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DK1910SI & DK1930SI
DK1810SI & DK1830SI
& DK1840SI
service manual
Catalog
Chapter One About Maintenance
1.1 Safety precautions
1.1.1 Power supply
1.1.2 Precautions for antistatic
1.1.3 Precautions for laser head
1.1.4 About placement position
1.2 Maintenance method
1.2.1 Visualized method
1.2.2 Electric resistance method
1.2.3 Voltage method
1.2.4 Current method
1.2.5 Cutting method
1.2.6 Element substitution method
1.2.7 Comparison method
1.3 Required device for maintenance
Chapter Two Functions and Operation Instructions
2.1 Features
2.2 Controls and functions
2.2.1 Front Panel controls
2.2.2 Rear panel connections
2.2.3 VFD display general view
2.2.4 Remote control general view
2.3 FUNCTION SETTINGS
2.3.1 Function selection and change
2.3.2 Language settings
2.3.3 Image settings menu
2.3.4 Sound settings menu
2.3.5 Playback settings
2.3.6 Karaoke settings menu
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3
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2.3.7 Preference settings
2.3.8 Parental Control
2.3.9 Initial setup menu
2.3.10 reset to defaults
2.3.11 Exit settings menu
2.3.12 Channel delay set-up
2.4 Technical characteristics
Chapter Three Principle and Servicing
Section One Principle of the Player
3.1.1 Function and features
3.1.2 Block diagram of the player
3.1.3 Introduction to IC used in this player
Section Two Unit Circuit Principle
3.2.1 Introduction to laser head
3.2.2 Servo circuit
3.2.3 Main axis braking control circuit
3.2.4 Disc identification circuit
3.2.5 Disc in/out circuit
3.2.6 Reset circuit
3.2.7 Mute circuit
3.2.8 Video circuit
3.2.9 Audio power amplifying circuit block diagram
3.2.10 Input/output circuit
3.2.11 Control panel components
3.2.12 Power supply circuit
Section Three Servicing Cases
3.3.1 Servicing cases
3.3.2 Troubleshooting flow chart
Section Four Waveform diagram
Section Five Function Introduction to IC
3.5.1 function introduction to MT1389HD
3.5.2 function introduction to AT24C02
3.5.3 function introduction to 74HCU04
3.5.4 function introduction to Lm1117
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3.5.5 function introduction to 29LV160BE
3.5.6 function introduction to HY57V641620HGT -7
3.5.7 function introduction to D5954
3.5.8 function introduction to 4558
3.5.9 function introduction to SN74LVC
3.5.10 function introduction to 74HCT125
3.5.11 function introduction to Cd4052
3.5.12 function introduction to SAA6588
3.5.13 function introduction to 5340
3.5.14 function introduction to TLV272
3.5.15 function introduction to Lm4880
3.5.16 function introduction to TAS5508PAG
3.5.17 function introduction to TAS5112DFD
3.5.18 function introduction to Ad7312
3.5.19 function introduction to VIPer22ADIP
3.5.20 function introduction to Hs817
3.5.21 function introduction to TL431A
3.5.22 function introduction to KA1M0880BTU
Chapter Four Disassembly and Assembly Process
Chapter Cinque PCB board & Circuit diagram
Section One PCB board
Section Two circuit diagram
Chapter six BOM List
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Chapter One About Maintenance
1.1 Safety precautions
1.1.1 Power supply
When maintenance personnel are repairing DVD players, he should pay special attention to the power board with 220V AC and 330V DC which will cause hurt and damage to persons!
1.1.2 Precautions for antistatic
Movement and friction will both bring static electricity which causes serious damages to integrated
IC. Though static charge is little, when a limited quantity of electric charge is added to largescaleintegrated IC, as the capacitance is very small in the meantime, now the integrated IC is very much easy to be struck through by static electricity or the performance will decrease. Thus static electricity prevention is of extraordinary importance. The following are several measures to prevent static electricity:
1. Use a piece of electric conduction metal with the length of about 2 metres to insert into the earth, and Fetch the lead wire from the top of the surplus metal and connect to the required static electricity device. The length and depth of the metal embedded under the earth should be determined according to the wettability of the local soil. For humid places, it may be shorter, and longer and deeper for dry places.
If possible, it can be distributed and layed in terms of “#” shape.
2. On operating table-board, the antistatic table cushion should be covered and grounded.
3. All devices and equipments should be placed on the antistatic table cushion and grounded.
4. Maintenance personnel should wear antistatic wrist ring which should be grounded.
5. Places around the operating position should also be covered with electric conduction cushion or
Painted with antistatic paint.
1.1.3 Precautions for laser head
1. Do not stare at laser head directly, for laser emission will occur when laser head is working, which will Hurt your eyes!
2. Do not use wiping water or alcohol to clean laser head, and you may use cotton swab.
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1.1.4 About placement position
1. Never place DVD player in positions with high temperature and humidity.
2. Avoid placing near high magnetic fields, such as loudspeaker or magnet.
3. Positions for placement should be stable and secure.
1.2 Maintenance method
1.2.1 Visualized method
Directly view whether abnormalities of collision, lack of element, joint welding, shedding welding, rosin joint, copper foil turning up, lead wire disconnection and elements burning up among pins of elements appear. Check power supply of the machine and then use hands to touch the casing of part of elements and check whether they are hot to judge the trouble spot. You should pay more attention when using this method to check in high voltage parts.
1.2.2 Electric resistance method
Set the multimeter in resistance position and test whether the numerical value of resistance of each point in the circuit has difference from the normal value to judge the trouble spot. But in the circuit the tested numerical value of resistance is not accurate, and the tested numerical value of integrated IC's pins can only be used for reference, so the elements should be broken down for test.
1.2.3 Voltage method
Voltage method is relatively convenient, quick and accurate. Set the multimeter in voltage position and test power supply voltage of the player and voltage of a certain point to judge the trouble spot according to the tested voltage variation.
