PORTABLE DVDSERVICE MANUAL
MODELS : DP181/DP181BP/DP181TCAUTIONBEFORE SERVICING THE UNIT, READ THE “SAFETY PRECAUTIONS”IN THIS MANUAL.
MO
DE
LS
: DP
181/DP
181BP
/DP
181TS
ER
VIC
E M
AN
UA
L
P/NO : AFN31016493 AUGUST, 2006
1-1
CONTENTS
SECTION 1 . . . . SUMMARY
SECTION 2 . . . . EXPLODED VIEWS
SECTION 3 . . . . ELECTRICAL
SECTION 4 . . . . REPLACEMENT PARTS LIST
1-2
SECTION 1
SUMMARY
CONTENTS
PRODUCT SAFETY SERVICING GUIDELINES FOR VIDEO PRODUCTS ............. 1-3SERVICING PRECAUTIONS................................................................................................... 1-4SPECIFICATIONS ...................................................................................................................... 1-5
1-3
CAUTION : DO NOT ATTEMPT TO MODIFY THIS PRODUCT IN ANY WAY,NEVER PERFORM CUSTOMIZED INSTALLATIONS WITHOUT MANUFAC-TURER’S APPROVAL. UNAUTHORIZED MODIFICATIONS WILL NOT ONLYVOID THE WARRANTY, BUT MAY LEAD TO YOUR BEING LIABLE FOR ANYRESULTING PROPERTY DAMAGE OR USER INJURY.SERVICE WORK SHOULD BE PERFORMED ONLY AFTER YOU ARETHOROUGHLY FAMILIAR WITH ALL OF THE FOLLOWING SAFETYCHECKS AND SERVICING GUIDELINES. TO DO OTHERWISE,INCREASES THE RISK OF POTENTIAL HAZARDS AND INJURY TO THEUSER.WHILE SERVICING, USE AN ISOLATION TRANSFORMER FOR PROTEC-TION FROM A.C. LINE SHOCK.
SAFETY CHECKSAFTER THE ORIGINAL SERVICE PROBLEM HAS BEEN CORRCTED. ACHECK SHOULD BE MADE OF THE FOLLOWING.
SUBJECT : FIRE & SHOCK HAZARD1. BE SURE THAT ALL COMPONENTS ARE POSITIONED IN SUCH A WAY
AS TO AVOID POSSIBILITY OF ADJACENT COMPONENT SHORTS.THIS IS ESPECIALLY IMPORTANT ON THOSE MODULES WHICH ARETRANSPORTED TO AND FROM THE REPAIR SHOP.
2. NEVER RELEASE A REPAIR UNLESS ALL PROTECTIVE DEVICESSUCH AS INSULATORS, BARRIERS, COVERS, SHIELDS, STRAIN RELIEFS, POWER SUPPLY CORDS, AND OTHER HARDWARE HAVEBEEN REINSTALLED PER ORIGINAL DESIGN. BE SURE THAT THESAFETY PURPOSE OF THE POLARIZED LINE PLUG HAS NOT BEENDEFEATED.
3. SOLDERING MUST BE INSPECTED TO DISCOVER POSSIBLE COLDSOLDER JOINTS, SOLDER SPLASHES OR SHARP SOLDER POINTS.BE CERTAIN TO REMOVE ALL LOOSE FOREIGN PARTICLES.
4. CHECK FOR PHYSICAL EVIDENCE OF DAMAGE OR DETERIORATIONTO PARTS AND COMPONENTS. FOR FRAYED LEADS, DAMAGEDINSULATION (INCLUDING A.C. CORD). AND REPLACE IF NECESSARYFOLLOW ORIGINAL LAYOUT, LEAD LENGTH AND DRESS.
5. NO LEAD OR COMPONENT SHOULD TOUCH A RECIVING TUBE ORA RESISTOR RATED AT 1 WATT OR MORE. LEAD TENSION AROUNDPROTRUNING METAL SURFACES MUST BE AVOIDED.
6. ALL CRITICAL COMPONENTS SUCH AS FUSES, FLAMEPROOFRESISTORS, CAPACITORS, ETC. MUST BE REPLACED WITH EXACTFACTORY TYPES, DO NOT USE REPLACEMENT COMPONENTSOTHER THAN THOSE SPECIFIED OR MAKE UNRECOMMENDED CIR-CUIT MODIFICATIONS.
7. AFTER RE-ASSEMBLY OF THE SET ALWAYS PERFORM AN A.C.LEAKAGE TEST ON ALL EXPOSED METALLIC PARTS OF THE CABI-NET, (THE CHANNEL SELECTOR KNOB, ANTENNA TERMINALS. HAN-DLE AND SCREWS) TO BE SURE THE SET IS SAFE TO OPERATEWITHOUT DANGER OF ELECTRICAL SHOCK. DO NOT USE A LINE ISOLATION TRANSFORMER DURING THIS TEST USE AN A.C. VOLT-METER, HAVING 5000 OHMS PER VOLT OR MORE SENSITIVITY, INTHE FOLLOWING MANNER; CONNECT A 1500 OHM 10 WATT RESIS-TOR, PARALLELED BY A .15 MFD. 150.V A.C TYPE CAPACITORBETWEEN A KNOWN GOOD EARTH GROUND (WATER PIPE, CON-DUIT, ETC.) AND THE EXPOSED METALLIC PARTS, ONE AT A TIME.MEASURE THE A.C. VOLTAGE ACROSS THE COMBINATION OF 1500 OHM RESISTOR AND .15 MFD CAPACITOR. REVERSE THE A.C. PLUGAND REPEAT A.C. VOLTAGE MEASUREMENTS FOR EACH EXPOSED METALLIC PART. VOLTAGE MEASURED MUST NOT EXCEED 75VOLTS R.M.S. THIS CORRESPONDS TO 0.5 MILLIAMP A.C ANYVALUE EXCEEDING THIS LIMIT CONSTITUTES A POTENTIAL SHOCKHAZARD AND MUST BE CORRECTED IMMEDIATELY.
SUBJECT: GRAPHIC SYMBOLSTHE LIGHTNING FLASH WITH APROWHEAD SYMBOL. WITHINAN EQUILATERAL TRIANGLE, IS INTENDED TO ALERT THESERVICE PERSONNEL TO THE PRESENCE OF UNINSULATED“DANGEROUS VOLTAGE” THAT MAY BE OF SUFFICIENT MAG-NITUDE TO CONSTITUTE A RISK OF ELECTRIC SHOCK.THE EXCLAMATION POINT WITHIN AN EQUILATERAL TRIAN-GLE IS INTENDED TO ALERT THE SERVICE PERSONNEL TOTHE PRESENCE OF IMPORTANT SAFETY INFORMATION INSERVICE LITERATURE.
SUBJECT : X-RADIATION1. BE SURE PROCEDURES AND INSTRUCTIONS TO ALL SERVICE PER-
SONNEL COVER THE SUBJECT OF X-RADIATION. THE ONLY POTEN-TIAL SOURCE OF X-RAYS IN CURRENT T.V. RECEIVERS IS THE PIC-TURE TUBE. HOWEVER, THIS TUBE DOES NOT EMIT X-RAYS WHENTHE HIGH VOLTAGE IS AT THE FACTORY SPECIFIED LEVEL. THE PROPER VALUE IS GIVEN IN THE APPLICABLE SCHEMATIC. OPERA-TION AT HIGHER VOLTAGES MAY CAUSE A FAILURE OF THE PIC-TURE TUBE OR HIGH VOLTAGE SUPPLY AND, UNDER CERTAIN CIR-CUMSTANCES, MAY PRODUCE RADIATION IN EXCESS OF DESIR-ABLE LEVELS.
2. ONLY FACTORY SPECIFIED C.R.T. ANODE CONNECTORS MUST BEUSED. DEGAUSSING SHIELDS ALSO SERVE AS X-RAY SHIELD INCOLOR SETS, ALWAYS RE-INSTALL THEM.
3. IT IS ESSNTIAL THAT SERVICE PERSONNEL HAVE AVAILABLE ANACCURATE AND RELIABLE HIGH VOLTAGE METER. THE CALIBRATION OF THE METER SHOULD BE CHECKED PERIODICALLYAGAINST A REFERENCE STANDARD, SUCH AS THE ONE AVAILABLEAT YOUR DISTRIBUTOR.
4. WHEN THE HIGH VOLTAGE CIRCUITRY IS OPERATING PROPERLYTHERE IS NO POSSIBILITY OF AN X-RADIATION PROBLEM. EVERYTIME A COLOR CHASSIS IS SERVICED. THE BRIGHTNESS SHOULDBE RUN UP AND DOWN WHILE MONITORING THE HIGH VOLTAGEWITH A METER TO BE CERTAIN THAT THE HIGH VOLTAGE DOESNOT EXCEED THE SPECIFIED VALUE AND THAT IT IS REGULATINGCORRECTLY, WE SUGGEST THAT YOU AND YOUR SERVICE ORGA-NIZATION REVIEW TEST PROCEDURES SO THAT VOLTAGE REGU-LATION IS ALWAYS CHECKED AS A STANDARD SERVICING PROCE-DURE. AND THAT THE HIGH VOLTAGE READING BE RECORDER ONEACH CUSTOMER’S INVOICE.
5. WHEN TROUBLESHOOTING AND MAKING TEST MEASUREMENTS INA PRODUCT WITH A PROBLEM OF EXCESSIVE HIGH VOLTAGE,AVOID BEING UNNECESSARILY CLOSE TO THE PICTURE TUBE ANDTHE HIGH VOLTAGE SUPPLY. DO NOT OPERATE THE PRODUCTLONGER THAN IS NECESSARY TO LOCATE THE CAUSE OF EXCESSIVE VOLTAGE.
6. REFER TO HV. B+ AND SHUTDOWN ADJUSTMENT PROCEDURES DESCRIBED IN THE APPROPRIATE SCHEMATIC AND DIAGRAMS(WHERE USED).
SUBJECT: IMPLOSION1. ALL DIRECT VIEWED PICTURE TUBES ARE EQUIPPED WITH AN INTE
GRAL IMPLOSION PROTECTION SYSTEM, BUT CARE SHOULD BETAKEN TO AVOID DAMAGE DURING INSTALLATION, AVOIDSCRATCHING THE TUBE. IF SCRATCHED REPLACE IT.
2. USE ONLY RECOMMENDED FACTORY REPLACEMENT TUBES.SUBJECT : TIPS ON PROPER INSTALLATION1. NEVER INSTALL ANY PRODUCT IN A CLOSED-IN RECESS, CUBBY-
HOLE OR CLOSELY FITTING SHELF SPACE. OVER OR CLOSE TOHEAT DUCT, OR IN THE PATH OF HEATED AIR FLOW.
2. AVOID CONDITIONS OF HIGH HUMIDITY SUCH AS: OUTDOOR PATIOINSTALLATIONS WHERE DEW IS A FACTOR, NEAR STEAM RADIA-TORS WHERE STEAM LEAKAGE IS A FACTOR, ETC.
3. AVOID PALCEMENT WHERE DRAPERIES MAY OBSTRUCT REARVENTING. THE CUSTOMER SHOULD ALSO AVOID THE USE OF DEC-ORATIVE SCARVES OR OTHER COVERINGS WHICH MIGHTOBSTRUCT VENTILATION.
