AKAI
SERVICE MANUAL Model: LCT32Z5TAP
1. Safety Instructions………………...………………………………………………….1~2 2. Trouble Shooting manual of LCD…………………………………………………….3 3. Product Specification………………………………………………………………….4~6 4. Block Diagram….…………………………………………………………………….7 5. Circuit diagram……………………………………………………………………….8~21 6. Basic Operation of TFT-LCD…………………………………………………..……22~23 7. Main IC Information…………………………………………………………………24~95 8. Panel Information……………………………………………………………………96~121 9. Exploded View………………………………………………………………………12210. Spare Part List………………………………………………………………………123~12511. If you forget your V-Chip password…………………………………………………126 12. Software Upgrade……………………………………………………………………127~135
This manual is the latest at the time of printing, and does not include the modification which may be made after the printing, by the constant improvement of product.
Safety Precaution
PRECAUTIONS DURINGSERVICING
1. In addition to safety, other parts and
assemblies are specified for conformance with
such regulations as those applying to spurious
radiation. These must also be replaced only
with specified replacements.
Examples: RF converters, tuner units, antenna
selection switches, RF cables, noise-blocking
capacitors, noise-blocking filters, etc.
2. Use specified internal Wiring. Note especially:
1) Wires covered with PVC tubing
2) Double insulated wires
3) High voltage leads
3. Use specified insulating materials for hazardous
live parts. Note especially:
1) Insulating Tape
2) PVC tubing
3) Spacers (insulating barriers)
4) Insulating sheets for transistors
5) Plastic screws for fixing micro switches
4. When replacing AC primary side components
(transformers, power cords, noise blocking
capacitors, etc.), wrap ends of wires securely
about the terminals before soldering.
5. Make sure that wires do not contact heat
generating parts (heat sinks, oxide metal film
resistors, fusible resistors, etc.)
6. Check if replaced wires do not contact sharply
edged or pointed parts.
7. Make sure that foreign objects (screws, solder
droplets, etc.) do not remain inside the set.
The lightning flash with arrowhead symbol,within an equilateral triangle, is intended toalert the user to the presence of uninsulated“dangerous voltage” within the product’s enclosure that may be of sufficient magnitude toconstitute a risk of electric shock to persons.
The exclamation point within an equilateraltriangle is intended to alert the user to thepresence of important operating andmaintenance (servicing) instructions in theliterature accompanying the appliance.
CAUTION: TO REDUCE THE RISK OFELECTRIC SHOCK, DO NOT REMOVE COVER(OR BACK). NO USER-SERVICEABLE PARTSINSIDE. REFER SERVICING TO QUALIFIEDSERVICE PERSONNEL ONLY.
CAUTION
RISK OF ELECTRIC SHOCKDO NOT OPEN
MAKE YOUR CONTRIBUTIONTO PROTECT THE
ENVIRONMENTUsed batteries with the ISO symbol
for recycling as well as small accumulators
(rechargeable batteries), mini-batteries (cells) and
starter batteries should not be thrown into the
garbage can.
Please leave them at an appropriate depot.
WARNING:
Before servicing this TV receiver, read the
SAFETY INSTRUCTION and PRODUCT
SAFETY NOTICE.
SAFETY INSTRUCTIONThe service should not be attempted by anyone
unfamiliar with the necessary instructions on this
apparatus. The following are the necessary
instructions to be observed before servicing.
1. An isolation transformer should be connected in
the power line between the receiver and the
AC line when a service is performed on the
primary of the converter transformer of the set.
2. Comply with all caution and safety related
provided on the back of the cabinet, inside the
cabinet, on the chassis or picture tube.
3. To avoid a shock hazard, always discharge the
picture tube's anode to the chassis ground
before removing the anode cap.
4. Completely discharge the high potential voltage
of the picture tube before handling. The picture
tube is a vacuum and if broken, the glass will
explode.
1/135
PRODUCT SAFETY NOTICE
Many electrical and mechanical parts in this
apparatus have special safety-related
characteristics.
These characteristics are offer passed
unnoticed by visual spection and the protection
afforded by them cannot necessarily be obtained
by using replacement components rates for a
higher voltage, wattage, etc.
The replacement parts which have these
special safety characteristics are identified by
marks on the schematic diagram and on the parts
list.
Before replacing any of these components,
read the parts list in this manual carefully. The
use of substitute replacement parts which do not
have the same safety characteristics as specified
in the parts list may create shock, fire, or other
hazards.
9. Must be sure that the ground wire of the AC
inlet is connected with the ground of the
apparatus properly.
5. When replacing a MAIN PCB in the cabinet,
always be certain that all protective are
installed properly such as control knobs,
adjustment covers or shields, barriers, isolation
resistor networks etc.
6. When servicing is required, observe the original
lead dressing. Extra precaution should be given
to assure correct lead dressing in the high
voltage area.
7. Keep wires away from high voltage or high
tempera ture components.
8. Before returning the set to the customer,
always perform an AC leakage current check
on the exposed metallic parts of the cabinet,
such as antennas, terminals, screwheads,metal
overlay, control shafts, etc., to be sure the set
is safe to operate without danger of electrical
shock. Plug the AC line cord directly to the
AC outlet (do not use a line isolation
transformer during this check). Use an AC
voltmeter having 5K ohms volt sensitivity or
more in the following manner.
Connect a 1.5K ohm 10 watt resistor paralleled
by a 0.15µF AC type capacitor, between a
good earth ground (water pipe, conductor etc.,)
and the exposed metallic parts, one at a time.
Measure the AC voltage across the combination
of the 1.5K ohm resistor and 0.15 uF
capacitor. Reverse the AC plug at the AC
outlet and repeat the AC voltage measurements
for each exposed metallic part.
The measured voltage must not exceed 0.3V
RMS.
This corresponds to 0.5mA AC. Any value
exceeding this limit constitutes a potential
shock hazard and must be corrected
immediately.
The resistance measurement should be done
between accessible exposed metal parts and
power cord plug prongs with the power switch
"ON". The resistance should be more than
6M ohms.
Good earth groundsuch as the waterpipe, conductor,etc.
Place this probeon each exposedmetallic part
AC VOLTMETER
AC Leakage Current Check
2/135
Trouble Shooting Manual of LCD
1 Do not power on
1.1 Please check the AC cable if connect to AC plug.
It is true that the connector doesn’t connect to AC plug. Please connect it.
1.2 Please check the AC cable if connect to AC power.
It is true that the AC cable doesn’t connect to AC power. Please connect it.
1.3 Please check the power board of fuse if broken.
If the F101 fuse is broken, firstly please pull out the AC cable from AC power. Secondly please check whether the AC L power
and the AC N ground have shortened, the multimeter read number is infinite, and the fuse is broken. Then look over power
board if the Output whether is normal. Please change the power board.
2 The LED (indicator light) is extinguished
2.1 The LED (indicator light) is green or red; to put the power switch when the indicator light is worked. It is true that the Power DC
Output have somewhere short circuit.
Please check the connector J2, J11. If not, please connect the direction whether is wrong, or the main board somewhere of
power short circuit.
3 The power is normal worked, but doesn’t show screen
3.1 The indicator light worked normal (green light).
Please check the main board of transistor Q2 whether right, if not, doesn’t have +5V voltage.
It is true Q2 Collector hasn’t +5V, to check Q2 if fail. Or to check Q2 of base if not low (low is working, high doesn’t working).
Please refer to the attached sheet a circuit diagram.
3.2 Please check the backlight of connector if the direction or the connector of wire computer direction is wrong.
3.3 To check the connector panel of voltage is +24V, it’s true. Then to check the first pin if it has +5V voltage, it’s true, than to check
the power board of +24V voltage, it’s true, and the panel of backlight board is fail. To change the panel of backlight board.
Please refer to the attached datasheet.
4 The screen doesn’t have picture but backlight.
4.1 To check the panel of voltage, and the main board of bead R342 connect if not ok. Then check the R342 of voltage is +12V(27
inch panel voltage is +5V, and to check R338). The connector J9 if isn’t +12V(27 inch panel voltage is +5V). Please to check the
power board of connector CON5 if has +12V(27 inch panel voltage is +5V)
4.2 To check the main board +12V voltage. Then to check the main board QF3 of the first pin if +12V voltage, if fail. It’s low (close 0v)
working.
Please refer to attached sheet a circuit diagram.
5 The remote control doesn’t be control.
5.1 To check the batteries of remote control if it runs out of.
5.2 To check the main board of connector J3 of wire connects fastness and the connector if broken.
Please refer to the attached sheet a circuit diagram.
6 The sound doesn’t output
6.1 To check the main board +24V voltage of connector J2, it’s not +24V voltage. Then to check the power main board +24V.
Please refer to the attached sheet a circuit diagram
7 Picture abnormity
Please change the PDP model panel when the picture displays horizontal or vertical level line or flash spots.
3/135
Note: The specifications shown above may be changed without notice for quality improvement.
Technical Specification
Product Model LCT32Z5TAPTV System NTSC M, ATSCVIDEO System NTSCScreen Size 32” diagonalActive Area 697.685mm (H) x 392.256mm (V) Aspect Ratio 16:9External Size (with stand) 815.05mm (W) x 614.65mm (H) x 240.00mm (D)Gross Weight 20.15 kgDisplay Resolution 1366 (H) x 768 (V) pixels (Each pixel has R/G/B 3 color cells)Display Color 16.7 millions of colors (R/G/B each 256 scales)Gray Scale 256 (R/G/B each 8-bit)Brightness (Peak Value) 500cd/m2
Contrast (Dark Room) 1000:1Sound Effect Acoustic Cinema EnhancementPower Supply AC 120V~, 60 HzPower Consumption 200W
Input Terminal
Antenna Input (F Type) x 1 (NTSC + ATSC/Clear QAM)HDMI (Ver. 1.2) connector x2VGA (D-Sub 15 Pin Type) x 1Component Video - YPbPr x 2 RCA TerminalsVideo Input RCA Terminal x 1S-Video Input Mini Din 4 Pin Terminal x 1Stereo, Audio x 5
Output Terminal1 set of Audio Output terminals (RCA, L&R)SPDIF (Coaxial for all) x 1
4/135
Remote Control (Note: a The Set Code of the Unit is 231. b Details refer to AKAI TV Universal Remote Control Programming Guide.)
1 Standby( ): Press to turn on and off. 2 Mute( ): Press this button to quiet the sound. Press again to reactivate the sound. 3 Press these buttons to select control of the TV, DVD, VCR or Set-top Box device. 4 P. Mode: Press to cycle through the picture modes: Cinema, Normal, Vivid, Hi-Bright and User. 5 S. Mode: Press to cycle through the sound modes: Normal, News, Cinema, Concert and User. 6 Sleep: Press repeatedly until it displays the time in minutes (10, 20, 30, 40, 50, 60, 90, 120 and Off) that you want the TV to remain on before shutting off. To cancel sleep time, press Sleep button repeatedly until sleep Off appears. 7 F1: Press to cycle through the Stereo and Multi-channel TV sound options: Mono, Bilingual and Stereo. 8 CCD: Press to select the Closed Caption mode. 9 Display: Press to display the channel information, press again to exit. 10 V-Chip: Select the child protect mode you want. 11 0~9 Number Buttons: Press 0~9 to select a channel, and input the password. 12 This button is not for controlling the television. 13 DTV/TV: Press to choose DTV/TV (high definition channels) directly.
1 2
1718
20
22
3
1213
16
19
10
11
4578
69
1415
27
23
21
24
252628
12 This button is not for controlling the television. 13 DTV/TV: Press to choose DTV/TV (high definition channels) directly. 14 Guide (Digital TV Timetable): Press to display the (Digital TV Timetable) mode. Press again to exit. 15 DOT: Press number buttons with it to select the channels directly in DTV.(i.e. channel 108-1 would need the dot button after the 8) 16 Recall: Press to return to previous channel. (Only for TV) 17 Source: Press to display the input source menu. There are TV, AV, S-Video, YPbPr 1, YPbPr 2, VGA, HDMI 1 or HDMI 2. If you are selecting inputs from the input menu or displaying the OSD menu, press the Enter button to confirm your selection. 18 Enter: Press to enter or confirm. 19 VOL +/-: Press to adjust the audio levels. 20 CH +/- : Press to select the channel forward or backward. 21 ∧, ∨, <, >: Press ∧, ∨, <, > to move the on-screen cursor. 22 Menu: Press to enter into the on-screen setup menu, press again to exit. 23 These buttons are not for controlling the television. 24 Exit: Press this button to exit in the menu. 25 Favorite: Press to display favorite channel list, press ∧ or ∨ select channel then press Enter button to confirm. 26 Add/Erase: Press to add or delete favorite channels. 27 Pic Size: Press to change the screen size, such as Full, 4:3. (Note: When in VGA mode, it can only select “Full”.) 28 Color Button: Red: This is a special control function for the Digital tuner. Green: This is a special control function for the Digital tuner. Blue: This is a special control function for the Digital tuner. Yellow: This is a special control function for the Digital tuner.
5/135
Support the Signal Mode A. VGA Mode
- When the signal received by the Display exceeds the allowed range, a warning message shall appear on the screen. - You can confirm the input signal format from the on-screen.
ResolutionHorizontal Frequency
(KHz)
VerticalFrequency
(Hz)640 x 480 31.50 60.00
800 x 60035.16 56.2537.90 60.3248.08 72.19
1024 x 768 48.40 60.00
ResolutionHorizontal Frequency
(KHz)
VerticalFrequency
(Hz)480p(720x480) 31.468 59.94
720p(1280x720) 45.00 60.001080i(1920x1080) 33.75 60.00
B. YPbPr Mode
ResolutionHorizontal Frequency
(KHz)
VerticalFrequency
(Hz)480p 31.468 59.94720p 45.00 60.001080i 33.75 60.00
C. HDMI Mode
6/135
MT5112BDDTV Demodulator
DTVS205CH201ADigital/AnalogTuner
MT5371AG
ADC
Scaler
ATSC
LVDS Transfer
Two to oneHDMI Switch
HDMI1
YPbPr1
YPbPr2(Option)
VGA
AV
S-Video
Audio X5
CE2836AudioADC&DAC
8Bit LVDS
Flash32M
DDR256M
DDR256M
R2S15102Class DAmplifier
Max232Level Shift
RS232Socket
Speaker
LCD panel
POWER BOARD
5VStandby 5V12V9V24VA (For Class D)
Relay
MAIN BOARD
NJRC4558Audio Buffer
AudioOutput
CVBS/SIF
HDMI2
24C16EEPROM
IIS
COAXIAL
TS
Do
ck
TMDS
7/135
A
A
B
B
C
C
D
D
E
E
4 4
3 3
2 2
1 1
OPCTRL4
GPIO_70
GPIO_130
GPIO_131
GPIO_132
GPIO_133
OPCTRL3
GPIO_131
GPIO_[71..84]
OPCTRL4
+5VSB
GPIO_132
DV33SB
OPWRSB
OI RI
OPCTRL0
GPIO_70
+12V
OPCTRL1
GPIO_130
GPIO_58GPIO_59
OPCTRL2
+5V
SYS_PWRSYS_PWRSYS_PWRSYS_PWRSYS_PWRSYS_PWRSYS_PWRSYS_PWRSYS_PWRSYS_PWRSYS_PWRSYS_PWRSYS_PWRSYS_PWRSYS_PWRSYS_PWRSYS_PWRSYS_PWRSYS_PWRSYS_PWRSYS_PWRSYS_PWRSYS_PWRSYS_PWRSYS_PWRSYS_PWRSYS_PWRSYS_PWRSYS_PWRSYS_PWRSYS_PWRSYS_PWRVS_ON
+5V
VS_ON
OPCTRL4
AD
D1
OPWRSB
SYS_PWR
+12V
CH-
+5VSB_IR
MENU
C H+
VOL-
STANDBY
SOURCE
I RLED_REDLED_GRE
VOL+
OI RI
C H+VOL+
GPIO_72VOL-MENU
GPIO_71 SOURCE
+5VSB_IR
+5V
I R
STANDBYOPCTRL1
OPCTRL0
AD
D2
ADD2GPIO_133
ADD1
+9V
I R
+12V
+9V
AMP_GND
AGND_PLL
AGND_HDMI
G ND
AGND_LVDS
AGND_AFE+9V
GPIO_73GPIO_74
OPCTRL0OPCTRL2
LED_RED
LED_GRE
CH-OPCTRL2
+24V
+24V
DV33
AMP_GND
+5VSB
+5V+9V
DV33SB +5VSB
+5VSB
+5VSB
DV33SB
+5V
DV33SB
DV33SB
DV33SB
+5VSB
+9V
DV33
OPCTRL35,12
GPIO_[71..84]5
GPIO_1315
+5VSB2,7,10,11,12,13,14
OPCTRL45,13
GPIO_1325
DV33SB2,5,6,7,10,11,12,13
OPWRSB5
OIRI5
AGND_AFE2,3,4,5,6,7,8,9,10,11,12,13,14
AGND_LVDS2,3,4,5,6,7,8,9,10,11,12,13,14
AGND_HDMI2,3,4,5,6,7,8,9,10,11,12,13,14
AGND_PLL2,3,4,5,6,7,8,9,10,11,12,13,14
OPCTRL05
GPIO_705
+12V13
GND2,3,4,5,6,7,8,9,10,11,12,13,14
OPCTRL15
GPIO_1305
GPIO_585GPIO_595
OPCTRL25
+5V2,7,8,9,11,13
GPIO_1335ADD213
ADD113
+9V2,11
IR7
AGND_LVDS2,3,4,5,6,7,8,9,10,11,12,13,14
OPCTRL05OPCTRL25
AMP_GND12
+24V12
DV332,4,5,6,7,11,12,13,14
Title
Size Document Number R e v
Date: Sheet o f
ZhongShan KAWA Electronic Inc.
Drawn:
Checked:
INDEX1Custom
1 14Thursday, March 01, 2007
MT5371_V07<Designer>
<Checker>
MT5372 (PBGA) REFERENCE DESIGN - 4 LAYERSMT5372RAV6
Rev DATEHistory
RA-V0 INITIAL VERSION 2006/07/14
DEVICETYPENAME
POWER +24VPOWER +12VPOWER +5VPOWER +5V
POWER SUPPLYPOWER SUPPLYPOWER SUPPLYPOWER SUPPLY
GNDAGND_PLLAGND_AFEAGND_HDMIAGND_LVDS
GROUNDGROUNDGROUNDGROUNDGROUND
DIGITAL GROUNDANALOG GROUNDANALOG GROUNDANALOG GROUNDANALOG GROUND
DV33SB+5V_TUENRDV33_DMDV18_DMDV33AV33DV18_DDRAV15DV12AV12
POWER +3.3VPOWER +5VPOWER +3.3VPOWER +1.6VPOWER +3.3VPOWER +3.3VPOWER +1.8VPOWER +1.5VPOWER +1.2VPOWER +1.2V
STANDBY POWERTUNER POWERMT5112 POWER AND ITS PERIPHERALMT5112 POWERMT5372 POWER AND ITS PERIPHERALMT5372 ANALOG POWERMT5372 DDR POWERMT5372 VIDEO FRONT-END POWERMT5372 POWERMT5372 ANALOG POWER
GPIO DEPEND-ON YOUR APPLICATIONWORKABLE IN STANDBY AND NORMAL MODE
GPIO DEPEND-ON YOUR APPLICATIONWORKABLE IN NORMAL MODE ONLY
RA-V1 2006/07/31
GLOBAL POWER
POWER INPUT
OPWRSB HIGH :POWER OFFOPWRSB LOW :POWER ON
KEYPAD
ADC KEY & GPIO KEY KEYPAD
RA-V1
RA-V1
RA-V1
+24V+12V+5V+5VSB
01.INDEX02.POWER03.TUNER
ASIC04.MT511205.MT5372 ASIC06.MT5372 BYPASS CAP.07.MT5372 PERIPHERAL08.DDR1
10.HDMI11.AUDIO12.AUDIO
09.YPBPRMEMORYINPUT
/VGA INPUTCODECAMP
RA-V2
Only for PDP
RA-V3
RA-V3
CB14 1000pF
R94.7K/NCR0603/SMD
R224.7K
CB30.1uFC0603/SMD
CB6 1000pF
J2
8P2.54mmDIP8/W/H/P2.54
12345678
TP3GPIO_131
R14.7K/NC
R0603/SMD
L1 FB/70R500mA/0603
J3
13P2.0mmDIP13/w/h/p2.0
123456789
10111213
R1310KR0603/SMD
CB13 1000pF
R16
10K
R21K/NC
R0603/SMD
R260
R310KR0603/SMD
CB9 1000pF
CB5 1000pF
TP5GPIO_133
L2 FB/70R500mA/0603
H6HOLE/GND/NCH/H4.0-D8.0
2 23 34 45 5
99887766
11
L6 FB/70R500mA/0603
Q22N3904SOT23/SMD
1
32
CB40.1uF
C0603/SMD
CB12 1000pF
R19
10K
R124.7KR0603/SMD
+CE3
470uF/16VC470UF16V/D8H9G
CB7 1000pF
Q12N3904/NC
SOT23/SMD
1
32
R2110K
R20NCR0603/SMD
CB15 1000pF
TP2GPIO_130
R. ANGLE
J1
12P2.54mm
DIP12/W/H/P2.54
123456789101112
R81KR0603/SMD
Q32N3906
1
32
D51
MARKR
1810
K
TP1GPIO_70
+CE2220uF/16V
100UF/220UF/SMD
D52
MARK
R710k/NC
R0603/SMD
D53
MARKL4 FB/70R500mA/0603
D54
MARK
R10NCR0603/SMD
D55
MARK
TP4GPIO_132
D56
MARKR24510
R51K/NC
R0603/SMD
CB20.1uF
C0603/SMD
D57
MARK
R17
10K
CB11000pF/NCC0603/SMD
D58
MARK
10K
R14
D59
MARK
L5 FB/70R500mA/0603
L7 FB/70R500mA/0603
R60R/NC
R0603/SMD
H2HOLE/GND/NCH/H4.0-D8.0
2 23 34 45 5
99887766
11
R37520K/NC
H3HOLE/GND/NCH/H4.0-D8.0
2 23 34 45 5
99887766
11
CB10 1000pF
R40R/NC
R0603/SMD
H1HOLE/GND/NCH/H4.0-D8.0
2 23 34 45 5
99887766
11
CB11 100pF
H4HOLE/GND/NCHOLE
2 23 34 45 5
99887766
11
R23 0
+
CE1220uF/16V
100UF/220UF/SMD
10K
R15
R110R/NC
R0603/SMD
L3 FB/70R500mA/0603 CB8 1000pF
R25510R0603/SMD
8/135
A
A
B
B
C
C
D
D
E
E
4 4
3 3
2 2
1 1
AGND_AFE
AGND_LVDS
DV33_DM
+5VSB
+12V+5V
AV12
AV33DV33
AV15
DV33SB
DV26_DDR
DV18_DM
+30V_TUNER
+9VDV12
+5V_TUNER
AGND_PLL
GND
+9V
+30V_TUNER
+5V_TUNER
+5V_TUNER
AV33 AV15
+5VSB
DV26_DDR+5V
DV18_DM+5V
+5V DV12
AV12
DV33_DM
DV33
AV33
+5V
DV33SB
AGND_AFE1,3,4,5,6,7,8,9,10,11,12,13,14
AGND_LVDS1,3,4,5,6,7,8,9,10,11,12,13,14
GND1,3,4,5,6,7,8,9,10,11,12,13,14
DV33_DM3,4
+5VSB1,7,10,11,12,13,14
+12V1,13+5V1,7,8,9,11,13
AV125,6
AV336,10,11DV331,4,5,6,7,11,12,13,14
AV156
DV33SB1,5,6,7,10,11,12,13
DV26_DDR5,6,8
DV18_DM4
+30V_TUNER3
+9V1,11DV125,6
AGND_PLL1,3,4,5,6,7,8,9,10,11,12,13,14
+5V_TUNER3
Title
Size Document Number R ev
Date: Sheet o f
ZhongShan KAWA Electronic Inc.