1.2.4 Current method
Set the multimeter in current position and test current of the player of a certain point to judge the trouble spot. But when testing in current method, the multimeter should be series connected in the circuit, which makes this method too trivial and troublesome, so it is less frequently used in reality.
1.2.5 Cutting method
Cutting method should be combined with electric resistance method and voltage method to use.
This method is mainly used in phenomena of short circuit and current leakage of the circuit. When cutting the input terminal voltage of a certain level, if voltage of the player rises again, it means that the trouble lies in this level.
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1.2.6 Element substitution method
When some elements cannot be judged good or bad, substitution method may de adopted directly.
1.2.7 Comparison method
A same good PC board is usually used to test the correct voltage and waveform. Compared these data with those tested through fault PC board, the cause of troubles may be found.
Through the above maintenance method, theoretical knowledge and maintenance experience, all difficulties and troubles will be readily solved.
1.3 Required device for maintenance
Digital oscillograph ( 100MHE)
TV set
SMD rework station
Multimeter
Soldering iron
Pointed-month pincers
Cutting nippers
Forceps
Electric screw driver
Terminals connecting cord
Headphone
Microphone
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Chapter Two
Functions and Operation Instructions
2.1 Features
Formats:
#Digital video playback of DVD-Video, Super VCD and VCD formats
#MPEG-4 compatibility: playback of DivX 3.11, DivX 4, DivX 5, DivX Pro and XviD formats
#Playback of music discs in DVD-Audio format
#Playback of musical compositions in CD-DA and HDCD formats
#Playback of compressed musical files in Mp3 and CD+G formats
#Playback of Karaoke-discs in DVD, VCD and CD+G formats
#Playback of photo albums, recorded in Kodak Picture CD and JPEG digital formats
Audio:
#192 kHz/12 bit audio D/A converter
#Coaxial and optical audio outputs, providing digital sound playback in Dolby Digital/DTS/LPC formats
#Coaxial and optical audio inputs, providing connection of external digital signal sources
#Stereophonic audio output for connection to TV and amplifier
#Integrated digital multi-channel sound decoders, providing playback of Dolby Digital and DTS audio tracks
#Integrated Dolby Pro Logic ll decoder, providing transformation of stereophonic signal to multi-channel one
#Microphone input providing karaoke functions
#Headphones output
Video:
#108kHz/12 bit video D/A converter
#Progressive scan(Y Pb Pr)video signal output, securing high resolution and absence of image flicker
#Composite and component(Y Cb Cr), S-Video and RGB/SCART video outputs, providing advanced switching capabilities
#NTSC/PAL transcoder
#Support of many camera angels, dubbed languages and subtitles
#Sharpness, Gamma, Brightness, Contrast, Hue and Saturation adjustment.
Miscellaneous:
#Support of CD-R/CD-RW, DVD-R/DVD-RW, DVD+R/DVD+RW
#FM/AM tuner with RDS support
#USB port, providing playback of files of supported formats from external flash-memory devices
#KARAOKE+, providing extended karaoke features
#Easy to use on-screen menu in Russian
#Support of Russian file names, Id3 tags and CD-text
#”Memory” function which can load the last disc position on stop
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#”Capture” function, auto loading selected bookmarked image as the wallpaper
#Q-Play function that will bring you to the main movie title and skip unskippable commercials
#Virtual control panel function makes your control of the device much easier when playing the movie
#Browser function displays information about playback modes
#Auto protection of TV screen
#Child lock, parental control(protection against playing undesirable discs)
2.2 Controls and functions
2.2.1 Front panel controls
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2
3
4
5
6
7
STANDBY/POWER button
Press to switch the device on/into standby
Disc tray
Open/close button
Press to open/close the disc tray
PREV button
Press to playback from the previous bookmark
NEXT button
Press to playback from the next bookmark
PEW button
Press to fast reverse/radio station tuning
Forward button
Press to fast forward/radio station tuning
2.2.2 Rear panel connections
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2
3
AM Antenna input
FM Antenna input
Left front speaker input(output from the build-in amplifier)
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SOURCE button
Press to switch between DVD-receiver/Audio input/Tuner/Digital audio input
PLAY/PAUSE button
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Press to playback/pause
STOP button
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12
Press to stop the playback
Microphone input
VOLUME adjuster
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Press to adjust volume
VFD display window
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15
Headphones input
USB port
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5
Right front speaker input(output from the build- i n amplifier)
Center speaker input(output from the build-in amplifier
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Subwoofer input(output from the build-in amplifier)
Left Surround speaker input(output from the build-in amplifier)
Right Surround speaker input(output from the build-in amplifier)
Audio input
Stereophonic audio output
2.2.3 VFD display general view
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18
Component video output Y Cb(Pb)Cr(Pr)
Composite video output
S-Video output
SCART-type V connector
Coaxial digital audio output
Optical digital audio output
Optical digital audio input
Coaxial digital audio input
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2
3
4
MP3-disc
CD-, VCD- or SVCD-disc
DVD-disc
Repeat
AM/FM
Radio tuning mode
Tuner mode
Stereo
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2
3
2.2.4 Remote control general view
EJECT button
Press to open/close the disc tray
DVD button
Press to switch to DVD mode
AUDIO button
Press to display the disc information
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14
9
10
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15
Dolby Digital
Programmed radio station
Friquency
Playback time
Chapters or tracks
Playback or pause
PBC
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5
6
DISP button
Press to display the disc information
LANG button
Press to change the language
SLEEP button
Press to turn the sleep mode on
27 OK button
Press OK for confirmation or use it like joystick during navigating in MENU.
28 MENU button
DVD-disc menu/PBC function
29 GOTO button
Press to playback from the target place.
30 Numeric buttons
31 ST/5.1 button
Press to switch between STEREO/5.1CH
32 Treble +/- button
Press to adjust the tone
33 ECHO button
Press to adjust the echo function of the microphone.
34 MEM button
Press to memorize the point where playback was stopped/playback from the previously memorized point.