4. WALL AND SHELF MOUNTED INSTALLATIONS USING A COMMER-CIAL MOUNTING KIT. MUST FOLLOW THE FACTORY APPROVED MOUNTING INSTRUCTIONS A PRODUCT MOUNTED TO A SHELF ORPLATFORM MUST RETAIN ITS ORIGINAL FEET (OR THE EQUIVALENTTHICKNESS IN SPACERS) TO PROVIDE ADEQUATE AIR FLOW ACROSS THE BOTTOM, BOLTS OR SCREWS USED FOR FASTENERSMUST NOT TOUCH ANY PARTS OR WIRING. PERFORM LEAKAGETEST ON CUSTOMIZED INSTALLATIONS.
5. CAUTION CUSTOMERS AGAINST THE MOUNTING OF A PRODUCT ONSLOPING SHELF OR A TILTED POSITION, UNLESS THE PRODUCT ISPROPERLY SECURED.
6. A PRODUCT ON A ROLL-ABOUT CART SHOULD BE STABLE ON ITSMOUNTING TO THE CART. CAUTION THE CUSTOMER ON THE HAZ-ARDS OF TRYING TO ROLL A CART WITH SMALL CASTERS ACROSSTHRESHOLDS OR DEEP PILE CARPETS.
7. CAUTION CUSTOMERS AGAINST THE USE OF A CART OR STANDWHICH HAS NOT BEEN LISTED BY UNDERWRITERS LABORATORIES, INC. FOR USE WITH THEIR SPECIFIC MODEL OF TELEVISION RECEIVER OR GENERICALLY APPROVED FOR USE WITH T.V.’S OFTHE SAME OR LARGER SCREEN SIZE.
8. CAUTION CUSTOMERS AGAINST THE USE OF EXTENSION CORDS, EXPLAIN THAT A FOREST OF EXTENSIONS SPROUTING FROM A SIN-GLE OUTLET CAN LEAD TO DISASTROUS CONSEQUENCES TOHOME AND FAMILY.
PRODUCT SAFETY SERVICING GUIDELINES FOR VIDEO PRODUCTS
A.C. VOLTMETER
GOOD EARTH GROUNDSUCH AS THE WATERPIPE. CONDUIT. ETC
PLACE THIS PROBEON EACH EXPOSEDMETAL PART
1-4
SERVICING PRECAUTIONS
CAUTION : Before servicing the PORTABLE DVD coveredby this service data and its supplements and addends, readand follow the SAFETY PRECAUTIONS. NOTE : if unfore-seen circumstances create conflict between the followingservicing precautions and any of the safety precautions inthis publications, always follow the safety precautions.Remembers Safety First:
General Servicing Precautions1. Always unplug the PORTABLE DVD AC power cord from
the AC power source before:(1) Removing or reinstalling any component, circuit board,
module, or any other assembly.(2) Disconnection or reconnecting any internal electrical
plug or other electrical connection.(3) Connecting a test substitute in parallel with an elec-
trolytic capacitor.Caution : A wrong part substitution or incorrect polarity installation of electrolytic capacitors may resultin an explosion hazard.
2. Do not spray chemicals on or near this PORTABLE DVDor any of its assemblies.
3. Unless specified otherwise in this service data, cleanelectrical contacts by applying an appropriate contact cleaning solution to the contacts with a pipe cleaner,cotton-tipped swab, or comparable soft applicator.Unless specified otherwise in this service data, lubricationof contacts is not required.
4. Do not defeat any plug/socket B+ voltage interlocks withwhitch instruments covered by this service manual mightbe equipped.
5. Do not apply AC power to this PORTABLE DVD and/orany of its electrical assemblies unless all solid-statedevice heat sinks are cerrectly installed.
6. Always connect test instrument ground lead to theappropriate ground before connection the test instrumentpositive lead. Always remove the test instrument ground lead last.
Insulation Checking ProcedureDisconnect the attachment plug from the AC outlet and turnthe power on. Connect an insulation resistance meter(500V)to the blades of the attachment plug. The insulation resis-tance between each blade of the attachment plug and acces-sible conductive parts (Note 1) should be more than 1M-ohm.Note 1 : Accessible Conductive Parts including Metal pan-els, Input terminals, Earphone jacks, etc.
Electrostatically Sensitive (ES) DevicesSome semiconductor (solid state) devices can be damagedeasily by static electricity. Such components commonly arecalled Electrostatically Sensitive (ES) Devices. Examples oftypical ES devices are integrated circuits and some fieldeffect transistors and semiconductor chip components.The following techniques should be used to help reduce theincidence of component damage caused by static electricity.
1. Immediately before handling any semiconductor compo-nent or semiconductor-equipped assembly, drain off anyelectrostatic charge on your body by touching a knownearth ground. Alternatively, obtain and wear a commer-cially available discharging wrist strap device, which should be removed for potential shock reasons prior to applying power to the unit under test.
2. After removing an electrical assembly equipped with ES devices, place the assembly on a conductive surface such as aluminum foil, to prevent electrostatic charge buildup or exposure of the assembly.
3. Use only a grouned-tip soldering iron to solder or unsolderES devices.
4. Use only an anti-static solder removal device. Somesolder removal devices not classified a “anti-static” cangenerate electrical charges sufficient to damage ES devices.
5. Do not use freon-propelled chemicals. These cangenerate electrical charge sufficient to damage ESdevices.
6. Do not remove a replacement ES device from its protective package until immediately before you are ready toinstall it. (Most replacement ES devices are packaged withleads electrically shorted together by conductive foam,aluminum foil, or comparable conductive material).
7. Immediately before removing the protective material fromthe leads of a replacement ES device, touch the protectivematerial to the chassis or circuit assembly into which thedevice will be installed.
Caution : Be sure no power is applied to the chassis orcircuit, and observe all other safety precautions.
8. Minimize bodily motions when handling unpackaged replacement ES devices. (Normally harmless motion such as the brushing together of your clothes fabric or the liftingof your foot from a carpeted floor can generate static elec-tricity sufficient to damage an ES device.)
1-5
SPECIFICATIONS
[DVD player]Power supply DC 9.5V (AC adapter terminal),DC 7.4V (Battery)
Power consumption 12 W with battery
Weight 12.6 ibs (0.66kg)(without battery pack)
External dimensions(W X D X H) 7.5 x 6.9 x 1.2 inches (191 x 175 x 31mm)
Signal system PAL
Laser Semiconductor laser, wavelength 650 nm (DVD),780nm(CD)
Frequency range (audio) DVD linear sound:48KHZ sampling 4 HZ to 20KHZ
96KHZ sampling 4 HZ to 44 KHZ
Signal-to-noise ratio(audio) More than 95dB
Dynamic range(audio) More than 95dB
Harmonic distortion(audio) 0.08%
Operatingconditions(audio) Temperature: 41°F to 95°F, Operation status: Horizontal
[Connectors]Video input/output(VIDEO IN/OUT) 1.0V(P-P),75R,negative sync x 3.5m x 1
Audio output (optical audio) Optical connector ( ø3.5mm) x 1
Audio input/output 2.0Vrms (1 KHZ,0 dB), ø3.5m x 1
(AUDIO IN/OUT, analog audio)
Earphone terminal ø3.5mm stereo mini jack x 1
[Liquid Crystal Display]Panel size 7 inches (16:9)
Projection system TN color transmission
Driving system TFT active matrix
2-12-1
SECTION 2
EXPLODED VIEWS
CONTENTS
EXPLODED VIEWS .....................................................................................................................2-21. CABINET AND MAIN FRAME SECTION ................................................................................2-22. ACCESSORY SECTION ...........................................................................................................2-3
2-22-2
EXPLODED VIEWS1. CABINET AND MAIN FRAME SECTION
LC
DIN
VE
RT
ER
A4
6
A5
2A
29
3
A4
2
28
1
28
5
28
3
28
2
27
7
27
7
27
2
A5
1A
49
AA4
0
26
5
26
7
27
5
26
0
29
6
29
5
27
8
A4
8
26
6
26
4A
44
A
A0
0
A4
5A
A4
6A
26
2
29
2
MA
IN
US
B
KE
YB
AT
TE
RY
28
4
27
5
A
5
4
3
2
1
B C D
2-3
834 833
806 900 808
2. ACCESSORY SECTION
3-1
SECTION 3
ELECTRICAL
CONTENTS
LCD PART ................................................................................................................3-2LCD TROUBLE SHOOTING GUIDE .....................................................................3-3LCD BLOCK DIAGRAM........................................................................................3-5LCD CIRCUIT DIAGRAMS ....................................................................................3-7LCD PRINTED CIRCUIT DIAGRAMS....................................................................3-9
MAIN PART ............................................................................................................3-11MAIN ELECTRICAL TROUBLE SHOOTING GUIDE...........................................3-11DETAILS AND WAVEFORMS ON SYSTEM TEST AND DEBUGGING..............3-15MAIN BLOCK DIAGRAMS...................................................................................3-23MAIN CIRCUIT DIAGRAMS .................................................................................3-25MAIN PRINTED CIRCUIT DIAGRAMS ................................................................3-47
1) Power measuring
Measure each power after power supply.C46(-):-10V, C45(+):+15V,C83:+7.5V,C85(+):+5V,C38(+):3.3V
2) VCOM waveform adjustment
Adjust the VCOM level while changing the VR1 as below waveform by using the scope in theC90.
3-2
Vcom Waveform
63.563.5µs
5.5.3Vp-p3Vp-p
0.7V
4.6V
GNDGND
LCD PART
3-3
DESPLAY CONDITION? INVERTOR ABNORMAL
Appear shadow form interference in black background
There is only bring light.(LCD B/D abnormal)
Check and replace U101(MP1411) U102(MP1411)
Check FB104
Check and replace Jack(J504)
Main B/D on located
Check and replace L19
Check U201 Pin 218 Output SYCheck U201 Pin 221 Output SC
IC(U1) Check and Replace
IC(U2) Check and Replace
U101(MP1411) OUTPUT 5VU102(MP1411) OUTPUT 3V3
FB104 OUTPUT 3V3
JACK(J504) PINS18, 19, 20 3V3
L19 3V3
Y SIGNAL OUTPUT?C SIGNAL OUTPUT?
R. G .B SIGNAL OUTPUT?
VCOM SIGNAL?(6.5VPP)
YES
YES
NO
NO
NO
NO
NO
NO
NO
YES
YES
YES
YES
LCD TROUBLE SHOOTING GUIDE
3-4
LCD MODE CONT SIGNAL?ALL “LOW”(MORMAL CONDITION)?