Drawn:
Checked:
POWER2Custom
2 14Thursday, March 01, 2007
MT5371_V07<Designer>
<Checker>
POWER SUPPLY +5V FOR TUNER
GLOBAL POWER
POWER +1V5 FOR VIDEO FRONT-END1
RbRa
Vout = 1.25 x ( 1 + Rb / Ra )
POWER SUPPLY +30V FOR SAMSUNG TUNER
1.25 x (1+22/110) = 1.5V
1.25 x (1+180/110) = 3.3V
STANDBY POWER +3V3 FOR MT5372
1.25 x (1+120/110) = 2.6V
POWER +1V8 FOR MT5372 / DDRII
RA-V1
RA-V1
RA-V2
RA-V2RA-V2
RA-V2
POWER SUPPLY +1V6 FOR MT51120.8 x (1+1K/1K) = 1.6V
900mA
1000mA
POWER +1V2 FOR MT5372 (DIGITAL)
0.8 x (1+1.2K/2K) = 1.28V
POWER +1V2 FOR MT5372 (ANALOG)
POWER SUPPLY +3V3 (DIGITAL) FOR MT5372
80mA
POWER SUPPLY +3V3 FOR MT5112
POWER +3V3 FOR MT5372 (ANALOG)
720mA
41mA
28mA
390mA
88mA
25mA
710mA
RA-V3
RA-V3
RA-V3
U6
AMS1084TO-252-3/SMD
IN3
AD
J/G
ND
1
OUT 2
CB220.1uFC0603/SMD
+ CE12220uF/16V
100UF/220UF/SMD
R42120R0603/SMD
+CE17
220uF/16V100UF/220UF/SMD
+ CE13100uF/16V100UF/220UF/SMD
CB480.1uFC0603/SMD
L12
10uHL/IND/SMD/0805
CB380.1uF/NCC0603/SMD
CB190.1uF/NCC0603/SMD
+ CE11100uF/16V
100UF/220UF/SMD
CB450.1uFC0603/SMD
L10
LTRH104R-270S-LF125M
R41110R0603/SMD
R381.2KR0603/SMD
L13
FB/75R/1A/0805BEAD/SMD/0805
R373KR0603/SMD
CB210.1uFC0603/SMD
+ CE25220uF/16V
100UF/220UF/SMD
CB230.1uF/50VC0603/SMD
R29100KR0603/SMD
+ CE4220uF/16V
100UF/220UF/SMD
CB374.7uF/6.3VC0603/SMD
H5
RADIATORSANRE
CB280.1uFC0603/SMD
CB460.1uFC0603/SMD
L14
FB/70R/500mA/0603BEAD/SMD/0603
L17
FB/75R/1A/0805BEAD/SMD/0805
CB390.1uF/NCC0603/SMD
CB200.1uFC0603/SMD
CB160.1uFC0603/SMD
CB240.1uFC0603/SMD
R281.2KR0603/SMD
U8
AMS1117/adjSOT223/SMD
AD
J/G
ND
1
OUT 2IN3
L20FB/75R/1A/0805BEAD/SMD/0805
L22
FB/75R/1A/0805BEAD/SMD/0805
+ CE22220uF/16V100UF/220UF/SMD
R35180R0603/SMD
CB410.1uF
C0603/SMD
R302KR0603/SMD
CB260.1uF/50VC0603/SMD
CB4354.7uF/6.3VC0603/SMD
U5AP1513/SOP-8AP1513
FB 1
EN
2
OCSET3
Vcc4O/P 5O/P 6
Vss
7V
ss8
CB400.1uFC0603/SMD
D1B340A/3A/SMAB320A
L19
FB/70R/500mA/0603BEAD/SMD/0603
CB270.1uFC0603/SMD
L11
FB/75R/1A/0805BEAD/SMD/0805
+ CE10220uF/16V100UF/220UF/SMD
CB4344.7uF/6.3VC0603/SMD
U7
AMS1117-3.3VSOT223/SMD
AD
J/G
ND
1
OUT 2IN3
R401KR0603/SMD
R3147KR0603/SMD
+ CE26100uF/16V100UF/220UF/SMD
CB440.1uFC0603/SMD
D2
DIODE SMD FHBAS40FHBAS40
1
3
2
U2AP1513/SOP-8AP1513
FB 1
EN
2
OCSET3
Vcc4O/P 5O/P 6
Vss
7V
ss8
+CE922uF/50V100UF/220UF/SMD
12
CB304.7uF/6.3VC0603/SMD
+ CE24100uF/16V100UF/220UF/SMD
CB420.1uFC0603/SMD
CB250.1uFC0603/SMD
R43110R0603/SMD
R34110R0603/SMD
CB350.1uFC0603/SMD
+ CE20100uF/16V100UF/220UF/SMD
CB4334.7uF/6.3VC0603/SMD
+CE6
220uF/16V100UF/220UF/SMD
+ CE8220uF/16V
100UF/220UF/SMD
+ CE5220uF/16V100UF/220UF/SMD
+ CE23100uF/16V
100UF/220UF/SMD
CB170.1uFC0603/SMD
D3B340A/3A/SMAB320A
+ CE16220uF/16V100UF/220UF/SMD
U1
L7805TO220/DIP/SU
AD
J/G
ND
1
OUT 2IN3
CB470.1uFC0603/SMD
L8
FB/75R/1A/0805BEAD/SMD/0805
CB290.1uFC0603/SMD
+ CE19100uF/16V100UF/220UF/SMD
+ CE7220uF/16V100UF/220UF/SMD
+ CE15100uF/16V100UF/220UF/SMD
+ CE18220uF/16V100UF/220UF/SMD
U4
AMS1084/ADJTO-252-3/SMD
IN3
AD
J/G
ND
1
OUT 2
R3282K R0603/SMD
R39100KR0603/SMD
R273KR0603/SMD
R4422
R0603/SMD
U3
Regulator AP1522 SOT23-5/SMDAP1522
SW 1
GND 2
FB 3SHDN4
V_IN5
L23FB/75R/1A/0805BEAD/SMD/0805
CB430.1uFC0603/SMD
L9
FB/75R/1A/0805BEAD/SMD/0805
L18
FB/75R/1A/0805/NCBEAD/SMD/0805
R335.6K R0603/SMD
CB360.1uFC0603/SMD
L21
LTRH104R-220S-LF125M
CB180.1uF/NCC0603/SMD
9/135
A
A
B
B
C
C
D
D
E
E
4 4
3 3
2 2
1 1
TUNER_SDA1
TUNER_SCL1
NTSC_CVBSSIF
FAT_IN+
IF_AGC
5V_TU
FAT_IN-
AFT
MPX1
CVBS0
SIF
AFT ADIN3
TUNER_SDA1TUNER_SCL1
CVBS3
SC0
SC2S Y2
SC1S Y1
AGND_AFE
S Y0
CVBS2
TUNER_SDA1
ADIN3
TUNER_SCL1
FAT_IN+
CVBS0
MPX1
FAT_IN-
DV33_DM
AGND_AFE
+30V_TUNER
IF_AGC
MPX2
MPX2
+5V_TUNER
NTSC_CVBS
TUNER_SCLO
MONO
AS
FAT_IN+
IF_AGC
NTSC_CVBS
FAT_IN-
TUNER_SDAO
SIF
5V_TU
5V_TU
TUNER_SDA1
TUNER_SCLO
TUNER_SDAO
TUNER_SCL1
NTSC_SIF
GND
AS5V_PH
5V_P
H
+30V_TUNER
+5V_TUNER
DV33_DM
+5V_TUNER
+5V_TUNERDV33_DM
CVBS35,9
SC05,9
SY25,9SC25,9
SC15,9SY15,9
AGND_AFE1,2,4,5,6,7,8,9,10,11,12,13,14
SY05,9
CVBS25,9
DV33_DM2,4
MPX25
MPX15
TUNER_SDA14TUNER_SCL14
IF_AGC4
CVBS05
AGND_AFE1,2,4,5,6,7,8,9,10,11,12,13,14
+30V_TUNER2
ADIN35
FAT_IN-4
GND1,2,4,5,6,7,8,9,10,11,12,13,14
FAT_IN+4
+5V_TUNER2
Title
Size Document Number Rev
Date: Sheet o f
ZhongShan KAWA Electronic Inc.
Drawn:
Checked:
TUNER1Custom
3 14Thursday, March 01, 2007
MT5371_V07<Designer>
<Checker>
ROUTE SYMMETRICALLY
Close to Tuner
NTSC CVBS
SIF (4.5MHz)
NEARLY TUNER NEARLY MT5372NEARLY MT5372NEARLY TUNER
SAMSUNG COMBO-TUNER
AV / SV VIDEO INPUTTUNER INTERFACE
TUNER - ANALOG OUTPUT
MONO
RA-V1
RA-V1
RA-V2
RA-V3
RA-V2
RA-V3
RA-V3
PHILIPS COMBO-TUNER
ROUTE SYMMETRICALLY
SIF LEVEL SHIFTER
Only for Philips Tuner
No Install
RA-V3
RA-V3
RA-V3
R61100R0603/SMD
L25 2.2uH/NC BEAD/SMD/0603
R4810K/NCR0603/SMD
R520R/NCR0603/SMD
R5410R0603/SMD
R53100KR0603/SMD
CB490.1uF/NC
C0603/SMD
R4040
R0603/SMD
QF22N7002/NCSOT23/SMD1
32R510R/NCR0603/SMD
R6010
R0603/SMD
R670R0603/SMD
CB61NC
C0603/SMD
CB530.1uFC0603/SMD
R550R0603/SMD
CB62NC
C0603/SMD
CB5010nF/NCC0603/SMD
L24 2.2uH/NC BEAD/SMD/0603
R4910K/NCR0603/SMD
+ CE29470uF/16VC470UF16V/D8H9G
R6275R/1206
R1206/SMD
CB510.1uF/NCC0603/SMD
R4010/NC
R0603/SMD
R504.7K/NCR0603/SMD
R570R0603/SMD
R3990
R0603/SMD
R58
100R0603/SMD
R64100 R0603/SMD
CB655.6pFC0603/SMD
CB640.1uFC0603/SMD
R47 NC R0603/SMD
CB58100pC0603/SMD
CB56NC
C0603/SMD
Q52N3904SOT23/SMD
13
2
L27FB/75R/1A/0805BEAD/SMD/0805
R63100 R0603/SMD
CB521000pFC0603/SMD
R654.7KR0603/SMD
R46 NC R0603/SMD
R3964.7K
R0603/SMD
CB43610nFC0603/SMD
CB5747nFC0603/SMD
CB54100pC0603/SMD
U10
PORT TUNER DTVS205CH201A
GND TH1GND TH2
GND TH3GND TH4
NC 1NC 2NC 3NC 4NC 5NC 6
RG_AGC_TP 7NC 8
VT(+30V) 9IF+ 10IF- 11
IF_AGC 12TUNER_IF_TP 13
SCL 14SDA 15GND 16
BP(+5V) 17NC 18
AFT 19SIF 20
CVBS 21
GND TH5GND TH6GND TH7GND TH8
CB6047pFC0603/SMD
CB5910nFC0603/SMD
U9
PORT TUNER FQD1236/F H-5/NCMK5
GND 15GND 16
GND 17GND 18
AGC MONITOR (NC) 1NC 2
+5V 3SCL 4SDA 5
IF AGC 6DIF 7
AS TUNER 9AS IF 10
2ND IF SOUND 11CVBS 12+5V IF 13
AF/MPX 14
DIF 8
+ CE2847uF/16V100UF/220UF/SMD
CB63470PC0603/SMD
CB550.1uFC0603/SMD
R664.7KR0603/SMD
R4000/NCR0603/SMD
R454.7K/NCR0603/SMD
R56220KR0603/SMD
CB6615pFC0603/SMD
QF12N7002/NCSOT23/SMD1
32
R594.7KR0603/SMD
L26FB/70R/500mA/0603
BEAD/SMD/0603
10/135
A
A
B
B
C
C
D
D
E
E
4 4
3 3
2 2
1 1
DV18_DMDV33_DM
REFTOP
XTAL2
DVDD18
XTAL1
AVDD33
DVDD33
IF_AGC
DV
DD
18
TS0DATA3TS0DATA2
AVDD33
DVDD33
DV
DD
18
AVDD3
DV
DD
33
DV
DD
18
AV
DD
33
DV
DD
33D
VD
D33
AV
DD
33
DV
DD
18
DV
DD
33
AVDD33
AD
VD
D33
_2
MT5112_IF_AGC
TS0SYNCTS0CLKTS0VALID
TS0D
ATA
7TS
0DAT
A6
TS0D
ATA
5TS
0DAT
A4
FAT_IN-
FAT_IN+
DVDD18
AVDD33
TS0DATA1TS0DATA0
SIF_SDA
ADVDD33_1
SIF_SCLGPIO_0
DVDD18
AV
DD
5
AVDD33
TUN
ER
_SD
ATU
NE
R_S
CL
MT5
112_
IF_A
GC
DVDD33
REFBOTVCMEXT
IF_AGC
FAT_IN-FAT_IN+
GPIO_18
TS0SYNCTS0VALID
TS0DATA[0..7]
SIF_SCLSIF_SDA
GPIO_18TS0CLK
TUNER_SCL1TUNER_SDA1
GPIO_0
TUNER_SCL TUNER_SCL1TUNER_SDA TUNER_SDA1
DV33
GND
DVDD33
DV18_DM
DV33_DM
AVDD33DV33_DM AVDD33
DVDD18
DVDD33
DVDD18AVDD33 AVDD3
AVDD33 AVDD5
AVDD33 ADVDD33_1
AVDD33 ADVDD33_2
DVDD33
DVDD18
DV33
DV33
DV18_DM2
GND1,2,3,5,6,7,8,9,10,11,12,13,14
DV33_DM2,3
IF_AGC3
FAT_IN-3FAT_IN+3
GPIO_185
TS0SYNC5TS0VALID5
TS0DATA[0..7]5
SIF_SDA7,11SIF_SCL7,11
TSCLK5
TUNER_SCL13TUNER_SDA13
GPIO_05
DV331,2,5,6,7,11,12,13,14
Title
Size Document Number R ev
Date: Sheet o f
ZhongShan KAWA Electronic Inc.
Drawn:
Checked:
MT5112 ASIC1Custom
4 14Thursday, March 01, 2007
MT5371_V07<Designer>
<Checker>
GLOBAL SIGNAL
CLOSE TO MT5112
Digital 3.3V Bypass Caps
Analog 3.3V Bypass Caps
Digital 1.8V Bypass Caps
TUNER INTERFACE
TS INPUT
RESERVE HEAT-SINK SPACE
MODIFY IN RAV2
RA-V3
CB910.1uFC0603/SMD
CB884.7uF/6.3VC0603/SMD
R68
4.7
K
CB940.1uFC0603/SMD
RN1
33x4RN0603/SMD
1 23 45 67 8
CB7310uF/16vC0805/SMD
CB870.1uFC0603/SMD
R721MR0603/SMD
CB74 0.1uFC0603/SMD
L28220nH/NCL/IND/SMD/0805
CB904.7uF/6.3VC0603/SMD
CB750.1uFC0603/SMD
CB1064.7uF/6.3VC0603/SMD
CB6947pF/NCC0603/SMD
CB864.7uF/6.3VC0603/SMD
MT5112AD/BD
TQFP-100
U11MT5112AD_BD/TQFP100
NC
1N
C2
AV
DD
23
NC
4N
C5
NC
6A
VS
S9
7N
C8
NC
9A
VD
D9
10A
VS
S5
11A
VD
D5
12N
C13
NC
14A
DV
DD
3315
DG
ND
3316
DV
DD
3317
DV
DD
1818
DG
ND
1819
NC
20G
PIO
0(P
1.0)
21TS
_DA
TA7
22TS
_DA
TA6
23TS
_DA
TA5
24TS
_DA
TA4
25
DVDD33 26DGND33 27TS_DATA3 28TS_DATA2 29DVDD18 30DGND18 31TS_DATA1 32TS_DATA0 33TS_SYNC 34DVDD33 35DGND33 36TS_CLK 37TS_VAL 38TS_ERR 39DVDD18 40DGND18 41DVDD33 42DGND33 43HOST_DATA 44DVDD18 45DGND18 46HOST_CLK 47RESET_ 48GPIO1(P1.1) 49NC 50
DV
DD
1875
DG
ND
1874
RF_
AG
C73
IF_A
GC
72D
GN
D33
71D
VD
D33
70TU
NE
R_C
LK69
TUN
ER
_DA
TA68
SA
167
SA
066
DG
ND
1865
DV
DD
1864
DG
ND
1863
AN
T_TX
(PO
UT3
.1)
62D
GN
D33
61D
VD
D33
60A
NT_
RX
(PIN
3.0)
59A
NT_
DE
T(P
IN3.
1)58
GP
IO3(
P1.
3)57
DG
ND
1856
DV
DD
1855
GP
IO2(
P1.
2)54
NC
53D
VD
D33
52D
GN
D33
51
AVSS2100 AVDD499 AVSS498 XTAL197 XTAL296 AVSS695 AVSS394 AVDD693 AVDD392 AVDD791 AVDD1890 AVSS789 REFTOP88 VCMEXT87 REFBOT86 AVSS185 NC84 AVDD183 IN+82 IN-81 AVDD880 AVSS879 NC78 NC77 ADVDD3376
GND101
L35
FB/70R/500mA/0603BEAD/SMD/0603
CB1000.1uFC0603/SMD
R376NCR0603/SMD
CB854.7uF/6.3VC0603/SMD
CB930.1uFC0603/SMD
L36FB/75R/1A/0805BEAD/SMD/0805
L29
FB/70R/500mA/0603BEAD/SMD/0603
CB6810nFC0603/SMD
CB980.1uFC0603/SMD
CB994.7uF/6.3VC0603/SMD
CB810.1uFC0603/SMD
CB1020.1uFC0603/SMD
L30FB/75R/1A/0805BEAD/SMD/0805
CB800.1uFC0603/SMD
L31FB/75R/1A/0805BEAD/SMD/0805
CB7718pFC0603/SMD
CB840.1uFC0603/SMD
CB72 0.1uFC0603/SMD
L37
FB/70R/500mA/0603BEAD/SMD/0603
CB1054.7uF/6.3VC0603/SMD
CB950.1uFC0603/SMD
CB71 0.1uFC0603/SMD
CB1084.7uF/6.3VC0603/SMD
R714.7KR0603/SMD
CB1030.1uFC0603/SMD
CB964.7uF/6.3VC0603/SMD
R701KR0603/SMD
Y125MHzCRYS/DIP/SMD
CB830.1uFC0603/SMD
RN333x4RN0603/SMD
12
34
56
78
CB1010.1uFC0603/SMD
L32
FB/70R/500mA/0603BEAD/SMD/0603
CB7618pFC0603/SMD
CB974.7uF/6.3VC0603/SMD
CB790.1uFC0603/SMD
CB890.1uFC0603/SMD
CB7010nFC0603/SMD
CB1070.1uFC0603/SMD
CB1040.1uFC0603/SMD
L34FB/75R/1A/0805BEAD/SMD/0805
R69
4.7
K
CB820.1uFC0603/SMD
CB780.1uFC0603/SMD
CB920.1uFC0603/SMD
RN2
33x4RN0603/SMD
1 23 45 67 8
L33
FB/70R/500mA/0603BEAD/SMD/0603
CB6747nFC0603/SMD
11/135
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
OPWRSB
GPIO_1
ORESET#
OXTALI
OIRI
OPWM0
OSDA1OSCL1OSDA2OSCL2
SMCE#
OSDA0
DCLK
U0RX
MCLK
U0TX
OSCL0
ASPDIF
RVREF
RDQS[0..3]
RESTUPRESTDN
RCLK0RCLK0#RCLK1RCLK1#
RA[0..13]RBA[0..1]
RDQ[0..31]
RDQM[0..3]
RCS#RRAS#RCAS#RWE#RCKE
CVBS3
SC0
SC1SY1
CVBS1
SY0
CVBS2
CVBS0
Y0P
Y1PY1NPB1PPB1N
SOY1
PR1PPR1N
Y0NPB0PPB0N
SOY0
PR0PPR0N
GPGNBPBN
SOG
RPRN
RXCB
OWRP2PWR5V
RX0BRX0
RX1BRX1
RXC
RX2BRX2
GPIO_2
GPIO_16
AO1SDATA4
I2SIN_DATA
AO1MCLKAO1BCKAO1LRCK
MPX1MPX2
GPIO_0
GPIO_15
GPIO_17
AR1AL1
OPWM1OPWM2
GPIO_18
GPIO_10GPIO_11
FB_IN
H SYNCVSYNC
GPIO_13GPIO_14
SY2SC2
GPIO_58GPIO_59
GPIO_131GPIO_132GPIO_133
GPIO_70
GPIO_130
OPCTRL3OPCTRL4
OPCTRL6
OPCTRL0
OPCTRL7
OPCTRL1OPCTRL2
OPCTRL5
GPIO_[71..84]
GPIO_12
GPIO_19
AO1SDATA4
DV12
AV
CC
_AV
33
SO
G
SO
Y0
TN0RX
CB
OP
WM
0
PDA3
PDA5PDA6
GP
IO_1
4
AO
1LR
CK
GP
IO_8
0
BTN3
A2N
A5P
A1N
A4N
JTA
G_T
CK
GP
IO_9
PDA21
PDD4
PDD2
RDQ13
RDQ9
RCLK1#
RDQS2
RDQM3
RA5
SC
1
OP
CTR
L7
EXT_
RE
S
PDA7
SVM
CK
2P
PDA11
RDQ18
RDQ28RDQ29
AV
CC
_SY
SP
LL
TP1
CV
BS
2
AR2
OXT
ALI
OIR
I
RX
0
OS
DA
2
OP
WM
2
GP
IO_1
3
LVD
DC
PDA0
RDQ12
RDQ0
RDQ24
C_X
RE
G
PR
1P
AL1
BP
DC
LK
PDA18
GP
IO_7
4
GP
IO_8
1
A7N
GP
IO_1
0
EXT_DATA
RA9
PR
0N
CV
CC
12
OS
CL0
SM
CE
#
TS0D
ATA
4TS
0DA
TA3
GP
IO_5
8
GP
IO_7
2
AV
CC
_VP
LL
TP3
A1P
GP
IO_8
POWE#
PDA12
PDA15
PDD7
RDQ11
RDQM0
RDQ22
RDQM2
RDQ25
RCAS#
SY
0
CV
BS
1
AVCC_AADC
AV
CC
_AD
CP
LL
AV
CC
_DM
PLL
OP
CTR
L3
RX
C
AS
PD
IF
AO
1SD
ATA
4
TS
0SY
NC
GP
IO_7
9
DA
CV
DD
DA
CFS
GA3N
A5N
GP
IO_7
GP
IO_5
EXT_LRCK
RDQ23
RDQ27
RA2
Y1N
SC
0
MPX1
ADAC_VCM
HS
YN
C
TP0
OXT
ALO
OP
CTR
L2
OP
CTR
L5
OS
CL1
R
PDA1
RDQ2
RCLK1
RDQ4
RA10
RX1
B
GP
IO_1
32
TS0V
ALI
D
TS0D
ATA
7
TS0D
ATA
1
GP
IO_7
5
U2R
X
DA
CV
RE
F
A7P
PDA10
PDD5
POCE0#
RDQ8
RDQS1
RDQ19
RBA0RBA1
PR
0P
AVCC_ADAC
AV
CC
_XTA
L
AD
IN0
RX
1
RX0
B
PDA4
TS0D
ATA
0
A6P
A0P
JTAG
_TM
S
PDA13
PDA16
POOE0#
EXT_BCLK
RDQ5
RDQS0
RVREF
RWE#
RA13
AV
CC
_AP
LL
TN1
AV
CC
_VA
D1
CV
BS
0
AR1
AV
CC
_HD
MIP
LL
U0R
X
AV
CC
_H
OS
DA
1
GP
IO_1
31
AO
1MC
LK
AO
1BC
K
TS0C
LK
TS0D
ATA
2
LVD
DA
A3P
JTA
G_R
TCK
GP
IO_4
RESTDN
RCLK0#
PB
1P
PR
1N
VS
YN
C
AD
IN3
U0TX
RX2
B
AV
CC
_H
PV
CC
PW
R5V
MC
LK
PDA19
GP
IO_7
6
CK
1P
A0N
PDA20
RESTUP
RDQ30
RDQ26
RDQ3
RA3
AV
CC
_B2R
PLL
Y1P
SO
Y1
Y0P
FB_I
N
OP
WR
SB
AV
CC
_H
GP
IO_1
7
GP
IO_8
4
GP
IO_8
2
LVD
DB
CK
2N
JTA
G_T
DI
GP
IO_6
PDD6
PDD1
RCLK0
RDQ14
RDQ6
RDQ1
RDQ17
RDQS3
RCS#
SY
2
SY
1
CV
BS
3
MPX2
RP
OP
CTR
L6
PDA8
A6N
GP
IO_1
2
PDA9
PDD0
RDQ16
RDQ21
RDQ31
RA7
PB
0PP
B0N
AL2
GP
GN
Y0N
AV
CC
_H
PDA22
GP
IO_1
6
TS0D
ATA
5
GP
IO_7
3
A2P
GP
IO_3
GP
IO_1
PDD3
RDQ20
PB
1N
AV
CC
_VA
D1
AV
CC
_VA
D0
TN2
AVCC_ADAC
BN
AV
CC
_PS
CA
NP
LL
OS
DA
0
GP
IO_1
8G
PIO
_18
GP
IO_1
5
GP
IO_1
30
GP
IO_5
9
RDQM1
RA0RA1
SC
2
RN
AD
IN1
AV
CC
_SR
V
OP
CTR
L0
RX
2
OS
CL2
PDA2
GP
IO_1
33
TS0D
ATA
6
GP
IO_7
8G
PIO
_77
GP
IO_7
1
A4P
GP
IO_2
GP
IO_0
PDA14
RDQ15
RCKE
RA11
RA8
XR
EG
VD
D
AV
CC
_VA
D0
AV
CC
_CP
UP
LL
PW
M2V
RE
F
OR
ES
ET#
OP
CTR
L1
OP
CTR
L4
OP
WM
1
GP
IO_7
0
GP
IO_2
0G
PIO
_19
AO
1SD
ATA
0
GP
IO_8
3
CK
1N
JTA
G_T
DO
JTA
G_R
ST#
GP
IO_1
1
PDA17
EXT_MCLK
RDQ10
RDQ7
RVREF
RRAS#
RA6
RA4
RA12
AO
1SD
ATA
3
AO
1SD
ATA
1
I2S
IN_D
ATA
U2TX
AVCC_VPLL
POOE0#
EXT_RES
CK1P
C_XREG
AVCC_PSCANPLL
AVCC_ADAC
TS0SYNC
A2N
LVDDC
A1P
A7N
SVM
ADIN3
B
DV33
AV12
A4N
AVCC_H
DACVDD
AGND_HDMI
PDD[0..7]
JTAG_RST#
CK2N
A1N
CK2P
AVCC_VAD0
AVCC_SYSPLL
CK1N
A5N
AGND_LVDS
PDA[0..22]
AVCC_ADCPLL
TP3
TS0VALID
DA
CV
DD
A4P
TP1
LVDDA
A0N
AVCC_APLL
JTAG_TCK
AVCC_B2RPLL
TP0
AGND_LVDS
ADAC_VCM
A3N
TN0
A6P
TN1
AVCC_SRV
TS0DATA[0..7]
TN3
AVCC_HDMIPLL
DACVREF
A6N
POCE0#
JTAG_TMS
GND
AGND_AFE
A3P
PVCC
TS0CLK
DA
CV
DD
XREGVDD
TN2
AVCC_AV33
A7P
DV26_DDR
A0P
AVCC_VAD1
JTAG_TDI
DV33SB
R
DACFS
PWM2VREF
CVCC12
AVCC_AADC
A2P
JTAG_TDO
AVCC_XTAL
G
AVCC_CPUPLL
AV
SS
_AP
LL
AV33
LVDDB
AGND_PLL
JTAG_RTCK
A5P
POWE#
AVCC_DMPLL
GPIO_3
GPIO_9
GPIO_15
GPIO_4
GPIO_16
DV33SB
GPIO_7
GPIO_6
GPIO_20
GPIO_8
GPIO_5
GPIO_11
GPIO_12
GPIO_10
AO1SDATA3
DV33
DV33
DV26_DDR
DV12
OPWRSB1
GPIO_17
ORESET#7
OXTALI7
OIRI1
OPWM07
OSDA114OSCL114OSDA210OSCL210
SMCE#7
OSDA07,13
DCLK7
U0RX10
MCLK7
U0TX10
OSCL07,13
ASPDIF9
RVREF8
RESTUP6RESTDN6
RCLK08RCLK0#8RCLK18RCLK1#8
RA[0..13]8RBA[0..1]8
RDQ[0..31]8
RDQS[0..3]8
RDQM[0..3]8
RCS#8RRAS#8RCAS#8RWE#8RCKE8
CVBS39
SC09
SC19SY19
CVBS19
SY09
CVBS29
CVBS03
Y0P9
Y1P9Y1N9PB1P9PB1N9
SOY19
PR1P9PR1N9
Y0N9PB0P9PB0N9
SOY09
PR0P9PR0N9
GP10GN10BP10BN10
SOG10
RP10RN10
RXCB14
OWRP2PWR5V14
RX0B14RX014
RX1B14RX114
RXC14
RX2B14RX214
GPIO_214
GPIO_167,13
AO1SDATA411
I2SIN_DATA11
AO1MCLK11AO1BCK11AO1LRCK11
MPX13MPX23
GPIO_04
GPIO_156,7
GPIO_177
AR111AL111
OPWM113OPWM2
GPIO_184
GPIO_1012GPIO_116,7
FB_IN10
HSYNC10VSYNC10
GPIO_1313GPIO_1413
SC29SY29
GPIO_58GPIO_59
GPIO_1311GPIO_1321GPIO_1331
GPIO_701
GPIO_1301
OPCTRL312OPCTRL41,13
OPCTRL67
OPCTRL01
OPCTRL77
OPCTRL11OPCTRL21
OPCTRL513
GPIO_[71..84]1
GPIO_126,7
GPIO_1911
AO1SDATA411
DV122,6
ADIN33
A1P13
AVCC_ADAC6,13
AVCC_CPUPLL2,6
AVCC_AADC6
XREGVDD1,2,6,7,10,11,12,13
A5P13
SVM13
PWM2VREF6
A1N13
A0P13
AGND_PLL1,2,3,4,6,7,8,9,10,11,12,13,14
CK1N13
A0N13
PDD[0..7]7
TS0VALID4
A2N13
LVDDC6
AVCC_APLL2,6
AGND_AFE1,2,3,4,6,7,8,9,10,11,12,13,14
TN26
POCE0#7
CVCC126
AVCC_SRV1,2,6,7,10,11,12,13
AVCC_B2RPLL2,6
AVCC_DMPLL2,6
TN36
JTAG_TDO7
CK2N13
DACVDD6
AVCC_VAD16
TS0SYNC4
LVDDA6
TP36
R13
GND1,2,3,4,6,7,8,9,10,11,12,13,14
TP06
AVCC_VAD06
ADAC_VCM6
JTAG_TMS7
AVCC_HDMIPLL2,6
A7N13
A4P13
PDA[0..22]7
AVCC_AV336
C_XREG6
A4N13
JTAG_TCK7
AVCC_VPLL6
DV331,2,4,6,7,11,12,13,14
A3N13
AVCC_SYSPLL2,6
DV33SB1,2,6,7,10,11,12,13
A6P13
JTAG_RST#7
A5N13
A3P13
B13
DV26_DDR2,6,8
TN06
AGND_LVDS1,2,3,4,6,7,8,9,10,11,12,13,14
EXT_RES6
TP16TN16
DACFS6
A2P13
LVDDB6
AGND_LVDS1,2,3,4,6,7,8,9,10,11,12,13,14
AVCC_XTAL1,2,6,7,10,11,12,13
G13
A7P13
TSCLK4
AV332,6,10,11
POOE0#7
DACVREF6
A6N13CK2P13
AVCC_ADCPLL2,6
AGND_HDMI1,2,3,4,6,7,8,9,10,11,12,13,14
JTAG_RTCK7
POWE#7
AVCC_H6
CK1P13
AVCC_PSCANPLL2,6
PVCC6
JTAG_TDI7
AV122,6
TS0DATA[0..7]4
GPIO_46,14
GPIO_56,14
GPIO_96
GPIO_810,14
GPIO_167,13
GPIO_76
GPIO_206
GPIO_156,7
GPIO_36,14
GPIO_66
DV33SB1,2,6,7,10,11,12,13
GPIO_116,7
GPIO_126,7
GPIO_1012
AO1SDATA311Title
Size Document Number Rev
Date: Sheet o f
ZhongShan KAWA Electronic Inc.
