mitsui mtv dv05xxx
DESCRIPTION
televisionTRANSCRIPT
FILE NO. SM-CTV-O-228
TV/DVD COMBO
SERVICE MANUAL
MODEL NO. MTV-DV05
CHASSIS NO. CN-12DV
Please read this manual carefully before service.
TABLE OF CONTENTS
SERVICE SAFETY INSTRUCTIONS......................................................................2
ADJUSTMENTS ...................................................................................................................5
STRUCTURE AND CHASSIS FUNCTION DESCRIPTION .....................15
SERVICE DATA ....................................................................................................................21
TROUBLESHOOTING FLOW CHARTS ..............................................................65
APPENDIX
SERVICE MANUAL
SERVICE SAFETY INSTRUCTIONS WARNING: BEFORE SERVICING THIS CHASSIS, READ THE “X-RAY RADIATION PRECAUTION”,
“SAFETY PRECAUTIONS”AND “PRODUCT SAFETY NOTICE”INSTRUCTION BELOW.
X-RAY RADIATION PRECAUTION 1. The EHT must be checked every time the TV is serviced to ensure that the CRT does not emit X-ray
radiation as result of excessive EHT voltage. The maximum EHT voltage permissible in any operating
circumstances must not exceed the rated value. When checking the EHT, use the High Voltage Check
procedure in this manual using an accurate EHT voltmeter.
2. The only source of X-RAY radiation in this TV is the CRT. The TV minimizes X-RAY radiation, which
ensures safety during normal operation. To prevent X-ray radiation, the replacement CRT must be
identical to the original fitted as specified in the parts list.
3. Some components used in this TV have safety related characteristics preventing the CRT from emitting
X-ray radiation. For continued safety, replacement component should be made after referring the
PRODUCT SAFETY NOTICE below.
4. Service and adjustment of the TV may result in changes in the nominal EHT voltage of the CRT anode.
So ensure that the maximum EHT voltage does not exceed the rated value after service and
adjustment.
SAFETY PRECAUTION WARNING: REFER SERVICING TO QUALIFIED SERVICE PERSONNEL ONLY.
1. The TV has a nominal working EHT voltage. Extreme caution should be exercised when working on the
TV with the back removed.
1.1 Do not attempt to service this TV if you are not conversant with the precautions and procedures for
working on high voltage equipment.
1.2 When handling or working on the CRT, always discharge the anode to the TV chassis before removing
the anode cap in case of electric shock.
1.3 The CRT, if broken, will violently expel glass fragments. Use shatterproof goggles and take extreme care
while handling.
1.4 Do not hold the CRT by the neck as this is a very dangerous practice.
2. It is essential that to maintain the safety of the customer all power cord forms be replaced exactly as
supplied from factory.
3. Voltage exists between the hot and cold ground when the TV is in operation. Install a suitable isolating
transformer of beyond rated overall power when servicing or connecting any test equipment for the sake
of safety.
4. When replacing ICs, use specific tools or a static-proof electric iron with small power (below 35W).
5. Do not use a magnetized screwdriver when tightening or loosing the deflection yoke assembly to avoid
electronic gun magnetized and decrement in convergence of the CRT.
6. When remounting the TV chassis, ensure that all guard devices, such as nonmetal control buttons,
switch, insulating sleeve, shielding cover, isolating resistors and capacitors, are installed on the original
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SERVICE MANUAL
place.
7. Replace blown fuses within the TV with the fuse specified in the parts list.
8. When replacing wires or components to terminals or tags, wind the leads around the terminal before
soldering. When replacing safety components identified by the international hazard symbols on the
circuit diagram and parts list, it must be the company-approved type and must be mounted as the
original.
9. Keep wires away from high temperature components.
PRODUCT SAFETY NOTICE CAUTION: FOR YOUR PROTECTION, THE FOLLOWING PRODUCT SAFETY NOTICE SHOULD BE
READ CAREFULLY BEFORE OPERATING AND SERVICING THIS TV SET.
1. Do not slap or beat the cabinet or CRT, since this may result in fire or explosion.
2. Never allow the TV sharing a plug or socket with other large-power equipment. Doing so may result in
too large load, thus causing fire.
3. Do not allow anything to rest on or roll over the power cord. Protect the power cord from being walked
on, modified, cut or pinched, particularly at plugs.
4. Do not place any objects, especially heavy objects and lightings, on top of the TV set. Do not install the
TV near any heat sources such as radiators, heat registers, stove, or other apparatus that produce heat.
5. Service personnel should observe the SAFETY INSTRUCTIONS in this manual during use and
servicing of this TV set. Otherwise, the resulted damage is not protected by the manufacturer.
6. Many electrical and mechanical components in this chassis have special safety-related characteristics.
These characteristics are often passed unnoticed by a visual inspection and the X-ray radiation
protection afforded by them cannot necessarily be obtained by using replacements rated at higher
voltages or wattage, etc. Components which have these special safety characteristics in this manual
and its supplements are identified by the international hazard symbols on the circuit diagram and parts
list. Before replacing any of these components read the parts list in this manual carefully. Substitute
replacement components which do not have the same safety characteristics as specified in the parts list
may create X-ray radiation.
SAFETY SYMBOL DESCRIPTION The lightning symbol in the triangle tells you that the voltage inside this product may be strong
enough to cause an electric shock. Extreme caution should be exercised when working on the
TV with the back removed.
This is an international hazard symbol, telling you that the components identified by the symbol
have special safety-related characteristics.
FDA This symbol tells you that the critical components identified by the FDA marking have special
safety-related characteristics.
UL This symbol tells you that the critical components identified by the UL marking have special
safety-related characteristics.
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SERVICE MANUAL
SERVICE SAFETY INSTRUCTIONS FOR DVD UNIT 1. Never allow unqualified personnel to remove and service the DVD130A modules.
2. The unit will generate static. Extreme care should be taken when servicing the modules DVD130A
modules.
3. Never touch the laser pickup head.
4. When this unit is connected to the mains, do not bring your eyes into the laser pickup head or try to look
into the disc tray of any of the opening. Looking into a laser may cause eyes damaged.
5. Ensure that leads of DVD130A are connected correctly.
6. When the unit is powered on, do not connect or disconnect the leads of DVD130A
7. Before power on, ensure each operating voltage coincides with the marking on the PCB and make sure
no short circuit exits on PCB.
8. Do not use scratched, warped or repaired discs.
MAINTENANCE
1. Place the unit on a stable stand or base that is of adequate size and strength to prevent the is from
being accidentally tipped over, pushed off, or pulled off. Do not place the set near or over a radiator or
heat register, or where it is exposed to direct sunlight.
2. Do not install the unit set in a place exposed to rain, water, excessive dust, mechanical vibrations or
impacts.
3. Allow enough space (at least 10cm) between the unit and wall or enclosures for proper ventilation.
4. Slots and openings in the cabinet should never be blocked by clothes or other objects.
5. Please power off the unit set and disconnect it from the wall immediately if any abnormal phenomenon
occurs, such as bad smell, belching smoke, sparkling, abnormal sound, no picture/sound/raster. Hold
the plug firmly when disconnecting the power cord.
6. Unplug the unit set from the wall outlet before cleaning or polishing it. Use a dry soft cloth for cleaning
the exterior of the unit set or CRT screen. Do not use liquid cleaners or aerosol cleaners.
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SERVICE MANUAL
ADJUSTMENTS
SET-UP ADJUSTMENTS
The following adjustments should be made when a complete realignment is required or a new picture tube is
installed.
Perform the adjustments in the following order:
1. Color purity
2. Convergence
3. White balance
Notes:
① The purity/convergence magnet assembly and rubber wedges need mechanical positioning.
② For some picture tubes, purity/convergence adjustments are not required.
1. Color Purity Adjustment
Preparation:
Before starting this adjustment, adjust the vertical sync, horizontal sync, vertical amplitude and focus.
1.1 Face the TV set north or south.
1.2 Connect the power plug into the wall outlet and turn on the main power switch of the TV set.
1.3 Operate the TV for at least 15 minutes.
1.4 Degauss the TV set using a specific degaussing coil.
1.5 Set the brightness and contrast to maximum.
1.6 Counter clockwise rotate the R/B low brightness potentiometers to the end and rotate the green low
brightness potentiometer to center.
1.7 Receive green raster pattern signals.
1.8 Loosen the clamp screw holding the deflection yoke assembly and slide it forward or backward to
display a vertical green zone on the screen. Rotate and spread the tabs of the purity magnet around the
neck of the CRT until the green zone is located vertically at the center of the screen.
1.9 Slowly move the deflection yoke assembly forward or backward until a uniform green screen is
obtained.
1.10 Tighten the clamp screw of the assembly temporarily. Check purity of the red raster and blue raster until
purity of the three rasters meets the requirements.
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SERVICE MANUAL
Yoke
Fig. 1
Fig. 2
2. Convergence Adjustment Preparation:
Before attempting any convergence adjustment, the TV should be operated for at least 15 minutes.
2.1 Center convergence adjustment
2.1.1 Receive dot pattern.
2.1.2 Adjust the brightness/contrast controls to obtain a sharp picture.
2.1.3 Adjust two tabs of the 4-pole magnet to change the angle between them and red and blue vertical
lines are superimposed each other on the center of the screen.
2.1.4 Turn both tabs at the same time keeping the angle constant to superimpose red and blue horizontal
on the center of the screen.
2.1.5 Adjust two tabs of the 6-pole magnet to superimpose red/blue line and green line.
2.1.6 Remember red and blue movement. Repeat steps 2.1.3~2.1.5 until optimal convergence is
obtained.
2.2 Circumference convergence adjustment
2.2.1 Loosen the clamp screw holding the deflection yoke assembly and allow it tilting. 6
SERVICE MANUAL
2.2.2 Temporarily put the first wedge between the picture tube and deflection yoke assembly. Move front
of the deflection yoke up or down to obtain better convergence in circumference. Push the mounted
wedge in to fix the yoke temporarily.
2.2.3 Put the second wedge into bottom.
2.2.4 Move front of the deflection yoke to the left or right to obtain better convergence in circumference.
2.2.5 Fix the deflection yoke position and put the third wedge in either upper space. Fasten the deflection
yoke assembly on the picture tube.
2.2.6 Detach the temporarily mounted wedge and put it in either upper space. Fasten the deflection yoke
assembly on the picture tube.
2.2.7 After fastening the three wedges, recheck overall convergence and ensure to get optimal
convergence. Tighten the lamp screw holding the deflection yoke assembly.
4-pole Magnet Movement 6-pole Magnet Movement Center Convergence by Convergence Magnets
Incline the Yoke Up (or Down) Incline the Yoke Right (or Left) Circumference Convergence by DEF Yoke
Fig.3
3. White Balance Adjustment
Generally, white balance adjustment is made with professional equipment. It’s not practical to get good
white balance only through manual adjustment. For TVs with I2C bus control, change the bus data to
adjust white balance.
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SERVICE MANUAL
CIRCUIT ADJUSTMENTS Preparation: Circuit adjustments should be made only after completion of set-up adjustments. Circuit adjustments can be performed using the adjustable components inside the TV set. For TVs with I2C bus control, first change the bus data.
1. Degaussing A degaussing coil is built inside he TV set. Each time the TV is powered on, the degaussing coil will automatically degauss the TV. If the TV is magnetized by external strong magnetic field, causing color spot on the screen, use a specific degausser to demagnetize the TV in the following ways. Otherwise, color distortion will be exist on the screen.
1.1 Power on the TV set and operate it for at least 15 minutes. 1.2 Receive red full-field pattern. 1.3 Power on the specific degausser and face it to the TV screen. 1.4 Turn on the degausser. Slowly move it around the screen and slowly take it away from the TV. 1.5 Repeat the above steps until the TV is degaussed completely. 2. Supply Voltage Adjustment
Caution: +B voltage has close relation to high voltage. To prevent X-ray radiation, set +B voltage to the rated voltage.
2.1 Make sure that the supply voltage is within the range of the rated value. 2.2 Connect a digital voltmeter to the +B voltage output terminal VD891 of the TV set. Power on the TV and
set the brightness and sub-brightness to minimum. 2.3 Regulate voltage adjustment components on the power PCB to make the voltmeter read 115±1V . 3. High Voltage Inspection
Caution: No high voltage adjustment components inside the chassis. Please perform high voltage inspection in the following ways.
3.1 Connect a precise static high voltmeter to the second anode (inside the high voltage cap) of the picture tube.
3.2 Plug in the supply socket (120V, AC) and turn on the TV. Set the brightness and contrast to minimum (0μA).
3.3 The high voltage reading should be less than the EHT limitation. 3.4 Change the brightness from minimum to maximum, and ensure high voltage not beyond the limitation in
any case. Nominal EHT voltage: 22±1KV Limited EHT voltage: 25KV
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SERVICE MANUAL
9
4. Focus Adjustment Caution: Dangerously high voltages are present inside the TV. Extreme caution should be exercised when working on the TV with the back removed.
4.1 After removing the back cover, look for the FBT on the main PCB. There should be a FCB on the FBT. 4.2 Power on the TV and preheat it for 15 min. 4.3 Receive a normal TV signal. Rotate knob of the FCB until you get a sharp picture.
Before Adjusting After Adjusting
5. Safety Inspection 5.1 Inspection for insulation and voltage-resistant
Perform safety test for all naked metal of the TV. Supply high voltage of 3000V AC, 50Hz (limit current of 10mA) between all naked metal and cold ground. Test every point for 3 seconds. and ensure no arcing and sparking.
5.2 Requirements for insulation resistance Measure resistance between naked metal of the TV and feed end of the power cord to be infinity with a DC-500 high resistance meter and insulation resistance between the naked metal and degaussing coil to be over 20MΩ.
6. DESIGN/SERVICE mode 6.1 To enter the DESIGN/USER SERVICE (S) mode
Set the volume to 0. Then press the MUTE key on the remote control and on the TV at the same time for over 2 seconds. In the S mode, press the POWER key to quit the S mode.
6.2 Adjustments and bus data Table 1 Bus Data
Item Symbol Description Bus Data MENU.00 V.POSITION VERTICAL POSITION 40 H.PHASE HORIZONTAL PHASE 15 V.SIZE VERTICAL SIZE 60 V.SC VERTICAL S-CORRECTION 18 V.LINE VERTICAL LINE 19 V.SIZE CMP VERTICAL SIZE COMPENSATION 7 MENU.01 SUB.BIAS SUB-BRIGHT 63 SUB.CONT SUB-CONTRAST 31 V.KILL VERTICAL KILL 0
(continued)
SERVICE MANUAL
RF.AGC RF AGC 20 R.BIAS RED BIAS 130 G.BIAS GREEN BIAS 130 B.BIAS BLUE BIAS 130 R.DRIVE RED DRIVE 75 G.DRIVE GREEN DRIVE 15 B.DRIVE BLUE DRIVE 75 MENU.02 SECAM B DC SECAM B-Y 0 SECAM R DC SECAM R-Y 0 H.APC GAIN HORIZONTAL APC GAIN 0 SYNC.KIL SYNC KILL 0 H.BLK.L HORIZONTAL BLANKING LEFT 4 H.BLK.R HORIZONTAL BLANKING RIGHT 4 CROS.B/W CROSSHATCH BLACK/WHITE 0 VIDEO.LVL VIDEO LEVEL 7 FM.LEVEL FM LEVEL 16 MENU.03 FM.MUTE FM MUTE 0 AUDIO.MUTE AUDIO MUIE 0 VIDEO.MUTE VIDEO MUTE 0 DEEM.TC DE-EMPHASIS TIME CONSTANT 0 SND.TRAP SOUND TRAP 0 MENU.04 SUB.COLOR SUB COLOR 63 SUB.TINT SUB TINT 32 SUB.SHARP SUB SHARP 63 AUTO FLESH AUTOMATIC FLESH 0 CORING.GAN CORING GAIN 1 C.EXT EXTERNAL CHROMA 0 C.BYPASS CHROMA BAND-PASS BYPASS 0 C.KILL ON COLOR KILL ON 0 MENU.05 FIL.SYS FILTER SYSTEM:SELECT Y/C FILTER MODE 1 COLOR.SYS COLOR SYSTEM 5 VOL.FIL VOLUME FILTER 0 VIF.SYS VIF SYSTEM 0 SIF.SYS.SW SIF SYSTEM SWITCH 0 VIDEO.SW VIDEO SWITCH 1 MENU.06 R/B G.BAL R-Y/B-Y GAIN BALANCE 7 R/B ANGLE R-Y/B-Y ANGLE 9 CD MODE VERTICAL COUNTDOWN MODE 0
(continued) 10
SERVICE MANUAL
GREY MODE GREY MODE 0 V.SETUP VERTICAL SETUP 1 MENU.07 BLANK.DEF BLANK DEFEAT 0 BRT.ABL.TH BRIGHT ABL THRESHOLD 7 RGB TEMP RGB TEMPERATURE SWITCH 1 BRT.ABL.DF BRIGHT ABL DEFEAT 0 MID.STP.DF BRIGHT MID STOP DEFEAT 0 FBP.BLK.SW FLYBACK PULSES(HORIZONTAL)BLANKING
SWITCH 0
MENU.08 DIGITAL.OSD DIGITAL OSD MODE 0 OSD.CONT OSD CONTRAST CONTROL 10 OSD.CONTST OSD CONTRAST TEST 0 OSD.H.POS OSD HORIZONTAL POSITION 22 MENU.09 H.FREQ HORIZONTAL FREQUENCY 46 FM.GAIN FM GAIN 0 C.KILL.OFF COLOR KILL OFF 0 AUDIO.SW AUDIO SWITCH 0 T.DISBLE TEST MODE SWITCH DISABLE 1 MENU.10 G/Y ANGLE G/Y ANGLE 0 COL KIL OP COLOR KILLER OPERATIONAL LEVEL 5 CBCR-IN YCBCR INPUT 1 Y-APF YCBCR MODE,ALL PASS FILTER MODE 0 PRE SHOOT PRE-SHOOT WIDTH 0 WPL OPE WHITE PEAK LIMITER LEVEL OPERATE 0 DC REST LUMA DC RESTORATION 0 BK STR STA BLACK STRETCH START POINT 1 BK STR GAN BLACK STRETCH START GAIN 1 MENU.11 OVER MD SW 1 Y GAMMA Y GAMMA START POINT 0 FSC C.SYNC fSC C-SYNC OUTPUT 1 VBLK SW VERTICAL BLANKING CONTROL SWITCH 0 SND TRAP SOUND TRAP 1 HALF TONE HALF TONE LEVEL 3 HALF T SW HALF TONE ON/OFF SWITCH 1 TST VERSET 0 MENU.12 E/W DC E/W(EAST/WEST) 32 E/W AMP E/W 32
(continued) 11
SERVICE MANUAL
(continued) 12
E/W TILT E/W 32 E/W C TOP E/W 5 E/W C BOTM E/W 5 MENU.13 E/W TEST E/W TEST 7 HSIZE COMP HORIZONTAL SIZE COMPENSATION 7 IF TEST 3B 3dB IF TEST 0 V.LEV ADJ VIDEO LEVEL ADJUSTMENT 0 OV MOD LEV 5 PRE/OVER PRE/OVER-SHOOT ADJUSTMENT 0 C.VCO SW CHROMA VCO(VOLTAGE CONTROLLED OSCILLATOR)SWITCH 0
C.VCO ADJ CHROMA VCO ADJUSTMENT 0 MENU.14 VNSYNC 0 TINT.THROU TINT THROUGH 0 HLOCK.VDET 0 MENU.15 OPT.1CHIP OPTION 1CHIP 1 OPT.VIDEO OPTION VIDEO 1 OPT.DVD OPTION DVD 1 OPT.AV1AV2 OPTION AV1/AV2 1 OPT.AV3 OPTION AV3 0 OPT.S-VHS OPTION S-VHS 1 OPT.YUV OPTION YUV 0 OPT.COMB OPTION COMB 0 OPT.BYPASS OPTION BYPASS 0 MENU.16 OPT. VM OPTION VM 0 OPT.BLUEBK OPTION BLUEBK 1 OPT.V-CHIP OPTION V-CHIP 1 OPT.CCD OPTION CCD 1 OPT.CLOCK OPTION CLOCK 1 OPT.P-ON OPTION 0 SRCH.SPEED SEARCH SPEED 0 ROM .CORREC ROM CORRECTION 0 MENU.17 OPT.BTSC OPTION BTSC 1 OPT.AV-INP OPTION AV-INP 0 OPT.BBE OPTION BBE 0 OPT. DVD-IN OPTION DVD-IN 0 SUB.BASS SUB BASS 3 SUB.TREBLE SUB TREBLE 3
SERVICE MANUAL
MENU.18 LOUNDNESS LOUDNESS 9 FM/AM.PRES FM/AM PRESETTING 63 SCART.PRES SCART PRESETTING SCART VOLUME 39 SCART.VOL SCART VOLUME 117 OPT.AVC OPTION AVC 1 AVC.DECAY 2 BBE.BASS BBE BASS 32 BBE.TREBLE BBE TREBLE 32
Notes: ① The data sheet may differ dependent on different models. ② The data sheet may differ dependent on different CRTs for the same model.