MAIN B/D Check
Power source and D2,D3,U5 CheckTFT LCD PRESSURE VOLTAGE?+15V,- 10V,+5V
TFT LCD NORMAL? Replace
COLOR ADJUSTING NORMAL? Readjust as adjustement standard
EACH CONNECTOR? Replace and Reassemble
END Replace
YES
YES
YES
YES
YES
NO
NO
NO
NO
NO
NO
LCD BLOCK DIAGRAM
+5V +15V -10V
LCD 7 INCH INNOLUX
TERAMINS T100A
RGB
VCOM
CKV
STH
STV
OEH
OEV
U/D
L/R
INVERTER BOARD
DC-DC CONV
+3V3 +2.5V +2.2V
SY SC
CVBS_IN
VIDEO IN
3-5 3-6
3-7 3-8
LCD CIRCUIT DIAGRAMS
82.6ma
126ma
AV
SC
CVBS
S_C
SY S_Y
STH2
U/D
SCL
STH1
IOB
CPH1
L/R
CKV
VCOMO
RSET
AVDD33
S_Y
STV2
OEH
SDA
AV
IOG
OEV
STV1
IOR
S_C
RESET_T
VCOM
5VD
-10V
VCOMO
VB
VR
IOB
7VD5
IOR
IOG
VG
5VD7VD5
+15V
VCC_3V3
-10VSPR+
GND
SPR+
GND
SPL-
RESET_T
SPR-
GND
SDA
SY
VCC_3V3
SPL+
SPL+
GND
GND
SPR-
SPL-
CVBS
SCL
SC
CPH1
CKV
L/R
STV1STV2
AVCC
U/D
OEH
DVCC
OEV
VB
STH1
VRVG
+15V
STH2
VCOM
DVCC
VCOM
-10V
VCC_3V3
VDD22
AVDD33
VDD33
VDD33
VDD22AVDD33 VDD33
VDD33
VDD22
VDD33
AVDD33
VDD22
+7.5V BIAS
+7.5VBIAS
+7.5VBIAS
+7.5VBIAS
5VD
R2910K
R22
100
R3139K
R1133
12
C20.1uF
D4
BAT54S
3
2
1
C27
0.1uF
R141M
12
+
C89 10uF/16V
C16680pF
C53
100pF
C510.1uF
R43
150k
Y127MHZ
R4510K
C640.1uF
RP3 82
3 62 71 84 5
L7
FB
D1
IN5819
12
C25
4.7uF/16V
R46 51K
C28
0.1uF
R16
1K
JP3
12
JP4
0.8-20PIN
1234567891011121314151617181920
R3510K
C710.1uF
L12 5.4uH
+ C26
105
+ C3847uF/6.3V
R3
10KL4
2.7uH
C8422uF/16V
R675
C66
0.1uF
R4710K
C147nF
C57
0.1uF
C630.1uF
R15
4.7K
12
+
C34
10uF/10V
C500.1uF
JP2
12R21
10KR25
1M
C210.1uF
+ C94
4.7uF/25V
R81K
R44.7K
C30.1uF
C930.1u
U5
3414
1234 5
678A OUT
A- INA+ INGND B+ IN
B- INB OUT
V+
D7
BAT54S
3
2
1
C780.1uF
+C8
10uF/10V
C55 1uF
C310.1uF
C59 1uF
R24
430
+ C3547uF/6.3V
C54 1uF
C92470p
R175
C11390pF
L1110uH
C400.1uF
C650.1uF
C331uF
R12 R
R4120K
+C6047uF/6.3V
C130.1uF
C701uF
+
C44
10uF/10V
+
C90
10uF/16V
C1547nF
C850.1u
C620.1uF
C360.1uF
C88
273
C69
0.1uF
+ C9
10uF/10V
R23
39K
C6330pF
D3
10V
C8622uF/16V
C41
0.1uF
C750.1uF
C2022P
L8
10uHL10
10uH
C67
0.1uFR33
1M
R42 10K
R71K
U1
TERAWINS T100
654
141312
222120
3
1911
2930
8182838485868788
90
9293
362831
34
3233
38394041424344454950525354
626568
7172
737499
100
97 98 2 8 10 16 18 24 25 37 48 51 55 58 79 9459 6164 67 7076
1 7 9 15 17 23 63 66 69 7526 47 56 80 46 57 78 96
95
2735 6077 8991
AC0/ACB0AC1/ACB1AC2/ACB2
CVBS0/AY0CVBS1/AY1CVBS2/AY2
CVBS3/ACR0CVBS4/ACR1CVBS5/ACR2
CBMID
CRMIDCGMID
IICA3/SDASCANB/SCL
VDT0VDT1VDT2VDT3VDT4VDT5VDT6VDT7
VCLK
XTALIXTALO
XCLK2MCRSTBCPUINT/SCANST
PWM
VB
IVA
LID
/Xbu
sRD
FIE
LD/X
busW
R
RLUD
STV1STV2GOE
GCLKLP/OEH
POL/VCOM/HSOSTH1/HSO
STH2/DECPH1/LLCK1CPH2/LLCK2CPH3/LLCK3
IOBIOGIOR
RSETCOMP
VREFINVREFOUTFIB1
VREF
NC
1N
C2
AG
ND
BA
GN
DB
AG
ND
GA
GN
DG
AG
ND
RA
GN
DR
GN
DG
ND
GN
DG
ND
GN
DG
ND
GN
DG
ND
AV
SS
D
DV
SS
AV
SS
33B
AV
SS
33G
AV
SS
33R
AV
SS
AV
DD
BA
VD
DB
AV
DD
GA
VD
DG
AV
DD
RA
VD
DR
AV
DD
33B
AV
DD
33G
AV
DD
33R
AV
DD
VD
D33
VD
D33
VD
D33
VD
33
VD
D25
VD
D25
VD
D25
DP
LLV
C25
DP
LLG
ND
VD
D25
VD
D33
DV
DD
AV
DD
33
VD
D25
VD
33
D2
17V
R28
100
RP1 82
4 53 62 71 8
C740.1uF
R18
430
+ C3247uF/6.3V
+
C72
10uF/10V
Q32N3904
1
32
R54.7K
C5680pF
D5
BAT54S
3
2
1
R4420K
C520.1uF
U4
AAT1102
1234 5
678EO
INSHDNGND SW
VDDFREQ
SS
R36100
+C7347uF/6.3V
U2CM1117SCM223 2.5V
3 2
1
OUT IN
GN
D
R30510
C58 1uF
C431uF
R13 R
C56
0.1uF
RP2 82
4 53 62 71 8
JP1
CON26
2625242322212019181716151413121110090807060504030201
AVSSAVDDVCVBVADVSSDVDDCPH1CPH2CPH3STHRSTHLOEHQ1HLRVCOMVCOMOEVU/DCKVSTVLSTVRVGHVGLVCCGND
C91
18p
R10 3312
R27
10K
R38 2K
C29
0.1uF
+C3922uF/16V
R4010K
C12560pF
Q22N3904
1
23
C79100pF
R2 20K
R37 8.2K
+C4747uF/6.3V
R26
150
C45
4.7uF/25V
D6
BAT54S
3
2
1
C480.1uF
+
C2222uF/16V
R39150R(10K)
U6MP1540
5 1
42
3
IN
SW
ENG
ND FB
U3 78L05
2
13
GN
D
VOUTVIN
L2
2.7uH
+ C3047uF/6.3V
Q12N3904
1
32
R32430
C820.1uF
R19
1M
R34150
+ C747uF/10V
VR1
10K1 3
2
L6 FB100
C68
0.1uF
C140.1uF
C17330pF
C87
10uF
/16V
D8
5819
1 2
C8147uF/10V
C770.1uF
C230.1uF
R975
R17
39K
+
C4100uF/6.3V
C370.1uF
R20
150
L1 FB
C760.1uF
C8322uF/16V
C610.1uF
L3
2.7uH
L9 10uH
C800.1uF
C42100pF
C19
22PF
C24
4.7uF/16V
C46
4.7uF/25V
L5 2.7uH
C490.1uF
C1822PF
C1047nF
A
1
2
3
4
5
6
7
8
9
10
11
12
B C D E F G H I J K L M N O P Q R S T
3-9 3-10
LCD PRINTED CIRCUIT DIAGRAMS1. MAIN P.C. BOARD( TOP VIEW )
( BOTTOM VIEW )
3-11
MAIN ELECTRICAL TROUBLE SHOOTING GUIDE
A. POWER (DC-DC CONVERTER) CIRCUIT
NO POWER ONby ADAPTOR
Replace ADAPTORIs ADAPTOR OUT9.5V.OR 12V
A
Is1D3 OK.
NO
NOReplace 1D3
NO
NO
YES
YES
YES
NO POWER ON byBATTERY
Replace BATTERYIs BATTERY OK?
A
NO
YES
YES
A
YES
NO +5VNO +1.8V
Is IC(1U2)3.3v OK?
ReplaceIC(1U2).
ReplaceIC(U101)
Is IC(U105)pin2 1.8V OK?
ReplaceIC(U105).
NO +3.3V NO LCD 3V3NO AUDIO
5V
ReplaceIC(U103)
MAIN PART
B. AUDIO OUT ABNORMAL
AUDIO OUTABNORMAL
Check Audio Jack &Mode
Check Signals fromMPEG
Check AUDIO 5V
YES
YES
YES
YES
Replace IC(U401)
D. VIDEO OUT ABNORMAL
VIDEO OUTABNORMAL
Check Video Jack & Mode
Check IC(U501)
Check Video signalsfrom MPEG
YES
YES
YES
E. VIDEO IN ABNORMAL
VIDEO IN ABNORMAL
Check Video Jack &Mode
Refer to LCD part
Check Jack J505
YES
YES
YES
C. AUDIO IN/SPEAKER ABNORMAL
AUDIO IN/SPEAK-ER ABNORMAL
Check Audio Jack & Mode S/W
Is Speakers OK ?
Is CON404 OK ?ReplaceCON404
ReplaceSpeakers
Replace IC(U406)
3-12
3-13
F. PICTURE ABNORMAL G. DISC ERROR
PICTURE ABNORMAL
Check the disc.
Check MPEG(IC U201)
Check MPEG_CLKSignal of MPEG part
YES
YES
Replace B/D
YES(If OK)
(If OK)
YES(If OK)
YES(If OK)
DISC ERROR
Check Disc
Replace B/D
YES
YES
3-14
H. MPEG Circuit
Power ON
Logo ON?
Check Reset Circuit
Check Flash and SDRAMBlock
Check Power&Clk Circuit
Check SPHE8281 VideoOutput and Video FilterCircuit
Pls Refer RF/Servo DebugPart to Check Servo Block
Check 8281 Audio OuputWaveform (Pin196, 201,202, 203)
Check Audio DAC CS4391Waveform (Pin13,14,18,19)
Check Audio Filer and OPCircuit
Disc in and close tray
Disc Logo Begin Rotate ?
Can Read The Disc andplay OK?
Audio Ouput OK?