Drawn:
Checked:
MT5372 ASIC2Custom
5 14Thursday, March 01, 2007
MT5371_V07<Designer>
<Checker>
DDR SIGNAL
AV / SV VIDEO INPUT
YPBPR VIDEO INPUT
VGA VIDEO INPUT
HDMI VIDEO INPUT
AUDIO I2S INTERFACE
INTERNAL AUDIO DAC OUTPUT
RESERVE HEAT-SINK SPACE
HDMI POWER
GLOBAL POWER
TS INPUT
NOR FLASH
CRT OUTPUT
PLL POWER
LVDS SIGNAL
ANALOG FRONT-END POWER
JTAG
LVDS POWER
VIDEO DAC POWER
TP28
MT537x
GPIO JTAG LVDS VIDEO DAC UART AUDIO OUTPUT TS INPUT IEEE 1394 PHY I/O
DDR DRAM
NAND FLASH/NOR FLASH
POD
OUT
ATA/CF/MS/SD/XD SDIO SIF PWM IR HDMI RX PWRSERVO ADC INPUT
DIGITAL VIDEOINPUT ANALOG VIDEO INPUT
AUDIO
ADC
AUDIO
DAC
U12
MT5372BGA588
RA13A1
RA1A2
RA5A3
RA9A4
RA12A5
RA8B1
RA11B2 RA10B3
RA3B4
RA7B5
RA4C1
RA6C2
RBA1C3
RRAS_C4 RCAS_C5
RA0D1
RA2D2
RWE_D3
RBA0D4
RCS_D5RCKEE1
RODTE2
RDQ4E3 RDQ3E4
RDQ29A6
RDQ26B6
RDQ24C6
RDQ31D6
RDQS3_A7 RDQS3B7
RDQM3C7
RDQ30D7
RDQ25A8
RDQ27B8RDQ28C8
RVREFD8
RDQ21A9
RDQ18B9
RDQ16C9
RDQ23D9
RDQS2_A10 RDQS2B10
RDQM2C10
RDQ22D10
RCLK1A11RCLK1_B11
RDQ17C11
RDQ19D11RDQ20A12
RDQ1F1
RDQ6F2
RDQM0F3
RVREFF4
RDQS0G1RDQS0_G2
RDQ7G3
RDQ0G4
RDQ2H1
RDQ5H2
RDQ12H3 RDQ11H4
RDQ9J1
RDQ14J2
RDQS1_J3 RDQS1J4
RDQM1K1
RDQ15K2
RDQ8K3
RDQ10K4
RCLK0L1RCLK0_L2
RDQ13L3
REXTUPL4REXTDNM1
PDCD1_M2
PDCE1_M3PDCE2_M4
PDVS1N1
PDOE_N2
PDIORD_N3PDIOWR_N4
PDWE_P1PDIREQ_P2
PDCTRLVPPP3
PDVS2P4
PDRESTR1PDWAIT_R2PDINPACK_R3PDREG_R4
PDIOIS16_T1
PDCD2_T2
PDENPODT3
POCE2_T4 POCE1_U1
POOE0_U2
POCE0_U3
PDA1U4
PDD0V1PDD1V2PDD2V3PDD3V4PDD4W1PDD5W2PDD6W3PDD7W4PDA0Y1
PDA17Y2 PDA16Y3 PDA15Y4 PDA14AA1 PDA13AA2 PDA12AA3 PDA11AA4 PDA10AB1 PDA9AB2
PDA20AB3PDA21AB4
POWE_AC1
GP
IO_0
B12
GP
IO_1
C12
GP
IO_2
D12
GP
IO_3
A13
GP
IO_4
B13
GP
IO_5
C13
GP
IO_6
D13
GP
IO_7
A14
GP
IO_8
B14
GP
IO_9
C14
GP
IO_1
0D
14G
PIO
_11
A15
GP
IO_1
2B
15
JTR
ST_
C15
JTD
ID
15JT
DO
A16
JRTC
KB
16JT
MS
C16
JTC
KD
16
LVS
SA
D23
A0P
A17
A0N
B17
A4P
C17
A4N
D17
A1P
A18
A1N
B18
A5P
C18
A5N
D18
A2P
A19
A2N
B19
A6P
C19
A6N
D19
CK
1PA
20C
K1N
B20
CK
2PC
20C
K2N
D20
A3P
A21
A3N
B21
A7P
C21
A7N
D21
LVD
DB
A22
LVD
DC
B22
LVS
SB
C22
LVS
SC
D22
TP3
A23
TN3
B23
LVD
DA
C23
AV
SS
_VP
LLD
24
DA
CV
RE
FA
24
AV
CC
_VP
LLB
24
DA
CV
SS
BD
25
DA
CV
SS
CC
24
RA
25
GA
26B
A27
SV
MA
28
FSB
25
DA
CV
DD
CB
26
DA
CV
DD
BB
27
DA
CV
DD
AB
28D
AC
VS
SA
C25
EC
NTL
0D
28
ELR
EQ
A29
EC
LKA
30E
LPS
C28
EC
NTL
1E
28
ED
ATA
0B
29E
DA
TA1
B30
U2R
XC
27
ELI
NK
ON
E27
ED
ATA
2C
29E
DA
TA3
C30
U2T
XD
27
U2C
TSC
26
ED
ATA
4D
29E
DA
TA5
D30
T0D
ATA
0F3
0
U2R
TSD
26
ED
ATA
6E
29E
DA
TA7
E30
T0D
ATA
1G
30T0
DA
TA2
F27
T0D
ATA
3F2
8T0
DA
TA4
F29
T0D
ATA
5H
30T0
DA
TA6
G27
T0D
ATA
7G
28T0
SY
NC
G29
AO
LRC
KJ3
0
AO
SD
ATA
0H
27
T0V
ALI
DH
28T0
CLK
H29
AO
SD
ATA
1K
30A
OS
DA
TA2
J27
AO
BC
KJ2
8
AO
MC
LKJ2
9
AO
SD
ATA
3L3
0A
OS
DA
TA4
K27
AO
2BC
KK
28
AO
2MC
LKK
29A
O2L
RC
KM
30
AO
2SD
ATA
0L2
7
ALI
NL2
8
AS
PD
IFL2
9
GP
IO_1
3N
27G
PIO
_14
M27
GP
IO_1
5M
28G
PIO
_16
M29
GP
IO_1
7U
27G
PIO
_18
T27
GP
IO_1
9R
27G
PIO
_20
P27
PDA22AC2
PDA19AC3 PDA18AC4
PDA8AD1 PDA7AD2 PDA6AD3 PDA5AD4 PDA4AE1 PDA3AE2 PDA2AE3
IDD
8A
E4
IIOR
DY
AF1
IDD
9A
F2ID
D10
AF3
IDD
11A
F4
IINTR
QA
J2
IDD
12A
G1
IDD
13A
G2
IDIO
W_
AH
2
IDA
1A
J1
IDD
14A
G3
IDD
15A
G4
IDIO
R_
AH
1ID
A2
AH
3
IDA
0A
J3IC
S1_
AK
3IC
S0_
AK
2
IRE
SE
T_A
K1
SM
CE
_A
K5
SD
IOC
MD
AH
4S
DIO
D0
AJ4
SD
IOC
LKA
K4
MD
ATA
1A
K6
MD
ATA
0A
G5
DC
LKA
H5
MC
LKA
J5
SD
IOD
1A
K7
SD
IOD
2A
G6
SD
IOD
3A
H6
OIR
OA
J6
OP
WM
2A
K8
OP
WM
1A
G7
OP
WM
0A
H7
PW
R5V
AJ7
OS
CL1
AK
9O
SD
A1
AG
8
OS
DA
0A
H8
OS
CL0
AJ8
OW
RP
2A
G9
OS
CL2
AH
9O
SD
A2
AJ9
PG
ND
AG
10P
VC
CA
H10
CV
CC
12A
J10
EX
T_R
ES
AK
10
AV
SS
_HC
AG
11A
VC
C_H
CA
H11
RX
CB
AJ1
1R
XC
AK
11
AV
SS
_H0
AG
12A
VC
C_H
0A
H12
RX
0BA
J12
RX
0A
K12
AV
SS
_H1
AG
13A
VC
C_H
1A
H13
RX
1BA
J13
RX
1A
K13
AV
SS
_H2
AG
14A
VC
C_H
2A
H14
RX
2BA
J14
RX
2A
K14
OP
CTR
L4A
G15
OP
CTR
L5A
H15
OP
CTR
L6A
J15
OP
CTR
L7A
K15
OP
CTR
L0A
G16
OP
CTR
L1A
H16
OP
CTR
L2A
J16
OP
CTR
L3A
K16
U0R
XA
G17
OR
ES
ET_
AH
17
OIR
IA
J17
OP
WR
SB
AK
17U
0TX
AG
18
AV
CC
_SR
VA
K18
AD
IN2
AG
19
PW
M2V
RE
FA
H19
AD
IN1
AJ1
9A
DIN
0A
K19
AD
IN4
AG
20A
DIN
3A
H20
XTA
LIA
J20
XTA
LOA
K20
AV
SS
_SR
VA
H21
AV
SS
_XTA
LA
J21
AV
CC
_XTA
LA
K21
VID
7A
G21
VID
3A
G22
VID
4A
H22
VID
5A
J22
VID
6A
K22
VID
0A
H23
VID
1A
J23
VID
2A
K23
VIV
CLK
AG
23
A
VS
S_H
DM
IPLL
AG
24
AV
CC
_HD
MIP
LLA
H24
A
VC
C_P
SC
AN
PLL
AJ2
4
AV
CC
_DM
PLL
AK
24
AV
SS
_PS
CA
NP
LLA
G25
A
VC
C_C
PU
PLL
AH
25TN
0A
J25
TP0
AK
25
AV
SS
_DM
PLL
AG
26
A
VC
C_A
DC
PLL
AH
27
VS
YN
CA
J26
HS
YN
CA
K26
SO
Y0
AJ3
0
A
VS
S_S
YS
PLL
AE
27
SO
GA
J29
FB_I
NA
H26
Y0N
AH
29
RN
AK
29
GN
AJ2
8
BN
AJ2
7
Y0P
AH
30
RP
AK
30
GP
AK
28
BP
AK
27
AVSS0_ADAC N28
AVSS1_ADAC N29 AVCC1_ADAC N30
ADAC_VCM P28
AR2 P29AL2 P30
AVCC0_ADAC R28
AR1 R29AL1 R30
AVSS_AADC T28 AVCC_AADC U28MPX2 T29MPX1 T30
TN2
U29
TP2
U30
A
VS
S_V
FE0
V27
A
VC
C_V
FE0
V28
CV
BS
1V
29C
VB
S0
V30
A
VS
S_V
AD
0W
27
AV
CC
_VA
D0
W28
CV
BS
3W
29C
VB
S2
W30
A
VS
S_V
AD
1Y
27
AV
CC
_VA
D1
Y28
SC
0Y
29S
Y0
Y30
A
VS
S_V
FE1
AA
27
AV
CC
_VFE
1A
A28
SC
1A
A29
SY
1A
A30
A
VS
S_A
V33
AB
27
AV
CC
_AV
33A
B28
SC
2A
B29
SY
2A
B30
TN1
AC
27TP
1A
C28
PR
1NA
C29
PR
1PA
C30
PB
1NA
D29
PB
1PA
D30
SO
Y1
AE
28
Y1N
AE
29Y
1PA
E30
PR
0NA
F29
PR
0PA
F30
PB
0NA
G29
PB
0PA
G30
VC
C2I
OE
7V
CC
2IO
E8
VC
C2I
OE
9V
CC
2IO
E10
VC
C2I
OE
11V
CC
2IO
E12
VC
C2I
OF5
VC
C2I
OF6
VC
C2I
OF8
VC
C2I
OF9
VC
C2I
OF1
0V
CC
2IO
F11
VC
C2I
OF1
2V
CC
2IO
G5
VC
C2I
OH
5V
CC
2IO
H6
VC
C2I
OJ5
VC
C2I
OJ6
VC
C2I
OK
5V
CC
2IO
K6
VC
C2I
OL5
VC
C2I
OL6
VC
C2I
OM
5V
CC
2IO
M6
VC
C2I
OE
5V
CC
2IO
E6
VC
C2I
OF7
VC
C2I
OG
6
VC
C3I
ON
5V
CC
3IO
N6
VC
C3I
OP
5V
CC
3IO
P6
VC
C3I
OR
5V
CC
3IO
R6
VC
C3I
OE
16V
CC
3IO
E17
VC
C3I
OE
18V
CC
3IO
F16
VC
C3I
OF1
7V
CC
3IO
F18
VCCK F13VCCK F14VCCK F15
VCCK E13VCCK E14VCCK E15
VCCK T5VCCK T6VCCK U5VCCK U6VCCK V5VCCK V6VCCK F26VCCK G26VCCK H26VCCK J26VCCK K26VCCK AF15VCCK AF16VCCK AF17
VC
C3I
OL2
6V
CC
3IO
M26
VC
C3I
ON
26V
CC
3IO
P26
VC
C3I
OA
F6V
CC
3IO
AF7
C_X
RE
GA
J18
XR
EG
VS
SA
F18
XR
EG
VD
DA
H18
AVCC_DV33 R26
AV
SS
_CP
UP
LLA
G27
AV
SS
_AD
CP
LLA
F27
AV
SS
_B2R
PLL
AD
27
AV
SS
_AP
LLA
D28
AV
CC
_AP
LLA
F28
AV
CC
_B2R
PLL
AG
28A
VC
C_S
YS
PLL
AH
28
VC
C3I
OA
F8V
CC
3IO
AF9
VCCK AF19VCCK AF20
GND L11GND L12GND L13GND L14GND L15GND L16GND L17GND L18GND L19GND L20GND M11GND M12GND M13GND M14GND M15GND M16GND M17GND M18GND M19GND M20GND N11GND N12GND N13GND N14GND N15GND N16GND N17GND N18GND N19GND N20GND P11GND P12GND P13GND P14GND P15GND P16GND P17GND P18GND P19GND P20GND R11GND R12GND R13GND R14GND R15GND R16GND R17GND R18GND R19GND R20GND T11GND T12GND T13GND T14GND T15GND T16GND T17GND T18GND T19GND T20GND U11GND U12GND U13GND U14GND U15GND U16GND U17GND U18GND U19GND U20GND V11GND V12GND V13GND V14GND V15GND V16GND V17GND V18GND V19GND V20GND W11GND W12GND W13GND W14GND W15GND W16GND W17GND W18GND W19GND W20GND Y11GND Y12GND Y13GND Y14GND Y15GND Y16GND Y17GND Y18GND Y19GND Y20
TP41
TP35
TP20
TP32
TP17
TP23
TP37
TP25
TP29
TP40
TP6
TP36
TP21
TP26
TP39
TP33
TP44
TP30
TP43
TP27
TP45
TP34
TP46
TP24
TP22
TP31
TP38
12/135
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
AVCC_HDMIPLL
AVCC_DMPLL
AVCC_CPUPLL
AVCC_CPUPLLAVCC_ADCPLLAVCC_SYSPLL
AVCC_DMPLL
AVCC_APLLAVCC_B2RPLL
AVCC_HDMIPLLAVCC_PSCANPLL
AVCC_PSCANPLL
PWM2VREF
DACFS
DACVREF
LVDDA
LVDDB
LVDDC
AVCC_VPLL
DACVDD
DACVDD
DACVDD
AVCC_ADCPLL
AVCC_SYSPLL
AVCC_B2RPLL
AVCC_APLL
C_XREG
AGND_PLL
TP3 AVCC_VPLL
TN3 AVCC_VPLL
AVCC_SRVXREGVDDAVCC_XTAL
C_XREG
TP0TN0
LVDDALVDDBLVDDCAVCC_VPLL
TP3TN3
AGND_LVDS
DACFSDACVREF
AGND_LVDS
DACVDD
AV33
AV15
DV33SB
PWM2VREF
AVCC_AV33AVCC_AADC
TP1TN1
TN2
AVCC_VAD0
AVCC_ADAC
AVCC_VAD1
ADAC_VCM
AV12
DV26_DDR
DV33
TP0 AVCC_SYSPLL TN0 AVCC_SYSPLL
CVCC12
AVCC_HPVCC
EXT_RES
RESTUP
RESTDN
RESTUPRESTDN
AVCC_AADC
EXT_RES
PVCC
CVCC12
AVCC_VAD1
AVCC_AV33
AVCC_VAD0
ADAC_VCM
LVDDAAVCC_H
GND
AGND_HDMI
GPIO_11 GPIO_12 GPIO_15
GPIO_11
DV33SB
DV12
GPIO_16GPIO_5
GPIO_15
XREGVDD
GPIO_20
GPIO_12
GPIO_5
GPIO_4
GPIO_7
GPIO_9
GPIO_6
GPIO_3
GPIO_9GPIO_6
GPIO_8
GPIO_4GPIO_3
GPIO_10
AVCC_XTAL
GPIO_20
AVCC_SRV
GPIO_7
AGND_AFE
AVCC_ADAC
AVCC_ADAC
AV12
AV33
AV12
AV12
DV33SB
DV33SB
DV33SB
DV33
DV12
DV26_DDR
AV33
AV33
AV12
AV33
AV33AV15
AV33
DV33SB
AV15
DV26_DDR
DV33 DV33 DV33DV33 DV33 DV33 DV33 DV33 AVCC_ADACDV33
AVCC_HDMIPLL2,5
AGND_PLL1,2,3,4,5,7,8,9,10,11,12,13,14
AVCC_APLL2,5AVCC_B2RPLL2,5AVCC_SYSPLL2,5AVCC_ADCPLL2,5AVCC_CPUPLL2,5AVCC_DMPLL2,5AVCC_PSCANPLL2,5
AVCC_SRV1,2,5,7,10,11,12,13XREGVDD1,2,5,7,10,11,12,13AVCC_XTAL1,2,5,7,10,11,12,13
C_XREG5
TP05TN05
LVDDA5LVDDB5LVDDC5AVCC_VPLL5
TP35TN35
AGND_LVDS1,2,3,4,5,7,8,9,10,11,12,13,14
AGND_LVDS1,2,3,4,5,7,8,9,10,11,12,13,14
DACFS5DACVREF5
DACVDD5
AV332,10,11
AV152
DV33SB1,2,5,7,10,11,12,13
PWM2VREF5
GND1,2,3,4,5,7,8,9,10,11,12,13,14
AVCC_AV335AVCC_AADC5
TP15TN15
TN25
AGND_AFE1,2,3,4,5,7,8,9,10,11,12,13,14
AVCC_VAD05
AVCC_ADAC5,13
AVCC_VAD15
ADAC_VCM5
AV122,5
DV26_DDR2,5,8
DV331,2,4,5,7,11,12,13,14
CVCC125
AVCC_H5
AGND_HDMI1,2,3,4,5,7,8,9,10,11,12,13,14
PVCC5
EXT_RES5
RESTUP5RESTDN5
DV33SB1,2,5,7,10,11,12,13
GPIO_165,7,13
GPIO_115,7
GPIO_155,7
DV122,5
GPIO_205
GPIO_125,7
GPIO_85,10,14
GPIO_65
GPIO_35,14
GPIO_75
GPIO_55,14
GPIO_45,14
GPIO_95
GPIO_105,12
AVCC_ADAC5,13
Title
Size Document Number R ev
Date: Sheet o f
ZhongShan KAWA Electronic Inc.