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8
9
Q-PLAY button
Press to turn the Q-Play mode on.
EQ button
Press to adjust the equalizer
BASS +/- button
Press to adjust subwoofer
10 BOOST button
Press to bass boosting
11 BROWSER button
Press to turn on/off the browser function
12 JOG DIAL wheel
13
Functions are set manually. Default function: ZOOM
SETUP button
Press to switch to setup mode
14 Button
Press to capture and bookmark image for the wallpaper
15 Buttons
16
Press to start reverse or forward scanning.
SKIP/PRESET +/-
17
Press to switch between files on disc/tuned radio stations.
A-B buttons
Press to repeat the selected portion
18 REPEAT button
Press to repeat playback
19 CH +/CH - button
20
Press to change the acoustic channel
MUTE button
Press to turn on/off the sound
21 VOLUME +/- button
Press to adjust the volume
22 SLOW button
23
Press to switch to slow down the playback
PLAY/PAUSE button
24
Press to Play/pause the playback
STOP button
Press to stop the playback
25 Button
Press to trun on/off the virtual control panel
26 CANCEL button
Press to go one level back/cancel current operation
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35 HDMI button
36
Press to switch to HDMI mode
SUBT button
37
Press to change the subtitles language
ANGLE button
Press to change the camera angel
38 RADIO button
Press to switch to radio mode
39 KARAOKE button
40
Press to set the karaode functions
USB button
Press to switch to USB mode
41 Button
Press to switch the device on/into standby
2.3 FUNCTION SETTINGS
2.3.1 Function selection and change
Press the SETUP key to show the setup menu. You will the following image on the screen, as shown on the figure:
1.For example, if you wish to change the change the image settings, you have to select the image item and press the OK or RIGHT key of the cursor joystick.
2.Using the jog Dial, select the desired item and press OK or RIGHT key of the cursor joystick.
For example, select the Sharpness item.
Settings will appear on the screen. Then select the desired sharpness level and press OK for confirmation.
3.Press LEFT key of the cursor joystick for exit to previous menu level.
4.Press SETUP to exit setup menu.
2.3.2 Language settings
1.Menu: interface language setup
#Options: Russian, English, Ukrainian
#Default option: English
2.DVD-menu: selection of disc menu language
3.Soundtrack: selection of translation language
#Options: Russian, English, Estonian,
Lithuanian, Kazakh, Romanian, Belarusian,
Ukrainian, Chinese.
#Default: English
#Selection of other languages: select the
OTHERS item using the jog Dial and press OK.
Enter the language code using the numeric buttons and press OK.
#If the language you selected is not recorded on the DVD disc, another available language will be used.
4.Subtitles: selection of subtitles language
#Options: Off, Russian, English, Estonian,
Lithuanian, Kazakh, Romanian, Belarusian,
Ukrainian, and Chinese.
#Default option: Off.
#Selection of other languages: select the
OTHERS item using the jog Dial and press OK.
Enter the language code using numeric buttons and press OK.
#If the language you selected is not recorded on the DVD disc, another available language will be displayed.
2.3.3 Image settings menu
1.TV system: TV system selection
#Options: Auto, PAL, NTSC
#Default option: PAL
2.TV scan mode: scan mode selection
#Options: progressive, interlaced
#Default option; Interlaced
#Progressive scan is transferred only via a component video output.
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#Before switching to progressive scan, make sure that your TV set supports this operation mode.
3.TV Format: image ratio settings
#Options: 4:3 pan&scan, 4:3 letterbox and 16:9
TV.
#Default option: 4:3 letterbox.
#Some discs are recorded with support of only one ratio. The selected ratio must comply with the TV screen.
4.Video output: selection of video signal
#Options: S-Video(only for DK14**SI Series),
Comp, SCART.
#Default option: Comp
5.Sharpness: image sharpness adjustment
#Options: High, Medium, Low
#Default option: Medium
6.Gamma: adjustment of image color temperature
#Options: High, Medium Low, Off
#Default option: Off
7.Brightness: adjustment of image brightness
8.Contrast: adjustment of image contrast
9.Hues: adjustment of image hues
10.Saturation: adjustment of image saturation
Adjustment of image brightness, contrast, hues and saturation:
#Select the desired item of the image adjustment section using the jog Dial. Press OK or RIGHT key to start adjusting the relevant option
#Change the option value using the jog Dial.
#Upon completion press the LEFT key of the cursor joystick to return to image setup menu.
2.3.4 Sound settings menu
1.Mixer
a)Configuragion: setting of the mode conversion of the 5-channel signal to stereo signal
#Options: Stereo, 5.1
#Default option:5.1
#5.1 mode must be supported by the disc.
Number of music accompaniment channels depends on the specific disc.
#Adjustment of th4e central speaker and surround speakers is available only if the
Configuration option is set to 5.1 position.
b)Stereo mix: playback set-up while playing the disc with two independent audio channels
#Options: L+R, L, R
#Default options: L+R c)Surr.mix: set-up of surround options while playing the stereo disc.
#Options: Off, Sum. L+R,Virt.Surr.
#Default options: Off d)Low band: distribution of low frequencies through channels
#Options: Front F, Center C, Surround Sr,
Subwoofer SW
#Default options: Front F, Subwoofer SW.
#If you want the low-frequency component of the sound signal enter only the subwoofer channel, select and confirm the parameter Subwoofer
SW.
e)Channel settings: separate adjusting of volume by channels.(only for DK14**SI Series)
#Select the channel you want.
#Adjust the sound volume of each channel using the wheel.
#Press the OK to return to sound settings menu.
f)Delay of the channel: set-up of signal delay in speaker channels(central, rear and subwoofer)
#Using the jog Dial, select the channel for which you want to set up the delay, and press OK for confirmation.
#Using the jog Dial set up the desired distance from the listener to each speaker(detailed description of this operation see on page 32).
