. CF 0.0ohm 1/10W J 0603
1
418
FB37
0130-0000-0055
RES. CF 0.0ohm 1/10W J 0603
1
419
FB39
0130-0000-0055
RES. CF 0.0ohm 1/10W J 0603
1
420
FB4
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
421
FB40
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
422
FB42
0130-0000-0055
RES. CF 0.0ohm 1/10W J 0603
1
423
FB43
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
424
FB45
0130-4700-0055
RES. CF 470ohm 1/10W J 0603
1
425
FB46
0130-4700-0055
RES. CF 470ohm 1/10W J 0603
1
426
FB47
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
427
FB48
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
428
FB5
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
429
FB51
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
430
FB53
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
431
FB54
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
432
FB55
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
433
FB56
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
434
FB57
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
435
FB58
0130-0000-0055
RES. CF 0.0ohm 1/10W J 0603
1
436
FB59
0130-0000-0055
RES. CF 0.0ohm 1/10W J 0603
1
437
FB6
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
438
FB65
0130-0000-1858
RES. CF 0.0ohm 1/8W J 0805
1
439
FB7
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
440
FB8
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
441
FB9
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
442
F1
0185-1302-0073
FUSE 125V/3A SMD (R451003)
443
F3
0185-1202-0073
FUSE 125V/2A SMD (R45102) L-F
1
LF
1
444
F4
0130-0000-1858
RES. CF 0.0ohm 1/8W J 0805
1
445
J2
0303-1007-0504
1
J3
0303-1000-0304
449
J6
0302-2000-1301
450
L1
0370-0000-6952
CONN. B TO FPC FH12-50S-0.5SH(55) LF 50PIN
CONN. B TO FPC 0.5mm 50P 90' SMD
(AF7501-N2G1Z) L-F
CONN. B TO FPC FH12-30S-0.5SH
CONN. B TO FPC 0.5mm 30P 90' SMD
(AF7301-N2G1Z) L-F
CONN MALE R/A 30P SMD DF14-30P-1.25H(26)
L-F
CHIP BEAD CORE 1.5uH (MLI-201209-1R5K)
451
L11
0130-2208-0055
RES. CF 2.2ohm 1/10W J 0603
1
452
L12
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
453
L13
0370-2022-9620
CHIP COIL 2.2uH 15mA 0603 (MLF1608A2R2KT)
1
454
L14
0370-2022-9620
CHIP COIL 2.2uH 15mA 0603 (MLF1608A2R2KT)
1
455
L17
0370-2022-9620
CHIP COIL 2.2uH 15mA 0603 (MLF1608A2R2KT)
1
456
L21
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
457
L3
0370-0000-6952
CHIP BEAD CORE 1.5uH (MLI-201209-1R5K)
1
446
SS
447
448
0303-1007-0507
SS
0303-1007-0307
1
1
1
458
L5
0130-0000-1858
RES. CF 0.0ohm 1/8W J 0805
1
459
L7
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
460
L8
0130-0000-0055
RES. CF 0.0ohm 1/10W J 0603
1
461
L9
0370-0001-4773
CHIP BEAD CORE 80ohm (MCB1608H800GA) LF
1
462
P1
0304-1000-0110
CONN. HDMI 19P 90' SMD With Flange L-F
1
463
QA1
0410-5000-5710
TRANSISTOR MMBT3906LT1G SOT-23 L-F
1
0410-5000-5711
TRANSISTOR PMBS3906 SMD LF
0410-5000-5610
TRANSISTOR MMBT3904LT1G SOT-23 L-F
464
465
SS
QA2
CONFIDENTIAL – DO NOT COPY
1
Page 12-39
File No. SG-0182
ITEM
M/S
LOCATION
PART NO.
DESCRIPTION
Q’TY
466
SS
0410-5000-5611
467
SS
0410-5000-5622
TRANSISTOR MMBT3904 NL SOT-23 L-F
0410-5000-5610
TRANSISTOR MMBT3904LT1G SOT-23 L-F
468
QA3
TRANSISTOR PMBS3904 SMD T LF
469
SS
0410-5000-5611
TRANSISTOR PMBS3904 SMD T LF
470
SS
0410-5000-5622
0420-1004-9611
TRANSISTOR MMBT3904 NL SOT-23 L-F
MOSFET N-CH 2N7002E-T1-E3 SMD (SOT-23)
L-F
MOSFET N-CH 2N7002LT1G 60V 115mA SMD
(SOT-23) LF
MOSFET N-CH 2N7002 SMD (SOT-23) LF
MOSFET N-CH 2N7002E-T1-E3 SMD (SOT-23)
L-F
MOSFET N-CH 2N7002LT1G 60V 115mA SMD
(SOT-23) LF
MOSFET N-CH 2N7002 SMD (SOT-23) LF
MOSFET N-CH 2N7002E-T1-E3 SMD (SOT-23)
L-F
MOSFET N-CH 2N7002LT1G 60V 115mA SMD
(SOT-23) LF
MOSFET N-CH 2N7002 SMD (SOT-23) LF
MOSFET N-CH 2N7002E-T1-E3 SMD (SOT-23)
L-F
MOSFET N-CH 2N7002LT1G 60V 115mA SMD
(SOT-23) LF
MOSFET N-CH 2N7002 SMD (SOT-23) LF
0410-5000-5610
TRANSISTOR MMBT3904LT1G SOT-23 L-F
0410-5000-5611
TRANSISTOR PMBS3904 SMD T LF
471
QF1
0420-1004-9621
472
SS
0420-1004-9610
473
SS
0420-1004-9611
474
QF2
0420-1004-9621
475
SS
0420-1004-9610
476
SS
0420-1004-9611
477
QF3
478
SS
479
SS
480
SS
482
SS
483
0420-1004-9611
SS
485
SS
486
Q12
487
SS
488
SS
489
Q13
490
SS
491
SS
492
Q14
493
SS
494
SS
495
Q15
496
SS
497
SS
498
Q16
499
SS
500
SS
501
Q17
502
SS
503
SS
504
Q2
505
SS
506
SS
507
Q25
508
SS
509
SS
510
Q26
511
SS
512
SS
513
Q3
514
SS
515
SS
516
Q4
517
SS
518
SS
519
Q5
SS
0420-1004-9621
0420-1004-9610
Q10
484
520
0420-1004-9610
QF4
481
0420-1004-9621
0410-5000-5622
TRANSISTOR MMBT3904 NL SOT-23 L-F
0410-5000-5610
TRANSISTOR MMBT3904LT1G SOT-23 L-F
0410-5000-5611
TRANSISTOR PMBS3904 SMD T LF
0410-5000-5622
TRANSISTOR MMBT3904 NL SOT-23 L-F
0410-5000-5610
TRANSISTOR MMBT3904LT1G SOT-23 L-F
0410-5000-5611
TRANSISTOR PMBS3904 SMD T LF
0410-5000-5622
TRANSISTOR MMBT3904 NL SOT-23 L-F
0410-5000-5610
TRANSISTOR MMBT3904LT1G SOT-23 L-F
0410-5000-5611
TRANSISTOR PMBS3904 SMD T LF
0410-5000-5622
TRANSISTOR MMBT3904 NL SOT-23 L-F
0410-5000-5610
TRANSISTOR MMBT3904LT1G SOT-23 L-F
0410-5000-5611
TRANSISTOR PMBS3904 SMD T LF
0410-5000-5622
TRANSISTOR MMBT3904 NL SOT-23 L-F
0410-5000-5610
TRANSISTOR MMBT3904LT1G SOT-23 L-F
0410-5000-5611
TRANSISTOR PMBS3904 SMD T LF
0410-5000-5622
TRANSISTOR MMBT3904 NL SOT-23 L-F
0410-5000-5610
TRANSISTOR MMBT3904LT1G SOT-23 L-F
0410-5000-5611
TRANSISTOR PMBS3904 SMD T LF
0410-5000-5622
TRANSISTOR MMBT3904 NL SOT-23 L-F
0410-5000-5610
TRANSISTOR MMBT3904LT1G SOT-23 L-F
0410-5000-5611
TRANSISTOR PMBS3904 SMD T LF
0410-5000-5622
TRANSISTOR MMBT3904 NL SOT-23 L-F
0410-5000-5610
TRANSISTOR MMBT3904LT1G SOT-23 L-F
0410-5000-5611
TRANSISTOR PMBS3904 SMD T LF
0410-5000-5622
TRANSISTOR MMBT3904 NL SOT-23 L-F
0410-5000-5610
TRANSISTOR MMBT3904LT1G SOT-23 L-F
0410-5000-5611
TRANSISTOR PMBS3904 SMD T LF
0410-5000-5622
TRANSISTOR MMBT3904 NL SOT-23 L-F
0410-5000-5610
TRANSISTOR MMBT3904LT1G SOT-23 L-F
0410-5000-5611
TRANSISTOR PMBS3904 SMD T LF
0410-5000-5622
TRANSISTOR MMBT3904 NL SOT-23 L-F
0410-5000-5610
TRANSISTOR MMBT3904LT1G SOT-23 L-F
0410-5000-5611
TRANSISTOR PMBS3904 SMD T LF
0410-5000-5622
TRANSISTOR MMBT3904 NL SOT-23 L-F
0410-5000-5610
TRANSISTOR MMBT3904LT1G SOT-23 L-F
0410-5000-5611
TRANSISTOR PMBS3904 SMD T LF
CONFIDENTIAL – DO NOT COPY
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 12-40
File No. SG-0182
ITEM
521
M/S
LOCATION
SS
522
Q6
523
SS
524
SS
525
Q7
526
SS
527
SS
528
Q8
529
SS
530
SS
531
Q9
532
SS
533
SS
PART NO.
DESCRIPTION
Q’TY
0410-5000-5622
TRANSISTOR MMBT3904 NL SOT-23 L-F
0410-5000-5610
TRANSISTOR MMBT3904LT1G SOT-23 L-F
0410-5000-5611
TRANSISTOR PMBS3904 SMD T LF
0410-5000-5622
TRANSISTOR MMBT3904 NL SOT-23 L-F
0410-5000-5610
TRANSISTOR MMBT3904LT1G SOT-23 L-F
0410-5000-5611
TRANSISTOR PMBS3904 SMD T LF
0410-5000-5622
TRANSISTOR MMBT3904 NL SOT-23 L-F
0410-5000-5610
TRANSISTOR MMBT3904LT1G SOT-23 L-F
0410-5000-5611
TRANSISTOR PMBS3904 SMD T LF
0410-5000-5622
TRANSISTOR MMBT3904 NL SOT-23 L-F
0410-5000-5610
TRANSISTOR MMBT3904LT1G SOT-23 L-F
0410-5000-5611
TRANSISTOR PMBS3904 SMD T LF
0410-5000-5622
TRANSISTOR MMBT3904 NL SOT-23 L-F
1
1
1
1
534
RA1
0130-4702-0055
RES. CF 47Kohm 1/10W J 0603
1
535
RA10
0111-3102-5116
C/M MULTI 1000PF 50V X7R 0603
1
536
0112-3102-5116
C/M Multi. 1000PF 50V X7R 0603
537
SS
RA11
0130-4701-0055
RES. CF 4.7Kohm 1/10W J 0603
1
538
RA12
0130-4701-0055
RES. CF 4.7Kohm 1/10W J 0603
1
539
RA13
0130-3908-1858
RES. CF 3.9ohm
1/8W J 0805
1
540
RA14
0130-3908-1858
RES. CF 3.9ohm
1/8W J 0805
541
RA15
0130-4701-0055
RES. CF 4.7Kohm 1/10W J 0603
1
1
542
RA16
0130-1002-0055
RES. CF 10Kohm 1/10W J 0603
1
543
RA17
0130-1001-0055
RES. CF 1.0Kohm 1/10W J 0603
1
544
RA18
0130-1001-0055
RES. CF 1.0Kohm 1/10W J 0603
1
545
RA19
0130-4701-0055
RES. CF 4.7Kohm 1/10W J 0603
1
546
RA2
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
547
RA20
0130-4701-0055
RES. CF 4.7Kohm 1/10W J 0603
1
548
RA21
0130-3908-1858
RES. CF 3.9ohm
1/8W J 0805
1
549
RA22
0130-3908-1858
RES. CF 3.9ohm
1/8W J 0805
550
RA3
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
551
RA4
0130-1002-0055
RES. CF 10Kohm 1/10W J 0603
1
552
RA5
0130-1002-0055
RES. CF 10Kohm 1/10W J 0603
1
553
RA6
0130-1002-0055
RES. CF 10Kohm 1/10W J 0603
1
554
RA8
0130-1002-0055
RES. CF 10Kohm 1/10W J 0603
1
555
RA9
0111-3102-5116
C/M MULTI 1000PF 50V X7R 0603
1
0112-3102-5116
C/M Multi. 1000PF 50V X7R 0603
556
SS
1
557
RN10
0141-4709-3851
ARRAY RES. A(X) 47ohm 4R J 8P
1
558
RN11
0141-7509-3851
ARRAY RES. A(X) 75ohm 4R J 8P
1
559
RN12
0141-4709-3851
ARRAY RES. A(X) 47ohm 4R J 8P
1
560
RN13
0141-7509-3851
ARRAY RES. A(X) 75ohm 4R J 8P
1
561
RN14
0141-7509-3851
ARRAY RES. A(X) 75ohm 4R J 8P
1
562
RN15
0141-4709-3851
ARRAY RES. A(X) 47ohm 4R J 8P
1
563
RN16
0141-4709-3851
ARRAY RES. A(X) 47ohm 4R J 8P
1
564
RN17
0141-7509-3851
ARRAY RES. A(X) 75ohm 4R J 8P
1
565
RN18
0141-4709-3851
ARRAY RES. A(X) 47ohm 4R J 8P
1
566
RN19
0141-7509-3851
ARRAY RES. A(X) 75ohm 4R J 8P
1
567
RN2
0141-7509-3851
ARRAY RES. A(X) 75ohm 4R J 8P
1
568
RN20
0141-4709-3851
ARRAY RES. A(X) 47ohm 4R J 8P
1
569
RN21
0141-7509-3851
ARRAY RES. A(X) 75ohm 4R J 8P
1
570
RN22
0141-7509-3851
ARRAY RES. A(X) 75ohm 4R J 8P
1
571
RN23
0141-7509-3851
ARRAY RES. A(X) 75ohm 4R J 8P
1
572
RN26
0141-3309-3851
ARRAY RES. A(X) 33ohm 4R J 8P
1
573
RN27
0141-3309-3851
ARRAY RES. A(X) 33ohm 4R J 8P
1
574
RN28
0141-3309-3851
ARRAY RES. A(X) 33ohm 4R J 8P
1
575
RN29
0141-3309-3851
ARRAY RES. A(X) 33ohm 4R J 8P
1
576
RN30
0141-3309-3851
ARRAY RES. A(X) 33ohm 4R J 8P
1
577
RN31
0141-3309-3851
ARRAY RES. A(X) 33ohm 4R J 8P
1
578
RN32
0141-3309-3851
ARRAY RES. A(X) 33ohm 4R J 8P
1
579
RN33
0141-3309-3851
ARRAY RES. A(X) 33ohm 4R J 8P
1
CONFIDENTIAL – DO NOT COPY
Page 12-41
File No. SG-0182
ITEM
M/S
LOCATION
PART NO.
DESCRIPTION
Q’TY
580
RN34
0141-3309-3851
ARRAY RES. A(X) 33ohm 4R J 8P
1
581
RN35
0141-3309-3851
ARRAY RES. A(X) 33ohm 4R J 8P
1
582
RN36
0141-4701-3851
ARRAY RES. A(X) 4.7Kohm 4R J 8P
1
583
RN37
0141-4701-3851
ARRAY RES. A(X) 4.7Kohm 4R J 8P
1
584
RN38
0141-3309-3851
ARRAY RES. A(X) 33ohm 4R J 8P
1
585
RN39
0141-3309-3851
ARRAY RES. A(X) 33ohm 4R J 8P
1
586
RN4
0141-7509-3851
ARRAY RES. A(X) 75ohm 4R J 8P
1
587
RN40
0141-3309-3851
ARRAY RES. A(X) 33ohm 4R J 8P
1
588
RN41
0141-3309-3851
ARRAY RES. A(X) 33ohm 4R J 8P
1
589
RN42
0141-3309-3851
ARRAY RES. A(X) 33ohm 4R J 8P
1
590
RN6
0141-7509-3851
ARRAY RES. A(X) 75ohm 4R J 8P
1
591
RN7
0141-4709-3851
ARRAY RES. A(X) 47ohm 4R J 8P
1
592
RN8
0141-7509-3851
ARRAY RES. A(X) 75ohm 4R J 8P
1
593
RN9
0141-4709-3851
ARRAY RES. A(X) 47ohm 4R J 8P
1
594
R10
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
595
R100
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
596
R101
0130-1809-1654
RES. CF 18ohm 1/16W J 0402
1
597
R102
0130-1000-1654
RES. CF 100ohm 1/16W J 0402
1
598
R103
0130-1000-1654
RES. CF 100ohm 1/16W J 0402
1
599
R104
0130-5609-1654
RES. CF 56ohm 1/16W J 0402
1
600
R105
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
601
R106
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
602
R107
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
603
R108
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
604
R109
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
605
R110
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
606
R111
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
607
R112
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
608
R113
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
609
R115
0130-3309-1654
RES. CF 33ohm 1/16W J 0402
1
610
R117
0130-3309-1654
RES. CF 33ohm 1/16W J 0402
1
611
R12
0130-0000-1858
RES. CF 0.0ohm 1/8W J 0805
1
612
R120
0130-5600-1654
RES. CF 560ohm 1/16W J 0402
1
613
R121
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
614
R122
0130-4700-1654
RES. CF 470ohm 1/16W J 0402
1
615
R123
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
616
R124
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
617
R125
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
618
R126
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
619
R127
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
620
R128
0130-6802-1654
RES. CF 68Kohm 1/16W J 0402
1
621
R130
0130-3309-1654
RES. CF 33ohm 1/16W J 0402
1
622
R131
0130-3309-1654
RES. CF 33ohm 1/16W J 0402
1
623
R132
0130-4709-1654
RES. CF 47ohm 1/16W J 0402
1
624
R133
0130-2200-1654
RES. CF 220ohm 1/16W J 0402
1
625
R134
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
626
R136
0130-2200-1654
RES. CF 220ohm 1/16W J 0402
1
627
R137
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
628
R138
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
629
R139
0130-4709-1654
RES. CF 47ohm 1/16W J 0402
1
630
R14
0130-5600-1654
RES. CF 560ohm 1/16W J 0402
1
631
R140
0130-2200-1654
RES. CF 220ohm 1/16W J 0402
1
632
R141
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
633
R143
0130-2200-1654
RES. CF 220ohm 1/16W J 0402
1
634
R144
0130-4709-1654
RES. CF 47ohm 1/16W J 0402
1
635
R145
0130-2200-1654
RES. CF 220ohm 1/16W J 0402
1
636
R146
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
637
R149
0130-4703-1654
RES. CF 470Kohm 1/16W J 0402
1
638
R150
0130-4703-1654
RES. CF 470Kohm 1/16W J 0402
1
639
R151
0130-4703-1654
RES. CF 470Kohm 1/16W J 0402
CONFIDENTIAL – DO NOT COPY
1
Page 12-42
File No. SG-0182
ITEM
M/S
LOCATION
PART NO.
DESCRIPTION
Q’TY
640
R152
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
641
R153
0130-4703-1654
RES. CF 470Kohm 1/16W J 0402
1
642
R154
0130-4709-1654
RES. CF 47ohm 1/16W J 0402
1
643
R155
0130-2200-1654
RES. CF 220ohm 1/16W J 0402
1
644
R156
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
645
R159
0130-4703-1654
RES. CF 470Kohm 1/16W J 0402
1
646
R16
0130-3300-1654
RES. CF 330ohm 1/16W J 0402
1
647
R160
0130-4703-1654
RES. CF 470Kohm 1/16W J 0402
1
648
R161
0130-4703-1654
RES. CF 470Kohm 1/16W J 0402
1
649
R162
0130-4703-1654
RES. CF 470Kohm 1/16W J 0402
1
650
R163
0130-4703-1654
RES. CF 470Kohm 1/16W J 0402
1
651
R164
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
652
R165
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
653
R166
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
654
R168
0130-5601-1654
RES. CF 5.6Kohm 1/16W J 0402
1
655
R169
0130-5601-1654
RES. CF 5.6Kohm 1/16W J 0402
1
656
R17
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
657
R170
0130-5601-1654
RES. CF 5.6Kohm 1/16W J 0402
1
658
R171
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
659
R172
0130-1003-1654
RES. CF 100Kohm 1/16W J 0402
1
660
R173
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
661
R174
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
662
R175
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
663
R176
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
664
R178
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
665
R18
0130-0000-1858
RES. CF 0.0ohm 1/8W J 0805
1
666
R180
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
667
R181
0130-5601-1654
RES. CF 5.6Kohm 1/16W J 0402
1
668
R182
0130-5601-1654
RES. CF 5.6Kohm 1/16W J 0402
1
669
R183
0130-5601-1654
RES. CF 5.6Kohm 1/16W J 0402
1
670
R185
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
671
R186
0130-3902-1654
RES. CF 39 Kohm 1/16W J 0402
1
672
R187
0130-3902-1654
RES. CF 39 Kohm 1/16W J 0402
1
673
R188
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
674
R189
0130-1000-1654
RES. CF 100ohm 1/16W J 0402
1
675
R19
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
676
R190
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
677
R191
0130-1000-1654
RES. CF 100ohm 1/16W J 0402
1
678
R192
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
679
R193
0130-2209-1654
RES. CF 22ohm 1/16W J 0402
1
680
R194
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
681
R195
0130-4703-1654
RES. CF 470Kohm 1/16W J 0402
1
682
R196
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
683
R197
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
684
R198
0130-1000-1654
RES. CF 100ohm 1/16W J 0402
1
685
R199
0130-2209-1654
RES. CF 22ohm 1/16W J 0402
1
686
R2
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
687
R20
0130-4702-1654
RES. CF 47Kohm 1/16W J 0402
1
688
R200
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
689
R201
0130-1000-1654
RES. CF 100ohm 1/16W J 0402
1
690
R202
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
691
R203
0130-1000-1654
RES. CF 100ohm 1/16W J 0402
1
692
R204
0130-1000-1654
RES. CF 100ohm 1/16W J 0402
1
693
R205
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
694
R206
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
695
R207
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
696
R208
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
697
R209
0130-1000-1654
RES. CF 100ohm 1/16W J 0402
1
698
R21
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
699
R210
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
CONFIDENTIAL – DO NOT COPY
1
Page 12-43
File No. SG-0182
ITEM
M/S
LOCATION
PART NO.
DESCRIPTION
Q’TY
700
R211
0130-1000-1654
RES. CF 100ohm 1/16W J 0402
701
R212
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
1
702
R213
0130-1000-1654
RES. CF 100ohm 1/16W J 0402
1
703
R214
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
704
R215
0130-2209-1654
RES. CF 22ohm 1/16W J 0402
1
705
R217
0130-2200-1654
RES. CF 220ohm 1/16W J 0402
1
706
R218
0130-1000-1654
RES. CF 100ohm 1/16W J 0402
1
707
R219
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
708
R22
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
709
R220
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
710
R221
0130-1000-1654
RES. CF 100ohm 1/16W J 0402
1
711
R222
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
712
R223
0130-2209-1654
RES. CF 22ohm 1/16W J 0402
1
713
R224
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
714
R225
0130-2200-1654
RES. CF 220ohm 1/16W J 0402
1
715
R226
0130-1000-1654
RES. CF 100ohm 1/16W J 0402
1
716
R227
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
717
R228
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
718
R229
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
719
R23
0130-5600-1654
RES. CF 560ohm 1/16W J 0402
1
720
R231
0130-1000-1654
RES. CF 100ohm 1/16W J 0402
1
721
R232
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
722
R233
0130-1000-1654
RES. CF 100ohm 1/16W J 0402
1
723
R234
0130-2202-1654
RES. CF 22Kohm 1/16W J 0402
1
724
R235
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
725
R236
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
726
R237
0130-2202-1654
RES. CF 22Kohm 1/16W J 0402
1
727
R238
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
728
R239
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
729
R24
0130-1003-1654
RES. CF 100Kohm 1/16W J 0402
1
730
R240
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
731
R241
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
732
R242
0130-1001-1654
RES. CF 1Kohm 1/16W J 0402
1
733
R243
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
734
R244
0130-4703-1654
RES. CF 470Kohm 1/16W J 0402
1
735
R245
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
736
R246
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
737
R247
0130-1001-1654
RES. CF 1Kohm 1/16W J 0402
1
738
R248
0130-1001-1654
RES. CF 1Kohm 1/16W J 0402
1
739
R249
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
740
R250
0130-1000-1654
RES. CF 100ohm 1/16W J 0402
1
741
R251
0130-1000-1654
RES. CF 100ohm 1/16W J 0402
1
742
R252
0130-4702-1654
RES. CF 47Kohm 1/16W J 0402
1
743
R253
0130-4709-1654
RES. CF 47ohm 1/16W J 0402
1
744
R254
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
745
R255
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
746
R256
0130-4709-1654
RES. CF 47ohm 1/16W J 0402
1
747
R257
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
748
R258
0130-4702-1654
RES. CF 47Kohm 1/16W J 0402
1
749
R259
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
750
R260
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
751
R261
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
752
R262
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
753
R263
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
754
R264
0130-1000-1654
RES. CF 100ohm 1/16W J 0402
1
755
R266
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
756
R27
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
757
R271
0130-1001-1654
RES. CF 1Kohm 1/16W J 0402
1
758
R273
0130-1001-1654
RES. CF 1Kohm 1/16W J 0402
1
CONFIDENTIAL – DO NOT COPY
Page 12-44
File No. SG-0182
ITEM
M/S
LOCATION
PART NO.