END
NO
OK
NO
OK
NO
NO
OK
OK
OK
YES
Check Cover Limit Switch
OK
OK
OK
OK
YES
YES
YES
YES
3-15
DETAILS AND WAVEFORMS ON SYSTEM TEST AND DEBUGGING
1 SYSTEM 27MHz CLOCK IS AT 27MHz (8202D)1.1 SPHE8202D MIAN CLK at 27MHz
FIG1.1 Vp-p:2.36V F:27MHZ (8202D pin 77)
1.2 SDCLK at 121MHz
FIG1.2 Vp-p: 2. 55V F:121MHz (8202D pin 113)
3-16
2. DISC TYPE JUDGMENT WAVEFORM2.1 CD TYPE JUDGMENT WAVEFORM
FIG2.1 CD TYPE
2.2 D5 TYPE JUDGMENT WAVEFORM
FIG2.2 D5 TYPE
3-17
2.3 D9 TYPE JUDGMENT WAVEFORM
FIG 2.3 D9 TYPE
3. FOCUS ON WAVEFORM3.1 FOCUS ON WAVEFORM
FIG 3.1
3-18
4. SPINDLE CONTROL WAVEFORM(NO DISC CONDITION)
FIG 4.1
5. TRACKING CONTROL REALTED SINGNAL
FIG 5.1
3-19
FIG 5.2
6. RF WAVEFORM
FIG 6.1 RFOP
3-20
7. AUDIO OPTICAL AND COAXIAL OUTPUT (ASPDIF)
FIG 7.1 ASPDIF
8.VIDEO OUTPUT WAVEFORM8.1 FULL COLOR SIGNAL CVBS
FIG 8.1 CVBS
3-21
8.2 Y
FIG 8.2 Y
8.3 C
FIG 8. 3 C
3-22
9. AUDIO OUTPUT FROM AUDIO DAC9.1 AUDIO L/R
FIG 9.1 AUDIO L/R
9.2 AUDIO RELATED SIGNAL
FIG 9.2
3-23
MAIN BLOCK DIAGRAMS1. OVERALL BLOCK DIAGRAM
DECK MECHANISM
FOC+,FOC-,RAD+,RAD-
H+/-,H1+/-,H2+/-,H3+/-,SA1,SA2,SA3
DVDLDOCDLDO, ,
MDI1,SUBA,SUBB
A,B,CD,E,F,
RA
[00:
20]
RE
E
RO
E R
_CS
1 R
ESET
_B
RD
[0:7
]M
A[0
0:11
]B
A[0
:1]
DC
LK
D
CK
E
DQ
M[0
:1]
CS
# R
AS#
C
AS#
W
E#
DQ
[00:
15]
I2C
_CLK
I2C
_DA
TA
AU
_XC
KA
U_B
CK
A
U_L
RC
K
AU
_D0
VR
ST#
FR
ON
TA_S
P_A
MP
_EN
MP
EG
/SP_
MU
TE
SP_
L+/
-,SP
_R+/
-
HP
JA
CK
OP
TI-
A_O
UT
SLED+,SLED-
DM
EA
,FG
IN
27M
Hz
SY
CV
BS
SC
/A_M
UT
E
PO
WE
R
+15V
,-14
.5V,
+7.5
V
PO
WE
R
BLO
CK
P
OW
ER
J
ACK
DC
PWR
DC
+9.
5V
BA
T7.
6V
BA
T_S
EN
SE
DC
_SE
NS
E
}BA
TT
ER
Y/
FR
ON
T
E+
5VV
CC
DV
D_C
TRL
Sta
ndby
CV
BS
JA
CK
BA
TE
RY
BL
OC
K
PW
M
PO
WE
R
D
C+
9.5V
SA
M_I
,SA
M_U
BA
T7.
6VS
P_A
MP_
EN
BF1
_FM
_CS
VID
EO
_IO
_CO
N
AU
DIO
_CD
_CO
N
VF
D_T
XD
V
FD
_SC
K
}MP
EG
A_V
IDE
O_I
O_C
ON
A_A
UD
IO_C
K_C
ON
A_S
P_A
MP
_EN }A
UD
IO
AVFD
_TX
KAV
FD_S
CK
A
VF
D_C
S
5MH
z
BA
T_S
EN
CE
,DC
_SEN
CE
DC
+9.5
V
FR
ON
T
BLO
CK
STA
ND
BY
A-5
V
Aud
io-5
V
+15
V
-14.
5V
+7.
5VV
CC
3.3
V
A+3
.3V
D
VB
_CT
RL
+1.
8V
VC
C_5
V, U
SB_
DM
,US
B_D
P,G
ND
FC
O,T
CO
,SC
O,
ST
BY
,V1P
4
DIS
CR
ON
T{
SPIN
DL
E
MO
TO
R
STE
PPI
NG
M
OT
OR
M
PIC
K
UP
M
U30
2B
A68
49
U20
3 26
V16
0TE
-70
U20
2IS
42S
1640
00-7
TU
204
S24
C02
1CS
U40
1C
S43
91
U40
2N
JM45
80M
U
403
NJU
4052
BV
U40
4 N
JM45
80M
U40
6T
PA
6011
U30
1 B
A58
88
U20
1
SP
HE
8281
A-2
56
MP
EG
/DS
P/R
F/D
VB
U
2
TE
RA
WIN
S T
100A
LCD
BLO
CK
U90
1SI
4435
DY
U10
1 M
P14
11
U10
2 M
P14
11
Q11
1
U90
3
GT
631
2(C
LV2.
9)U90
2SI
4435
S-
8232
ALF
T
U60
374
VH
CT
541
U 6
01
MC
80F
024
LED
RC
601
TSO
P623
8
KE
Y_M
Q60
22N
3904
U10
3 M
P14
11
U10
4T
PS6
0400
U5
MP
S151
1
U10
5C
M11
17-A
DJ
US
B B
oard
3-24
2.POWER(DC-DC CONVERTER)BLOCK DIAGRAM
M+
5V
A+
5V
E+
5V
A-5
V
DV
CC
3
AP
LLV
CC
3
WC
C3
SD
_VC
C3
RF
3.3V
US
B_P
LL3.
3
From AC Adapter 9.5v/12v
U10
1
MP
1411
+15
V
-10V
+7.
5VU
105
CM
1117
SC
M22
3
AD
J
U10
2
MP
1411
U10
3
MP
1411
DV
D 1
V8
U4
AT
1780
PLL
3.3V
A3.
3
AP
C3.
3V
VC
C_5
V
AU
DIO
_5V
VC
C_3
V3
LCD
_3V
3
VC
C
3-25 3-26
MAIN CIRCUIT DIAGRAMS1. MAIN POWER CIRCUIT DIAGRAM
C
2N3904
SOT23
1
2
EB 31
2C
B E
2N3906
3
1C3 1C10
INDEX&POWERSunday, July 16, 2006
VCC_5V
E+5V
STANDBY
AUDIO_5V
9V_IN
BAT_OUT
LCD_5V
AUDIO_5V
LCD_3V3
DC_SENSE
BAT_SENSE
A-5V
VCC_3V3
BAT_OUT
VCC_3V3
BAT_OUT
STANDBY
VCC_5
9V_IN
A-5V
GND
LCD_3V3
BAT_SENSE
VCC_5V E+5V
DC_SENSE
VCC_5V
VCC_3V3
BAT_OUT
BAT_OUT
STANDBY
P+AAUDIO_5V
P+A
BAT_SENSE 9
VCC_5V 2
E+5V 6,8,9,12
STANDBY 2,9
AUDIO_5V 2,6,7,8,9,10
9V_IN 9,12
BAT_OUT 8,12
LCD_3V3 8
DC_SENSE 9
A-5V 6
LCD_5V 8
GND 2,3,4,5,6,7,8,9,10,12
VCC_3V3 2,3,4,8,9
VCC_5 2
P+A 9,12
L102 22uH
C112 392
R121 39K
D102 1N5822
C127
0.1uF
TP115D104 1N58221 2
TP118
CE10710uF/25V
C128 OPEN
D103 ss24
R10924K
C114
0.22uF(224)
TP104
R104
10K/1%
TP102
TP100
TP110
L101 22uH
C1150.1uF
CE102100uF/10V
C109103
C1110.22uF(224)
C1100.22uF(224)
L104 22uH
C124103
R11039K/1%
CE108100uF/10V
C129 392
TP106
R107
10K/1%
C116
0.1uF
R101 39K/1%
R1085.6K
FB104 10uH
R116 10K
C113 OPEN
C103103
CE11010uF/25V
C123
0.22uF(224)
TP111
TP113
C117
0.1uF
C105 0.1uF
TP122
CE121100uF/10V
R1052K
TP112
C107 0.1uF
R119 5.6K
TP107
D100 1N5822
TP108
R102120K/1%
CE111100uF/25V
R115
10K/1%
C118392
FB105 10uH
CE109100uF/10V
TP116
CE101100uF/10V
C1250.22uF(224)
J101
POWERJACK
132
C126
0.1uF
R114 100K
R118 10K
R113 10K
L105 10uH
C106 OPEN
TP105
CE103100uF/10V
TP101
R11147K/1%
C122
0.22uF(224)
CE106
10uF/16V
R103 0
C108 0.1uF
CE10510uF/16V
TP109
CE10410uF/25V
C120
0.1uF
TP114
C121 1uF
U102
MP1411
1234
6789
5
10NCBSNCIN
GNDFB
COMPEN
SW
SS
C104 0.22uF(224)
R150 0
U103
MP1411
1234
6789
5
10NCBSNCIN
GNDFB
COMPEN
SW
SS
CE112220uF/25V
U101
MP1411
1234
6789
5
10NCBSNCIN
GNDFB
COMPEN
SW
SS
R106
39K
U104
TPS60400
1
5
2
3
4
OUT
Cfly
+
IN
Cfly
-
GN
D
A
1
2
3
4
5
6
7
8
9
10
11
12
B C D E F G H I J K L M N O P Q R S T
3-27 3-28
2. POWER CIRCUIT DIAGRAM
5V Power for Video Buffer & Motor Driver & OPU
POWERSunday, July 16, 2006
APC3.3V
MGND
VCC_3V3
DVD_CTRL
A3.3
DVD_CTRL
A+5V
VCC_5V
STANDBY
VCC_3V3
+1.8V
SD_VCC3
VVCC3
DVCC3
PLL3.3V
RF3.3V
APLLVCC3
USB_PLL3.3
APC3.3V
GND
+1.8V
VCC3
VPLLVCC1.8
VCC_5
A+5V
TGND
VCC_3V3
A3.3
VCC
AUDIO_5V
M+5V
A3.3 6,8
DVD_CTRL 3
STANDBY 1,9
A+5V 5
VCC_5V 1
VCC_3V3 1,3,4,8,9
VVCC3 3
APLLVCC3 3
SD_VCC3 4
RF3.3V 3
DVCC3 3
PLL3.3V 3
APC3.3V 3,5
USB_PLL3.3 3
GND 1,3,4,5,6,7,8,9,10,12
VCC1.8 3
VCC3 1,3,4,8,9
VPLLVCC1.8 3
VCC_5 1
TGND 11
VCC 8
AUDIO_5V 1,6,7,8,9,10
M+5V 1
VGNDGNDRFGND MGND AUD_GNDGNDGND
RF3.3V PLL3.3V
RFGNDRFGND
RFGND RFGND
M+5VVCC
MGNDA+5V
USB_PLL3.3
GND
TGNDGND
SD_VCC3
VVCC3
VGND
APLLVCC3
GND
DVCC3
GND
RFGND
VGND AUD_GND
VCC_5V VCC
VPLLVCC1.8
GND
C15847uF/10V
Q111
2F2301P
1
3 2
L10650
R139 2.2 (0805)
C1830.1uF
C165
0.1uF
+ C166
47uF/10V
U105CM1117SCM223 1.8VSOT223