Drawn:
Checked:
MT5372 BYPASS CAP.2Custom
6 14Thursday, March 01, 2007
MT5371_V07<Designer>
<Checker>
LVDS POWER VIDEO DAC POWER
PLL POWER
PLL POWER
LVDS POWER
VIDEO DAC POWER
GLOBAL POWER
ANALOG FRONT-END POWER
TOP SIDE BOTTOM SIDELEFT SIDE RIGHT SIDE
TOP SIDE BOTTOM SIDELEFT SIDE RIGHT SIDE
STANDBY POWER
DIGITAL POWER
HDMI POWER
ANALOG FRONT-END POWER
HDMI POWER
RA-V1
RA-V2
L42
FB/70R/500mA/0603BEAD/SMD/0603
TP48
CB1620.1uFC0603/SMD
CB1140.1uFC0603/SMD
R38710K/NCR0603/SMD
R7450R/NCR0603/SMD
CB1460.1uFC0603/SMD
CB1390.1uFC0603/SMD
CB1294.7uF/6.3VC0603/SMD
CB1180.1uFC0603/SMD
CB1600.1uFC0603/SMD
CB1160.1uFC0603/SMD
CB1190.1uFC0603/SMD
CB1584.7uF/6.3VC0603/SMD
R37810K/NCR0603/SMD
CB1780.1uFC0603/SMD
CB1330.1uFC0603/SMD
CB1650.1uFC0603/SMD
CB1530.1uFC0603/SMD
CB1304.7uF/6.3VC0603/SMD
CB1130.1uFC0603/SMD
CB1360.1uFC0603/SMD
CB1510.1uFC0603/SMD
R38110K/NCR0603/SMD
CB1670.1uFC0603/SMD
CB1490.1uFC0603/SMD
CB1740.1uFC0603/SMD
CB1320.1uFC0603/SMD
L46
FB/70R/500mA/0603BEAD/SMD/0603
CB1414.7uF/6.3VC0603/SMD
CB1590.1uFC0603/SMD
CB1790.1uFC0603/SMD R78
33R/NCR0603/SMD
CB1760.1uFC0603/SMD
+CE34100uF/16V
100UF/220UF/SMD
L45
FB/70R/500mA/0603BEAD/SMD/0603
CB1100.1uFC0603/SMD
R37710K/NCR0603/SMD
TP49
CB1310.1uFC0603/SMD
L40
FB/70R/500mA/0603BEAD/SMD/0603
CB1170.1uFC0603/SMD
CB1354.7uF/6.3VC0603/SMD
TP47
R7933R/NCR0603/SMD
CB1470.1uFC0603/SMD
CB1660.1uFC0603/SMD
CB1260.1uFC0603/SMD
R38610K/NCR0603/SMD
+ CE3347uF/16V
100UF/220UF/SMD
CB1110.1uFC0603/SMD
CB1154.7uF/6.3VC0603/SMD
R37910K/NCR0603/SMD
CB1550.1uF
C0603/SMD
CB1240.1uFC0603/SMD
CB1270.1uFC0603/SMD
CB1450.1uFC0603/SMD
L44
FB/70R/500mA/0603BEAD/SMD/0603
CB1520.1uFC0603/SMD
CB1250.1uFC0603/SMD
+ CE32100uF/16V
100UF/220UF/SMD
CB1800.1uF/NCC0603/SMD
CB1380.1uFC0603/SMD
CB1680.1uFC0603/SMD
CB1204.7uF/6.3VC0603/SMD
CB1220.1uFC0603/SMD
CB1720.1uFC0603/SMD
CB1480.1uFC0603/SMD
CB1090.1uFC0603/SMD
D4
1N41481N4148/SMD
CB1574.7uF/6.3VC0603/SMD
CB1434.7uF/6.3VC0603/SMD
CB1560.1uF
C0603/SMD
CB1424.7uF/6.3VC0603/SMD
CB13410uF/16vC0805/SMD
R38310K/NCR0603/SMD
R38510K/NCR0603/SMD
R38010K/NCR0603/SMD
CB1234.7uF/6.3VC0603/SMD
CB1630.1uFC0603/SMD
CB1124.7uF/6.3VC0603/SMD
CB1730.1uFC0603/SMD
+ CE30220uF/16V100UF/220UF/SMD
CB1404.7uF/6.3VC0603/SMD
R7650R/NCR0603/SMD
CB1750.1uFC0603/SMD
R38910K/NCR0603/SMD
CB1610.1uFC0603/SMD
CB1540.1uFC0603/SMD
L41150uH/1A/DIP15L/IND/DIP/P10.0
CB1280.1uFC0603/SMD
R75560R0603/SMD
CB1500.1uFC0603/SMD
L38
FB/70R/500mA/0603BEAD/SMD/0603
CB1710.1uFC0603/SMD
CB1690.1uFC0603/SMD
R7750R/NCR0603/SMD
+ CE31100uF/16V
100UF/220UF/SMD
L43
FB/70R/500mA/0603BEAD/SMD/0603
R7350R/NCR0603/SMD
CB1640.1uFC0603/SMD
CB1370.1uFC0603/SMD
L47
FB/70R/500mA/0603BEAD/SMD/0603CB177
0.1uFC0603/SMD
CB1440.1uFC0603/SMD
L39
150uH/1A/DIP15L/IND/DIP/P10.0
CB1700.1uFC0603/SMD
CB1210.1uFC0603/SMD
13/135
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
AGND_PLL
OPWM0
OXTALI
GPIO_1
SIF_SCL
SMCE#
JTAG_TCK
OSDA0
DV33SB
DCLK
SIF_SCL
OSDA0 SIF_SDA
OSCL0
JTAG_RTCK
OXTALI
NOR_ORESET#
PDA0
PDA20PDA19PDA18PDA17PDA16PDA15PDA14PDA13PDA12
PDA10PDA11
PDA9PDA8PDA7PDA6PDA5PDA4PDA3PDA2PDA1
PDA21PDA22POCE0#POOE0#POWE#
PDD0PDD1PDD2PDD3PDD4PDD5PDD6PDD7
NOR_ORESET#
MCLK
PDD[0..7]PDA[0..22]
POOE0#
JTAG_TDO
+5V
POCE0#
+5VSB
OPWM0
OSCL0
GPIO_0
JTAG_RST#
DV33
POWE#
ORESET#
JTAG_TDI
ORESET#
AGND_AFE
SIF_SDA
JTAG_TMS
GPIO_12GPIO_15GPIO_16
GPIO_11
GPIO_17
IR
DVD_IR
SIF_SDASIF_SCL
GPIO_11GPIO_12GPIO_15GPIO_16GPIO_17
+3.3V
DVD_IR
IR
ORESET#
GPIO_1
SMCE#
MCLK
DCLK
JTAG_TDOJTAG_RTCK
JTAG_RST#
GND
OPCTRL6
OPCTRL7
ORESET#
JTAG_TDIJTAG_TMSJTAG_TCK
OPCTRL6
OPCTRL7
DV33
DV33SB
DV33SB
DV33 DV33
DV33SB
+5VSB
+5V
+3.3V
DV33
+5V
+5V
DV33
DV33SB DV33
DV33
DV33SBDV33SB
DV33
DV33
DV33SB
DV33SB
DV33SB
AGND_PLL1,2,3,4,5,6,8,9,10,11,12,13,14
GPIO_15
PDA[0..22]5
SIF_SCL4,11
SMCE#5
JTAG_TCK5
OSDA05,13
GND1,2,3,4,5,6,8,9,10,11,12,13,14
DV33SB1,2,5,6,10,11,12,13
DCLK5
JTAG_RTCK5
OXTALI5
MCLK5
POOE0#5
JTAG_TDO5
+5V1,2,8,9,11,13
POCE0#5
+5VSB1,2,10,11,12,13,14
OPWM05
OSCL05,13
GPIO_04,5
JTAG_RST#5
DV331,2,4,5,6,11,12,13,14
POWE#5
ORESET#5
JTAG_TDI5
AGND_AFE1,2,3,4,5,6,8,9,10,11,12,13,14
PDD[0..7]5
SIF_SDA4,11
JTAG_TMS5
GPIO_115,6GPIO_125,6GPIO_155,6
GPIO_175GPIO_165,13
DVD_IR9
IR1
OPCTRL65
OPCTRL75
Title
Size Document Number R ev
Date: Sheet o f
ZhongShan KAWA Electronic Inc.
Drawn:
Checked:
MT5372 PERIPHERAL2Custom
7 14Thursday, March 01, 2007
MT5371_V07<Designer>
<Checker>
NOR FLASH
POWER ON RESET# CIRCUIT
GENERAL PURPOSE SIF
NOR FLASH
JTAG
POWER DOWN RESET# CIRCUIT
DVD POWER CONTROL
MT5372 SYSTEM EEPROM
RA-V1
RA-V1
TRAP-MODE CIRCUIT
JTAG INTERFACE
RA-V2
(8.2K)(10nF)
POWER-ON STATUS CIRCUIT
RA-V3
Q62N3904SOT23/SMD
1
32
CB1921000pF/NC
+ CE37100uF/16V
100UF/220UF/SMD
R117 0R/NC
+
CE36
47uF/16v100UF/220UF/SMD
U15
AZ1117-3.3V/NCSOT223/SMD
AD
J/G
ND
1
OUT 2IN3
R8110K
R0603/SMD
CB18647pFC0603/SMD
+
CE3810uF/16V
10UF/SMD
U28A
74HC0074HC00
1
23
147
CB1900.1uFC0603/SMD
R1004.7KR0603/SMD
CB1851nFC0603/SMD
CB1911000pF/NC
R9910KR0603/SMD
CB18822pFC0603/SMD
R4060RR0603/SMD
D61N4148
R108
220R0603/SMD
R4070R/NC
R0603/SMD
R1014.7KR0603/SMD
CB1820.1uFC0603/SMD
R10233R0603/SMD
R1200R/1206/NCR/SMD/1206
CB1810.1uF
R10710KR0603/SMD
U28B
74HC00SOP14/SMD
4
56
147
R3974.7K/NCR0603/SMD
R3984.7KR0603/SMD
R90 33 R0603/SMD
R1044.7K/NCR0603/SMD
RN410Kx4RN0603/SMD
12
34
56
78
Q82N3904SOT23/SMD
1
32
R948.2KR0603/SMD
R1114.7K/NCR0603/SMD
R11810K/NCR0603/SMD
+ CE40220uF/16V/NC
100UF/220UF/SMD
+ CE39220uF/16v/NC
100UF/220UF/SMD
R84
10
R11247KR0603/SMD
R8747KR0603/SMD
CB18410nFC0603/SMD
R11351KR0603/SMD
J6
9P2.0mmDIP9/W/H/P2.0
123456789
R89
470
CB1890.1uFC0603/SMD
Q92N3904/NC
SOT23/SMD
1
32
D51N41481N4148/SMD
R950
R0603/SMD
CB1950.1uF/NC
R. ANGLE
J5
DIP10/W/H/P2.0
10x1 W/HOUSING R.A./10P2.0MM/NC
123456789
10
U13
IC FLASH MX29LV320 32Mb TSOP-48TSOP48/SMD
A025A124A223A322A421A520A619A718A88
A2010
OE28
BYTE 47A1816
D0 29D1 31D2 33D3 35
A97
CE26
D4 38D5 40D6 42D7 44D8 30D9 32
WP/ACC 14
D11 36D12 39D13 41D14 43
D15/A-1 45
VCC 37
GND1 27WE11
A199
D10 34
GND2 46
A106
A124 A115
A133A142A151A1648A1717
A2113
RESET12
RY/BY 15
R119
4.7K/NCR0603/SMD
L49FB/70R/500mA/0603BEAD/SMD/0603
R970R/NCR0603/SMD
D71N41481N4148/SMD
R861KR0603/SMD
R1104.7K/NCR0603/SMD
X1
VCXO M3V 6P - 27MHzOSC/6P/SMD/7X5
CVIN1
TRI-STATE2
GND3 OUT 4
NC 5
VDD 6
+CE41
220uF/16v/NC100UF/220UF/SMD
R1060R/NCR0603/SMD
R114 0R/NC
R9651R0603/SMD
CB1941000pF/NC
+ CE35220uF/16V100UF/220UF/SMD
R850
CB1960.1uF/NC
R116 0R/NC
R105100R0603/SMD
R980R0603/SMD
R88
10R/NC
CB1830.1uFC0603/SMD
CB1931000pF/NC
U14
EEPROM 24C16SOP8/SMD
NC1NC2NC3GND4 SDA 5
SCL 6WP 7VCC 8
R801KR0603/SMD
L48
FB/70R/500mA/0603BEAD/SMD/0603
R4054.7KR0603/SMD
L50 0R/1206/NC
R115 0R/NC
R1094.7K/NCR0603/SMD
Q7
2N3904
1
3 2
R103100R0603/SMD
CB187NC
C0603/SMD
R91 33 R0603/SMD
14/135
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
MEM_ADDR6MEM_ADDR5MEM_ADDR4
MEM_DQ0
MEM_ADDR6MEM_ADDR5MEM_ADDR4
MEM_DQ16 MEM_DQ31
MEM_DQ17 MEM_DQ30MEM_DQ18
MEM_DQ19MEM_DQ20
MEM_DQ21MEM_DQ22
MEM_DQ23
MEM_DQS2
MEM_WE#MEM_DQM2
MEM_CAS#
MEM_CS#MEM_RAS#
MEM_BA0MEM_BA1MEM_ADDR10MEM_ADDR0MEM_ADDR1MEM_ADDR2MEM_ADDR3
MEM_DQ29
MEM_DQ28MEM_DQ27
MEM_DQ26MEM_DQ25
MEM_DQ24
MEM_DQS3
MEM_DQM3MEM_CLKB#MEM_CLKBMEM_CLKEN
MEM_ADDR12MEM_ADDR11MEM_ADDR9MEM_ADDR8MEM_ADDR7
MEM_DQ15
MEM_DQ1 MEM_DQ14MEM_DQ2
MEM_DQ3MEM_DQ4
MEM_DQ5MEM_DQ6
MEM_DQ7
MEM_DQS0
MEM_WE#MEM_DQM0
MEM_CAS#
MEM_CS#MEM_RAS#
MEM_BA0MEM_BA1MEM_ADDR10MEM_ADDR0MEM_ADDR1MEM_ADDR2MEM_ADDR3
MEM_DQ13
MEM_DQ12MEM_DQ11
MEM_DQ10MEM_DQ9
MEM_DQ8
MEM_DQS1
MEM_DQM1MEM_CLKA#MEM_CLKAMEM_CLKEN
MEM_ADDR12MEM_ADDR11MEM_ADDR9MEM_ADDR8MEM_ADDR7
MEM_DQ6
MEM_DQ14
MEM_DQ23
MEM_DQ12
MEM_DQ17
MEM_DQ1
MEM_DQ20
MEM_DQ22
MEM_DQ26
MEM_DQ3MEM_DQ4
MEM_DQ29
MEM_DQ0
MEM_DQ28
MEM_DQ19
MEM_DQ31
MEM_DQ13
MEM_DQ25
MEM_DQ21
MEM_DQ11
MEM_DQ8
MEM_DQ10MEM_DQ9
MEM_DQ2
MEM_DQ5
MEM_DQ24
MEM_DQ18
MEM_DQ7
MEM_DQ15
MEM_DQ30
MEM_DQ27
MEM_DQ16
MEM_DQS0MEM_DQM0MEM_DQM1MEM_DQS1
MEM_DQS2MEM_DQM2MEM_DQM3MEM_DQS3
RDQM1RDQS1
RDQS0RDQM0
RDQ0RDQ1RDQ2RDQ3RDQ4RDQ5RDQ6RDQ7
RDQS2RDQM2RDQM3RDQS3
RDQ8RDQ9RDQ10RDQ11RDQ12RDQ13RDQ14
RDQ17RDQ18RDQ19RDQ20RDQ21RDQ22RDQ23
RDQ16
RDQ15
RDQ24RDQ25RDQ26RDQ27RDQ28RDQ29RDQ30RDQ31
MEM_VREFMEM_VREFMEM_ADDR13 MEM_ADDR13
RA0 MEM_ADDR0
RA8 MEM_ADDR8
MEM_ADDR7
MEM_ADDR2
MEM_ADDR4MEM_ADDR5
RA1RA2
MEM_ADDR1
MEM_ADDR3
MEM_ADDR6
RA3
RA4RA5RA6RA7
RA13 MEM_ADDR13
MEM_ADDR9RA9
MEM_ADDR12RA11
RCKE
MEM_ADDR10
RA12MEM_ADDR11
MEM_CLKEN
MEM_CAS#
MEM_CS#
MEM_BA0
MEM_WE#
MEM_RAS#
RWE#RCAS#RRAS#
MEM_BA1
RCS#
RBA0RBA1RA10
MEM_ADDR0
MEM_ADDR8
MEM_ADDR10
MEM_ADDR9
MEM_CLKEN
MEM_ADDR2MEM_ADDR1
MEM_ADDR13
MEM_CS#
MEM_ADDR4
MEM_ADDR3
MEM_CAS#
MEM_ADDR7
MEM_WE#
MEM_ADDR6
MEM_ADDR11
MEM_ADDR5
MEM_ADDR12
MEM_BA1
MEM_RAS#
MEM_CLKA
MEM_CLKA#
RCLK0
RCLK0#
MEM_CLKB
MEM_CLKB#
RCLK1
RCLK1#
MEM_BA0
DV26_DDR
RDQ[0..31]RDQS[0..3]RDQM[0..3]RA[0..13]
RCLK0RCLK0#RCS#RRAS#RCAS#RWE#RCKE
RBA[0..1]
RCLK1RCLK1#
MEM_VREF
MEM_VREF
R VREF
R VREF
MEM_VREF
DV26_DDR
MEM_VREFDV13_DDR
+5V
DV13_DDR
R VREF
DV13_DDR R VREF
DV13_DDR
DV13_DDR
DV13_DDR
DV13_DDRDV13_DDR
DV13_DDR
DV13_DDR
DV26_DDR DV26_DDR DV26_DDR DV26_DDR
DV26_DDR
DV26_DDR
DV26_DDR
DV26_DDR
DV13_DDR
+5V
DV26_DDR2,5,6
RDQ[0..31]5RDQS[0..3]5RDQM[0..3]5RA[0..13]5
RCLK05RCLK0#5RCS#5RRAS#5RCAS#5RWE#5RCKE5
RBA[0..1]5
RCLK15RCLK1#5
GND1,2,3,4,5,6,7,9,10,11,12,13,14
RVREF5
+5V1,2,7,9,11,13
Title
Size Document Number R e v
Date: Sheet o f
ZhongShan KAWA Electronic Inc.
Drawn:
Checked:
DDR1 MEMORY1Custom
8 14Thursday, March 01, 2007
MT5371_V07<Designer>
<Checker>
BYPASS CAP. FOR TERMINATOR(EVERY 2 RESISTOR PUT 1 BYPASS CAP.)
DDR#1
DDR MEMORY
CLOSED TO MT5372 CLOSED TO DDR
CLOSED TO MT5372 CLOSED TO DDR
CLOSED TO DDRCLOSED TO MT5372
BYPASS CAP. FOR DIMMDV13_DDR FOR DDR TERMINATORMEM_VREF FOR DDR VREFRVREF FOR MT5372 VREF
PUT ON NEARLY BGA
RA-V3
RA-V3
23/12
23/12
CB2134.7uF/6.3VC0603/SMD
CB2780.1uFC0603/SMD
CB2300.1uFC0603/SMD
CB2490.1uFC0603/SMD
RN9 22x4
RN0603/SMD1 23 45 67 8
CB2380.1uFC0603/SMD
RN6 75x4
RN0603/SMD1 23 45 67 8
CB2370.1uFC0603/SMDCB260
4.7uF/6.3VC0603/SMD
RN29 47x4
RN0603/SMD1 23 45 67 8
R135 75 R0603/SMDR138 75 R0603/SMD
CB2290.1uFC0603/SMD
R121 47 R0603/SMD
CB2000.1uFC0603/SMD
U17
16M x 16 DDR TSOP-66TSOP_0D65_22D6LX9D7W_66SP
VDD1DQ02VDDQ3DQ14DQ25VSSQ6DQ37DQ48VDDQ9DQ510DQ611VSSQ12DQ713NC14VDDQ15LDQS16NC17VDD18NC19LDM20WE21CAS22RAS23CS24NC25BS026BS127A10/AP28A029A130A231A332VDD33 VSS 34A4 35A5 36A6 37A7 38A8 39A9 40A11 41A12 42NC 43CKE 44CLK 45CLK 46UDM 47VSS 48VREF 49NC 50UDQS 51VSSQ 52NC 53DQ8 54VDDQ 55DQ9 56DQ10 57VSSQ 58DQ11 59DQ12 60VDDQ 61DQ13 62DQ14 63VSSQ 64DQ15 65VSS 66
CB2790.1uFC0603/SMD
CB2440.1uFC0603/SMD
CB1990.1uFC0603/SMD
+ CE42220uF/16V
100UF/220UF/SMD
CB2680.1uFC0603/SMD
CB2500.1uFC0603/SMD
CB2840.1uFC0603/SMD
R130 NS/75R0603/SMD
R139 47 R0603/SMD
RN26 75x4
RN0603/SMD1 23 45 67 8
CB2740.1uFC0603/SMD
CB2060.1uFC0603/SMD
R128 75 R0603/SMD
CB2710.1uFC0603/SMD
RN16 75x4
RN0603/SMD1 23 45 67 8
CB2270.1uFC0603/SMD
CB2810.1uFC0603/SMD
R1454.7KR0603/SMD
CB2230.1uFC0603/SMD
CB2830.1uFC0603/SMD
L53
FB/70R/500mA/0603BEAD/SMD/0603
CB2760.1uFC0603/SMD
RN13 22x4
RN0603/SMD1 23 45 67 8
CB2584.7uF/6.3VC0603/SMD
RN21 22x4
RN0603/SMD
1 23 45 67 8
+ CE44220uF/16V100UF/220UF/SMD
CB2624.7uF/6.3VC0603/SMD
CB2180.1uFC0603/SMD
CB2640.1uFC0603/SMD
CB2170.1uFC0603/SMD
CB2070.1uFC0603/SMD
CB2750.1uFC0603/SMD
CB1974.7uF/6.3VC0603/SMD
CB2390.1uFC0603/SMD
CB2670.1uFC0603/SMD
R140 75 R0603/SMD
RN20 75x4
RN0603/SMD1 23 45 67 8
CB2650.1uFC0603/SMD
CB2690.1uFC0603/SMD
CB2530.1uFC0603/SMD
CB2114.7uF/6.3VC0603/SMD
CB2280.1uFC0603/SMD
D48
ZD/DIP/P10.0DIODE SMD/NC
RN10 75x4
RN0603/SMD1 23 45 67 8 RN12 75x4
RN0603/SMD1 23 45 67 8
CB2560.1uFC0603/SMD
CB2410.1uFC0603/SMD
RN8 75x4
RN0603/SMD1 23 45 67 8
CB2200.1uFC0603/SMD
CB2330.1uFC0603/SMD
R13122R0603/SMD
R14422R0603/SMD
CB2480.1uFC0603/SMD
CB2190.1uFC0603/SMD
U16
16M x 16 DDR TSOP-66TSOP_0D65_22D6LX9D7W_66SP
VDD1DQ02VDDQ3DQ14DQ25VSSQ6DQ37DQ48VDDQ9DQ510DQ611VSSQ12DQ713NC14VDDQ15LDQS16NC17VDD18NC19LDM20WE21CAS22RAS23CS24NC25BS026BS127A10/AP28A029A130A231A332VDD33 VSS 34A4 35A5 36A6 37A7 38A8 39A9 40A11 41A12 42NC 43CKE 44CLK 45CLK 46UDM 47VSS 48VREF 49NC 50UDQS 51VSSQ 52NC 53DQ8 54VDDQ 55DQ9 56DQ10 57VSSQ 58DQ11 59DQ12 60VDDQ 61DQ13 62DQ14 63VSSQ 64DQ15 65VSS 66
R126 75 R0603/SMD
R132 47 R0603/SMD
RN27 47x4
RN0603/SMD1 23 45 67 8
CB2104.7uF/6.3VC0603/SMD
R137 47 R0603/SMD
CB2150.1uFC0603/SMD
CB2610.1uFC0603/SMD
CB2590.1uFC0603/SMD
+ CE43220uF/16v100UF/220UF/SMD
RN17 22x4
RN0603/SMD
1 23 45 67 8
R403120K/NCR0603/SMD
CB2510.1uFC0603/SMD
U26
IC LP2996 DDR Termination SOP-8SOP8/SMD
GND1SD2VSENSE3VREF4 VDDQ 5AVIN 6PVIN 7VTT 8
CB2544.7uF/6.3VC0603/SMD
RN11 47x4
RN0603/SMD1 23 45 67 8
CB2040.1uFC0603/SMD
CB2800.1uFC0603/SMD
CB2630.1uFC0603/SMD
CB2210.1uFC0603/SMD
CB2700.1uFC0603/SMD
CB2430.1uFC0603/SMD
RN14 75x4
RN0603/SMD1 23 45 67 8
RN19 47x4
RN0603/SMD1 23 45 67 8
R14122R0603/SMD
CB1984.7uF/6.3VC0603/SMD
CB2080.1uFC0603/SMD
CB2250.1uFC0603/SMD
D49
ZD/DIP/P10.0DIODE SMD/NC
R40210K/NCR0603/SMD
RN7 47x4
RN0603/SMD1 23 45 67 8
R123 47 R0603/SMD
RN22 75x4
RN0603/SMD
1 23 45 67 8
R136100R0603/SMD
R124 75 R0603/SMD
CB2220.1uFC0603/SMD
R14222R0603/SMD
CB2364.7uF/6.3VC0603/SMD
CB2010.1uFC0603/SMD
U27
CM3202/NCCM3202-1
VIN1NC2VTT3NC4 GND 5GND 6ADJSD 7VDDQ 8
GN
D9
CB2050.1uFC0603/SMD
CB2030.1uFC0603/SMD
R14610K/NCR0603/SMD
RN18 75x4
RN0603/SMD
1 23 45 67 8
R134 47 R0603/SMD
CB2420.1uFC0603/SMD
R129 22R0603/SMD
CB2520.1uFC0603/SMD
RN23 47x4
RN0603/SMD1 23 45 67 8
RN28 75x4
RN0603/SMD1 23 45 67 8
CB2720.1uFC0603/SMD
CB2820.1uFC0603/SMD
CB2400.1uFC0603/SMD
R143100R0603/SMD
CB4374.7uF/6.3V/NCC0603/SMD
CB2090.1uFC0603/SMD CB216
0.1uFC0603/SMD
+CE65
220uF/16V/NC100UF/220UF/SMD
CB2470.1uFC0603/SMD
CB2554.7uF/6.3VC0603/SMD
RN30 75x4
RN0603/SMD1 23 45 67 8
CB2354.7uF/6.3VC0603/SMD
CB2244.7uF/6.3VC0603/SMD
R127 47 R0603/SMDR125 47 R0603/SMD
RN24 75x4
RN0603/SMD1 23 45 67 8
L52
FB/70R/500mA/0603/NCBEAD/SMD/0603
CB2660.1uFC0603/SMD
CB2770.1uFC0603/SMD
RN25 47x4
RN0603/SMD1 23 45 67 8
CB2020.1uFC0603/SMD
R122 75 R0603/SMD
RN5 22x4
RN0603/SMD1 23 45 67 8
CB2310.1uFC0603/SMD
CB2120.1uFC0603/SMD
L51
FB/70R/500mA/0603/NCBEAD/SMD/0603
RN15 47x4
RN0603/SMD1 23 45 67 8
CB2460.1uFC0603/SMD
CB2340.1uFC0603/SMD
CB2450.1uFC0603/SMD
CB2260.1uFC0603/SMD
CB2320.1uFC0603/SMD
R133 75 R0603/SMD
CB2574.7uF/6.3VC0603/SMD
CB2730.1uFC0603/SMD
15/135
A
A
A A
Y0P
Y0N
SOY0
PB0P
PB0N
PR0P
PR0N
Y1P
Y1N
SOY1
PB1P
PB1N
PR1P
PR1N
YPBPR0R_IN1
YPBPR0L_IN1
YPBPR1L_IN1
YPBPR1R_IN1YPBPR1L_IN1
Y0P
Y1PY1NPB1PPB1N
SOY1
PR1PPR1N
Y0N
YPBPR0R_IN1
PB0PPB0N
YPBPR0L_IN1
SOY0
PR0PPR0N
Y1_IN
PR1_IN
DVD_IR
PB1_INPB_GND
PR_GND
SY0
CVBS1
SC0
VGAL_IN VGAL_IN1
AVL_IN1AVR_IN1
SYL_IN1SYR_IN1
ASPDIFASPDIF COAXIAL_OUT
CVBS3
SY2
SY1
SC1
CVBS2
AUD_LOUT
COAXIAL_OUT
SC0SY0CVBS1SC1SY2CVBS3
SC2
SC2SY1CVBS2
DVD_IR
VGAR_IN1
VGAL_IN1VGAR_IN1
ASPDIFASPDIFAUD_LOUTAUD_ROUT
SYL_IN1
SYR_IN1
AVR_IN1
AVL_IN1
YPBPR1L_IN
YPBPR1R_IN
YPBPR1L_IN
YPBPR1R_IN1
YPBPR1L_IN
Y1_IN
PR1_IN
YPBPR0L_IN
+5V
AVR_IN
SYL_INSYR_IN
SC0_IN
SY0_IN
SY0_IN
SYL_IN
SC0_IN
SYR_IN
AUD_ROUT
YPBPR1R_IN
YPBPR1R_IN
YPBPR0R_IN
YPBPR0R_IN
AGND_AFE
YPBPR0L_IN
VGAR_INVGAR_INVGAR_IN
VGAR_INVGAL_IN
AVR_IN
PR1_IN Y1_IN
PR0_IN
AV1_IN
Y_GNDY_GND
PB1_IN
PB1_IN
AVL_IN
AV1_INAGND_AFE
Y_
GN
D
AGND_AFE
PB_GND
PB0_IN
Y0_IN
PB_GNDPB_GND
AV
L_IN
PB
_GN
D
PB
0_IN
PR_GND
PR_GNDPR_GND
PR0_IN
AGND_AFE
Y0_IN
PR
_GN
DY_GND
AGND_AFE
AGND_AFE
AGND_AFE
AGND_AFE
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
AGND_AFE
YPBPR1R_IN111YPBPR1L_IN111
Y0P5
Y1P5Y1N5PB1P5PB1N5
SOY15
PR1P5PR1N5
Y0N5
YPBPR0R_IN111
PB0P5PB0N5
YPBPR0L_IN111
SOY05
PR0P5PR0N5
SC05SY05CVBS15
SC15SY25CVBS35SC25SY15CVBS25
DVD_IR7VGAR_IN111VGAL_IN111ASPDIF5AUD_LOUT11AUD_ROUT11
SYL_IN111
SYR_IN111
AVR_IN111
AVL_IN111
+5V1,2,7,8,11,13
AGND_AFE1,2,3,4,5,6,7,8,10,11,12,13,14
Title
Size Document Number R ev
Date: Sheet o f
ZhongShan KAWA Electronic Inc.