DESCRIPTION
Q’TY
759
R274
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
760
R275
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
761
R277
0130-3301-1654
RES. CF 3.3Kohm 1/16W J 0402
1
762
R278
0130-1001-1654
RES. CF 1Kohm 1/16W J 0402
1
763
R279
0130-1001-1654
RES. CF 1Kohm 1/16W J 0402
1
764
R28
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
765
R280
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
766
R283
0130-3301-1654
RES. CF 3.3Kohm 1/16W J 0402
1
767
R284
0130-3309-1654
RES. CF 33ohm 1/16W J 0402
1
768
R285
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
769
R286
0130-3309-1654
RES. CF 33ohm 1/16W J 0402
1
770
R287
0130-3309-1654
RES. CF 33ohm 1/16W J 0402
1
771
R288
0130-3309-1654
RES. CF 33ohm 1/16W J 0402
1
772
R289
0130-3309-1654
RES. CF 33ohm 1/16W J 0402
1
773
R29
0130-3301-1654
RES. CF 3.3Kohm 1/16W J 0402
1
774
R290
0130-3309-1654
RES. CF 33ohm 1/16W J 0402
1
775
R292
0130-3309-1654
RES. CF 33ohm 1/16W J 0402
1
776
R293
0130-3309-1654
RES. CF 33ohm 1/16W J 0402
1
777
R294
0130-3309-1654
RES. CF 33ohm 1/16W J 0402
1
778
R295
0130-3309-1654
RES. CF 33ohm 1/16W J 0402
1
779
R296
0130-3309-1654
RES. CF 33ohm 1/16W J 0402
1
780
R297
0130-3309-1654
RES. CF 33ohm 1/16W J 0402
1
781
R298
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
782
R299
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
783
R3
0130-5600-1654
RES. CF 560ohm 1/16W J 0402
1
784
R30
0130-4709-1654
RES. CF 47ohm 1/16W J 0402
1
785
R304
0130-4700-1654
RES. CF 470ohm 1/16W J 0402
1
786
R305
0130-4700-1654
RES. CF 470ohm 1/16W J 0402
1
787
R306
0130-4700-1654
RES. CF 470ohm 1/16W J 0402
1
788
R307
0130-4700-1654
RES. CF 470ohm 1/16W J 0402
1
789
R308
0130-4700-1654
RES. CF 470ohm 1/16W J 0402
1
790
R309
0130-4700-1654
RES. CF 470ohm 1/16W J 0402
1
791
R31
0130-4709-1654
RES. CF 47ohm 1/16W J 0402
1
792
R310
0130-4700-1654
RES. CF 470ohm 1/16W J 0402
1
793
R311
0130-4700-1654
RES. CF 470ohm 1/16W J 0402
1
794
R312
0130-4700-1654
RES. CF 470ohm 1/16W J 0402
1
795
R313
0130-4700-1654
RES. CF 470ohm 1/16W J 0402
1
796
R314
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
797
R316
0130-1000-1654
RES. CF 100ohm 1/16W J 0402
1
798
R317
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
799
R318
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
800
R319
0130-1001-1654
RES. CF 1Kohm 1/16W J 0402
1
801
R320
0130-4700-1654
RES. CF 470ohm 1/16W J 0402
1
802
R321
0130-1009-1654
RES. CF 10ohm 1/16W J 0402
1
803
R322
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
804
R327
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
805
R328
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
806
R329
0130-1001-1654
RES. CF 1Kohm 1/16W J 0402
1
807
R33
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
808
R330
0130-8201-1654
RES. CF 8.2Kohm 1/16W J 0402
1
809
R331
0130-4702-1654
RES. CF 47Kohm 1/16W J 0402
1
810
R332
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
811
R333
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
812
R334
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
813
R335
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
814
R336
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
815
R34
0130-6802-1654
RES. CF 68Kohm 1/16W J 0402
1
816
R340
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
817
R341
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
818
R342
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
CONFIDENTIAL – DO NOT COPY
1
Page 12-45
File No. SG-0182
ITEM
M/S
LOCATION
PART NO.
DESCRIPTION
Q’TY
819
R343
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
820
R344
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
821
R345
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
822
R346
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
823
R347
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
824
R348
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
825
R349
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
826
R35
0130-1001-1654
RES. CF 1Kohm 1/16W J 0402
1
827
R366
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
828
R367
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
829
R369
0130-1000-1654
RES. CF 100ohm 1/16W J 0402
1
830
R37
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
831
R370
0130-2702-1654
RES. CF 27Kohm 1/16W J 0402
1
832
R371
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
833
R372
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
834
R373
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
835
R374
0130-2702-1654
RES. CF 27Kohm 1/16W J 0402
1
836
R375
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
837
R376
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
838
R378
0130-4702-1654
RES. CF 47Kohm 1/16W J 0402
1
839
R379
0130-4702-1654
RES. CF 47Kohm 1/16W J 0402
1
840
R38
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
841
R382
0130-5101-1654
RES. CF 5.1Kohm 1/16W J 0402
1
842
R383
0130-5101-1654
RES. CF 5.1Kohm 1/16W J 0402
1
843
R39
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
844
R42
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
845
R43
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
846
R44
0130-4709-1654
RES. CF 47ohm 1/16W J 0402
1
847
R45
0130-4709-1654
RES. CF 47ohm 1/16W J 0402
1
848
R46
0130-4709-1654
RES. CF 47ohm 1/16W J 0402
1
849
R47
0130-4709-1654
RES. CF 47ohm 1/16W J 0402
1
850
R48
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
851
R50
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
852
R52
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
853
R53
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
854
R54
0130-2209-1654
RES. CF 22ohm 1/16W J 0402
1
855
R55
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
856
R56
0130-2209-1654
RES. CF 22ohm 1/16W J 0402
1
857
R57
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
858
R58
0130-2209-1654
RES. CF 22ohm 1/16W J 0402
1
859
R59
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
860
R6
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
861
R60
0130-2209-1654
RES. CF 22ohm 1/16W J 0402
1
862
R61
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
863
R62
0130-2209-1654
RES. CF 22ohm 1/16W J 0402
1
864
R63
0130-7509-1654
RES. CF 75ohm 1/16W J 0402
1
865
R65
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
866
R67
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
867
R7
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
868
R70
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
869
R71
0130-1004-1654
RES. CF 1Mohm 1/16W J 0402
1
870
R73
0130-2700-1654
RES. CF 270 ohm 1/16W J 0402
1
871
R74
0130-2700-1654
RES. CF 270 ohm 1/16W J 0402
1
872
R75
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
873
R76
0130-0000-1654
RES. CF 0ohm 1/16W J 0402
1
874
R77
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
875
R79
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
876
R8
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
877
R80
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
CONFIDENTIAL – DO NOT COPY
Page 12-46
File No. SG-0182
ITEM
M/S
LOCATION
PART NO.
DESCRIPTION
Q’TY
878
R81
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
879
R82
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
880
R86
0130-1000-1654
RES. CF 100ohm 1/16W J 0402
1
881
R87
0130-1000-1654
RES. CF 100ohm 1/16W J 0402
1
882
R88
0130-1809-1654
RES. CF 18ohm 1/16W J 0402
1
883
R89
0130-5609-1654
RES. CF 56ohm 1/16W J 0402
1
884
R9
0130-4701-1654
RES. CF 4.7Kohm 1/16W J 0402
1
885
R90
0130-1809-1654
RES. CF 18ohm 1/16W J 0402
1
886
R91
0130-5609-1654
RES. CF 56ohm 1/16W J 0402
1
887
R97
0130-1001-1654
RES. CF 1Kohm 1/16W J 0402
1
888
R98
0130-1001-1654
RES. CF 1Kohm 1/16W J 0402
1
889
R99
0130-1002-1654
RES. CF 10Kohm 1/16W J 0402
1
890
U1
0430-3004-3011
IC AT24C16AN-10SU-2.7 SO-8 L-F
1
891
U10
0430-3039-3645
1
892
U11
0430-7039-9629
896
U13
0430-6010-9028
IC MX29LV160CTTC-70G 48PIN TSOP LF
IC DDR 8Mx16 V58C2128164SBI6 66PIN TSOP-II
LF
IC DDR 8Mx16 M13S128168A-6TG 66PIN TSOPII
LF
IC DDR 8Mx16 V58C2128164SBI6 66PIN TSOP-II
LF
IC DDR 8Mx16 M13S128168A-6TG 66PIN TSOPII
LF
IC G2996F1Uf 8PIN SOP-8(FD) LF
897
U14
0430-6002-8079
IC AP1117E25LA SOT-223 L-F
1
898
U15
0430-6009-7051
1
899
U16
0430-7041-6999
900
U17
0430-3039-6011
IC AMC1117-1.8SKFT SMD 3PIN (SOT-223)L-F
IC HDMI CINEMA RECEIVER MT8293AE-L 128Pin
QFP LF
IC AT24C02BN-10SU-1.8 8Pin SOIC L-F
901
U18
0430-3039-6011
IC AT24C02BN-10SU-1.8 8Pin SOIC L-F
1
902
U19
0420-1005-4601
POWER MOS IRF7316TRPBF SMD 8PIN LF
1
903
U2
0420-1005-4601
POWER MOS IRF7316TRPBF SMD 8PIN LF
1
904
U20
0430-3006-0619
IC MM1492AF 44PIN SOP-44B
1
905
U21
0430-3006-1065
1
893
SS
894
895
0430-8003-3663
U12
SS
0430-7039-9629
0430-8003-3663
1
1
1
1
1
907
U22
0430-7027-3699
IC IDTQS3VH257Q 3.3V QSOP 16PIN
IC IDTQS3VH257QG 3.3V QSOP 16PIN (Green
Parts)
IC WM8776SEFT 48PIN TQFP L-F
908
U23
0430-3006-9011
IC AT24C04N-10SU-2.7 SO-8 L-F
1
909
U24
0430-3006-1065
1
906
SS
0430-3009-6065
1
911
U26
0430-7033-3016
IC IDTQS3VH257Q 3.3V QSOP 16PIN
IC IDTQS3VH257QG 3.3V QSOP 16PIN (Green
Parts)
IC ASM809MEURF-T 4.38V SOT23 LF
912
U28
0430-1008-6088
IC NJM4558M-TE2_PB SO8(DMP8) L-F
1
1
910
SS
913
914
0430-3009-6065
U4
SS
0430-6013-4072
IC N2596SG-ADJ 3A 150KHZ TO-263-5L LF
0430-6015-2099
IC MSP1250-ADJS 3A 150KHZ TO-263-5L LF
1
915
U5
0430-6009-7051
IC AMC1117-1.8SKFT SMD 3PIN (SOT-223)L-F
1
916
U7
0420-1005-4601
POWER MOS IRF7316TRPBF SMD 8PIN LF
1
917
U9
0430-7027-4999
IC MT8205 388PIN BGA
1
918
ZDA1
0400-0941-2012
1
919
ZDA2
0400-0601-5012
ZENER RLZ-10B 9.41~9.90V 1/2W LL-34 L-F
ZENER 6.06~6.33V UDZSTE-176.2BB 1/5W
SOD-323
CONFIDENTIAL – DO NOT COPY
1
Page 12-47
File No. SG-0182
CONFIDENTIAL – DO NOT COPY
Page 12-48
File No. SG-0182
A
B
C
D-MT8205AMT1V1
MT8205E (PBGA388) LCDTV
4
3
01. INDEX & POWER CONNECTOR
02. MT8205 DIGITAL POWER
03. MT8205 ANALOG POWER
04. MT8205 PBGA 388
05. DDR MEMORY & FLASH
06. DVI INPUT - SiI169B
07. VIDEO / AUDIO INPUT
08. TV & DTV INPUT
09. AV SWITCH - MM1492
10. VIDEO INPUT
11. AUDIO OUT
12. LVDS OUT & KEYPAD
D
BOARD 4 LAYERS
Rev
E
History
P#
Date
AMT1_V1
2004/09/23
Amtran 37"_V1
2005/05/24
4
POWER IN
POWERSW
R2
0
R3
560
GPIO
STBY HIGH → POWER OFF
J1
GPIO
5VSB
BL_ON/OFF
PWM_DIM
13
12
11
10
9
8
7
6
5
4
3
2
1
GND
GND
GND
GND
+
GND
PWR_12V F1
CE1
220uF/16V
+
CE2
100uF/16V
CB1
0.1uF
0402C
CB2
0.1uF
0402C
SCL
SDA
DV120B
3A/125V
SCL_5V
SDA_5V
+
13x1 W/HOUSING
W200-8A
CE3
CB4
220uF/16V
0.1uF
0402C
PWM_DIM
BL_ON/OFF
SYSTEM EEPROM
I2C Level Shifter
5VSB
U1
CB3
0.1uF
0402C
1
2
3
4
NC
NC
NC
GND
VCC
WP
SCL
SDA
8
7
6
5
SCL_5V
SDA_5V
SCL_5V
SCL
SDA
4,6,11
4,6,11
SCL_5V
SDA_5V
8,9,13
8,9,13
PWM_DIM
12
3
BL_ON/OFF 12
GND
GND
Change to 4.7K ohm
5VSB
2
2,4
DV120B
5VSB
DV33A
2,8,11
DV120B
2,4,7,12,14 5VSB
2,3,4,6,7,9,10,11,12 DV33A
2,3,4,5,6,7,8,10,12,13,14
GPIO
DV33A
DV33A
R6
R7
R8
R9
4.7K
4.7K
4.7K
4.7K
QF1
3
SCL
1
2
EEPROM 24C16
SOIC8
2
2N7002
2N7002
QF2
3
SDA
1
2
SDA_5V
2N7002
2N7002
NOTE :
NC MEANS "NOT CONNECTED ON PCB BOARD"
ALL RESISTORS 0402 WATT,5% UNLESS NOTED.
ALL RESISTORS VALUES IN OHMS UNLESS NOTED.
ALL CAPACITORS 50 VOLT & 105"C UNLESS NOTED.
ALL CAPACITOR VALUES IN uF UNLESS NOTED.
ALL RESISTORS 25 VOLT IN .1uF UNLESS NOTED.
M= METAL 1%
APPROVED BY:
1
GNDV
AUDIO GND
GNDA
ANALOGGND
GNDS
GND
VIDEO GND
MODEL
DIGITAL GND
CHECKED BY:
DESING BY:
A
B
AmTRAN
C
D
VIZIO L32 HDTV10A_MTK (3320-0102-0150)
CIRCUITY
PCB P/ N:
ECN NO:
SCH FILE :
PCB FILE :
TECHNOLOGY
INDEX & POWER CONNECTOR
L32HDTV_MTKM0.DSN
1
Sheet
REV:
PCB REV:
VINC-M3.PCB
DATE:
0171-2272-1973
APCN05080010
E
of 14
00
03
Monday, March 13, 2006
1
A
B
C
D
E
MT8205 DIGITAL POWER & DECOUPLING
DV50A L15
3.5x6x1.0
DV33A
VIN
GNG
CB11
0.1uF
0402C
220uF/16V
Low ESR
6
3
+ CE9
4
OUT
2
FB
4
ON
1
0805L
TabGND
L16
NC
DV18A
U5
DV33A
U4
5
DV120B
L4
LM2596S-3.3
LM2596
L23
R16
330
70uH
R14
560
CB8
NC
F3
2A/125V
5VSB
DV50A
5VSB
+
3.5x6x1.0
D2
3
CE10
1000uF/16V
Low ESR
R18
0
1
CB9
0.1uF
0402C
DV50A
CB12
0.1uF
0402C
L5
IN
ADJ/GND
R15
AZ1086D-1.8
1085
NC
R17
0
1
IN
2
+
CE11
220uF/16V
OUT
L7
ADJ/GND
UTC78D09A
1085
CB13
0.1uF
0402C
+
80ohm
TU_V50
+
CB14
0.1uF
0402C
+
CB27
0.1uF
0402C
CE18
220uF/16V
CE13
220uF/16V
CB15
0.1uF
0402C
CB28
0.1uF
0402C
CB16
0.1uF
0402C
12
13
13
7
7
CB17
0.1uF
0402C
DV33A
DV120B
5VSB
LVDS-VDD
Q11
R11
R12
0/N.C 0805
0/0805
Q20
R127
LVDS-SEQ
High = > STANDBY POWER ON
Low = > STANDBY POWER OFF
+
10K
CB25
0.1uF
0402C
CB26
0.1uF
0402C
8
7
6
5
D1
D1
D2
D2
P-CH
IRF7316
Dual P-Ch
R20
3
3
10K
CB24
0.1uF
0402C
+
CE17
CB7
22uF/16V
0.1uF
0402C
DV18A
0402 PUT ON NEARLY BGA
DV18A
DV18A
Q10
1
R10
S1
G1
S2
G2
47K
2N3904
R152
3
CB23
0.1uF
0402C
1
2
3
4
R19
10K
R128
2
P-CH
DV33A
U7
8
7
6
5
D1
D1
D2
D2
IRF7316
10K
R129 10K/N.C
S1
G1
S2
G2
GND
GND
DV50B
PNP BCE
U19
1
2
3
4
GPIO
5VSB
PNP BCE
4
0402 PUT ON NEARLY BGA
增加Q20
GPIO R21
CE16
0.01uF/50V
10K
2
R22
10K
0402 PUT ON NEARLY BGA
DV18A
47K
CB29
0.1uF
0402C
Q3
2N3904
2N3904-SOT23
1
3
1,4
4
4
4
LVDS-VDD
DV120-ATSC
DV50-ATSC
DV50-CR
DV33A-CR
LVDS-VDD
DV120-ATSC
DV50-ATSC
DV50-CR
DV33A-CR
1,3,4,5,6,7,8,10,12,13,14
GPIO
LVDS-SEQ
ATSC-SW
CR-SW
DV120B
AV_V90
5VSB
DV50A
DV50B
TU_V50
DV33A
DV18A
DV120B
AV_V90
5VSB
DV50A
DV50B
TU_V50
DV33A
DV18A
DV50A
TU_V50
0805L
CE12
220uF/16V
1,8,11
9
1,4,7,12,14
3,6,7
5,7,9,11
8
1,3,4,6,7,9,10,11,12
3,4
DV50A
FOR Tuner
DV50B
AV_V90
3
GPIO
LVDS-SEQ
ATSC-SW
CR-SW
CB10
0.1uF
0402C
Adj：1.25x(1+300/680)
1.25x(1+300/680)=1.8V
SB560
AV_V90
U6
DV120B
DV18A
0805L
CE8
220uF/16V
+
Adj：1.23x(1+R2/R1)
1.23x(1+1.69K/1K)=3.3V
DV120B
0/0805
2
OUT
+
CB30
0.1uF
0402C
CB31
0.1uF
0402C
CB32
0.1uF
0402C
C3
0.1uF
0402C
C4
0.1uF
0402C
CE19
0.1uF/50V
High = > STANDBY POWER ON
Low = > STANDBY POWER OFF
2
ATSC POWER
DV120B
DV120-ATSC
Q22
PNP BCE
CARD READER POWER
DV120B
Q16
2N3904
2N3904-SOT23
2
R124 CB93
10K
CE105
S1
G1
S2
G2
10K
P-CH
D1
D1
D2
D2
8
7
6
5
DV50-ATSC
R38047K
High = > STANDBY POWER ON
Low = > STANDBY POWER OFF
CR-SW
R324
10K
2
IRF7316
+
2N3904-SOT23 CE107
R325 CB183
0.1uF/50V
0.1uF
0402C
1
2
3
4
Q18
2N3904
1
3
10K
1
2
3
4
3
R37847K
1
ATSC-SW
PNP BCE
R326
U2
10K
R121
Q24
DV33A
R123
High = > STANDBY POWER ON
Low = > STANDBY POWER OFF
2
DV33A
S1
G1
S2
G2
P-CH
D1
D1
D2
D2
DV50-CR
0805L
L2580ohm
0805L
CB184
0.1uF
IRF7316
+
DV33A-CR
L2480ohm
8
7
6
5
CB185
0.1uF
0402C
0.1uF/50V
0.1uF
0402C
10K
U3
Q23
0402C
PNP BCE
5VSB
5VSB
5VSB
Q21
R125
10K
1
PNP BCE
10K
10K
1
CB95
R210 CB94
0.1uF
0402C
10K
0.1uF
0402C
R339
+ CE106
CB186
0.01uF/50V
0.1uF
0402C
3
Q17
2N3904
2N3904-SOT23
2
R38147K
10K
R338 CB182
0.1uF
0402C
10K
NC MEANS "NOT CONNECTED ON PCB BOARD"
ALL RESISTORS 0402 WATT,5% UNLESS NOTED.
ALL RESISTORS VALUES IN OHMS UNLESS NOTED.
ALL CAPACITORS 50 VOLT & 105"C UNLESS NOTED.
ALL CAPACITOR VALUES IN uF UNLESS NOTED.
ALL RESISTORS 25 VOLT IN .1uF UNLESS NOTED.
M= METAL 1%
APPROVED BY:
Q19
2N3904
2N3904-SOT23
2
1
3
R37947K
R126
NOTE :
R337
5VSB
+ CE108
CHECKED BY:
DESING BY:
A
B
C
AmTRAN
MODEL
0.1uF/50V
D
1
TECHNOLOGY
VIZIO L32 HDTV10A_MTK (3320-0102-0150)
CIRCUITY MT8205 DIGITAL POWER
PCB P/ N:
ECN NO:
SCH FILE :
PCB FILE :
L32HDTV_MTKM0.DSN
2 of 14
Sheet
00
REV:
03
PCB REV:
VINC-M3.PCB
DATE:
0171-2272-1973
APCN05080010
E
Monday, March 13, 2006
A
B
C
D
E
MT8205 ANALOG POWER AND DECOUPLING
DACVREF
DACFS
FOR DACVDD
ADCPLLVDD1
DACVREF
4
DACFS
4
ADCPLLVDD1 4
DV33A
DV33A
4
CE20
10uF/16V
+
FB1
ADCPLLVDD
DACVDD
80ohm
CB34
0.1uF
0402
C7
1uF
CE21
10uF/16V
+
CB33
0.1uF
0402
ADCPLLVDD 4
4
APLLVDD
APLLVDD
4
DACVSS
DACVDD
C8
1uF
DACVREF
CB35
0.1uF
0402
DACFS
C9
0.1uF/NC
0402
ANALOGVDD
DACVSS
VPLLVDD
LVDDA
R23
560
DACVSS
DACVDD
R24
FOR ADCVDD
DV33A
DV50A
3
3
IN
1
ADJ/GND
CB39
0.1uF/N.C
0402
80ohm
OUT
C11
27pF
0402
0805L
R25
100/NC
AZ1117D-3.3/adj/NC
1085
DV18A
27MHz/20PF
ADC_VDD
80ohm/NC
DV18A
XTALO
ADC_VDD
L10
2
AVCM
XTALI
0805L
U8
FB2
80ohm
C13
1uF
C12
27pF
0402
SYSPLLGND
CB38
0.1uF
0402C
CB40
0.1uF
0402
CB41
0.1uF
0402
DV33A
FB3
Adj：1.25x(1+R2/R1)
1.25x(1+180/110)=3.3V
80ohm
R27
APLL_CAP
+ CE27
22uF/16V
ADCGND
C15
0.1uF
C16
1500pF
0402
C17
1uF
SYSPLLGND
CB43
0.1uF
0402C
AUXTOP
AUXBOTTOM
REXTA
ANALOGVDD
+
CE28
47uF/16V
ADC_VDD
C18
1uF
SYSPLLGND
80ohm
PWM2VREF
ADCPLLVDD
0
SYSPLLGND
APLL_CAP
CB51
0.1uF
0402C
XTALI
XTALO
ADCVDD0
CB44
0.1uF
0402C
CB45
0.1uF
0402C
CB46
0.1uF
0402C
R28
CB47
0.1uF
0402C
CB52
1uF
APLLVDD
0
LVSSA
+ CE29
22uF/16V
ADCGND
VPLLVSS
C19
1uF
CB53
0.1uF
0402C
CB57
0.1uF
0402C
SYSPLLGND
ADCGND
SYSPLLGND
DACVSS
2
ADCVDD0
FB5
ADCVDD
80ohm
ADC_VDD
FB56
ADCGND
C20
1uF
FB6
CB55
0.1uF
0402C
80ohm
CB22
0.1uF
0402C
ADCVSS
GND
FB57
C21
1uF
CB21
0.1uF
0402C
80ohm
ADCVSS4
DV33A
ADCVSS4
FB7
80ohm
VPLLVDD
C24
1uF
PWM2VREF
CE30
47uF/16V
C23
0.1uF
0402
CB58
0.1uF
0402C
ADCVSS
+
CE31
47uF/16V
4
DACVDD
4
AVCM
4
VOCM
VICM
4
4
VREFP4
VREFN4
4
4
ADCVDD0
4
PWM2VREF 4
AUXTOP
4
AUXBOTTOM 4
REXTA
4
APLL_CAP
4
XTALI
XTALO
4
4
VPLLVSS
4
LVSSA
4
SYSPLLGND 4
ADCGND
4
DACVSS
4
ADCVDD4
4
ADCVSS4
4
2
2,6,7
1,2,4,6,7,9,10,11,12
2,4
1,2,4,5,6,7,8,10,12,13,14
DV50A
DV33A
DV18A
DV50A
DV33A
DV18A
GND
GND
VPLLVDD
C26
1uF
VICM
CB67
0.1uF
0603C
VPLLVSS
DV33A
DV33A
FB8
LVDDA
80ohm
+
C25
0.1uF
0402C
1
CB61
0.1uF
0402C
VPLLVSS
+
CB60
0.1uF
0402
ADCVDD
ADCVDD4
80ohm
ADCVDD4
CB54
0.1uF
0402C
VOCM
CB59
0.1uF
0402
4
3
VREFP4
VREFN4
ADCVDD0
CE25
220uF/16V
R26
0/NC
FB4
VOCM
VICM
ADCPLLVDD1
SYSPLLGND
+
AVCM
4
LVDDA
100K
Y1
L9
CE24
100uF/16V/NC
VPLLVDD
DACVSS
ADCVDD
+
ANALOGVDD 4
CE32
47uF/16V
CB62
0.1uF
0402C
CB63
0.1uF
0402C
CB64
0.1uF
0402C
LVSSA
VREFP4
CB66
1uF
TP1
CB68
1uF
LVDDA
FB12
80ohm
R30
47
AUXTOP
R31
47
AUXBOTTOM
CB69
1uF
VREFN4
NOTE :
CB65
0.1uF
0402C
REXTA
R29
3.3K
VPLLVSS
FB9
FB10
FB11
FB13
FB14
FB15
FB16
FB17
FB18
FB19
80ohm
80ohm
80ohm
80ohm
80ohm
80ohm
80ohm
80ohm
80ohm
80ohm
LVSSA
SYSPLLGND
TP2
ADCGND
DACVSS
NC MEANS "NOT CONNECTED ON PCB BOARD"
ALL RESISTORS 0402 WATT,5% UNLESS NOTED.
ALL RESISTORS VALUES IN OHMS UNLESS NOTED.
ALL CAPACITORS 50 VOLT & 105"C UNLESS NOTED.
ALL CAPACITOR VALUES IN uF UNLESS NOTED.
ALL RESISTORS 25 VOLT IN .1uF UNLESS NOTED.