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#Press LEFT key of the cursor joystick to return to speaker configuration menu.
g)PRO Logic ll: function of stereo sound conversion to 5-channel sound
#Options: On, Off, Auto
#Default option: Off
#In Auto position, the DVD receiver determines itself, when to use the PRO Logic ll decoder.
Some discs do not support this function.
2.Digital audio output a)SPDIF format: set-up of digital audio output options
#Options; RAW, PCM
#Default options; RAW
# When you select the RAW option, the not decoded signal is transferred to the DVD receiver’s digital outputs, the decoded signal is transferred to analog outputs. Decoding is performed by the built-in decoder of the DVD receiver. This feature is meant to ensure that signal decoding at digital outputs is performed by an external device(e.g.an amplifier).
#If you select the PCM option, a PCM coded signal will be transferred to the DVD receiver’s digital outputs.
b)LPCM: set-up of digital audio output options to comply with different amplifiers an d receivers
#Options: 48kHz 16 bit, 96 kHz 24 bit .
#Default option: 48kHz 16 bit.
3.Sound correction a)Max volume: max volume limiting(only for
DK14**SI Series)
#Using the jog Dial, adjust the max volume level.
#Press the LEFT key of the cursor joystick to sound correction setup menu.
b)Equalizer: equalizer modes
#Options: Rock, Pop, Live, Dance, Techno,
Classic, Soft.
#Default option: Off.
c)Echo; echo effects
#Options: Off, Concert, Living room, Hall
Bathroom Cave, Arena, Church
#Default option: Off d)Tone balance: adjustment of tone balance level.
#Adjust the tone balance level using the jog Dial
#Press the LEFT key of the cursor joystick to return to sound correction setup menu.
2.3.5 Playback settings
1.DVD
Advertisment skip: skip the unskippable block while playing a DVD disc.
#Options; Yes, No
#Default option: Number
#Press LEFT key of the cursor joystick to return to speaker configuration menu.
2.VCD/SVCD
PBS menu: PBC menu on/off
#Options: On, Off
#Default option: On
#If On option is set, while erproducing discs, a menu will appear, in which you can select the order of playing the disc content. If the Off option is set, the reproducing of content is performed in the order, in which it is recorded on the disc.
3.Files: selection of reproduced files on the disc
#Options: Audio, Pictures, Video All types.
#Default option: All types
4.Repeat: file repeat mode
#Options: Off, Single, All
#Default option: Off
5.Load effect: type of transition from one JPEG file to another
#Options: Off, from top, from bottom
#Default option: Off.
2.3.6 Karaoke settings menu
1.Microphone: microphone on/off
#Options: On, Off
#Default option: Off
2.Kar.help: karaoke-disc playback mode
#Options: L Channel, R Channel, No ast, No voc
#Default option: No vocal mode
3.Volume:
Microphone: microphone sound volume level
#Using the jog Dial adjust the microphone volume level.
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#Press LEFT key of the cursor joystick to return to karaoke settings menu.
4.Echo: echo level while playing the karaokedisc
#Adjust the echo level Using the jog Dial
#Press LEFT key of the cursor joystick to return to karaoke settings menu.
2.Set password: setup of a four-digit password to change the level of age restrictions
#Default option: 7890
2.3.7 Preference settings
1.Backlight: Selection of open/colse button LED
#Options: On, Off.
#Default option: On
2.Gr.Equalizer: spectrum analyzer
#Options: On, Off
#Default option: Off
2.3.9 Initial setup menu
#Press the RIGHT key of the cursor joystick to enter the initial setup menu, then select the desired item using the jog Dial and press OK key for confirmation.
2.3.10 reset to defaults
Resetting all settings and restoring default options, except age restrictions level and password
3.Background: selection of an image as TV screen wallpaper
#Options: Standard, Saved
#Default option: Standard
4.Screensaver: screen saver on/off
#Options; On, Off
#Default option: On
2.3.11 Exit settings menu
#Select the exit item using the jog Dial and press the OK to exit the menu.
5.Jog Dial
#Options: Zoom, Step, Fast, Skip, Volume
#Default: Zoom
2.3.8 Parental Control
1.Category: setup of age restrictions to prevent children from seeing undesirable discs
#Options: Any, Kid, G, PG, PG-13, PGR, R, CN-
17
#Default option: Any
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2.3.12 Channel delay set-up
Set-up of time delay in the surround channel
Usually, time delay in the Dolby digital decoding system is preset to ensure best effect while installing the Home Theater. However, in case you wish to adjust your system more precisely, please consult instructions given in this manual.
Set up of tie delay for this device is possible in both Dolby Digital and Dolby Pro Logic modes..
It makes sense to locate the speakers in one line, as shown in Fig.3 with the delay value of the central channel to be set at “0”. Finally, if it will be necessary to install the central speaker behind the left and right front speakers, the delay value shall be set at “0”.
To set the desired delay you have to know the distance from the place where you are, to the front speakers and Surround speakers as shown in Fig.1. Consult Fig.2(Dolby Pro Logic mode) and 3(Dolby Digital mode)in order to determine the distance to Surround speakers(axis Y in the figure)and the distance to the front speakers
(axis X in the figure). Crossing point of those two lines on the chart will give the recommended delay value.
Set-up of time delay in the central channel
Sometimes several people are listening to the music, and the space is limited. In this case, you can install three speakers(two front ones and a central one)as shown in Fig.1 with the distance to the listener being approximately the same. The central channel delay is to be set at
“0”.
Should the central speaker be in close proximity to left and right front speakers as shown in Fig.2, or the central speaker be nearer to listeners when compared with front speakers’ location, or the central speaker be nearer to the listener by 1 foot, in all these cases you may set the delay value for the central channel at 1 ms.
For instance, as shown in Fig.2, if the line C is by 1 foot shorter than the lines R and L, the delay value is to be set at 1 ms. If your sofa is broad enough, and there are several listeners sittings on it.