Drawn:
Checked:
YPBPR INPUT2Custom
9 14Thursday, March 01, 2007
MT5371_V07<Designer>
<Checker>
NEARLY YPBPR CONNECTOR
NEARLY YPBPR CONNECTOR NEARLY MT5372
NEARLY YPBPR CONNECTOR NEARLY MT5372
YPBPR VIDEO INPUT
YPBPR AUDIO INPUT
YPBPR 2 INPUT.
NEARLY AV CONNECTOR NEARLY MT5372
RA-V1
RA-V1
RA-V1
RA-V1
RA-V1
RA-V1
RA-V1
RA-V1
RA-V1
RA-V1
RA-V1
RA-V1
RA-V1
RA-V1
RA-V1
RA-V1
RA-V1
RA-V1
RA-V1
RA-V3
R19447KR0603/SMD
R166
0R/NCR0603/SMD
R17468R0603/SMD
R17675R0603/SMD
CB3050.1uFC0603/SMD
R1691.5K
R0603/SMD
R16168R0603/SMD
CB29310nFC0603/SMD
R15147KR0603/SMD
CB322NCC0603/SMD
R392
0RR0603/SMD
R20275R0603/SMD
R19847KR0603/SMD
CB32010nFC0603/SMD
CB327220PC0603/SMD
R17275R0603/SMD
R185
1.5KR0603/SMD
D16BAV99
SOT23/SMD
1 3
2
CB310220PC0603/SMD
CB29410nFC0603/SMD
CB29247nFC0603/SMD
CB2861nFC0603/SMD
CB32547pFC0603/SMD
D14BAV99
SOT23/SMD 1 3
2
CB307330pFC0603/SMD
CB336220PC0603/SMD
CB290NCC0603/SMD
P3RCA3X2
AV6-8.4-13B
3
4
2
1
5
6
7
8
910
CB31415pFC0603/SMD
CB324NCC0603/SMD
CB31210nFC0603/SMD
R1751.5KR0603/SMD
CB33247pFC0603/SMD
CB335NCC0603/SMD
CB28710nFC0603/SMD
R191
1.5KR0603/SMD
R1541.5KR0603/SMD
L57
FB/70R/500mA/0603BEAD/SMD/0603
CB28847nFC0603/SMD
CB28915pFC0603/SMD
CB309NCC0603/SMD
D13BAV99
SOT23/SMD
1 3
2
J122x1 W /HOUSING
DIP2/W/H/P2.54
12
R1830R0603/SMD
R3950RR0603/SMD
R17968R0603/SMD
R17147KR0603/SMD
CB31915pFC0603/SMD
L55
FB/70R/500mA/0603BEAD/SMD/0603
R167100R0603/SMD
R3930R
R0603/SMD
R182
1.5KR0603/SMD
R152100R0603/SMD
R18947KR0603/SMD
D15BAV99
SOT23/SMD
1 3
2
CB32947nFC0603/SMD
L58
FB/70R/500mA/0603BEAD/SMD/0603
R197
1.5KR0603/SMD
CB28547nFC0603/SMD
CB30110nFC0603/SMD
CB29547nFC0603/SMD
CB30810nFC0603/SMD
R930.1uf0603/SMD
CB3061nFC0603/SMD
CB330NCC0603/SMD
R16275R0603/SMD
CB33747nFC0603/SMD
R1530R/NCR0603/SMD
CB30010nFC0603/SMD
CB32147nFC0603/SMD
R19947KR0603/SMD
D9BAV99
SOT23/SMD
1 3
2
D8BAV99
SOT23/SMD
1 3
2
CB328220PC0603/SMD
L59
FB/70R/500mA/0603BEAD/SMD/0603
CB31310nFC0603/SMD
CB315NCC0603/SMD
R173100R0603/SMD
R14868R0603/SMD
R193100R0603/SMD
R186
1.5KR0603/SMD
R160100R0603/SMD
CB30247nFC0603/SMD
CB33847pFC0603/SMD
L54
FB/70R/500mA/0603BEAD/SMD/0603
R1560R/NC
R0603/SMD
R. ANGLE
J4
12P2.0mm/NC
DIP12/W/H/P2.0
123456789101112
R196
1.5KR0603/SMD
R3940R
R0603/SMD
R184100R0603/SMD
R178100R0603/SMD
R16868R0603/SMD
R15568R0603/SMD
L56
FB/70R/500mA/0603BEAD/SMD/0603
CB31810nFC0603/SMD
R19047KR0603/SMD
R14768R0603/SMD
CB323220pFC0603/SMD
R920R
R0603/SMD
R1920R0603/SMD
CB31115pFC0603/SMD
CB297NCC0603/SMD
R2000R0603/SMD
R1491.5KR0603/SMD
R163100R0603/SMD
R15875R0603/SMD
P2RCA3X2av3-8.3-09P
3
4
21
5
D11BAV99
SOT23/SMD
1 3
2
CB326NCC0603/SMD
GG
CY
P4
S-VIDEO FIRST + RCAAV-S-3
43
215
7
6
8
CB316220PC0603/SMD
CB333NCC0603/SMD
CB298220PC0603/SMD
R18875R0603/SMD
CB334220PC0603/SMD
R1640R/NC
R0603/SMD
CB31710nFC0603/SMD
R17068R0603/SMD
CB331220pFC0603/SMD
CB29615pFC0603/SMD
R15075R0603/SMD
R18747KR0603/SMD
D12BAV99
SOT23/SMD
1 3
2
P1RCA3X3AV9-8.4-13BA
1
2
3
4
5
6 78 910 11
12
13
14
15
R165100R0603/SMD
R201100R0603/SMD
CB291220PC0603/SMD
D10BAV99
SOT23/SMD 1 3
2
R19575R0603/SMD
R181100R0603/SMD
R18075R0603/SMD
R3910RR0603/SMD
R17747KR0603/SMD
CB30410nFC0603/SMD
R15747KR0603/SMD
CB29947nFC0603/SMD
CB30315pFC0603/SMD
R159
0R/NCR0603/SMD
16/135
A
A
A A
OSDA2OSCL2
GPIO_2
OWRP2
GPIO_8
AV15
OSCL2
+5VSBDV33SB
FB_IN
GPGNBPBN
SOG
RPRN
U0TX
AV33
HS YNC
U0RX
VSYNC
GPIO_1
U0TXTXDTXDU0RX
RED_GND
GRN_GNDRED
GRNBLU_GNDBLU
VSYNC#
HSYNC#
VGASCL_IN
VGASDA_IN
VGA_PLUGPWRVGA_PLUGPWR
RXDRXDRXDRXD
TXD
GP
GN
SOG
BP
BN
RP
RN
GRN
BLUHSYNC# HS YNC
VSYNC
GPIO_8VGASCLVGAROMWP
VGASDA
VGA_PLUGPWR
VGASDAVGASDAVGASCLVGASCL
OSDA2
VGASCL_INVGASCL_IN
GPIO_16
AGND_PLL
VGASDA_INVGASDA_IN
RED
RXD
GRN_GNDGRN_GND
AGND_AFE
VSYNC#
BLU_GNDBLU_GND
RED_GNDRED_GND
AGND_AFE
TXDTXDTXDTXDTXDTXD
AV33DV33SB
+5V
DV33
AGND_HDMI
AV33 AV33
DV33SB
+5VSB
VGA_PLUGPWR
VGA_PLUGPWR VGA_PLUGPWR
VGA_PLUGPWR
VGA_PLUGPWR
VGA_PLUGPWR
VGA_PLUGPWR
VGA_PLUGPWR
+5VSB
+5VSB
AGND_HDMI1,2,3,4,5,6,7,8,9,11,12,13,14
OSDA25OSCL25
AGND_AFE1,2,3,4,5,6,7,8,9,11,12,13,14
GPIO_25,14
GPIO_165,7,13
OWRP2
GPIO_85,14
AV152,6
+5VSB1,2,7,11,12,13,14DV33SB1,2,5,6,7,11,12,13
FB_IN5
GPIO_15,7
GP5GN5BP5BN5
SOG5
RP5RN5
U0TX5
AV332,6,11
AGND_AFE1,2,3,4,5,6,7,8,9,11,12,13,14
HSYNC5
U0RX5
VSYNC5
AGND_PLL1,2,3,4,5,6,7,8,9,11,12,13,14
AV332,6,11DV33SB1,2,5,6,7,11,12,13
+5V1,2,7,8,9,11,13
DV331,2,4,5,6,7,11,12,13,14
Title
Size Document Number Rev
Date: Sheet o f
ZhongShan KAWA Electronic Inc.
Drawn:
Checked:
HDMI /VGA INPUT1Custom
10 14Thursday, March 01, 2007
MT5371_V07<Designer>
<Checker>
SIF INTERFACE
HDMI HDCP EEPROMPULL HIGH AV33
VGA VIDEO INPUT
FOR CODE DOWNLOAD AND DEBUGGING
NEARLY VGA CONNECTOR NEARLY MT5372
L : WP DISABLEH : WP ENABLE
RA-V1
RA-V1 RA-V1
RA-V1
RA-V1
RA-V1
RA-V1
RA-V1
RA-V1
RA-V1
RA-V3
DEL: R214_R219_R215_R213_U21_R225_R226
DEL: D17~D27_D60_P5_U20_Q10_Q19_CB340
DEL: R36_RR82_R83_R208_R209_R210_R211_R212_R216_R217_R218_R390_R408
2006.12.16
2006.12.16
2006.12.16
DEL; CB339_R203_R206_R207_U19
CB342NC/47PFC0603/SMD
D28BAV99
SOT23/SMD
1 3
2
CB3505pF
C0603/SMD
R2460
R0603/SMD
R23675R0603/SMD
R22120KR0603/SMD
L63
FB/70R/500mA/0603BEAD/SMD/0603
R233
510R0603/SMD
CB35510nFC0603/SMD
CB3535pFC0603/SMD
CB3571uF/16vC0603/SMD
R22968R0603/SMD
CB3581uF/16vC0603/SMD
D29BAV99
SOT23/SMD
1 3
2
CB34710nFC0603/SMD
R20510KR0603/SMD
D34BAV99
SOT23/SMD
1 3
2
R23868R0603/SMD
D32BAV99
SOT23/SMD
1 3
2
CB3441nFC0603/SMD
CB343NC/47PFC0603/SMD
R20410KR0603/SMD
L61
2.2uHBEAD/SMD/0603
CB34510nFC0603/SMD
D351N41481N4148/SMD
D33BAV99
SOT23/SMD
1 3
2
D30BAV99
SOT23/SMD
1 3
2
D38BAV99
SOT23/SMD
1 3
2
CB3465pF
C0603/SMD
U22
EEPROM 24C04SOP8/SMD
NC1NC2NC3GND4 SDA 5SCL 6WP 7VCC 8
TP50
R223100R0603/SMD
CB35922pFC0603/SMD
CB34810nFC0603/SMD
J8
4P2.0mm
DIP4/W/H/P2.0
1234
L64
2.2uHBEAD/SMD/0603
R232100R0603/SMD
R2434.7KR0603/SMD
D31BAV99
SOT23/SMD 1 3
2
R22420KR0603/SMD
CB35210nFC0603/SMD
CB35110nFC0603/SMD
P6D-SUB15 FEMALE
DSUB15/DIP/F
1617
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15R2444.7KR0603/SMD
CB3545pFC0603/SMD
CB3410.1uFC0603/SMD
R2450
R0603/SMD
R237100R0603/SMD
R23068R0603/SMD
D36
1N41481N4148/SMD
R2412KR0603/SMD
R22810K/NCR0603/SMD
R23468R0603/SMD
R24075
R0603/SMD
CB36022pFC0603/SMD
CB3495pFC0603/SMD
L60
FB/70R/500mA/0603BEAD/SMD/0603
R22733R0603/SMD
R239510
R0603/SMD
D37BAV99
SOT23/SMD
1 3
2
R222100R0603/SMD
R242100R0603/SMD
R22020KR0603/SMD
R23175R0603/SMD
CB3561uF/16vC0603/SMD
R2352KR0603/SMD
L62
FB/70R/500mA/0603BEAD/SMD/0603
17/135
A
A
A A
YPBPR1R_IN1YPBPR1L_IN1
YPBPR0R_IN1YPBPR0L_IN1
VGAR_IN1VGAL_IN1
GND
DV33+5V+12V
SIF_SDA
AO1SDATA4
I2SIN_DATA
AO1MCLKAO1BCKAO1LRCK
AO1AUXLAO1AUXR
VGAR_IN1
VGAL_IN1
OUT_MUTE
ON/OFF_MUTE2
OUT_MUTE
AL1AUD_LOUT
ON/OFF_MUTE2
AR1AUD_ROUT
ON/OFF_MUTE1
ON/OFF_MUTE2
+9V
GPIO_19 OUT_MUTEGPIO_19
SIF_SCLAUD_LOUT
AUD_ROUT
AVL_IN1AVR_IN1
SYR_IN1SYL_IN1
ON/OFF_MUTE1
AL1AR1
DV33SB
+5VSB
YPBPR1R
YPBPR1L_IN1
AVL_IN1
SYLSYL_IN1
AVL
SYR_IN1 S YR
YPBPR0R_IN1
AVRAVR_IN1
YPBPR1R_IN1
YPBPR0L_IN1
VGAL
VGAR
YPBPR0L
YPBPR1L
YPBPR0R
AV
R
YP
BP
R0R
SY
R
AVOUT_RAVOUT_L
5V_A
VCCWM
SY
L
DV33SB
AV
L
SD
A14
YP
BP
R0L
YP
BP
R1L
YP
BP
R1R
VG
AL
VG
AR
S IF_SCL
AVOUT_L
AVOUT_R AO1AUXRAO1AUXR
AO1AUXL
AO1AUXR
SCL14
SC
L14
AO1LRCK
AO1BCKAO1LRCK
AO
1MC
LKA
O1B
CK
AO
1LR
CK
AO
1SD
ATA
4
I2SIN_DATA
AGND_AFE
AO1MCLK
I2SIN_DATA
SIF_SDASDA14
+9V
DVDD
DVDD
AV33
+5V_TUNER
AL3AR3
AO1SDATA3
AL3
AR3
AO1SDATA3
+9V
OP9VOPAVREF
OPAVREF
+5V +9V
+9V
OPAVREF OP9V
OP9V
DV33SB
5V_A
5V_A
DVDD
DVDD
+5VSB
AV33
DV33 +5V
DV33
YPBPR1R_IN19YPBPR1L_IN19
AGND_AFE1,2,3,4,5,6,7,8,9,10,12,13,14
YPBPR0R_IN19YPBPR0L_IN19
VGAR_IN19VGAL_IN19
GND1,2,3,4,5,6,7,8,9,10,12,13,14
DV331,2,4,5,6,7,12,13,14+5V1,2,7,8,9,13+12V1,13
SIF_SDA4,7
AO1SDATA45
I2SIN_DATA5
AO1MCLK5AO1BCK5AO1LRCK5
AO1AUXL12AO1AUXR12
+9V1,2
GPIO_195
SIF_SCL4,7AUD_LOUT9
AUD_ROUT9
AVL_IN19AVR_IN19SYL_IN19SYR_IN19
ON/OFF_MUTE112
AL15AR15
DV33SB1,2,5,6,7,10,12,13
+5VSB1,2,7,10,12,13,14
+9V1,2
AV332,6,10
+5V_TUNER2,3
AO1SDATA35
Title
Size Document Number R ev
Date: Sheet o f
ZhongShan KAWA Electronic Inc.
Drawn:
Checked:
AUDIO CODEC2Custom
11 14Thursday, March 01, 2007
MT5371_V07<Designer>
<Checker>
YPBPR AUDIO INPUT
VGA AUDIO INPUT
AUDIO I2S INTERFACE
2X GAIN
INTERNAL AUDIO DAC OUTPUT
2X GAIN
*
MUTE CIRCUIT
RA-V1
RA-V1
RA-V1
I2S UP TO 24-BIT DATA
R264 R266 Only ForCE2816
AUDIO CODEC
RA-V3
RA-V3
2006.12.18
21/12/2006 21/12/2006
21/12/2006 21/12/2006
29/01/2007
29/01/2007
29/01/2007
29/01/2007
R24720K R0603/SMD
CB398NCC0603/SMD
CB3754.7uF/6.3VC0603/SMD
D39 1N41481 2
CB3784.7uF/6.3V
C0603/SMD
R25020K R0603/SMD
R25420K R0603/SMD
CB3654.7uF/6.3V C0603/SMD
L74FB/NC
BEAD/SMD/0603
R29310K/NCR0603/SMD
CB383100pFC0603/SMD
CB3824.7uF/6.3VC0603/SMD
R2962KR0603/SMD
D41 1N41481 2
CB3844.7uF/6.3VC0603/SMD
R36
0R0603/SMD
L72FB/70R/500mA/0603
BEAD/SMD/0603
R26510K/NCR0603/SMD
+
- U24A
BA4558 OPASOP8/SMD
3
21
84
CB3664.7uF/6.3V C0603/SMD
CB367
0.1uF
R27147KR0603/SMD
R2600
R0603/SMD
R261
0R0603/SMD
R29410K/NCR0603/SMD
+CE50
47uF/16V100UF/220UF/SMD
CB4664.7uF/6.3VC0603/SMD
+
CE53470uF/16V
+CE47100uF/16V100UF/220UF/SMD
R26710K/NCR0603/SMD
R24820K R0603/SMD
R281100R0603/SMD
R264 1K/NCR0603/SMD
CB3614.7uF/6.3V C0603/SMD
RN31 33x4
RN
0603
/SM
D
12
34
56
78
R2780
R0603/SMD
R2880R0603/SMD
R2862KR0603/SMD
CB3910.1uF
D40
1N414812
+ CE46100uF/16V
100UF/220UF/SMD
CB37447pFC0603/SMD
+ CE52100uF/16V100UF/220UF/SMD
CB3694.7uF/6.3V C0603/SMD
R28310K/NCR0603/SMD
CB3904.7uF/6.3VC0603/SMD
L73
FB/70R/500mA/0603BEAD/SMD/0603
CB3790.1uF
C0603/SMD
R28910KR0603/SMD
L65 FB/NC
CB396820pFC0603/SMD
Q132N3904SOT23/SMD
1
32
CB3870.1uF
C0603/SMD
CB3704.7uF/6.3V C0603/SMD
R277 470
R266
1K/NC
R0603/SMD
R27520KR0603/SMD
CB3944.7uF/6.3VC0603/SMD
R830
R0603/SMD
CB380100pFC0603/SMD
R2852KR0603/SMD
CB403820pFC0603/SMD
CB3714.7uF/6.3V C0603/SMD
CB3760.1uF
C0603/SMD
CB37347pFC0603/SMD
R24920K R0603/SMD
CB3970.1uFC0603/SMD
R274
0
R26910R/0805
R0805/SMD
R28410K/NCR0603/SMD
CB4014.7uF/6.3VC0603/SMD
R26247KR0603/SMD
CB3724.7uF/6.3V C0603/SMD
Q122N3904SOT23/SMD
1
32
R2952KR0603/SMD
R273
NC
R25520K R0603/SMD
R2580
R0603/SMD
CB3880.1uF
C0603/SMD
R270 0
R2570
R0603/SMD
CB3774.7uF/6.3VC0603/SMD
+CE54100uF/16V100UF/220UF/SMD
R292
100R0603/SMD
+CE49
47uF/16V100UF/220UF/SMD
R2905.1KR0603/SMD
CB3860.1uF
C0603/SMD
CB3624.7uF/6.3V C0603/SMD
R25620K R0603/SMD
CB3680.1uF
D421N4148
12
CB399100pFC0603/SMD
R291100R0603/SMD
R27910K
R0603/SMD
R2721KR0603/SMD
CB3890.1uFC0603/SMD
R25
918
0R
CB3934.7uF/6.3VC0603/SMD
R25120K R0603/SMD
R27622k
CB3954.7uF/6.3VC0603/SMD
R26847KR0603/SMD
+CE4847uF/16V100UF/220UF/SMD
L66FB/NC
+CE45
47uF/16V100UF/220UF/SMD
R25220K R0603/SMD
CB392100pFC0603/SMD
CB4004.7uF/6.3VC0603/SMD
CB3850.1uF
+
- U24B
BA4558 OPASOP8/SMD
5
67
84
Q112N3906
1
32
CB4024.7uF/6.3VC0603/SMD
RN32
33x4RN0603/SMD
12345678
CB3633.3uF/10V C0603/SMD
R25320K R0603/SMD
R2805.1KR0603/SMD
R82
0 R0603/SMD
CB404NCC0603/SMD
R26347KR0603/SMD
+ CE51220uF/16V100UF/220UF/SMD
R282
100R0603/SMD
R28720KR0603/SMD
CB3644.7uF/6.3V C0603/SMD
CB4654.7uF/6.3VC0603/SMD
CB3810.1uFC0603/SMD
U23
CE2816/CE2836
DIN11DIN22DIN33DOUT4DVDD5DGND6LRCK_AD7BCLK_AD8MCLK_AD9DGND10NC11AIN5R12
AIN
5L13
NC
14A
IN4R
15A
IN4L
16A
IN3R
17A
IN3L
18A
IN2R
19A
IN2L
20A
IN1R
21A
IN1L
22A
VD
DA
D23
NC
24
AGNDAD 25ADCVREFP 26ADCVREFN 27ADCVMID 28AGND_DA 29AVDD_DA 30
VOUT3L 31VOUT3R 32VOUT2L 33VOUT2R 34VOUT1L 35VOUT1R 36D
AV
MC
37D
AC
RE
FN38
DA
CR
EFN
39D
AC
RE
FP40
DA
CR
EFP
41N
C42
NC
43S
CL
44S
DA
45M
CLK
_DA
46B
CLK
_DA
47LR
CK
_DA
48
18/135
A
A
A A
VD
VD
MUTE_RES
GPIO_10
OPCTRL3
+24V
VD
AMP_MUTEMUTE_RES
AO1AUXL
AO1AUXR
OPCTRL3 AMP_MUTE
GPIO_10
AO1AUXL
AO1AUXR
GND
DV33SB
ON/OFF_MUTE1
ON/OFF_MUTE1
+5VSB
GPIO_10
ROUT+24V
+24V
AMP_GND
AMP_GND
LOUT
AGND_AFEAGND_AFE
DV33
AMP_GND
DV33
DV33SB
+5VSB
+24V 1
OPCTRL3 5GPIO_10 5
AO1AUXL 11
AO1AUXR 11
GND1,2,3,4,5,6,7,8,9,10,11,13,14
DV33SB 1,2,5,6,7,10,11,13
ON/OFF_MUTE1 11
+5VSB 1,2,7,10,11,13,14
AGND_AFE1,2,3,4,5,6,7,8,9,10,11,13,14
AMP_GND 1
DV33 1,2,4,5,6,7,11,13,14
Title
Size Document Number R ev
Date: Sheet o f
ZhongShan KAWA Electronic Inc.
Drawn:
Checked:
AUDIO AMP1Custom
12 14Thursday, March 01, 2007
MT5371_V07<Designer>
<Checker>
GPIO8: SPEAKER SWITCH(INTERNAL OR EXTERNAL
change 2/16
MUTE
RA-V3
CB4054.7uF/6.3VC0603/SMD C
B40
715
00P
C06
03/S
MD
+
CE571000uF/35vCAP7X16\5
R314 0
R3018.2R/0.5W/1210
2010/SMD
R30933KR0603/SMD
CB4270.1uF/50VC0603/SMD
R31
3
1KR
0603
/SM
D
CB4130.1uF/50V
C0603/SMD
Q142N3904
1
32
CB4280.1uF/50V
C0603/SMD
L70BEAD/15UH/DIPL\DIP\P5.0\D10.5
CB41947nF
C0603/SMD
CB412474/50V/1210C1210/SMD
R311
1KR0603/SMD
R3151KR0603/SMD
CB4290.1uFC0603/SMD
R321 0R/1206R1206/SMD
CB
416
0.1u
F/50
VC
0603
/SM
D
R299150K
R0603/SMD
R3174.7K
R0603/SMD
+
CE551000uF/35vCAP7X16\5
CB
426
0.1u
F/50
V
C06
03/S
MD
R30847KR0603/SMD
CB
418
0.1u
F/50
VC
0603
/SM
D CB4203pF
C0603/SMD
L68BEAD/15UH/DIPL\DIP\P5.0\D10.5
CB4240.1uF/50V
C0603/SMD
R316 NCR1206/SMD
CB4084.7uF/6.3V
C0603/SMD
D46SR260/NC
ZD/DIP/P10.0
CB
417
0.1u
F/50
VC
0603
/SM
D
+CE59
10uF/35V10UF/SMD
CB4250.1uF
C0603/SMD
CB4103pF
C0603/SMD
L69
#C3H-A0028L-A/4
1
4
3
2
R3023.3K
R/SMD/1206
+
CE
603.