M= METAL 1%
1
APPROVED BY:
CHECKED BY:
DESING BY:
A
B
C
AmTRAN
MODEL
D
TECHNOLOGY
VIZIO L32 HDTV10A_MTK (3320-0102-0150)
CIRCUITY MT8205 ANALOG POWER
PCB P/ N:
ECN NO:
SCH FILE :
PCB FILE :
L32HDTV_MTKM0.DSN
3 of 14
Sheet
00
REV:
03
PCB REV:
VINC-M3.PCB
DATE:
0171-2272-1973
APCN05080010
E
Monday, March 13, 2006
C
D
E
TP5
TP6
B
TP3
TP4
A
TP9
TP11
TP12
TP13
TP14
3
VGAVSYNC#
VGAHSYNC#
GND
DV18A
SYSPLLGND
ADCPLLVDD1
ADCPLLVDD
SYSPLLGND
SYSPLLGND
ANALOGVDD
MON0
MON1
ADCVDD0
REDRED+
GREENGREEN+
VGASOG
BLUEBLUE+
ADCGND
ADCVDD0
VOCM
ADCGND
VICM
ADCVDD0
CRCR+
CBCB+
YY+
SOY
ADCGND
ADCGND
ADCVDD0
ANALOGVDD
XTALO
XTALI
SYSPLLGND
APLL_CAP
SYSPLLGND
APLLVDD
ANALOGVDD
SYSPLLGND
VI0
VI1
VI2
VI3
VI4
VI5
VI6
DV18A
VI7
VI8
VI9
VI10
VI11
GND
VI12
VI13
VI14
VI15
GND
VI16
VI17
VI18
VI19
VI20
VI21
VI22
VI23
DVIODCK
VGAHSYNC#
VGAVSYNC#
VFEVDD1
ADCVDD4
SIF
AF
ADCVSS4
REFP4
REFN4
ADCVSS
ADIN4
ADIN3
ADIN2
ADIN1
ADIN0
ADCVDD
PWM2VREF
AUXVTOP
AUXVBOTTOM
VPLLVSS
VPLLVDD
DLLVDD
DLLVSS
BGVSS
REXTA
BGVDD
LVDDA
A7P
A7N
CLK2P
CLK2N
LVSSA
A6P
A6N
A5P
A5N
LVDDB
A4P
A4N
A3P
A3N
LVSSB
CLK1P
CLK1N
A2P
A2N
LVDDC
A1P
A1N
A0P
A0N
LVSSC
DACVDDC
VREF
FS
DACVSSC
SVM
DACVDDB
DACVSSB
DACVDDA
G
DACVSSA
B
R
DE
VSYNCO
HSYNCO
VCLK
EBO7
EBO6
EBO5
EBO4
DVDD3I
EBO3
EBO2
EBO1
EBO0
EGO7
DVSS18
EGO6
EGO5
EGO4
EGO3
EGO2
EGO1
EGO0
ERO7
ERO6
ERO5
DVDD18
ERO4
ERO3
ERO2
DVSS3
ERO1
ERO0
OBO7
OBO6
OBO5
DE_DVI
VSYNC_DVI
HSYNC_DVI
DVDD18
AOSDATA0
AOSDATA1
AOSDATA2
DVDD3I
AOSDATA3
LIN
AOBCK
AOLRCK
AOMCLK
DVSS3
DQ24
DQ25
DQ26
DVDD2
DQ27
DQ28
DVSS2
DQ29
DVDD2
DQ30
DQ31
DQS3
DQM1
DVSS18
DQS2
DQ23
DQ22
DVSS2
DQ21
DQ20
DVDD18
DQ19
DVDD2
DQ18
DQ17
DQ16
RA4
DVSS2
RA5
RA6
RA7
RA8
DVSS18
RA9
RA11
CKE
DVDD2
RCLK
RCLKB
DVSS2
RA3
RA2
RA1
RA0
RA10
BA1
DVDD2I
DVDD18
BA0
RCS#
RAS#
DVSS2
CAS#
RWE#
DQ8
DQ9
DQ10
DVDD2
DQ11
DVSS18
DQ12
DQ13
DVSS2
DQ14
DQ15
DQS1
AVSS18
AVDD18
RVREF
DVSS18
DQM0
DQS0
DQ7
DVDD2
DQ6
DQ5
DVSS2
DQ4
DQ3
DVDD2
DQ2
DQ1
DQ0
MT8205
C24
D24
A24
Y24
A25
A26
B26
F23
B25
B24
C26
C25
E24
N15
G26
G25
F26
F24
F25
E26
N16
E25
G24
D26
D25
H25
H26
P14
J25
J26
K25
P16
K26
L25
AA24
L26
H24
M25
M26
N25
J23
R16
J24
K23
K24
L23
R14
L24
M23
N26
H23
P26
P25
P15
M24
N23
N24
R26
P24
P23
U23
AA23
R24
R23
T24
R15
T23
U24
W26
V25
V26
V23
U25
T13
U26
T25
T15
T26
R25
W25
W23
Y23
G23
T16
Y26
Y25
AA26
V24
AA25
AB26
T14
AB25
AC26
W24
AC25
AD26
AD25
DVIDE
DVIVSYNC
DVIHSYNC
DV18A
AOSDATA0
AOSDATA1
AOSDATA2
DV33A
AOSDATA3
DOUT
DACBCLK
DACLRC
DACMCLK
GND
A_DQ24
A_DQ25
A_DQ26
DV25
A_DQ27
A_DQ28
GND
A_DQ29
DV25
A_DQ30
A_DQ31
A_DQS3
A_DQM1
GND
A_DQS2
A_DQ23
A_DQ22
GND
A_DQ21
A_DQ20
DV18A
A_DQ19
DV25
A_DQ18
A_DQ17
A_DQ16
A_RA4
GND
A_RA5
A_RA6
A_RA7
A_RA8
GND
A_RA9
A_RA11
A_CKE
DV25
A_CLK
A_CLK#
GND
A_RA3
A_RA2
A_RA1
A_RA0
A_RA10
A_BA1
DV25
DV18A
A_BA0
A_CS#
A_RAS#
GND
A_CAS#
A_WE#
A_DQ8
A_DQ9
A_DQ10
DV25
A_DQ11
GND
A_DQ12
A_DQ13
GND
A_DQ14
A_DQ15
A_DQS1
GND
DV18A
VREF
GND
A_DQM0
A_DQS0
A_DQ7
DV25
A_DQ6
A_DQ5
GND
A_DQ4
A_DQ3
DV25
A_DQ2
A_DQ1
A_DQ0
CVBS2+
CVBS2-
SC+
SC-
TP8
TP10
SOY
Y+
YCB+
CBCR+
CR-
DACBCLK
DACMCLK
DACLRC
AOSDATA1
AP[0..7]
AN[0..7]
CLK1+
CLK1CLK2+
CLK2-
UP1_2
UP1_3
UP1_4
UP1_5
UP3_0
UP3_1
PWM0
PWM1
GPIO
LVDS-SEQ
ATSC-SW
ORO0
RGBSEL
ORO6
CR-SW
OGO0
OGO1
OGO2
OGO3
OGO4
DV33A
DV33A
DV18A
DV18A
GND
UP3_5 FOR S/W SDA
UP3_4 FOR S/W SCL
UP3_5
UP3_4
R36
R37
0
0
TP28
OGO6
OGO7
5VSB
U26
2
SDA
SCL
DACBCLK
IN
3
ADJ/GND
1
OUT
ASM809
R113
4
3
B
C
10
10
CVBS2+
CVBS2-
10
10
SY+
SY-
10
10
SC+
SC-
10
10
SOY
10
Y+
Y-
10
10
CB+
CB-
10
10
CR+
CR-
10
10
11
AOSDATA1
11
AP[0..7]
AN[0..7]
12
12
CLK1+
CLK1-
12
12
CLK2+
CLK2-
12
12
ANALOGVDD
ADCPLLVDD
ADCPLLVDD1
APLLVDD
SYSPLLGND
VPLLVDD
VPLLVSS
ADCVDD0
ADCGND
ADCVDD
DACVDD
DACVSS
LVDDA
LVSSA
AUXTOP
AUXBOTTOM
REXTA
APLL_CAP
PWM2VREF
AVCM
VOCM
VICM
11
11
11
DOUT
XTALI
XTALO
ADCVDD4
ADCVSS4
URST#
READY#
REQUEST#
VREFP4
VREFN4
10K
R35
1K
D
UP1_2
9
UP1_3
6,13
UP1_4
7
UP1_5
11
UP3_0
12
UP3_1
6
PWM0
12
PWM1
11
A_DQS[0..3]
A_RA[0..11]
A_BA[0..1]
A_DQM[0..1]
A_DQ[0..31]
A_CLK
A_CLK#
A_CKE
A_CS#
A_RAS#
A_CAS#
A_WE#
GPIO
1,2
LVDS-SEQ
2
ATSC-SW
2
DV25
VREF
F_A[0..21]
PCE#
F_OE#
PWR#
F_D[0..7]
1,6,11
1,6,11
IR
7,12,14
TxD
RxD
12
12
XTALI
XTALO
3
3
ANALOGVDD 3
ADCPLLVDD 3
ADCPLLVDD1 3
APLLVDD
3
SYSPLLGND 3
VPLLVDD
VPLLVSS
3
3
ADCVDD0
ADCGND
ADCVDD
3
3
3
DACVDD
DACVSS
3
3
LVDDA
LVSSA
3
3
AUXTOP
3
AUXBOTTOM 3
REXTA
3
APLL_CAP
3
PWM2VREF 3
AVCM
VOCM
VICM
3
3
3
ADCVDD4
ADCVSS4
3
3
URST#
READY#
REQUEST#
13
13
13
VREFP4
VREFN4
3
3
DACFS
DACVREF
3
3
A_DQS[0..3]
A_RA[0..11]
A_BA[0..1]
A_DQM[0..1]
A_DQ[0..31]
5
5
5
5
5
A_CLK
A_CLK#
A_CKE
A_CS#
A_RAS#
A_CAS#
A_WE#
5
5
5
5
5
5
5
DV25
VREF
5
5
3
F_A[0..21]
5
PCE#
F_OE#
PWR#
5
5
5
F_D[0..7]
5
ORO4
7
RGBSEL
10
VI[0..23]
VI[0..23]
6,13
DVIODCK
DVIDE
ORO6
7,11
CR-SW
2
OGO0
6,13
OGO1
6,13
OGO2
6,13
OGO3
6,13
OGO5
12
OGO6
7
OGO7
6,7
OBO[0..7]
12
DVIHSYNC
DVIVSYNC
MPX2
VGASCL
VGASDA
FCLK
FCMD
I2C_SW
1,2,7,12,14
1,2,3,6,7,9,10,11,12
6
2,3
DVIODCK
DVIDE
6,13
6,13
DVIHSYNC
DVIVSYNC
6,13
6,13
MPX1
8
MPX2
10
VGASCL
VGASDA
7
7
FCLK
FCMD
I2C_SW
13
5VSB
DV33A
DV18A
5VSB
DV33A
DV18A
GND
GND
NC MEANS "NOT CONNECTED ON PCB BOARD"
ALL RESISTORS 0402 WATT,5% UNLESS NOTED.
ALL RESISTORS VALUES IN OHMS UNLESS NOTED.
ALL CAPACITORS 50 VOLT & 105"C UNLESS NOTED.
ALL CAPACITOR VALUES IN uF UNLESS NOTED.
ALL RESISTORS 25 VOLT IN .1uF UNLESS NOTED.
M= METAL 1%
APPROVED BY:
C14
AmTRAN
MODEL
CHECKED BY:
4
2
6,7
1,2,3,5,6,7,8,10,12,13,14
NOTE :
DESING BY:
A
10
10
CVBS1+
CVBS1-
INT0#
0.1u
1=3
SW-DIP4
10
10
TxD
RxD
OGO4
OGO5
INT0#
SW1
2
1
BLUE+
BLUE-
ORO3
ORO4
R33 4.7K
R34
68K
10
10
SCL
SDA
ORO2
ORO3
BGA388
MT8205
ICE
TP29
GREEN+
GREEN-
ORO1
ORO2
OBO[0..7]
AE2
AF1
AF2
AE3
AF3
AE4
AF4
AC5
T11
AD5
AE5
AF5
AC6
AD9
AD6
AE6
AF6
AC7
AD7
AD18
AE7
AF7
AC8
AD8
AF8
P12
AE9
AF9
AE10
AF10
AC11
AD11
AF12
AE15
AD15
AC19
AC15
AF16
AE16
R12
AD16
AC16
AF17
AD17
AD14
AE14
AF14
AF13
AE13
AD13
AC13
AE8
AC10
AC17
AE12
AD12
AE11
T12
AF11
AE17
F_OE#
AF15
WE#
AC12
PCE#
AC14
AF18
AE18
DV33A
AD10
AF19
UP1_2
AE19
UP1_3
AF20
UP1_4
AE20
DV18A
AD19
UP1_5
AD20
AC20
AF21
UP3_0
AE21
UP3_1
AD21
GND
P13
URST#
AC21
UP3_4
AD22
UP3_5
AC22
FCLK
AF22
FCMD
AE22
I2C_SW
AF23
GPIO
AE23
PWM0
AD23
PWM1
AC23
IR
AF24
RxD
AE24
TxD
AD24
GND
R13
ICE
AC24
LVDS-SEQ AF25
ATSC-SW AE25
VGASCL
AF26
VGASDA AE26
REQUEST# AB23
READY#
AB24
0
IR
ORO0
ORO1
DV33A
R96
SCL
SDA
10
10
DACFS
DACVREF
URST#
INT0#
10
RED+
RED-
DACBCLK
DACMCLK
DACLRC
DOUT
OBO4
OBO3
OBO2
OBO1
OBO0
OGO7
OGO6
OGO5
GND
OGO4
OGO3
OGO2
OGO1
DV33A
OGO0
CR-SW
ORO6
RGBSEL
ORO4
DV18A
ORO3
ORO2
ORO1
ORO0
F_A15
GND
F_A14
F_A13
F_A12
F_A11
F_A10
F_A9
F_A8
F_D0
F_D1
DV18A
F_D2
F_D3
F_D4
GND
F_D5
F_D6
F_D7
F_A0
F_A1
F_A2
F_A3
F_A4
F_A5
F_A6
F_A7
F_A16
DV33A
F_A17
F_A18
F_A19
F_A20
GND
F_A21
1
SY+
SY-
TP7
VGASOG
VGAHSYNC#
VGAVSYNC#
CVBS1+
CVBS1-
OBO4
OBO3
OBO2
OBO1
OBO0
OGO7
OGO6
OGO5
DVSS18
OGO4
OGO3
OGO2
OGO1
DVDD3
OGO0
ORO7
ORO6
ORO5
ORO4
DVDD18
ORO3
ORO2
ORO1
ORO0
HIGHA7
DVSS18
HIGHA6
HIGHA5
HIGHA4
HIGHA3
HIGHA2
HIGHA1
HIGHA0
AD0
AD1
DVDD18
AD2
AD3
AD4
DVSS3
AD5
AD6
AD7
IOA0
IOA1
IOA2
IOA3
IOA4
IOA5
IOA6
IOA7
A16
DVDD3I
A17
IOA18
IOA19
IOA20
DVSS18
IOA21
IOALE
IOOE#
IOWR#
IOCS#
WR#
RD#
DVDD3
INT0#
UP12
UP13
UP14
DVDD18
UP15
UP16
UP17
UP30
UP31
DVSS18
PRST#
UP34
UP35
FCICLK
FCICMD
FCIDAT
GPIO0
PWM0
PWM1
IR
RXD
TXD
DVSS3
ICE
SCL
SDA
SCL0
SDA0
SCL1
SDA1
2
C3
D3
C1
MPX2
C2
ADCVSS4
L11
VREFP4
D1
VREFN4
D2
ADCGND
F2
ADC_IN4
D4
ADC_IN3
E1
ADC_IN2
E2
ADC_IN1
E3
ADC_IN0
E4
ADCVDD
F1
PWM2VREF
F4
AUXTOP
F3
AUXBOTTOM
G3
VPLLVSS
J3
VPLLVDD
G4
VPLLVDD
H3
VPLLVSS
K3
VPLLVSS
K4
REXTA
J4
VPLLVDD
H4
LVDDA
L3
AP7
G2
AN7
G1
CLK2+
H2
CLK2H1
LVSSA
M12
AP6
J2
AN6
J1
AP5
K2
AN5
K1
LVDDA
L4
AP4
L2
AN4
L1
AP3
M2
AN3
M1
LVSSA
M11
CLK1+
N2
CLK1N1
AP2
P2
AN2
P1
LVDDA
M3
AP1
R2
AN1
R1
AP0
T2
AN0
T1
LVSSA
N12
DACVDD
N3
DACVREF
M4
DACFS
N4
DACVSS
N11
T4
DACVDD
P3
DACVSS
R3
DACVDD
P4
U4
DACVSS
R4
U3
V4
T3
U1
U2
V1
V2
V3
W1
W2
DV33A
AC9
W3
W4
Y1
Y2
Y3
GND
P11
Y4
AA1
AA2
AA3
AA4
AB1
AB2
AB3
AB4
AC1
DV18A
AC18
AC2
AC3
AC4
GND
R11
AD1
AD2
OBO7
AD3
OBO6
AD4
OBO5
AE1
BLUE+
BLUE-
2=4
ADCVDD4
ADCVDD4
GREEN+
GREEN-
VFEVSS1
AVCM
ADCVDD0
CVBS2N
CVBS2P
CVBS1N
CVBS1P
CVBS0N
CVBS0P
ADCVSS0
REFP0
REFN0
ADCVDD1
SCN
SCP
SYN
SYP
ADCVSS1
REFP1
REFN1
VFEVDD0
VOCM
VFEVSS0
VICM
ADCVDD2
CRN
CRP
CBN
CBP
YN
YP
SOY
ADCVSS2
REFP2
REFN2
MON0
MON1
ADCVDD3
RN
RP
GN
GP
SOG
BN
BP
ADCVSS3
REFP3
REFN3
VSYNC
HSYNC
DVSS
DVDD
ADCPLLVSS1
ADCPLLVDD1
ADCPLLVDD
ADCPLLVSS
SYSPLLVSS
SYSPLLVDD
TESTP
TESTN
XTALVDD
XTALO
XTALI
XTALVSS
APLL_CAP
APLLVSS
APLLVDD
DMPLLVDD
DMPLLVSS
VI0
VI1
VI2
VI3
VI4
VI5
VI6
DVDD18
VI7
VI8
VI9
VI10
VI11
DVSS3
VI12
VI13
VI14
VI15
DVSS18
VI16
VI17
VI18
VI19
VI20
VI21
VI22
VI23
VCLK_DVI
U9
4
SCSC+
SYSY+
CB19
0.1uF
RED+
RED-
L12
D5
C4
B1
A1
B2
A2
B3
A3
L13
B4
A4
C5
B5
A5
B6
A6
M13
D6
C6
D7
B7
N13
A7
C7
B8
A8
B9
A9
B10
A10
C8
D10
D9
C9
D11
C11
D8
B11
A11
B12
A12
D13
B13
A13
C10
D12
C12
C13
C14
N14
D14
L14
D15
C15
M14
L15
D16
B14
A14
C16
B15
A15
M15
A16
D18
D17
C17
C18
B16
A17
B17
A18
B18
C19
D19
E23
A19
B19
C20
D20
A20
L16
B20
C21
D21
A21
M16
B21
C22
D22
A22
B22
C23
D23
A23
B23
MPX1
ADCVSS4
AVCM
ADCVDD0
CVBS2CVBS2+
CVBS1CVBS1+
CVBS0CVBS0+
ADCGND
VGASOG
1
TECHNOLOGY
VIZIO L32 HDTV10A_MTK (3320-0102-0150)
CIRCUITY MT8205BGA388
PCB P/ N:
ECN NO:
SCH FILE :
PCB FILE :
L32HDTV_MTKM0.DSN
4
Sheet
REV:
PCB REV:
VINC-M3.PCB
DATE:
0171-2272-1973
APCN05080010
E
of 14
00
03
Monday, March 13, 2006
A
B
C
DV25
4
U11
A_RA3
A_RA2
A_RA1
A_RA0
RN1
7
5
3
1
22x4
8
6
4
2
D_RA3
D_RA2
D_RA1
D_RA0
A_RA4
A_RA5
A_RA6
A_RA7
RN3
7
5
3
1
22x4
8
6
4
2
D_RA4
D_RA5
D_RA6
D_RA7
RN5
A_RA8
7
A_RA9
5
A_RA11
3
1
22x4
8
6
4
2
D_RA8
D_RA9
D_RA11
A_RA10 R41
22
D_DQ0
D_DQ1
D_DQ2
D_DQ3
D_DQ4
D_DQ5
D_DQ6
D_DQ7
D_DQS0
D_RA10
D_DQM0
D_WE#
D_CAS#
D_RAS#
D_CS#
A_DQ0
A_DQ1
A_DQ2
A_DQ3
RN7
7
5
3
1
47x4
8
6
4
2
D_DQ0
D_DQ1
D_DQ2
D_DQ3
A_DQ4
A_DQ5
A_DQ6
A_DQ7
RN9
7
5
3
1
47x4
8
6
4
2
D_DQ4
D_DQ5
D_DQ6
D_DQ7
A_DQ8
A_DQ9
A_DQ10
A_DQ11
RN10
7
5
3
1
47x4
8
6
4
2
D_DQ8
D_DQ9
D_DQ10
D_DQ11
A_DQ12
A_DQ13
A_DQ14
A_DQ15
RN12
7
5
3
1
47x4
8
6
4
2
D_DQ12
D_DQ13
D_DQ14
D_DQ15
A_DQ16
A_DQ17
A_DQ18
A_DQ19
RN15
7
5
3
1
47x4
8
6
4
2
RN16
A_DQ20 7
A_DQ21 5
A_DQ22 3
A_DQ23 1
47x4
8
6
4
2
D_DQ20
D_DQ21
D_DQ22
D_DQ23
D_DQ19
D_DQ20
A_DQ24
A_DQ25
A_DQ26
A_DQ27
RN18
7
5
3
1
47x4
8
6
4
2
D_DQ24
D_DQ25
D_DQ26
D_DQ27
D_DQ23
A_DQ28
A_DQ29
A_DQ30
A_DQ31
RN20
7
5
3
1
47x4
8
6
4
2
D_DQ28
D_DQ29
D_DQ30
D_DQ31
A_DQS0
R44
47
D_DQS0
A_DQS1
R45
47
D_DQS1
A_DQS2
R46
47
D_DQS2
A_DQS3
R47
47
D_DQS3
D_BA0
D_BA1
D_RA10
D_RA0
D_RA1
D_RA2
D_RA3
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
D1V25
VDD
VSS
DQ0
DQ15
VDDQ
VSSQ
DQ1
DQ14
DQ2
DQ13
VSSQ
VDDQ
DQ3
DQ12
DQ4
DQ11
VDDQ
VSSQ
DQ5
DQ10
DQ6
DQ9
VSSQ
VDDQ
DQ7
DQ8
NC
NC
VDDQ
VSSQ
LDQS
UDQS
A13
DNU
VDD
VREF
DNU
VSS
LDM
UDM
WE
CK
CAS
CK
RAS
CKE
CS
NC
NC
A12
BA0
A11
BA1
A9
A10/AP
A8
A0
A7
DDR
A1
A6
A2
A5
A3 ?M x 16 A4
VDD
VSS
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
D_DQ15
D_DQ14
D_DQ13
D_DQ10
D_DQ9
D_DQ8
2
A_CS#
A_RAS#
A_CAS#
A_WE#
VREF
D_DQM0
D_CLK#
D_CLK
D_CKE
CB70
0.1uF
0402C
A_BA1
R49
22
D_BA1
A_BA0
R51
22
D_BA0
A_DQM0
R54
22
D_DQM0
A_DQM1
R56
22
D_DQM1
A_CKE
R58
22
D_CKE
A_CLK
R60
22
D_CLK
A_CLK#
R62
22
D_CLK#
RN4
8
6
4
2
75x4
7
5
3
1
D_RA11
D_RA9
D_RA8
RN6
2
4
6
8
75x4
1
3
5
7
DV33A
R42
10K
Q25
DL_SW1
1K
R278
2N3904
D12
1N4148
D_RA11
D_RA9
D_RA8
D_RA7
D_RA6
D_RA5
D_RA4
D_RA10
R43
D_DQ0
D_DQ1
D_DQ2
D_DQ3
RN8
7
5
3
1
75x4
8
6
4
2
D_DQ4
D_DQ5
D_DQ6
D_DQ7
RN11
7
5
3
1
75x4
8
6
4
2
D_DQ8
D_DQ9
D_DQ10
D_DQ11
RN13
7
5
3
1
75x4
8
6
4
2
D_DQ12
D_DQ13
D_DQ14
D_DQ15
RN14
7
5
3
1
75x4
8
6
4
2
D_DQ16
D_DQ17
D_DQ18
D_DQ19
RN17
2
4
6
8
75x4
1
3
5
7
D_DQ20
D_DQ21
D_DQ22
D_DQ23
RN19
2
4
6
8
75x41
3
5
7
D_DQ27
D_DQ26
D_DQ25
D_DQ24
RN21
1
3
5
7
75x4
2
4
6
8
D_DQ31
D_DQ30
D_DQ29
D_DQ28
RN22
1
3
5
7
75x4
2
4
6
8
D_RAS#
D_CS#
D_BA0
D_BA1
RN23
7
5
3
1
75x4
8
6
4
2
D13
75
E
D_DQ17
D_DQ18
D_DQ21
D_DQ22
D_DQS2
D_DQM1
D_WE#
D_CAS#
D_RAS#
D_CS#
D_BA0
D_BA1
D_RA10
D_RA0
D_RA1
D_RA2
D_RA3
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
VDD
VSS
DQ0
DQ15
VDDQ
VSSQ
DQ1
DQ14
DQ2
DQ13
VSSQ
VDDQ
DQ3
DQ12
DQ4
DQ11
VDDQ
VSSQ
DQ5
DQ10
DQ6
DQ9
VSSQ
VDDQ
DQ7
DQ8
NC
NC
VDDQ
VSSQ
LDQS
UDQS
A13
DNU
VDD
VREF
DNU
VSS
LDM
UDM
WE
CK
CAS
CK
RAS
CKE
CS
NC
NC
A12
BA0
A11
BA1
A9
A10/AP
A8
A0
A7
DDR
A1
A6
A2
A5
A3 ?M x 16 A4
VDD
VSS
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
D_DQ31
D_DQ30
D_DQ29
D_DQ28
D_DQ27
D_DQ26
D_DQ25
D_DQ24
D_DQS3
VREF
D_DQM1
D_CLK#
D_CLK
D_CKE
CB99
0.1uF
0402C
D_RA11
D_RA9
D_RA8
D_RA7
D_RA6
D_RA5
D_RA4
U10
F_A1
F_A2
F_A3
F_A4
F_A5
F_A6
F_A7
F_A8
F_A9
F_A10
F_A11
F_A12
F_A13
F_A14
F_A15
F_A16
F_A17
F_A18
25
24
23
22
21
20
19
18
8
7
6
5
4
3
2
1
48
17
15
9
10
26
28
11
F_A20
F_A21
PCE#
F_OE#
12
DV33A
R277
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
A16
A17
RY/BY
A19
A20
CE
OE
WE
D0
D1
D2
D3
D4
D5
D6
D7
D8
D9
D10
D11
D12
D13
D14
D15
A18
NC
WP/ACC
BYTE
29
31
33
35
38
40
42
44
30
32
34
36
39
41
43
45
16
13
14
47
VCC
37
GND1
GND2
27
46
F_D0
F_D1
F_D2
F_D3
F_D4
F_D5
F_D6
F_D7
A_DQS[0..3]
A_RA[0..11]
A_BA[0..1]
A_DQM[0..1]
A_DQ[0..31]
A_CLK
A_CLK#
A_CKE
A_CS#
A_RAS#
A_CAS#
A_WE#
DV33A
R38
10K
F_A0
F_A19
DV33A
DV50A
R39
0
DV25
VREF
R40
0/NC
F_D[0..7]
PCE#
F_OE#
PWR#
CB71
0.1uF
0402C
RESET
F_A[0..21]
MX29LV160 16Mb
28F400
WE#
A_DQS[0..3]
A_RA[0..11]
A_BA[0..1]
A_DQM[0..1]
A_DQ[0..31]
4
4
4
4
4
A_CLK
A_CLK#
A_CKE
A_CS#
A_RAS#
A_CAS#
A_WE#
4
4
4
4
4
4
4
DV25
VREF
4
4
F_D[0..7]
4
PCE#
F_OE#
PWR#
4
4
4
F_A[0..21]
4
4
3.3K
D1V25
D1V25
D1V25
D1V25
CB72
0.1uF
0402C
CB73
0.1uF
0402C
CB74
0.1uF
0402C
CB75
0.1uF
0402C
CB76
0.1uF
0402C
CB77
0.1uF
0402C
CB78
0.1uF
0402C
D1V25
C27
0.1uF
0402C
C28
0.1uF
0402C
C29
0.1uF
0402C
C30
0.1uF
0402C
DV33A
DV25
D_DQ16
PWR#
1N4148
M13L128168 8Mx16-6
D_DQ16
D_DQ17
D_DQ18
D_DQ19
D_CS#
D_RAS#
D_CAS#
D_WE#
D_RA4
D_RA5
D_RA6
D_RA7
D_DQS1
U12
22x4
8
6
4
2
75x4
8
6
4
2
D_DQ12
D_DQ11
M13L128168 8Mx16-6/ FOR ENTRY
RN24
7
5
3
1
RN2
7
5
3
1
D_RA0
D_RA1
D_RA2
D_RA3
DV25
3
D
DV25
D1V25
DV33A
CB79
0.1uF
0402C
CB80
0.1uF
0402C
CB81
0.1uF
0402C
CB82
0.1uF
0402C
CB83
0.1uF
0402C
CB84
0.1uF
0402C
CB85
0.1uF
0402C
C1
0.1uF
0402C
CE36
220uF/16V
CB86
0.1uF
0402C
CB87
0.1uF
0402C
CB88
0.1uF
0402C
CB89
0.1uF
0402C
CB90
0.1uF
0402C
CB91
0.1uF
0402C
C2
0.1uF
0402C
3
D1V25
D1V25
+
CE35
220uF/16V
+
DV25
DV25
CB100
0.1uF
0402C
CB101
0.1uF
0402C
CB102
0.1uF
0402C
CB103
0.1uF
0402C
CB104
0.1uF
0402C
CB105
0.1uF
0402C
CB106
0.1uF
0402C
CB107
0.1uF
0402C
CB109
0.1uF
0402C
CB110
0.1uF
0402C
CB111
0.1uF
0402C
CB112
0.1uF
0402C
CB113
0.1uF
0402C
CB114
0.1uF
0402C
CB115
0.1uF
0402C
DV25
DV25
CB108
0.1uF
0402C
2
R52
D1V25
TP15
4.7K
U13
1
2
3
4
D1V25
VREF
DV25
GND
VTT
SD
PVIN
VSENSE AVIN
VREF
VDDQ
8
7
6
5
LP2996 DDR Termination SOP8
CB116
0.1uF
0402C
CB117
0.1uF
0402C
+
CE38
220uF/16V
DV25
D_DQS2
R48
75
D_DQS3
R50
75
D_CAS#
R53
75
D_WE#
R55
75
D_DQM1
R57
75
D_DQS1
R59
75
D_DQS0
R61
75
D_DQM0
R63
75
DV25
CB123
0.1uF
0402C
CB124
0.1uF
0402C
CB125
0.1uF
0402C
CB126
0.1uF
0402C
CB127
0.1uF
0402C
CB128
0.1uF
0402C
CB129
0.1uF
0402C
2,7,9,11
1,2,3,4,6,7,8,10,12,13,14
DV50B
DV50B
GND
GND
DV25
DV25
VREF
VREF
CB118
0.1uF
0402C
CB119
0.1uF
0402C
CB121
0.1uF
0402C
CB122
0.1uF
0402C
DV50B
VREF
VREF DECOUPLING
VREF
NOTE :
DV25
U14
3
1
L22
3.5x6x1.0
1
+
CE43
220uF/16V
IN
OUT
ADJ/GND
AZ1085/2.5V
1085
DV25
2
R64
NC
+
CE39
220uF/16V
+
CE41
100uF/16V
+
CE42
100uF/16V
APPROVED BY:
CB131
0.1uF
0402C
CB132
0.1uF
0402C
B
AmTRAN
MODEL
R65
0
CHECKED BY:
DESING BY:
A
NC MEANS "NOT CONNECTED ON PCB BOARD"
ALL RESISTORS 0402 WATT,5% UNLESS NOTED.