23
1
4
OUTIN
GN
D
TAB
L10950
R140 0 (0805)
+ C160
47uF/10V
FB108100
C157
0.1uF
Q106
2N3904
1
32
+ C162
47uF/10V
CE1190.1uF
C161
0.1uF
C1560.1uF
C163
0.1uF
L116
50
+ CE118
100uF/6.3V
R146
620
L107
50
TP140
L12150
L110
50
C182
0.1uF
L111
10UH
+C153
47uF/10V
C167
0.1uF
R147 330
+ C180
100uF/6.3V
+ C142
47uF/10V
R1285.1K
C141
0.1uF
L120
50
CE114
100uF/10V
R124
10K
C181
0.1uF
C172
0.1uF
R148 10
L114
50
L113
50
C152
0.1uF
C151
47uF/10V
C149
0.1uF
C140
1uF
+ C173
47uF/10V
R130
5.1K
+ C171
47uF/10V
C159
0.1uF
C170
0.1uF
A
1
2
3
4
5
6
7
8
9
10
11
12
B C D E F G H I J K L M N O P Q R S T
3-29 3-30
3. SPHE8202D DSP CIRCUIT DIAGRAM
AUDIO INTERFACE
IIC
VIDEO INTERFACE
H/W CONFI G
close t o8202 D
The Cover Limit Switch
Debug Po r t
RESET
SPHE8202D DSPSunday, July 16, 2006
TV_DAC0
TV_DAC3
SPDIF_OUT
AU_XCK
AU_D0
I2C_DATAI2C_CLK
AU_BCKAU_LRCK
TV_DAC5
PUHRF
V_REF
V_FSADJ
V_COMP
M_CS0M_CASM_RAS
M_CS0M_BA0
DQM0DQM1
V_BIAS
MWE
M_C
AS
R_C
S1
AU
_D0
V_H
_SY
NC
SDRAM_CLK
MA0
RA
17
MD
12
V_F
SA
DJ
MA10
RD4
MD
2
MD
3
AU
_XC
K
MA5
RA
16
V_C
OM
P
V_R
EF
TV
_DA
C0
LGIN
RD3
MD
10
MD
1
MD
5
AU
_LR
CK
B
RA
11
US
B_D
MU
SB
_DP
AU
_BC
K
TV
_DA
C3
MA6
VREF1
RFO
RA
15
M_C
S0
V_V
_SY
NC
MD9
A
FD
RD2
MD
14
MD
4
V_B
IAS
TV
_DA
C5
MA11
MA7
RA
14
MD
11S
PD
IF_O
UT
MA2
APC3.3V
RD0
MD
15
MD
7
MD8R
A0
MA8
C
RWE
CLKOUT
RA
13
RD7
RD1
M_B
A0
MD
6
MA4
VREF0
RA
12
RD6
RA
19
CLK
IN
ROE
MD
13
M_R
AS
MW
E
CLK
OU
T
/M_R
ES
ET
RFI
PD
RA
18
DQM1DQM0
MA1
D
VREF2
RD5
MD
0
PIN
84
RA1RA2RA3RA4
RA5RA6RA7RA8
RA9RA10
M_BA1
M_CKEMA9
MA[0..11]MD[0..15]
ROERWER_CS1
RD[0..7]RA[0..20]
M_BA1M_CKE
VCC3PIN83
PIN84 VCC3
DPDDDPDC
DPDBDPDA
EF
CDMDI
DPDADPDBDPDCDPDD
FE
COVER_SW
R_SUNIF_GNTR_SUNIF_FRAMER_SUNIF_CLK
R_SUNIF_D1R_SUNIF_D2R_SUNIF_D3
R_SUNIF_D0
6600_27MHZ_O
PIN82 VCC3
R_SUNIF_GNT
R_SUNIF_CLKR_SUNIF_D0R_SUNIF_D1
R_SUNIF_D2R_SUNIF_D3
R_SUNIF_FRAME
I2C_CLKI2C_DATA
R_SUNIF_CLK
656_D7 RA20
CLKIN
V_V_SYNCV_H_SYNC
656_
D7
PIN
83P
IN82
LCD_ON/OFF
RFIP
COVER_SWGND VGNDRFGND
VCC1.8DVCC3RF3.3V
DVB_CTRLDVD_CTRL
PLL3.3VAPC3.3VUSB_PLL3.3
APLLVCC3
GND
VPLLVCC1.8VCC3
/M_RESET
VFD_SCK
VFD_TXD
VFD_RXD
/A_JACK_IN
/V_JACK_IN
HP_SENSE
LCD_ON/OFF
LCD_SIZE
/A_MUTE
PWRCTL_LCD
AUDIO_CD_CON
/A_M
UT
E
DVD_CTRL
VRST
DVB_CTRL
DV
B_C
TR
L
M_REQ
VFD_TXDVFD_RXD
/A_JACK_IN/V_JACK_INHP_SENSE
MA3
DV
D_C
TR
L
VID
EO
_IO
_CO
N
IR_I
N
LCD_open
VFD_SCK
SP_AMP_EN
PWRCTL_LCD
LCD_SIZE VCC_3V3
VCC_3V3
VR
ST
AUDIO_CD_CON
M_REQ
VVCC3VCC_3V3VCC_3V3
IR_IN
6600_27MHZ_O
LCD_open
RESET_B
/SP_MUTE
TV_DAC3 8
TV_DAC0 8
I2C_CLK 4,6I2C_DATA 4,6
AU_BCK 6AU_LRCK 6
AU_XCK 6
AU_D0 6
SPDIF_OUT 6
TV_DAC5 8
TCO5
FCO5
SDRAM_CLK 4
USB_DM 8USB_DP 8
RESET_B4,9,10
SPDCO5
SCO5
M_CS0 4M_CAS 4M_RAS 4
M_CS0 4M_BA0 4
DQM0 4DQM1 4
MA[0..11] 4MD[0..15] 4
MWE 4
DVDLDO5CDLDO5MDI5
DMEA5
LDSW5
VREF25
VREF15
PUHRF5
FGIN5
ROE 4RWE 4R_CS1 4
RD[0..7] 4RA[0..20] 4
M_BA1 4M_CKE 4
DPDB5DPDC5DPDD5
DPDA5
E5F5
R_SUNIF_CLK 10R_SUNIF_FRAME 10R_SUNIF_GNT 10R_SUNIF_D0 10R_SUNIF_D1 10R_SUNIF_D2 10R_SUNIF_D3 10
6600_27MHZ_O10
DVCC3 2
VVCC3 2
VCC1.8 2
RF3.3V 2
USB_PLL3.3 2APC3.3V 2,5PLL3.3V 2APLLVCC3 2
GND 1,2,4,5,6,7,8,9,10,12
VPLLVCC1.8 2VCC3 1,2,4,8,9
/M_RESET 4,9,10
M_REQ 9
VFD_SCK 9
VFD_TXD 9
VFD_RXD 9
/V_JACK_IN 8
/A_JACK_IN 6
HP_SENSE 7
PWRCTL_LCD8
LCD_ON/OFF9
/A_MUTE 6
VIDEO_IO_CON8,9
SP_AMP_EN9
LCD_SIZE 9
/SP_MUTE 7
AUDIO_CD_CON9
DVD_CTRL 2
VRST 6
DVB_CTRL 2
LCD_open 8
VCC_3V3 1,2,4,8,9VCC_3V3 1,2,4,8,9
IR_IN 9
VCC1.8
RF3.3V
GND
GND
GND
RF3.3V
GND
GND
PLL
3.3V
GN
D
GN
D
VV
CC
3G
ND
DV
CC
3
VV
CC
3
VV
CC
3
DV
CC
3
VCC1.8
VCC1.8
DVCC3
VPLLVCC1.8
VC
C1.
8
US
B_P
LL3.
3
AP
LLV
CC
3
VC
C1.
8
VC
C1.
8
DVCC3
VCC1.8
RF3.3V
PLL
3.3V
RF
3.3V
RF
GN
D
DVCC3
GND
RF3.3V
RF
3.3V
GND
GND
GND
GND
RFGND
RFGND
RFGND
GND
DVCC3
GND
GN
D
GND
GND
GN
D
GND
GN
D
GN
D
GN
D
GN
D
GN
D
GND
GND
GND
GND
GND
GND
VVCC3
VVCC3
GND
GND
GND
GNDDVCC3
DV
CC
3
VCC3
GND
RF3.3V
RF
3.3V
VCC3
GND
GND
VCC3
VGND
VCC3
VCC_3V3
VCC3
VVCC3
GND
VCC_3V3
VCC_3V3
RFGNDGND GND VGND RFGNDGND
VCC3
GND
+C246
47uF/10V
R211 5.1K
C238820pF
R23
710
KR
226
33
L201
50
C2200.1uF
C2070.068uF
C2121uF
R213 15K
C228 10pF
C253
0.1uF
R203 open
R210 2.2K
C230 0.22uF
TP245
U201
SPCA8202D-256pin
4
1413
15
1716
18
2019
35
25
272829
24
32
212223
26
61
34
38
57
5556
5960
36
3940
1
43
31
33
1112
6
32
5
4142
44
58
37
30
789
10
626364
173172171170169168167166165164163162161160159158157156155154153152151150149148147146145144143142141140139138137136135134133132131130129
256
255
254
253
252
251
250
249
248
247
246
245
244
243
242
241
240
239
238
237
236
235
222
221
220
219
218
217
216
215
214
213
212
211
210
209
208
207
206
205
204
203
202
201
200
199
198
197
196
195
194
193
65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 97 98 99 100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
85 86
190189188187
174175176
45464748495051525354
87 88 89 90 91 92 93 94 95 96
177178179180181182183184185186
191192
223
224
225
226
227
228
229
230
231
232
233
234
DPDA
CDFCDA
CDE
APC_AVSSRF_AVSS
DVDLDO
DVDMDICDLDO
TEOLP
R33K
SVOTSTRFRPPHRFRPBH
V21
SBAD
CDMDIAPC_AVDDSRV_AVDD
V165
DMEA/GPIO
TEO
OPVOP
SPDC_OUT/GPIO
R_WE_BR_OE_B
SC1_OUT/GPIOTRAY_OUT/GPIO
OPVIP
SRV_AD_AVSSVRGD
RFIP
DA_FEO
SBADPH
FEO
DVDACDB
DPDC
RFSUMRFIS
DPDB
AD_DA_VDDDA_TEO
DA_VSS
SC_OUT/GPIO
OPVIN
RFRPMEAN
DPDDDVDDDVDCDVDB
FGIN/GPIOHOMESW/GPIOLDSW/GPIO
M_CS1_B/GPIOGPIO/M_D16/SUNIF_D3GPIO/M_D17/SUNIF_D2
VSS_O5/VSS_K5GPIO/M_D18/SUNIF_D1GPIO/M_D19/SUNIF_D0
GPIO/M_D20/SUNIF_CLKGPIO/M_D21/SUNIF_FRAME
GPIO/M_D22/SUNIF_GNTGPIO/M_D23
VDD_K4M_DQM2/GPIO/INT
M_DQM3/GPIOGPIO/M_D24GPIO/M_D25GPIO/M_D26GPIO/M_D27
VDD_O4GPIO/M_D28GPIO/M_D29GPIO/M_D30GPIO/M_D31
M_A3M_A2M_A1
VSS_O4/VSS_K4M_A0
M_A10M_BA1/GPIO
M_DQM0/GPIOM_DQM1/GPIO
M_A4VDD_K3
M_A5M_A6M_A7M_A8M_A9
M_CKE/GPIOVSS_O3/VSS_K3
M_CLKOVDD_O3
M_A11/GPIOM_D8M_D9
AG
CO
PA