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SERVICE MANUAL
ADJUSTMENTS FOR DVD UNIT 1. Power on the unit only after ensuring DVD130A modules is connected correctly in accordance with the
wiring diagram. 2. If the unit fails to play after power-on, repair the DVD130A according to the service illustration until it can
read discs and has corresponding AV output. 3. Inspect audio output of the DVD130A in the following ways.
a. Inspect digital audio output: When playing a disc, connect a signal cable to the coaxial output terminal. Press the SETUP button on the remote control and set “AUDIO OUT” in the SETUP menu to “SPDIF/SOURCE CODE”. Then start playback with the PLAY button and the following diagram will be displayed with waveform amplitude of 0.75±0.25Vpp on the oscilloscope. After inspection, set “AUDIO OUT”to “ANALOG”.
b. Connect the OUT terminal on the DVD130A to the IN terminal on the TV and shift the TV to the DVD mode. After power-on for several seconds, the TV should display the preset LOGO picture on the screen, which should be smooth and distort-free with normal color. Press the OPEN/CLOSE button on the remote control to open the disc tray. Place the disc on the disc tray. Press the PLAY button and play should begin after several seconds. The color and sound should be normal, and picture should be smooth and distortionless.
c. With a CD disc played, the TV should display the preset LOGO picture on the screen. The color and sound should be normal, and picture should be smooth and distortionless.
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SERVICE MANUAL
STRUCTURE AND CHASSIS FUNCTION DESCRIPTION 1. STRUCTURE BLOCK DIAGRAM (For CPU CH04T1224 Only)
15
Fig.
4 S
truc
ture
Blo
ck D
iagr
am fo
r CN
-12D
V C
hass
is
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3.BLOCK DIAGRAM OF SUPPLY VOLTAGE SYSTEM
16
Fig. 6 Block D
iagram for C
N-12D
V S
upply Voltage S
ystem
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4. BLOCK DIAGRAM OF REMOTE CONTROL SYSTEM
17
Fig
. 7 B
lock
Dia
gram
for
CN
-12D
V R
emot
e C
ontr
ol S
truc
ture
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4.STRUCTURE BLOCK DIAGRAM FOR DVD130A
Fig. 8 Structure Block Diagram for DVD130A
18
Sany
o Pi
ckup
hea
d +D
J-10
0
EEPROM 24C01
2X16M SDRAM
MT1369AE 74HCU04
CS4340 Audio DAC
NJM4558M Audio Amp
8M FLASH BA5954
MT1
336E
L-out
SPDIF
S-VIDEO
R-out
L R
DVD130A MODULE
Power Supply
CS4955-CD
TV
SERVICE MANUAL
5.CHASSIS FUNCTION DESCRIPTION 5.1. General Description
MTV-DV05 TV/DVD combo has combined function of TV signal reception and DVD discs playback, of
which TV unit uses CN-12C2 chassis and DVD unit uses loader DVD 130A.
CN-12C2 chassis applies a single chip IC LA76835 of Japan-based Sanyo for small signal processing,
featuring multi system reception. The applied I2C bus control technology can automatically adjust and
control the TV for much convenience of operation and servicing. Refer to Fig.4 about the chassis’
structure block diagram.
Compatible with DVD, CD, VCD, SVCD, MP3, and KODAR Picture CD, DVD130A, high-quality modules
with various functions, features multi angle, multilingual and multi captions. With Dolby dual channel
amplifying and DTS coaxial cable, the DVD audio system offers astonishingly high-quality audio output.
DVD130A consists of a disc tray (including DJ-100 assembly and small loader DV-33FS) and analog
signal processor/servo control/MPEG decoding board MT1369AE+MT1336E. The servo control/MPEG
decoding board MT1369AE, developed by MEDIATEK, is designed for use in signal control, decoding,
data processing, etc., featuring servo control, AV decoding, analog front end, DPU (DATA PATH UNIT),
main axis control, CSS/CPPM module, system analysis program, video output unit, audio terminals and
system control. MT1336E, also
developed by MEDIATEK, is a high-performance CMOS analog signal processor with servo amplifying
and DPD tracking error signal for use in CD-ROM drive and DVD-RAM. For DVD-RAM, MT1336E also
uses DPP for developing tracking signal and DAD for processing focus signal. Meanwhile, the IC,
programmable, is equipped with a separate DVD-ROM, CD-ROM two-way automatic laser power
control circuit and reference voltage generator.
5.2 Key ICs and Assemblies
5.2.1 The CN-12C2 chassis mainly uses the following ICs and assemblies.
Table 2 Key ICs and Assemblies of CN-12C2 Chassis Serial No. Position Type Function Description
1 D701 CH04T1227
Microcontroller
2 D702 AT24C08 EEPROM 3 N101 LA76835 Small signal processor 4 NV01 KA2192B TV/Video switch circuit 5 N301 LA7840 Vertical output circuit 6 N191 TDA7057AQ Sound power amplifier 7 NN01 TDA9808T Audio IF demodulator 8 NN02 MSP3410G NICAM audio processor
9 N503 LM7805 Tri-pin regulator 10 NK01 HEF4053 Electronic switch circuit 11 U101 TDQ-3B8/136 Tuner
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SERVICE MANUAL
5.2.2. The DVD130A mainly uses the following ICs and assemblies.
Table 3 Key ICs and Assemblies of DVD130A Serial No. Position Type Function Description
MPEG board Drawing No. JUV2.033.071-1MX 1 U1 MT1336E RF amplifier 2 U2 BA5954FM Focus/tracking coil and feed motor drive 3 U3 MT1369AE MPEG decoder 4 U5 74HCU04 Enhancement drive 5 U7 8M FLASH Flash memory 6 U9 NJM4558M Sound amplifier 7 U10 24C01 1K EEPOM 8 U13 CS4340 Audio D/A controller 9 U14 CS4955-CD Video encoder
10 U17 16M SDRAM Dynamic EEPROM DJ-100 Disc tray assembly
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SERVICE MANUAL
SERVICE DATA SERVICE DATA FOR TV UNIT TECHNICAL DATA OF KEY ICS CH04T1227 (D701) 8-Bit Single Chip Microcontroller 1. Overview The LC86F344BA are 8-bit single chip microcontrollers with the following on-chip functional blocks: -CPU:Operable at a minimum bus cycle time of 0.424µs -On-chip ROM capacity Program ROM:32K/28K/24K/20K/16K bytes CGROM:16K bytes -On-chip ROM capacity: 512 bytes -OSD RAM: 352×9 bits -Closed-Caption TV controller and the on-screen display controller -Closed-Caption data slicer -Four channels×6-bit AD Converter -Three channels×7-bit PWM -16-bit timer/counter,14-bit base timer -IIC-bus compliant serial interface circuit (Multi-master type) -ROM correction function -11-source 8-vectored interrupt system -Integrated system clock generator and display clock generator Only one X’tal oscillator (32.768kHz) for PLL reference is used for both generators TV control and the Closed Caption function All of the above functions are fabricated on a single chip.
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SERVICE MANUAL
2. System Block Diagram
Fig. 9
3. Refer to Table 4 about Functions and Service Data of the IC’s Pins.
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SERVICE MANUAL
AT24C08 (D702) EEPROM
1. Features ·Data EEPROM internally organized as 1024/2048 bytes
and 64/128 pages×16 bytes 2. Pin Configuration
·Page protection mode, flexible page-by-page hardware write protection
- Additional protection EEPROM of 64/128 bits, 1 bit per data page
- Protection setting for each data page by writing its protection bit
- Protection management without switching WP pin ·Low power CMOS ·Vcc=2.7 to 5.5V operation ·Two wire serial interface bus, I2C-Bus compatible ·Filtered inputs for noise suppression with Schmitt trigger ·Clock frequency up to 400 kHz ·High programming flexibility - Internal programming voltage - Self timed programming cycle including erase - Byte-write and page-write programming, between 1 and 16 bytes - Typical programming time 6 ms(<10ms) for up to 16 bytes ·High reliability - Endurance 106 cycles1) - Data retention 40 years1) - ESD protection 4000 V on all pins ·8 pin DIP/DSO packages ·Available for extended temperature ranges - Industrial: -40 to +85 - Automotive: -40 to +125
3. Block Diagram
Fig.10
4. Refer to Table 5 about Functions and Service Data of AT24C08’s Pins.
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SERVICE MANUAL
KA2192B (NV01) TV/Video Switch Circuit
1. Features The TV/Video switch circuit KA2192B (NY01) is an electronic switch circuit controlling four sets of audio signal inputs, three sets of video signal inputs, two sets of Y/C separation signals inputs, one set of video signal output, one set of Y/C separation signal output and one set of audio signal output. 2. Block Diagram
Fig.11 3. Value Table
Level for Control Terminal
(15) (16)
Switchover Mode
H H TV
H L AV1
L H SVHS
L L AV2
4. Refer to Table 6 about Functions and Service Data of KA2192B’s Pins.
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SERVICE MANUAL
LA7840 (N301) Vertical Deflection Output Circuit 1. Features ·Low power dissipation due to built-in pump-up circuit
·Vertical output circuit
·Thermal protection circuit built in
·Excellent crossover characteristics
·DC coupling possible
2. Block Diagram
Fig. 12
3. Refer to Table 7 about Functions and Service Data of LA7840’s Pins.
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SERVICE MANUAL
TDA7057AQ (N191) 2×8W Stereo BTL Audio Output Amplifier with DC Volume Control 1. Features ·DC volume control ·Few external components ·Mute mode ·Thermal protection ·Short-circuit proof ·No switch-on and switch-off clicks ·Good overall stability ·Low power consumption ·Low HF radiation ·ESD protected on all pins.
2. General Description The TDA7057AQ is a stereo BTL output amplifier with DC volume control. The device is designed for use in TVs and monitiors, but is also suitable for battery-fed portable recorders and radios. Missing Current Limiter (MCL) A MCL protection circuit is built-in. The MCL circuit is activated when the difference in current between the output terminal of each amplifier exceeds 100mA (typical 300 Ma). This level of 100mA allows for single-ended headphone applications.
3. Block Diagram
Fig.13 Block Diagram 4. Refer to Table 8 about Functions and Service Data of TDA7057AQ’ s Pins.
26
SERVICE MANUAL
HEF4053 (NK01) Triple 2-channel Analog Multiplexer/Demultiplexer 1. Description The HEF4053 is a triple 2-channel analog multiplexer/demultiplexer with a common enable input (E). Each multiplexer/ demultiplexer has two independent inputs/ outputs (Y0 and Y1), a common input/ output (Z), and select inputs (Sn). Each also contains two-bidirectional analog switches, each with one side connected to an independent input/output (Y0 and Y1) and the other side connected to a common input/output(Z).
With (E) LOW, one of the two switches is selected (low impedance ON-state) by Sn. With E HIGH, all switches are in the high impedance OFF-state, independent of SA to SC. VDD and VSS are the supply voltage connections for the digital control inputs (SA to SC and E). The VDD to VSS range is 3 to 15V.The analog inputs/outputs (Y0,Y1 and Z) can swing between VDD as a positive limit and VEE as a negative limit. VDD-VEE may not exceed 15 V. For operation as a digital multiplexer/ demultiplexer, VEE is connected to VSS (typically ground).
2. Block Diagram
Fig. 14 Functional Diagram
3. Function Table Inputs
E Sn Channel
On L L Yon-Zn L H Yin-Zn H X none
Notes H=HIGH state (the more positive voltage) L=LOW state (the less positive voltage) X=STATE is immaterial
4. Refer to Table 11 about Functions and Data of HEF4053’s Pins.
27
SERVICE MANUAL
TDA9808T SINGLE STANDARD VIF-PLL WITH QSS-IF AND FM-PLL DEMODULATOR 1. Features ·5V supply voltage (9V supply voltage for TDA9808T (DIP20) only) ·Applicable for IFs (lntermediate Frequencies) of 38.9MHz, 45.75MHz and 58.75 MHz ·Gain controlled wide band Video IF (VIF)- amplifier (AC-coupled) ·True synchronous demodulation with active carrier regeneration (very linear demodulation, good intermodulation figures, reduced harmonics, excellent pulse response) ·Robustness for over-modulation better than 105% due to Phase Locked Loop (PLL)-bandwidth control at negative modulated standards ·VIF Automatic Gain Control (AGC) detector for gain control, operating as peak sync detector ·Tuner AGC with adjustable TakeOver Point (TOP) ·Automatic Frequency Control (AFC) detector without extra reference circuit ·AC-coupled limiter amplifier for sound intercarrier signal ·Alignment-free FM-PLL demodulator with high linearity ·Sound IF (SIF) input for single reference Quasi Split Sound (QSS) mode (PLL controlled); SIF AGC detector for gain controlled SIF amplifier, single reference QSS mixer for high performance ·Electrostatic Discharge (ESD) protection for all pins.
2. General Description The TDA9808T is an integrated circuit for single standard (negative modulated) vision IF signal processing and FM demodulation, with single reference QSS-IF in TV and VTR sets.
28
SERVICE MANUAL
3. Block Diagram
Fig.
15
Bloc
k D
iagr
am
4. Refer to Table 20 about Functions and Data of the IC’s Pins.
29
SERVICE MANUAL
MSP34X0G MULTISTANDARD SOUND PROCESSOR FAMILY
Release Note: Revision bars indicate significant changes to the previous edition. The hardware and software description in this document is valid for the MSP34X0G version B5 and following versions. 1. Introduction The MSP34X0G family of single-chip Multistandard Sound Processors covers the sound processing of all analog TV-Standards worldwide, as well as the NICAM digital sound standards. The full TV sound processing, starting with analog sound IF signal-in, down to processed analog AF-out, is performed on a single chip. Figure 10 shows a simplified functional block diagram of the MSP34X0G. This new generation of TV sound processing ICs now includes versions for processing the multichannel television sound (MTS) signal conforming to the standard recommended by the Broadcast Television Systems Committee (BTSC). The DBX noise reduction, or alternatively MICRONAS Noise Reduction (MNR) is performed alignment free.
Other processed standards are the Japanese FM-FM multiplex standard (EIA-J) and the FM Stereo Radio standard.
Current ICs have to perform adjustment procedures in order to achieve good stereo separation for BTSC and EIA-J. The MSP34X0G has optimum stereo performance without any adjustments. All MSP34X0G versions are pin and software downward-compatible to the MSP34X0G. The MSP34X0G further simplifies controlling software. Standard selection requires a single I2C transmission only. The MSP34X0G has built-in automatic Functions: The IC is able to detect the actual sound standard automatically (Automatic Standard Detection). Furthermore, pilot levels and identification signals can be evaluated internally with subsequent switching between mono/stereo/bilingual, no I2C interaction is necessary (Automatic Sound Selection). The ICs are produced in submicron CMOS technology. The MSP34X0G is available in the following packages, PLCC68, PSDIP64, PSDIP52, PQFP80 and PLQFP64.
2. Block Diagram
Fig. 16 Simplified Functional Block Diagram of the MSP34X0G 3. Refer to Table 21 about Functions and Data of the IC’s Pins.
30
SERVICE MANUAL
SERVICE DATA OF KEY ICS Table 4 Functions and Service Data of LA76835 (N101)’s Pins
GDM8145 Multimeter Ground Resistance (Ω)
Pin No. Function Description Voltage
of Pin (V)
Measure with red probe
while grounding
black probe.
Measure with black probe
while grounding red probe.
1 Audio signal output (NC) 2.33 810 712 2 Audio demodulation output 2.36 975 675 3 IF AGC filter 2.6 860 718 4 RFAGC voltage output 1.95 ∞ 680 5 IF signal input 2.89 780 693 6 IF signal input 2.89 778 712 7 IF circuit ground 0 0 0 8 Supply voltage for IF circuit 5.04 500 280 9 Filter for discriminator 1.98 910 713
10 AFT voltage output 3.65 910 617 11 I2C bus data line 4.71 1560 640 12 I2C bus clock line 4.41 1542 667 13 Auto brightness control input 3.68 945 577 14 R character signal input 1.43/0 920 700 15 G character signal input 1.46/0 913 701 16 B character signal input 1.44/0 906 700 17 Supply voltage for decoder 0.02/0 780 683 18 Red (R) signal output 8.28 525 500 19 Green (G) signal output 2.81 780 671 20 Blue (B) signal output 2.79 780 670 21 Character blanking signal input 2.7 780 670 22 White balance adjusting signal input (NC) 1.85 830 696 23 Vertical sawtooth output 2.45 710 672 24 Vertical sawtooth generation 2.64 782 702 25 Horizontal start supply voltage 5.27 350 350 26 Low pass filter for horizontal AFC 2.72 815 708 27 Line drive pulse output 0.72 700 653 28 Line flyback pulse input 0.91 785 707 29 Reference voltage generation terminal 1.74 746 700 30 B-Y color difference signal input (SECOM) 0.93 825 608 31 C-Y color difference signal input (SECOM) 0.94 330 330 32 External video/chroma signals inputs 4.17 ∞ 567 33 1H baseband delay circuit ground 0 0 0
(continued)
31
SERVICE MANUAL
34 X-RAY detection input 0 775 712
35 4.43MHz CW signal output or SECAM killer signal input
2.05 776 712
36 AFC filter for color sub-carrier 3.41 810 724
37 Clamp filter 0 800 706
38 4.43 MHz crystal oscillator connection 2.83 790 716
39 APC filter 1.89 760 697
40 Video signal output (NC) 2.76 730 662
41 Video/chroma/scan part ground 0 0 0
42 Video signals input from AV terminals or Y signal input from S-VIDEO terminal
2.93 800 711
43 Supply voltage for video/chroma/scan part 4.99 285 280
44 C signal input from AV terminals or S-VIDEO terminal (NC)
2.76 805 707
45 Filter for black level stretch 3.16 762 700
46 Video detection output 2.9 397 397
47 IF lock detection filter 3.58 840 712
48 External VCO harmonic oscillating coil 4.29 526 526
49 External VCO harmonic oscillating coil 4.29 530 530
50 IF PLL APC filter 2.47 820 698
51 Audio signal input (NC) 2.23 800 701
52 Sound IF output 1.94 809 697
53 APC filter for audio discrimination 2.41 808 691
54 Sound IF input 3.17 824 712
Table 5 Functions and Service Data of CH04T1227 (D701)’s Pins GDM8145 Multimeter
Ground Resistance (KΩ) Pin No. Function Description Voltage
of Pin (V)
Measure with red probe
while grounding
black probe.
Measure with black probe
while grounding red probe.
1 Not connected 1.50 11.8 4.40
2 Not connected 1.43 12.1 5.20
(continued)
32
SERVICE MANUAL
3 Bus data line 4.70 11.6 6.20
4 Bus clock line 4.47 12.1 6.00
5 Ground 0.00 0.00 0.00
6 Input terminal for clock oscillating signal 1.78 12.6 5.1
7 Output terminal for clock oscillating signal 2.88 12.0 4.91
8 Supply voltage 5.31 7.90 3.72
9 Button-control voltage input terminal 1 0.02 9.70 5.34
10 AFT voltage input terminal 2.47 4.90 5.08
11 X-RAY detection input 2325 6.70 4.59
12 Button-control voltage input terminal 2 0.015 8.86 3.81
13 Reset 5.27 4.67 1.88
14 Character oscillating filter 3.87 1.11 4.98
15 Video signal input terminal 3.53 12.3 4.50
16 Three bits input/output terminals 0.01 9.76 15.0
17 Input terminal for vertical flyback pulse 5.07 15.4 18.1 18 Input terminal for horizontal flyback pulse 4.62 17.4 18.4 19 R character output terminal 0.015 3.92 3.29 20 G character output terminal 0.014 3.95 3.71 21 B character output terminal 0.015 3.19 3.66 22 Output terminal for fast blanking signal 0.015 6.50 3.67 23 Mute 0.015 18.7 17.62 24 Standby control 0.015 1.43 7.30 25 Not connected 1.23 9.50 6.65 26 Control terminal for production modes 4.61 13.0 6.95 27 Degaussing circuit control 0.014 3.713 3.42 28 Remote control signal input 5.19 12.2 5.32 29 Not connected 5.30 12.4 5.49 30 Not connected 5.30 12.6 5.42 31 Not connected 0.01 12.7 5.35 32 Not connected 0.01 12.7 5.30 33 Output terminal for on/off control signals 5.30 12.7 6.59 34 Output terminal for AV2 on/off control 5.30 11.8 6.36 35 Output terminal for AV1 on/off control 5.30 11.4 6.33 36 Output terminal for AV0 on/off control 5.29 11.2 6.33
33
SERVICE MANUAL
Table 6 Functions and Service Data of AT24C08 (D702)’s Pins
GDM8145 Multimeter
Ground Resistance (KΩ) Pin No. Function Description Voltage of
Pin (V) Measure with red
probe while grounding black
probe.