ALL RESISTORS VALUES IN OHMS UNLESS NOTED.
ALL CAPACITORS 50 VOLT & 105"C UNLESS NOTED.
ALL CAPACITOR VALUES IN uF UNLESS NOTED.
ALL RESISTORS 25 VOLT IN .1uF UNLESS NOTED.
M= METAL 1%
C
D
1
TECHNOLOGY
VIZIO L32 HDTV10A_MTK (3320-0102-0150)
CIRCUITY DDR MEMORY&FLASH
PCB P/ N:
ECN NO:
SCH FILE :
PCB FILE :
L32HDTV_MTKM0.DSN
5
Sheet
REV:
PCB REV:
VINC-M3.PCB
DATE:
0171-2272-1973
APCN05080010
E
of 14
00
03
Monday, March 13, 2006
A
B
C
D
E
DV33A
P1
FB20
AVCC
80ohm
DV33A
+
CE44
10uF/16V
CB136
0.1uF
0402C
3
C43
0.1uF
0402C
1
CE45
100uF/16V
+
IN
OUT
L12
2
R66
CE46
220uF/16V
+
NC
CB138
0.1uF
L21
DV50A
0805L
CB36
0.1uF
IOVCC
80ohm
R67
0
4
+
CE47
10uF/16V
DATA1DATA0+
VCC18_1
80ohm
D4
1N4148/NC
Adj：1.25x(1+300/680)
1.25x(1+300/680)=1.8V
CB139
0.1uF
0402C
DATA0CLOCK+
CB37
0.1uF
CLOCK0/NC
R68
TP16
D5
HDMI_PLUGPWR
1N4148
HDDCSCL_IN
HDDCSDA_IN
PLUGPWR
DV33A
DV33A
DV33A
3
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
VCC18
XTLVCC
80ohm
+
CE49
10uF/16V
CB142
0.1uF
0402C
HDMII2CA
HDMISDA
HDMISCL
HDDCSDA
HDDCSCL
C46
0.01uF
0402C
PLUGPWR
VCC18_1
DV33A
HDMI_V33
FB25
PVCC
HDMI_V33
80ohm
+
CE50
10uF/16V
CB143
0.1uF
0402C
AVCC
CLOCKCLOCK+
C47
0.01uF
0402C
AVCC
DATA0DATA0+
AVCC
DATA1DATA1+
SDA
SCL
AVCC
DATA2DATA2+
HDMISDA
HDMISCL
270
270
R73
R74
CB48
CB49
QO2
QO1
QO0
CVCC18
CGND
CI2CA
CSDA
CSCL
DSDA
DSCL
NC
PWR5V
CVCC18
PGND
PVCC
RSVD
AVCC
RXCRXC+
AGND
AVCC
RX0RX0+
AGND
AVCC
RX1RX1+
AGND
AVCC
RX2RX2+
AGND
HDMIVSYNC
OGO7
HDMI TYPE-A
HDMI-19P
OGO0
OGO1
OGO2
OGO3
INT0#
22pF
0402C
HDMIHSYNC
HDMIDE
CB20
0.1uF
0402C
VCC18
HDMI0
HDMI1
HDMI2
HDMI3
DVIHSYNC
DVIVSYNC
4,13
4,13
SCL
SDA
1,4,11
1,4,11
UP3_1
4
OGO7
4,7
UP1_3
4,13
OGO0
OGO1
OGO2
OGO3
4,13
4,13
4,13
4,13
INT0#
4
W/EDID
ORO3
IOVCC
128
127
126
125
124
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
108
107
106
105
104
103
102
101
100
99
98
97
4,13
4,13
4
W/EDID
HSYNC
DE
CGND
CVCC18
QE0
QE1
QE2
QE3
IOVCC
ODCK
IOGND
QE4
QE5
QE6
QE7
CGND
CVCC18
QE8
QE9
QE10
QE11
IOVCC
IOGND
QE12
QE13
QE14
QE15
QE16
QE17
QE18
IOVCC
IOGND
4,13
DVIODCK
DVIDE
100/NC
UP1_3
R97
1K
VI[0..23]
100/NC
UP3_1
Q26
2N3904
ORO3
4,7
DVIL
DVIL GND
DVIR
DVIR GND
11
U23
1
2
3
4
IOVCC
ODCK
NC
NC
NC
GND
8
7
6
5
VCC
WP
SCL
SDA
KWP
HDCP_CLK
HDCP_SDA
2,3,7
1,2,3,4,7,9,10,11,12
DV50A
DV33A
DV50A
DV33A
1,2,3,4,5,7,8,10,12,13,14
EEPROM 24C04
HDMI4
HDMI5
HDMI6
HDMI7
GND
GND
HDMI_V33
VCC18
HDMI8
HDMI9
HDMI10
HDMI11
IOVCC
3
DVIL
DVIL GND
DVIR
DVIR GND
R70
4.7K
11
HDMII2CA
R71
HDMI12
HDMI13
HDMI14
HDMI15
HDMI16
HDMI17
HDMI18
IOVCC
R72
4.7K/NC
XTLI
1M
Y2
XTLO
28.224MHz
C48
C49
12pF
12pF
HDMI_V33
R75
4.7K
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
22pF
0402C
UP3_1
R84
R85
SCL
SDA
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
CB141
0.1uF
0402C
FB24
560/NC
DVIHSYNC
DVIVSYNC
HDDCSCL
HDDCSDA
U16
SiI 9011
REGVCC
80ohm
R69
HDMICAB
DVIODCK
DVIDE
R98
1K
QO3
IOVCC
IOGND
QO4
QO5
QO6
QO7
CGND
CVCC18
QO8
QO9
QO10
QO11
IOVCC
IOGND
QO12
QO13
QO14
Q015
CGND
CVCC18
QO16
QO17
QO18
QO19
IOVCC
IOGND
QO20
QO21
QO22
QO23
VSYNC
FB23
IOVCC
C44
0.1uF
0402C
VCC18
HDCP_CLK
HDCP_SDA
KWP
CB140
0.1uF
0402C
IOVCC
CE48
10uF/16V
IOVCC
+
VCC18
PVCC
80ohm
DGND
DVCC18
MUTE
IOVCC
IOGND
SPDIF
SD3
SD2
SD1
SD0
WS
SCK
IOVCC
IOGND
MCLK
CGND
CVCC18
AUDPVCC18
AUDPGND
XTALOUT
XTALIN
XTALVCC
REGVCC
RSVDL
RESET#
SCDT
INT
QE23
QE22
QE21
QE20
QE19
FB22
VI[0..23]
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
DATA2DATA1+
0805L
ADJ/GND
AZ1117D-1.8/adj/NC
1085
CB137
0.1uF
VCC18
80ohm
DV33A
FB21
DATA2+
VCC18
U15
DV33A
HDMI_PLUGPWR
R76
VCC
WP
SCL
SDA
8
7
6
5
R316
HDDCSCL_5V
HDDCSDA_5V
100
R315
NC
EEPROM 24C02
HDMIRST#
HDMISCDT
INT0#
HDMI23
HDMI22
HDMI21
HDMI20
HDMI19
XTLO
XTLI
XTLVCC
REGVCC
VCC18
VCC18_1
HDMIMCLK
0/NC
HDMI_V33
R77
4.7K
DV33A
INT0#
R283
W/EDID
3.3K
AVCC
CB144
0.1uF
0402C
I2C Level Shifter
HDMI_PLUGPWR
HDMI_V33
5V
HDMI_V33
CB145
0.1uF
0402C
CB146
0.1uF
0402C
3.3V
VCC18
R79
R80
10k/4.7k
10k/4.7k
QF3
3
R82
10k/4.7k
10k/4.7k
CB147
0.1uF
0402C
CB148
0.1uF
0402C
CB149
0.1uF
0402C
CB150
0.1uF
0402C
CB151
0.1uF
0402C
2N7002
N-MOSFET
R118
CB152
0.1uF
0402C
NC
CB153
0.1uF
0402C
CB154
0.1uF
0402C
CB155
0.1uF
0402C
P7
HDDCSDA
1
IOVCC
2N7002
N-MOSFET
R119
1
HDDCSCL_5V
HDDCSDA_IN
100
D7
BAV99
BAW99
HDMI_PLUGPWR
1
2
D6
BAV99
BAW99
1
NC
R87
HDMIMCLK
HDMIBCLK
HDMILRCK
HDMISDO
RN30
1
2
3
4
PLUGPWR
R116
0/NC
33x4
8
7
6
5
NC
CB157
0.1uF
0402C
CB158
0.1uF
0402C
CB159
0.1uF
0402C
UP1_3
OGO3
OGO1
OGO2
OGO0
UP3_1
CB161
0.1uF
0402C
CB162
0.1uF
0402C
CB163
0.1uF
0402C
DVIL
2
DVIR
R94
NC
C62
NC
0402C
R95
NC
R294
R295
R296
R297
33
33
33
33
HDMI0
HDMI1
HDMI2
HDMI3
RN26
2
4
6
8
33x4
1
3
5
7
VI0
VI1
VI2
VI3
HDMI4
HDMI5
HDMI6
HDMI7
RN27
2
4
6
8
33x4
1
3
5
7
VI4
VI5
VI6
VI7
HDMI8
HDMI9
HDMI10
HDMI11
RN28
2
4
6
8
33x4
1
3
5
7
VI8
VI9
VI10
VI11
HDMI12
HDMI13
HDMI14
HDMI15
RN29
2
4
6
8
33x4
1
3
5
7
VI12
VI13
VI14
VI15
HDMI16
HDMI17
HDMI18
HDMI19
RN31
2
4
6
8
33x4
1
3
5
7
VI16
VI17
VI18
VI19
HDMI20
HDMI21
HDMI22
HDMI23
RN32
2
4
6
8
33x4
1
3
5
7
VI20
VI21
VI22
VI23
UP3_1
1
RCA2
RCA-JK2
HDMIVSYNC
HDMIHSYNC
HDMIDE
ODCK
C63
NC
0402C
NOTE :
2
NC MEANS "NOT CONNECTED ON PCB BOARD"
ALL RESISTORS 0402 WATT,5% UNLESS NOTED.
ALL RESISTORS VALUES IN OHMS UNLESS NOTED.
ALL CAPACITORS 50 VOLT & 105"C UNLESS NOTED.
ALL CAPACITOR VALUES IN uF UNLESS NOTED.
ALL RESISTORS 25 VOLT IN .1uF UNLESS NOTED.
M= METAL 1%
IOVCC
HDMI_PLUGPWR
CB160
0.1uF
0402C
APPROVED BY:
CHECKED BY:
B
AmTRAN
MODEL
DESING BY:
A
DVIVSYNC
DVIHSYNC
DVIDE
DVIODCK
1
HDDCSDA_5V
3
100
3
R86
R83
0/NC
2
HDDCSCL_IN
CB156
0.1uF
0402C
5
3
4
2
3
R78
HDMISCDT
VCC18
QF4
HDDCSDA_5V
HDMICAB
HDDCSCL
1
2
HDDCSCL_5V
R81
OGO7
ORO3
TP18
TP19
TP20
TP21
NC
NC
NC
GND
IOVCC
VCC18
R314
4.7K
U17
1
2
3
4
TP17
C50
0.1uF
0402C
2
HDMISDO
HDMILRCK
HDMIBCLK
IOVCC
HDMIRST#
HDMI_PLUGPWR
C
D
TECHNOLOGY
VIZIO L32 HDTV10A_MTK (3320-0102-0150)
CIRCUITY HDMI INPUT-SiI9011
PCB P/ N:
ECN NO:
SCH FILE :
PCB FILE :
L32HDTV_MTKM0.DSN
6
Sheet
REV:
PCB REV:
VINC-M3.PCB
DATE:
0171-2272-1973
APCN05080010
E
of 14
00
03
Monday, March 13, 2006
A
B
C
D
E
AV1
AV1 / AV2 Input
L13
2.2uH
R88
18
AV1L
AV1R
VGA IN
AV1
AV1
9
AV1L
AV1R
9
9
3
AV1_IN
GNDV
AV2L
AV1L
9
GNDV
3
6
AV1R
AV2R
R89
56
FB26
FB27
0
P3
DV50A
L14
2.2uH
R90
18
AV2
C73
330pF
AV_GND
C74
330pF
R91
56
2
D11
BAV99/NC
RCA2X3
RCA-JK2X3
FB28
VGASDA_IN
12
HSYNC#
13
VSYNC#
14
VGASCL_IN
15
0
S2Y
S2C
AV2L
AV2R
D9
1N4148
1N4148
N.C
VGA_PLUGPWR
FB29
FB30
AV3
AV3 GND
AV3L
AV3L GND
AV3R
AV3R GND
VGA_PLUGPWR
VGAL
VGAR
VGA_PLUGPWR
CB164
0.1uF
U18
1
2
3
4
Y1_IN
R105
CB1_GND
R260
CB1_IN
0 DTVPB
9
CR1_GND
3
6
R262
CR1_IN
R264
100
GREEN
GRN_GND
CB1
CB1
CB1_GND
3
0
100pF
100pF
75
0
D15
BAV99
BAW99
DV50A
CR1_IN
75
R111
CR1
0
100
VGASCL
VGASDA_IN
R103
100
CR1
CR1_GND
VGASDA
YPBPR1L
YPBPR1R
3
100pF
FB35
R102
R100
10K
3
C145
VGASCL_IN
2
CB1_GND
R332
C144
R99
10K
C147
100pF
D16
BAV99
BAW99
VGA_PLUGPWR
1
75
R110
75
D18
BAV99
R333
C143
Y1
Y1_GND
VGA_PLUGPWR
2
TUR
R109
R112
75
D19
BAV99
RCA4
RCA-JK4
ORO4
HPOUTR
HPOUTL
TUL
TUR
VGA_PLUGPWR
C148
100pF
ORO3
DTVSY
2
1
CR1_GND
AV2L
AV2R
9
9
OGO4
SVDET#
4
9
9
9
9
VGASCL
VGASDA
4
4
VGAL
VGAR
11
11
HSYNC#
10
VSYNC#
10
RED
RED_GND
10
10
GREEN
GRN_GND
10
10
BLUE
BLU_GND
10
10
Y1
Y1_GND
9
9
CB1
CB1_GND
9
9
CR1
CR1_GND
9
9
YPBPR1L
YPBPR1R
9
9
ORO4
HPOUTR
HPOUTL
TUL
TUR
4
11
11
9
9
3
VGA_PLUGPWR
DTVPR
9
0
1
3
FB34
BLUE
BLU_GND
3
TUL
ORO3
DV50A
CB1_IN
0
R334
1
Y1_GND
5
4
6
YPBPR1R
RED
RED_GND
2
8
2
5
P10
2
VSYNC#
VGASCL
VGASDA
C146
100pF
2
0 DTVY
1
Y1_GND
R259
Y1_IN
RCA2X3
RCA-JK2X3
YPBPR1L
8
7
6
5
VCC
WP
SCL
SDA
EEPROM 24C02
R106
75
D17
BAV99
7
1
4
1
P8
3
NC
NC
NC
GND
3
YPBPR Input.
Y1
0
HSYNC#
R263
4.7K
9
S2Y
S2C
AV3
AV3 GND
AV3L
AV3L GND
AV3R
AV3R GND
VGASCL
VGASDA
80ohm
80ohm
AV2
4
OGO4
SVDET#
17
DV50A
AV2
DV50A
RED_GND
RED
GRN_GND
GREEN
BLU_GND
BLUE
D10
R92
6
1
7
2
8
3
9
4
10
5
11
AV2_IN
80ohm
D-SUB15 FEMALE
DHSL-15A
16
1
AV_GND
C72
330pF
3
RED/R
8
2
5
C71
330pF
D8
BAV99/NC
1
WHITE/L
4
AV_GND
AV2_IN
AV1_IN
7
1
4
2
P2
YELLOW/V
FB36
0
R
P5
DV50A
K1
K2
K3
K4
K5
L
DTVSC
1
2
3
4
5
PHONEJACK STEREO
PH-JK4
VGAL
UP1_4
VGAR
DTVY
DTVPB
DTVPR
C81
0.01uF
C82
0.01uF
R107
10K
R108
10K
ORO3
4,6
DTVSY
9
DTVSC
9
UP1_4
4
DTVY
DTVPB
DTVPR
9
9
9
2
2
G/Y
G/Y GND
B/U
B/U GND
R/V
R/V GND
LMAIN1
LMAIN1 GND
RMAIN1
RMAIN1 GND
J3A腳位修改如下
DV33A-CR
1
S1Y_IN
8302IR
8302NET1
8302NET2
8302RXD
8302TXD
GNDV
HPR
HPL
GNDV
HPDET#
AV3_IN
AV3_GND
AV3L
AV3L GND
AV3R
AV3R GND
S1Y_IN
S1Y_GND
S1C_IN
S1C_GND
SVDET2#
DTVSY
DV50-CR
2
DV33A-CR
L17
R299
75
2.2uH
FB59
S1Y_GND
R350
R351
0/NC
0/NC
0/NC
IR
OGO6
ORO2
S1C_IN
R327 0
C79
330pF
R101
AV3
18
D14
BAV99/NC
0
AV3_GND
C80
330pF
R104
56
2
DV50-CR
FB33
1,2,4,12,14 5VSB
2,3,6
DV50A
2,5,9,11 DV50B
2
DV50-CR
2
DV33A
2
DV33A-CR
0
DTVSC
DV50A
R352
R328
75
S1C_GND
R250
HPOUTR-IN
FB58
CE92
R253 47
0
220uF/16V
R243
2N3904
R254 4.7K
HPDET#
R244
470K
R245
10K
1,2,3,4,5,6,8,10,12,13,14
CE5
R335 4.7K
R331
SVDET2#
47k
R329 0
R251
HPOUTL-IN
UP1_4
CE93
R256 47
HPL
Q9
HPOUTR-IN
HPOUTR-IN GND
HPOUTL-IN
HPOUTL-IN GND
ORO6
DV50-CR
DV33A-CR
A
OGO6
ORO2
OGO6
4
ORO2
4,6
8302RXD
8302TXD
IR
100
HPOUTR-IN
11
HPOUTR-IN GND
HPOUTL-IN
11
HPOUTL-IN GND
ORO6
4,11
8302RXD
8302TXD
IR
B
220uF/16V
R246
2N3904
R336 4.7K
DV33A
R365
0/NC
UP1_5
R366
0
ORO6
R367
0
QA1-C
R114
GND
GND
ORO4
4.7K
5VSB
5VSB
DV50A
DV50B
DV50-CR
DV33A
DV33A-CR
DV50B
HPR
Q8
100
HEADER 30
2
AV3_IN
3
R298 0
+
G/Y
B/U
R/V
LMAIN1
RMAIN1
+
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
1
J3
G/Y
10
G/Y GND
B/U
10
B/U GND
R/V
10
R/V GND
LMAIN1
11
LMAIN1 GND
RMAIN1
11
RMAIN1 GND
2.2uF/50V
NC
NOTE :
NC MEANS "NOT CONNECTED ON PCB BOARD"
ALL RESISTORS 0402 WATT,5% UNLESS NOTED.
ALL RESISTORS VALUES IN OHMS UNLESS NOTED.
ALL CAPACITORS 50 VOLT & 105"C UNLESS NOTED.
ALL CAPACITOR VALUES IN uF UNLESS NOTED.
ALL RESISTORS 25 VOLT IN .1uF UNLESS NOTED.
M= METAL 1%
APPROVED BY:
AmTRAN
MODEL
4.7K
CHECKED BY:
R257 4.7K
12
12
4,12,14
DESING BY:
C
D
1
TECHNOLOGY
VIZIO L32 HDTV10A_MTK (3320-0102-0150)
CIRCUITY VIDEO / AUDIO INPUT
PCB P/ N:
ECN NO:
SCH FILE :
PCB FILE :
L32HDTV_MTKM0.DSN
7 of 14
Sheet
00
REV:
03
PCB REV:
VINC-M3.PCB
DATE:
0171-2272-1973
APCN05080010
E
Monday, March 13, 2006
A
B
C
D
E
TU_CVBS
ADDRESS
TUNER
FQ1236
4
: NTSC
C2
TU_CVBS
AF
IF
SCL_5V
SDA_5V
86
MPX1
TU1
NTSC_CVBS
R115
33
TU_SCL
SDA_5V
R117
33
TU_SDA
GND3
GND4
SCL_5V
C139
22pF
TU_V50
R120
560
TU_SCL
TU_SDA
3
AF
R93
TU_CVBS
NC
CE51
4
13
NTSC_MONO 10,13
DV120B
5VSB
TU_V50
1,2,3,4,5,6,7,10,12,13,14
GND
1,2,3,4,5,6,7,10,12,13,14
GND
GND
NTSC_CVBS
R122
470
SIF_IN
MPX1
4
0402C
1,2,11
DV120B
1,2,4,7,12,14 5VSB
2
TU_V50
TU_V50
1,9,13
1,9,13
NTSC_SIF
NTSC_MONO
C138
22pF
0402C
10
SCL_5V
SDA_5V
NTSC_CVBS 13
NTSC_SIF
TH3
TH4
CVBS
VS_IF
AF /MPX
12
13
14
TH1
TH2
1
2
3
4
5
6
7
8
9
10
11
GND1
GND2
NC
NC
VS_TUNER
SCL
SDA
AS
NC
NC
AF-R
AF-L
2nd SIF OUT
FQ1236-MK3
9
AF
GNDS
3
47uF/16V
+
L11
2.2
+ CE23
470uF/16V
DV120B
TUNER SIF BPF
NTSC 4.5MHz
L8
80ohm
L/IND/P10.0
C35
2
820pF
2
R318
4.7K
R319
1K
SIF_IN
C5 0.01uF
R317
0
C31
18pF
L2
47uH/1.6A
C33
0.01uF
1
3
L/IND/DIP/P10.0
C6
L1
C32
L3
820pF
1.5uH
820pF
1.5uH
0.01uF
R330 8.2K
MPX1
R323
NC
NTSC_SIF
2
C37
R320
470
Q2
2N3904
SOT23/SMD
NOTE :
R321
10
R322
75
C36
NC
+ CE22
10uF/50V
NC MEANS "NOT CONNECTED ON PCB BOARD"
ALL RESISTORS 0402 WATT,5% UNLESS NOTED.