3uF/
50v
33U
F/47
UF/
SM
D
R323NC
R1206/SMD
R3221K
R0603/SMD
+
CE61
1000uF/35vCAP7X13\5
D45D300DIODE SMD ZENER 33V
R31810KR0603/SMD
R298 10KR0603/SMD
CB422474/50V/1210C1210/SMD
+
CE5610uF/35v
10UF/SMD
CB4210.1uF
C0603/SMD
R3068.2R/0.5W/12102010/SMD
D43D300
DIODE SMD ZENER 33V
R3194.7K
R0603/SMD
R305150K
R0603/SMD
R300 10KR0603/SMD
D44
SM
D 4
.7V
D30
0
CB4114.7uF/6.3V
C0603/SMD
+CE5810uF/35v10UF/SMD
R312150K
R0603/SMD
CB4094.7uF/6.3VC0603/SMD
+
CE621000uF/35V/NCCAP7X13\5
J77P2.54mmDIP7/W/H/P2.54
1234567
R297
0R0603/SMD
R32
0
1K/N
C 2
WR
CF/
4
CB
414
0.33
uF/6
3VJ2
\5\7
.5
L71#C3B-A0619
L04A/dip
3
1
2
4
R31047K
R0603/SMD
R30
747
K
R06
03/S
MD
CB
415
1uF/
50V
C12
10/S
MD
U25R2S15102NP
QFp20
OUT1 1
VD12
STBY3
IN15 PWM1 4
CBIAS6
ROSC7
GND8
AVDD9
PROT10
OUT2 15
VD214
MUTEL 13
PWM2 12
IN211
VS1 20
HB1 19
DVDD18
HB2 17
VS2 16
GND 21
R304100K
R0603/SMD
R3030
R0603/SMD CB4230.33uF/63VJ2\5\7.5
CB
406
1500
PC
0603
/SM
D
L67
#C3H-A0028L-A/5
1
3
4
2
19/135
A
A
B
B
C
C
D
D
E
E
4 4
3 3
2 2
1 1
RGBSVM
GPIO_13GPIO_14
+12V
GND
A0PA0NA1PA1N
CK1PCK1NA3PA3N
CK2PCK2NA7PA7N
A4PA4NA5PA5NA6PA6N
A2PA2N
OPWM1OPWM2
+5V
OPCTRL5
G BR SVMSVMSVMSVMSVMSVMSVMSVMSVMSVMSVMSVM
GPIO_16
CK2P
OPCTRL5
OSDA0
A0NA0PA1NA1P
A2PA2N
CK1NCK1P
A4PA4N
A3N
A5N
A3P
CK2N
DISPEN_PDWN_READY
LVDSVDD
A7NA7P
A6PCPUGO
ADD2 PDPGO
A6N
OPCTRL4
Dimming
OPWM1
OSCL0
ADD1
OSCL0OSDA0
ADD2ADD1
DV33SB
+5VSB
DV33
GPIO_14
BL_ON/OFF
A2P
A1P
A0N
CK1N
Option4
CPUGO
A3P
A2N
CK1P
Option7Option6Option5
A3N
Option1
A1NA0P
Option3
Option2
AGND_LVDS
Option1
Option2
Option3
Option4
Option5
Option6
Option7
Dim#Dimming
A5P
Dim#
GPIO_13
OPCTRL4GPIO_16
AVCC_ADAC
+5V
+5V
+12V
DV33SB
DV33SB+5VSB
+5V
+5V
DV33SB
DV33SBDV33
+5VSB
DV33
DV33SB
DV33
+5V
DV33
AVCC_ADAC AVCC_ADAC
AGND_LVDS1,2,3,4,5,6,7,8,9,10,11,12,14
R5G5B5SVM5
GPIO_135GPIO_145
+12V1
GND1,2,3,4,5,6,7,8,9,10,11,12,14
A0P5A0N5A1P5A1N5
CK1P5CK1N5A3P5A3N5
CK2P5CK2N5A7P5A7N5
A4P5A4N5A5P5A5N5A6P5A6N5
A2P5A2N5
OPWM15OPWM25
+5V1,2,7,8,9,11
OPCTRL55
OSCL05,7OSDA05,7
ADD21ADD11
DV33SB1,2,5,6,7,10,11,12
+5VSB1,2,7,10,11,12,14
DV331,2,4,5,6,7,11,12,14
OPCTRL41,5GPIO_165,7
AVCC_ADAC5,6
Title
Size Document Number R ev
Date: Sheet o f
ZhongShan KAWA Electronic Inc.
Drawn:
Checked:
LVDS OUTPUT2Custom
13 14Thursday, March 01, 2007
MT5371_V07<Designer>
<Checker>
CRT OUTPUT
LVDS SIGNAL
FOR DEBUG PURPOSE
CPUGO /PDPGO :INPUT TO PDPIRQ /READY :PDP INPUT TO MT8202
LO = > LVDS POWER OFF
HI = > LVDS POWER ON
LVDS OUT(Include PDP and 32' LCD LVDS interface)
DIMMING CONTROL
BACK LIGHT CIRCUIT
R372 ONLY FOR HSYNCO
R373 ONLY FOR VSYNCO
RA-V2
RA-V2
RA-V3
RA-V3
R37175 R0603/SMD
R3430R/NC
Q152N3904
SOT23/SMD
1
32
R368
4.7k
R354
1K
Q162N3904SOT23/SMD
1
32
R3354.7K
J11
4P2.0mmDIP4/W/H/P2.0
1234
R37275 R0603/SMD
R32710K/NC
CB4310.1uF
R348 0R/NCR0603/SMD
R33410K
R349 0R/NCR0603/SMD
R350 0R/NCR0603/SMD
R3670R/NC
CB4301uF/16v
R352 0R/NCR0603/SMD
R36610k/NC
R353 0R/NCR0603/SMD
R330 0R/NC
R355 0R/NCR0603/SMD
R3450
R356 0R/NCR0603/SMD
R36210k/NC
R35910K
R36975
R0603/SMD
R3440
R361
4.7k
D471N4148
1N4148/SMD
12
J9
FI-SE30P-HFLVDS/30P/P1.25
123456789
1011121314151617181920212223242526272829303132
R36510K
R3631K
R37410K
R0603/SMD
R339 0
J10
FI-SE30P-HF/NCLVDS/30P/P1.0
123456789
1011121314151617181920212223242526272829303132
+ CE64470uF/16v
C470UF16V/D8H9G
+ CE63220uF/16V
100UF/220UF/SMD
R3581K/NC
R360
0
R3461K
QF3
AP2305AN
SOT23/SMD1
23
R328 0R/NC
R37310K
R0603/SMD
R329 0R
R35110K
Q182N3904
1
32
R331 0R/NC
R3571K
R340 100/NC
R37075R0603/SMD
R336 0R/NC
R3334.7k
R337 0R/NC
R3641K/NC
Q172N3904
1
32
R32410K
R347100K
R3324.7k/NC
R3420R/1206/NCR/SMD/1206
R341 100/NC
R32610K/NC
CB4321uF/NC
R3251K
R3380R/1206/NCR/SMD/1206
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5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
RX_A_C+
RX_A_0+
RX_B_C+
RX_B_1-
RX_A_C-
RX_A_1-
DDC_SDA_A
HDMI_DET_B
GPIO_4GPIO_3
HDMI_DET_A
RX_B_2-
HDMI_DET_B
HDMI_DET_A
DDC_SDA_B
RX_A_2-
DDC_SDA_A
RX_A_1+
RX_B_0+
RX_B_2+
RX_B_0-
RX_B_C-
RX_A_0-
DDC_SCL_A
RX_B_1+
RX_A_2+
DDC_SCL_B
HDMI_DET_BDDC_SDA_B
RX_A_0-
RX_A_0+
RX_A_C+
RX_A_1+
RX_B_2+
RX_B_0+
RX_B_C-
HDMI_DET_A
RX_A_2+
RX_A_2-
RX_A_1-
RX_A_C-
RX_B_2-
RX_B_0-
RX_B_1+
RX_B_1-
RX_B_C+
DDC_SCL_B
DDC_SCL_A
GPIO_2
DDC5V_A
WP_A GPIO_8
WP_B
DDC5V_A
GPIO_8
RX2
GPIO_2
RXCB
RX2B
RX0
OSDA1
RX1B
OSCL1
RXC
RX0B
RX1
GPIO_5
GPIO_3
GPIO_4
GPIO_5
GPIO_8
OSCL1OSDA1
AV33
+5VSB
GND
DDC_SCL_A
RX_
A_0-
RX0- RX0B
RX_B_2+
RX_B_0+
RX
_C_2
+
DD
C_S
DA
_C
RXC- RXCB
DDC_SDA_B
RX
_C_1
-
DDC_SCL
DDC_SCL_B
RX
_C_C
+
RX_
A_2+
RX_
A_1-
DD
C_S
DA
_AD
DC
_SC
L_A
RX_B_1-RX1- RX1B
RX2+ RX2
DDC_SDA_A
RX_B_0-
RX1+ RX1
PC
0
RX_B_C-
RX
_C_0
-
RX
_C_C
- HD
MI_
DE
T_C
RX_
A_1+
RX
_C_2
-
RX
_C_1
+
RX_
A_0+
RX
_A_C
+R
X_A
_C-
RX2- RX2B
RX_
A_2-
PC
1
RX_B_C+
HDMI_DET
RX
_C_0
+
RXC+ RXCDV33H
RX0+ RX0
DDC_SDA_B
DD
C_S
CL_
C
DDC_SDA
RX_B_2-
RX_B_1+
DDC_SCL_B
DV33H
PWR5V
PWR5V
PWR5V
DV33
DV33H
DV33H
DV33H
HDMI+5V_A
HDMI+5V_B
DV33H
DV33H
DV33 DV33H
HDMI+5V_A+5VSB
+5VSB HDMI+5V_B
DV33H
DV33H
+5VSB
DV33
HDMI+5V_AHDMI+5V_B
OSDA1 5
GPIO_2 5
RXC 5
RX1 5
RXCB 5
RX1B 5
RX2B 5
RX0 5
OSCL1 5
RX0B 5
RX2 5
GPIO_3 5,6
GPIO_4 5,6
GPIO_5 5,6
GPIO_8 5,10
AV33 2,6,10,11
+5VSB 1,2,7,10,11,12,13
GND 1,2,3,4,5,6,7,8,9,10,11,12,13
PWR5V 5
DV33 1,2,4,5,6,7,11,12,13
Title
Size Document Number R ev
Date: Sheet o f
ZhongShan KAWA Electronic Inc.
Drawn:
Checked:MT5371_V08 2C
14 14Thursday, March 01, 2007
HDMI SWITCH
KAWA Confidential
<Designer>
<Checker>
EDID EEPROM for HDMI 1
CLOCK-CLOCK+
DATA0-DATA0+
DATA1-DATA1+
DATA2+DATA2-
EDID EEPROM for HDMI 2
Option: Only for HDMI 3
To MT5371 PIN AJ7
CB
464
1nF
CB
441
0.1u
F
R43110K/NC
CB
458
10nF
R435 0R
R418
47K
R410
0R
R42610K/NC
R438
4.7
K
CB4400.1uF
P8
HDMI
RX2+ 1
RX2- 3
GND 5
RX0+ 7
RX0- 9
GND 11
CEC 13
SCL 15
GND2
RX1-6
GND8
RXC+10
NC14
RX1+4
RXC-12
SDA16
GN
D20
GN
D22
GND 17
DET 19+5V18
GN
D21
GN
D23
D82
R43010K/NC
D72
CB
449
0.1u
F
L75
FB/70R/500mA/0603
2
13
D85FHBAT54C
D64 D66 D68
D80
CB
455
10nF
CB
459
1nF
R412
0R
D69
2
13
D62FHBAT54C
R414
47K
CB
452
0.1u
F
CB4390.1uF
D83
R42
74.
12K
R4241K
CB
447
0.1u
F
2
13
D86NC/FHBAT54
CB
442
0.1u
F
D81
CB
453
10nF
D63
D73
R437 33R
R4170R/NC
R421
33
CB
460
1nF
D65
P9NC/FPC/20P/0.5mm/H
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
21 22
R4231K
CB
445
0.1u
F
D70
R42510K/NC
D67
R433 0R
CB
454
10nF
R439
47K
CB
461
1nF
R436 0R
R434 0R/NC
CB
446
0.1u
F
D84
D76
R416
33
R4090R
R413
47K
CB
456
10nF
R420
20K
R440
47K
D71
R4110R
CB
457
10nF
CB
451
0.1u
F
U30NS/EEPROM 24C04
NC1NC2NC3GND4 SDA 5SCL 6WP 7VCC 8
R415
20K
D74
CB
448
0.1u
F
U29NS/EEPROM 24C04
NC1NC2NC3GND4 SDA 5SCL 6WP 7VCC 8
CB
443
0.1u
F
U31
PS201/PS301
PC
01
SD
A1
2S
CL1
3G
ND
_14
B11
5A
116
VC
C_1
7B
128
A12
9G
ND
_210
B13
11A
1312
VC
C_2
13B
1414
A14
15G
ND
_316
VC
C_3
17V
SA
DJ
18P
RE
19P
C1
20
S1 21S2 22NC 23GND_4 24Y4 25Z4 26VCC_4 27Y3 28Z3 29GND_5 30Y2 31Z2 32VCC_5 33Y1 34Z1 35GND_6 36GND_7 37SCL_SINK 38SDA_SINK 39HPDSINK 40
NC
41O
E*
42V
CC
_643
HP
D3
44S
DA
345
SC
L346
GN
D_8
47B
3148
A31
49V
CC
_750
B32
51A
3252
GN
D_9
53B
3354
A33
55V
CC
_856
B34
57A
3458
GN
D_1
059
NC
60
VCC_961HPD262SDA263SCL264GND_1165GND_1266B2167A2168VCC_1069B2270A2271GND_1372B2373A2374VCC_1175B2476A2477GND_1478VCC_1279HPD180
D78
CB
462
1nF
D79
R42810K/NC
R419
47K
R432 0R
D75
R4220R/NC
2
13
D61FHBAT54C
R441
30K/NC
R42910K
CB
450
0.1u
F
D77
+ CE14100uF/16V
100UF/220UF/SMD
CB
444
0.1u
F
P7
HDMI
RX2+ 1
RX2- 3
GND 5
RX0+ 7
RX0- 9
GND 11
CEC 13
SCL 15
GND2
RX1-6
GND8
RXC+10
NC14
RX1+4
RXC-12
SDA16
GN
D20
GN
D22
GND 17
DET 19+5V18
GN
D21
GN
D23
CB
463
1nF
21/135
Basic operation of TFT-LCD
1. After turning on power switch, PSU board sends 5Vst-by Volt to MainIC MT5371 waiting for ON signals from Key Switch or Remote Receiver.
2. When the ON signal from Key Switch or Remote Receiver is detected, MT5371 will send ON Control signals to Power. Then Sub PSU sends 5Vsc, 9Vsc, 24V to PCBs working.
3. If some abnormal signals are detected (for example: over volts, over current, overtemperature and under volts), the system will be shut down by Power off.
22/135
Parts Position
Inverter Board
Key Board
Skeaker
Main Board IR Board
Power Board
Skeaker
Panel
23/135
Main IC Specifications - MT537x Application Note - MT5112BD - CE2836
24-bit, 192KHz. CODEC: 6 ch DAC, 5 Input Mux Stereo ADC - R2S15102NP
Digital Power Amplifier R2S15102NP
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DESCRIPTIONThe CE2836 is a mixed signal CMOS monolithic audioCodec. It contains six multi-bit sigma delta DAC and astereo ADC with 5 input multiplexer, Ideal for audioplayback and recording applications.
The DAC consists of 128-time interpolation filters, 3rd
order multi-bit Σ∆ modulators, switch capacitors andanalog reconstruction filters. The Σ∆ converter offerssuperior differential linearity, with minimum distortion dueto component mis-match. high tolerance to clock jitter.Additionally it includes separated digital volume controlfor each channel.
The ADC utilizes cascaded Σ∆ architecture. The internaldigital filter has a 20K bandwidth. It support samplingfrequency up to 96K Hz. The ADC also includes a analogAutomatic Level Control and Noise Gate function to easethe recording applications.
FEATURES• Six Channel Audio DAC.
- 104 dB SNR (A Weighted).- -82 dB THD + N Ratio (A Weighted).- 32K - 192 KHz. Sampling Rates.- On -chip Reconstruction Filters.- Independent Digital Volume Control.
• Stereo Audio ADC.- 5 Channel ADC inputs.- Up to 96K Sampling Rate.- With Automatic Level Control and Noise Gate.- Includes ALC and Noise Gate Functions.
• I2S, Left and Right Justified Digital I/F Formats.• 2-wire Serial Control Interface.• 3.3 Volt Power Supply.
Applications• Digital Surround Sound For Home Theatre• DVD or DVD Recordable.
CE2836
SDA SCL
AIN
R1
AIN
L1
77 77 77 77
AIN
R2
AIN
L2
77 77 77 77 77 77
AIN
R3
AIN
L3
AIN
R4
AIN
L4
AIN
R5
AIN
L5
ALC
OFP
ADC SIF
AOL3
AOR3
77 77
AOL2
AOR2
77 77
AOL1
AOR1
77 77
AD
C
DA
C
DA
C
DA
C
INTERPOLATIONFILTER
DAC 6 CHANNELGAIN CONTROL
DAC SIFC I F
CON
TRO
L
REG
ISTE
RS
DOUT ADBCK ADFS ADXCK
ADC CK
DIN1 DABCK DIN3 DIN2 DAFS DAXCK
DAC CK
Microelectronics24-bit, 192 KHz. CODEC: 6 Ch DAC, 5 Input Mux Stereo ADC
CE2836
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CE2836
CE2836 Performance
Item DAC PERFORMANCE SPECIFICATIONS Spec.
1 Audio Output Level 1 Vrms
2 Audio Bandwidth 20Hz - 20 KHz +/- 0.1 dB
3 SNR (A-weight) >104 dB
4 THD + NOISE (A-weight, 0 dB input) < -82 dB
5 Dynamic Range 94 dB
6 Channel Separation < -92 dB
7 Nonlinear Distortion < 0.25 dB
8 Channel Gain Error < 0.1 dB
ADC PERFORMANCE SPECIFICATIONS
1 Maximum Input Level 4 Vpp
2 0 dB Audio Input Level 1 Vrms
3 Audio Bandwidth 20Hz - 20 KHz +/- 0.5 dB
4 SNR (A-weight) >98 dB
5 THD + NOISE (A-weight, 0 dB input) < -88 dB
6 Dynamic Range 94 dB
7 Channel Separation < -96 dB
8 Nonlinear Distortion < 0.25 dB
9 Channel Gain Error < 0.5 dB
All Measurement were taken with only one channel active.
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CE2836
Description (continue)The DAC support conversion rate from 32K to 192KHz while the ADC from 32K to 96K. The CE2836 support 32, 24, 20 and16-bit input data. It also support multiple sampling frequency data. Each DAC has its own individual volume control.
XCK REQUIREMENTThe CE2836 supports 32K, 44.1K, 48K, 96K and 192K sampled audio in DAC operations and32K, 44.1K, 48K and 96Ksampled audio in ADC operations. The oversampled clock, XCK, requirements are listed in Table 1 and 2.
The DAC and ADC PCM serial port can be configured as ‘Master’ or ‘Slave’ independently and each has separated oversampling clock input. In the ‘Slave Mode’ PCM serial port operation if the AUTODEC, CR1[7]==1,there is an clockfrequency detection circuit to set up the system clock, the users don’t need to set the SRC registers. However in the ‘mastermode’ operation the users need to set the SCR registers for the serial audio clock generations
Table 1.
Sampling Rate DAC XCK Requirement
DACDIV==0 DACDIV==1
32 KXCK Freq 12.288 MHz 8.192 Mhz. 24.576 Mhz 16.384 Mhz
SRC[1:0] [11], 384 fs (#), 256 fs [11], 768fs (#), 512 fs
44.1KXCK Freq 16.934 Mhz 11.29 Mhz. 33.869 Mhz 22.579 Mhz
SRC[1:0] [11], 384fs [10], 256 fs [11], 768 fs [10], 512fs
48 KXCK Freq 18.432 MHz 12.288 Mhz 36.864 MHz 24.576 Mhz.
SRC[1:0] [11], 384 fs [10], 256 fs [11], 768fs [10], 512 fs
96 KXCK Freq 18.432 MHz 12.288 Mhz. 36.864 MHz 24.576 Mhz.
SRC[1:0] [01], 192 fs [00], 128 fs [01], 384 fs [00], 256 fs
192 KXCK Freq 18.432 Mhz 12.288 Mhz. 36.864 MHz 24.576 Mhz.
SRC (#), 96 fs (#), 64 fs (#), 192 fs (#), 128 fs
All the XCK clock rate listed are supported in the ‘Slave Mode’SRC Registers are used in the ‘Master Mode’. (#) are not supported in the in the ‘Master Mode’ .DAC AUTODET is CREG1[7], DAC SRC[1:0]are CREG1[6:5] and DACDIV is CREG1[4].
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CE2836
Table 2.
Sampling Rate ADC XCK Requirement
DACDIV==0 DACDIV==1
32 KXCK Freq 12.288 MHz 8.192 Mhz. 24.576 Mhz 16.384 Mhz
SRC[1:0] [10], 384 fs (#), 256 fs [10], 768fs (#), 512 fs
44.1KXCK Freq 16.934 Mhz 11.29 Mhz. 33.869 Mhz 22.579 Mhz
SRC[1:0] [10], 384fs [00], 256 fs [10], 768 fs [00], 512fs
48 KXCK Freq 18.432 MHz 12.288 Mhz 36.864 MHz 24.576 Mhz.
SRC[1:0] [10], 384 fs [00], 256 fs [10], 768fs [00], 512 fs
96 KXCK Freq 18.432 MHz 12.288 Mhz. 36.864 MHz 24.576 Mhz.
SRC[1:0] [11], 192 fs [01], 128 fs [11], 384 fs [01], 256 fs
All the XCK clock rate listed are supported in the ‘Slave Mode’ .SRC Registers are used in the ‘Master Mode’. (#) are not supported in the ‘Master Mode’ .ADC AUTODETis CREG9[7], DAC SRC[1:0]are CREG9[6:5] and DACDIV is CREG9[4].
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CE2836
PIN ASSIGNMENT
PIN DESCRIPTION
Pin Name Pin # Type Description
DIGITAL
N/C 43 No connection. It can be tied to GND.
SDA 44 I/O Serial command port data line.
SCL 45 I Serial command port clock line.
DAXCK 46 I External master clock input for DAC.
DABCK 47 I DAC audio serial data clock Input pin (default) if DAC I/F is configured to be ‘slave’ else it is an Output.
DAFS 48 I DAC left/right channel clock pin. Please refer to Figure 1 PCM data format for itsdefinitionInput (default) if DAC I/F is configured to be ‘slave’ else it is an output
DIN1 1 I DAC Channel 1 or TDM serial audio data input.
DIN2 2 I DAC Channel 2 serial audio data input.
1
2
3
4
5
6
7
8
9
10
11
12
DIN1
DIN2
DIN3
DOUT
VDD
GND
ADFS
ADBCK
ADXCK
GND
N/C
AINR5
AOR1
AOL1
AOR2
AOL2
AOR3
AOL3
AVDD
AGND
ADVCM
AGND
ADVRF
AGND
AIN
L5 N/C
AIN
R4
AIN
L4
AIN
R3
AIN
L3
AIN
R2
AIN
L2
AIN
R1
AIN
L1
VDD
A
N/C
36
35
34
33
32
31
30
29
28
27
26
25
13 14 15 16 17 18 19 20 21 22 23 24
48 47 46 45 44 43 42 41 40 39 38 37
DAF
S
DAB
CK
DAX
CK
SDA
SCL
N/C
N/C
DAV
H
DAV
H
DAV
L
DAV
L
DAV
CM
CE2836
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CE2836
DIN3 3 I DAC Channel 3 serial audio data input.
DOUT 4 O Serial ADC output
VDD 5 +3.3V Digital power supply, 3.3 Volt.
GND 6 GND Digital ground
ADFS 7 I/O ADC left/right channel clock pin. Please refer to Figure 1 PCM data format for itsdefinition.Input (default) if ADC I/F is configured to be ‘slave’ else it is an output
ADBCK 8 I/O External master clock input for ADC.Input (default) if ADC I/F is configured to be ‘slave’ else it is an output
ADXCK 9 I ADC audio serial data clock input.
GND 10 I Digital ground
Analog
N/C 11 No connection. It can be tied to AGND.
AINR5 12 I ADC channel 5 right input. Input resistance is 20K Ohm
AINL5 13 I ADC channel 5 left input. Input resistance is 20K Ohm
N/C 14 No connection. It can be tied to AGND.
AINR4 15 I ADC channel 4 right input. Input resistance is 20K Ohm
AINL4 16 I ADC channel 4 left input. Input resistance is 20K Ohm
AINR3 17 I ADC channel 3 right input. Input resistance is 20K Ohm
AINL3 18 I ADC channel 3 left input. Input resistance is 20K Ohm
AINR2 19 I ADC channel 2 right input. Input resistance is 20K Ohm
AINL2 20 I ADC channel 2 left input. Input resistance is 20K Ohm
AINR1 21 I ADC channel 1 right input. Input resistance is 20K Ohm
AINL1 22 I ADC channel 1 left input. Input resistance is 20K Ohm
AVDD 23 +3.3V ADC power supply.
N/C 24 No connection. It can be tied to AGND.
AGND 25 GND Analog ground pin.
ADVRF 26 O ADC reference voltage. It should be decoupled to AGND with a 22 uF capacitor inparallel with a 0.1 uF. Its value should be AVDD/2 volt.
AGND 27 GND Analog ground pin.
PIN DESCRIPTION (Continued)
Pin Name Pin # Type Description
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CE2836
ADVCM 28 O ADC comment mode voltage. It should be decoupled to AGND with a 22 uF in parallelwith a 0.1 uF. Signal level is AVDD/2.
AGND 29 GND Analog ground pin.
AVDD 30 +3.3V DAC power supply.
AOL3 31 O Analog left channel 3 output
AOR3 32 O Analog right channel 3 output
AOL2 33 O Analog left channel 2 output
AOR3 34 O Analog right channel 2 output
AOL1 35 O Analog left channel 1 output
AOR1 36 O Analog right channel 1 output
DAVCM 37 O DAC comment mode voltage. It should be connected to a 22 uF in parallel with a 0.1 uFdecoupling capacitors to ground. Signal level is AVDD/2.