Rear channel
Dolby Digital
Stereo 20 Hz-20khz
“Night” mode
The Dolby Digital system provides an extremely broad dynamic range of playback sound-from gentle to roaring. It creates the presence effect, especially while seeing motion pictures. However, at night a powerful sound with a broad dynamic range may give pleasure to you, but disturb and annoy your family and neighbors. If you just decrease the volume, you will immediately notice that you ceased to hear, e.g., Dialogues as clear as you do at normal volume, and such sound effects as rustle, whisper etc have merely disappeared. To avoid this, you just have to decrease the volume of
“loud”sounds by simultaneously increasing the volume of “soft”sounds with the volume of
“average”sounds left unchanged, i.e.just decrease the dynamic range of sound accompaniment. Only Dolby Digital system provides for such a method of sound control. It uses the principle of compressing the acoustic signal’s dynamic range while recording; therefore, while playing an inverse transformation(volume expansion)takes place.
This is called”night”mode. The regulation limits are restricted, however, to avoid distortions of resultant signal.
Dolby Pro Logic s urround
Mono channel w ith limited friquenc y range( 100 Hz-7khz)
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Low-frequency channel(subwoofer) multivar iate
Available, 20-120Hz
Sound field distribution
From left to r ight, from right to left, f rom front to r ear, fr om rear to fr ont
N/a
Sound field distribution
6 Independent channels, each reproducing its own signal at a time
Creates an optimum sound field with illusion of an equal distance from listener to each speaker.
Allows adjusting the decompression degree of an equal distance
from listener to ecach speaker.
Miscellaneous
Possilility of programmable control of the decoder to transfer basses into low-frequency channel in systems equipped with broad-band speakers and a subwoofer.
Undoubted progress in sound recording technology, especially important for program directors, film directors, sound engineers and actors.
4 segmented channels. Only one channel is decoded at a time.
The most cost-efficient way to ensure high-quality surround effect.
Surround sound may be received from any signal source.
Compatible with existing and future two-channel(stereo)formats.
Big progress in comparison with conventional stereo, the world's most popular surround format.
2.4 Technical characteristics
Playback disc s
DVD receiver
Input
Output
Video char acteris tics
DVD receiver
FM Tuner
AM Tuner
Audio char acteris tics
Operating voltage
Power consumption
Frequency r ange
Channel separation
Frequency r ange
DVD-V ide o, Super V CD, V CD, DivX 4, DivX 5, DivX Pro, Xv iD,
CD-DA , CD+G, HDCD, MP3, WMA, Kodak Picture CD, JPEG
2 MIC jacks
FM antenna input
AM antenna input
Stereo audio input(AUX)
Audio output
Analog audio output: Stereo
Digital audio output: Coaxial, Optical
Video amplitude: 1.0Vp-p(75Ù)
S-Video amplitde: Y:0.7vP-P(75Ù)
Component video amplitude: C:0.286vP-P(75Ù)
1.0vP-P(75Ù)
Frequency r esponse 20- 20000Hz(±1 Db)
Signal-to-noise ratio >90(dB)
THD <1%
~220V,50/60 Hz
250W
87.5-108 MHz
>35dB
522-1611kHz
- 13 -
Speaker sys tem
Output pow er RMS, 10% THD, 1 kHz
Subw oofer (40Hz)
Front channel
Rear channel
Center channel
Maximum power
Subw oofer
Front channel
Rear channel
Center channel
5-35
Operating temperature
Operating humidity 15-75%(no c ondensation)
Dimensions of DVDreceiv er
60×380×350mm
Weight of DVDreceiv er
3.4kg
DK1110SI DK1112SI DK1114SI
25 25 25
12 12 12
12
40 50 50
20 20 20
20 20 20
Dimensions of speakers
Subw oofer
Front channel
Rear channel
Center channel
DK1110SI DK1112SI DK1114SI
325×310×200 325×310×200 325×310×200
80×101×165 80×101×165 150×90×86
80×101×165 80×101×165 150×90×86
80×
- 14 -
ChapterThreePrincipleandServicing
SectionOnePrincipleofthePlayer
3.1.1 Function and features
# Progressive scanning output to produce steadier and clearer pictures without flickering.
# Composite video, S-video, component video output.
# Digital picture adjustment to the sharpness, brightness, contrast, chroma and saturation of pictures, gamma correction.
# Built-in Dolby digital decoder. Karaoke function.
# Hi-Fi stereo headphone output. 5.1CH output.
# Power amplifier adopts high performance large power IC with complete protection function and perfect sound quality.
# Compatible with DIVX, MPEG4 format disc.
# Subwoofer adopts large diameter bass unit matched with large capacity speaker body.
3.1.2 Bl ock diagram of the player
Its internal structure is mainly composed of decode & servo board, power amplifier board, input/otuput board, panel, headphone board, tuner, power board and loader. The principle block diagram is shown as the figure 3.1.2.1. All other signal flow is shown in figure except power board. The function of loader is to read disc information and transmit it to Mt1389, which performs servo function through
D5954 on decode board and other supplementary circuit, and ensues the normal working of loader.
FLASH on decode board is to store system program, SDRAM is to store program and sound/image information read from disc when the player is working to ensure their smooth output. The main function of power amplifier board is to perform audio D/A conversion, amplify analog signal and output 5.1CH to ensure the normal working of external speakers. The main function of AV board is to output various audio signals. This player is also with headphone and microphone to meet customers’ demand. Further more, it also has external sound input, which may amplify power by use of power amplifier board of this player to output to speaker. Tuner in this player makes it have tuning function. It is also equipped with
SAA6558 chip to realize RDS function of Europe and RBDS function of US.