Measure with black probe while
grounding red probe.
1 Address terminal 0 0 0 0
2 Address terminal 1 0 0 0
3 Address terminal 2 0 0 0
4 Ground 0 0 0
5 Data line 4.8 11.7 5.25
6 Clock line 4.8 11.72 5.5
7 Write-in/read-out control terminal 0 0 0
8 Supply voltage 5 6.7 4
Table 7 Functions and Service Data of KA2192B (NV01)’s Pins DT890D Digital Multimeter
Ground Resistance (KΩ) Pin No. Function Description Voltage
of Pin (V)
Measure with red probe while grounding black probe.
Measure with black probe while grounding red probe.
1 L TV IN 5.67 6.45 3.53
2 R TV IN 5.67 6.45 3.74
3 TV IN 5.67 6.57 4.02
4 LS IN 5.69 6.45 3.66
5 RS IN 5.69 6.47 3.72
6 SY IN 5.54 6.85 3.96
7 TV SW 0.00 0.00 0.00
8 SC IN 5.54 6.75 3.85
9 L1 IN 5.69 6.43 3.36
10 R1 IN 5.70 6.37 3.72
11 E1 IN 5.56 6.85 3.96
12 L2 IN 5.70 6.43 3.87
(continued)
34
SERVICE MANUAL
13 R2 IN 5.70 6.33
14 E2 IN 5.56 4.01
15 SW1 6.84 5.59
16 5.25 6.85 5.59
MUTE 0.00 0.00 0.00
18 3.89 1.418 1.51
GND 0.00 0.00 0.00
20 C OUT 3.84 0.96
21 R OUT 4.37 3.35
22 L OUT 6.61 3.31
23 0.06 3.97
24 Y IN 6.70 4.18
25 3.47 6.80 5.75
C IN 5.57 6.67 4.07
3.67
6.83
5.25
SW2
17
Y OUT
19
1.15
0.63
4.37
6.71 NC
5.55
SYNC CLAMP
26
27 NC 0.25 6.69 4.13
28 VCC 9.38 0.34 0.33
29 VCC 9.38 0.31 0.30
30 VOUT 3.17 6.47 0.48
Table 8 Functions and Service Data of LA7840 (N301)’s Pins DT890D Digital Multimeter
Ground Resistance (Ω) Pin No. Function Description Voltage of
Pin (V) Measure with red probe while grounding black probe.
Measure with black probe while grounding red probe.
1 Ground 0 0 0
2 Vertical output terminal 14.8 365 360
3 Pump supply voltage input 24.5 ∞ 584
4 Reference voltage 2.24 660 600
5 Inverting input terminal 2.23 800 672
6 Supply voltage 24 770 465
7 Vertical flyback pulse output terminal
2.25 1167 638
35
SERVICE MANUAL
Table 9 Functions and Service Data of TDA7057AQ (N191)’s Pins GDM8145 Multimeter
Pin No. Function Description Voltage
(V) Positive Resistance (KΩ)
Negative Resistance (KΩ)
1 Volume control input 0.95 6.85 6.15
2 Not connected 0.00 ∞ ∞
3 Audio R signal input 2.38 12.59 6.51
4 Supply voltage 17.48 0.47 0.47
5 Audio L signal input 2.37 12.5 6.51
6 Ground 0.00 0.00 0.00
7 Volume control input 0.95 6.85 0.15
8 Left channel in-phase signal output 8016 6.46 5.59
9 Ground 0.00 0.00 0.00
10 Left channel inverting signal output 8.25 6.46 5.59
11 Right channel inverting signal output 8.24 6.46 5.59
12 Ground 0.00 0.00 0.00
13 Right channel in-phase signal output 8.13 6.46 5.59
Table 10 Functions and Service Data of HEF4053 (NK01)’s Pins GDM8145 Multimeter Pin
No. Function Description Voltage (V)
Positive Resistance (KΩ)
Negative Resistance (KΩ)
1 Signal input terminal 3.91 6.31 0.12 2 Signal input terminal 5.01 6.31 0.11 3 Signal input terminal 0.00 0.00 3.41 4 Signal output terminal 0.02 6.07 0.05 5 Signal input terminal 0.22 6.17 3.72 6 Ground 0.00 0.00 0.00 7 Ground 0.00 0.017 0.00 8 Ground 0.00 0.017 0.00 9 Control signal input terminal 4.42 6.27 6.08
10 Control signal input terminal 4.42 6.24 6.07 11 Control signal input terminal 4.42 6.24 6.08 12 Signal input terminal 3.30 6.08 3.66 13 Signal output terminal 1.31 5.96 4.72 14 Signal input terminal 1.44 5.95 3.69 15 Signal output terminal 1.43 6.017 4.01 16 Supply voltage 5.04 0.352 0.33
36
SERVICE MANUAL
Table 11 Functions and Service Data of LM7805 (N503)’s Pins DT890D Digital Multimeter
Ground Resistance (Ω) Pin No. Function Description Voltage of
Pin (V)
Measure with red probe while grounding black probe.
Measure with black probe while grounding red probe.
1 Input terminal 15 865 477 2 Regulation output 5 1015 477 3 Ground 0 0 477
Table 12 Functions and Service Data of TDA9808T Pins Digital Multimeter
Pin No. Function Description Reference Voltage (V)
Positive Resistance (20KΩ)
Negative Resistance(20KΩ)
1 PIF signal input 1 3.23 7.2 6.03 2 PIF signal input 2 3.23 7.2 5.99 3 RFAGC start-control level adjust 0.99 6.7 5.85 4 PLL APC filter 2.53 7.9 6.3 5 Audio AGC filter 3.29 7.8 6.17 6 Audio output (NTSC 4.5MHz) 2.34 7.2 5.86 7 Filter 1.79 7.9 6.29 8 1/2VCC comparison voltage bias 0 ∞ ∞ 9 Video output 2.18 7.6 6.09
10 Second SIF signal output 2.03 7.7 6.17 11 Second SIF signal input 2.81 5.2 4.99 12 RFAGC output 0.04 6.1 13 AGC signal output 3.05 7.9 6.2 14 External connection for VCO oscillating LC network 2.76 7 6 15 External connection for VCO oscillating LC network 2.76 7 6 16 Ground 0 0.001 0.00 17 AGC filter 3.13 7.9 6.11 18 Supply voltage input terminal 8 2.1 2.7 19 SIF signal input 3.2 2.1 6.27 20 SIF signal input? 3.2 7 6.27
Table 13 Functions and Service Data of MSP3410G Pins Digital Multimeter
Pin No. Function Description Reference Voltage (V)
Positive Resistance (20KΩ)
Negative Resistance (20KΩ)
1 TP NC 0.16 7.3 5.3 2 AVD-GL-OUT NC 2.52 6.8 5.51 3 D-CTR-I/O-1 NC 0.01 7.3 5.57 4 D-CTR-I/O-0 NC 0.01 7.2 5.58 5 ADR-SEL 4.79 0.7 4.54
37 (Continued)
SERVICE MANUAL
6 STANDBYQ 4.79 0.7 4.54 7 I2C-CL 3.56 7 4.44 8 I2C-DA 3.9 7 4.44 9 I2S-CL NC 2.36 7.2 6.24
10 I2S-WS NC 2.4 7.2 6.24 11 I2C-DA-WT NC 2.36 7.2 6.24 12 I2S-DA-IN1 NC 0.07 7.2 5.29 13 ADR-DA NC 0.07 7.2 5.59 14 ADR-WS 0.07 7.2 5.59 15 ADR-CL 0.07 7.2 5.59 16 DVSVP 4.79 0.7 4.54 17 DVSS 0.01 0.001 0.00 18 I2S-DA-IN2 NC 0.07 7.3 5.31 19 NC 0 ∞ ∞ 20 RESETQ 4.76 7 5.24 21 DACA-R NC 0.8 3.5 3.54 22 DACA-L NC 0.08 3.5 3.52 23 VREF-I 0.01 0.001 0.00 24 DACM-R 0.17 3.5 3.52 25 DACM-L 0.08 3.5 3.54 26 DACM-SVB NC 0.18 3.6 3.6 27 SC2-OUT-R NC 3.82 7.1 5.92 28 SC2-OUT-L NC 3.82 7.1 5.91 29 CREF 1 0.01 0.001 0.00 30 SC1-OVT-R 3.82 7.1 5.91 31 SC1-OUT-L 3.82 7.1 5.92 32 SAPL-A 7.19 7.1 6.04 33 AHVSUP 8 1.3 4.59 34 CAPL-M 7.2 7.1 6.04 35 AHVSS 7.2 7.1 0.00 36 ABNDC 0.01 0.001 6.02 37 SC3-ZN-L NC 3.74 7.1 6.1 38 SC3-IN-R NC 3.77 7.1 6.1 39 SC2-IN-L NC 3.77 7.1 6.1 40 SC2-IN-R NC 3.77 7.1 6.1 41 SC1-IN-L 3.77 7.1 6.1 42 SC1-IN-R 3.77 7.1 6.1 43 VREFTOP 2.6 1.6 1.63 44 WONO-IN NC 3.78 7 6.1 45 AVSS 0.01 0.001 0.00 46 AVSVP 4.9 0.7 4.53 47 ANA-IN1+ 1.53 7.3 5.27 48 ANA-IN1- 1.53 7.3 5.26 49 ANA-IN2+ 0.09 7.3 5.27
(Continued) 38
SERVICE MANUAL
50 TESTEN 0.01 0.001 0.00 51 XTAL-2N 2.35 6.8 5.27 52 XTAL-OUT 2.36Hs 6.8 5.3
39
SERVICE MANUAL
40
WAVEFORMS OF KEY POINTS
Switch Transistor QI’S D on DVD Power PCB
DVD Power PCB N01’s Pin 6
D701’s Pin 4 SDA
DVD Power PCB N01’s Pin 4
D701’s Pin 3 SCL
1
D701’s Pin 6 XT
SERVICE MANUAL
41
D701’s Pin 7 XT2 D701’s Pin 15 C-VIN
D701’s Pin 17 V-SYNC D701’s Pin 18 H-SYNC
N101’s Pin 19 R-OUT N101’s Pin 20 G-OUT
SERVICE MANUAL
42
N101’s Pin 21 B-OUT N101’s Pin 23 VER-OUT
N101’s Pin 27 HOR-OUT N101’s Pin 46 VIDEO-OUT
N101’s Pin 38 X TAL N101’s Pin 28 FBP-IN
SERVICE MANUAL
43
V431 C V431 B
V432 B
N301’s Pin2 VER-OUT N301’s Pin 5 INVERTING-IN
V513 C V513 B
V432 C
SERVICE MANUAL
SERVICE DATA FOR DVD UNIT TECHNICAL DATA OF KEY ICS
MT1369AE MPEG decoder/DVD servo processor 1. Features Super lntegration DVD player single chip · Servo controller and data channel processing · MPEG-1/MPEG-2/JPEG video decoding · AC-3/DTS/DVD-Audio/MP3 audio decoding · Unified track buffer and A/V decoding buffer · Video processing for scaling and video quality enhancement · OSD & Sub-picture decoding · Built-in clock generator Speed Performance on Servo and Decoding · DVD-ROM up to 8XS · CD-ROM up to 24XS · Built-in a frequency programmable clock to μp and RSPO decoder to optimize the
performance over power Channel Data Processor · Provides interface with analog front-end processor · Analog data slicer for small jitter capability · Built-in high performance data PLL for channel data demodulation · EFM/EFM+ data demodulation · Enhanced channel data frame sync protection & DVD-ROM sector sync protection Servo Control and Spindle Motor Control · Programmable frequency error gain and phase error gain of spindle PLL to control spindle motor on CLV
and CAV mode · Provide a varipitch speed control for CLV and CAV mode · Built-in ADCs and DACs for digital servo control · Provide 2 general PWM · Tray control can be PWM output or digital output · Built-in DSP for digital servo control Host Micro controller · Built-in 8032 micro controller · Built-in internal 373 and 8-bit programmable lower address port · 256-bytes on-chip RAM · Up to 1M bytes FLASH-programming interface · Supports 5/3.3-Volt. FLASH interface · Supports power-down mode · Supports additional serial port DVD-ROM/CD-ROM Decoding Logic · Supports CD-ROM Mode 1, CD-ROM XA Mode 2 Form 1, CD-ROM XA Mode 2 Form 2, and CD-DA
formats
45
SERVICE MANUAL
· High-speed ECC logic capable of correcting one error per each P-codeword or Q-codeword · Automatic sector mode and form detection · Automatic sector header verification · 8-bit counter for decode completion on ck · Automatically repeated error corrections · 8-bit C2 Pointer counter · Decoder Error Notification Interrupt that signals various decoder errors · Provide error correction acceleration Buffer Memory Controller · Supports 16Mb/32Mb/64Mb SDRAM · Supports 16-bit/32-bit SDRAM data bus interface · Build in a DRAM interface programmable clock to optimize the DRAM performance · Provide the self-refresh mode SDRAM · Programmable DRAM access cycle and refresh cycle timings · Block-based sector addressing · Programmable buffering counter for buffer status tracking · Maximum DRAM speed is 133MHz · Support 5/3.3-Volt. DRAM Interface Video Decode · Decodes MPEG1 video and MPEG2 main level,main profile video(720/480 and 720×576) · Maximum input bit-rate of 15Mbits/sec · Smooth digest view function with 1, P and B picture decoding · Baseline, extended-sequential and progressive JPEG image decoding · Support CD-G titles Video/SPU/HLI Processor · Arbitrary ratio vertical/horizontal scaling of video, from 0.25X to 256X · 256/16/4/2-color bitmap format OSD · 256/16 color RLC format OSD · Automactic scrolling of OSD image · Warp mode of OSD can reduce memory required · Dual Sub-picture decoder · Provides 4-color/32×32-pixel hardware cursor · Fade-in,Fade out,and Wipe functions as specified in the DVD Audio Specification and other slide show
transition effects Audio Processing - Decoder format supports. - Dolby Digital (AC-3) decoding - DTS decoding - MLP decoding for DVD-Audio - MPEG-1 layer 1/layer 2 audio decoding
46
SERVICE MANUAL
- MPEG-2 layer1/layer2 2-channel audio decoding - Dolby Pro Logic decoding · Up to 6 channel linear PCM output for DVD Audio/DVD Video · Downmix function · Support IEC 60958/61937 output - PCM/bit stream/mute mode - Custom IEC latency up to 2 frames
a) · Pink noise and white noise generator · Karaoke functions - Microphone echo with adjustable echo level, echo-depth and delay length - Microphone tone control with three custom second-order IIR filter - Vocal mute/vocal assistant - Key shift up to +/-8 keys controlled by 1/2 key · Channel equalizer · 3D surround processing include virtual surround and speaker separation · Power-down control · Outline · 208-pin LQFP package · 313/216-Volt Dual perating votages 2. Pin Definitions
Pin Symbol Type Description
1 IREF Analog Input Current reference input. It generate reference current for data PLL. Connect an external 100K resistor to this pin and PLLVSS.