ALL RESISTORS VALUES IN OHMS UNLESS NOTED.
ALL CAPACITORS 50 VOLT & 105"C UNLESS NOTED.
ALL CAPACITOR VALUES IN uF UNLESS NOTED.
ALL RESISTORS 25 VOLT IN .1uF UNLESS NOTED.
M= METAL 1%
APPROVED BY:
1
AmTRAN
MODEL
CHECKED BY:
DESING BY:
A
B
C
D
TECHNOLOGY
VIZIO L32 HDTV10A_MTK (3320-0102-0150)
CIRCUITY TV & DTV INPUT
PCB P/ N:
ECN NO:
SCH FILE :
PCB FILE :
L32HDTV_MTKM0.DSN
8 of 14
Sheet
00
REV:
03
PCB REV:
VINC-M3.PCB
DATE:
0171-2272-1973
APCN05080010
E
Monday, March 13, 2006
1
5
4
AV_V90
SCL_5V
R130
33
SCL90H
SDA_5V
R131
33
SDA90H
C91
0.1uf
0402
CB169
DTVSY
DTVSC
V2-V
13
V3-V
1uF
0603C
16
STV-V
1uF
0603C
43
MTV-V
CB170
1uF
0603C
3
V1-Y
C85
0.01uF
0402C
5
V1-C
AV1R
CE59
AV2R
CE60
AV3R
CE61
40
CB171
AUO1R_SWO
AUO2L_SWO
24
AUO2R_SWO
6
S1
12
S2
V2-L
2.2uF/25V
14
V3-L
2.2uF/25V
17
STV-L
ROUT2
S1
S2
44
SCL
30
SCL90H
2.2uF/25V
4
V1-R
SDA
29
SDA90H
2.2uF/25V
10
V2-R
BIAS
38
BIAS
2.2uF/25V
15
V3-R
2.2uF/25V
18
STV-R
2.2uF/25V
42
MTV-R
22
+
MUTE
31
ADR
20
R134
10K
AV3L
R149
470K
AV1R
C89
0.01uF
0402C
R150
470K
AV2R
C90
0.01uF
0402C
R151
470K
AV3R
C127
0.01uF
0402C
R137
10K
R138
10K
CVBS2_SWO
AUO1R_SWO
R139
47
Q5
2N3904
R140
2
AUO1_R
TUR
AV3L
AV3R
TU_CVBS
TUL
TUR
CVBS2
YPBPR1L
YPBPR1R
R143
220
CVBS2_GND
SY_SWO
AUO2L_SWO
R144
47
AUO2_L
CVBS1
CVBS1_GND
AV_V90
CVBS2
CVBS2_GND
Q6
2N3904
SY
SY_GND
R145
SC
SC_GND
2
R146
10K
220
R147
1K/NC
SY
R148
75/NC
AUO1_L
AUO1_R
SY_GND
AUO2_L
AUO2_R
AV_V90
SC_SWO
R153
470K
AUO2R_SWO
R154
47
2
AUO2_R
R156
10K
YPBPR1R
R155
220
R157
1K/NC
R158
75/N.C
DTVY
DTVPB
DTVPR
SC_GND
C93
0.01uF
0402C
R159
470K
C94
0.01uF
0402C
R160
470K
C95
0.01uF
0402C
R161
470K
C96
0.01uF
0402C
R162
470K
C97
0.01uF
0402C
R163
470K
Y
Y_GND
CB
CB_GND
CR
CR_GND
B
SVDET#
DV50B
DV50B
YPBPR / SCART1 RGB SWITCH
DV50B
S1
R167
NC
SVDET#
S2C
R171
75
S2
2
AV_V90
2,5,7,11 DV50B
1,2,3,4,6,7,10,11,12 DV33A
11
R164
10K
R165
10K
CE65
CE66
R168
5.6K
22uF/16V
22uF/16V
DV50B
R169
5.6K
22uF/16V
22uF/16V
YCBCRSEL
CB1SW
DTVPBSW
CB
Y1SW
DTVYSW
Y
GNDS
R170
5.6K
DTVPBSW
DTVPR
22uF/16V
R182
5.6K
U21
1
2
3
4
5
6
7
8
S
I0A
I1A
YA
I0B
I1B
YB
GND
VCC
E#
I0D
I1D
YD
I0C
I1C
YC
16
15
14
13
12
11
10
9
DTVPRSW
R183
5.6K
3
AV3
7
AV3L
AV3R
7
7
TU_CVBS
8
TUL
TUR
7
7
DTVSY
DTVSC
7
7
YPBPR1L
YPBPR1R
7
7
SY
SY_GND
10
10
SC
SC_GND
10
10
AUO1_L
AUO1_R
11
11
AUO2_L
AUO2_R
11
11
UP1_2
4
Y1
Y1_GND
CB1
CB1_GND
CR1
CR1_GND
7
7
7
7
7
7
DTVY
DTVPB
DTVPR
7
7
7
Y
Y_GND
CB
CB_GND
CR
CR_GND
10
10
10
10
10
10
C
B
SVDET#
AV_V90
DV50B
DV33A
GNDV
GNDS
CB92
0.1u
NOTE :
UP1_2
R176
0
YCBCRSEL
Y1
Y1_GND
CB1
CB1_GND
CR1
CR1_GND
R177
R178
R179
R180
R184
R185
0/NC
0
0/NC
0
0/NC
0
Y
Y_GND
CB
CB_GND
CR
CR_GND
NC MEANS "NOT CONNECTED ON PCB BOARD"
ALL RESISTORS 0402 WATT,5% UNLESS NOTED.
ALL RESISTORS VALUES IN OHMS UNLESS NOTED.
ALL CAPACITORS 50 VOLT & 105"C UNLESS NOTED.
ALL CAPACITOR VALUES IN uF UNLESS NOTED.
ALL RESISTORS 25 VOLT IN .1uF UNLESS NOTED.
M= METAL 1%
APPROVED BY:
AmTRAN
MODEL
DESING BY:
4
GNDS
C98
1uF/50V
7
7
CR1SW
DTVPRSW
CR
CHECKED BY:
5
GNDV
7
DV33A
GNDS
IDTQS3VH257
SOIC16
CE70
+
DTVPB
+
+
DTVYSW
R181
5.6K
DV33A
R175
10K
CE69
22uF/16V
CR1SW
DV50B
R174
10K
CE68
DTVY
CR1
DV50B
R173
10K
A
R172
100K
CE67
CB1SW
+
CB1
+
Y1SW
+
Y1
R166
10K
AV2
CVBS2
10
CVBS2_GND 10
Y1
Y1_GND
CB1
CB1_GND
CR1
CR1_GND
SC
7
7
CVBS1
10
CVBS1_GND 10
UP1_2
Q7
2N3904
7
AV1L
AV1R
D
DTVSY
DTVSC
220
AV1
AV2L
AV2R
AV3
R136
220
R142
1K/NC
+ CE62
22uF/16V
C92
0.01uF
0402C
CVBS1
1,8,13
1,8,13
S2Y
S2C
AV_V90
YPBPR1L
R195
470K
220
CVBS1_GND
1
C88
0.01uF
0402C
R133
0.01uF
IC MM1492AF_F
SOP44
TUL
Q4
2N3904
R135
1K/NC
3
AV2L
AV2L
AV2R
2
AUO1_L
GNDS
AV1L
47
S2Y
S2C
R141
10K
2.2uF/25V
MTV-L
R132
AV2
AV_V90
TP45
26
8
AUO1L_SWO
0.1uF 0402C
C86
35
+
CE64
19
21
CVBS1_SWO
TP44
LOUT2
+
CE63
TUR
SC_SWO
ROUT1
+
YPBPR1R
25
32
V1-L
2.2uF/25V
+
C
COUT2
C1N1
2
2.2uF/25V
+
CE58
SY_SWO
AUO1L_SWO
+
TUL
CVBS2_SWO
27
34
36
GND
CE57
23
YOUT2
YIN1
10uF/16V
LOUT1
+
CE56
YPBPR1L
VOUT2
10uF/16V
V2-C
+
AV3L
CE53
11
28
CE55
CE52
V2-Y
GND
CE54
AV2L
39
41
YIN2
CIN2
+
AV1L
YOUT1
COUT1
9
33
TU_CVBS
7
0603C
CVBS1_SWO
3
CB168
TP43
0603C
37
1
1uF
AV1L
AV1R
NEARLY U3 AVSW
VOUT1
SCL_5V
SDA_5V
AV1
3
1uF
CB167
SCL_5V
SDA_5V
1
CB166
AV3
V1-V
1
1
AV2
1
0402C
+
0603C
CB133
22pF
0402C
+
1uF
GND
D
CB165
VCC
U20
AV1
CB134
22pF
2
3
AV SWITCH
3
2
A
TECHNOLOGY
VIZIO L32 HDTV10A_MTK (3320-0102-0150)
CIRCUITY AV SWITCH
PCB P/ N:
ECN NO:
SCH FILE :
PCB FILE :
L32HDTV_MTKM0.DSN
9 of 14
Sheet
00
REV:
03
PCB REV:
VINC-M3.PCB
DATE:
0171-2272-1973
APCN05080010
1
Monday, March 13, 2006
A
B
R186
39K
R187
39K
CE71
47uF/16V
MPX2
+
AF
C100
15pF
0402C
R216
C
D
OUTPUT
NC
NTSC_MONO
FB37 0
RED
R188
C101
15pF
0402C
R340
RED-IN
0
R190
75
C102
5pF
0402C
R341
RED_GND
CVBS1
4
R193
22
C105
47nF
0
0
REDOUT
R189
68/100
C99
47nF
0402C
RED+
REDOUT GND
R191
100
C103
47nF
0402C
RED-
CVBS1+
CVBS1-
CVBS2+
CVBS2-
FB60
FB38
80ohm
CVBS1+
0402C
E
SY+
SY-
0/NC
SC+
SC-
C107
330pF/NC
0402C
CVBS1_GND
R197
0
C109
47nF
CVBS1-
0402C
GREEN
FB39 0
R194
GREEN-IN
0
FB40
80ohm
R196
75
R199
22
C111
47nF
CVBS2+
0402C
0
GREENOUT
R192
0
C104
4.7nF 0402C
VGASOG
R203
68/100
C106
47nF
GREEN+
0402C
SOY
Y+
Y-
C108
5pF
0402C
R343
GRN_GND
CVBS2
R342
0
GREENOUT GND R198
100
C110
47nF
0402C
CB+
CB-
GREEN-
CR+
CR-
FB61
FB41
80ohm
0/NC
C113
VGASOG
330pF/NC
RED+
RED-
0402C
CVBS2_GND
R232
0
C115
47nF
CVBS2-
0402C
FB42 0
BLUE
R200
R344
BLUE-IN
0
FB43
80ohm
R202
75
0
R345
BLU_GND
Y
R208
0
R207
0
C119
4.7nF 0402C
SOY
R209
68/100
C120
47nF
Y+
0402C
FB45
VGAVSYNC#
470
R205
4.7K
R211
100
C122
47nF
Y-
0402C
R212
0
R213
C123
47nF
100
C129
47nF
R214
0
SY_GND
R220
0
R221
68/100
C133
47nF
GREEN+
GREEN-
100
C116
47nF
0402C
BLUE-
FB62
C140
47nF
R215
R219
R222
0
SOY
4
Y+
Y-
4
4
CB+
CB-
4
4
CR+
CR-
4
4
VGASOG
4
RED+
RED-
4
4
GREEN+
GREEN-
4
4
BLUE+
BLUE-
4
4
MPX2
NTSC_MONO
HSYNC#
FB46
VGAHSYNC#
470
R206
4.7K
1,2,3,4,6,7,9,11,12
SC_GND
R223
R227
FB52
80ohm/NC
1,2,3,4,5,6,7,8,12,13,14
C118
5pF
0402C
NTSC_MONO 13
G/Y
G/Y GND
B/U
B/U GND
R/V
R/V GND
G/Y
G/Y GND
B/U
B/U GND
R/V
R/V GND
22
C124
47nF
0402C
DV33A
R357
330pF/NC
CVBS2
9
CVBS2_GND 9
0402C
0
C128
47nF
0402C
SY-
SY
SY_GND
SC
SC_GND
22
C130
47nF
0402C
SC+
CB
CB_GND
CR
CR_GND
C132
330pF/NC
0402C
0
C134
47nF
0402C
SC-
RED
RED_GND
GREEN
GRN_GND
R358
22uF/16V/NC
10K/NC
AF
BLUE-IN
R356
CE99
22uF/16V/NC
10K/NC
RGBSEL
BLUESW
R361
10K/NC
22uF/16V/NC
R364
10K/NC
R/V
CE103
22uF/16V/NC
10K/NC
R/V SW
B/U
R362
CE102
+
G/Y SW
+
CE104
+
G/Y
4.7K/NC
RGBSEL
REDSW
R/V SW
R301REDOUT
GREENSW
47K/NC G/Y SW
GREENOUT
R359
10K/NC
22uF/16V/NC
10K/NC
DV33A
R300
DV33A
1
R363
B
Y
Y_GND
9
9
CB
CB_GND
9
9
CR
CR_GND
9
9
RED
RED_GND
7
7
GREEN
GRN_GND
7
7
BLUE
BLU_GND
7
7
VSYNC#
HSYNC#
7
7
AF
8
4
2
B/U SW
R360
10K/NC
1
2
3
4
5
6
7
8
1
U27
S
I0A
I1A
YA
I0B
I1B
YB
GND
NC MEANS "NOT CONNECTED ON PCB BOARD"
ALL RESISTORS 0402 WATT,5% UNLESS NOTED.
ALL RESISTORS VALUES IN OHMS UNLESS NOTED.
ALL CAPACITORS 50 VOLT & 105"C UNLESS NOTED.
ALL CAPACITOR VALUES IN uF UNLESS NOTED.
ALL RESISTORS 25 VOLT IN .1uF UNLESS NOTED.
M= METAL 1%
VCC
E#
I0D
I1D
YD
I0C
I1C
YC
16
15
14
13
12
11
10
9
C135
BLUESW
B/U SW
BLUEOUT
0.1uF/NC
APPROVED BY:
C
AmTRAN
MODEL
IDTQS3VH257/NC
TSSOP16
CHECKED BY:
DESING BY:
A
9
9
10K/NC
NOTE :
DV33A
9
9
SC
SC_GND
R354
DV33A
DV33A
SY
SY_GND
RGBSEL
10K/NC
REDSW
+
22uF/16V/NC
CE100
VSYNC#
HSYNC#
R353
10K/NC
RED-IN
+
+
GREENSW
7
CVBS1
9
CVBS1_GND 9
CVBS2
CVBS2_GND
C126
DV33A
R355
10K/NC
CE101
7
7
SY+
BLUE
BLU_GND
GREEN-IN
4
4
GND
GND
FB53
80ohm
DV33A
4
DV33A
DV33A
FB48
80ohm
R225
220
CR-
0402C
4
4
Y
Y_GND
C131
15PF/33PF
0402C
100
4
4
SC+
SC-
VGAHSYNC#
MPX2
0/NC
SY+
SY-
VGAVSYNC# 4
VGAHSYNC#
CR+
0402C
SC
R226
BLUE+
FB51
80ohm
2
CR_GND
R204
C117
5pF
0402C
R217
220
CB-
0402C
FB50
80ohm/NC
CR
0402C
4
4
CVBS1
CVBS1_GND
SY
R218
47nF
CB+
0402C
C125
15PF/33PF
0402C
CB_GND
BLUEOUT GND
FB47
80ohm
68/100
C112
CVBS2+
CVBS2-
INPUT
FB49
80ohm/NC
CB
68/100
4
4
3
VSYNC#
C121
15PF/33PF
0402C
Y_GND
R201
VGAVSYNC#
0
FB44
80ohm
3
BLUEOUT
BLUE+
BLUE-
C114
5pF
0402C
CVBS1+
CVBS1-
D
TECHNOLOGY
VIZIO L32 HDTV10A_MTK (3320-0102-0150)
CIRCUITY VIDEO OUT
PCB P/ N:
ECN NO:
SCH FILE :
PCB FILE :
L32HDTV_MTKM0.DSN
10 of 14
Sheet
00
REV:
03
PCB REV:
VINC-M3.PCB
DATE:
0171-2272-1973
APCN05080010
E
Monday, March 13, 2006
A
B
C
D
E
SCL
SDA
HPVDD
DV50A
CE96
LMAIN1
CE98
+
VGAR
CE80
VGAL
CE81
R346
10K
10uF/16V
R347
10K
10uF/16V
R348
10K
SCL
R231
100
SDA
R233
100
+
R349
10K
R234
22K
10uF/16V
R237
22K
HPVDD
FB55
+ CE77
10uF/16V
CB173
0.1uF
0402C
SCL34H
80ohm
DVDD
CE78
47uF/16V
+
+
CE79
47uF/16V
CB174
0.1uF
0402C
CB187
22pF
0402C
4
AUO1_R
AUO1_L
HPVDD
22pF
0402C
AUO2_R
AUO2_L
HPVDD
10uF/16V
R238
10K
10uF/16V
R239
10K
R261
CE83
+
CE82
AUO2_L
R235
+
AUO2_R
CB175
0.1uF
0402C
CB176
0.1uF
0402C
CB177
0.1uF
0402C
DACBCLK
DACMCLK
DACLRC
48
47
46
45
44
43
42
41
40
39
38
37
+
DOUT
AIN2R
AIN3L
AIN3R
AIN4L
AIN4R
AIN5L
AIN5R
AINOPL
AINVGL
AINOPR
AINVGR
AGND
10K
10uF/16V
R241
10K
1
2
3
4
5
6
7
8
9
10
11
12
AUO1_L
CE86
+
DACBCLK
DACMCLK
AOSDATA1
DACLRC
DACBCLK
DACMCLK
DOUT
AVDD
ADCREFP
ADCREFGND
VMIDADC
AUXL
AUXR
DACREFP
DACREFN
VMIDDAC
VOUTR
VOUTL
NC
HPVDD
ADCREFP
36
35
34
33
32
31
30
29
28
27
26
25
VMIDDAC
VMIDADC
PWM1
VMIDADC
AUXL
AUXR
HPVDD
+ CE89
10uF/16V
TP50
TP51
CB178
0.1uF
0402C
+ CE90
10uF/16V
CB179
0.1uF
0402C
+ CE91
10uF/16V
CB180
0.1uF
0402C
HPOUTL
HPOUTR
13
14
15
16
17
18
19
20
21
22
23
24
1,2,8
2,5,7,9
1,2,3,4,6,7,9,10,12
DV120B
U22
WM8776
QFP-48
HPVDD
HPOUTR
8
27k
AUSPL
100pF
RA12
T+12V
2N3906-SOT23
QA1-C
Q14
2N3904
R252
47K
1
RA1
47K
RA4
10K
CA13
RA15
0.1uF
4.7K
ZDA2
0.1uF
RLZ6.2B
R369
ORO6
PWM1
4
16
R+
OUT1-
1
R-
RA13
3.9/0805
14
L-
CA9
0.22uf
CA5
IN3+
12
IN4+
13
CIV
11
SVR
OUT2-
OUT2+
17
L+
PWM1
RA5
10K
100
0.1uF
C70
RA6
W250-4R
CA16
0.22uf
0.22uf
SGND
10
MODE1
5
MODE2
RA22
3.9/0805
RA21
3.9/0805
N.C
QA2
2N3904
2
CA8
1
2
3
4
2
CA17
7
J5
RA14
3.9/0805
RA7
NC
4
3
4
CA7
470uF/16V
DV50B
R249
4.7K
R368
UP1_5
C40
4
0.22uf
CA4
22uF/16V
1
4.7K
3
DV120B
10k
9
RA8
10K
1
R372
4
AOSDATA1
1000uF/16V
IN2+
2
2
1N4148
RA3
2
2
DA1
NJM4558 OPA
RA2
4.7K
2
CA6
470uF/16V
CE87 10uF/16V
2
1K
1
DV120B
R248
HPOUTL-IN
2
8
2.2nF/NC
1
1
3
U28A
+
2
3
C39
10k
4
R3825.1k
+
+
10uF/16v
R371
-
CE33
HPOUTL
DOUT
HPOUTL
HPOUTR
OUT1+
CA15
NC
CA12
0.47uF/0603
RA16 10K
1
3
IN1+
CA14
NC
CA3
0.47uF/0603
RA10
1000pF
4.7K
3
UA1
RA9
1000pF
6
2
4
4
4
+CA2
0.1uF
CA10
0.47uF/0603
CA11
0.47uF/0603
QA1
DACBCLK
DACMCLK
DACLRC
T+12V
RA11
4.7K
1
9
9
width 120 mil
VCC1
HPOUTR-IN
7
HPOUTR-IN GND
HPOUTL-IN
7
HPOUTL-IN GND
C141
AUO2_R
AUO2_L
GNDV
GNDV
CA1
AUSPR
R370
9
9
DV120B
DV50B
DV33A
DV120B
DV50B
DV33A
T+12V
L20 3.5x6x1.0
GND1
SDA34H
SCL34H
HPOUTL
R242
1K
4,7
DVDD
ORO6
HPOUTR-IN
HPOUTR-IN GND
HPOUTL-IN
HPOUTL-IN GND
DACLRC
ORO6
AUO1_R
AUO1_L
UP1_5
VMIDDAC
AUSPR
AUSPL
9
DACLRC
7
7
ADCREFP
ADCLRC
DGND
DVDD
MODE
CE
DI
CL
HPOUTL
HPGND
HPVDD
HPOUTR
NC
3
AIN2L
AIN1R
AIN1L
DACBCLK
DACMCLK
DIN
DACLRC
ZFLAGR
ZFLAGL
ADCBCLK
ADCMCLK
DOUT
VGAR
VGAL
GND2
R240
+
10uF/16V
15
CE85
AOSDATA1
VCC2
AUO1_R
1,4,6
1,4,6
LMAIN1
7
LMAIN1 GND
RMAIN1
7
RMAIN1 GND
DVIL
6
DVIL GND
DVIR
6
DVIR GND
VGAR
VGAL
SDA34H
CB188
+
10uF/16V
10uF/16V
80ohm
+ CE76
10uF/16V
TWO WIRE SERIAL CONTROL DEVICE ADDRESS 0x34h
4.7K
RMAIN1
4
10uF/16V
4.7K
CE95
+
CE94
DVIL
+
FB54
DVIR
LMAIN1
LMAIN1 GND
RMAIN1
RMAIN1 GND
DVIL
DVIL GND
DVIR
DVIR GND
DVDD
DV33A
SCL
SDA
TDA8946J
width 120 mil
10K
0.1uF
2
2.2nF/NC
7
NJM4558 OPA
DV120B
DV120B
DV120B
DV50B
ZDA1
RCA2
RCA-JK2
HZ9A2
RA18
1K
RA17
1K
1K
RA19
4.7K
NOTE :
DA2
1
5
2
1N4148
R247
HPOUTR-IN
+
6
1
AVOR
3
10uF/16v
U28B
P9
AVOL
CE88 10uF/16V
R258
47K
C38
QA3
2N3904
2
RA20
4.7K
1
C41
10k
1
8
R375
+
+
HPOUTR
R3835.1k
-
CE34
4
R255
4.7K
Q15
2N3904
4
3
5
100pF
1
C142
2
27k
3
R374
FB65
NC MEANS "NOT CONNECTED ON PCB BOARD"
ALL RESISTORS 0402 WATT,5% UNLESS NOTED.
ALL RESISTORS VALUES IN OHMS UNLESS NOTED.
ALL CAPACITORS 50 VOLT & 105"C UNLESS NOTED.
ALL CAPACITOR VALUES IN uF UNLESS NOTED.
ALL RESISTORS 25 VOLT IN .1uF UNLESS NOTED.