- 15 -
L R SCART Y
Cr/Cb
Pr/Pb
Video S-video Optial Coaxial
Filtering
Loader
Headphone
N11
LM4880
Rear
L
Rear
R
Woofer Center
Front
L
Front
R
N13
TAS5112
N14
TAS5112
Amplifying circuit
N8, N9 (TLV272)
N12 TAS5508
DAVNIN SDATA0
SDATA1
SDATA2
ADC DAT
U201
Y1 Y2 Y3 Y4 Y5 Y6
SPDIF
URST#
MT1389HD
SDA AD
CS5340
Filtering
AUXR
AUXL
TUL
TUR
OK
Amplifying circuit
N1 4558
N6
SAA6558
Reset circuit
HDET
CLK
STB
SDA
IR
N102
REMOT
N101
AD7312
IR receiver
U214
FLASH
U211
SDRAM
Button
L
R
External audio input
Tuner
MIC 1
MIC 2
PDS MPX
MIC
3.1.3 Introduction to IC used in this player
Introduction to IC used in DK1910SI is shown in the following table:
PCB sem i-finishe d product name decode board
Power a mplifie r board
Main pa nel
Powe r boar d
IC model
MT1389HD
24C02
RT9701
HCU04
LM1117
HY57V641620HGT-7
29LV160BE
D5954
4558
SN74LVC
74HCT125
CD4052
SAA6588
CS5340
TLV272
LM4880
TAS5508PAG
TAS5112DFD
PT2597
AD7312
REMOT
VIPER22
HS817
TL431
LM7805
KA1M0880BTU
Locat ion
N1
N2
N3,N4
N5
N6
N7
N8,N9
N11
U201
U202
U203
U205
U209
U211
U214
U302
N12
N13,N14
N15
N101
N102
U501
U502,U506
U503,U507
U504
U505
Function
Decode chip
EEPROM
Phase inverter
Precision voltage stabilizer
64M SDRAM
16M FLASH
Servo drive
Audio amplifying
Phase inverter
Buffe r
Audio mixing
Tuning IC
A/D conversion
Operational amplifier
Audio amplifying
Pulse width adjuster
Digital power amplifier
Panel control IC
Remote control receiver
Power switch IC
Photoelectric coupler
Precision voltage stabilizer
Voltage stabilizing tube
Power switch IC
- 17 -
Section Two Unit Circuit Principle
Pin
3
4
1
2
5
3.2.1 Introduction to laser head
1. Function introduction to laser head flat cable is shown as the following table:
Name
F-
F+
T+
T-
C
Signal flow direction
Input loader
Input loader
Input loader
Input loader
Input MT1389
DVD disc CD disc No disc
2.52
2.49
2.53
2.58
2.2
2.34
2.49
2.51
2.51
2.25
2.04
0.46
0.93
0.94
0.93
Function description
Focus error signal is added to two sides of pick-up focus coil
Trace error signal is added to two sides of pick-up trace coil
Disc data signal
6 D Input MT1389 2.2
3.2
7 IOA Input MT1389
10
11
8
9
12
B
F
RF
A
GND
Input MT1389
Input MT1389
Input MT1389
Input MT1389
Ground
13
14
V20
Vcc
Input loader
Input loader
15 E
16 Blanking
Input MT1389 haning in air
0.01
2.06
5.04
2.45
0
2.53
2.22
2.27
2.44
0.01
2.04
5.04
2.06
0.01
2.21
2.17
2.19
2.07
0.01
3.2
2.03
5.02
2.03
0
2.04
2.03
0
2.04
3.21
1.28
2.04
Disc data signal
Disc identification signal, CD is 3.3V, DVD is 0V
The sum of disc data signal
Disc data signal
Disc data signal
Supplementary signal us ed in trace
Grounding
Reference voltage
Supply voltage for loader
Disc data signal unused
- 18 -
17
18 VR-DVD
19 LD-CD
20 MDII
Input loader
Input loader
Input MT1389
21
VR-CD
HFM
22
23
24
Blanking
LD-DVD
GND
Input loader
Input loader unused
Input loader unused
0.21
0.01
0.09
0.21
5.04
0.01
2.21
0.01
0.01
0.2
2.1
0.2
5.04
0.1
0.1
0.01
0
0
0
0
0
0
0
5.02
Through the handling inside loader, make sure MD11 is 180mV when reading CD
Through the handling inside loader, make sure MD11 is 180mV when reading DVD
CD laser power control signal
CD and DVD laser power monitoring signal
High frequency overlapping signal produces laser with different wave length inside loader
DVD laser power control signal
Grounding
Note: 1. When reading DVD, there are only A, B, C, D signals.
2. When reading CD, there are A, B, C, D, E, F signals.
3. RFO=A+B+C+D.
4. Focus error signal=(A+C)-(B+D) Trace error signal=E-F.
2. Working principle
(1) Laser tube: wave length of loader DVD laser diode is 650nm, wave length of CD laser diode is
790nm, the wave length which is within 370nm and 750nm is visible light, the laser in the course of reading DVD disc is visible light, and that when reading CD disc is infrared light.
(2) Principle about laser head picks up signal: laser beam projects onto disc, when laser beam focus projects onto disc vertically, laser beam will produce reflection, reach on light sensor through reflection loop and converse into electronic signal through photoelectric cell. For the reflection loop produced in non pit information area and pit information area in disc has difference and reflects into different position of light sensor, photoelectric diode in different positions on light sensor will produce different signals to process all signals on light sensor and then produce digital signals.
(3) Focus, trace coil: when laser head is reading signals normally, information side should be in the focus of laser beam, because of factors of disc error, high speed rotation and machine error, it is unavoidable that laser beam focus deviates from information face to produce phenomena of orbit boas and refocusing. Focus , trace coil is added on loader to adjust laser beam to make it correctly focus in information area.
(4) Formation of RF signal: when disc reading is normal, light sensor will have 160MV, vague and eye pattern waveform which is added on A, B, C, D respectively, and output RF signal from FRO pin after being overlapped by adder inside light sensor, the frequency when reading DVD disc is much higher than that when reading CD disc, output amplitude is about 1.4V.