2 PLLVSS Ground Ground for data PLL and related analog circuitry
3 LPIOP Analog Output Positive output of the low pass filter
4 LPION Analog Output Negative output of the low pass filter
5 LPFON Analog Output Negative output of loop filter amplifier
6 LPFIP Analog Input Positive input of loop filter amplifier
7 LPFIN Analog Input Negative input of loop filter amplifier
8 LPFOP Analog Output Positive output of loop filter amplifier
9 JITFO Analog Output RF jitter meter output
10 JITFN Analog Input Negative input of the operation amplifier for RF jigger meter
11 PLLVDD3 Power Power for data PLL and related analog circuitry
12 FOO Analog Output Focus servo output. PDM output of focus servo compensator
13 TRO Analog Output Tracking servo output PDM output of focus servo compensator
14 TROPENPWM Analog Output Tray open output, controlled by microcontroller. This is PWM output for TRWMEN27hRW2=1 or is digital output for TRWMEN27hRW2=0
15 PWMOUT 2 Analog Output The general PWM output
16 DVD2 Power 2.5V power
17 DMO Analog Output Disk motor control output PWM output (Continued) 47
SERVICE MANUAL
18 FMO Analog Output Feed motor control. PWM output
19 FG Inout, Pull Up Motor Hall sensor input
20 DVSS Ground Ground
21 HIGHA0 Inout, Pull Up Microcontroller address 8
22 HIGHA1 Inout, Pull Up Microcontroller address 9
23 HIGHA2 Inout, Pull Up Microcontroller address 10
24 HIGHA3 Inout, Pull Up Microcontroller address 11
25 HIGHA4 Inout, Pull Up Microcontroller address 12
26 HIGHA5 Inout, Pull Up Microcontroller address 13
27 DVSS Ground Ground
28 HIGHA6 Inout, Pull Up Microcontroller address 14
29 HIGHA7 Inout, Pull Up Microcontroller address 15
30 AD7 Inout Microcontroller address/data 7
31 AD6 Inout Microcontroller address/data 6
32 AD5 Inout Microcontroller address/data 5
33 AD4 Inout Microcontroller address/data 4
34 DVDD3 Power 3.3V power
35 AD3 Inout Microcontroller address/data 3
36 AD2 Inout Microcontroller address/data 2
37 AD1 Inout Microcontroller address/data 1
38 AD0 Inout Microcontroller address/data 0
39 IOA0 Inout, Pull Up Microcontroller address 0/GPIO0
40 IOA1 Inout, Pull Up Microcontroller address 1/GPIO1
41 DVDD2 Power 2.5V power
42 IOA2 Inout, Pull Up Microcontroller address 2/GPIO2 43 IOA3 Inout, Pull Up Microcontroller address 3/GPIO3
44 IOA4 Inout, Pull Up Microcontroller address 4/GPIO4
45 IOA5 Inout, Pull Up Microcontroller address 5/GPIO5
46 IOA6 Inout, Pull Up Microcontroller address 6/GPIO6
47 IOA7 Inout, Pull Up Micro controller address 7/GPIO7
48 A16 Output Flash address 16
49 A17 Output Flash address 17
50 IOA18 Inout Flash address 18/GPIO10
51 KOA19 Inout Flash address 19/GPIO11
52 DMVSS Ground Ground for DRAM clock circuitry
53 DMVDD3 Power Power for DRAM clock circuitry
54 ALE Inout, Pull Up Microcontroller address latch enable
55 LOOE# Inout Flash output enable, active low/GPIO13
56 LOWR# Inout Flash write enable, active low/GPIO17
57 LOCS# Inout, Pull Up Flash chip select, active low/GPIO18
58 DVSS Ground Ground
59 UP1-2 Inout, Pull Up Microcontroller port 1-2
60 UP1-3 Inout, Pull Up Microcontroller port 1-3
61 UP1-4 Inout, Pull Up Microcontroller port 1-4 (Continued)
48
SERVICE MANUAL
62 UP1-5 Inout, Pull Up Microcontroller port 1-5
63 UP1-6 Inout, Pull Up Microcontroller port 1-6
64 DVDD3 Power 3.3V power
65 UP1-7 Inout, Pull Up Microcontroller port 1-7
66 UP3-0 Inout, Pull Up Microcontroller port 3-0
67 UP3-1 Inout, Pull Up Microcontroller port 3-1
68 INT0# Inout, Pull Up Microcontroller interrupt 0, active low
69 IR Input IR control signal input
70 DVDD2 Power 2.5V power
71 UP3-4 Inout Microcontroller port 3-4
72 UP3-5 Inout Microcontroller port 3-5
73 UWR# Inout, Pull Up Microcontroller write strobe, active low
74 URD# Inout, Pull Up Microcontroller read strobe, active low
75 XTALI Input Crystal input, 27MHz
76 XTALO Output Crystal output
77 DVSS Ground Ground
78 RD7 Inout DRAM data 7
79 RD6 Inout DRAM data 6
80 RD5 Inout DRAM data 5
81 RD4 Inout DRAM data 4
82 DVDD2 Power 2.5V power
83 RD3 Inout DRAM data 3
84 RD2 Inout DRAM data 2
85 RD1 Inout DRAM data 1
86 RD0 Inout DRAM data 0
87 RWE# Output DRAM write enable, active low
88 CAS# Output DRAM column address strobe, active low
89 RAS# Output DRAM row address strobe, active low
90 RCS# Output DRAM chip select, active low
91 BA0 Output DRAM bank address 0
92 DVDD3 Power 3.3V power
93 RD15 Inout, Pull Up/Down DRAM data 15
94 RD14 Inout, Pull Up/Down DRAM data 14
95 RD13 Inout, Pull Up/Down DRAM data 13
96 RD12 Inout, Pull Up/Down DRAM data 12
97 DVSS Ground Ground
98 RD11 Inout, Pull Up/Down DRAM data 11
99 RD10 Inout, Pull Up/Down DRAM data 10
100 RD9 Inout, Pull Up/Down DRAM data 9
101 RD8 Inout, Pull Up/Down DRAM data 8
102 VPVDD3 Power Power for varipitch VCO circuitry
103 VCOCIN Analog Input Connect capacitor for compensator loop filter
104 VPVSS Ground Ground for varipitch VCO circuitry
105 DVSS Ground Ground (Continued)
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SERVICE MANUAL
106 CLK Output DRAM clock
107 CLE Output DRAM clock enable
108 RA11 Output DRAM address bit 11 or audio serial data 3 (channel 3/8)
109 RA9 Output DRAM address 9
110 RA8 Output DRAM address 8
111 DVDD2 Power 2.5V power
112 RA7 Output DRAM address 7
113 RA6 Output DRAM address 6
114 RA5 Output DRAM address 5
115 RA4 Output DRAM address 4
116 DVSS Ground Ground
117 DQM1 Output Mask for DRAM input/output byte 1
118 DQM0 Output Mask for DRAM input/output byte 0
119 BA1 Output DRAM bank address 0
120 RA10 Output DRAM address 10
121 DVDD2 Power 2.5V power
122 RA0 Output DRAM address 0
123 RA1 Output DRAM address 1
124 RA2 Output DRAM address 2
125 RA3 Output DRAM address 3
126 DVSS Ground Ground
127 RD31 Inout, Pull Up/Down DRAM data 31
128 RD30 Inout, Pull Up/Down DRAM data 30
129 RD29 Inout, Pull Up/Down DRAM data 29
130 RD28 Inout, Pull Up/Down DRAM data 28
131 DVDD3 Power 3.3V power
132 RD27 Inout, Pull Up/Down DRAM data 27
133 RD26 Inout, Pull Up/Down DRAM data 26
134 RD25 Inout, Pull Up/Down DRAM data 25
135 RD24 Inout, Pull Up/Down DRAM data 24
136 DVSS Ground Ground
137 DQM3 Output Mask for DRAM input/output byte 3
138 DQM2 Output Mask for DRAM input/output byte 2
139 RD23 Inout, Pull Up/Down DRAM data 23
140 RD22 Inout, Pull Up/Down DRAM data 22
141 DVDD2 Power 2.5V power
142 RD21 Inout, Pull Up/Down DRAM data 21
143 RD20 Inout, Pull Up/Down DRAM data 20
144 RD19 Inout, Pull Up/Down DRAM data 19
145 RD18 Inout, Pull Up/Down DRAM data 18
146 DVSS Guound Ground
147 RD17 Inout, Pull Up/Down DRAM data 17
148 RD16 Inout, Pull Up/Down DRAM data 16
149 ABCK Output Audio bit clock (Continued)
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SERVICE MANUAL
150 ALRCK Inout, Pull Down (1) Audio left/right channel clock (2) Trap value in power-on reset. 1:use external 373, 0:use internal 373
151 DVDD3 Power 3.3V power
152 ASDATA0 Inout, Pull Down Audio serial data 0 (left/right channel)
153 ASDATA1 Inout, Pull Down Audio serial data 1 (surround left/surround right channel)
154 ASDATA2 Inout, Pull Down Audio serial data 2 (center/LFE channel)
155 ACLK Inout Audio DAC master clock (384/256 audio sample frequency)
156 APVDD8 Power Power for audio clock circuitry
157 APVSS Ground Ground for audio clock circuitry
158 SPDIE Output SPDIF output
159 MC-DAT Input Miorophone serial input
160 BLANK# Inout Video blank area, active low/GPIO14
161 VSYN Inout Vertical sync/GPIO16
162 HSYN Inout Horizontal sync/GPIO15
163 DVSS Ground Ground
164 YUV0 Output Video data output bit 0
165 YUV1 Output Video data output bit 1
166 YUV2 Output Video data output bit 2
167 YUV3 Output Video data output bit 3
168 YUV4 Output Video data output bit 4
169 DVDD2 Power 2.5V power
170 YUV5 Output Video data output bit 5
171 YUV6 Output Video data output bit 6
172 YUV7 Output Video data output bit 7
173 ICE Input, Pull Down Microcontroller ICE mode enable
174 PRST Input, Pull Down Power on reset input, active high
175 DVSS Ground Ground
176 VFO13 Output The 1st, 3rd VFO pulse output of DVD-RAM ID header
177 IDGATE Output DVD-RAM ID header detect signal output
178 DVDD3 Power 3.3V power
179 UDGATE Output DVD-RAM recording data gate singal output
180 WOBSI Input Wobble signal output
181 SDATA Output RF serial data output
182 SDEN Output RF serial data latch enable
183 SLCK Output RF serial clock output
184 BDO Input, Pull Down Flag of defect data status input
185 DVDD3 Power 3.3V power
186 PDMVDD3 Power Power for PDM circuitry
187 PWMVREF Analog Input A reference voltage input for PWM circuitry. A typical value of 2.8v
188 PWM2VREF Analog Input A reference voltage input for PWM circuitry. A typical value of 1.4v
189 PDMVSS Ground Ground for PDM circuitry
190 ADCVSS Ground Ground for ADC circuitry
191 ADIN Analog Input General AVD input (Continued)
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SERVICE MANUAL
192 RFSUBI Analog Input RF subtraction signal input terminal
193 TEZISLV Analog Input Tracking error zero crossing low pass input
194 TEI Analog Input Tracking error input
195 CSO Analog Input Central servo input
196 FEI Analog Input Focus error input
197 RFLEVEL Analog Input Sub beam add input or RFRP low pass input
198 RFRP-DC Analog Input RF ripple detect input
199 RFRP-AC Analog Input RF ripple detect input (through AC coupling)
200 RFRPSLV Analog Input RFRP slice level input
201 HRFZC Analog Input High frequency RF ripple zero crossing
202 ADCVDD8 Power Power for ADC circuitry
203 RADTSI VP Analog Output Positive RF data slicer level output
204 SCON Analog Output Negative analog slicer current output
205 SCOP Analog Output Positive analog slicer current output
206 RFDTSLVN Analog Output Negative RF data slicer level output
207 RFIN Analog Input Negative input of RF differential signal
208 RFP Analog Input Positive input of RF differential signal
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SERVICE MANUAL
MT1336E RF amplifier 1.General Description MT1336 is a high performance CMOS analog front-end IC for both CD_ROM driver up to 48XS and DVD_ROM driver up to 16XS. It also supports DVD_RAM lead up to 4XS Version 2. It contains servo amplifiers to generate focusing error, 3-beam tracking error, 1 beam radial push-pull signal, RF level and SBAD for servo functions. It also includes DPD tracking error signal for DVD_ROM application. For DVD_RAM disks, there are also Differential Push-Pull (DPP) method for generating tracking signal and Differential Astigmatic Detection (DAD) for processing focusing signal. Programmable equalizer and AGC circuits are also incorporated in this chip to optimize read channel performance. In addition, this chip has dual automatic laser power control circuits for DVD-ROM (DVD-RAM) and CD-ROM separately and reference voltage generators to reduce external components. Programmable functions are implemented by the access of internal register through bi-directional serial port to configure modes selection. 2. Features · RF equalizer with programmable fc from 3MHz to 70MHz and programmable boost from 3dB to 13dB. · MT1336 supports at least eight different kinds of pick-up heads with versatile input configuration for both
RF input stages and servo signal blocks. · 3 beams tracking error signal generator for CD_ROM application. · One beam differential phase tracking error (DPD) generator for DVD_ROM application. · Differential push pull tracking error (DPP) generator for DVD_RAM application. · Focusing error signal generator for CD-ROM, DVD-ROM and DVD-RAM (DAD method). · RF level signal generator. · Sub-beam added signal for 3 beams CD-ROM. · One beam push-pull signal generator for central servo application. · High speed RF envelop detection circuit with bandwidth up to 400KHz for CD-ROM. · Defect and Blank detection circuits. · Dual automatic laser power control circuits with programmable level of LD monitor voltage. · Vref=1.4V voltage and V2ref=2.8V voltage generators. · V20=2.0V voltage for pick-up head reference. · Bi-directional serial port to access internal registers. · 128-pin LQFP.
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SERVICE MANUAL
3. block Diagram
Fig17. MT1336 Function Block Diagram
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SERVICE MANUAL
4.MT1336 Pin Descriptions
Pin
Numbers Symbol Type Description
LQFP128
RF Flag Interface
23 DEFECT Digital Output Flag of bad data output status
RF SIO interface
56 SCLK Digital Input RF serial clock input
58 SDEN Digital Input RF serial data input
59 SDATA Digital IO RF serial data IO
60 RST Digital Input Reset(active high)
55 XCK16M Digital Input 16.9MHz for verification
RF SERVO interface
40 UOG ATE Digital Input Control signal for DVD-RAM
41 GGATE Digital Input Control signal for DVD RAM
38 VFO13 Digital Input DVD-RAM Header signal
RF
100 DVDA Analog Input AC coupled DVD RF signal input A
99 DVDB Analog Input AC coupled DVD RF signal input B
98 DVDC Analog Input AC coupled DVD RF signal input C
97 DVDD Analog Input AC coupled DVD RF signal input D
95 DVDRFIN Analog Input AC coupled DVD RF signal input RFIN
96 DVDRFIP Analog Input AC coupled DVD RF signal input RFIP
94 CDA Analog Input AC coupled CD RF signal input A
93 CDB Analog Input AC coupled CD RF signal input B
92 CDC Analog Input AC coupled CD RF signal input C
91 CDD Analog Input AC coupled CD RF signal input D
90 OSN Analog RF offset cancellation capacitor connecting
89 OSP Analog RF offset cancellation capacitor connecting
85 CEQP Analog RF offset cancellation capacitor connecting
84 CEQN Analog RF offset cancellation capacitor connecting
88 RFGC Analog RF AGC loop capacitor connecting for DVD-ROM
87 RFGCU Analog RF AGC loop capacitor connecting for DVD-RAM
86 RFGCU Analog RF AGC loop capacitor connecting for DVD-RAM
101 MA Analog Input DC coupled DVD-RAM main-beam RF signal
input A
55 (Continued)
SERVICE MANUAL
102 MB Analog Input DC coupled DVD-RAM main-beam RF signal input B
103 MC Analog Input DC coupled DVD-RAM main-beam RF signal input C
104 MD Analog Input DC coupled DVD-RAM main-beam RF signal input D
105 SA Analog Input DC coupled DVD-RAM sub-beam RF signal input A
106 SB Analog Input DC coupled DVD-RAM sub-beam RF signal input B
110 SC Analog Input DC coupled DVD-RAM sub-beam RF signal input C
111 SD Analog Input DC coupled DVD-RAM sub-beam RF signal input D
108 IR Analog External current bias resistor (R=20K) 119 AGC1 Analog Wobble AGC loop1 capacitor 121 AGC2 Analog Wobble AGC loop2 capacitor 122 AGC3 Analog Wobble AGC loop3 capacitor
127 RFSUBO Analog Output
Header push-pull RF output signal
V OBSO Digital Output Wobble signal output
5 RFOP Analog Output
RF positive output
7 PFON Analog Output
RF negative output
TRACKING ERROR
32 DPFN Analog DPD amplifier negative input
33 DPFO Analog DPD amplifier output
61 DPDMUTE Digital Input DPD mute control input
116 TNI Analog Input 3 beam satellite PD signal negative input E
115 TPI Analog Input 3 beam satellite PD signal negative input F
21 TEO Analog Output Tracking error output
FOCUSING ERROR & RF LEVEL & CENTRAL SERVO SIGNAL
112 CDFOP Analog Input CD focusing error positive input
113 CDFON Analog Input CD focusing error negative input
18 FEO Analog Output Focusing error output
19 LVL Analog Output RF level output
(Continued)
20 CSO Analog Output Central servo signal output
124 MDI1 Analog Input Laser power monitor input
125 LDO1 Analog Output Laser driver output
MDI2 Analog Input Laser power monitor input
ALPC
56
123
SERVICE MANUAL
57
126 LDO2 Analog Output Laser driver output
RF RIPPLE
26 CRTP Analog RF top envelop filter capacitor connecting
27 CRTPLP Analog Defect level filter capacitor connecting
25 HRFRP Analog output High frequency RF ripple output or Blank detector’s
output
24 LRFRP Analog output Low frequency RF ripple output
POWER
67, 69 AVDD Power Master PLL filter power
65, 73 AGND GND GND for Master PLL filter
64 AVDD Power DPD Power
62 AGND GND DPD GND
109 AVDD Power RF path Power
107 AGND GND RF path GND
114 SVDD Power Servo Power
117 SGND GND Servo GND
2,120 WAVDD Power Wobble Power
128, 118 WAGND GND Wobble GND
5 AVDDO Power Power for RF output
8 AGNDO GND GND for RF output
14 AVDDT Power Power for trimming PAD
12 AGNDT GND GND for trimming PAD
22 VDDP Power Peak Detection Power
31 GNDP GND Peak Detection GND
37, 54 VDD Power Serial I/O Power
39, 57 GND GND Serial I/O GND
REFERENCE VOLTAGE
16 VREFO Analog output Reference voltage 1.4V
15 V2REFO Analog output Reference voltage 2.8V
17 V20 Analog output Reference voltage 2.0V
ALPC TRIMMING
9 TM1 Analog input Trimming pin for ALPC1
10 TM2 Analog input Trimming pin for ALPC1
11 TM3 Analog input Trimming pin for ALPC2
13 TM4 Analog input Trimming pin for ALPC2
HIGH SPEED TRACK COUNTING
29 TRLP Analog Low-pass filter capacitor connecting (Continued)
SERVICE MANUAL
28 TRLPA Analog Low-pass filter capacitor connecting
30 HTRC Digital output High speed track counting digital output
PCS
74 HALLSIN Analog input Negative input of amplifier for hall sensor signal
75 REFSIN Analog input Positive input of amplifier for hall sensor signal
76 SINPHI Analog output Amplifier output for hall sensor signal
71 HALLCOS Analog input Negative input of amplifier for hall sensor signal
72 REFCOS Analog input Positive input of amplifier for hall sensor signal
70 COSPHI Analog output Amplifier output for hall sensor signal
FOR MONITOR ONLY
81 MON Analog output
80 MOP Analog output
66 VCON Analog output
77 SWO Analog output Output from mux of SW1 & SW2
78 SW2 Analog input External input for servo input select
79 SW1 Analog input External input for servo input select
FOR SERIAL I/O
42 IO0
43 IO1
44 IO2
45 IO3
46 IO4
47 IO5 58
SERVICE MANUAL
CS4334 Audio D/A Controller 1. Features Complete Stereo DAC System:
Interpolation, D/A, Output Analog Filtering 24-Bit Conversion 96 dB Dynamic Range –88 dB THD+N Low Clock jitter Sensitivity Single +5V Power Supply Filtered Line Level Outputs On-Chip Digital De-emphasis PopguardTM Technology Functionally Compatible with
CS4330/31/33
2. Description The CS4334 family members are complete, stereo digital-to-analog output systems including interpolation, 1-bit D/A conversion and output analog filtering in an 8-pin package. The CS4334/5/6/7/8/9 support all major audio data interface formats, and the individual devices differ only in the supported interface format. The CS4334 family is based on delta-sigma modulation, where the modulator output controls the reference voltage input to an ultra-linear analog low-pass filter. This architecture allows for infinite adjustment of sample rate between 2 kHz and 100 kHz simply by changing the master clock frequency. The CS4334 family contains on-chip digital de-emphasis, operates from a single +5V power supply, and requires minimal support dircuitry. These features are ideal for set-top boxes, DVD players, SVCD players, and A/V receivers.
3. Block Diagram
Fig.18
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CS4955 Video Encoder 1. Features Six DACs providing simultaneous
composite, S-Video, and RGB or Component YUV outputs Programmable DAC output currents for low
impedance (37.5Ω ) and high impedance (150Ω) loads.
Multi-standard support for NTSC-M, NTSC-JAPAN, PAL (B, D, G, H, I, M, N, Combination N)
ITU R.BT656 input mode supporting EAV/SAV codes and CCIR601 Master/Slave input modes
Programmable HSYNC and VSYNC timing Multistandard Teletext (Europe, NABTS, WST) support
VBI encoding support Wide-Screen Signaling (WSS) support, EIA-J
CPX1204 NTSC closed caption encoder with interrupt CS4955 supports Macrovision copy
protection Version 7 Host interface configurable for parallel or I2C
compatible operation On-chip voltage reference generator +3.3 V or +5V operation CMOS. low-power
modes, tri-state DACs
2. Description The CS4954/5 provides full conversion from digital video formats YCbCr or YUV into NTSC and PAL Composite, Y/C (S-Video) and RGB, or YUV analog video. Input formats can be 27 MHz 8-bit YUV, 8-bit YCbCr, or ITU R.BT656 with support for EAV/SAV codes. Video output can be formatted to be compatible with NTSC-M, NTSC-J, PAL-B, D, G, H, I, M, N, and combination N systems. Closed Caption is supported in NTSC. Teletext is supported for NTSC and PAL. Six 10-bit DACs provide two channels for an S-Video output port, one or two composite video outputs, and three RGB or YUV outputs. Two-times oversampling reduces the output filter requirements and guarantees no DAC-related modulation components within the specified bandwidth of any of the supported video standards. Parallel or high-speed I2C compatible control interfaces are provided for flexibility in system design. The parallel interface doubles as a general purpose I/O port when the CS4954/5 is in I2C mode to help conserve valuable board area. Package: CS4954CQ/CS4955CQ 48-Pin TQFP
3. Block Diagram
Fig. 19
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SERVICE MANUAL
BA5954 Focus/tracking Coil and Feed Motor Drive
1. Functions BA5954FM is a 4 channel driver for optical disc motor driver. Dual channel current feedback type
drivers are built in, in addition to dual channel motor drivers.
Wide dynamic range (4.0V (typ.) at PreVcc=12V, PVcc=5V, RL=8Ω)
Separating Vcc into Pre+Power of sled motor, Power of loading motor and Power of actuator, can make better power efficiency, by low supply voltage drive.
Level shift circuit built in.
Thermal-shut-down circuit built in.
Stand-by mode built in.
<Actuator driver>
Current phase lag influenced load inductance is little, because this type is current feedback.
< Sled motor driver >
Input pins consist of (+) and (-), therefore various input types are available such as differential input.
<Loading driver >
This is a single input linear BTL driver. 2. Pin Description No. Symbol Function No. Symbol Function 1 VINFC Input for focus driver 15 VOTK+ Non inverted output of tracking 2 CFCerr1 16 VOTK- Inverted output of tracking 3 CFCerr2
Connection with capacitor for error amplifier 17 VOLD+ Non inverted output of loading
4 VINSL+ Non inverting input for Op-amp 18 VOLD- Inverted output of loading 5 VINSL- Inverting input for OP-amp 19 PGND GND for power block 6 VOSL Output of OP-amp 20 VNFTK Feedback for tracking driver 7 VNFFC Feedback for focus driver 21 PVcc2 Vcc for power block of actuator
8 Vcc Vcc for pre-drive block and power block of sled
22 PreGND GND for pre-drive block
9 PVcc1 Vcc for power block of loading 23 VINLD Input for loading driver 10 PGND GND for power block 24 CTKerr2 11 VOSL- Inverted output of sled 25 CTKerr1
Connection with capacitor for error amplifier
12 VOSL+ Non inverted output of sled 26 VINTK Input for tracking driver 13 VOFC- Inverted output of focus 27 BIAS Input for reference voltage 14 VOFC+ Non inverted output of focus 28 STBY Input for stand-by control Notes: Symbol of + and – (output of drivers) means polarity to input pin. (For example if voltage of Pin1 is high, Pin14 is high.)