GC
ON
FLT
INF
LTIP
RF
OR
FR
PA
GC
CA
PG
MR
ES
RF
_AV
DD
DS
_AV
DD
SLV
LC
NIN
RF
IP
LL_D
S_A
VS
SLG
INLP
FN
INF
DF
LTP
DF
LTV
RE
FO
LPF
NLP
FO
PLL
_AV
DD
VS
S_T
VA
2T
V_D
AC
5V
DD
_TV
A2
TV
_DA
C4
TV
_DA
C3
VS
S_T
VA
1V
DD
_TV
A1
TV
_DA
C2
TV
_DA
C1
VS
S_T
VA
0V
DD
_TV
A0
TV
_DA
C0
V_R
EF
OU
TV
_FS
AD
JV
_BIA
SV
_CO
MP
UA
0_T
X/G
PIO
UA
0_R
X/G
PIO
A_X
CK
/GP
IOA
_BC
K/G
PIO
VS
S_K
6/V
SS
_O6
A_L
RC
K/G
PIO
AU
D3/
GP
IOA
UD
2/G
PIO
AU
D1/
GP
IOV
DD
_O5
AU
D0/
GP
IOIE
CT
X/G
PIO
IEC
RX
/GP
IOA
UD
4/G
PIO
DF
CT
/GP
IOV
DD
_K1
GP
IO/T
RA
Y_I
S_I
NG
PIO
/TR
AY
_IS
_OU
TG
PIO
/ttio
0_4
VS
S_O
1/V
SS
_K1
GP
IO/tt
io1_
5G
PIO
/ttio
2_6
GP
IO/tt
io3_
7V
DD
_O1
GP
IOR
_CS
4_B
/GP
IOR
_CS
3_B
/GP
IOR
_CS
2_B
/GP
IOR
_CS
1_B
/GP
IOR
ST
_BIR
_IN
/GP
IOV
FD
_CLK
/GP
IOV
FD
_ST
B/G
PIO
VF
D_D
AT
A/G
PIO
CLK
INC
LKO
UT
US
B_G
ND
US
B_V
DD
US
B_D
PU
SB
_DM
VS
S_P
LLA
VD
D_P
LLA
VS
S_P
LLV
VD
D_P
LLV
M_D
7M
_D6
M_D
5M
_D4
M_D
3V
DD
_O2
M_D
2M
_D1
M_D
0M
_WE
_BM
_CA
S_B
M_R
AS
_BV
SS
_O2
M_C
S0_
B/G
PIO
M_B
A0
M_D
15M
_D14
M_D
13V
DD
_K2
M_D
12M
_D11
M_D
10
R_A
0R
_A19
GPIOGPIOGPIOGPIO
M_A12/GPIOR_A10
R_A9
E_VDD_O0R_D7R_D6R_D5R_D4R_D3R_D2R_D1E_VSSR_D0
R_A
18R
_A17
R_A
16E
_VD
D_K
0R
_A15
R_A
14R
_A13
R_A
12R
_A11
E_V
DD
_O1
E_VDD_O2R_A8R_A7R_A6R_A5
E_VDD_K1R_A4R_A3R_A2R_A1
VDD_ADAVSS_ADA
NC
E_V
SS
R_A
20/6
56_D
7E
_MX
31/6
56_D
6E
_MX
32/6
56_D
5E
_MX
33/6
56_D
4E
_MX
34/6
56_D
3E
_MX
35/6
56_D
2E
_MX
36/6
56_C
LKE
_MX
37/6
56_D
1E
_MX
38/6
56_D
0E
_VD
D_O
3
TP5A8
C210 NC
R23
833
R230 5.1K
D211
OPEN
R218 10K
TP201
R205 0
C2330.047uF
Q211OPEN
1
32
C250
0.1uF
R23
510
K
C241 0.1uF
R224
4.7K
R234 10K
C211
0.1uF
RN20233(8P4R)
4321 8
765
C2391000pF
R227
OPEN
C208 47pF
C236330pF
C224 0.1uF
C205
0.1uF
R214 4.7K
R232 20K
R208 110K
RN203
33(8P4R)
4321 8
765
R207 NC
R209 20K
C249 0.01uF
R247
OPEN
R201 1.5K
R243 open
R206 33K(1%)
C254820pF
R225 NC
R216 0
R233 0
C217 0.1uF
C242 0.1uF
R231 360
R22
8
10K
TP202
R2044.7K
C203
0.1uF
R212 10K
C2181uF
R219
4.7K
J201
HEADER 4X1
4321
C2320.01uF
C223 NC
C221680pF
SW201
3 4
2 1
C209 47pF
RN201
4.7k(8P4R)
4321 8
765
C243
33pF
R217 10K
C251
0.1uF
R202 open
C252
0.1uF
C234300pF
R239 33
C206 680pF
C201
0.1uF
C226680pF
+C265
OPEN
C227680pF
R222 10K
C244
0.1uF
R246 OPEN
C202
0.1uF
C2140.01uF
R229
1.2K
(1%
)
R23
633
C2161uF
SW202
3 4
2 1
C21
30.
1uF
C204
0.1uF
C2290.1uF
+ C247
47uF/10V
C2151uF
R245
OPEN
R244 33
R221 NC
C222 0.1uF
Y201
27MHz
C235
100pF
C219100pF
R2154.7K
C245
33pF
C225680pF
R2234.7K
TP244
C266
OPEN
C240
0.1uF
C2310.01uF
C2370.1uF
A
1
2
3
4
5
6
7
8
9
10
11
12
B C D E F G H I J K L M N O P Q R S T
3-31 3-32
4. SDRAM & FLASH & EEPROM CIRCUIT DIAGRAM
54-Pin TSOPII(400mil x 875mil)EliteMT M12L 64164A
I2C ADDR = 0XA0
SDRAM & FLASH & EEPROMSunday, July 16, 2006
VCC3
RD1
RD7
ROE
RD2
RD0
FLASH_POWER
RD3
RWE
RD6
RA0
RD4RD5
R_CS1
RA17
RA19
RA9
RA13RA14
RA4
RA16
RA2RA1
RA5
RA11
RA15
RA6
RA12
RA3
RA10
RA8RA7
RA18
MD0
MD12MD13
MD9
MD5MD6
MD1
MD4
MD11
MD2
MD15MD14
MD10
MD3
MD7MD8
RA20
VCC3SD_VCC3GND
D13
D11
MA1
D4
DQM1
MA0
D6
M_CKE
MWE
MA2
M_CAS
MA3
D10
D8
D2
M_BA1M_BA0
D9
D7
D0
MA4
D15
MA5
MA7
M_CS0
MA8
D12DQM0
MA6
M_RAS
MA10
D1
D14
MA11
D5
D3
MA9
RAM_CLK
RESET_B3,9,10
I2C_CLK 3,6I2C_DATA 3,6
R_CS13
SDRAM_CLK3
MA[0..11]3
RA[0..20]3
RD[0..7]3
ROE3
RWE3
MD[0..15]3
GND 1,2,3,5,6,7,8,9,10,12
VCC3 1,2,3,8,9SD_VCC3 2
M_CS03
M_BA13
M_CKE3
DQM03
M_CAS3
DQM13
M_RAS3
M_BA03
MWE3
FLASH_POWER
GND
GNDGND
GND
GND
GND
SD_VCC3VCC3
GND
VCC3
GND
FLASH_POWER
GND
GND
SD_VCC3
RN205
33(8P4R)
4321 8
765
L202
50
C255
10pF
U203
MX29LV800/MX29LV160TSOP-48
29253124332335223821402042194418308327346365394413432451
4817
2628
12
47
16
37
2746
11
15
9 101314
DQ0A0DQ1A1DQ2A2DQ3A3DQ4A4DQ5A5DQ6A6DQ7A7DQ8A8DQ9A9
DQ10A10DQ11A11DQ12A12DQ13A13DQ14A14
DQ15/A-1A15A16A17
CEOE
RST
BYTE
A18
VCC
GNDGND
WE
RY/BY
A19 NCNCNC
C263
0.1uF
RN206
33(8P4R)
4321 8
765
R240
10K
R242
10K
RN207
33(8P4R)
4321 8
765
C2610.1uF
U202
SDRAM 1Mx16x4-7
23242526293031323334
1718
15
16
19
3738
39
24578101113424445474850515336
201
27
2841
22
40
394349
6124652
35
2154
14
A0A1A2A3A4A5A6A7A8A9
CASRAS
LDQM
WE
CS
CKECLK
UDQM
D0D1D2D3D4D5D6D7D8D9
D10D11D12D13D14D15NC
BA0VDD
VDD
VSSVSS
A10/AP
NC/RFU
VDDqVDDqVDDqVDDq
VSSqVSSqVSSqVSSq
A11
BA1VSS
VDD
C256
0.1uF
C2620.1uF
C2590.1uF
C257
0.1uF C2600.1uF
U204
24C02
1234 5
678A0
A1A2GND SDA
SCLWP
VCC
+ C258
10uF/16V
R289 10K
RN204
33(8P4R)
4321 8
765
R241 33
A
1
2
3
4
5
6
7
8
9
10
11
12
B C D E F G H I J K L M N O P Q R S T
3-33 3-34
5. RF & MOTOR DRIVER CIRCUIT DIAGRAM
C
C
2SB1132
321 EB
TopRay
SPINDLE
RF & MOTOR DRIVERSunday, July 16, 2006
DVDLDO
CDLDO
DVDLD
CDLD
FOC-
DVDVRMDI
RAD-FOC+
RAD+
CDVR
VREF1
CDLD
DVDLD
LDSW
DPDADPDBDPDCDPDDLDSWDVDLDOCDLDOVREF1PUHRFMDI
PUHRF
F
DPDBDPDC
E
DPDA
DPDD
PWRA
FE
VREF2
FCO
SPDCO
SCO
DMEA
FGIN
TCO
H+
H3-
SA3
H1-
H-
H3+
H1+
H2+H2-
SA2SA1
SLED+SLED-
PWRA
DVDVR
CDVR
AA
VREF2
FOC-
TCO
FCO
SCOSLED-
FOC+
SLED+
RAD+
RAD-
DMEA
EC
ECR
RNF
FGINCNF
SPDCO
SA1
H2+
H-
SA2
H2-
H3+
H3-
MREF
DMEA
VREF2
SA3
APC3.3V
H1+
H1-
A+5V
GND
GND
M+5V
M+5V
CDLDO 3
DVDLDO 3
DPDB 3DPDC 3DPDD 3
DPDA 3
LDSW 3DVDLDO 3CDLDO 3VREF1 3PUHRF 3MDI 3
F 3E 3
VREF2 3
SPDCO 3
SCO 3
TCO 3
FCO 3
DMEA 3
FGIN 3
M+5V
APC3.3V 2,3
A+5V 2
GND 1,2,3,4,6,7,8,9,10,12
GND
GND
APC3.3V
APC3.3V
GND
GND
GND
GND
GND
A+5V
GNDGND
GND
GND
GND
GND
A+5V
M+5V
MGND
MGND
MGND
M+5V
MGND
M+5V
MGND
MGND
MGND
M+5V
MGND
MGND
MGND
MGND
M+5V
MGND
C304 0.1uF
C303 0.1uF
R315 0
C319
0.1uF
R328 100K
R332 0
R300 0
10K Driver
X2
20K
7.5K7.5K
+-
-+
10K
X2
20K
7.5K7.5K
+-
-+
+-
10K
25K
+-
Driver
Driver
10K
15K
+-
DriverBIAS
BIAS
BIAS
BA5954FP
U301BA5954FP / AT5954HSOP28
17
18
12
11
16
20
7
15
23
8
10 19 22
28
14
13
5
4
25
27
26
3
2
1
24
921
6
29 30
VOLD+
VOLD-
VOSL+
VOSL-
VOTK-
VNFTK
VNFFC
VOTK+
VINLD
Vcc
PG
ND
PG