M= METAL 1%
APPROVED BY:
0
0.1uF
CHECKED BY:
DESING BY:
A
AmTRAN
MODEL
B
C
D
1
TECHNOLOGY
VIZIO L32 HDTV10A_MTK (3320-0102-0150)
CIRCUITY AUDIO OUT
PCB P/ N:
ECN NO:
SCH FILE :
PCB FILE :
L32HDTV_MTKM0.DSN
11 of 14
Sheet
00
REV:
03
PCB REV:
VINC-M3.PCB
DATE:
0171-2272-1973
APCN05080010
E
Monday, March 13, 2006
A
B
C
D
E
AP[0..7]
AN[0..7]
J6
LVDS OUT
GND
GND
AP7
AN7
CLK2+
CLK2AP6
AN6
AP5
AN5
AP4
AN4
AP3
AN3
CLK1+
CLK1AP2
AN2
AP1
AN1
AP0
AN0
LVDS_ROTATE
LVDS_OPTION
GND
GND
GND
LVDSVDD
LVDSVDD
LVDSVDD
LVDS-VDD
F4
0/0805
LVDSVDD
L19
3.5x6x1.0
0/0805
4
CB181
0.1uF
CE97
100uF/16V
+
DV33A
DV33A
R265
10K/NC
R266
10K/NC
LVDS_ROTATE
R267
NC
R268
LVDS_OPTION
ORO1
R269
10K/NC
NC
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
CLK1+
CLK1CLK2+
CLK2IR
UP3_0
DV33A
PWM0
R302
R303
47K/NC
TxD
PCTXD
8302RXD
RxD
PCRXD
8302TXD
1
2
3
4
5
6
7
8
U25
S
I0A
I1A
YA
I0B
I1B
YB
GND
VCC
E#
I0D
I1D
YD
I0C
I1C
YC
16
15
14
13
12
11
10
9
OGO5
OBO[0..7]
C136
0.1uF/NC
PWM_DIM
BL_ON/OFF
IDTQS3VH257/NC
TSSOP16
FI-SE30P-HF
W125S-30A
8302TXD
8302RXD
U0TX
I2C_SW
U2TX
R275
4.7K
DL_SW1
R230
47K
U24
1
2
3
4
5
6
7
8
S
I0A
I1A
YA
I0B
I1B
YB
GND
16
15
14
13
12
11
10
9
VCC
E#
I0D
I1D
YD
I0C
I1C
YC
DV33A
U0RX
PCRXD
RXD--MT8205
TXD--MT8205
C137
0.1uF
U0TX
1,2,3,4,5,6,7,8,10,13,14
U2TX--MT5351/MT8205 COMMUNICIATE
U2RX--MT5351/MT8205 COMMUNICIATE
7
5
3
1
R273
4.7K
R281
R282
2.2k/NC
2.2k/NC
4
OBO[0..7]
4
PWM_DIM
1
PCTXD
PCRXD
8302TXD
8302RXD
7
7
TxD
RxD
4
4
U0TX
13
U0RX
13
U2TX
13
U2RX
13
1K
NC
R271
R271
NC
1K
1K
2
PWM_DIM
3
RN36
4.7Kx4
R376
TXD
RXD
OGO5
4
R271
1K
KEYPAD - MAX 7-KEYS
PWM0
R274
4.7K
2
1
4.7K
4
DV33A
1K/NC
DV33A
R373
5VSB
8
6
4
2
DV33A
PWM0
R272
DV33A
PC ==> MT8205
PC TXD ==> MT5351UART0 RX
2
4
GND
GND
AU R272
LG R272
Back Light circuit
MT5351 UART2<==> MT8205<==>MT8302
H
4,7,14
UP3_0
5VSB
TU_V50
DV33A
LVDS-VDD
1,2,4,7,14 5VSB
2,8
TU_V50
1,2,3,4,6,9,10,11 DV33A
2
LVDS-VDD
U0TX--MT5351/DOWNLOAD
U0RX--MT5351/DOWNLOAD
PC ==> MT5351UART0
L
IR
PCTXD
IDTQS3VH257
SOIC16
S
U2RX
PCTXD--PC
PCRXD--PC
DV33A
U2TX
PCTXD
RxD
U2RX
PCRXD
TxD
4
4
3
U0RX
FCLK
NC
CLK2+
CLK2-
BL_ON/OFF 1
TxD
RxD
R276
4
4
ORO0
R270
0
3
4
4
CLK1+
CLK1-
DV33A
N.C
DL_SW2
AP[0..7]
AN[0..7]
AUTO
LEFT
RIGHT
DOWN
OBO6
OBO5
OBO4
OBO3
R304
R305
R306
R307
0/470
0/470
0/470
0/470
UP
MENU
SOURCE
PWR KEY
LED
OBO2
OBO1
OBO0
OBO7
OGO5
IR
R308
R309
R310
R311
R312
R313
0/470
0/470
0/470
0/470
0/470
0/470
+
CE4
10uF/16V
J7
1
2
3
4
5
6
7
8
9
10
11
12
5VSB
DV33A
R384
R279
1K
1K/NC
BL_ON/OFF
3
5VSB
Q12
2N3904
2N3904-SOT23
P11
R236
PCRXD
GND
0
R224
R285
0
DL_SW2
5VSB
2
12x1 W/HOUSING
Q13
2N3904
2N3904-SOT23
5VSB
RJ11
1
OBO6
OBO5
OBO4
OBO3
OBO2
A
0.1uf
4.7K
DV33A
0
PCTXD
RN37
4.7Kx4
DL_SW1
R280
8
6
4
2
8
6
5
4
3
2
1
7
UP3_0
W200-8A
1
7
5
3
1
C61
B
C51 0.1uf
C52 0.1uf
C53 0.1uf
C54 0.1uf
C55 0.1uf
OBO1
OBO0
OBO7
OGO5
IR
C
C56 0.1uf
1
C57 0.1uf
APPROVED BY:
C58 0.1uf
C59 0.1uf
C60 NC
NOTE :
NC MEANS "NOT CONNECTED ON PCB BOARD"
ALL RESISTORS 0402 WATT,5% UNLESS NOTED.
ALL RESISTORS VALUES IN OHMS UNLESS NOTED.
ALL CAPACITORS 50 VOLT & 105"C UNLESS NOTED.
ALL CAPACITOR VALUES IN uF UNLESS NOTED.
ALL RESISTORS 25 VOLT IN .1uF UNLESS NOTED.
M= METAL 1%
D
AmTRAN
MODEL
CHECKED BY:
DESING BY:
TECHNOLOGY
VIZIO L32 HDTV10A_MTK (3320-0102-0150)
CIRCUITY LVDS OUT & KEYPAD
PCB P/ N:
ECN NO:
SCH FILE :
PCB FILE :
L32HDTV_MTKM0.DSN
12 of 14
Sheet
00
REV:
03
PCB REV:
VINC-M3.PCB
DATE:
0171-2272-1973
APCN05080010
E
Monday, March 13, 2006
A
B
J2
4
AO1MCLK
AO1BCK
AO1LRCK
AO1SDATA0
VOB0
VOB1
VOB2
VOB3
RN33 1
E
U0TX
U0RX
OGO3
OGO1
OGO2
OGO0
R286
R287
R288
R289
RN34 1
2
3
5
7
33x4
RN35 1
VOB4
2
VOB5
4
3
VOB6
6
5
VOB7
8
7
33x4
RN41
VOG0
2
1
VOG1
4
3
VOG2
6
5
VOG3
8
7
33x4
VOG4
2
RN40 1
VOG5
4
3
VOG6
6
5
VOG7
8
7
33x4
RN38 1
VOR0
2
VOR1
4
3
VOR2
6
5
VOR3
8
7
33x4
RN39 1
VOR4
2
VOR5
4
3
VOR6
6
5
VOR7
8
7
33x4
RN42 1
VOHSYNC
2
VOVSYNC
4
3
VODE
6
5
VOPCLK
8
7
33x4
ORESET#
33
R290
33
OREADY#
R292
OREQUEST# R293
33
33
R284
D
U0TX
U0RX
U2TX
U2RX
3
5
7
33x4
33
33
33
33
VI0
VI1
VI2
VI3
4
6
8
FB3280ohm
U2RX
DV120-ATSC
DVIHSYNC
DVIVSYNC
DVIDE
DVIODCK
CB5
0.1uF
VI4
VI5
VI6
VI7
C0402/SMD
VI[0..23]
J8
VI8
VI9
VI10
VI11
VI12
VI13
VI14
VI15
5
4
3
2
1
5x1 W/HOUSING
W250_5A
VI16
VI17
VI18
VI19
FB3180ohm
OGO0
OGO1
OGO2
OGO3
DV50-ATSC
UP1_3
CB6
0.1uF
URST#
C0402/SMD
READY#
REQUEST#
POWER OUTPUT TO MT5351
NTSC_CVBS
NTSC_CVBS GND
NTSC_SIF
NTSC_SIF GND
DVIHSYNC
DVIVSYNC
DVIDE
DVIODCK
OGO4
READY#
REQUEST#
I2C_SW
R291
NC
URST#
SDA_5V
MT5351 DIGITAL I/F
2
2
1
TP24
MAIN_PrOUT
TP25
AUD_RCHOUT
TP26
AUD_LCHOUT
TP27
TEST POINT SMD0.6
TP/SMD/D0.6
TEST POINT SMD0.6
TP/SMD/D0.6
TEST POINT SMD0.6
TP/SMD/D0.6
TEST POINT SMD0.6
TP/SMD/D0.6
TEST POINT SMD0.6
TP/SMD/D0.6
NTSC_CVBS
Tuner_SCL2
Tuner_SDA2
Tuner_SCL2
R228
0
SCL_5V
Tuner_SDA2
R229
0
SDA_5V
APPROVED BY:
18x1 FPC
DVIHSYNC
DVIVSYNC
DVIDE
DVIODCK
4,6
4,6
4,6
4,6
VI[0..23]
4,6
OGO0
OGO1
OGO2
OGO3
4,6
4,6
4,6
4,6
UP1_3
4,6
URST#
4
READY#
4
REQUEST#
4
SCL_5V
1,8,9
SDA_5V
1,8,9
I2C_SW
4
2
GND
GND
AmTRAN
MODEL
MT5351 ANALOGY I/F
CHECKED BY:
DESING BY:
A
12
NOTE : NC MEANS "NOT CONNECTED ON PCB BOARD"
ALL RESISTORS 1/10 WATT,5% UNLESS NOTED.
ALL RESISTORS VALUES IN OHMS UNLESS NOTED.
ALL CAPACITORS 50 VOLT & 105"C UNLESS NOTED.
ALL CAPACITOR VALUES IN uF UNLESS NOTED.
ALL RESISTORS 25 VOLT IN .1uF UNLESS NOTED.
M= METAL 1%
NTSC_SIF
NTSC_MONO
U2RX
DV120-ATSC
DV50-ATSC
DV120-ATSC
DV50-ATSC
1,2,3,4,5,6,7,8,10,12,14
MAIN_PbOUT
12
NTSC_MONO 10
NTSC_MONO GND
SCL_5V
2
TP23
U2TX
NTSC_SIF
8
NTSC_SIF GND
NTSC_MONO
NTSC_MONO GND
50x1 FPC
MAIN_YOUT
12
NTSC_CVBS 8
NTSC_CVBS GND
I2C_SW
18A
17A
16A
15A
14A
13A
12A
11A
10A
9A
8A
7A
6A
5A
4A
3A
2A
1A
12
U0RX
3
VI20
VI21
VI22
VI23
J4A
U0TX
4
U2TX
R.ANGLE
3
2
4
6
8
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
C
B
C
D
CIRCUITY
PCB P/ N:
ECN NO:
SCH FILE :
PCB FILE :
TECHNOLOGY
VIZIO L32 HDTV10A_MTK (3320-0102-0150)
INDEX & POWER CONNECTOR
L32HDTV_MTKM0.DSN
13 of 14
Sheet
00
REV:
03
PCB REV:
VINC-M3.PCB
DATE:
0171-2272-1973
APCN05080010
E
Monday, March 13, 2006
1
5
4
3
UI1
FM-6038TM2
GND
VCC
3
VOUT
D
RI1
47
QI1
2N3904
DI1
LED
2
1 RI3
220
3 RI4
470
1
IR BOARD
ASSY' PN:3320-0012-0189
PCB' PN:0170-1640-0302
5VSB
2
1
D
2
5VSB
JI1
IR
LED
QI2
2N3906
RI5
3.3K
C
1
2
3
4
IR
IR
4,7,12
CON4
RI6
3.3K
CI3
0.1uF
RI7
3.3K
1,2,4,7,12 5VSB
1,2,3,4,5,6,7,8,10,12,13
GND
5VSB
C
GND
5VSB
AJD1
1
2
3
4
5
6
7
8
9
10
11
12
IR
LED
PWR KEY
SOURCE
MENU
UP
B
DOWN
RIGHT
LEFT
AUTO
B
CON12
POEWR
SOURCE
UP
DOWN
RIGHT
LEFT
MKENU
AUTO
SWD1
SWD2
SWD3
SWD4
SWD5
SWD6
SWD7
SWD8
AJD2
4
3
2
1
A
NOTE :
5
NC MEANS "NOT CONNECTED ON PCB BOARD"
ALL RESISTORS 0402 WATT,5% UNLESS NOTED.
ALL RESISTORS VALUES IN OHMS UNLESS NOTED.
ALL CAPACITORS 50 VOLT & 105"C UNLESS NOTED.
ALL CAPACITOR VALUES IN uF UNLESS NOTED.
ALL RESISTORS 25 VOLT IN .1uF UNLESS NOTED.
M= METAL 1%
4
CON4
C1
C2
NC
NC
C0603/SMD
APPROVED BY:
CHECKED BY:
DESING BY:
3
AmTRAN
MODEL
2
TECHNOLOGY
VIZIO L32 HDTV10A_MTK (3320-0012-0156)
CIRCUITY IR & KEYPAD
PCB P/ N:
ECN NO:
SCH FILE :
PCB FILE :
14 of 14
Sheet
00
REV:
03
PCB REV:
0170-1740-1412
APCN05080010
L32HDTV_MTKM0.DSN
VINC32-D2.PCB
DATE:
1
Monday, March 13, 2006
A
A
B
C
D
E
MT5351R6-V1
MT5111 / MT5351 REFERENCE DESIGN FOR AMTRAN - 4 LAYERS
U18
DATE
INITIAL VERSION
2005/05/11
L1
47uH
+12V
+ C1
220uF/16v
ECD8
LB_2_5
J2
R.ANGLE
3
01. INDEX AND INTERFACE
02. POWER
03. TUNER
04. MT5111 ASIC
05. MT5351 ASIC
06. MT5351 PERIPHERAL
07. DDR MEMORY
08. NOR FLASH / JTAG / UART
5
4
3
2
1
L2
47uH
1
15
S
OE
AO1SDATA0
AO1LRCK
AO1BCK
AO1MCLK
2
5
11
14
IA0
IB0
IC0
ID0
3
6
10
13
IA1
IB1
IC1
ID1
YA
YB
YC
YD
VCC
+ C2
220uF/16v
ECD8
GND
DEVICE
+12V
+5V
POWER +12V
POWER +5V
POWER SUPPLY
POWER SUPPLY
+5V_tuner
DV33_DM
DV18
DV33
AV33
DV25
DV12
POWER +5V
POWER +3V3
POWER +1V8
POWER +3V3
POWER +3V3
POWER +2V5
POWER +1V2
TUNER POWER
MT5111 POWER
MT5111 POWER
MT5351 POWER
MT5351 ANALOG POWER
MT5351 DDR POWER
MT5351 POWER
GND
GROUND
P2
18x1
W05S_18A
8
2
4
6
8
10
12
14
16
18
U0TX
U0RX
U2TX
U2RX
VOB4
VOB5
VOB6
VOB7
VOR0
VOR1
VOR2
VOR3
VOR4
VOR5
VOR6
VOR7
ANALOG OUTPUT
VOHSYNC
VOVSYNC
VODE
VOPCLK
ORESET_
READY_
REQUEST_
4
3
2
1 1608R_4
33x4
4 RP1
3
2
1 1608R_4
33x4
4 RP2
3
2
1 1608R_4
33x4
4 RP3
3
2
1 1608R_4
33x4
4 RP4
3
2
1 1608R_4
33x4
4 RP5
3
2
1 1608R_4
33x4
4 RP6
3
2
1 1608R_4
33x4
4 RP7
3
2
1 1608R_4
33x4
4 RP8
3
2
1 1608R_4
33x4
4 RP9
3
2
1
5
6
7
8
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
5
6
7
8
5
6
7
8
5
6
7
8
5
6
7
8
5
6
7
8
5
6
7
8
5
6
7
8
5
6
7
8
5
6
7
8
RP10
DIGITAL OUTPUT
ASPDIF
33
0402R
K1
G
VCC
IN
3
5
5
5
5
5
5
5
VOR[0..7]
VOG[0..7]
VOB[0..7]
VOPCLK
VOHSYNC
VOVSYNC
VODE
VOR[0..7]
VOG[0..7]
VOB[0..7]
VOPCLK
VOHSYNC
VOVSYNC
VODE
DIGITAL VIDEO OUTPUT
5,9
5,9
5,9
5,9
AO1MCLK
AO1LRCK
AO1BCK
AO1SDATA0
AO1MCLK
AO1LRCK
AO1BCK
AO1SDATA0
ASPDIF
5 ASPDIF
DIGITAL AUDIO INTERFACE
2
MAIN_YOUT
MAIN_PbOUT
MAIN_PrOUT
9 MAIN_YOUT
9 MAIN_PbOUT
9 MAIN_PrOUT
AUD_RCHOUT
AUD_LCHOUT
9 AUD_RCHOUT
9 AUD_LCHOUT
ANALOG A/V OUTPUT
AUD_CTRL
NC MEANS "NOT CONNECTED ON PCB BOARD"
ALL RESISTORS 0402 WATT,5% UNLESS NOTED.
ALL RESISTORS VALUES IN OHMS UNLESS NOTED.
ALL CAPACITORS 50 VOLT & 105"C UNLESS NOTED.
ALL CAPACITOR VALUES IN uF UNLESS NOTED.
ALL RESISTORS 25 VOLT IN .1uF UNLESS NOTED.
M= METAL 1%
1
APPROVED BY:
P1
S/PDIF OUT
SPDIF_5P
AmTRAN
MODEL
OPTICAL
CHECKED BY:
SPDIF OUTPUT
DESING BY:
A
UART (RS232)
5 AUD_CTRL
4
R1
1
2
3
U0RX
U0TX
U1RX
U1TX
U2TX
U2RX
U0RX
U0TX
U1RX
U1TX
U2TX
U2RX
K2
C3
0.1uF
0402C
5
1
0.47uH
0805L
5,8
5,8
5,8
5,8
5,8
5,8
GROUND
+5V_SPDIF
FB1
ASPDIF
5 ASPDIF
J1
50x1 FPC
NOTE :
+5V
ORESET_
REQUEST_
READY_
4,5,8 ORESET_
5 REQUEST_
5 READY_
GLOBAL SIGNAL
VOG4
VOG5
VOG6
VOG7
P1
TYPE
1
3
5
7
9
11
13
15
17
GND
GND
P2
2
NAME
MAIN_YOUT
MAIN_PbOUT
MAIN_PrOUT
AUD_RCHOUT
AUD_LCHOUT
2,3,4,5,6,7,8,9
NC/IDTQS3VH257
TSSOP16
VOG0
VOG1
VOG2
VOG3
NS : NON-STUFF
16
4
C237
0402C
VOB0
VOB1
VOB2
VOB3
POWER INPUT FROM MAIN BOARD
+12V
+5V
DV33
2,9 +12V
2,6,9 +5V
2,5,6,8 DV33
DV33
AO1MCLK
AO1BCK
AO1LRCK
AO1SDATA0
J3
4
7
9
12
1608R_4
33x4
+5V
LB_2_5
5x1 W/HOUSING
W250_5A
AUD_CTRL
P1
R6-V1
P#
P1
4
History
R115
4.7K
0402R
P2
Rev
DV33
B
C
D
CIRCUITY
PCB P/ N:
ECN NO:
SCH FILE :
PCB FILE :
TECHNOLOGY
VIZIO L32 HDTV10A (3320-0012-0187)
INDEX
L32HDTV_MTKATSC0.DSN
1
Sheet
REV:
PCB REV:
37ATSC-M1.BRD
DATE:
0171-1472-0321
APCN05080010
E
of 9
00
01
Wednesday, March 15, 2006
A
B
+5V
U1
1
+12V
ADJ
C6
0.1uF
0402C
2
+ C4
220uF/16v
ECD8
4
KA7805/TO220-DIP/5V
OUT 3
IN
VOUT
+ C5
220uF/16v
ECD8
7805
+5V
E
NC
L4
0805L
4
D
L3
0805L
+12V
C
+5V_Tuner
C7
0.1uF
0402C
GND
GND
L35
6
OUT
2
L5
70uH
FB
4
R2
560
ON
GNG
C9
0.1uF
0402C
5
VIN
TabGND
U2
1
3
+ C8
1000uF/16v
ECD10
DV33
LM2596S-ADJ
LM2596
R3
330
C10
D1
SB560
F1
2A/125V
L6
DV33_DM
DV33
NC
0805L
NC
+
C13
1000uF/16V
Low ESR
+ C11
220uF/16v
ECD8
C16
0.1uF
0402C
C14
0.1uF
0402C
Adj：1.23x(1+R2/R1)
1.23x(1+1.69K/1K)=3.3V
DV18
L8 0805L
OUT
2
TAB
4
U4
3
IN
80ohm
R4
NC
0402R
+ C18
220uF/16v
ECD8
C22
0.1uF
0402C
+ C12
220uF/16v
ECD8
GLOBAL SIGNAL
C15
0.1uF
0402C
+ C19
220uF/16v
ECD8
C23
0.1uF
0402C
DV25
L9
OUT
2
TAB
4
AZ1117/2.5V
SOT_223
R5
NC
0402R
80ohm
0805L
+ C20
220uF/16v
ECD8
3
C24
0.1uF
0402C
1
AZ1117/1.8V
SOT_223
+5V
1
C21
0.1uF
0402C
1
+ C17
220uF/16v
ECD8
IN
80ohm
0805L
POWER SUPPLY +3V3 FOR MT5351 (ANALOG)
ADJ/GND
U3
3
ADJ/GND
DV33_DM
AV33
L7
U5
3
U19
TAB
DV33_DM
+ C25
220uF/16v
ECD8
2
4
AZ1117/3.3V
SOT_223
R116
NC
0402R
C27
0.1uF
0402C
TAB
4
AZ1117/adj
SOT_223
R8
100
0402R
80ohm
0805L
3
6
4
6
4
M1
SCREW
+ C26
220uF/16v
ECD8
R9
0
0402R
2
R117
0
0402R
M2
SCREW
C28
0.1uF
0402C
80ohm
1.25 x (1+0/0) = 1.25V
8
2
8
2
7
3
7
3
6
4
6
4
POWER SUPPLY +1V2 FOR MT5351
5
L36 0805L
OUT
2
2
7
DV12
L10
OUT
8
3
1
C241
0.1uF
0402C
1
+ C239
220uF/16v
ECD8
IN
1
3
ADJ/GND
+5V
IN
ADJ/GND
DV33
2
7
5
POWER SUPPLY +2V5 FOR MT5351 AND DDR
8
5
POWER SUPPLY +1V8 FOR MT5111
1.25 x (1+510/470) = 2.6V
1
R7
0
0402R
1.25 x (1+120/270) = 1.8V
5
R6
0
0402R
1
NC
0805L
80ohm
0805L
3
AV33
DV25
DV12
5,6 AV33
5,6,7 DV25
5,6 DV12
POWER SUPPLY +5V FOR TUNER
4
+5V_tuner
DV33_DM
DV18
3 +5V_tuner
4 DV33_DM
4 DV18
1,3,4,5,6,7,8,9
L34
+12V
+5V
DV33
1,9 +12V
1,6,9 +5V
1,5,6,8 DV33
80ohm
M3
SCREW
2
M4
SCREW
POWER SUPPLY +3.3V FOR MT5111
NOTE :
NC MEANS "NOT CONNECTED ON PCB BOARD"
ALL RESISTORS 0402 WATT,5% UNLESS NOTED.
ALL RESISTORS VALUES IN OHMS UNLESS NOTED.
ALL CAPACITORS 50 VOLT & 105"C UNLESS NOTED.
ALL CAPACITOR VALUES IN uF UNLESS NOTED.
ALL RESISTORS 25 VOLT IN .1uF UNLESS NOTED.
M= METAL 1%
1
1
APPROVED BY:
AmTRAN
MODEL
CHECKED BY:
DESING BY:
A
B
C
D
TECHNOLOGY
VIZIO L32 HDTV10A (3320-0012-0187)
CIRCUITY POWER
PCB P/ N:
ECN NO:
SCH FILE :
PCB FILE :
HDTV_MTKATSC0.DSN
2 of 9
Sheet
00
REV:
01
PCB REV:
37ATSC-M1.BRD
DATE:
0171-1472-0321
APCN05080010
E
Wednesday, March 15, 2006
A
B
C
D
E
+5V_Tuner
2 +5V_Tuner
1,2,4,5,6,7,8,9
GND
GND
GLOBAL SIGNAL
4
4
+5V_Tuner
L11
GND
GND
3
RF_AGC
IF_AGC
4 RF_AGC
4 IF_AGC
U6
Outdoor PS
VS_splitter_+5V
OOB_OP
NC
RF_AGC
NC
AS
SCL
SDA
NC
VS_Tuner_+5V
Broad_IF_OP
IF_AGC
Narrow_IF_OP1
Narrow_IF_OP2
GND
GND
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
0ohm
+ C29
0805L
470uF/16v
ECD5
C30
0.1uF
0402C
TH1
TH2
NC
100
100
0402R
0402R
0402R
Tuner_SCL
Tuner_SDA
4 Tuner_SCL
4 Tuner_SDA
+5V_Tuner
R10
4.7K
0402R
R15
R12
R13
2nd_IF+
2nd_IF-
4 2nd_IF+
4 2nd_IF-
R11
4.7K
0402R
TUNER INTERFACE
Tuner_SCL
Tuner_SDA
3
+5V_Tuner
TH3
TH4
R14
4.7K
C32
1nF
0402C
IF_AGC
0402R
C31
10nF
0402C
PORT TUNER TD1336O/V
R17
510/1%
0402R
+5V_Tuner
L12
C35
0.1uF
0402C
0ohm
+ C34
0805L
470uF/16v
ECD5
R18
510/1%
0402R
U7
1
2
IN+
IN-
3
GND
OUT+
OUT-
C36
1uF
0603C
5
4
U8
1
2
3
4
L14
NC
0805L
PORT SAW FILTER X6965D SIP5K
SIP5D
C33
0.1uF
0402C
VCC_+5V GND
IN_1
OUT_1
IN_2
OUT_2
VAGC
GND
8
7
6
5
2nd_IF2nd_IF+
upc3218
SOP8_065
C39
1uF
0603C
C40
10nF
0402C
IF SAW FILTER AND AMPLIFIER
R20
4.7K
0402R
2
2
RF_AGC
NOTE :
NC MEANS "NOT CONNECTED ON PCB BOARD"
ALL RESISTORS 0402 WATT,5% UNLESS NOTED.
ALL RESISTORS VALUES IN OHMS UNLESS NOTED.
ALL CAPACITORS 50 VOLT & 105"C UNLESS NOTED.
ALL CAPACITOR VALUES IN uF UNLESS NOTED.
ALL RESISTORS 25 VOLT IN .1uF UNLESS NOTED.