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SERVICE MANUAL
NJM4558M Sound Amplifier 1. General Description
The NJM4558/4559 integrated circuit are a dual high-gain operational amplifier internally compensated and constructed on a single silicon chip using an advanced epitaxial process. Combining the features of the NJM741 with the close parameter matching and tracking of a dual device on a monolithic chip results in unique performance characteristics. Excellent channel separation allow the use of the dual device in single NJM741 operational amplifier applications providing density. It is especially well suited for applications in differential-in, differential-out as well as in potentiometric amplifiers and where gain and phase matched channels are mandatory.
5. Package Outline
Fig. 20 2. Features
Operating Voltage ( ±4V~±18V ) High Voltage Gain ( 100dB typ. ) High Input Resistance ( 5MΩ typ. ) Rackage Outline DIP8. DMP8. SIP8. SSOP8 Bipolar Technology 3. Pin Configuration Fig. 21 4. Equivalent Circuit (1/2 Shown) Fig. 22 24C01 62
SERVICE MANUAL
1K EEPROM
4. Block Diagram
3. Package Types 1. Features Single supply with 5.0V operation Low power CMOS technology
- 1 mA active current typical - 10 μA standby current typical at 5.0V - 5μA standby current typical at 5.0V
Organized as a single block of 128 bytes (128×8) or 256 bytes (256×8) 2-wire serial interface bus, I2C compatible 100KHz compatibility Self-timed write cycle(including auto-erase) Page-write buffer for up to 8 bytes 2 ms typical write cycle time for page-write Hardware write protect for entire memory Can be operated as a serial ROM ESD protection > 3,000V 1,000,000 ERASE/WRITE cycles guaranteed
Data retention > 200 years 8 pin DIP or SOIC package Available for extended temperature ranges
- Automotive(E) -40 to +125 2. Description The Microchip Technology Inc. 24C01B and
24C02B are 1K bit and 2K bit Electrically Erasable PROMs The devices are organized as a single block of 128×8 bit or 256×8 bit memory with a 2-wire Fig. 23 serial interface. The 24C01B and 24C02B also have page-write capability for up to 8 bytes of data. The 24C01B and 24C02B are available in the standard 8-pin DIP and an 8-pin surface mount SOIC package. These devices are for extended temperature applications only. It is recommended that all other applications use Microchip’s 24LC01B/02B.
Pin Function Table Name Function Vss SDA SCL WP Vcc NC
Ground Serial Address/Data I/O Serial Clock Write Protect Input +5.0V Power Supply No Internal Connection
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SERVICE MANUAL
SERVICE DATA OF KEY ICS
Table 14 Service Data of Key ICs Digital Multimeter
Position Pin No. Operating Voltage (V)
7 RF signal 0.9-1.5VP-P U1 (MT1336E)
2,5,14,64,67,69,109,114,120 5
16,41,70,82,111,121,141,169 2.5
U3 (MT1369AE) 11,34,53,64,92,102,131,151, 156, 178,185,186,202
3.3
12 0 U7 (8M FLASH)
14 Non-cyclical pulse 8 10.6 9,21 5 U21 (BA5954) 11,12,13,14,15,16,17,18 2.5
64
1. Switch Mode Power Supply 1.1 No picture, sound and raster
1.2 The SMPS has no voltage output.
1.3 The SMPS outputs voltage lower than the rated value.
TROUBLESHOOTING FLOW CHARTS
SERVICE MANUAL
TROUBLESHOOTING FLOW CHARTS FOR TV UNIT
65
1.4 The SMPS outputs voltage higher than the rated value. 1.5 The power indicator lights, but the SMPS is still in the Standby mode. 2. Control System 2.1 The power indicator lights, but the CPU cannot enter the Operation mode
after power-on again.
SERVICE MANUAL
66
2.2 No characters display 2.3 Channel number remains unchanged during auto program.
SERVICE MANUAL
67
3. Video Signal Processor 3.1 A horizontal bright line appears on the screen. 3.2 No color but with normal monochrome picture
SERVICE MANUAL
68
4. Horizontal/Vertical Scan Circuit 4.1 No raster but with sound
SERVICE MANUAL
69
4.2 No picture and no sound but with raster 5. Audio System
No sound
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Debugging begins.
Supply power to thepower PCB separately.
AC power comes up to the power PCB input standard?
All voltages from the power PCB conform to the requirements?
Supply power to theDEMO PCB after noshort circuit confirmed.
Check the outputvoltages +3.3V and+2.5V from the DEMOPCB for normality.
Connect the unit to a computer and program FLASH on the DEMO PCB
Programming of FLASH succeeded?
YES
YES
A
NOReplace the power PCB.
NORepair or replace thepower PCB until thevoltage output meets therequirements.
Detect regulators or diodes of the two sets of power to get normal voltage output.
NO
1) Test frequency and amplitude of the main clock.2) Check the system RESET circuit for normality.3) Check the read enabling lines FRD and FWR of FLASH for normality.4) Check RS232 signal for normality.5) Check the peripheral circuit of FLASH.
NO
SERVICE MANUAL
YES
YES
TROUBLESHOOTING FLOW CHARTS FOR DVD UNIT
71
YES
B
YES
A
Check connectionbetween FLASH andMT1369. FLASH runsfast enough?
Access to FLASH normally?
Reset or power on again.
LOGO display or not?
Check if the disc tray can be closed automatically.
NO NO
Check connectionbetween SDRAM andMT1369, and SDRAMfor normality.
SDRAM works normally?NO
Check MT1369 andconnection between itand the TV encoder.
Check the data receivedby the TV encoder forcorrectness.
NO
Check peripheral circuitof the TV encoder.
The TV encoder outputs normally?
NO
Check connectionsbetween the videofilter/video AMP and theTV.
Check the limit switchon the loader.
NOCheck the signalsTROUT and TRIN for normality.
Check the signalsTRCLOSE andTROPEN for normality.
Check the signals LOAD+ and LOAD- for normality.
Check connection to theloader.
YES
YES
YES
NO
Check the circuitbetween the MT1336and driver of the disctray.
NO
Check driver of the disc tray.
NO
YES
YES
YES
YES
SERVICE MANUAL
72
YES
YES
B
Check the circuitconnected to STBY.
Level for Pin STBY of the motor driver is high?
When in the external coil,SLED can automaticallyenter the internal coil?
Check if FOCUS runswhen searching discs.
NO NO
Check the circuitconnected to FMSO.
Level of FMSO exceedsthe medium level by1.4V?
NO
Check the motor driver(BA5954).
Check the signals SL+and sL- for normality.
NO
Check connectionbetween MT1369 andBA5954 or check ifMT1369 works.
Check connection to theloader.
NO Output from FOCUS to the motor driver?
Check the peripheralcircuit of BA5954.
NO Check the drive signals F+ and F- for normality.
Check the circuit between the pickup head and BA5954.
YES
NO
No disc.
YES
YES
YES
YES
C
SERVICE MANUAL
73
D
YES
C
Check the peripheralcircuit of MT1336 andcircuit connected to thetriode.
LD01 and LD02 OK?When reading a disc, laser on OK?
Disk ID OK?
NO NO
Check the triode and itsperipheral circuit.
Check the collectorvoltage of triode fornormality.
NO
Check the circuitbetween MT1336 andlaser head.
Laser off.
NO
Check the peripheralcircuit of MT1336.
Signals input to pins A,B,C, D, E and F ofMT1336?
NO
Check circuit betweenMT1336's FEO andMT1369.
Check MT1336 and its peripheral circuit.
NO MT1336's RFL outputs normally?
Check the circuit between MT1336 and MT1369.
YES
NO
Focus on OK?
Discs placed?
Check signal fromMT1336 to FEO fornormality.
Check the circuitbetween the laser headand triode.
NO
NO
YES
YES
YES
YES
YES
YES
YES
SERVICE MANUAL
74
Spindle revolves?
Track on OK?
YES
E
NO MT1369's DMSO outputs normally?
NO MT1336 outputs correct TEO signal?
Check RF signal.
D
YES
Disk is ready?
NO
YES
Check the signals SP+ and SP- for normality.
YES
Check the circuit between the spindle and BA5954.
MT1339 outputs correct TRSO signal?
YES
The signals T+ and T- output normally?
YES
YES
Check MT1369 and its peripheral circuit.
NO Check BA5954 and i ts peripheral circuit.
NO Check the peripheral circuit of MT1336.
NOCheck the circuit between MT1369 and BA5954 's TRSO signal.
NO Check the peripheral circuit of BA5954.
NO
Check the circuits between T+/T- and laser head.
YES
SERVICE MANUAL
75
YES
E
Check MT1369 and the circuit between it and AUDIO DAC.
Check if data received by AUDIO DAC for Correctness.
Check audio output for normality during playback.
NO NO
Check the peripheral circuit of AUDIO DAC.
AUDIO DAC outputs correctly?
NO
Check connection between MT1369 and module, and the peripheral circuit of IR, VFD and drive IC.
NO
Check communication between the IR/VFD/control buttons and MT1369 for normality.
Debugging completed.
The IR, VFD and control buttons work normally?
Check connections to the remote control, button matrix and VFD.
Check connections to audio filter, audio amplifier, mute and output.
NO
YES
YES
YES
YES
SERVICE MANUAL
76
Circuit Diagram for AT1314DV
N-COMB PCB ASSEMBLY
DVD Power PCB
BTSC PCB
RMAINRMAIN
LMAINLMAIN
75,1%75,1%
R116R116
75,1%75,1%
R111R111
75,1%75,1%
R105R105
SPDIF Interface ( Coaxial )SPDIF Interface ( Coaxial )
55
AA
ASPDIFASPDIF
100100
R109R109100100
R107R107
330p330p
C119C119
SPDIFOUTSPDIFOUT
0.1u0.1u
CB106CB106
200200
33UH/030733UH/0307
BB-P12V-P12V
33UH/030733UH/0307
L13L13
CC
+P12V+P12V
33UH/030733UH/0307
L11L11
ASPDIFASPDIF
VCCVCC
[ 2 ][ 2 ]
L14L14
ASPDIFASPDIF
Y/CVBS2Y/CVBS2
CHROMACHROMA
100uF/16V100uF/16V
CB86CB86
0.1u0.1u
C78C78
++
-12V-12V
R118R118
200200
R114R114
CVBS1CVBS1
100uF/16V100uF/16V0.1u0.1u
CB81CB81 C73C73++
+12V+12V
+5VV+5VV
200200
R108R108
(9)(9)
T_SCT_SC
T_SYT_SY
VGNDVGND
T_CVBST_CVBS
[ 1,2,3,4 ][ 1,2,3,4 ]
[ 4 ][ 4 ]
[ 4 ][ 4 ]
[ 4 ][ 4 ]
VGNDVGND
T_CVBST_CVBS
T_SCT_SC
LMAINLMAIN
AGNDAGND
A_MUTEA_MUTE
[ 1,2,3,4 ][ 1,2,3,4 ]
[ 4 ][ 4 ]
[ 4 ][ 4 ]
T_SYT_SY
AGNDAGND
A_MUTEA_MUTE
DDRMAINRMAIN[ 4 ][ 4 ]
RMAINRMAIN
LMAINLMAIN
+12V+12V
-P12V-P12V
VCCVCC
+P12V+P12V
[ 1,2,3,4 ][ 1,2,3,4 ]
[ 4 ][ 4 ]
[ 1 ][ 1 ]
[ 1 ][ 1 ]
VCCVCC
+12V+12V
+P12V+P12V
-P12V-P12V
55
++
10u10u
C83C83
+5VV+5VV
0.1u0.1u
CB92CB92
44
11
1N41481N4148
33
MediaTek IncorporationMediaTek Incorporation
Document NumberDocument Number
Wednesday, July 24, 2002Wednesday, July 24, 2002
DVD130(MT1369AE)DVD130(MT1369AE)
22
BB EE
39063906
CC
Date:Date:
SizeSize
CC
TitleTitle
11
11
SheetSheet 55
AV OUTPUTAV OUTPUT
ofof 55
RevRev
22
AA
(OPEN0(OPEN0
(OPEN0(OPEN0
39063906
Q20Q20
+5VV+5VV
10p10p
1.8uH/08051.8uH/0805
L18L18
220p220p
C131C131
C128C128
39063906
Q18Q18 1.8uH/08051.8uH/0805
220p220p
C125C125
10p10p
C121C121
L17L17
+5VV+5VV
220P220P
C132C132
2211
22
D13D13
1N41481N4148
100U100U
++
C98C98
D11D11
220P220P
C126C126
1122
1122
1N41481N4148
D9D9
++
100U100U
C97C971N41481N4148
D7D7
(OPEN0(OPEN010p10p
+5VV+5VV
39063906
Q16Q16
220p220p
1.8uH/08051.8uH/0805
L16L16
C117C117
+5VV+5VV
C114C114
D3D3
+5VV+5VV
11
220P220P
C118C118
2211
1N41481N4148
D5D5
++
1N41481N4148
100U100U
C99C99
+5VV+5VV
22
HM102/0805HM102/0805
FB6FB6
HM102/0805HM102/0805
FB5FB5
B/CbB/Cb
200200
R92R92
G/YCVBS2G/YCVBS2
R90R90
200200
HM102/0805HM102/0805
FB4FB4 R/CrR/Cr
200200
R87R87
(9)(9)
SSOP8SSOP8
SSOP8SSOP8
-12V-12V
-12V-12V
+12V+12V
+12V+12V
NJM4580NJM4580
NJM4580NJM4580
R75R75R74R74
267k267k
R76R76
10u10u
++
C80C80
10k10k
R77R77
10k10k
R71R71
267k267k 10k10k
R72R72
2000p2000p
C82C82
5.1k5.1k
55
66
88
++
--
44
U9BU9B
18K18K
2000p2000p
R70R70
220p220p
C79C79
88
10u10u
++
C75C75
10k10k
R66R66
44
C77C77
5.1k5.1k
R67R67
18K18K
R64R64
33
22
220p220p
++
-- U9AU9A
44
C74C74
(9)(9)
A_MUTEA_MUTE Q9Q9
10u10u
C81C81
77 ++
100100
R73R73
A_MUTEA_MUTE
100P100P
CB87CB87
39043904
Q10Q10
100P100P
39043904
10u10u
C76C76
11 ++
100100
R68R68
33
CB82CB82
1N41481N4148
D14D14
1N41481N4148
D10D10
1N41481N4148
D12D12
1N41481N4148
D4D4
1N41481N4148
D8D8
1N41481N4148
D6D6
75,1%75,1%
R91R91
Q22Q22
39063906
+5VV+5VV
75,1%75,1%
R89R89
39063906
Q21Q21
1.8uH,DIP1.8uH,DIP
220p220p
C95C95
L23L23
10p10p
C93C93
220P220P
C94C94
1122
22
+5VV+5VV
220p220p
C92C92
1.8uH,DIP1.8uH,DIP
L21L21
10p10p
C90C90
220P220P
C91C91
1111
2222
75,1%75,1%
+5VV+5VV
Q19Q19
39063906
R88R88
+5VV+5VV
1.8uH,DIP1.8uH,DIP
220p220p
C51C51
L19L19
+5VV+5VV
11
220P220P
C89C89
2211
10p10p
C86C86
22
+5VV+5VV
B/Cb-OUTB/Cb-OUT
HM102/0805HM102/0805
FB3FB3
G/Y/CVBS2-OUTG/Y/CVBS2-OUT
HM102/0805HM102/0805
FB2FB2
BB
R/Cr-OUTR/Cr-OUT
HM102/0805HM102/0805
FB1FB1
CC
CB83CB83
33UH/030733UH/0307
L15L15
(8)(8)
RCHRCH
100P100P
CB88CB88
100P100P
(8)(8)
SCSC
33UH/030733UH/0307
L12L12
LCHLCH
22
LCHLCH
RCHRCH
S-videoS-video
22
33
11
44 SYSY
66
J1J1SPDIFSPDIF
SPDIFOUTSPDIFOUT55
AUDIOAUDIO
11
44
22
7733
66
55
J2J2
CVBSCVBS
CVBSCVBS
11
DD
C i rcu i t D iagram for DVD130A (1)
2 RF / SERVO & MPEG - MT1336E / MT1369E2 RF / SERVO & MPEG - MT1336E / MT1369E
3 MEMORY - SDRAM, FLASH/EEPROM3 MEMORY - SDRAM, FLASH/EEPROM
MT1369E (LQFP208) DVD MP Board for Sanyo SF-HD6AV PUHMT1369E (LQFP208) DVD MP Board for Sanyo SF-HD6AV PUH