- 19 -
3.2.2 Servo circuit
1. DK1910S adopts SANYO 62 decoder and MTK decode solution (MT1389+FLASH
(16M)+SDRAM (64M)). The servo circuit is mainly composed of front signal processing, digital servo processing, signal processing IC T1389 and drive circuit D5954, in which MT1389 is the main component of decode circuit at the same time, shown as the figure 3.2.3.1:
Disc in/out circuit
Disc in/out electric machine and detecting switch
DVD laser power control
VCD laser power control
Disc identification circuit
Loader
Feed electric machine on loader
18
23
21
22
Main axis braking circuit
Main axis electric machine on loader
Integration circuit
Integration circuit
Integration circuit
Integration circuit
Figure 3.2.2.1 Servo circuit diagram
2. Working principle: after powering on or disc in, according to IOA signal, disc identification circuit decides through which path of variable resistor the laser detecting diode gets path to the ground, meanwhile MT1389 decides whether DVD laser or VCD laser is emitted according to IOA signal, which can be fulfilled through laser power control circuit. When IOA is high level (3.3V), Mt1389 pulls LOD1 of
V302 base electrode in laser tube power control connected to VCD down to about 2.2V to make V302 on and to make VCD laser tube emit beam; then decides whether to pull up or pull down LOD1 according to voltage after the feedback from MDI1 to control the power of light emission diode. Similarly, when IOA is low level (0V), MT1389 pulls LOD2 of V301 base electrode in laser tube power control connected to
- 20 -
DVD down to about 2.2V to make V301 on and to make DVD laser tube emit beam; then decides whether to pull up or down LOD2 according to the voltage after the feedback from MDIAfter loader reading disc information, A, B, C, D, E, F signals are sent out to Mt1389 (DVD only has A, B, C, D signals), and then inputted from pin 2~11, 18, 19 of MT1389. After being amplified and processed by the pre-amplifier inside MT1389, now signals are separated to two part s for processing inside Mt1389.
After being processed by digital servo signal circuit inside MT1389, one part of signal form corresponding servo control signals and output FOO, TRO, DMO, FMO digital servo control signals from pin 42, pin 41, pin 37, pin 38 of Mt1389 respectively, then change into analog servo control signal FOSO,
TRSO, DMSO, FMSO through integration circuit composed by resistor capacitor, and send to driver circuit BA5954 for amplification to bring along focus coil, trace coil, main axis electric machine and feed electric machine after drive amplification. Among these, focus and trace servo are used to correct objective position accurately; feed servo is used to bring along laser head to make radial large-scale move which belongs to the preliminary adjustment to pick-up position;and main axis servo is used to control main axis electric machine to make it read signals in means of constant linear velocity and bring along disc to rotate.
After processing of amplification by VGA voltage control amplifier and equalization frequency compensation inside MT1389, another part of signals are changed into digital signals through internal
A/D converter. When loader is reading CD/VCD signals, these signals are conducted EFM demodulation inside MT1389, and then outputted to latter stage for AV decoding after finishing CIRC (Cross-
Interleaved Reed-Solomon Code) error correction inside. When loader is readingDVD signals, these signals are conducted ESM demodulation inside MT1389, and then sent to latter stage for decoding after finishing RSPC error correction inside.
The other part of servo is open/close disc tray circuit. After panel or remote controller emits open/close disc tray signal toMT1389, in usual conditions, TROPEN and TRCLOSE sent out by pin 39,
51 of Mt1389 are both low level, when signal of “open” comes, after Mt1389 makes disc stop rotating through main axis braking circuit, TRCLOSE is set high to make open/close electric machine on loader frame run to bring along dist tray to eject. After disc tray ejecting to proper Signal of opening to proper position (TR_OUT) is set high level (0V) through the detecting switch on loader frame, MT1389 pulls down TRCLOSE and open/close electric machine stop running. When MT1389 receiving “close” signal,
TROPEN is set high level by MT1389, open/clode electric machine tuns conversely to bring along disc tray to close. After disc tray closing to proper position, signal of closing to proper position (TR_IN) is set low level through the detecting switch on loader frame, MT1389 pulls down TROPEN and electric machine stops running to finish “close” process.
3. Explanation to servo terms
FOO: when rotating, disc may probably move upwards or downwards slightly to make the focus of laser emitted by pick-up cannot justly fall on data pit of disc, so pick-up is required to move upwards or
- 21 -
Downwards to make focus aim at data pit justly. When pick-up is moving upwards or downwards, it means that pick-up is making focus acts.
TRO: data information is save in disc in form of tracks. The process when pick-up moves from one track to another one to read data is trace. In this process, it is objective, but the entire pick-up, that moves forwards or backwards, and the moving range is very small.
FMO: similar to acts of trace, the acts of feed are larger than those of trace. Feed conducts a large scale movement firstly, and then trace moves slightly in this range. Feed moves for a while, and does not move for another while; but Trace moves all the time. Feed is rough adjustment and trace is fine.
DMO: it is the top that holds up disc. Its rotation speed decides that of disc. Its rotation is generated by an individual DC electric machine, in which rotation speed of DVD is twice over that of CD.
Hint: In order to observe these processes, you may take down upper cover of the machine, and then the loader cover board. When power on with no disc in or disc in after disc out, you may observe that pick-up returns to inner ring firstly and then springs back for a little distance, which is feed process. Then pick-up will emit light and you may notice the objective moves upwards and downwards, which is focus process.
In face, in the same time of focus, the objective also moves upwards and backwards to make trace acts.
Because the range is small, it is not easy to observe, and meanwhile DEMO disc tray also rotates slightly, which is DEMO acts.