ND
2
Pre
GN
D STBY
VOFC+
VOFC-
VINSL-
VINSL+
CTKerr1
BIAS
VINTK
CFCerr2
CFCerr1
VINFC
CTKerr2
PVcc1PVcc2
VOSL
GN
D1
GN
D2
Q3022SK3018
1
23
R309
10
R3251
R320 0 R310 0
2200pFC313
R306
4.7
R317 0
R301
470
C320 0.1uF
R322
NC
1R313
1R312
R319 10K
C301
0.1uF
R3241
R304 0
C306 0.1uF
L301 10uH
R331
470
R308100
22KR318
R3230
C302
0.1uF
DRIVER
GAINCONTROL
HALL BIAS
Short Brake
Start/Stop
Rotation Detect
FG signal(H3)
TLTSD
BA6849FP
Brake Mode
U302BA6849FPHSOP28
27
25
24
23
22
21
20
18
17
15
28247
9
10
11
12
13
14
8
19
16
26
29 30
VM
VCC
FG
ST/-SP
EC
ECR
FR
SB
CNF
VH
RNFA3A2A1
H1+
H1-
H2+
H2-
H3+
H3-
GN
D
FG2
BR
26
GN
DG
ND
J301
ELCO-CON24(Bottom)
2625
1716151413121110987654321
18192021222324
22KR316
R329 0
C311
0.1uF
C3101000pF
R307 100
C323
0.1uF
C322
0.1uF
Q3032N3904
1
32
R330 100K
R3261
D301
IN4148
+ C316
47uF/10V
C300 0.1uF
R311
NC
J302
FPC CON13-1mm(top contact)
123456789
10111213
12345678910111213
C318
0.1uF
C307
0.1uF
D302
IN4148
C324
0.1uF
R327 10K
330pFC312
R303 0
C315 0.047uF
L302 10uH
R321 10K
C3081000pF
R305
4.7
1R314
C321 0.1uF
Q3012SK3018
1
23
C3091000pF
+ C317
47uF/10V
1R302
330pFC314
Q304
2SB1132
C305 0.1uF
Q3052SB1132
1
32
A
1
2
3
4
5
6
7
8
9
10
11
12
B C D E F G H I J K L M N O P Q R S T
3-35 3-36
6. AUDIO CIRCUIT DIAGRAM
AUDIOSunday, July 16, 2006
A3.3
AUDIO_5V
ABCK
VRST
ASPDIF
AUDIO_5V
SCL
SCL
SDA
/A_MUTE
GND
ALRCK
ASDAT0
GND
SDA
A-5V
ACLK
A3.3
ABCKALRCKASDAT0
AU_BCKACLK
AU_D0AU_LRCK
AU_XCK
I2C_DATA3,4
I2C_CLK3,4
MUTE_R-7
MUTE_L-7
MUTE_R+7
A_MUX_OUT_R 7
GND 1,2,3,4,5,7,8,9,10,12
A_VIDEO_IO_CON 9
MUTE_L+7
VRST3
E+5V 1,8,9,12
A3.32,8
A_MUX_OUT_L 7
SPDIF_OUT3
/A_JACK_IN3
AUDIO_5V1,2,7,8,9,10
/A_MUTE3
A_AUDIO_CD_CON 9
A-5V1
AU_LRCK3AU_D03
AU_XCK3AU_BCK3
GND 1,2,3,4,5,7,8,9,10,12
AUDIO_5V
A-5V
AUDIO_5V
A-5V
E+5V
A3.3
AUDIO_5V
R44410K
R4020
Q415KRA103S
1
23
TP417
C4060.1U
C44010uF/16V
R416220
Q404OPEN
32
1
CE40310U/10V
D401
IN4148
C41
439
2
R43
5O
PE
N
C43810uF/16V
TP405
R438220
Q4122N3904
32
1
CE40410U/10V
R43
6O
PE
N
R4057.5K
Q408KRA103S
1
23
U40
3N
JU40
52B
V
1 2 3 4 5 6 7 8910111213141516
Y0
Y2 Y Y3
Y1
INH
IBIT
VE
EV
SS
BAX3
X0
XX1
X2
VD
D
TP418
Q4022N3904
32
1
TP419
R4071.8K
R44
98.
2K
Q411OPEN
32
1
R428220
TP410
R43
910
0K
TP402
R437220
TP401
TP412
C43
010
uF/1
6V
C424470P
L406
10UH
C425470P
C4270.1U
C43610uF/16V
R433330
R4047.5K
B403 300
C42327P
C4201000P
U40
2N
JM45
80M
R419220
TP416
R4411K
C42
11U
R44512K
R40151
TP404
R409
1.8K
B401 0
Q406KRA103S
1
23
R4408.2K
R4087.5K
C43710uF/16V
R414100
C411270P
C41
00.
1U
C4190.1U
L404
10U
H
TP413
C4160.1U
C43910uF/16V
TP408
R41
5
4.7K
R42
910
K
RN401
33
7
53
12
46
8
TP403
C44110uF/16V
L40810UH
C4150.1U
C41
239
2
R413100
R4171K
Q410OPEN
32
1
TP420
TP421
C4031000P
TP409
R40
34.
7K
C43422uF/16V
Drive IC
LED
CON401
GP1FD310TP
543
68
7
21
R4434.7K
R43
010
K
C40
70.
1U
CE
401
10uF
/16V
R45
08.
2K
CE
402
10uF
/16V
L40910UH
R42
110
0K
B402 0
R427220
R426560
C4020.1U
C404270P
D402
IN4148
C40
80.
1U
R4181K
C41
7
0.1U
R425100K
C422
270P
R424560
C42810uF/16V
R4111.8K
C46
610
uF/1
6V
Q4072N3904
32
1
L40110UH
TP411
Q414KRA103S
1
23
R4320
Q4132N3904
32
1
R4424.7K
R44
81K
R4310
TP415
C4260.1U
GT401
R42
010
0K
Q416OPEN
32
1
R4220
R434330
C4010.01U
L40210UH
U401CS4391
123456789
10 11121314151617181920RESET
VLSDATA/DSDSCLK/DSDBLRCK/DSDMODEMCLKM3/DSDCLKM2M1M0 FLT+
CMOUTB_MUTE
AOUT_B-AOUT_B+
AGNDVA
AOUT_A+AOUT_A-A_MUTE
C41
30.
1U
C40
91U
L40310UH
R44612K
C43522uF/16V
C405270P
C43222uF/16V
C42
910
uF/1
6V
Q401KRA103S
1
2 3
Q4032N3904
32
1
GT404
R4230
Q4052N3906
3 2
1
R4107.5K
TP406
TP422
R4128.2K
L40710UH
R4061.8K
TP407
Q4092N3904
32
1
C43322uF/16V
U40
4
NJM
4580
M
L40510UH
TP414
R44
71K
C41
80.
1U
A
1
2
3
4
5
6
7
8
9
10
11
12
B C D E F G H I J K L M N O P Q R S T
3-37 3-38
7. TPA0102 CIRCUIT DIAGRAM
HSJ1493-01-010
HSJ1493-01-010
TPA0102Sunday, July 16, 2006
SP_R+
SP_L+
AUDIO_5VA5V
MR_OUT
SPL+
SPL-GND
SPR-
ML_OUT
A5V
MR_OUT
AUDIO_5V
GND
ML_OUT
A_MUX_OUT_LA_MUX_OUT_R
VOL_CTRL
MUTE_L- 6
HP_SENSE3
MUTE_R+ 6
MUTE_L+ 6
A_MUX_OUT_R6
SP_L- 8
SP_R+ 8
A_MUX_OUT_L6
AUDIO_5V 1,2,6,8,9,10
SP_L+ 8
/SP_MUTE 3
A_SP_AMP_EN9
MUTE_R- 6
SP_R- 8
GND 1,2,3,4,5,6,8,9,10,12
A5V
A5V
Q417open
1
32
+C451
2.2uF
R456 1K
R463
10k
+
C46547uF/10V
R4520
R485
18K
C44
4
0.1U
B4040
GT408
C4561000P
R45310k
C44
2
0.1U
R455 1K+ C464
10uF/16V
B4070
TP425
R464open
R462 6.8K
R466 0
GT410
R4710
R459 8.2K
J403HP JACK
1
3
2
45
6
+C449 1uF
L412
50
R47315K
R4771K
R4724.7K
+
C46347uF/10V
+C46
7
open
R460 4.7K
B409300
C44
3
0.1U
L411 50
B408
300
TP427
TP431
GT406
R454 10K
R465 8.2K
Q418
2N39041
32
GT411
R457OPEN
R4690
TP430
C4482.2uFR480 NC
GT409
+C450 1uF
C462 100uF/10V
C460 100uF/10V
R458 100K
R4754.7K
TP429
B4050
C4461uF
J402HP JACK
1
3
2
45
6
R4700
CE
406
100U
/10V
+ C4451uF
TP426
R468OPEN
TP428
R4741K
R4761K
U406
TPA6011
1
2
3
4
5
6
7
8
9
10
11
12 13
14
15
16
17
18
19
20
21
22
23
24PGND
ROUT-
PVDD
RHPIN
RLINEIN
RIN
VDD
LIN
LLINEIN
LHPIN
PVDD
LOUT- PGND
LOUT+
SHUTDOWN
FADE
BYPASS
AGND
SEMAX
SEDIFF
VOLUME
HP/LINE
SE/BTL
ROUT+
C455
1000P
C4521uF
+ C4541uF
C457
1000P
B4060
R461 4.7K
CON404
VOL2
1
2
34567
1
2
34567
R467 1k
C4581000P
R47915K
C459100uF/10V
R478
1K
C461
100uF/10V
A
1
2
3
4
5
6
7
8
9
10
11
12
B C D E F G H I J K L M N O P Q R S T
3-39 3-40
8. VIDEO PORT CIRCUIT DIAGRAM
0=in,1=out13 14
TFT Cover LimitSwitch
VIDEO PORTSunday, July 16, 2006
TV_DAC0
TFT/SY
TV_DAC5
CVBS
VCC
TV_DAC3
VIDEO_IO_CON
VIDEO_IO_CON
AUDIO_5V
AUDIO_5V
VCC_3V3
DVD_CVBS
GND
/V_JACK_IN
AUDIO_5V
CVBS_IN
VIDEO_INCVBS_IN
BAT_OUT
LCD_3V3
BAT_OUT
PWRCTL_LCD
SPL-
MCU_SCL
LCD_5V
VCC
SPR-
SPL+
LCD_RST
MCU_SDA
SPR+
SY
SPR+
MCU_SDA
SC
LCD_3V3
LCD_RST
SPL+
LCD_3V3
SPL-
VIDEO_IN
SPR-
MCU_SCL
GND
TFT/SC
SY
SCTFT/SC
TFT/SY
A3.3
GND
A3.3
/V_JACK_IN
PWRCTL_LCD
VCC3
TV_DAC03
TV_DAC33
TV_DAC53