M= METAL 1%
APPROVED BY:
1
AmTRAN
MODEL
CHECKED BY:
DESING BY:
A
B
C
D
TECHNOLOGY
1
VIZIO L32 HDTV10A (3320-0012-0187)
CIRCUITY TUNER
PCB P/ N:
ECN NO:
SCH FILE :
PCB FILE :
HDTV_MTKATSC0.DSN
3
Sheet
REV:
PCB REV:
37ATSC-M1.BRD
DATE:
0171-1472-0321
APCN05080010
E
of 9
00
01
Wednesday, March 15, 2006
A
B
C
D
E
C56
1uF
0603C
L19
NC/220nH
0805L
C57
C58
C60
C55
NC/47pF
0402C
AVDD33
AVDD33
0.1uF
0402C
0.1uF
0402C
REFBOT
VCMEXT
C59
10uF
0805C
0.1uF
0402C
DVDD18
REFTOP
AVDD33
AVDD3
AVDD33
L20
C61
0.1uF
0402C
0ohm
0805L
3
Y1
25MHz
XTAL_DIP
XTAL2
XTAL1
AVDD33
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
ADVDD33
NC
NC
AVSS
AVDD
ININ+
AVDD
NC
AVSS
REFBOT
VCMEXT
REFTOP
AVSS
AVDD18
AVDD
AVDD
AVDD
AVSS
AVSS
XTAL2
XTAL1
AVSS
AVDD
AVSS
DVDD33
DVDD18
DVDD18
DVDD33
NC
NC
RESET_
HOST_CLK
DGND
DVDD18
HOST_DATA
DGND33
DVDD33
DGND
DVDD18
TS_ERR
TS_VAL
TS_CLK
DGND
DVDD33
TS_SYNC
TS_DATA0
TS_DATA1
DGND
DVDD18
TS_DATA2
TS_DATA3
DGND
DVDD33
U9
MT5111AE
RF_AGC
IF_AGC
3 RF_AGC
3 IF_AGC
2nd_IF+
2nd_IF-
3 2nd_IF+
3 2nd_IF50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
Tuner_SCL
Tuner_SDA
3 Tuner_SCL
3 Tuner_SDA
ORESET_
OSCL_MST
TUNER INTERFACE
DVDD18
OSDA_MST
5
5
5
5
5
DVDD33
RP11
DVDD18
1
2
3
4
DVDD33
8
7
6
5
TS1ERROR
TS1VALID
TS1CLK
TS1SYNC
8
7
6
5
TS1DATA0
TS1DATA1
TS1DATA2
TS1DATA3
33x4
RP12
1608R_4
1
2
3
4
DVDD18
TS1DATA[0..7]
TS1SYNC
TS1VALID
TS1ERROR
TS1CLK
TS1DATA[0..7]
TS1SYNC
TS1VALID
TS1ERROR
TS1CLK
TS INPUT
OSDA_MST
OSCL_MST
6 OSDA_MST
6 OSCL_MST
ORESET_
1,5,8 ORESET_
3
33x4
1608R_4
DVDD33
8
7
6
5
RP13
1
2
3
4
DVDD33
DVDD18
ADVDD33_2
AVDD5
AVDD33
AVDD33
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
R35
1M
0402R
C62
18pF
0402C
C63
18pF
0402C
4
100-LQFP
2nd_IF+
ADVDD33_1
C54
1uF
0603C
GND
GND
GLOBAL SIGNAL
MT5111AE
2nd_IF-
1,2,3,5,6,7,8,9
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
51
Close to MT5111
DVDD33
Tuner_SCL
Tuner_SDA
R30 4.7K
0402R
R31 4.7K
0402R
DVDD18
IF_AGC
C53
47nF
0402C
R32
1K
0402R
DV33_DM
DV18
2 DV33_DM
2 DV18
DVDD18
DGND
RF_AGC
IF_AGC
DGND
DVDD33
TUNER_CLK
TUNER_DATA
SA1
SA0
DGND
DVDD18
DGND
ANTIF
DGND
DVDD33
NC
NC
NC
DGND
DVDD18
NC
NC
DVDD33
DGND
MT5111_IF_AGC
4
RF_AGC
C52
47nF
0402C
R29
1K
0402R
NC
NC
AVDD
NC
NC
NC
AVSS
NC
NC
AVDD
AVSS
AVDD
NC
NC
ADVDD33
DGND
DVDD33
DVDD18
DGND
NC
NC
TS_DATA7
TS_DATA6
TS_DATA5
TS_DATA4
MT5111_RF_AGC
MT5111_RF_AGC
MT5111_IF_AGC
DVDD33
TS1DATA7
TS1DATA6
TS1DATA5
TS1DATA4
33x4
1608R_4
2
2
DV18
DVDD18
L21
80ohm
0805L
+ C64
10uF/16v
ECD5
DVDD18
C65
0.1uF
0402C
C71
0.1uF
0402C
AVDD33
C66
0.1uF
0402C
C67
0.1uF
0402C
C68
0.1uF
0402C
C69
0.1uF
0402C
C70
0.1uF
0402C
L22
80ohm
0805L
AVDD3
C72
0.1uF
0402C
Digital 1.8V Bypass Caps
AVDD33
DV33_DM
L24
80ohm
0805L
DVDD33
+ C74
10uF/16v
ECD5
DVDD33
C75
0.1uF
0402C
C80
0.1uF
0402C
C76
0.1uF
0402C
C77
0.1uF
0402C
C78
0.1uF
0402C
80ohm
0805L
C79
0.1uF
0402C
AVDD33
Digital 3.3V Bypass Caps
DV33_DM
L26
1
80ohm
0805L
AVDD33
L23
L25
80ohm
0805L
AVDD33
AVDD5
C73
0.1uF
0402C
ADVDD33_1
C81
0.1uF
0402C
1
+ C82
10uF/16v
ECD5
C83
0.1uF
0402C
C88
0.1uF
0402C
C84
0.1uF
0402C
C85
0.1uF
0402C
C86
0.1uF
0402C
C87
0.1uF
0402C
AVDD33
L27
80ohm
0805L
Analog 3.3V Bypass Caps
ADVDD33_2
APPROVED BY:
C89
0.1uF
0402C
CHECKED BY:
DESING BY:
A
B
C
AmTRAN
MODEL
D
TECHNOLOGY
VIZIO L32 HDTV10A (3320-0012-0187)
CIRCUITY MT5111 ASIC
PCB P/ N:
ECN NO:
SCH FILE :
PCB FILE :
HDTV_MTKATSC0.DSN
4
Sheet
REV:
PCB REV:
37ATSC-M1.BRD
DATE:
0171-1472-0321
APCN05080010
E
of 9
00
01
Wednesday, March 15, 2006
3
2
1
PDA22
PDA21
PDA20
PDA19
PDA18
PDA17
PDA16
PDA15
PDA14
PDA13
PDA12
PDA11
PDA10
PDA9
PDA8
PDA7
PDA6
PDA5
PDA4
PDA3
PDA2
PDA1
PDA0
PDD7
PDD6
PDD5
PDD4
PDD3
PDD2
PDD1
PDD0
1,2,3,4,6,7,8,9
E1
F4
E3
E2
OSDA0
OSCL0
OSDA1
OSCL1
U0TX
U0RX
U1TX
U1RX
U2TX
U2RX
U2CTS
TUNER_SW
F3
F2
F1
G4
G3
G2
G1
H4
U0TX
U0RX
U1TX
U1RX
U2TX
U2RX
U2CTS
U2RTS
ASPDIF
AUD_CTRL
H3
H2
H1
J4
J3
J2
J1
K1
K2
K3
K4
L3
L4
AO1SDATA3
AO1SDATA2
AO1SDATA1
AO1SDATA0
AO1LRCK
AO1BCK
AO1MCLK
AO2SDATA0
AO2LRCK
AO2BCK
AO2MCLK
ASPDIF
ASPDIF2
VOB0
VOB1
VOB2
VOB3
VOB4
VOB5
VOB6
VOB7
VOG0
VOG1
VOG2
VOG3
VOG4
VOG5
VOG6
VOG7
VOR0
VOR1
VOR2
VOR3
VOR4
VOR5
VOR6
VOR7
VOPCLK
VOHSYNC
VOVSYNC
VODE
L2
L1
M4
M3
M2
M1
N4
N3
N2
N1
P4
P3
P2
P1
T1
T2
T3
T4
U1
U2
U3
U4
V1
V2
V3
V4
W1
W2
VOB0
VOB1
VOB2
VOB3
VOB4
VOB5
VOB6
VOB7
VOG0
VOG1
VOG2
VOG3
VOG4
VOG5
VOG6
VOG7
VOR0
VOR1
VOR2
VOR3
VOR4
VOR5
VOR6
VOR7
VOPCLK
VOHSYNC
VOVSYNC
VODE
JTRST
JTDI
JTMS
JTCK
JRTCK
JTDO
W3
W4
Y1
Y2
Y3
Y4
JTRST#
JTDI
JTMS
JTCK
JRTCK
JTDO
M5
N5
U5
E10
E19
M24
N24
U24
AE14
AE15
B14
A14
A15
B15
C15
D15
A16
B16
C16
D16
A17
B17
C17
D17
A18
B18
C18
D18
A19
B19
C19
D19
A20
B20
C20
D20
A21
B21
C21
D21
A22
B22
C22
D22
A23
B23
C23
D23
A24
B24
C24
D24
A25
B25
C25
A26
B26
A27
A28
D9
C9
B9
A9
D10
C10
B10
A10
D11
C11
B11
A11
D12
C12
B12
A12
D13
C13
B13
A13
D14
C14
C8
D8
OPWM1
OPWM0
T1DATA7
T1DATA6
T1DATA5
T1DATA4
T1DATA3
T1DATA2
T1DATA1
T1DATA0
T1VALID
T1SYNC
T1CLK
T0DATA7
T0DATA6
T0DATA5
T0DATA4
T0DATA3
T0DATA2
T0DATA1
T0DATA0
T0VALID
T0SYNC
T0CLK
D7
A8
B8
C7
ORTCVDD
ORTCI
ORTCO
ORTCVSS
C3
B3
A3
C4
B4
A4
C5
B5
B6
A5
A6
B7
A7
C6
D6
A2
B2
OXTALO
OXTALI
CVDD
CVDD
CVDD
CVDD
CVDD
CVDD
CVDD
CVDD
CVDD
CVDD
POWE#
POCE0#
POOE0#
POCE1#
POOE1#
POCE2#
POOE2#
B27
B28
C26
C27
C28
D25
D26
PARB#
PARE#
PACE#
PACLE
PAALE
PAWE#
D27
D28
E25
E26
E27
E28
ELREQ
ECLK
ECNTL0
ECNTL1
EDATA0
EDATA1
EDATA2
EDATA3
EDATA4
EDATA5
EDATA6
EDATA7
ELPS
ELINKON
F25
F26
F27
F28
G25
G26
G27
G28
H25
H26
H27
H28
J25
J26
ORESET#
OIRI
OIRO
J27
J28
K25
ICS1#
ICS0#
IDA2
IDA0
IDA1
IINTRQ
IDMACK#
IIORDY
IDIOR#
IDIOW#
IDMARQ
IDD15
IDD0
IDD14
IDD1
IDD13
IDD2
IDD12
IDD3
IDD11
IDD4
IDD10
IDD5
IDD9
IDD6
IDD8
IDD7
IRESET#
K26
K27
K28
L25
L26
L27
L28
M25
M26
M27
M28
N25
N26
N27
N28
P25
P26
P27
P28
T28
T27
T26
T25
U28
U27
U26
U25
V28
DDETECT
DCLK
DCMD
DDATA0
DDATA1
DDATA2
DDATA3
V27
V26
V25
W28
W27
W26
W25
MDETECT
MCLK
MBS
MDATA0
MDATA1
MDATA2
MDATA3
Y28
Y27
Y26
Y25
AA28
AA27
AA26
STSCLK
STSDOUT
STSDIN
SPWRSEL
SDETECT
SCMDVCC
SRST
SCLK
SDATA
AA25
AB28
AB27
AB26
AB25
AC28
AC27
AC26
AC25
VCXO0
6 VCXO0
GLOBAL SIGNAL
VCXO0
VCXO1
TP1
VCXO1
TEST_PD
TEST PURPOSE
4
4
4
4
4
TS1DATA[0..7]
TS1SYNC
TS1VALID
TS1ERROR
TS1CLK
7
7
7
7
7
7
7
7
7
7
7
7
7
7
6
RDQ[0..31]
RDQS[0..3]
RDQM[0..3]
RA[0..13]
RBA[0..1]
RCLK0
RCLK0_
RCS_
RRAS_
RCAS_
RWE_
RCKE
RCLK1
RCLK1_
RVREF
TS1DATA[0..7]
TS1SYNC
TS1VALID
TS1ERROR
TS1CLK
TS INPUT
DV33
R36
4.7K
0402R
ORESET_
TP2
IR
TEST_PD
RDQ[0..31]
RDQS[0..3]
RDQM[0..3]
RA[0..13]
RBA[0..1]
RCLK0
RCLK0_
RCS_
RRAS_
RCAS_
RWE_
RCKE
RCLK1
RCLK1_
RVREF
DDR MEMORY
C238
C
NC/10uF
POCE0_
POOE0_
POWE_
8 POCE0_
8 POOE0_
8 POWE_
PDA[0..22]
PDD[0..7]
8 PDA[0..22]
8 PDD[0..7]
FLASH INTERFACE
AO1MCLK
AO1LRCK
AO1BCK
AO1SDATA0
1,9 AO1MCLK
1,9 AO1LRCK
1,9 AO1BCK
1,9 AO1SDATA0
ASPDIF
1 ASPDIF
AUDIO INTERFACE
8
8
8
8
8
8
JTRST
JTDI
JTMS
JTCK
JRTCK
JTDO
JTRST_
JTDI
JTMS
JTCK
JRTCK
JTDO
JTAG PORT
1,8
1,8
8
8
1,8
1,8
U0RX
U0TX
U1RX
U1TX
U2TX
U2RX
U0RX
U0TX
U1RX
U1TX
U2TX
U2RX
ANALOG VIDEO OUTPUT
FS
6 FS
DVDDKP
6 DVDDKP
R37
330
0402R
T11
T12
T13
T14
T15
T16
T17
T18
U11
U12
U13
U14
U15
U16
U17
U18
V11
V12
V13
V14
V15
V16
V17
V18
LED1
LED DIP2.54
LED2
AVDDBGKP
AVDDYKP
AVDDRKP
2,6 AVDDBGKP
2,6 AVDDYKP
2,6 AVDDRKP
2,6
2,6
2,6
2,6
2,6
6
6
6
6
AVDD_DMPLL0
AVDD_DMPLL1
AVDD_VPLL
AVDD_APLL1
AVDD_APLL0
CAPVPLL
CAPVGND
APLLCAP1
APLLCAP0
AVDD_DMPLL0
AVDD_DMPLL1
AVDD_VPLL
AVDD_APLL1
AVDD_APLL0
CAPVPLL
CAPVGND
APLLCAP1
APLLCAP0
1
1
1
1
1
1
1
AUD_CTRL
1 AUD_CTRL
ANALOG PART
NOTE :
MT5351
BGA471
NC MEANS "NOT CONNECTED ON PCB BOARD"
ALL RESISTORS 0402 WATT,5% UNLESS NOTED.
ALL RESISTORS VALUES IN OHMS UNLESS NOTED.
ALL CAPACITORS 50 VOLT & 105"C UNLESS NOTED.
ALL CAPACITOR VALUES IN uF UNLESS NOTED.
ALL RESISTORS 25 VOLT IN .1uF UNLESS NOTED.
M= METAL 1%
APPROVED BY:
DESING BY:
3
B
DIGITAL VIDEO OUTPUT
AmTRAN
MODEL
4
VOR[0..7]
VOG[0..7]
VOB[0..7]
VOPCLK
VOHSYNC
VOVSYNC
VODE
VOR[0..7]
VOG[0..7]
VOB[0..7]
VOPCLK
VOHSYNC
VOVSYNC
VODE
ATP1
ATP2
6 ATP1
6 ATP2
CHECKED BY:
5
IOG_Y4
IOB_Y5
IOR_Y6
9 IOG_Y4
9 IOB_Y5
9 IOR_Y6
UART (RS232)
DONE
REQUEST_
READY_
RVDD
RVDD
RVDD
RVDD
RVDD
RVDD
RVDD
RVDD
RVDD
RVDD
RVDD
RVDD
RVDD
RVDD
RVDD
RVDD
RVDD
RVDD
RVDD
RVDD
RVDD
AA4
AB4
AC4
AD4
AE4
AE5
AE6
AE7
AE10
AE11
AE12
AE13
AE16
AE17
AE18
AE19
AE22
AE23
AE24
AE25
AD25
OXTALI
OXTALO
6 OXTALI
6 OXTALO
DV25
RVREF
OPWM0
6 OPWM0
POWE_
POCE0_
POOE0_
D
OSDA0
OSCL0
6 OSDA0
6 OSCL0
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
AE8
AE9
AE20
AE21
A
E4
D4
E5
D5
D1
D2
C2
B1
A1
D3
C1
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
DVREF2
DVREF0
DVREF1
DVREF3
L14
L15
L16
L17
L18
M14
M15
M16
M17
M18
N14
N15
N16
N17
N18
P11
P12
P13
P14
P15
P16
P17
P18
R11
R12
R13
R14
R15
R16
R17
R18
ORESET_
REQUEST_
READY_
1,4,8 ORESET_
1 REQUEST_
1 READY_
RCLK0
RCLK0_
RDQ0
RDQ1
RDQ2
RDQ3
RDQ4
RDQ5
RDQ6
RDQ7
RDQS0
RDQM0
RDQM1
RDQS1
RDQ8
RDQ9
RDQ10
RDQ11
RDQ12
RDQ13
RDQ14
RDQ15
RWE_
RCAS_
RRAS_
RCS_
RBA0
RBA1
RA10
RA0
RA1
RA2
RA3
RA4
RA5
RA6
RA7
RA8
RA9
RA11
RA12
RA13
RCKE
RDQ16
RDQ17
RDQ18
RDQ19
RDQ20
RDQ21
RDQ22
RDQ23
RDQS2
RDQM2
RDQM3
RDQS3
RDQ24
RDQ25
RDQ26
RDQ27
RDQ28
RDQ29
RDQ30
RDQ31
RCLK1
RCLK1_
B
MT5351
RDQ32
RDQ33
RDQ34
RDQ35
RDQ36
RDQ37
RDQ38
RDQ39
RDQS4
RDQM4
RDQM5
RDQS5
RDQ40
RDQ41
RDQ42
RDQ43
RDQ44
RDQ45
RDQ46
RDQ47
RCLK0
RCLK0#
RDQ0
RDQ1
RDQ2
RDQ3
RDQ4
RDQ5
RDQ6
RDQ7
RDQS0
RDQM0
RDQM1
RDQS1
RDQ8
RDQ9
RDQ10
RDQ11
RDQ12
RDQ13
RDQ14
RDQ15
RWE#
RCAS#
RRAS#
RCS#
RBA0
RBA1
RA10
RA0
RA1
RA2
RA3
RA4
RA5
RA6
RA7
RA8
RA9
RA11
RA12
RA13
RCKE
RDQ16
RDQ17
RDQ18
RDQ19
RDQ20
RDQ21
RDQ22
RDQ23
RDQS2
RDQM2
RDQM3
RDQS3
RDQ24
RDQ25
RDQ26
RDQ27
RDQ28
RDQ29
RDQ30
RDQ31
RCLK1
RCLK1#
RDQ48
RDQ49
RDQ50
RDQ51
RDQ52
RDQ53
RDQ54
RDQ55
RDQS6
RDQM6
RDQM7
RDQS7
RDQ56
RDQ57
RDQ58
RDQ59
RDQ60
RDQ61
RDQ62
RDQ63
AO1SDATA0
AO1LRCK
AO1BCK
AO1MCLK
PDENPOD
PDCD2#
PDIOIS16#
PDREG#
PDINPACK#
PDWAIT#
PDRESET
PDIREQ#
PDWE#
PDIOWR#
PDIORD#
PDOE#
PDCE2#
PDCE1#
PDA25
PDA24
PDA23
PDA22
PDA21
PDA20
PDA19
PDA18
PDA17
PDA16
PDA15
PDA14
PDA13
PDA12
PDA11
PDA10
PDA9
PDA8
PDA7
PDA6
PDA5
PDA4
PDA3
PDA2
PDA1
PDA0
PDD7
PDD6
PDD5
PDD4
PDD3
PDD2
PDD1
PDD0
PDCD1#
OSDA0
OSCL0
AVDDRKP
IOR_Y6
IOB_Y5
IOG_Y4
IOX_Y3
IOY_Y2
IOC_Y1
AVDDYKP
AVDDBGKP
NC
FS
DACVREF
CIN_Y0
DVDDKP
NC
IOVDD
IOVDD
IOVDD
IOVDD
IOVDD
IOVDD
IOVDD
IOVDD
IOVDD
IOVDD
IOVDD
IOVDD
IOVDD
IOVDD
IOVDD
IOVDD
IOVDD
IOVDD
IOVDD
IOVDD
IOVDD
IOVDD
AA1
AA2
AA3
AB1
AB2
AB3
AC1
AC2
AC3
AD1
AD2
AD3
AE1
AE2
AE3
AF1
AF2
AF3
AG1
AG2
AH1
AH2
AH3
AG3
AH4
AG4
AF4
AH5
AG5
AF5
AH6
AG6
AF6
AH7
AG7
AF7
AH8
AG8
AF8
AH9
AG9
AF9
AH10
AG10
AF10
AH11
AG11
AF11
AH12
AG12
AF12
AH13
AG13
AF13
AH14
AG14
AF14
AH15
AG15
AF15
AH16
AG16
AF16
AH17
AG17
AF17
AH18
AG18
AF18
AH19
AG19
AF19
AH20
AG20
AF20
AH21
AG21
AF21
AH22
AG22
AF22
AH23
AG23
AF23
AH24
AG24
AF24
AH25
AG25
AF25
AH26
AG26
AH27
AH28
AG28
AG27
AF28
AF27
AF26
AE28
AE27
AE26
AD28
AD27
AD26
C
TP3
TEST_PD
TP7
P5
R1
R2
R3
R4
R5
T5
E11
E12
E13
E14
E15
E16
E17
E18
P24
R24
R25
R26
R27
R28
T24
APLLCAP0
APLLCAP1
CAPVGND
CAPVPLL
ATP2
ATP1
AVDD_APLL0
AVDD_APLL1
AVDD_VPLL
AVDD_DMPLL1
AVDD_DMPLL0
L11
L12
L13
M11
M12
M13
N11
N12
N13
AGND
AGND
AGND
AGND
AGND
AGND
AGND
AGND
AGND
DV33
GND
GND
DV12
D
U10
DV33
DV25
DV12
1,2,6,8 DV33
2,6,7 DV25
2,6 DV12
TS1DATA7
TS1DATA6
TS1DATA5
TS1DATA4
TS1DATA3
TS1DATA2
TS1DATA1
TS1DATA0
TS1VALID
TS1SYNC
TS1CLK
TS1ERROR
OPWM0
DVDDKP
FS
AVDDYKP
AVDDBGKP
AVDDRKP
IOR_Y6
IOB_Y5
IOG_Y4
OXTALO
OXTALI
4
APLLCAP0
APLLCAP1
CAPVGND
CAPVPLL
ATP2
ATP1
AVDD_APLL0
AVDD_APLL1
AVDD_VPLL
AVDD_DMPLL1
AVDD_DMPLL0
5
2
TECHNOLOGY
VIZIO L32 HDTV10A (3320-0012-0187)
CIRCUITY MT5351 ASIC
PCB P/ N:
ECN NO:
SCH FILE :
PCB FILE :
1
HDTV_MTKATSC0.DSN
5 of 9
Sheet
00
REV:
01
PCB REV:
37ATSC-M1.BRD
DATE:
0171-1472-0321
APCN05080010
Wednesday, March 15, 2006
A
5
4
3
2
1
FS
R38
560
0402R
R39
NC/10M
0402R
Y2
OXTALI
D
CAPVPLL
C90
TP4
CAPVGND
TEST_PD
APLLCAP1
AV33
APLLCAP0
C93
1500pF
0402C
5600pF
0402C
C94
1500pF
0402C
R40
NC/50
0402R
OXTALO
NC/27MHz
XTAL_DIP
AV33
R41
NC/50
0402R
C92
NC/20pF
0402C
1,2,5,8
2,5
2,5,7
2,5
CAPVGND
ATP1
1,2,3,4,5,7,8,9
ATP2
DV33
AV33
DV25
DV12
DV33
AV33
DV25
DV12
GND
GND
OSDA0
OSCL0
5 OSDA0
5 OSCL0
DV33
OPWM0
C96
10nF
0402C
DV33
C99
10uF/10v
ECD5
C100
4.7uF
0805C
C101
0.1uF
0402C
C102
0.1uF
0402C
C103
4.7uF
0805C
LEFT SIDE
C104
0.1uF
0402C
C105
0.1uF
0402C
RIGHT SIDE
C106
4.7uF
0805C
C107
0.1uF
0402C
C108
0.1uF
0402C
C109
0.1uF
0402C
C97
1nF
0402C
C98
47pF
0402C
1
CVIN
2
TRI-STATE
3
GND
VDD
6
NC
5
OUT
4
VCXO FR270003
XTAL_S6P
C110
0.1uF
0402C
TOP SIDE
C95
0.1uF
0402C
GLOBAL SIGNAL
R43
10
0402R
OXTALI
R44
NC/10
0402R
VCXO0
C112
4.7uF
0805C
C113
0.1uF
0402C
C114
4.7uF
0805C
C115
0.1uF
0402C
LEFT SIDE
C116
0.1uF
0402C
C117
0.1uF
0402C
C118
0.1uF
0402C
C119
0.1uF
0402C
C120
0.1uF
0402C
2,5
2,5
2,5
2,5
2,5
5
5
5
5
C121
0.1uF
0402C
BOTTOM SIDE
R45
4.7K
0402R
DVDDKP
5 DVDDKP
AVDDBGKP
AVDDYKP
AVDDRKP
2,5 AVDDBGKP
2,5 AVDDYKP
2,5 AVDDRKP
DV33
C111
10uF/10v
ECD5
FS
5 FS
DV25
C
OSDA_MST
OSCL_MST
4 OSDA_MST
4 OSCL_MST
X1
R42
8.2K
0402R
D
+5V
1,2,9 +5V
C91
NC/20pF
0402C
R46
4.7K
0402R
AVDD_DMPLL0
AVDD_DMPLL1
AVDD_VPLL
AVDD_APLL1
AVDD_APLL0
CAPVPLL
CAPVGND
APLLCAP1
APLLCAP0
C
ATP1
ATP2
5 ATP1
5 ATP2
DV12
AVDD_DMPLL0
AVDD_DMPLL1
AVDD_VPLL
AVDD_APLL1
AVDD_APLL0
CAPVPLL
CAPVGND
APLLCAP1
APLLCAP0
ANALOG PART
C122
10uF/10v
ECD5
C123
0.1uF
0402C
C124
0.1uF
0402C
C125
0.1uF
0402C
C126
0.1uF
0402C
LEFT SIDE
DV12
FB2
C127
0.1uF
0402C
C128
0.1uF
0402C
C129
0.1uF
0402C
C130
0.1uF
0402C
C131
0.1uF
0402C
TOP SIDE
RIGHT SIDE
C133
0.1uF
0402C
BOTTOM SIDE
C134
0.1uF
0402C
OSDA0
OSCL0
MEM_VREF
OSDA_MST
R48
100
0402R
OSCL_MST
MEM_VREF
RVREF
7 MEM_VREF
5 RVREF
OPWM0
5 OPWM0
OXTALI
OXTALO
5 OXTALI
5 OXTALO
VCXO0
5 VCXO0
C135
4.7uF
ECD5
+5V
AVDDBGKP
C136
0.1uF
0402C
C137
0.1uF
0402C
C138
0.1uF
0402C
U11
1
2
3
4
AVDDYKP
B
R47
100
0402R
DVDDKP
AV33
0.47uH
0805L
C132
0.1uF
0402C
FB3
C139
0.1uF
0402C
RVREF
C140
4.7uF
ECD5
0.47uH
0805L
C141
0.1uF
0402C
NC
NC
NC
GND
VCC
WP
SCL
SDA
8
7
6
5
OSCL_MST
OSDA_MST
EEPROM 24C16
SOP8
B
AVDDRKP
MT5351 SYSTEM EEPROM
C142
0.1uF
0402C
AVDD_DMPLL0
C143
0.1uF
0402C
AVDD_DMPLL1
C144
0.1uF
0402C
AVDD_VPLL
C145
0.1uF
0402C
NOTE : NC MEANS "NOT CONNECTED ON PCB BOARD"
ALL RESISTORS 1/10 WATT,5% UNLESS NOTED.