DAVL 38, 39 GND DAC negative reference voltage. It should be tied to AGND.
DAVH 40,41 I DAC positive reference voltage. It should be connected to AVDD via a 180 ohm serialresistor, and a 22 uF in parallel with a 0.1 uF decoupling capacitors to ground.
N/C 42 No connection. It can be tied to AGND.
PIN DESCRIPTION (Continued)
Pin Name Pin # Type Description
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CE2836
DIGITAL AUDIO SERIAL INTERFACEThere are two independent PCM serial ports, one for DAC and one for ADC. The DAC digital serial interface consists of 3serial input pins, DIN1, DIN2, DIN3, one serial clock input/output pin, DABCK, and one left/right indicator input/output pin,DAFS. The ADC consists of a data output pin, DOUT and one serial clock input/output pin, ADBCK, and one left/rightindicator input/output pin, ADFS. The BCK and FS are output pins when the respective port is configured as ‘Master’, andinput pin when it is configured as ‘Slave’ port. The Master/Slave operations are setup via CREGA[7] and CREGA[3]. Thedata are 2’s complement MSB first numbers. The CE2836 supports four resolution, which are selected programming thecontrol register CREG0 and CRFEGA via the I2C serial control port. Table 3 describes these four resolution.
The DIN and DOUT can be either 24-bit or 32-bit per frame as well as left justified, right justified or I2S. .
TDM Input Format
The CE2836 support Time Division Multiplex data input. In this format only one data input pin is required. The six channeldata are sent in serial order, channel 1 first, followed by channel 2 and so forth. The number of bits per channel is defined byCREG0[5:4].
Table (3): Audio Serial Data Input Resolution,
Format NBIT[1:0] DIN, DOUT
0 00 16-bit
1 01 20-bit
2 10 24-bit (default)
3 11 32-bit
Table (4): Audio Serial Data Input Modes
Mode FMT[1:0] DIN, DOUT
0 00 Right Justified
1 01 Left Justified
2 10 I2S (default)
3 11 TDM
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CE2836
Figure 1. Audio Serial Input Data Format
012
LSBMSB
012
LSBMSB
left Channel right channel
123
LSBMSB
123
LSBMSB
left Channel right channel
123
LSBMSB
123
LSBMSB
left Channel right channel
12
LSBMSB
Channel 0 Channel 1 Last Channel
123
LSBMSB
12
LSBMSB
data = 03 nnn
nn
Right Justified Input Format
Left Justified Input Format
I S Input Format 2
TDM Input Format
FS
BCK
DIN,DOUT
1/fs
FS
BCK
DIN,DOUT
FS
BCK
DIN,DOUT
FS
BCK
DIN,DOUT
n n
nn
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CE2836
DAC INFINITE ZERO DETECTIONThe CE2836 DAC has an Infinite Zero Detection circuit which detects zero in the Audio Serial Port that lasts forapproximately 0.2 sec. By default, the zero detection circuit is on.
DAC Digital AttenuationEach DAC contains an Digital Attenuation block. The attenuation values are hold in the Volume Control Registers. The Value80H corresponds to Full Scale, 0dB. and each decrement correspond to -0.5 dB additional attenuation.
ADC Gain and ALCEach channel of ADC input includes a Analog Gain. The Gain is controlled by CREGC, ADC Gain Selection, The gain rangeis from +6 dB to -9 dB. with 1 dB step. The GAIN = 9 corresponds to 0dB gain. The AUTOMATIC LEVEL CONTROL setthe ADC maximum digital output to a prescribed value by automatic manipulating the analog gain. The ALC is controlled byCREG8, ADC PROC. REGISTER..
Table (5): ALC Target Level
ALC[2:0] Maximum Digital Output
000 -1 dB FS
001 -2 dB FS
010 -3 dB FS
011 -4 dB FS
100 -5 dB FS
101 -6 dB FS
110 -7 dB FS
111 -8 dB FS
Table (6): ALC Hold Time
ALCHTM Hold Time Comment
0 340 msec. For music program
1 5.3 msec For speech program
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CE2836
ADC Noise GateNoise Gate remove hissing noise during silence period. It is useful for recording noisy program. While Noise Gate is enabledthe ADC digital output will be zeroed if the signal level below a predetermined value for about 0.5 seconds. The noise Gate iscontrolled by the same ADC PROC. REGISTER.
Serial Command PortThe user can select the chip operation mode by programming the internal control registers through serial I2C port. The ChipAddress for the CE2836 is 35H. The protocol for write operation consists of sending 3 byte data to CE2836, following eachbyte is the acknowledges generated by CE2836. The first byte is the 7-bit Chip Address followed by the read/write bit (read ishigh, write is low). The second byte is the control register address. The third byte is the control register data.
Upon power up, all programmable registers are set to default values. Figure 2 describes the serial command port timingrelationship.
Figure 2. Serial Command Port Timing
Table (7): Noise Gate Threshold
NGTH[1:0] Threshold
00 -66 dB
01 -72 dB
10 -78 dB
11 -84 dB
R/W ACK A7 A0 D0ACK D7 ACKStart StopCA6 CA0
1 1 1
( Note: Chip adrress: CA<6:0> = 35H, R/W =0.)
second byte: register address: A<7:0> = 02H
third byte: data D<7:0> = 30H
SDA
SCL
I2C Bus Control Register Write Example:
first byte: [CA R/W] = 6AH
Set channel 1L volume to 30H:
Example
1
first byte second byte third byte
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CE2836
SERIAL PORT CONTROL REGISTER ASSIGNMENTThere are 8 registers dedicated to the CE2836 for chip functional programming, The register addresses assignments are
Address(decimal) Register Default
Value Register Function
0 CREG0[7:0] A0 DAC Control REG0: Data input format, de-emphasis filter selection
1 CREG1[7:0] 80 DAC Control REG1: Input format and PLL output fre-quency selection
2 CREG2[7:0] 80 Volume Control Register for DAC channel 1, left
3 CREG3[7:0] 80 Volume Control Register for DAC channel 1, right
4 CREG4[7:0] 80 Volume Control Registerl for DAC channel 2, left
5 CREG5[7:0] 80 Volume Control Register for DAC channel 2, right
6 CREG6[7:0] 80 Volume Control Register for DAC channel 3, left
7 CREG7[7:0] 80 Volume Control Registerl for DAC channel 3, right
8 CREG8[7:0] 82 ADC Proc REG: ALC and Noise Gate Control Registers
9 CREG9[7:0] A0 ADC Control Register.
10 CREGA[7:0] 00 CHIP Control Register.
11 CREGB[7:0] 01 ADC MUX Select.
12 CREGC[7:0] 99 ADC Input Gain Select
13 CREGD[7:0] 92 Chip Soft Reset.
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CE2836
CONTROL REGISTERS DESCRIPTION
CREG0, DAC Control Register 0 (ADRS=hex00, default=hexA0)
FMT[1:0] Digital Serial Bus Format Select00: - Normal or Right Justified Format.01: -Left Justified Format. 10: - I2S Format.(default) 11: - TDM, Multi-channel Time Division Multiplex Format
NBIT[1:0]: - These two bits define the serial audio input resolution for right justified and TDM mode00: - 16-bit resolution.01: - 20-bit resolution.10: - 24-bit resolution (default).11: - 32-bit resolution.
AMUTE: - Auto-mute detection enable.0: - Auto-mute enabled. (default)1: - No auto-mute.
DEEMP: - Enable de-emphasis 0: - Normal. (default)1: - enable de-emphasis.
FSMPL: - Interpolation filter selection. These two bits are recognized only when “AUTODET” bit of the CREG1 is set to ‘0’.
0X: - 44.1 or 48K sampling.(default)10: - 96K sampling.11: - 192K sampling.
ADDR[3:0]CREG0[7:0]
BIT 7 BIT 6 BIT 5 BIT 4 BIT 3 BIT 2 BIT 1 BIT 0
Hex 00 FMT[1:0] NBIT[1:0] AMUTE DEEMP FSMPL[1:0]
Default Value 1 0 1 0 0 0 0 0
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CE2836
CREG1, DAC Control Register 1(ADRS=hex01, default=hex80)
AUTODET Automatically detects the serial audio input data sampling rate clock frequency.0: - do not use auto-detect1: - automatically detects the serial audio input data sampling rate and clock frequency.
SRC[1:0]: - DAC Sampling Rate Selection. It is used in the DAC Master Mode, CRA[7]==1, to generate DAFS and DABCK.
00: - Sampling Rate = XCK/128.01: - Sampling Rate = XCK/192.10: - Sampling Rate = XCK/256.11: - Sampling Rate = XCK/384.
CKDIV2: - Enable the ADXCK Clock divided by 2. 0: - DAC system clock is DAXCK (default)1: - DAC system clock is DAXCK/2
MUTE56: Mute control for channels 5 and 60: do not mute channels 5 and 61: simultaneously mute channels 5 and 6
MUTE34: Mute control for channels 3 and 40: do not mute channels 3 and 41: simultaneously mute channels 3 and 4
MUTE12: Mute control for channels 1 and 20: do not mute channels 1 and 21: simultaneously mute channels1 and2
ADDR[3:0]CREG1[7:0]
BIT 7 BIT 6 BIT 5 BIT 4 BIT 3 BIT 2 BIT 1 BIT 0
Hex 01 AUTODET SRC[1:0] CKDIV2 X MUTE56 MUTE34 MUTE12
Default Value 1 0 0 0 0 0 0 0
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CE2836
CREG2 - 7, DAC Volume Registers for channel 1 to 6, (ADRS=hex02 - hex07, default=hex80)
VOLREG:- Control the volume of the 6 DAC’s 80h corresponds to 0 dB and 02h to -64 dB. in -0.5 db step. Value should not be programmed greater than 80h.
ADDR[3:0]Volume Registers
BIT 7 BIT 6 BIT 5 BIT 4 BIT 3 BIT 2 BIT 1 BIT 0
Hex 02 Channel 1 left volume register, VOLREGL1[7:0]
Hex 03 Channel 1 right volume register, VOLREGR1[7:0]
Hex 04 Channel 2 left volume register, VOLREGL2[7:0]
Hex 05 Channel 2 right volume register, VOLREGR2[7:0]
Hex 06 Channel 3 left volume register, VOLREGL3[7:0]
Hex 07 Channel 3 right volume register, VOLREGR3[7:0]
Default Value 1 0 0 0 0 0 0 0
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CE2836
CREG 8, ADC Proc Register (ADRS=hex08, default=hex82)
NGATE: Noise Gate0: - Noise Gate Disabled.1: -Noise Gate Enable. When the signal level is lower than the level specified by the NGTH the ADC output
will be zeroed.
NGTH[1:0]: - Specified the Noise Gate Threshold. 00: - -66dB01: - -72 dB.10: - -78dB.11: - -84 dB.
ALCHTM: - Automatic Level Control Hold time.0: - 340 ms. (default). For music program.1: - 5.3 ms. This should be used for speech conversion.
ALCEN: - Enable Automatic Level Control Function 0: - Disable ALC. (default)1: - Enable ALC.
ALC[2:0]: - ALC Target Level. 000: - -1 dB.001: - -2 dB.010: - -3 dB. (default)011: - -4 dB.100: - -5 dB. 101: - -6 dB.110: - -7 dB.111: - -8 dB.
ADDR[3:0]CREG0[7:0]
BIT 7 BIT 6 BIT 5 BIT 4 BIT 3 BIT 2 BIT 1 BIT 0
Hex 08 NGATE NGTH[1:0] ALCHTM ALCEN ALC[2:0]
Default Value 1 0 0 0 0 0 1 0
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CE2836
CREG9, ADC Control Register (ADRS=hex09, default=hexA0)
MT[1:0] Digital Serial Bus Format Select for ADC.00: - Normal or Right Justified Format.01: -Left Justified Format. 10: - I2S Format.(default) 11: - TDM, Multi-channel Time Division Multiplex Format
NBIT[1:0]: - These two bits define the ADC serial audio input resolution for right justified and TDM mode00: - 16-bit resolution.01: - 20-bit resolution.10: - 24-bit resolution (default).11: - 32-bit resolution.
SRC[1:0]: - ADC Sampling Rate Selection. It is used in the ADC Master Mode, CRA[1]==1, to generate ADFS and ADBCK.
00: - Sampling Rate = XCK/256.01: - Sampling Rate = XCK/128.10: - Sampling Rate = XCK/384.11: - Sampling Rate = XCK/192.
CKDIV2: - Enable the ADXCK Clock divided by 2. 0: - ADC system clock is ADXCK (default)1: - ADC system clock is ADXCK/2
ADDR[3:0]CREG0[7:0]
BIT 7 BIT 6 BIT 5 BIT 4 BIT 3 BIT 2 BIT 1 BIT 0
Hex 09 FMT[1:0] NBIT[1:0] X SRC[1:0] CKDIV2
Default Value 1 0 1 0 0 0 0 0
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CE2836
CREGA, Chip Control Register (ADRS=hex0A, default=hex00)
DAMSTR: Configure the DAC PCM Serial Port. 0: - Slave Mode1: - Master Mode.
DAPWD: DAC Power Down0: DAC enabled1: DAC Power Down.
ADMSTR: Configure the ADC PCM Serial Port. 0: - Slave Mode1: - Master Mode.
ADPWD: ADC Power Down0: ADC enabled1: ADC Power Down.
ZCBYP: Disable ADC Zero Crossing Detection0: Zero crossing is enabled.1: Zero crossing is bypassed.
HPFBYP: Bypass ADC data path High Pass Filter0: Enable high pass filter.1: Disable high pass filter.
ADDR[3:0]CREG1[7:0]
BIT 7 BIT 6 BIT 5 BIT 4 BIT 3 BIT 2 BIT 1 BIT 0
Hex 0A DAMSTR DAPWD X X ADMSTR ADPWD ZCBYP HPFBYP
Default Value 0 0 0 0 0 0 0 0
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CE2836
CREGB, ADC Input Enable (ADRS=hex0B, default=hex01)
AMUX[4:0]: ADC Input Channel Enable. 00001: - AIN100010: - AIN200100: - AIN301000: - AIN410000: - AIN5
CREGC, ADC Input Gain Selection (ADRS=hex0C, default=hex99)
LGAIN[3:0] is for ADC Left Channel Gain Select While RGAIN[3:0] is for Right Channel Gain Select1111 corresponds to +6 dB and 0000 to -9 dB with -1dB step
CREGD, Chip Soft Reset (ADRS=hex0D, default=hex92)
Chip Soft Reset; A write of all zeros to this register will reset the chip except the Command Registers. Another write of hex92 is required to enable to chip again.
ADDR[3:0]CREG1[7:0]
BIT 7 BIT 6 BIT 5 BIT 4 BIT 3 BIT 2 BIT 1 BIT 0
Hex 0B X X X AMUX[4:0]
Default Value 1 0 0 0 0 0 0 1
ADDR[3:0]CREG1[7:0]
BIT 7 BIT 6 BIT 5 BIT 4 BIT 3 BIT 2 BIT 1 BIT 0
Hex 0C LGAIN[3:0] RGAIN[3:0]
Default Value 1 0 0 1 1 0 0 1
ADDR[3:0]CREG1[7:0]
BIT 7 BIT 6 BIT 5 BIT 4 BIT 3 BIT 2 BIT 1 BIT 0
Hex 0D RESET[7:0]
Default Value 1 0 0 1 0 0 1 0
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CE2836
APPLICATION CONNECTION EXAMPLE:
DAXCK
DABCK
DAFS
DIN1
DIN2
DIN3
SCL
SDA
39
46
47
48
1
2
3
44
45
DGND
AVDD
CE2836
22 uF
Digital AudioInterface
I C Serial Interface
AOR1
AOL1
AOR2
AOL2
AOR3
AOL3
Digital
3.3 Volt
Analog
All Unmarked Capacitors have values of 0.1 uF
2
+3.3 Volt
680 ohm
Over Sample Clock
30
3.3 Volt
180 Ohm
DAVH
38
23
DVDD5
6 DAVL
220 uF
AGND
36
35
34
33
32
31
AINL1
AINR1
AINL2
AINR2
AINL3
AINR3
AINL4
AINR4
AINL5
AINR5
22
21
20
19
18
17
16
15
13
12
100 uF
4041
ADVCM
2822 uF
ADVRF
2622 uF
DAVCM
3722 uF
14
24
42
25
27
29
N/C
4
7
8
9
DOUT
ADFS
ADBCK
ADXCKOver Sample Clock
10 uF
10 uF
10 uF
10 uF
10 uF
10 uF
10 uF
10 uF
10 uF
10 uF
10 uF
10 uF
10 uF
10 uF
10 uF
10 uF
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CE2836
SUGGESTED ANALOG RECONSTRUCTION FILTERA second Sallen Key low pass reconstruction filter is recommend to remove the high frequency sigma delta modulator noise.The filter’s component values and characteristic are shown in the following figures.
+
-
4.7 uF 2.7 K 10 K
10 K
All resistors and capicitors are 5% precision.
100 K
1000 pF
680 pF
Sallen Key 2nd order LP filter
10 K
103 104 105
-30
-25
-20
-15
-10
-5
0
5
Freq (Hz .)
Am
plitu
de (d
B)
LP F Frequenc y Res pons e
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CE2836
ADC The ADC converters have a input buffer. The buffers have a equivalent input resistance of 20K ohm. To ensure theperformance it is recommended that the applications should have a simple low pass filter to remove the high frequency noise.
20 K
20 K
VCM
ADC
Internal Buffer
100 pf 5.1 K
Recommended ADC input circuits
5.1 K 1 uf
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CE2836
TIMING DIAGRAMFigure 3. Audio Serial Interface Timing Requirement
Figure 4. Serial Command Port Write Timing Requirement
tbck H
tkd su
tkd hdtkr su
tkr hd
DIN,DOUT
BCK
FS
tbck
tbck L
SCL
SDA
tBF tHD,sta tHD,dat tSU,dat tSU,sta tSU,stp
tF tR
tLOW tHIGH
stop start stopstart
SDA, SCL
tSCL
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CE2836
ABSOLUTE MAXIMUM RATINGS
Notes:
1. Absolute maximum ratings are limiting values applied individually, while all other parameters are within specifiedoperating conditions.
2. Applied voltage must be current limited to specified range, and measured with respect to VSS.
3. Forcing voltage must be limited to specified range.
4. Current is specified as conventional current, flowing into the device.
Symbol Characteristics Min Max Units
VDD Power Supply Voltage (Measured to GND) -0.5 +7.0 V
Vi Digital Input Applied Voltage2 GND-0.5 V
Ai Digital Input Forced Current3,4 -100 100 mA
Vo Digital Output Applied Voltage2 GND-0.5 VDD+0.5 V
Ao Digital Output Forced Current3,4 -100 100 mA
TDsc Digital Short Circuit Duration (single output high state to Vss) 1 Sec
TASC Analog Short Circuit Duration (single output to VSS1) infinite Sec
Ta Ambient Operating Temperature Range -25 +125 o C
Tj Junction Temperature (Plastic Package) -65 +150 o C
Tsol Lead Soldering Temperature (10 sec., 1/4” from pin) 280 o C
Tvsol Vapor Phase Soldering (1 minute) 220 o C
Tstor Storage Temperature -65 +150 o C
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CE2836
ELECTRICAL CHARACTERISTICS
Parameter Characteristics Min Typ Max Units
Power Supply
AVDD Analog power supply voltage 2.8 3.3 4.0 V
DVDD Digital power supply voltage 2.8 3.3 4.0 V
IDA Analog Current 60 mA
IDD Digital Current 20 18 mA
Audio DAC Characteristics
Full Scale Output Voltage to a 10K load .98 1 1.02 Vrms
VVCM Reference voltage VDD/2 V
Digital Characteristics
VIH Digital Input Voltage, Logic HIGH,TTL Compatible Inputs.
2.0 VDD V
IOZH Hi-Z Leakage Current, HIGH,VDD=Max, VIN=3.3 Volt
33 A
IOZL Hi-Z Leakage Current, LOW,VDD=Max, VIN=VSS)
-10 A
CI Digital Input Capacitance (TA=25oC, f=1Mhz) 8 pF
CO Digital Output Capacitance (TA=25oC, f=1Mhz) 10 pF
Audio Serial Interface Timing
tbck BCK Cycle Time 80 ns
tbckH BCK Pulse Width, HIGH 30 ns
tbckL BCK Pulse Width, LOW 30 ns
tkdsu Audio Data Setup Time With Respect To Rising Edge of BCK
10 ns
tkdhd Audio Data Hold Time With Respect to Rising Edge of BCK
15 ns
tkrsu Audio FS Setup Time With Respect To Rising Edge of BCK
10 ns
µ
µ
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CE2836
tkrhd Audio FS Hold Time With Respect To Rising Edge of BCK
15 ns
Serial Command Port
fSCL SCL Clock Frequency 100 kHz
tSU,sta Start condition set up time 4.7 us
tHD,sta Start condition hold time 4.0 us
tSU,stp Stop condition set up time 4.0 us
tLOW SCL Low time 4.7 us
tHIGH SCL High time 4.0 us
tR SCL & SDA rise time 1.0 us
tF SCL & SDA fall time 0.3 us
tSU,DAT Data set-up time 250 ns
tHD,DAT Data hold time 0 ns
tBF Bus Free time 4.7 us
Parameter Characteristics Min Typ Max Units
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CE2836
PACKAGING INFORMATION (LQFP 48 PIN)
Dimensions
SYMBOLSmm.
SYMBOLSmm.
min norm max min norm max
A 1.68 E 9.0 BSC
A1 0.05 0.15 E1 7.0 BSC
A2 1.35 1.4 1.45 e 0.45 0.65 0.75
b 0.17 0.22 0.27 L 0.63 0.6 1.03
C 0.09 0.20 L1 1.00 REF
D 9.0 BSC
D1 7.0 BSC
1217
187
282939
1
e
A2A
b
E1
E
D1 D
13
24
36
3748
A1
L
L1
c
LQFP 48 (7 X 7 mm)
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Product Description: T315XW02 TFT-LCD PANEL
AUO Model Name: T315XW02 V7
Customer Part No/Project Name:
Customer Signature AUO
Panel Information
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1. General Description This specification applies to the 31.51 inch Color TFT-LCD Module T315XW02 V7. This LCD module has a TFT active matrix type liquid crystal panel 1366x768 pixels, and diagonal size of 31.51 inch. This module supports 1366x768 XGA-WIDE mode (Non-interlace). Each pixel is divided into Red, Green and Blue sub-pixels or dots which are arranged in vertical stripes. Gray scale or the brightness of the sub-pixel color is determined with a 8-bit gray scale signal for each dot. The T315XW02 V7 has been designed to apply the 8-bit 1 channel LVDS interface method. It is intended to support displays where high brightness, wide viewing angle, high color saturation, and high color depth are very important. 0 General Information
Items Specification Unit Note Active Screen Size 31.51 inches
Display Area 697.685 (H) x 392.256(V) mm
Outline Dimension 760.0(H) x 450.0(V) x 47.7(D) mm With inverter
Driver Element a-Si TFT active matrix
Display Colors 16.7M Colors
Number of Pixels 1366 x 768 Pixel
Pixel Pitch 0.51075 mm
Pixel Arrangement RGB vertical stripe
Display Mode Normally Black
Surface Treatment AG, 3H
RoHS RoHS compliance
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2. Absolute Maximum Ratings The following are maximum values which, if exceeded, may cause permanent damage to the unit.
Item Symbol Min Max Unit Conditions
Logic/LCD Drive Voltage Vcc -0.3 7.0 [Volt] Note 1
Input Voltage of Signal Vin -0.3 5.25 [Volt] Note 1
BLU Input Voltage VDDB -0.3 19 [Volt] Note 1
BLU Brightness Control Voltage VBLON -0.3 2.8 [Volt] Note 1
Operating Temperature TOP 0 +50 [ oC] Note 2
Operating Humidity HOP 10 90 [%RH] Note 2
Storage Temperature TST -20 +60 [ oC] Note 2
Storage Humidity HST 10 90 [%RH] Note 2
Panel Surface Temperature - 65 [ oC] Note 2
Note 1: Duration: 50 msec.
Note 2 : Maximum Wet-Bulb should be 39℃ and No condensation.
The relative humidity must not exceed 90% non-condensing at temperatures of 40℃ or less. At
temperatures greater than 40℃, the wet bulb temperature must not exceed 39℃.
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3. Electrical Specification The T315XW02 V7 requires two power inputs. One is employed to power the LCD electronics and to drive the TFT array and liquid crystal. The second input power for the BLU, is to power inverter.. 3-1 Electrical Characteristics
Values Parameter
Min Typ Max
Unit Notes
LCD:
Power Supply Input Voltage Vcc 4.5 5.0 5.5 Vdc 1
Power Supply Input Current Icc - 1.2 1.5 A 2
Power Consumption Pc - 6.0 7.5 Watt 2
Inrush Current IRUSH - - 4 Apeak 3
Differential Input High
Threshold Voltage
VTH +100 mV
4
Differential Input Low
Threshold Voltage
VTL -100 mV
4
LVDS
Interface
Common Input Voltage VCIM 1.10 1.25 1.40 V
Input High Threshold
Voltage
VIH
(High)
2.4 3.3 Vdc CMOS
Interface
Input Low Threshold
Voltage
VIL
(Low)
0 0.7 Vdc
Backlight Power Consumption PDDB 77.4 85.5 93.6 Watt
Life Time 50,000 Hours
Note :
1. The ripple voltage should be controlled under 10% of V CC
2. Vcc=5.0V, =vf 60Hz, fCLK=81.5Mhz , 25℃, Test Pattern : White Pattern
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3. Measurement condition :
Trush = 470 uS
10%
90%
VCC
GND
4. VCIM = 1.2V
VTH
VCIM
VTL
0V
5. The performance of the Lamp in LCM, for example life time or brightness, is extremely
influenced by the characteristics of the DC-AC Inverter. So all the parameters of an inverter
should be carefully designed so as not to produce too much leakage current from high-voltage
output of the inverter. When you design or order the inverter, please make sure unwanted
lighting caused by the mismatch of the lamp and the inverter (no lighting, flicker, etc) never
occurs. When you confirm it, the LCD Assembly should be operated in the same condition as
installed in your instrument.
6. Do not attach a conducting tape to lamp connecting wire. If the lamp wire attach to conducting
tape, TFT-LCD Module have a low luminance and the inverter has abnormal action because
leakage current occurs between lamp wire and conducting tape.