4 AUDIO - CS4334, VIDEO - CS4954/554 AUDIO - CS4334, VIDEO - CS4954/55
+P5V+P5V
33UH/030733UH/0307
L8L8
33UH/030733UH/0307
L7L7
55
AA
+PS5V+PS5V
Pitch=2.54 m/mPitch=2.54 m/m
+P5V+P5V
0.1u0.1u
RVCCRVCC
CB68CB68
AVCCAVCC
0.1u0.1u
CB69CB69
++
RVCCRVCC
C66C66
100U100U
++
AVCCAVCC
C67C67
100U100U
VCCVCC
0.1u0.1u
CB65CB65
++
VCCVCC
C64C64
100U100U
MT1369EMT1369EAV33AV33 Servo 3.3VServo 3.3V
-P22V-P22V
AC35V-AC35V-
AC35V+AC35V+
BB
VV||
11
CON12CON12
~3.5V~3.5V
~3.5V~3.5V
-22V-22V
1212
1111
1010
3.6V3.6V
GNDGND
S5VS5V
GNDGND
D5VD5V
GNDGND
-12V-12V
66
99
88
77
55
44
33
AC35V-AC35V-
AC35V+AC35V+
SGNDSGND
-P22V-P22V
+P3.6V+P3.6V
PGNDPGND
GNDGND
+PS5V+PS5V
PGNDPGND
+P5V+P5V
-P12V-P12V
CC
JP7JP7
+12V+12V
GNDGND 22
11 +P12V+P12V
PGNDPGND
+5VV+5VV
+12V+12V
+3VV+3VV
+5VA+5VA
V25V25
0.1u0.1u
CB62CB62
-P12V-P12V
CB60CB60
0.1u0.1u
++
220u220u
C61C61
220u220u
C59C59++
MT1369EMT1369E
Audio filterAudio filter
Audio DACAudio DAC
Video DACVideo DAC
Video DACVideo DAC
+P12V+P12V
Video 5VVideo 5V
Audio 12VAudio 12V
Audio 5VAudio 5V
Digital 2.5VDigital 2.5V
Video 3.3VVideo 3.3V
3-SY3669P2-V23-SY3669P2-V2
DV33DV33
V33V33
AVCCAVCC
VCCVCC
RVCCRVCC
NAMENAME
DD
55
MT1336EMT1336E
MT1369EMT1369E
PICKUP HEADERPICKUP HEADER
5 AV FILTER.5 AV FILTER.
SUPPLYSUPPLY
SDRAM, Flash, VideoDACSDRAM, Flash, VideoDAC
DEVICEDEVICE
Digital 3.3VDigital 3.3V
Digital 3.3VDigital 3.3V
RF 5VRF 5V
Digital 5VDigital 5V
Servo 5VServo 5V
TYPETYPE
1 INDEX & POWER, RESET1 INDEX & POWER, RESET
44
CB67CB67
0.1u0.1u
100u100u++ C63C63
0.1u0.1u
CB64CB64
+P36V+P36V
GNDGND11
33
GNDGND
G950T63UG950T63U
VIVI VOVO
SOT223SOT223
U12U12
SOT223SOT223
VOVO
G960T63UG960T63U
U11U11
33VIVI
22
33
11
22
CB66CB66
0.1u0.1u
CB63CB63
0.1u0.1u
++
C65C65
100u100u
220u220u
C62C62
33UH/030733UH/0307
L6L6 0.1u0.1u
CB61CB61
++
V33V33
220u220u
++
C60C60
(OPEN)(OPEN)
(6)(6)
V25V25
1N40011N4001
D2D2
V25V25
DV33DV33
AV33AV33
DV33DV33
AV33AV33
MediaTek IncorporationMediaTek Incorporation
Document NumberDocument Number
Wednesday, July 24, 2002Wednesday, July 24, 2002
DVD130(MT1369AE)DVD130(MT1369AE)
22
Date:Date:
SizeSize
CC
TitleTitle
11
SheetSheet 11
Index & POWER Index & POWER
ofof 55
RevRev
22
URSTURST URSTURST
AA
[ 2 ][ 2 ]
33UH/030733UH/0307
+P36V+P36V
L20L20
DV33DV33
Servo Analog GroundServo Analog GroundSGNDSGND
GNDGND
NAMENAME
AGNDAGND
VGNDVGND
TYPETYPE
Digital GroundDigital Ground
Video GroundVideo Ground
Audio GroundAudio Ground
44 33
RLS4148ERLS4148E
D1D1
(11)(11)4.7k4.7k
R50R50
++C58C58
10u10u (11)(11)
URSTURST
V33V33
SGNDSGND
V25V25
V33V33
AV33AV33
GNDGND
SGNDSGND
GNDGND
V25V25
AV33AV33
V33V33
-P12V-P12V
RVCCRVCC
VCCVCC
DV33DV33
+P12V+P12V
+P5V+P5V
AVCCAVCC
RVCCRVCC
DV33DV33
AVCCAVCC
VCCVCC
+P12V+P12V
-P12V-P12V
+P5V+P5V
[ 2,3,4,5 ][ 2,3,4,5 ]
[ 2,3,4,5 ][ 2,3,4,5 ]
[ 2 ][ 2 ]
[ 2 ][ 2 ]
[ 2,3,4 ][ 2,3,4 ]BB
[ 2,3,4,5 ][ 2,3,4,5 ]
[ 2 ][ 2 ]
[ 2,3,4 ][ 2,3,4 ]
[ 2 ][ 2 ]
[ 5 ][ 5 ]
[ 5 ][ 5 ]
[ 2,3,4,5 ][ 2,3,4,5 ]
CC
22 11
DD
Circuit Diagram for DVD130A (2)
HSYNC/CBHSYNC/CB
FIELD/CBFIELD/CB
RESETRESET
SCLSCL SDASDA
PADDRPADDR
XTALINXTALIN
XTALOUTXTALOUT
TESTTEST
SCLSCL
CS4954, TQFP-48CS4954, TQFP-48
1616
1515
1414
3333
1313
680680
R52R52R51R51
680680
VCCVCC
SDASDA
Y7Y7
Y6Y6
Y5Y5
Y1Y1
Y3Y3
Y4Y4
Y2Y2
Y0Y0
PDAT2PDAT2
INTINT
TTXRQTTXRQ
TTXDATTTXDAT
WRWR
RDRD
PDAT7PDAT7
PDAT6PDAT6
PDAT5PDAT5
PDAT4PDAT4
PDAT3PDAT3
1212
3232
3030
2828
3131
2020
2727
1919
2222
2323
2121
PDAT1PDAT1
PDAT0PDAT0
V7V7
V6V6
V5V5
V4V4
V3V3
V2V2
V1V1
V0V0
2424
2525
2626
88
77
66
22
55
44
33
11
VGNDVGND
AGNDAGND
RST_TVERST_TVE
27MHZ27MHZCLOCKCLOCK
U14U14
3434
2929
Left Justified, Up to 24-bitLeft Justified, Up to 24-bit
Right Justified, 24-bitRight Justified, 24-bit
Right Justified, 16-bitRight Justified, 16-bit
DescriptionDescription
00 DisableDisable
11 44.1 KHz44.1 KHz
DEM0DEM0
11
11
00
11
00
11
3333
3333
3333
3333
55
DescriptionsDescriptions
I2S , Up to 24-bitI2S , Up to 24-bit
NO STUFFNO STUFF
00
R83AR83A
SLRCKSLRCK
DIF1DIF1
00
DIF0DIF0
00
SBCLKSBCLK
SDAT0SDAT0
SACLKSACLK
R81AR81A
00
NO STUFFNO STUFF
R85AR85A
00
DIF1DIF1
00
R82AR82AR80AR80A
NO STUFFNO STUFF
DIF0DIF0
00
VCCVCC
DEM0DEM0
R84AR84A
00
VAAVAA
B/CbB/Cb
GNDAGNDA4545
GNDAGNDA
4242
3535
1818
3737
4343
GNDAGNDA
GNDDGNDD
ISETISET
BLUEBLUE
4k, 1%4k, 1%
R62R62
CVBSCVBS
G/Y/CVBS2G/Y/CVBS24040
3939
GREENGREEN
REDRED
4747
4848
CC
YY
R/CrR/Cr
CC
Y/CVBS2Y/CVBS2
HSYNC#HSYNC#
VSYNC#VSYNC#
4444
1111
1010
VSYNCVSYNC
3838
99
4646
4141
VREFVREF
VAAVAA
VAAVAA
CVBS1CVBS1
0.1u0.1u
CB80CB80
ZEROZERO
MUTECMUTEC
R99R99
4.7K4.7K
1K1K
R93R93
R94R94
1K1K
39063906
Q24Q24
Zener / 5V1Zener / 5V1
MUTE#MUTE#
ZD1ZD1
100u/25V100u/25V
C71C71++ 22k22k
R58R58
470/0.25W470/0.25W
R54R54
7.5k7.5k
R57R57
DIP, pitch=10m/mDIP, pitch=10m/m
39063906
CC
MediaTek IncorporationMediaTek Incorporation
Document NumberDocument Number
DVD130(MT1369AE)
D16D16
1N40011N4001
SizeSize
CC
TitleTitle
4.7K4.7K
R99R99
39063906
Q8Q8
8282
R56R56
BB
A_MUTEA_MUTE
Audio & Video DACAudio & Video DACRevRev
22
EE
AA
33UH/030733UH/0307
L10L10
3636
1717VDDVDD
0.1u0.1u
CB74CB74
DV33DV33
0.1u0.1u
CB75CB75
0.1u0.1u
CB76CB76 CB77CB77
0.1u0.1u
47u47u
C72C72++
+12V+12V
TWSTWS
TBCK--TBCK--
TSD0--TSD0--
MCLKMCLK
DATADATA
LRCKLRCK
BCKBCK
LMAINLMAIN151522
REF_GNDREF_GNDDIF1DIF1
DEM0DEM0
DIF0DIF0
SBCLKSBCLK
SLRCKSLRCK
SACLKSACLK
CS4340CS4340
DEM0DEM0
DIF0DIF0
DIF1DIF1
MCLKMCLK
LRCKLRCK
SCLK/DEM1SCLK/DEM1
SDATASDATA
88
77
66
44
55
33
UP3..0(U3.66)UP3..0(U3.66)
UP1..5(U3.62)UP1..5(U3.62)
VSDA(U3.61)VSDA(U3.61)
RMAINRMAINAOUTRAOUTR
FILT+FILT+
VQVQ99
1010
1111
GNDGND
VccVcc
AOUTLAOUTL
1313
1212
1414
0.1u0.1u
CB71CB71 C69C69
1u1u
+5VA+5VA
RESET#RESET#
SDAT0SDAT0 RSTRST11
U13U13
44
VCCVCC +5VA+5VA
33UH/LA030733UH/LA0307
MUTECMUTEC1616
L9L9
1u1u
C70C70CB73CB73
0.1u0.1u
VOVO
7805_27805_2
22VIVI
33
+5VA+5VA
GNDGND11
U15U15
33
+12V+12V
0.1u0.1u
CB70CB70 C68C68
1u1u
39063906
Q7Q7
R55R55
10k10k
+5VA+5VA
0.1UF0.1UF
L22L22
CB48CB48
VCC33VCC33
2-CHANNEL,AUDIODAC2-CHANNEL,AUDIODAC
D17D17
RLS4148RLS4148
RLS4148RLS4148
D18D18
3.3UH/08053.3UH/0805
88
44
77
66
55
22
33
11
VCCAVCCA
VcomVcomVOLVOL
PCM1748EPCM1748E
VORVOR AGNDAGND99
47uF47uF
C96C96++
VDDVDD
VCCVCC
DGNDDGND
LRCKLRCK
DATADATA
BCKBCK
1313
ZLZL
ZRZR
MDMD
1111
1010
1212
MLML
MCMC
SCKSCK1515
1414
1616
U19U19
BB
VOLVOL
VORVOR
R98R98
10k10k
ZRZR
ZLZL
R97R97 10k10k
ZEROZERO
CC
22
A_MUTEA_MUTE
AGNDAGND
RMAINRMAIN
LMAINLMAIN
[ 5 ][ 5 ]A_MUTEA_MUTE
AGNDAGND [ 1,2,3,5 ][ 1,2,3,5 ]
LMAINLMAIN
RMAINRMAIN
[ 5 ][ 5 ]
[ 5 ][ 5 ]
T_SYT_SY
ASPDIFASPDIF
VGNDVGND
T_SCT_SC
T_CVBST_CVBS
ASPDIFASPDIF [ 2,5 ][ 2,5 ]
VGNDVGND
T_CVBST_CVBS
T_SCT_SC
T_SYT_SY
[ 1,2,3,5 ][ 1,2,3,5 ]
[ 5 ][ 5 ]
[ 5 ][ 5 ]
[ 5 ][ 5 ]
11
DD
[ 2 ][ 2 ] ASDAT0ASDAT0
55
[ 2 ][ 2 ]
[ 2 ][ 2 ]
[ 2 ][ 2 ]
[ 2 ][ 2 ]
[ 2,5 ][ 2,5 ]
AAVSYNC#VSYNC#
Y[0..7]Y[0..7]
HSYNC#HSYNC#
27MHZ27MHZ
VSYNC#VSYNC#
HSYNC#HSYNC#
Y[0..7]Y[0..7]
27MHZ27MHZ
ASPDIFASPDIFASPDIFASPDIF
[ 2,3 ][ 2,3 ]
[ 2 ][ 2 ]
[ 2 ][ 2 ]
[ 2 ][ 2 ]
[ 2 ][ 2 ]
[ 2 ][ 2 ]
[ 2,3 ][ 2,3 ]
[ 2 ][ 2 ]
[ 2 ][ 2 ]
BB
ASDAT0ASDAT0
SCLSCL
ALRCKALRCK
VSCKVSCK
ABCKABCK
ACLKACLK
VSDAVSDA
ABCKABCK
ALRCKALRCK
ACLKACLK
VSCKVSCK
VSDAVSDA
SCLSCL
SDASDA SDASDA
RST_TVERST_TVE
MUTE#MUTE#
RESET#RESET#
RST_TVERST_TVE
RESET#RESET#
MUTE#MUTE#
CC
GNDGND
GNDGND
R85R85
ASDAT0ASDAT0
ABCKABCK R84R84
R86R86
ALRCKALRCK
ACLKACLK R53R53
DD
[ 1,5 ][ 1,5 ]
[ 5 ][ 5 ] +12V+12V
+P12V+P12V
[ 1,2,3,5 ][ 1,2,3,5 ]
[ 1,2,3,5 ][ 1,2,3,5 ] GNDGND
+P5V+P5V
+P12V+P12V
+12V+12V
+P5V+P5V
GNDGND
[ 1,2,3 ][ 1,2,3 ]
[ 1,2,3,5 ][ 1,2,3,5 ]
DV33DV33
VCCVCCVCCVCC
DV33DV33
44 33
Wednesday, July 24, 2002Wednesday, July 24, 2002
22
Date:Date:
11
SheetSheet 44 ofof 55
Circuit Diagram for DVD130A (3)
AD[0..7]AD[0..7]
0.1u0.1u
CB78CB78
AA
55
[ 2 ][ 2 ]
[ 2,4 ][ 2,4 ]
[ 2 ][ 2 ]
[ 2 ][ 2 ]
[ 2,4 ][ 2,4 ]BB
PWR#PWR#
A[0..19]A[0..19]
SDASDA
SCLSCL
AD[0..7]AD[0..7]
PRD#PRD#
PWR#PWR#
PCE#PCE#
SCLSCL
SDASDA
AD[0..7]AD[0..7]
PWR#PWR#
A[0..19]A[0..19]
FRD#FRD#
FWR#FWR#
FCE#FCE#
RY/BYRY/RY/BYRY/A17A17
Flash 8M, SST-40TSOPFlash 8M, SST-40TSOP
FWR#FWR#
FRD#FRD#
FCE#FCE#
A18A18
A19A19
2222
99
2424
1313
3737
44
3131
3939
2323
3030
WEWE
CECE
OEOE
A19A19
A18A18
VSSVSS
VSSVSS
VCCVCC
VCCVCC
A14A14
A16A16
A17A17
A15A15
A13A13
A11A11
A12A12
33
11
4040
22
44
66
55
A7A7
A9A9
A10A10
A8A8
A6A6
A5A5
A4A4
1414
77
3636
88
1515
1616
1717
A[0..19]A[0..19]
A0A0
A2A2
A3A3
A1A1
2121
1919
1818
2020
D3D3A3A3
3838
1212
1010
2929
1111
3535
3434
3333
3232
A10A10 NCNC
A16A16
A15A15
A14A14
A12A12
A13A13
A11A11
RESETRESET
NCNC
NCNC
A9A9
A8A8
A7A7
A5A5
A6A6
A4A4
D7D7
D5D5
D6D6
D4D4
V33V33
AD4AD4
AD6AD6
AD7AD7
AD5AD5
2828
2727
2626
2525
A2A2
A1A1
A0A0
U8U8
D2D2
D1D1
D0D0
AD2AD2
AD3AD3
AD0AD0
AD1AD1
SD33SD33
[ 2 ][ 2 ]
[ 2 ][ 2 ]
[ 2 ][ 2 ]
[ 2 ][ 2 ]
[ 2 ][ 2 ]
[ 2 ][ 2 ]
[ 2 ][ 2 ]
[ 2 ][ 2 ]
[ 2 ][ 2 ]
[ 2 ][ 2 ]
[ 2 ][ 2 ]
[ 2 ][ 2 ]
CC
RAS#RAS#
PRD#PRD#
DQM[0..3]DQM[0..3]
WE#WE#
CS#CS#
DQ[0..31]DQ[0..31]
MA[0..11]MA[0..11]
PCE#PCE#
BA[0..1]BA[0..1]
PRD#PRD#
PCE#PCE#
DQ[0..31]DQ[0..31]
DQM[0..3]DQM[0..3]
MA[0..11]MA[0..11]
BA[0..1]BA[0..1]
CS#CS#
WE#WE#
RAS#RAS#
CAS#CAS#
DCLKDCLK
DCKEDCKE
FB / 0805FB / 0805
DCLKDCLK
DCKEDCKE
CAS#CAS#
0.1u0.1u
CB49CB49
[ 1,2,4,5 ][ 1,2,4,5 ]
[ 1,2,4,5 ][ 1,2,4,5 ]
DD
L5L5
GNDGND
V33V33
VCCVCC
V33V33[ 1,2,4 ][ 1,2,4 ]
GNDGND
V33V33
VCCVCC
55
CSCS VCCVCC
54-Pin TSOPII(400mil x 875mil)54-Pin TSOPII(400mil x 875mil)
EliteMT M12L64164A-5TEliteMT M12L64164A-5T
VSSVSS
VSSVSS
DQMHDQMH
VSSVSS
RASRAS
CASCAS
DQMLDQML
SDRAM 1Mx16x4SDRAM 1Mx16x4
47u47u
C57C57++47u47u
C56C56 ++
SD33SD33
47u47u
C55C55++
5454
2828
4141
4040
3636
NCNC
NCNC
RDQM1RDQM1
RDQM0RDQM0
DWE#DWE#
DCAS#DCAS#
DRAS#DRAS#
3939
1515
1717
1616
1818
WEWE
0.1u0.1u
CB50CB50
SD33SD33
CB51CB51
0.1u0.1u 0.1u0.1u
CB52CB52
2727
66
33
4949
5252
4343
1414
4646
99
1212
VCCQVCCQ
VSSQVSSQ
VSSQVSSQ
VSSQVSSQ
VSSQVSSQ
VCCQVCCQ
VCCQVCCQ
VCCQVCCQ
VCCVCC
VCCVCC
SD33SD33
BA1/A12BA1/A12
BA0/A13BA0/A13
A10/APA10/AP
A4A4
A11A11
SDCLKSDCLK
SDCKESDCKE
DCS#DCS#
DBA1DBA1
DBA0DBA0
3838
1919
3737CKECKE
CLKCLK
2121
2020
DMA8DMA8
DMA11DMA11
DMA10DMA10
DMA9DMA9
DMA6DMA6
DMA7DMA7
DMA5DMA5
3333
2222
3535
3434A9A9
A8A8
3131
3232
3030
A7A7
A6A6
A5A5
DMA1DMA1
DMA3DMA3
DMA2DMA2
DMA4DMA4
DMA0DMA0
2424
2929
2626
2525A2A2
A3A3
A1A1
2323A0A0
U6U6
DQ4DQ4
5353
5151
5050
4848
4747
4545
4444
4242
1313
1111
1010
11
DQ11DQ11
DQ15DQ15
DQ14DQ14
DQ13DQ13
DQ12DQ12
DQ10DQ10
DQ9DQ9
DQ8DQ8
DQ7DQ7
DQ6DQ6
DQ5DQ5
SD33SD33
RDQ15RDQ15
RDQ13RDQ13
RDQ14RDQ14
RDQ12RDQ12
RDQ8RDQ8
RDQ11RDQ11
RDQ10RDQ10
RDQ9RDQ9
RDQ6RDQ6
RDQ7RDQ7
RDQ5RDQ5
88
77
55
44
22
DQ3DQ3
DQ2DQ2
DQ1DQ1
DQ0DQ0
44
RDQ1RDQ1
RDQ4RDQ4
RDQ3RDQ3
RDQ2RDQ2
RDQ0RDQ0
EEPROM 24C16, ST-SO8EEPROM 24C16, ST-SO8
MediaTek IncorporationMediaTek Incorporation
SheetSheet
FALSH & SDRAM & EEPROMFALSH & SDRAM & EEPROM
33
0.1u0.1u
CB79CB79
FWR#FWR#
FCE#FCE#
FRD#FRD#
4343
1212
1414
8M Flash8M FlashAT49F8192AAT49F8192A
BYTEBYTE
RESETRESET
CECE
WEWE
OEOE
GNDGND
GNDGND3232
1313
3333
4444
IO3IO3A6A6
A17A17
A18A18
A16A16
A14A14
A15A15
33
22
3434
3535
3636
A10A10
A12A12
A13A13
A11A11
A9A9
A8A8
A7A7
4040
3838
3737