ALL RESISTORS VALUES IN OHMS UNLESS NOTED.
ALL CAPACITORS 50 VOLT & 105"C UNLESS NOTED.
ALL CAPACITOR VALUES IN uF UNLESS NOTED.
ALL RESISTORS 25 VOLT IN .1uF UNLESS NOTED.
M= METAL 1%
AVDD_APLL1
C146
0.1uF
0402C
A
A
AVDD_APLL0
APPROVED BY:
C147
0.1uF
0402C
AmTRAN
MODEL
CHECKED BY:
DESING BY:
5
4
3
2
TECHNOLOGY
VIZIO L32 HDTV10A (3320-0012-0187)
CIRCUITY MT5351 PERIPHERAL
PCB P/ N:
ECN NO:
SCH FILE :
PCB FILE :
L32HDTV_MTKATSC0.DSN
6 of 9
Sheet
00
REV:
01
PCB REV:
37ATSC-M1.BRD
DATE:
0171-1472-0321
APCN05080010
1
Wednesday, March 15, 2006
5
4
3
+1V25_DDR
RP14 22x4
RWE_
4
RCAS_
3
RCS_
2
RBA0
1
RA10
4
RA0 RP18
3
RA2 22x4
2
RA3 1608R_4 1
RA5
4
RA6 RP22
3
RA8 22x4
2
RA9 1608R_4 1
D
1608R_4
5
6
7
8
5
6
7
8
5
6
7
8
MEM_WE_
MEM_CAS_
MEM_CS_
MEM_BA0
MEM_ADDR10
MEM_ADDR0
MEM_ADDR2
MEM_ADDR3
MEM_ADDR5
MEM_ADDR6
MEM_ADDR8
MEM_ADDR9
MEM_ADDR5
MEM_ADDR4
MEM_ADDR13
MEM_WE_
MEM_ADDR10
MEM_ADDR0
RP19
MEM_ADDR1
75x4
1608R_4 MEM_ADDR2
MEM_ADDR9
MEM_ADDR8
MEM_ADDR7
MEM_ADDR6
4
3
2
1
4
3
2
1
4
3
2
1
5
6
7
8
5
6
7
8
5
6
7
8
RA12
R57
22
MEM_ADDR12
MEM_ADDR12 R58
75
RA13
R59
22
MEM_ADDR13
MEM_CAS_
75
RRAS_
RBA1
RA1
RA4
RP30 22x4
1
2
3
4
1608R_4
8
7
6
5
MEM_RAS_
MEM_BA1
MEM_ADDR1
MEM_ADDR4
MEM_BA1
MEM_BA0
MEM_CS_
MEM_RAS_
R60
RP31 75x4
1
2
3
4
RP28
47x4
1608R_4
RP32
47x4
1608R_4
RA7
R61
22
MEM_ADDR7
MEM_ADDR3
R62
75
RA11
R65
22
MEM_ADDR11
MEM_ADDR11 R66
75
RCKE
R71
22
MEM_CLKEN
MEM_CLKEN
NC/75
CLOSED TO MT5351
R72
RP34
47x4
1608R_4
CLOSED TO DDR
RP36
47x4
1608R_4
RCLK0
RCLK0_
R77
22
0402R
RCLK1
R78
22
0402R
RDQ16
RDQ17
RDQ18
RDQ19
RDQ20
RDQ21
RDQ22
RDQ23
RDQS2
RDQM2
RDQM3
RDQS3
RDQ24
RDQ25
RDQ26
RDQ27
RDQ28
RDQ29
RDQ30
RDQ31
RP16 47x4 1608R_4
4
5
3
6
2
7
1
8
4
5
3
6
2
7
1
8
R49
47
R51
47
R53
47
R55
47
4
5
3
6
2
7
1
8
4
5
3
6
2
7
1
8
MEM_DQ0
MEM_DQ1
MEM_DQ2
MEM_DQ3
MEM_DQ4
MEM_DQ5
MEM_DQ6
MEM_DQ7
MEM_DQS0
MEM_DQM0
MEM_DQM1
MEM_DQS1
MEM_DQ8
MEM_DQ9
MEM_DQ10
MEM_DQ11
MEM_DQ12
MEM_DQ13
MEM_DQ14
MEM_DQ15
4
3
2
1
4
3
2
1
R50
R52
R54
R56
4
3
2
1
4
3
2
1
4
3
2
1
4
3
2
1
R63
R67
R69
R73
4
3
2
1
4
3
2
1
MEM_DQ16
MEM_DQ17
MEM_DQ18
MEM_DQ19
MEM_DQ20
MEM_DQ21
MEM_DQ22
MEM_DQ23
MEM_DQS2
MEM_DQM2
MEM_DQM3
MEM_DQS3
MEM_DQ24
MEM_DQ25
MEM_DQ26
MEM_DQ27
MEM_DQ28
MEM_DQ29
MEM_DQ30
MEM_DQ31
4
5
3
6
2
7
1
8
4
5
3
6
2
7
1
8
R64
75
R68
75
R70
75
R74
75
4
5
3
6
2
7
1
8
4
5
3
6
2
7
1
8
RP37 75x4
1608R_4
5
6
7
8
5
6
7
8
47
47
47
47
5
6
7
8
5
6
7
8
MEM_CLKA
R75
22
0402R
1
+1V25_DDR
RDQ0
RDQ1
RP15
RDQ2
75x4
RDQ3
1608R_4
RDQ4
RDQ5
RP20
RDQ6
47x4
1608R_4 RDQ7
RDQS0
RDQM0
RP23
RDQM1
75x4
RDQS1
1608R_4
RDQ8
RDQ9
RP24
RDQ10
47x4
1608R_4 RDQ11
RDQ12
RDQ13
RP26
RDQ14
47x4
1608R_4 RDQ15
1608R_4
8
7
6
5
2
R76
100
0402R
MEM_CLKA_
CLOSED TO MT5351
DV25
5
6
7
8
5
6
7
8
75
75
75
75
5
6
7
8
5
6
7
8
RP17
75x4
1608R_4
RP21
75x4
1608R_4
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
MEM_DQ0
MEM_DQ1
MEM_DQ2
MEM_DQ3
MEM_DQ4
RP25
75x4
1608R_4
RP27
75x4
1608R_4
RP29
75x4
1608R_4
RP33
75x4
1608R_4
RP35
75x4
1608R_4
DV25
DV25
DV25
U12
MEM_DQ5
MEM_DQ6
MEM_DQ7
MEM_DQS0
MEM_ADDR13
MEM_DQM0
MEM_WE_
MEM_CAS_
MEM_RAS_
MEM_CS_
MEM_BA0
MEM_BA1
MEM_ADDR10
MEM_ADDR0
MEM_ADDR1
MEM_ADDR2
MEM_ADDR3
U13
VDD
DQ0
VDDQ
DQ1
DQ2
VSSQ
DQ3
DQ4
VDDQ
DQ5
DQ6
VSSQ
DQ7
NC
VDDQ
LDQS
NC
VDD
NC
LDM
WE
CAS
RAS
CS
NC
BS0
BS1
A10/AP
A0
A1
A2
A3
VDD
VSS
DQ15
VSSQ
DQ14
DQ13
VDDQ
DQ12
DQ11
VSSQ
DQ10
DQ9
VDDQ
DQ8
NC
VSSQ
UDQS
NC
VREF
VSS
UDM
CLK
CLK
CKE
NC
A12
A11
A9
A8
A7
A6
A5
A4
VSS
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
MEM_DQ15
MEM_DQ16
MEM_DQ14
MEM_DQ13
MEM_DQ17
MEM_DQ18
MEM_DQ12
MEM_DQ11
MEM_DQ19
MEM_DQ20
MEM_DQ10
MEM_DQ9
MEM_DQ21
MEM_DQ22
MEM_DQ8
MEM_DQ23
MEM_DQS1
MEM_DQS2
MEM_ADDR13
MEM_VREF
MEM_DQM1
MEM_CLKA_
MEM_CLKA
MEM_CLKEN
MEM_DQM2
MEM_WE_
MEM_CAS_
MEM_RAS_
MEM_CS_
MEM_ADDR12
MEM_ADDR11
MEM_ADDR9
MEM_ADDR8
MEM_ADDR7
MEM_ADDR6
MEM_ADDR5
MEM_ADDR4
MEM_BA0
MEM_BA1
MEM_ADDR10
MEM_ADDR0
MEM_ADDR1
MEM_ADDR2
MEM_ADDR3
16M x 16 DDR TSOP-66
TSOP66_065
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
VDD
DQ0
VDDQ
DQ1
DQ2
VSSQ
DQ3
DQ4
VDDQ
DQ5
DQ6
VSSQ
DQ7
NC
VDDQ
LDQS
NC
VDD
NC
LDM
WE
CAS
RAS
CS
NC
BS0
BS1
A10/AP
A0
A1
A2
A3
VDD
VSS
DQ15
VSSQ
DQ14
DQ13
VDDQ
DQ12
DQ11
VSSQ
DQ10
DQ9
VDDQ
DQ8
NC
VSSQ
UDQS
NC
VREF
VSS
UDM
CLK
CLK
CKE
NC
A12
A11
A9
A8
A7
A6
A5
A4
VSS
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
MEM_DQ31
MEM_DQ30
MEM_DQ29
1,2,3,4,5,6,8,9
GND
GND
MEM_DQ26
MEM_DQ25
D
GLOBAL SIGNAL
MEM_DQ24
MEM_DQS3
5
5
5
5
5
5
5
5
5
5
5
5
5
5
6
MEM_VREF
MEM_DQM3
MEM_CLKB_
MEM_CLKB
MEM_CLKEN
MEM_ADDR12
MEM_ADDR11
MEM_ADDR9
MEM_ADDR8
MEM_ADDR7
MEM_ADDR6
MEM_ADDR5
MEM_ADDR4
RDQ[0..31]
RDQS[0..3]
RDQM[0..3]
RA[0..13]
RBA[0..1]
RCLK0
RCLK0_
RCS_
RRAS_
RCAS_
RWE_
RCKE
RCLK1
RCLK1_
MEM_VREF
RDQ[0..31]
RDQS[0..3]
RDQM[0..3]
RA[0..13]
RBA[0..1]
RCLK0
RCLK0_
RCS_
RRAS_
RCAS_
RWE_
RCKE
RCLK1
RCLK1_
MEM_VREF
DDR MEMORY
EQUAL LINE LENGTH
16M x 16 DDR TSOP-66
TSOP66_065
DDR#1
DV25
2,5,6 DV25
MEM_DQ28
MEM_DQ27
DDR#2
CLOSED TO DDR
C
C
RCLK1_
MEM_CLKB
R79
100
0402R
MEM_CLKB_
R80
22
0402R
CLOSED TO MT5351
+1V25_DDR
C149
0.1uF
0402C
CLOSED TO DDR
TP5
+1V25_DDR
TEST_PD
+ C148
220uF/16v
ECD8
R81
4.7K
0402R
U14
MEM_VREF
+1V25_DDR
C152
0.1uF
0402C
DV25
C153
0.1uF
0402C
C154
0.1uF
0402C
C155
0.1uF
0402C
C156
0.1uF
0402C
C157
0.1uF
0402C
C158
0.1uF
0402C
C159
0.1uF
0402C
C160
0.1uF
0402C
C161
0.1uF
0402C
C162
0.1uF
0402C
C163
0.1uF
0402C
C174
0.1uF
0402C
C175
0.1uF
0402C
C176
0.1uF
0402C
C177
0.1uF
0402C
C178
0.1uF
0402C
C179
0.1uF
0402C
C180
0.1uF
0402C
C181
0.1uF
0402C
C182
0.1uF
0402C
C183
0.1uF
0402C
C184
0.1uF
0402C
C151
0.1uF
0402C
C165
0.1uF
0402C
+ C164
220uF/16v
ECD8
C166
0.1uF
0402C
C167
0.1uF
0402C
+1V25_DDR
B
C194
0.1uF
0402C
C169
0.1uF
0402C
C170
0.1uF
0402C
C171
0.1uF
0402C
BYPASS CAP. FOR TERMINATOR
(EVERY 2 RESISTOR PUT 1 BYPASS CAP.)
C195
0.1uF
0402C
C186
0.1uF
0402C
C187
0.1uF
0402C
C188
0.1uF
0402C
C189
0.1uF
0402C
DV25
8
7
6
5
IC LP2996 DDR Termination SOP-8
SOP8
+ C150
47uF/16v
ECD5
BYPASS CAP. FOR DIMM
+1V25_DDR FOR DDR TERMINATOR
MEM_VREF FOR DDR AND MT5351 VREF
DV25
+ C185
220uF/16v
ECD8
GND
VTT
SD
PVIN
VSENSE AVIN
VREF
VDDQ
C172
0.1uF
0402C
FOR DDR#1
+1V25_DDR
C173
0.1uF
0402C
C168
0.1uF
0402C
1
2
3
4
C190
0.1uF
0402C
C191
0.1uF
0402C
C192
0.1uF
0402C
C193
0.1uF
0402C
B
FOR DDR#2
BYPASS CAP. FOR DDR
MEM_VREF
C196
0.1uF
0402C
C197
0.1uF
0402C
C198
0.1uF
0402C
C199
0.1uF
0402C
C200
0.1uF
0402C
C201
0.1uF
0402C
C202
0.1uF
0402C
C203
0.1uF
0402C
C204
0.1uF
0402C
C205
0.1uF
0402C
NOTE : NC MEANS "NOT CONNECTED ON PCB BOARD"
ALL RESISTORS 1/16 WATT,5% UNLESS NOTED.
ALL RESISTORS VALUES IN OHMS UNLESS NOTED.
ALL CAPACITORS 50 VOLT & 105"C UNLESS NOTED.
ALL CAPACITOR VALUES IN uF UNLESS NOTED.
ALL RESISTORS 25 VOLT IN .1uF UNLESS NOTED.
M= METAL 1%
A
A
APPROVED BY:
AmTRAN
MODEL
CHECKED BY:
DESING BY:
5
4
3
2
TECHNOLOGY
VIZIO L32 HDTV10A (3320-0012-0187)
CIRCUITY DDR MEMORY
PCB P/ N:
ECN NO:
SCH FILE :
PCB FILE :
HDTV_MTKATSC0.DSN
7
Sheet
REV:
PCB REV:
37ATSC-M1.BRD
DATE:
0171-1472-0321
APCN05080010
1
of 9
00
01
Wednesday, March 15, 2006
5
D
DV33
R87
4.7K
0402R
ORESET_
C209
10pF
0402C
R88
4
U15
PDA1
PDA2
PDA3
PDA4
PDA5
PDA6
PDA7
PDA8
PDA9
PDA10
PDA11
PDA12
PDA13
PDA14
PDA15
PDA16
PDA17
PDA18
PDA19
PDA20
PDA21
PDA22
POCE0_
POOE0_
POWE_
25
24
23
22
21
20
19
18
8
7
6
5
4
3
2
1
48
17
16
9
10
13
26
28
11
NOR_RST_
12
0
0402R
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
A16
A17
A18
A19
A20
A21
CE
OE
WE
D0
D1
D2
D3
D4
D5
D6
D7
D8
D9
D10
D11
D12
D13
D14
D15/A-1
29
31
33
35
38
40
42
44
30
32
34
36
39
41
43
45
WP/ACC
RY/BY
BYTE
14
15
47
VCC
37
GND1
GND2
27
46
3
PDD0
PDD1
PDD2
PDD3
PDD4
PDD5
PDD6
PDD7
2
DV33
DV33
R82
NC/4.7K
0402R
PDA0
R85
PDA0
NOR_WP_
NOR_RY_BY0_
1,2,3,4,5,6,7,9
R83
NC/4.7K
0402R
PDA1
FB4
+ C207
10uF/16v
ECD5
C208
0.1uF
0402C
5 POCE0_
5 POOE0_
5 POWE_
5 PDD[0..7]
5 PDA[0..22]
DV33
DV33
5
5
5
5
5
5
RESET
R89
4.7K
0402R
NOR FLASH #0
R90
4.7K
0402R
J5
1
2
3
4
U0RX
U0TX
1,5
1,5
5
5
1,5
1,5
DV33
8
7
6
5
R92
4.7K
0402R
1
2
3
4
PR1
1Kx4
1608R_4
JRTCK
JTDO
R96
R97
R93
4.7K
0402R
JTAG_DBGRQ
JTAG_DBGACK
R98
4.7K
0402R
J6
1
3
5
7
9
11
13
15
17
19
2
4
6
8
10
12
14
16
18
20
PDD[0..7]
PDA[0..22]
R94
4.7K
0402R
JTRST_
JTDI
JTMS
JTCK
JRTCK
JTDO
JTRST_
JTDI
JTMS
JTCK
JRTCK
JTDO
U0RX
U0TX
U1RX
U1TX
U2TX
U2RX
U0RX
U0TX
U1RX
U1TX
U2TX
U2RX
C
UART (RS232)
DV33
TVTREF_1
JTRST_
JTDI
JTMS
JTCK
0
0402R
0
0402R
POCE0_
POOE0_
POWE_
JTAG PORT
4x1 W/HOUSING
W200_4A
CLI OUTPUT
R91
1K
0402R
D
FLASH INTERFACE
0.47uH
0805L
IC FLASH MX29LV320 32Mb TSOP-48
TSOP48
C
ORESET_
GLOBAL SIGNAL
TRAP CIRCUIT
NC/4.7K
0402R
GND
GND
1,4,5 ORESET_
PDA2
R84
NC/4.7K
0402R
C206
NC/10pF
0402C
R86
+5V
DV33
1,2,6,9 +5V
1,2,5,6 DV33
ORESET_
0
0402R
1
R95
4.7K
0402R
J7
1
2
3
4
U1RX
U1TX
4x1 W/HOUSING
W200_4A
SOFTWARE DEBUG PORT
10x2
W254_10X2
R99
4.7K
0402R
DV33
TP6
GND
TEST_PD
GND
R100
4.7K
0402R
R101
4.7K
0402R
J8
1
2
3
4
U2RX
U2TX
B
FOR SOFTWARE LINK
B
4x1 W/HOUSING
W200_4A
NOTE : NC MEANS "NOT CONNECTED ON PCB BOARD"
ALL RESISTORS 1/16 WATT,5% UNLESS NOTED.
ALL RESISTORS VALUES IN OHMS UNLESS NOTED.
ALL CAPACITORS 50 VOLT & 105"C UNLESS NOTED.
ALL CAPACITOR VALUES IN uF UNLESS NOTED.
ALL RESISTORS 25 VOLT IN .1uF UNLESS NOTED.
M= METAL 1%
A
A
APPROVED BY:
AmTRAN
MODEL
CHECKED BY:
DESING BY:
5
4
3
2
TECHNOLOGY
VIZIO L32 HDTV10A (3320-0012-0187)
CIRCUITY NOR FLASH/JTAG/UART
PCB P/ N:
ECN NO:
SCH FILE :
PCB FILE :
HDTV_MTKATSC0.DSN
8
Sheet
REV:
PCB REV:
37ATSC-M1.BRD
DATE:
0171-1472-0321
APCN05080010
1
of 9
00
01
Wednesday, March 15, 2006
A
B
C
D
E
MAIN YPbPr OUTPUT
MAIN_YOUT
560nH
0603L
C211
120pF
0603C
3
R102
75 1%
0402R
C212
47pF
0402C
1
4
L29
560nH
0603L
C210
47pF
0402C
2
L28
IOG_Y4
D2
DIODE SMD BAV99
BAW99
+5V
4
+12V
+12V_OPA
FB5
0.47uH
0805L
L31
C217
47pF
0402C
1
R103
75 1%
0402R
MAIN_PbOUT
560nH
0603L
C216
120pF
0603C
2
560nH
0603L
C215
47pF
0402C
C214
0.1uF
0402C
D3
DIODE SMD BAV99
BAW99
+5V
C222
47pF
0402C
R105
47K
0402R
2
R106
75 1%
0402R
OPVREF
1,5
1,5
1,5
1,5
MAIN_PrOUT
560nH
0603L
C221
120pF
0603C
1
3
560nH
0603L
C220
47pF
0402C
IOG_Y4
IOB_Y5
IOR_Y6
5 IOG_Y4
5 IOB_Y5
5 IOR_Y6
ANALOG VIDEO OUTPUT
3
IOR_Y6
L33
GLOBAL SIGNAL
+12V
R104
47K
0402R
L32
GND
GND
3
L30
IOB_Y5
1,2,3,4,5,6,7,8
+ C213
100uF/25v
ECD6
+12V
+5V
DV33
1,2 +12V
1,2,6 +5V
1,2,5,6,8 DV33
+ C218
10uF/25v
ECD5
AUDIO INTERFACE
C219
0.1uF
0402C
D4
DIODE SMD BAV99
BAW99
+5V
AO1MCLK
AO1LRCK
AO1BCK
AO1SDATA0
AO1MCLK
AO1LRCK
AO1BCK
AO1SDATA0
3
MAIN_YOUT
MAIN_PbOUT
MAIN_PrOUT
1 MAIN_YOUT
1 MAIN_PbOUT
1 MAIN_PrOUT
AUD_RCHOUT
AUD_LCHOUT
1 AUD_RCHOUT
1 AUD_LCHOUT
20K
0402R
33x4
1608R_4
+ C229
3.3uF/50v
ECD5
2
C231
0.1uF
0402C
SDIN
SCLK
LRCK
MCLK
VQ
AOUTR
VA
GND
AOUTL
FILT+
10
9
8
7
6
CS4344 2-CH AUDIO DAC
TSSOP10
AUD_RCH
AUD_LCH
R108
R109
10K
0402R
10uF/25v
ECD5
5.1K
0402R
4
C226
AUD_LCH
2
3
C228
2.2nF
0402C
C227
1
U16A
NJM4558 OPA
SOP8
8
1
2
3
4
5
+
8
7
6
5
+
U17
RP38
1
2
3
4
C223
220pF
0402C
C225
0.1uF
0402C
-
+ C224
10uF/25v
ECD5
R110
+
FB6
0.47uH
0805L
AO1SDATA0
AO1BCK
AO1LRCK
AO1MCLK
ANALOG A/V OUTPUT
R107
+5V
10uF/25v
ECD5
AUD_LCHOUT
51
0402R
2
+ C230
10uF/25v
ECD5
OPVREF
+12V_OPA
R111
20K
0402R
C232
220pF
0402C
+12V_OPA
5.1K
0402R
6
5
C235
2.2nF
0402C
8
10uF/25v
ECD5
OPVREF
C234
7
U16B
NJM4558 OPA
SOP8
R114
+
R113
10K
0402R
+
R112
-
C233
+
AUD_RCH
4
C236
0402C
10uF/25v
ECD5
AUD_RCHOUT
51
0402R
+12V_OPA
1
1
APPROVED BY:
NOTE : NC MEANS "NOT CONNECTED ON PCB BOARD"
ALL RESISTORS 1/10 WATT,5% UNLESS NOTED.
ALL RESISTORS VALUES IN OHMS UNLESS NOTED.
ALL CAPACITORS 50 VOLT & 105"C UNLESS NOTED.
ALL CAPACITOR VALUES IN uF UNLESS NOTED.
ALL RESISTORS 25 VOLT IN .1uF UNLESS NOTED.
M= METAL 1%
A
B
C
AmTRAN
MODEL
CHECKED BY:
DESING BY:
D
TECHNOLOGY
VIZIO L32 HDTV10A (3320-0012-0187)
CIRCUITY ANALOG A/V OUTPUT
PCB P/ N:
ECN NO:
SCH FILE :
PCB FILE :
HDTV_MTKATSC0.DSN
9
Sheet
REV:
PCB REV:
37ATSC-M1.BRD
DATE:
0171-1472-0321
APCN05080010
E
of 9
00
01
Wednesday, March 15, 2006
5
4
3
2
1
J1
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
C
P2
D
GND
G/Y
B/U
R/V
LMAIN1
RMAIN1
J2
S1C_IN
GND
IR
8302NET1
8302NET2
RXD
TXD
AGND
HPR
HPL
AGND
HPDET
AV3_IN
GND_SIGNAL
AV3L
AGND
AV3R
AGND
S1Y_IN
GND_SIGNAL
S1C_IN
GND_SIGNAL
SVDET2
4
GND_SIGNAL 2
P2
C
Y
G
G
5
P1
P1
D
3
S1Y_IN
1
S
GND_SIGNAL
SVDET2
S-VIDEO DETECT
YC_CONN_005
C
J4
R1
2.2
C5
0.1uF
R2
2.2
C6
0.1uF
GND_SIGNAL
AV3_IN
1
2
AGND
AV3L
3
4
AGND
AV3R
5
6
RCA3
RCA_JK3B
W05S_30A
B
B
J3
HPR
L8
80ohm
L2
80ohm
NOTE : NC MEANS "NOT CONNECTED ON PCB BOARD"
ALL RESISTORS 1/10 WATT,5% UNLESS NOTED.
ALL RESISTORS VALUES IN OHMS UNLESS NOTED.
ALL CAPACITORS 50 VOLT & 105"C UNLESS NOTED.
ALL CAPACITOR VALUES IN uF UNLESS NOTED.
ALL RESISTORS 25 VOLT IN .1uF UNLESS NOTED.
M= METAL 1%
4
3
5
2
1
HPDET
HPL
AGND
PHONEJACK 5P
APPROVED BY:
AmTRAN
MODEL
CHECKED BY:
A
DESING BY:
5
4
3
TECHNOLOGY
VIZIO L32 HDTV10A_MTK (3320-0062-0146)
A
CIRCUITY VIDEO INPUT& AUDIO OUTPUT
PCB P/ N:
ECN NO:
SCH FILE :
PCB FILE :
2
L32HDTV_MTKC0.DSN
1
Sheet
REV:
PCB REV:
37reader-c2.BRD
DATE:
0171-3871-0111
APCN05080010
1
of 1
00
01
Tuesday, March 14, 2006
CAM350 V 7.6 : Thu Mar 16 07:34:51 2006 - (Untitled) : Board
CAM350 V 7.6 : Thu Mar 16 07:34:57 2006 - (Untitled) : VCC-SCH
CAM350 V 7.6 : Thu Mar 16 07:34:57 2006 - (Untitled) : BotSilk
CAM350 V 7.6 : Thu Mar 16 07:34:58 2006 - (Untitled) : GND
CAM350 V 7.6 : Thu Mar 16 07:35:04 2006 - (Untitled) : Board
CAM350 V 7.6 : Thu Mar 16 07:35:06 2006 - (Untitled) : TopSilk
CAM350 V 7.6 : Thu Mar 16 07:35:06 2006 - (Untitled) : VCC
CAM Products 2000(TM): top.art