7. The relative humidity must not exceed 80% non-condensing at temperatures of 40℃ or less.
At temperatures greater than 40℃, the wet bulb temperature must not exceed 39℃. When
operate at low temperatures, the brightness of CCFL will drop and the life time of CCFL will be
reduced.
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3-2 Interface Connections
- LCD connector : S41B-PH-SM3-TB
- LVDS Transmitter: DS90C385 (NS).
PIN No. Description PIN No. Description
1 DC Power Supply 21 LVDS Clock+
2 DC Power Supply 22 Ground
3 DC Power Supply 23 RxIN3-
4 DC Power Supply 24 Rxin3+
5 DC Power Supply 25 GND
6 Ground 26 NC
7 Ground 27 NC
8 Ground 28 NC
9 Ground 29 Reserved
10 Ground 30 Reserved
11 RxIN0- 31 NC
12 Rxin0+ 32 NC
13 Ground 33 NC
14 RxIN1- 34 NC
15 Rxin1+ 35 NC
16 Ground 36 NC
17 RxIN2- 37 NC
18 Rxin2+ 38 NC
19 Ground 39 Reserved
20 LVDS Clock- 40 Reserved
41 Reserved Note: 1. All GND (ground) pins should be connected together and should also be connected to the
LCD’s metal frame. All Vcc (power input) pins should be connected together.
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Block diagram for TFT-LCD module 3-3 BACKLIGHT CONNECTOR PIN CONFIGURATION –
3-3.1Electrical specification
Note1 : Condition : VDDB=18.0 V, VDIM= 2.2V (Ta=25±5℃, Turn on for 45minutes) Note 2 : Measurement condition Rising time = 20 ms (VDDB : 10%~90%);
ITEM SYMBOL CONDITION MIN TYP MAX UNIT Note
Input Voltage VDDB --- 16 18 19 VDC
Input Current (Stable Condition) IDDB VDDB=18V 4.3 4.75 5.2 ADC 1
Input Power (Stable Condition) PDDB VDDB=18V 77.4 85.5 93.6 W 1
ON VDDB=18V 2.0 --- 5.0 ADC 1,2 ON/OFF Control Voltage VBLON
OFF VDDB=18V 0.0 --- 0.8 VDC
ON/OFF Control Current IBLON VDDB=18V 0.0 --- 1.5 mADC
MAX VDDB=18V --- 2.2 --- Dimming Control Current VDIM
MIN VDDB=18V --- 0.0 --- VDC
1366 x 768
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3-3.2 Input specification CN1: S14B-PH-SM3-TB(JST) No Symbol Description
1 VDDB (Main Power) DC input 18.0 VDC
2 VDDB (Main Power) DC input 18.0 VDC 3 VDDB (Main Power) DC input 18.0 VDC 4 VDDB (Main Power) DC input 18.0 VDC 5 VDDB (Main Power) DC input 18.0 VDC 6 GND Ground
7 GND Ground
8 GND Ground
9 GND Ground
10 GND Ground
11 DET Panel status detect ( 0~ 0.8V=Fail )
12 VBLON (Enable Pin) On/Off control Signal; 5V:On/ 0V:Off
13 VDIM (LCD Bright) Analog Dimming control signal input (0~2.2V)
(2.2V : Max, 0V: Min brightness)
14 GND Signal Ground
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3-3.3. Backlight Diagram)
HOT 16(PINK) HOT 15(PINK) HOT 14(PINK) HOT 13(PINK) HOT 12(PINK) HOT 11(PINK) HOT 10(PINK) HOT 9(PINK)
CCFL 16 CCFL 15 CCFL 14 CCFL 13 CCFL 12 CCFL 11 CCFL 10 CCFL 9 HOT 8(PINK)
HOT 6(PINK) HOT 5(PINK)
CCFL 8 CCFL 7 CCFL 6 CCFL 5
HOT 7(PINK)
HOT 4(PINK)
HOT 2(PINK) HOT 1(PINK)
CCFL 4 CCFL 3 CCFL 2 CCFL 1
HOT 3(PINK)
Ground Plate
Ground To Back Chassis
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3-4 Signal Timing Specifications This is the signal timing required at the input of the User connector. All of the interface signal timing should be satisfied with the following specifications for it ’s proper operation.
1 Timing Table DE only Mode
2 Display position is specific by the rise of DE signal only.
Horizontal display position is specified by the rising edge of 1 st DCLK after the rise of 1st DE, is displayed on the left edge of the screen. Vertical display position is specified by the rise of DE after a “Low” level period equivalent to eight times of horizontal period. The 1st data corresponding to one horizontal line after the rise the of 1 st DE is displayed at the top line of screen. 3.) If a period of DE “High” is less than 1366 DCLK or less than 768 lines, the rest of the screen displays black. 4.) The display position does not fit to the screen if a period of DE “High” and the effective data period do not synchronize with each other.
Signal Item Symbol Min Typ. Max Unit
V Total Tv 789 806 1000 Th
Active Tdisp(v) 768 768 768 Th
Vertical Section Blanking Tblk(v) 21 38 232 Th
H Total Tv 1414 1560 1722 Tclk
Active Tdisp(v) 1366 1366 1366 Tclk
Vertical Section Blanking Tblk(v) 48 194 356 Tclk
Pixel Clock Frequency 1/Tclk 65 76 88 Mhz
Vertical Frequency Frequency Fv 47 60 63 Hz
Horizontal
Frquency Frequency Fh 43 48 53 kHz
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3-5 Signal Timing Waveforms
Th
Tdisp(v)
Tv
DE
RGBData
768Line
Invalid DataInvalid Data
1Line2Line
3Line768Line
4Line
Tclk
CLKDE
RGB DataPixel1366
Invalid DataPixel
1Pixel
2Pixel
3Pixel
4Pixel
5Pixel
6Pixel1366
Invalid DataPixel
1Pixel
2
Th
Tdisp(h)
106/135
3-6 Color Input Data Reference The brightness of each primary color (red, green and blue) is based on the 8 bit gray scale data input for the color; the higher the binary input, the brighter the color. The table below provides a reference for color versus data input.
COLOR DATA REFERENCE
Input Color Data
RED
MSB
LSB
GREEN
MSB
LSB
BLUE
MSB
LSB
Color
R7 R6 R5 R4 R3 R2 R1 R0 G7 G6 G5 G4 G3 G2 G1 G0 B7 B6 B5 B4 B3 B2 B1 B0
Black 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
Red(255) 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
Green(255) 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0
Blue(255) 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1
Cyan 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
Magenta 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1
Yellow 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0
Basic
Color
White 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
RED(000) 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
RED(001) 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
----
RED(254) 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
RED
RED(255) 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
GREEN(000) 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
GREEN(001) 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0
----
GREEN(254) 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0
GREEN
GREEN(255) 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0
BLUE(000) 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
BLUE(001) 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1
-------
BLUE(254) 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 0
BLUE
BLUE(255) 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1
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3-7 Power Sequence for LCD Module
3-7.1 Power Sequence for LCD
t1 t2
t3 t4
t5 t6 t7
Power Supply For LCD Vcc (+5V)
Interface Signal(LVDS data & CLK)
GND
GNDValid Data
90%
10%
10% 10%
10% 10%
90%
Backlight on/offcontrol signal(VBLON)
Values Parameter
Min. Typ. Max.
Units
t1 1 30 ms
t2 10 80 ms
t3 550 (Note 2) ms
t4 100 ms
t5 50 ms
t6 0.47 30 ms
t7 300 ms
Note 1:
Apply the lamp voltage within the LCD operation range. When the back-light turns on before the LCD operation or the LCD turns off before the back-light turns off, the display may momentarily become abnormal screen.
Note 2:
a. 200ms~550ms: Without turning color temperature might happen in this period b. >550ms: normal operation period, with color temperature turning
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4. Optical Specification Optical characteristics are determined after the unit has been ‘ON’ and stable for approximately 45 minutes in a dark environment at 25 . The values specified are at an approximate distance 50cm ℃from the LCD surface at a viewing angle of Φ and θequal to 0°. Fig.1 1 presents additional information concerning the measurement equipment and method.
Values Parameter
Symbol Min. Typ. Max.
Units Notes
Contrast Ratio CR 1000 1200 1
Surface Luminance,
white
LWH 430 530 cd/㎡ 2
Luminance Variation δWHITE 9 p 1.30 3
Response
time
Gray to Gray Tγ 8 Ms 4
Color Gamut NTSC 72 %
Color Coordinates
RED RX 0.640
RY 0.340
GREEN GX 0.290
GY 0.600
BLUE BX 0.145
BY 0.055
WHITE WX 0.282
WY
Typ.-0.03
0.284
Typ.+0.03
Viewing Angle
x axis, right(φ=0°) θr 75 89 Degree 6
x axis, left(φ=180°) θl 75 89
y axis, up(φ=90°) θu 75 89
y axis, down (φ=0°) θd 75 89
SR3 or equivalent
109/135
Note:
1. Contrast Ratio (CR) is defined mathematically as:
Surface Luminance of Lon1 Contrast Ratio=
Surface Luminance of Loff1
2. Surface luminance is luminance value at point 1 across the LCD surface 50cm from the surface
with all pixels displaying white. From more information see FIG 2. When VDDB = 17.5V, IDDB =
TBD LWH=Lon1 ,Where Lon1 is the luminance with all pixels displaying white at center 1 location.
3. The variation in surface luminance, δWHITE is defined (center of Screen) as:
δWHITE(9P)= Maximum(Lon1, Lon2,…,Lon9)/ Minimum(Lon1, Lon2,…Lon9) 4. Response time is the time required for the display to transition from black to white(Rise Time, Tr R)
and from white to black (Decay Time, TrD). For additional information see FIG3.
5. Tγ is the response time between any two gray scale and is based on f v=60Hz to optimize.
6. Viewing angle is the angle at which the contrast ratio is greater than 10. The angles are
determined for the horizontal or x axis and the vertical or y axis with respect to the z axis which is
normal to the LCD surface. For more information see FIG4.
7. Gamma curve is test at normal direction.
FIG. 2 Luminance
1 2 3
4 5 6
7 8
H
V
H/6
H/2
V/2 V/6
110/135
FIG.3 Response Time The response time is defined as the following figure and shall be measured by switching the input signal for “any level of gray(bright) “ and “any level of gray(dark)”.
Any level of gray(Bright) Any level of gray(Dark) Any level of gray(Bright)
TrR
L0,15,L31,….L255 L0,15,L31,….L255
Photodetector O
utput
Time
L0,15,L31,….L255
FIG.4 Viewing angle
111/135
5. Mechanical Characteristics The contents provide general mechanical characteristics for the model T315XW02 V7. In addition the
figures in the next page are detailed mechanical drawing of the LCD.
Horizontal 760.0mm
Vertical 450.0mm
Outline Dimension
Depth 47.7mm
Horizontal 702.8mm Bezel Opening
Vertical 398.4mm
Horizontal 697.68mm Active Display Area
Vertical 392.26mm
Weight 7200g Typ.
Surface Treatment AG, 3H
Torque
on bottom chassis user holes
M3: min 8kgf・cm
M4: min 10kgf・cm
112/135
Front
113/135
Back
114/135
6. Reliability Environment test condition
No Test Item Condition
1 High temperature storage test Ta=60℃ 300h judge
2 Low temperature storage test Ta=-20℃ 300h judge
3 High temperature operation test Ta=50℃ 80%RH 300h judge
4 Low temperature operation test Ta=-5℃ 300h judge
5 Vibration test
(non-operating)
Wave form: Random
Vibration level: 1.5G RMS
Bandwidth: 10-300Hz
Duration: X, Y, Z
30min each direction
6 Shock test
(non-operating)
Shock level: 50G
Waveform: half since wave, 11ms
Direction: ±X, ±Y, ±Z
One time each direction
7 Vibration test
(with carton)
Wave form: Random
Vibration level: 0.83Grms,
Bandwidth: 5~50Hz
Duration: Z direction
20min
8 Drop test
(with carton)
Height: 46.0cm
1 corner, 3 edges, 6 surfaces
(ASTMD4169-I)
9 Altitude
Storage/shipment 50,000 feet (12Kpa)
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7. International Standard
7-1. Safety
(1) UL6500, Underwriters Laboratories, Inc. (AUO file number : E204356)
Standard for Safety of Information Technology Equipment Including electrical Business
Equipment.
(2) CAN/CSA C22.2 No. 950-95 Third Edition, Canadian Standards Association, Jan. 28, 1995
Standard for Safety of Information Technology Equipment Including Electrical Business
Equipment.
(3) EN60950 : 1992+A2: 1993+A2: 1993+C3: 1995+A4: 1997+A11: 1997
IEC 950: 1991+A1: 1992+A2: 1993+C3: 1995+A4:1996
IEC 60065 (AUO Certificate number : JPTUV-008549)
European Committee for Electro technical Standardization (CENELEC)
EUROPEAN STANDARD for Safety of Information Technology Equipment Including
Electrical Business Equipment.
7-2. EMC
a) ANSI C63.4 “Methods of Measurement of Radio-Noise Emissions from Low-Voltage
Electrical and Electrical Equipment in the Range of 9kHz to 40GHz. “American National
standards Institute(ANSI), 1992
b) C.I.S.P.R “Limits and Methods of Measurement of Radio Interface Characteristics of
Information Technology Equipment. ” International Special committee on Radio Interference.
c) EN 55022 “Limits and Methods of Measurement of Radio Interface Characteristics of
Information Technology Equipment.” European Committee for Electrotechnical
Standardization. (CENELEC), 1998
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8. Packing Panel label:
Carton Label : 44
117/135
Carton :
878(L)mm *283(W)mm * 535(H)mm
118/135
Palletizing sequence:
(1) By air : (4*1) *2 layers, one pallet put 8 boxes, total 32 pcs module.
(2) By sea : HQ container (4*1) * 4 layers, one pallet put 16 boxes, total 64 pcs module.
Specification Item
Qty. Dimension Weight (kg)
Packing
Remark
1 Packing BOX 4pcs/box 878(L)mm*290(W)mm*535(H)mm 33
2 Pallet 1 114(L)mm*890 (W)mm*120(H)mm 10
3 Boxes per Pallet 8 boxes/Pallet
4 Panels per Pallet 32 pcs/pallet
5 Pallet after packing 52
pallet/container
1140(L)mm*890(W)mm*120(H)m
m
274
Stretch film
Label
Corner angle
PET band
Moisture-proof filmCorner angle
Pallet
119/135
9. PRECAUTIONS Please pay attention to the followings when you use this TFT LCD module.
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 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 polarizers 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.
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 minimize the interface.
120/135
9-3 ELECTROSTATIC DISCHARGE CONTROL Since a module is composed of electronic circuits, it is not strong to electrostatic discharge. Make
certain that treatment persons are connected to ground through wrist band etc. And don ’t touch
interface pin directly.
9-4 PRECAUTIONS FOR STRONG LIGHT EXPOSURE Strong light exposure causes degradation of polarizer and color filter.
9-5 STORAGE When storing modules as spares for a long time, the following precautions are necessary.
(1) Store them in a dark place. Do not expose the module to sunlight or fluorescent light. Keep the
temperature between 5 and 35 at normal humidity.℃ ℃
(2) The polarizer surface should not come in contact with any other object. It is recommended that
they be stored in the container in which they were shipped.
9-6 HANDLING PRECAUTIONS FOR PROTECTION FILM (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 flue 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 or its vestige is recognized,
please wipe them off with absorbent cotton waste or other soft material like chamois soaked with
normal-hexane.
121/135
122/135
Item Part Number Part Description Usage / unit Unit Key/Spare GLCT32AEDTA1AS-A01 ROHS AKAI LCT32AE(LCT32Z5TAP)
S-MT5371 AUO(T315XW02 V7) AC120V/60HZ USA BLACK/SILVER
HORIZONTAL ATV/DTV
1> G510-L32AE03-02AKA ROHS CARTON BOX (H) LCT32Z5TAP AKAI K
1.000000 Piece K
2> G580-K00201-01CPA ROHS IB E FOR AKAI W/O DVD K002(OMNIPOTENCE) REMOTE
CONTROL USA ADD SAFETY(CHENG YI)
1.000000 Piece K
3> G580-L32AE1A-03APA ROHS IB E FOR AKAI LCT32Z5TAP TV+ATSC NO PIP AUO MT5371 USA
(CHENG YI)
1.000000 Piece K
4> GE7501-063009-1A ROHS REMOTE CONTROC K002 231 MASK "AKAI"64KEYS BLACK
(COMMON) OMNIPOTENCE(CHUAN QI SHENG)
1.000000 SET K
5> GE7801-P06002 ROHS PCB ASS'Y PSU BOARD JEWEL JSK6218-061 REV:01 AC100V-240V FOR AUO 31.5
1.000000 SET K
6> G771EL32AE02-01 ROHS MAIN PCB ASS'Y S-MT5371 HITACHI USA
1.000000 SET K
7> G200-L32AE02-02AAA ROHS FRONT CABINET 31.5" AKAI BLACK(P320-605871K-00) /SILVER
(AKAI PLASTIC)
1.000000 Piece S
8> G202-L32AE02-01AAA ROHS BACK CABINET W/O DVD W/O POWER SWITCH BLACK A(AKAI
PLASTIC)
1.000000 Piece S
9> G269-42SD01-01LA ROHS REMOTE RECEIVE LENS(AKAI PLASTIC)
1.000000 Piece S
10> G277-L37AE01-04ASA ROHS FUNCTION KNOB MATT BLACK(P320-605871K-00) S(AKAI
PLASTIC)
1.000000 Piece S
11> G300-L32AE0G-01CA ROHS POLYFOAM TOP FOR LCT32AE HORIZENTAL(CHUANG YI)
1.000000 Piece S
12> G300-L32AE0H-01CA ROHS POLYFOAM BOTTOM FOR LCT32AE HORIZENTAL(CHUANG YI)
1.000000 Piece S
13> G310-030404-01A ROHS POLYBAG 110MMX80MMX0.04MM AO LANG
2.000000 Piece S
14> G310-051704-01ATA ROHS POLYBAG FOR POWER LINE (SKD) W/WARRANTY WORD
(CHUAN QI SHENG)
1.000000 Piece S
15> G310-111404-07VA ROHS POLYBAG 11"X14"X0.04 FV (AO LANG)
1.000000 Piece S
16> G310-423850-07VA ROHS BAG LAMIFILM 42"X38"X0.5MM AO LANG
1.000000 Piece S
17> G420-L32AE11-01SA ROHS L32AE MAIN BKT "L"(TOMEI) 1.000000 Piece S
Spare part list for LCT32Z5TAP
123/135
18> G420-L32AE12-01SA ROHS L32AE MAIN BKT"R"(TOMEI) 1.000000 Piece S
19> G426-L37AD01-01SA ROHS AC LINE BRACKET(TOMEI) 1.000000 Piece S
20> G429-L32AD0N-01SA ROHS MOUNTING BRACKET FOR PANEL(TOMEI)
2.000000 Piece S
21> G429-L32AE02-01SA ROHS "I"BKT FOR ALL 31.5 PANEL(TOMEI)
1.000000 Piece S
22> G429-L32AE0F-01SA ROHS "Z" BRACKET FOR HATCHI LCT32AD(TOMEI)
4.000000 Piece S
23> G429-L32AE0I-01SA ROHS MOUNTING BKT FOR 31.5" AUO PANEL(TOMEI)
1.000000 Piece S
24> G436-L40AE12-01SA ROHS TERMINAL SHEET FOR L32AE (MT5371)(TOMEI)
1.000000 Piece S
25> G481-L40AE04-01SA ROHS SHIELD BOX BOTTOM MT5371 L40AE(TOMEI)
1.000000 Piece S
26> G483-421D01-01SA ROHS SHILD COVER FOR 5071(IC)(TOMEI)
1.000000 Piece S
27> G521-420105-01A ROHS FEIT PAPER 420X10X0.5MM(ZHI QIANG SHENG)
8.000000 Piece S
28> G522-421D01-01A ROHS MASKING PAPER (ZHI QIANG SHENG)
1.000000 Piece S
29> G560-L32AE01-05APA ROHS MODEL LABEL AKAI LCT32Z5TAP P(QIAN SE)
1.000000 Piece S
30> G563-119-A ROHS SERIAL NO. LABEL 1.000000 Piece S
31> G568-P46T02-02A ROHS WARNING LB ENG 42SF NIL 1.000000 Piece S
32> G578-L26AE01-02APA ROHS FUNCTION SHEET LABEL FOR MT5370/MT5371 TWO HDMI W/
O DVD(QIAN SE)
1.000000 Piece S
33> G579-42D105-01A ROHS PROTECTIVE EARTH LABEL FOR ESA 42TD1
1.000000 Piece S
34> G579-L27AD09-01A ROHS CAUTION LABEL ENG AKAI (QIAN SE)
1.000000 Piece S
35> G579-L32AD09-02APA ROHS FCC STATEMENT LABEL 77X20MM(QIAN SE)
1.000000 Piece S
36> G579-L37AD01-00APB ROHS BAR CODE BLANK WHITE LABEL 60X40MM(QIAN SE)
2.000000 Piece S
37> G579-L37AD06-00APB ROHS BAR CODE BLANK WHITE LABEL 48X15MM(QIAN SE)
1.000000 Piece S
Spare part list for LCT32Z5TAP
124/135
38> G590-L32AE01-05BPA ROHS WARRANTY CARD LCT32Z5TAP AKAI P
1.000000 Piece S
39> G599-L32AE01-02APA ROHS IB SHEET LCT32AE W/O DVD STAND(SQUARE) USA(RS)
(QIAN SE)
1.000000 Piece S
40> GE3404-157013A ROHS AC CORD UL 1.88M FOR MT8202 (W/HOUSING) (YUN HUAN)
1.000000 Piece S
41> GE3421-925241A ROHS WIRE ASSY 1H2.5-2H2.5 L=480 AG 12+8 LCT37" MT5371 (HU
GUANG)
1.000000 Piece S
42> GE3461-000147A ROHS WIRE ASSY 1H2.0-2H2.5 14P+10P/4P L700/450 INVERTER
(NAGASE)
1.000000 Piece S
43> GE3471-000103A ROHS WIRE WS 1H2.0-2H2.0 L=550 DI 13P/6+8P LCT27&42" MT5371
KEY (HU GUANG)
1.000000 Piece S
44> GE3471-000116A ROHS WIRE ASS'Y 1H1.25-2H1.0 L=220 41P/30P FOR AUO 31.5"
LVDS
1.000000 Piece S
45> GE4801-124001A ROHS SPEAKER 8 OHM 10W D3" YD78-1(JUN LANG)
2.000000 Piece S
46> GE6203-31AD01 ROHS DISPLAY LCD31.5" AUO (T315XW02 V7) 1366X768 530CD/
M2 1200:1
1.000000 Piece S
47> GE7301-010002A ROHS BATTERY AAA R03P1.5V <2> (CHAO YANG)
2.000000 Piece S
48> G734-L32AD06-03 ROHS PLASTIC SQUARE BASE ASS'Y FOR RS BLACK(P320-
605871K-00)
1.000000 SET S
49> G771BL26AE01-01 ROHS IR RECEIVE PCB ASS'Y S-MT5370+DVD CMO
1.000000 SET S
50> G771KL26AE01-02 ROHS KEY (MAIN 7KEYS)PCB ASS'Y S-MT5370+DVD CMO
1.000000 SET S
Spare part list for LCT32Z5TAP
125/135
If you forget your V-Chip Password:
Using the “U.S. Movie Ratings” item 1 After entering the “Program Block” menu, press ▲ or ▼ button to highlight the “U.S. Movie Ratings” item. 2 Press ► or Enter button to enter. 3 Press ▲ or ▼ button to select an item, then press the Enter button to lock (display “ ”) or unlock (display “ ”).
For Movie previously shown in theaters: • G (general audience) • PG (parental guidance suggested) • PG-13 (13 years and older) • R (Restricted) • NC-17 (18 years and older) • X (Adult)
If you set PG-13: G and PG movies be available, PG-13, R, NC-17, and X will be blocked. 4 Press the Menu button to exit the sub-menu.
Unlocking programs temporarily 1 If you try to watch a program that exceeds the TV Guideline you set, the system enters program lock mode. You can either unlock the program temporarily or select a non-locked program to watch. 2 To temporarily unlock the program, press the Number buttons (0~9) to enter your 4-digit password.
V-Chip BLOCKTV-PGDLSV
Enter Password- - - -
If the correct code is entered, the program lock mode is released and the normal picture appears.
126/135
Software Upgrade
Process of update MT537X
Preparing : 1. Connect the Plasma/LCD TV and PC with the Software Upgrade Board.Please find the
details for connecting refering to the appendix at the end of this file. 2. Store the MtkTool into the PC .
Downloading : 3.Turn on AC power of the TV and then press the button “standby” of the remote control . The
image could be found on the screen of the TV while the color of the power indicator is green . 4. Execute MTKtool and select the chipset as MT537X. (the software of MTKtool will be sent to your side)
5. Select current COM port. (please try to check the COM port of your PC).
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6.Choose the bit rate as 115200. 7.Select the update binary by pressing browse button. For example,the binary file name is
PDP42XX_V06_LGX3SMC_20061230.bin. (this update firmware will be sent to your side)
128/135
8. Press Upgrade button and start update process.
9.The update process is successful as the progress bar is 100%. After the update process is ok,
turn off power and wait indicator light is off. Turn on power and TV can work.
Checking It is needed to check the version of the firmware for MT5371 which has been
download into the TV .
129/135
Press Menu button of the remote control,following input “5371”of the remote control and OSD menu for Factory Setting is appeared on the screen .
Use the remote control and select the item of “Version Info” and then press “Enter” button of the remote control. It is easy to be found the version of the current firmware for MT5371 is as the following : “Model Name : PDP42Z5TA / Version:V17_LGX3SMC_20070119 ”
Appendix:
Quick Installation Guide For
Software Upgrade Board 1. Parts List
- Software upgrade board x 1 (#1) - RS232 null cable x 1 for PC (#2) - RS232 – VGA cable (#4) - USB cable x 1 (#5)
2. Installation for ATV upgrade 2.1 Connect RS232 cable (#2) to PC serial port
Connect another side of RS232 cable (#2) to the board (#1)
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2.2 Connect RS232-VGA cable (#4) (RS232 side) to the board (#1)
Connect RS232-VGA cable (#4) (VGA side) to the TV
2.3 Connect USB cable (#5) to the board (#1)
131/135
Connect another side of USB cable (#5) to PC
3. Cables Standard for Upgrade Board
132/135
133/135
134/135
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