3939
4141
4242
44
IO10IO10A13A13
IO15IO15
IO14IO14
IO13IO13
IO12IO12
IO11IO11
A18A18
A17A17
A15A15
A16A16
A14A14
2929
3131
2727
2525
2222
A12A12
A11A11
A10A10
A8A8
A9A9
A7A7
3030
IO9IO9
IO8IO8
IO7IO7
1818
2020
1616
IO5IO5
IO6IO6
IO4IO4
2828
2626
2424
A3A3
A5A5
A6A6
A4A4
A2A2
A0A0
A1A1
88
66
55
77
99
1010
1111
A5A5
A4A4
A3A3
A1A1
A2A2
A0A0
1515
IO2IO2
IO1IO1
IO0IO0
1919
2121
1717
VccVcc2323
U7U7
izeSize
TitleTitle
Wednesday, July 24, 2002Wednesday, July 24, 2002
Document NumberDocument Number
M24C16-WM24C16-W
VCCVCC
A19A19
AD7AD7
AD4AD4
AD5AD5
AD6AD6
AD0AD0
AD3AD3
AD2AD2
AD1AD1
VCCVCC
0.1u0.1u
CB57CB57
0.1u0.1u
CB59CB59
SCLSCL
SDASDA
V33V33 U10U10
66
55
SCLSCL
SDASDA
DQM2DQM2
DQM3DQM3
DQM1DQM1
DQM0DQM0
MA11MA11
MA9MA9
MA10MA10
MA5MA5
MA8MA8
MA6MA6
MA7MA7
MA3MA3
MA4MA4
MA2MA2
11
33 ofof 55
WPWP77
22
RevRev
AA
RDQM2RDQM2
RDQM3RDQM3
11
NCNC
NCNC
NCNC
33
22
RDQM1RDQM1
RDQM0RDQM0
DMA11DMA11
DMA9DMA9
DMA10DMA10
DMA5DMA5
DMA8DMA8
DMA6DMA6
DMA7DMA7
DMA3DMA3
DMA4DMA4
DMA2DMA2
BB
33x433x4
RASRAS VCCVCC
(400milx825mil, 0.8mm pin pitch)(400milx825mil, 0.8mm pin pitch)
4747
4444
4141
3838
2525
1313
1010
77
44
SDRAM 512Kx16x2SDRAM 512Kx16x2
0.1u0.1u
CB53CB53
0.1u0.1u
CB54CB54
0.1u0.1u
CB56CB56CB55CB55
0.1u0.1u
50-PIN TSOP(II),50-PIN TSOP(II),
ESMT M12L16161A-5TESMT M12L16161A-5T
5050
2626
3737
DCAS#DCAS#
DWE#DWE#
RDQM0RDQM0
RDQM1RDQM1
1414
3333
3636
1515
1616
NCNC
VSSVSS
VSSVSS
NCNC
VSSQVSSQ
VSSQVSSQ
VSSQVSSQ
VSSQVSSQ
DQMHDQMH
DQMLDQML
WEWE
CASCAS
VCCQVCCQ
VCCQVCCQ
VCCQVCCQ
VCCVCC
VCCQVCCQ
SD33SD33
5050
2626
3737
RDQM2RDQM2
DCAS#DCAS#
RDQM3RDQM3
DWE#DWE#
1414
3333
3636
1515
1616
4949
4848
4646
4545
4343
4242
4040
3939
1212
1111
99
88
66
55
33
22
11
A3A3 DQ3DQ3
DCS#DCS#
SDCLKSDCLK
DBA0DBA0
DRAS#DRAS#
SDCKESDCKE 3434
1818
1717
3535
1919
DMA4DMA4
DMA7DMA7
DMA9DMA9
DMA5DMA5
DMA6DMA6
DMA8DMA8
DMA10DMA10
3030
3232
2020
3131
2828
2929
2727
DQ10DQ10A10A10
CSCS
CKECKE
BA/A11BA/A11
CLKCLK
DQ15DQ15
DQ14DQ14
DQ13DQ13
DQ12DQ12
DQ11DQ11
A8A8
A9A9
A7A7
A6A6
A5A5
A4A4
DQ9DQ9
DQ8DQ8
DQ7DQ7
DQ6DQ6
DQ5DQ5
DQ4DQ4
DMA2DMA2
DMA0DMA0
DMA1DMA1
DMA3DMA3
2121
2424
2323
2222A1A1
A2A2
A0A0
U16U16
DQ2DQ2
DQ1DQ1
DQ0DQ0
33
SD33SD33
RDQ14RDQ14
RDQ15RDQ15
RDQ13RDQ13
RDQ12RDQ12
RDQ11RDQ11
RDQ7RDQ7
RDQ10RDQ10
RDQ9RDQ9
RDQ8RDQ8
RDQ4RDQ4
RDQ5RDQ5
RDQ6RDQ6
SDCLKSDCLK
SDCKESDCKE
DRAS#DRAS#
DCS#DCS#
DBA0DBA0
3434
1818
1717
3535
1919
DMA10DMA10
DMA7DMA7
DMA6DMA6
DMA8DMA8
DMA5DMA5
DMA4DMA4
DMA9DMA9
3030
3232
2020
3131
2828
2929
2727
RDQ0RDQ0
RDQ1RDQ1
RDQ2RDQ2
RDQ3RDQ3 DMA3DMA3
DMA2DMA2
DMA0DMA0
DMA1DMA1
2121
2424
2323
2222
RASRAS VCCVCC
SDRAM 512Kx16x2SDRAM 512Kx16x2
(400milx825mil, 0.8mm pin pitch)(400milx825mil, 0.8mm pin pitch)
50-PIN TSOP(II),50-PIN TSOP(II),
ESMT M12L16161A-5TESMT M12L16161A-5T
4747
4444
4141
3838
2525
1313
1010
77
44NCNC
VSSVSS
VSSVSS
NCNC
VSSQVSSQ
VSSQVSSQ
VSSQVSSQ
VSSQVSSQ
DQMHDQMH
DQMLDQML
WEWE
CASCAS
VCCQVCCQ
VCCQVCCQ
VCCQVCCQ
VCCVCC
VCCQVCCQ
SD33SD33
DCKEDCKE
MA0MA0
MA1MA1
DCLKDCLK
BA1BA1
R48R48
R47R47
CAS#CAS#
BA0BA0
WE#WE#
CS#CS#
RAS#RAS#
55
77
RN1RN1
11
33
DQ29DQ29
DQ30DQ30
DQ27DQ27
DQ31DQ31
DQ28DQ28
DQ25DQ25
DQ24DQ24
DQ21DQ21
DQ26DQ26
DQ22DQ22
DQ23DQ23
DQ20DQ20
A3A3 DQ3DQ3
4949
4848
4646
4545
4343
4242
4040
3939
1212
1111
99
88
DQ10DQ10A10A10
CSCS
CKECKE
BA/A11BA/A11
CLKCLK
DQ15DQ15
DQ14DQ14
11
DQ13DQ13
DQ12DQ12
DQ11DQ11
A8A8
A9A9
A7A7
A6A6
A5A5
A4A4
DQ9DQ9
DQ8DQ8
DQ7DQ7
DQ6DQ6
DQ5DQ5
DQ4DQ4
SD33SD33
RDQ30RDQ30
RDQ31RDQ31
RDQ29RDQ29
RDQ27RDQ27
RDQ28RDQ28
RDQ23RDQ23
RDQ26RDQ26
RDQ25RDQ25
RDQ24RDQ24
RDQ21RDQ21
RDQ20RDQ20
RDQ22RDQ22
66
55
33
22
A1A1
A2A2
A0A0
U17U17
DQ2DQ2
DQ1DQ1
DQ0DQ0
22
RDQ16RDQ16
RDQ17RDQ17
RDQ18RDQ18
RDQ19RDQ19
DQ17DQ17
DQ16DQ16
DQ18DQ18
DQ19DQ19
DQ15DQ15
DQ14DQ14
DQ9DQ9
DQ13DQ13
DQ12DQ12
DQ10DQ10
DQ11DQ11
DQ8DQ8
DQ7DQ7
DQ6DQ6
DQ2DQ2
DQ3DQ3
DQ4DQ4
DQ5DQ5
DQ1DQ1
DQ0DQ0
DRAS#DRAS#
SDCLKSDCLK
DCAS#DCAS#
SDCKESDCKE3333
3333
DMA0DMA0
DMA1DMA1
DBA1DBA1
66
88
22
44
DWE#DWE#
DBA0DBA0
DCS#DCS#
RDQ29RDQ29
RDQ30RDQ30
RDQ27RDQ27
RDQ31RDQ31
RDQ28RDQ28
RDQ25RDQ25
RDQ24RDQ24
RDQ21RDQ21
RDQ26RDQ26
RDQ22RDQ22
RDQ23RDQ23
RDQ20RDQ20
CC
RDQ17RDQ17
RDQ16RDQ16
RDQ18RDQ18
RDQ19RDQ19
RDQ15RDQ15
RDQ14RDQ14
RDQ9RDQ9
RDQ13RDQ13
RDQ12RDQ12
RDQ10RDQ10
RDQ11RDQ11
RDQ8RDQ8
RDQ7RDQ7
DD
RDQ0RDQ0
RDQ6RDQ6
RDQ2RDQ2
RDQ1RDQ1
RDQ3RDQ3
RDQ4RDQ4
RDQ5RDQ5
11
Circuit Diagram for DVD130A (4)
CC
BB
AA
DD
20K20K
C15C15
22
RS232/4P,2.0 m/mRS232/4P,2.0 m/m
44
33TxDTxD
AA
JP8JP8
VFD, 2.0 m/mVFD, 2.0 m/m
11
V33V33
RxDRxD
JP6JP6
77
99
88
66
55
44
VSTBVSTB
VSCKVSCK
VSDAVSDA
AGNDAGND
22
33
11
AC35V-AC35V-
AC35V+AC35V+
-P22V-P22V
VFDVCCVFDVCC
55
++ C136C136
100u100u
AC35V-AC35V-
AC35V+AC35V+
VFDVCCVFDVCC
R65R65
R78R78
R69R69
-P22V-P22V
V-STBV-STB
V-SCKV-SCK
V-SDAV-SDA
00
00
00
R125R125
1010
VCCVCC
R42R42
1010
100p100p
C52C52
IRIR
1717
BA5954BA5954 ++0.1u0.1u
R140R140TROPENTROPEN
R143R143
390390
1K1K
BB
R136R136
220220
33
R141R141Q14Q14
80508050
390P390P
C164C164
TO-92TO-92
Q13Q13
390P390P
C165C165
TRINTRIN
HEADER-5 (2.00mm)HEADER-5 (2.00mm)
390390
R144R144
1K1KTRCLOSETRCLOSE
11
22
Q12Q12
85508550
Q11Q11
VCCVCC
TROUTTROUT
LOAD+LOAD+
LOAD-LOAD-
VCCVCC
R137R137
220220
0.1u0.1u
CB41CB41
GNDGND
JP4JP4
55
44
10u10u
C35C35
33UH/030733UH/0307
CC
20k20kR25R25
150p150p
C33C33
CB39CB39
STBYSTBY
TRSOTRSO
V1P4V1P4
VCCVCC
FMSOFMSO
1,08051,0805
R17R17
SL-SL-
SL+SL+
1,08051,0805
R18R18
CON1CON1
33
0.1u0.1u
CB31CB31
F-F-
T+T+
F+F+11
22
EE
BB
DD
IOAIOA
CC
AA
FF
V20V201010
AA
NCNC
T-T-
BB
GND-PDGND-PD
EE
VCVC
44
66
55
88
77
99
CC
VCCVCC
FF
DD
(LD-CD)(LD-CD)
CD/DVDCD/DVD
NCNC
1111
1313
1212
1515
1414
1616
33UH/030733UH/0307
CB21CB21 0.1u0.1u
L3L3
3CG8550D3CG8550D
1919 1010
2626
2525
2828
2727BIASBIAS
STBYSTBY
VINTKVINTK
CTK1CTK1
CTK2CTK2
2222
2323
2424
2020
2121
PREGNDPREGND
VINLDVINLD
VNFTKVNFTK
PGNDPGND
PVCC2PVCC2
VINSL-VINSL-
VINSL+VINSL+
VINFCVINFC
CF1CF111
CF2CF233
22
44
VOSLVOSL
VNFFCVNFFC
PGNDPGND
PVCC1PVCC1
55
66
77
VCCVCC88
99
1616
1818
1717
1515VOTK+VOTK+
VOTK-VOTK-
VOLD-VOLD-
VOLD+VOLD+
U2U2
VOSL-VOSL-
VOFC-VOFC-
VOFC+VOFC+
VOSL+VOSL+1111
1313
1212
1414
FOSOFOSO
V1P4V1P4
VCCVCC
R26R26
10K10K
R23R23
SP+SP+
SP-SP-
1,08051,0805
R19R19
1,08051,0805
R20R20
MDI1MDI1
R12R12
Q5Q5
L4L4
R11R11
2222
2222
33UH/030733UH/0307
3CG8550D3CG8550D
Q4Q4
L2L2
2SB11322SB1132
BB EECC
CC
LDO2LDO2
47u47u
C18C18++
LDO1LDO1
47u47u
C12C12++
LDO_AVCCLDO_AVCC
DD
CC
BB
AA
C13C13
MDI2MDI2
V33V33
2N39042N3904
TOP SIDE CONTACTEDTOP SIDE CONTACTED
SF-HD6AV/0.5mm,24PSF-HD6AV/0.5mm,24P
DD
2424
LD-CDLD-CD
VR-DVDVR-DVD
VR-CDVR-CD
MDMD
GND-LDGND-LD
LD-DVDLD-DVD
HFMHFM
1818
2020
1919
2222
2121
2323
MDI1MDI1
33
GG
2SK30182SK3018
22SS
11
DD
33
2SK30182SK3018
Q2Q2
22
33
11
11R5R5 100K100K
Q1Q1
to reduce Noiseto reduce Noise
Very ImportantVery Important
0.1u0.1u
CB13CB13
AVCCAVCC
C3C3++
100u100u
22
2SK30182SK3018
Q3Q3
R8R8
R6R6
R7R7
10K10K
100K100K
10K10K
AVCCAVCC
IOAIOA
00
R63R63
00
R61R61
33UH/030733UH/0307
L1L1
LDO_AVCCLDO_AVCC
55
AVCCAVCC
RVCCINRVCCIN
R60R60
00
R49R49
00
RVCCRVCC
VP
VS
SV
PV
SS
VC
OC
INV
CO
CIN
VP
VD
D3
VP
VD
D3
RD
8R
D8
RD
9R
D9
RD
10
RD
10
RD
11R
D11
DV
SS
DV
SS
RD
12
RD
12
RD
13
RD
13
RD
14
RD
14
RD
15
RD
15
DV
DD
3D
VD
D3
BA
0B
A0
RC
S#
RC
S#
RA
S#
RA
S#
CA
S#
CA
S#
RW
E#
RW
E#
RD
0R
D0
RD
1R
D1
RD
2R
D2
RD
3R
D3
DV
DD
2/3
DV
DD
2/3
RD
4R
D4
RD
5R
D5
RD
6R
D6
RD
7R
D7
DV
SS
DV
SS
XT
ALO
XT
ALO
XT
ALI
XT
ALI
UR
D#
UR
D#
UW
R#
UW
R#
UP
3_5
UP
3_5
UP
3_4
UP
3_4
DV
DD
2D
VD
D2
INT
0#
INT
0#
UP
3_1
UP
3_1
UP
3_0
UP
3_0
UP
1_7
UP
1_7
DV
DD
3D
VD
D3
UP
1_6
UP
1_6
UP
1_5
UP
1_5
UP
1_4
UP
1_4
UP
1_3
UP
1_3
UP
1_2
UP
1_2
DV
SS
DV
SS
IOC
S#
IOC
S#
IOW
R#
IOW
R#
IOO
E#
IOO
E#
ALE
ALE
DM
VD
D3
DM
VD
D3
MUTE#MUTE#
44 33
2N39042N3904
Q17Q17
VCCVCC
R82R82 1k1k
4.7k4.7k
R83R83 R80R80
4.7k4.7k
1k1k
R81R81
VCCVCC
(10)(10)
2N39042N3904
R79R79
RESET#RESET#
Q15Q15
1k1k
R39R39
(10)(10)
VCCVCC
1k1k
AV33AV33 R40R40
1010
ALEALE
Z31Z31
10U10U
C50C50
3.3UH/08053.3UH/0805
C85C85
C53C53
1n1n
1n1n
L22L22
22p22p
DIPDIP
C53C53
22
20p20p
C54C54
Y1Y1
27MHz27MHz
R43R43
100k100k 74HC0474HC04
IRIR69
69
V33V33
CB47CB47
0.1u0.1u
(OPEN)(OPEN)
0 OHM0 OHM
R101R101
11
PR
D#
PR
D#
PW
R#
PW
R#
V-S
TB
V-S
TB
ALE
ALE
GN
DG
ND
PC
E#
PC
E#
53
53
54
54
57
57
56
56
55
55
58
58
59
59
RE
SE
TR
ES
ET
V-S
CK
V-S
CK
V-S
DA
V-S
DA
DV
33
DV
33
SC
LS
CL
SD
AS
DA
MU
TE
MU
TE
64
64
62
62
60
60
61
61
63
63
65
65
66
66
67
67
68
68
(OPEN)(OPEN)
0 OHM0 OHM
R102R102
74HC0474HC04
U5AU5A
22
33
U5BU5B
DQ
7D
Q7
78
78
V25
V25
RxD
RxD
TxD
TxD
GN
DG
ND
71
71
70
70
IRIR
72
72
73
73
76
76
74
74
75
75
77
77
DQ
3D
Q3
V25
V25
DQ
6D
Q6
DQ
5D
Q5
DQ
4D
Q4
DQ
1D
Q1
DQ
2D
Q2
DQ
0D
Q0
WE
#W
E#
83
83
79
79
80
80
81
81
82
82
85
85
84
84
86
86
87
87
CustomCustom
DVD130(MT1369AE)DVD130(MT1369AE)
27MHZ27MHZ
Date:Date:
SizeSize
TitleTitle
CB46CB46
C88C88
44
0 OHM0 OHMR44R44
0 OHM0 OHM
R103R103
0 OHM0 OHM
R45R45
AV33AV33
1010
R41R41
GN
DG
ND
97
97
RA
S#
RA
S#
CA
S#
CA
S#
DV
33
DV
33
CS
#C
S#
BA
0B
A0
DQ
14
DQ
14
DQ
15
DQ
15
DQ
13
DQ
13
DQ
12
DQ
12
92
92
90
90
88
88
89
89
91
91
93
93
94
94
96
96
95
95
DQ
10
DQ
10
DQ
11D
Q11
DQ
8D
Q8
DQ
9D
Q9
1u1u
1u1u
C87C87
98
98
99
99
100
100
101
101
104
104
103
103
102
102
0.1u0.1u
MediaTek IncorporationMediaTek Incorporation
SheetSheetWednesday, July 24, 2002Wednesday, July 24, 2002
11
SERVO & RFSERVO & RFDocument NumberDocument Number
22 ofof 55
RevRev
22
AA
MT1336E/MT1369E withMT1336E/MT1369E with
PR
ST
PR
ST
8181 2222 C9C9C8C8CB20CB20 Z11Z11
AV33AV33
Z24Z24
LPFOPLPFOP
C46C46
PLAYER_SLED,9P,2.0 m/mPLAYER_SLED,9P,2.0 m/m390390
R31R31
10K10K
39043904
EEBB
CC
20k20k
R29R29
39043904
Q6Q6
FGFG
VCCVCC
SL-SL-
SL+SL+
R33R33
SP-SP-
LIMITLIMIT
SP+SP+
RR
R121R121
CB42CB42
0.1u0.1u
VCCVCC
R124R124
00
66
11
22
44
33
55
JP9JP9
R122R122
RR
88
77
99
Z28Z28
DMSODMSO
V1P4V1P4
TRSOTRSO
FGFG
FMSOFMSO
Z29Z29
FMSOFMSO
Z30Z30
DMSODMSO
V1P4V1P4 CC
PWMOUT2PWMOUT2
FOSOFOSOZ26Z26
Z27Z27
FOSOFOSO
TROPENTROPEN
TRSOTRSO
47u47u
C36C36
MT1336EMT1336E
114
114
150p150p
C34C34
20k20k
R24R24
DMSODMSO
R119R119 RR
C135C135 CC
47u47u
OPOOPO R120R120
CC
C134C134
0.1u0.1u
CB36CB36
C24C24 ++
RVCCINRVCCIN
33k33k
R21R21
AAAA
CCCC
C16C16
1u1u
1u1u
C14C14
1u1u
1u1uBBBB
DDDD
CCCC
AAAA
CB23CB23
0.1u0.1uCB22CB22
0.1u0.1u
0.1u0.1uC137C137
9595
MD
MD
102102MBMB
10
31
03
10
41
04
MC
MC
MAMA
DVDADVDA
DVDBDVDB
DVDCDVDC
DVDDDVDD
DVDRFIPDVDRFIP
DVDRFINDVDRFIN
101101
100100
9999
9898
9797
9696
AV
DD
AV
DD
10
71
07
10
51
05
10
61
06
10
81
08
10
91
09
SA
SA
SB
SB
AG
ND
AG
ND
IRIR
110
110
111
111
112
112
113
113
SD
SD
SC
SC
CD
FO
PC
DF
OP
CD
FO
NC
DF
ON
8888
CDACDA
CDBCDB
CDCCDC
CDDCDD
OSNOSN
OSPOSP
RFFGCRFFGC
9494
9393
9292
9191
9090
8989
RFGCURFGCU
RFGCIRFGCI
CEOPCEOP
CEONCEON
AGNDXAGNDX
AGNDXAGNDX
MONMON
8787
8686
8585
8484
8383
8282
R123R123
RR
RR
OP+OP+
OP-OP-
ADINADIN
0.1u0.1u
CB35CB35
CB38CB38
0.1u0.1u
0.015u0.015u
FF EE C22C22
MD
I2M
DI2
LD
O2
LD
O2
LD
O1
LD
O1
MD
I1M
DI1
WOBSOWOBSO
WVDDWVDD
AGNDXAGNDX
AGNDXAGNDX
AVDDOAVDDO
RFOPRFOP
RFONRFON
AGNDOAGNDO
AGNDTAGNDT
AVDDTAVDDT
V2REFOV2REFO
VREFOVREFO
V20V20
LVLLVL
VDDPVDDP
MT1336EMT1336E
MD
I2M
DI2
WG
AN
DW
GA
ND
115
115
116
116
117
117