USB_DM 3USB_DP 3
VIDEO_IO_CON 3,9
AUDIO_5V 1,2,6,7,9,10
VCC_3V3 1,2,3,4,9
GND 1,2,3,4,5,6,7,9,10,12
MCU_SCL 9
MCU_SDA 9
SP_R+ 7
LCD_5V 1
LCD_RST 9
BAT_OUT 1,12
VCC 2
SP_L+ 7
LCD_3V3 1
SP_R- 7
SP_L- 7
PWRCTL_LCD 3
KEY_M 9
WAKEUP 9KEY_P 9
NAVIGATION 9E+5V 1,6,9,12
LCD_open 3
A3.3 2,6
/V_JACK_IN 3
VGND
VGND VGND
VGND
VGNDVGND
VGNDVGND
VGND
GND GND GND
GND
GND
GND
TP520
C520 ESD(15pF)
C508104
TP519
C502
22pF
L510
0 TP507
C518
ESD(15pF)
C522
22pF
C506
22pF
C513
22pF
TP524
C504100pF
R521 0
R505
75 (1%)
R513
4.7K
C505100pF
TP502
R507
75 (1%)
F1 C6 S075
TP503
J502
CON14
1234567
R504 0
L511
0
R506 0
D501
open2
13
TP513
C503 10pF
+CE50410uF/16V
L505 0
L506 0
TP523
J505 VIDEO IN/OUT
2
34
1
56
L503 1.8uH
C514 10pF
J501
CON3
123
L508 1.8uH
C507100pF
TP515
R50315K
1:GND2:D+
3:D-4:VCC 4
2
3
1
J503USB TYPEA
321
4
56
TP525
+CE501
10uF/25V
TP522
TP512
J504
CON20
1234567891011121314151617181920
R50215K
CE50347uF/10V
TP510
C509104
TP506
C515100pF
L502
0
TP504
R508 22
TP508
C521ESD(15pF)
TP516
C512100pF
R501
75
TP517
R509 22
TP501
C517
0.1uF
+ CE502
100uF/25V
C501 10pF
R514
10
Q502
C510
NC
TP511
C519
0.1uF
L501 1uH
TP505
C511
NC
L507FB/1206
C516100pF
R288
10K
U501
FSAV330
14
25
11
36
1013
1
8
15
47912
16
4B1
1B12B13B1
1B22B23B24B2
S GN
D OE
1A2A3A4A
VC
C
R512
100
TP509
L504 0
R515
4.7K
A
1
2
3
4
5
6
7
8
9
10
11
12
B C D E F G H I J K L M N O P Q R S T
3-41 3-42
9. MCU CIRCUIT DIAGRAM
Signal Power Up (3.3V=>5V)
REMOCON FORMATDATA MODE
HW RESET
RESET PART
PALNTSC
IR_IN
M_REQ
AVFD_TXD VFD_TXDVFD_SCKAVFD_SCK
RE
D
MCU_SCL
VCC_MCU
LCD_SDA
LCD_SCL
GREEN
RED
GR
EE
N
/AVFD_CS
HOLD
/REST
AVFD_SCK
AVFD_TXD
VFD_RXD
RXD
TXD
IR
KE
Y_M
KE
Y_P
BA
T_S
EN
SE
DC
_SE
NS
E
CH
AR
GE
NA
VIG
AT
ION
LCD
_SD
A
LCD
_SC
L
LCD
_RS
T
A_VIDEO_IO_CON
LCD_SIZE
LCD
_ON
/OF
F
VFD_RXD
/AVFD_CS
RXDTXDGND
MCU_SDA
IR
/REST
CHARGE_ENABLEE+5V
E+5V
TH
ER
MIS
TE
R
KEY_M 8
THERMISTER12
WAKEUP8
BAT_SENSE 1
DC_SENSE 1
CHARGE 12
NAVIGATION 8
A_SP_AMP_EN7
VFD_SCK 3M_REQ 3
A_AUDIO_CD_CON6 AUDIO_CD_CON3A_VIDEO_IO_CON6
VFD_TXD 3
SP_AMP_EN3
VIDEO_IO_CON3,8
STANDBY1,2
MCU_SDA 8
MCU_SCL 8
LCD_RST 8
LCD_SIZE 3
LCD_ON/OFF3
/M_RESET,4,10
KEY_P 8
VFD_RXD 3
AUDIO_5V 1,2,6,7,8,10
E+5V 1,6,8,12
VCC_3V3 1,2,3,4,8
9V_IN 1,12
IR_IN 3
GND 1,2,3,4,5,6,7,8,10,12
E+5V
E+5V
9V_IN
AUDIO_5V
E+5VE+5V E+5V
E+5V
E+5V
E+5V
E+5V
VCC_3V3
E+5V
E+5V E+5V
E+5V
Q6042N3904
32
1
R63510K
R61
610
K
TP619
R6030
U601
1
2
3
4
5
6
7
8
9
10
11
12 13 14 15 16 17 18 19 20 21 22
23
24
25
26
27
28
29
30
31
32
33
3435363738394041424344
RB1
RB2
RB3
RB4
AD4
RB6
RB7
RE6
RE5
RE4
RE3
RE
2
RE
1
RE
0
RC
0
RC
1
VD
D1
TX
SC
K
SIN
SO
UT
IC0(
VP
P)
RD0
RD1
25
X2
X1
VSS0
VDD0
P25
XIN
XOUT
/REST
VS
S
P03
AN
1
AN
2
AN
3
AN
4
AN
5
AN
6
AN
7
VD
D
AN
0
Q602
2N3904
3 2
1
C60
422
p
J601
HEADER 4X1
4321
C6210.1U
TP602
R6020
TP601
R64
210
K
TP613
C610
0.1uF
10K
R621220
C611
100p
R614
OPEN
R61
510
K
TP622
TP618
R625330
R62
222
0
R63
022
0TP614
TP612
R6344.7K D603
OPEN
2
13
D605GREEN LED
C6260.1U
L601 10UH
R619
4.7K
Q6052N3906
32
1
R64510K
R61
0 0
U604
24C016A
1234
5
67 8
A0A1A2
VSSSDA
SCLWP VCCR623
220
D606RED LED
C632
0.1U
TP616
R628220
C612
100p
R61
810
K
C60910U/10V
RC601TSOP6238
21 3
GN
D
OU
T
VD
D
R64610K
U603
74VHCT541
23456789
119
1817161514131211
20
A1A2A3A4A5A6A7A8
G1G2
Y1Y2Y3Y4Y5Y6Y7Y8
VCC
R6240
R61
710
K
Q6032N3904
32
1 D601
open
C602
0.1U
U60
2aa
t352
2
21
3
R638
100
R62
02
20
TP615
R60
9op
en
R604 56K
R632OPEN
R63
122
0
R633
OPEN
R64
9 0 R63610K
12
R626
4.7K
C607open
Q601
2N3906
32
1
R64
810
0K
R63710K
12
R639
100
R611
100K
R612
OPENR641 100
C62
50.
1U
C601
0.1U
R6056.8K
L602
10
uH
X601
5MHz
L603
10UH
R613
100K
R627 OPENC60
522
p
R629220
C60810U/16V
TP617
C1
0.1U
A
1
2
3
4
5
6
7
8
9
10
11
12
B C D E F G H I J K L M N O P Q R S T
3-43 3-44
10. CHARGING CIRCUIT DIAGRAM
GND
GNDGND
CHARGE
P+
VCC
TEST2
PWM
SAM_U
SAM_T
P-
TEST1
SAM_U
THERMISTER
PORTE0
THERMISTER
ce
PWM
SAM_I
TEST2VREF
VREF
DC+9.5V
SAM_I
BAT_IN
SAM_T
TEST1
CHAGER
CHARGE_ENABLE
P+A
P-
P+
VCC
VCC
DC+9.8VVREF
DCPWR
VCC
P+
9L7 1206-100
R92310K
Q9059013
R9201K
R924
150K(1%)
R906
NC
Q904
2N3906
R936FB/330
R92210K
R913 10K
R905
51K(1%)
C914104
U902
Si4435
1234 5
6781
234 5
678
R9321K
R9113.6K
TJ901
4 HEADER
1234
TP703
TP701
TEST1
1
C905
104
R901100K
R927 10
R92
90.
15
C908
100U/25V
D901
IN5822
U901
KA431 ±0.5%
R9141k
C904
104
R90310k
9L6 1206-100
R90210K
C91
50.
047U
R915
10K
Q901SI4435DY
12345
678
C916
104
R93
00.
15
C910
104
C9010.1U
9L5 1206-100
R9071K
Q9022N3904
R9123.6K
R925
C913104
9L4 1206-100
R910 2k
R934
1K
R93310K
C906104
R919
10K
C907104
R92
80.
15
R9358.2K
R917 1k
Q9062N3904
Q9032N3904
C912
47U/25V
C90247U/25V
C911104
R91851K
D902IN5822
TP702
U903 GT6312(CLV2.0)
3
910
4
11
14
12
21
13
155
876
1617181920
PORTD.2
PORTA.0/AN0PORTA.1/AN1
PORTD.3/PWM1
PORTB.2/AN6
OSC1
PORTB.3/AN7
PORTE.3PORTE.2
VDD
PORTC.0/OSCOPORTC.3/PWM0
GND/RESETPORTC.3/T0
PORTC.1VREFPORTD.0PORTD.1PORTE.0PORTE.1
R904 51
R921FB/330
D903IN4148
C903
104
R926
10K
R9161k
L901 33UH
R9083.6K
A
1
2
3
4
5
6
7
8
9
10
11
12
B C D E F G H I J K L M N O P Q R S T
3-45 3-46
11. INVERTER 2995C CIRCUIT DIAGRAM
ON/OFF
ON
/OF
F
C5104
R6
5.1K
L122uH
C310uF/16V
R8NC
R3 10K
L2
22uHC7105
R715R 1%
R5NC
Q12N3904
1
23
D1SS14
1 2
U1 AP16245
1
42
3
EXT
FBGN
DVCC
CE
R15.1K
C9103
J1
CON3-1.25
123
J2
CON2-1.25
12
C14.7uF X5R 16V
D3
1SS355
12
D4
5V6
12
D2
13V
12
C8
103
F1
C410uF/16V
R210R
Q2STS34021
23
+
C210uF/20V C6
223
R4
1K
A
1
2
3
4
5
6
7
8
9
10
11
12
B C D E F G H I J K L M N O P Q R S T
3-47 3-48
MAIN PRINTED CIRCUIT DIAGRAMS1. MAIN P.C. BOARD (TOP VIEW)
3-49 3-50
2. MAIN P.C. BOARD (BOTTOM VIEW)
3. USB P.C. BOARD
3-51 3-52
(TOP VIEW) (BOTTOM VIEW)
3-53 3-54
4. INVERTER P.C. BOARD(TOP VIEW) (BOTTOM VIEW)
3-55 3-56
5. KEY P.C. BOARD(TOP VIEW) (BOTTOM VIEW)