118
118
TN
IT
NI
SV
DD
SV
DD
TP
IT
PI
SG
ND
SG
ND
121
121
119
119
120
120
122
122
123
123
WAV
DD
WAV
DD
AG
C1
AG
C1
AG
C2
AG
C2
AG
C3
AG
C3
128
128
126
126
124
124
125
125
127
127
LD
O1
LD
O1
MD
I1M
DI1
LD
O2
LD
O2
RF
SU
BO
RF
SU
BO
WG
ND
WG
ND
TM2TM2
TM1TM1
TM3TM3
TM4TM4
FEOFEO
CSOCSO
TEOTEO
0.1u0.1uCB28CB2888
11
47u47u
C20C20++
22
33
44
66
55
77 RFONRFON
RFOPRFOP
0.1u0.1u
CB34CB34
RVCCINRVCCIN
RVCCINRVCCIN
CB24CB24
1515
99
1010
1111
1313
1212
1414
1616
1717
1818
2020
1919
2121 0.1u0.1u
V2P8V2P8
0.1u0.1u
0.1u0.1u
CB25CB25
TEOTEO
V1P4V1P4
V20V20
FEOFEO
CSOCSO
RFLRFL
TEOTEO
FEOFEO
Z14Z14
CSOCSO
Z12Z12
PW
M2V
RE
FP
WM
2V
RE
F
RF
DT
SLV
PR
FD
TS
LVP
RF
DT
SLV
NR
FD
TS
LVN
DMVSSDMVSS
IOA19IOA19
IOA18IOA18
A17A17
A16A16
IOA7IOA7
IOA6IOA6
IOA5IOA5
IOA4IOA4
IOA3IOA3
IOA2IOA2
DVDD2DVDD2
IOA1IOA1
IOA0IOA0
AD0AD0
AD1AD1
AD2AD2
AD3AD3
DVDD3DVDD3
AD4AD4
AD5AD5
AD6AD6
AD7AD7
HIGHA7HIGHA7
HIGHA6HIGHA6
DVSSDVSS
HIGHA5HIGHA5
HIGHA4HIGHA4
HIGHA3HIGHA3
HIGHA2HIGHA2
HIGHA1HIGHA1
HIGHA0HIGHA0
DVSSDVSS
FGFG
FMOFMO
DMODMO
DVDD2DVDD2
PWMOUT2PWMOUT2
TROPENPWNTROPENPWN
TROTRO
FOOFOO
PLLVDD3PLLVDD3
JITFNJITFN
JITFOJITFO
LPFOPLPFOP
LPFINLPFIN
LPFIPLPFIP
LPFONLPFON
LPIONLPION
LPIOPLPIOP
PLLVSSPLLVSS
IREFIREF
A19A19
A18A18
5252
5151
5050
A6A6
A16A16
A17A17
A7A7
A4A4
A5A5
A3A3
4646
4949
4848
4747
4545
4444
4343
DV33DV33
V25V25
A0A0
A2A2
A1A1
AD1AD1
AD0AD0
AD2AD2
3939
4242
4141
4040
3838
3737
3636
AD5AD5
AD3AD3
AD4AD4
AD7AD7
AD6AD6
A15A15
3232
3535
3434
3333
3131
3030
2929
330p330p
C48C48
330p330p
C47C47
0.015u0.015u
C49C49
LPFONLPFON
JITFOJITFO
Z25Z25
100p100p
++ C37C37
0.1u0.1u
Z23Z23
CB40CB40
C44C44 100p100p
1u1u
C38C38
10n10n
C42C42
C39C39
GNDGND
GNDGND
V25V25
15k15k
0.1u0.1u
CB45CB45
R37R37
R35R35
R36R36 10k10k
00
A12A12
A14A14
A13A13
A10A10
A11A11
A9A9
2525
2828
2727
2626
2424
2323
2222
A8A8
FGFG
1818
2121
2020
1919
1717
1616
1515
10n10n
18k18k
750k750k
10n10n
20k20k
C43C43
R34R34
R32R32
R30R30
10n10n
C40C40
R28R28
C41C41
10n10n
8.2k8.2k
1111
1414
1313
1212
1010
99
88
44
77
66
55
33
22
11
MT1369E_208MT1369E_208
47u47u0.1u0.1u
1010
R27R27
RFONRFON
Z19Z19
CB37CB37
Z17Z17
V2P8V2P8
++ C25C25
HTRCHTRC
RFRPCRFRPC
Z16Z16
R14R14
Z18Z18 20p20pC26C26
LPIOPLPIOPRFOPRFOP
Z20Z20
RFOPRFOP
RFONRFON
ADINADIN
C31C31
C29C29
C27C27
LPIONLPION
1000p1000p
1000p1000p
20p20p
RFINRFIN
RFIPRFIP
V2P8V2P8
ADINADIN
TEOTEO
RFRPCRFRPC
RFZCRFZC
00 R15R15 RR
0.033u0.033u
0.1u0.1u
CB26CB26 ++
0.1u0.1u10u10u
CB27CB27C10C10
470p470p
RFLRFL
Z13Z13
10u10u
++ C11C11
47u47u
C17C17
RFRPRFRP
FEOFEO
CSOCSO
RFLRFL
++
AV33AV33
0.1u0.1u
CB29CB29
192
192
AD
CV
DD
3A
DC
VD
D3
150p150p
C30C30
RF
INR
FIN
RF
IPR
FIP
U3U3 207
207
208
208
SC
OP
SC
OP
SC
ON
SC
ON
204
204
205
205
206
206
202
202
203
203
150p150p
C28C28
197
197
RF
RP
SLV
RF
RP
SLV
HR
FZ
CH
RF
ZC
RF
RP
_D
CR
FR
P_D
C
RF
RP
_A
CR
FR
P_A
C199
199
200
200
201
201
198
198
RF
LE
VE
LR
FLE
VE
L
CS
OC
SO
FE
IF
EI
TE
ZIS
LV
TE
ZIS
LV
TE
IT
EI
195
195
196
196
193
193
194
194
1000p1000p
C21C21
SC
LK
SC
LK
183
183
AD
INA
DIN
RF
SU
BI
RF
SU
BI
PD
MV
SS
PD
MV
SS
AD
CV
SS
AD
CV
SS
190
190
191
191
188
188
189
189
PD
MV
DD
3P
DM
VD
D3
PW
MV
RE
FP
WM
VR
EF
BD
OB
DO
DV
DD
3D
VD
D3
185
185
186
186
187
187
184
184
BD
OB
DO
DV
33
DV
33
178
178
SD
AT
AS
DA
TA
SD
EN
SD
EN
SLC
KS
LC
K
UD
GA
TE
UD
GA
TE
WO
BS
IW
OB
SI
181
181
182
182
179
179
180
180
IFG
AT
EIF
GA
TE
DV
DD
3D
VD
D3
DV
SS
DV
SS
VF
O13
VF
O13
176
176
177
177
174
174
175
175
DV
33
DV
33
SD
AT
AS
DA
TA
SD
EN
SD
EN
UR
ST
UR
ST
GN
DG
ND
1000p1000p
C23C23
18k18k
R16R16
0.1u0.1u
R13R13
CB30CB30
100k100k V1P4V1P4
CB33CB33
CB32CB32
0.1u0.1u
0.1u0.1u
47u47u
C19C19++
HTRCHTRC
Z8Z8
TR
CLO
SE
TR
CLO
SE
53
53
PW
MO
UT
2P
WM
OU
T2
CB2CB2
0.1u0.1uCB11CB11
OP+OP+
OP-OP-
OPOOPO0.1u0.1uCB12CB12
C1C1
100u100u
++
RVCCINRVCCIN
6767
7474
MOPMOP
SW1SW1
SW2SW2
SW0SW0
SINPHISINPHI
REFSINREFSIN
HALLSINHALLSIN
8080
7979
7878
7777
7676
7575
AGNDMAGNDM
REFCOSREFCOS
HALLCOSHALLCOS
COSPHICOSPHI
AVDDMAVDDM
AGNDXAGNDX
AVDDFAVDDF
7373
7272
7171
7070
6969
6868
AG
ND
XA
GN
DX
AGNDFAGNDF
VCONVCON
6565
6666
AV
DD
PA
VD
DP
64
64
63
63
0.1u0.1u
SD
EN
SD
EN
AG
ND
PA
GN
DP
DP
DM
UT
ED
PD
MU
TE
RS
TR
ST
SD
AT
AS
DA
TA
60
60
61
61
62
62
59
59
58
58
GN
DS
GN
DS
SC
LK
SC
LK
XC
K16M
XC
K16M
VD
DS
VD
DS
57
57
56
56
54
54
55
55
UR
ST
UR
ST
SD
EN
SD
EN
SD
AT
AS
DA
TA
SC
LK
SC
LK
MT1336EMT1336E
R38,R49,R61: FOR 5VR38,R49,R61: FOR 5V
MT1336EMT1336E
R46,R60,R63: FOR 3VR46,R60,R63: FOR 3VRFVCCRFVCC
R46R46
00
R38R38
00
VCCVCC
CB1CB1
0.1u0.1u
44
DEFECTDEFECT
LRFRPLRFRP
HRFRPHRFRP
CRTPCRTP
CRTPLPCRTPLP
TRLPATRLPA
TRLPTRLP
HTRCHTRC
GNDPGNDP
DPFNDPFN
DPFODPFO
AGNDXAGNDX
AGNDXAGNDX
AGNDXAGNDX
VDDVDD
VFO13VFO13
(10)(10)
IO2
IO2
IO7
IO7
IOB
IOB
IOA
IOA
IO9
IO9
IO8
IO8
52
52
51
51
50
50
49
49
IO6
IO6
IO5
IO5
IO4
IO4
IO3
IO3
46
46
47
47
48
48
45
45
44
44
TR
OU
TT
RO
UT
EN
DM
EN
DM
IOA
IOA
ST
BY
ST
BY
LIM
ITLIM
IT
TR
INT
RIN
39
39
IO1
IO1
IO0
IO0
HD
GA
TE
HD
GA
TE
UD
GA
TE
UD
GA
TE
41
41
43
43
42
42
40
40
GN
DG
ND
U1U1
3636
2929
2323
2424
2525
2727
2626
2828
BDOBDO
RFRPRFRP
3030
3131
3232
3333
3434
3535
C5C5
C6C6
C7C7 390p390p
390p390p
10p10p
HTRCHTRC
HRFRPHRFRPZ6Z6
3838
3737
RFVCCRFVCC
CB3CB3
0.1u0.1u
TROPENTROPEN
TRCLOSETRCLOSE
ENDMENDM
STBYSTBY
Z2
Z2
Z3
Z3
Z4
Z4
IO4
IO4
IO1
IO1
IO0
IO0
R3R3
R4R4
R1R1
R2R2
10k10k
10k10k
10k10k
10k10k
100k100k
0.015u0.015uC4C4
R10R10
27p27pC2C2
R9R9 27k27k
33
SANYO SF-HD6AV PUHSANYO SF-HD6AV PUH
22
AP
LLV
DD
3A
PLLV
DD
3
RD29RD29
RA4RA4
DCKEDCKE
MA5MA5
MA11MA11
MA9MA9
DCLKDCLK
MA8MA8
MA6MA6
MA7MA7
RA11RA11
DVSSDVSS
CLKCLK
CKECKE
105105
106106
107107
RA9RA9
RA8RA8
DVDD3DVDD3
RA7RA7
RA6RA6
RA5RA5
111111
109109
108108
110110
113113
112112
114114
GNDGND
DV33DV33
DQ31DQ31
DQ30DQ30
DQM0DQM0
MA3MA3
MA1MA1
MA10MA10
DQM1DQM1
MA4MA4
BA1BA1
MA2MA2
MA0MA0RA0RA0
DVSSDVSS
DQM1DQM1
DQM0DQM0
BA1BA1
RA10RA10
DVDD2DVDD2
118118
115115
116116
117117
120120
119119
121121
RA1RA1
RA2RA2
RA3RA3
DVSSDVSS
RD31RD31
RD30RD30
125125
122122
123123
124124
127127
126126
128128
GNDGND
V25V25
GNDGND
RD20RD20
DQM3DQM3
DQ27DQ27
DQ29DQ29
DQ28DQ28
DQ25DQ25
DQ26DQ26
DQ24DQ24
DQ23DQ23
DQM2DQM2
DQ22DQ22
DQ21DQ21
DVSSDVSS
RD28RD28
DVDD3DVDD3
RD27RD27
RD26RD26
RD25RD25
RD24RD24
132132
129129
130130
131131
134134
133133
135135
DQM3DQM3
DQM2DQM2
RD23RD23
RD22RD22
DVDD2DVDD2
RD21RD21
139139
136136
137137
138138
141141
140140
142142
DV33DV33
GNDGND
V25V25
DQ20DQ20
DQ19DQ19
DQ18DQ18
DQ17DQ17
DQ16DQ16
ASDAT0ASDAT0
ABCKABCK
ALRCKALRCK
ACLKACLK
ALRCKALRCK
RD19RD19
RD18RD18
DVSSDVSS
RD17RD17
RD16RD16
ABCKABCK
146146
143143
144144
145145
148148
147147
149149
DVDD3DVDD3
ASDATA0ASDATA0
ASDATA1ASDATA1
ASDATA2ASDATA2
ACLKACLK
APLLVSSAPLLVSS
153153
150150
151151
152152
155155
154154
156156
GNDGND
DV33DV33
VSCKVSCK
SDASDA
SCLSCL
VSDAVSDA
1K1K
R104R104
VSCKVSCK
VSDAVSDA
SDASDA
BB
[ 3,4 ][ 3,4 ]
[ 3,4 ][ 3,4 ]
RST_TVERST_TVE
Y0
Y0
164
164
169
169
YU
V7
YU
V7
ICE
ICE
YU
V5
YU
V5
YU
V6
YU
V6
171
171
172
172
173
173
170
170
YU
V3
YU
V3
YU
V4
YU
V4
DV
DD
2D
VD
D2
YU
V1
YU
V1
YU
V2
YU
V2
167
167
168
168
165
165
166
166
V25
V25
Y6
Y6
Y7
Y7
Y5
Y5
Y4
Y4
Y3
Y3
Y1
Y1
Y2
Y2
BLA
NK
#B
LA
NK
#
DV
SS
DV
SS
YU
V0
YU
V0
VS
YN
VS
YN
HS
YN
HS
YN
162
162
163
163
160
160
161
161
SP
DIF
SP
DIF
MC
_D
AT
MC
_D
AT
157
157
158
158
159
159
HS
YN
C#
HS
YN
C#
VS
YN
C#
VS
YN
C#
GN
DG
ND
AS
PD
IFA
SP
DIF
1010
R22R22
2.2u2.2u
C32C32
AV33AV33
10k10k
R145R145
RST_TVERST_TVE
CS#CS#
DQ[0..31]DQ[0..31]
DCKEDCKE
CAS#CAS#
RAS#RAS#
PWR#PWR#
PRD#PRD#
DQM[0..3]DQM[0..3]
WE#WE#
BA[0..1]BA[0..1]
PCE#PCE#
MA[0..11]MA[0..11]
DCLKDCLK
RAS#RAS#
SCLSCL
DCLKDCLK
DCKEDCKE
CAS#CAS#
WE#WE#
CS#CS#
MA[0..11]MA[0..11]
DQM[0..3]DQM[0..3]
BA[0..1]BA[0..1]
DQ[0..31]DQ[0..31]
PCE#PCE#
PRD#PRD#
PWR#PWR#
[ 3 ][ 3 ]
[ 3 ][ 3 ]
[ 3 ][ 3 ]
[ 3 ][ 3 ]
[ 3 ][ 3 ]
[ 3 ][ 3 ]
[ 3 ][ 3 ]
[ 3 ][ 3 ]
[ 3 ][ 3 ]
[ 3 ][ 3 ]
[ 3 ][ 3 ]
[ 3 ][ 3 ]
[ 3 ][ 3 ]CC
ASPDIFASPDIF
A[0..19]A[0..19]
URSTURST
VSYNC#VSYNC#
ASDAT0ASDAT0
AD[0..7]AD[0..7]
HSYNC#HSYNC#
ALRCKALRCK
Y[0..7]Y[0..7]
ACLKACLK
ABCKABCK
VSYNC#VSYNC#
AD[0..7]AD[0..7]
A[0..19]A[0..19]
ABCKABCK
ASDAT0ASDAT0
ALRCKALRCK
ACLKACLK
ASPDIFASPDIF
HSYNC#HSYNC#
Y[0..7]Y[0..7]
URSTURST
[ 4 ][ 4 ]
[ 3 ][ 3 ]
[ 3 ][ 3 ]
[ 5 ][ 5 ]
[ 4 ][ 4 ]
[ 4 ][ 4 ]
[ 4 ][ 4 ]
[ 4 ][ 4 ]
[ 4 ][ 4 ]
[ 4 ][ 4 ]
[ 1 ][ 1 ]
CB15CB15
0.1u0.1u 0.1u0.1u
CB14CB14
0.1u0.1u0.1u0.1u
V25V25
CB16CB16 CB17CB17
0.1u0.1u
CB4CB4
0.1u0.1u
CB5CB5
DV33DV33
0.1u0.1u
CB6CB6
0.1u0.1u
CB7CB7
0.1u0.1u 0.1u0.1u
CB18CB18 CB19CB19
0.1u0.1u
CB8CB8
0.1u0.1u
CB9CB9
0.1u0.1u
CB10CB10
[ 1 ][ 1 ]V25V25V25V25
MUTE#MUTE#
SGNDSGND
DV33DV33
27MHZ27MHZ
GNDGND
RESET#RESET#
MUTE#MUTE#
27MHZ27MHZ
SGNDSGND
RESET#RESET#
GNDGND
DV33DV33
[ 4 ][ 4 ]
[ 4 ][ 4 ]
[ 1,3,4,5 ][ 1,3,4,5 ]
[ 4 ][ 4 ]
[ 1,3,4 ][ 1,3,4 ]
[ 1,3,4,5 ][ 1,3,4,5 ]
DD
AVCCAVCC
V33V33
RVCCRVCC
AV33AV33
VCCVCC
V33V33
AV33AV33
VCCVCC
RVCCRVCC
AVCCAVCC
11
[ 1,3,4 ][ 1,3,4 ]
[ 1,3,4,5 ][ 1,3,4,5 ]
[ 1 ][ 1 ]
[ 1 ][ 1 ]
[ 1 ][ 1 ]
Circuit Diagram for DVD130A (5)
1. During mounting, ensure static protection1. During mounting, ensure static protection
2. Stick the warning labels (9) conspicuously2. Stick the warning labels (9) conspicuously
3. Fasten the flat cable between the disc3. Fasten the flat cable between the disc
(DJ100+DV-33FS)(DJ100+DV-33FS)
6560 M3X86560 M3X8
6560 M3X166560 M3X16
JUV6.463.001JUV6.463.00111
JUV7.312.003JUV7.312.003
JUV6.604.291JUV6.604.291
JUV6.604.290JUV6.604.290
JUV7.312.004JUV7.312.004
JUV6.672.287JUV6.672.287
22
33
44
55
66
Fastening clip assemblyFastening clip assembly
Decoding board assemblyDecoding board assembly
Wired connectorWired connector
Wired connectorWired connector
Shield caseShield case
Shield coverShield cover
1212
JUV8.817.041JUV8.817.041
JU8.667.310JU8.667.310
JUV8.072.015JUV8.072.015
99
88
77
1111
1010
1414
1313
1717
1616
1515
ScrewScrew
Warning labelWarning label
Wire clipWire clip
Supporting columnSupporting column
ScrewScrew
Tapping screwTapping screw 3X8VTHO3X8VTHO
Disc trayDisc tray
11
11
11
11
11
11
44
22
11
44
44
66
5. Ensure that four fins of the shield case 5. Ensure that four fins of the shield case
1818
4. Bind wire with the wire clip (8).4. Bind wire with the wire clip (8).
Technical RequirementsTechnical Requirements
to the disc tray (13).to the disc tray (13).
on the disc tray (13) and shield coveron the disc tray (13) and shield cover
(6) respectively.(6) respectively.
tray and decoding board with the tape (14).tray and decoding board with the tape (14).
are not deformed during mounting.are not deformed during mounting.
SerialSerial
No.No.Code No.Code No. PartsParts QtyQty RemarksRemarks
Final Assembly Diagram of DVD UnitFinal Assembly Diagram of DVD Unit
55
1313
1111
1212
88
77
44
11
33
22
66
1010
TO TV
JUV
6.6
04
.27
2
Disc tray (including disc tray DJ100 and DV-33FS)
JUV6.604.270
JUV6.604.274
JUV6.604.322
JUV
6.6
04
.29
1
JUV
6.6
04
.29
0
Fla
t ca
ble
JUV6.672.287
TO TV
Decoding board assembly
XP4
XP3
CN1XP2
XS2
XS1
XP1
Final Wiring Diagram for DVD130A
F ina l Wir ing Diagram and F ina l Assembly Diagram for DVD130A