4. Voltage of key point is shown as follows:
TROUT
TRIN
OPO
ADIN
OP+
OP-
Name
TROPEN
TRCLOSE
When reading disc nor mally
0
When disc out
There is about 1 sec ond 3.3V pulse w hen at the moment of dis c out
0
3.41V
0
2.61V
2.61V
1.66V
1.85V
0V
3.3V
0V
0V 3.3V
2.75V
2.76V
1.81V
2.12V
When disc in
0
There is about 1 sec ond 3.3V pulse w hen at the moment of dis c out
0V 3.3V
3.3V
0V
2.64V
2.61V
1.27V
1.47V
When no disc in
0
0
3.3V
0
2.61V
2.61V
1.81V
2.04V
- 22 -
3.2.3 Main axis braking control circuit
1. Main axis braking control circuit is shown as the following figure 3.2.3.1:
Figure 3.2.3.1 Main axis braking control circuit diagram
The equivalent circuit is shown as the following figure 3.2.3.2:
50
Internal processing
Figure 3.2.3.2 Main axis braking control equivalent circuit diagram
2. Working principle: To prolong the service life of electric machine and decrease the influence of start-up concussion current to the machine, when there is disc in, the development personnel design the main axis electric machine in running state always. Even though “STOP” button is pressed, disc will not stop running immediately. Thus when pressing “OPEN” button, a braking signal is required to make the main axis electric machine stop running to fulfill the completion of opening disc tray in a short period.
- 23 -
In the course of playback, press “OPEN" button and main axis drive signal disappears. For the reason of inertia, the main axis electric machine is still in running state, and now the induced voltage achieved by the induced electromotive force which is generated by electric machine's running on sampling resistor R321 and R340 outputs from pin 34 through resistor R319, R320 and pin 35, 36 of
MT1389 after being processed inside MT1389 and magnified, then sends to pin 50 of MT1389 through
R13; after A/D conversion and the corresponding processing inside MT1389, an instant electric machine reversal braking signal is outputted from pin 37 of MT1389 to make the main axis electric machine decrease speed. When MT1389 detects the disc stops running, disc tray will open to ensure that disc will not run when disc tray opens.
3. Key point voltage (unit: V), shown as the following table:
Key point
SP+
SP-
OP+
OP-
OPO
ADIN
DMSO
VIP4
Position
Pin 11 of D5954, pin 5 of XS303
Pin 12 of D5954, pin 6 of XS303
Pin 36 of MT1389/B
Pin 35 of MT1389/A
Pin 34 of MT1389/C
Pin 47 of MT1389/D
Pin 5 of D5954
Pin 30 of MT1389
Normal w orking voltage (V)
3.79
1.38
1.38
1.53
2.44
2.44
1.42
1.41
Voltage change w hen disc out ( V)
3.79
0.70
1.80
1.38
3.40
1.80
1.38
3.10
1.80
1.53
3.08
1.98
2.44
0.40
2.50
2.41
0.41
2.44
1.42
1.41
3.2.4 Disc identification circuit
1. Disc identification circuit is shown as the following figure 3.2.4.1:
Loader
Figure 3.2.4.1 Disc identification circuit diagram
- 24 -
2. Working principle: the function of disc identification circuit is to identify the disc inserted to loader and judge whether the disc is VCD or DVD to perform the corresponding control acts. When disc is inserted in, decode servo control IC MT1389 defaults disc to DVD. Pin 112 of MT1389 outputs a low voltage signal, V305 and V304 are cut off, V303 is on, laser receiver tube inside loader selects DVD channel, now IOA is low level input loader to make loader in the state of reading DVD, through detecting laser power feedback signal, MT1389 analyses whether the preliminary judgment is correct (disc is defaulted DVD). When detecting correct preliminary judgment, loader runs in the state of reading DVD; when detecting incorrect preliminary judgment, MT1389 outputs a high voltage signal from its pin 112,
V305 and V304 are on, V303 is cut off, laser receiver tube inside loader selects VCD channel, now IOA is high level input loader to make loader in the state of reading VCD. Whether the preliminarily defaulted disc is VCD or DVD is set by MT1389 internal software.
Note: V303 and V304 are MOS tube.
3.2.5 Disc in/out circuit
1. Disc in/out circuit is shown as the following figure 3.2.5.1:
TC308
47uF/16V
LOAD-
R323
1.5K
(TRCLOSE1)
TROPEN
R325
470R
V306
8550
V307
8050
R326
2.2R\1/4W
VCC
R324
1.5K
TC309
47uF/16V
V309
8550
LOAD+
V308
8050
V310
9014-S
R327
470R
(TROPEN1)
TRCLOSE
R339
(TRCLOSE1)
TROPEN
10K
Figure 3.2.5.1 Disc in/out circuit diagram
2. Electric current when disc in/out
Open disc tray: VCC V306CE electrode on LOAD+ Electric machine LOAD- V308CE electrode on R326 Ground
When not opening disc tray, pin 54 and 39 of MT1389 are low level. When opening disc tray, pin 54 of MT1389 sends a high level; V308 is on; V308 collector electrode changes into low level; LOAD- changes into low level; V306 base electrode changes into low level; V306 is on. V306 collector electrode changes into high level and LOAD+ changes into high level.
Close disc tray: VCC V309CE electrode on LOAD- Electric machine LOAD+ V307CE electrode on R326 Ground
- 25 -
When closing disc tray, pin 39 of MT1389 sends a high level; V307 is on; collector electrode changes into low level; LOAD+ is low level; base electrode through R324 and V309 is low level; V309 is on; V309 collector electrode changes into high level; LOAD- changes into high level.
The function of V310 is interlock TRCLOSE and TROPEN signal to ensure the two are not high level at the same time. When the two are high level input, base electrode of V308 is made to low level through
V310 on to ensure the normal working of disc in/out circuit. The function of electrolytic capacitor TC309 and Tc308 is to avoid the sudden change of the voltage on two ends of disc in/out electric machine to make disc in/out acts smooth.
3.2.6 Reset circuit
1. Reset circuit is shown as the following figure 3.2.6.1:
DV33
A
R252
75K
R253
0R(DNS)
B
VD201
1N4148
R236
Q204
1K
9015
TC217
47uF/16V
R254
47K
C
5 6
C278
225
U205C
HCU04
R256
33R
URST#
D
Figure 3.2.6.1 Reset circuit diagram
2. Working principle: The two ends voltage of capacitor T217 cannot change suddenly, anode of the capacitor begins charging from 0V and now triode Q204 is on. Pin 5 of phase inverterU205 (HCU04) output port is high voltage and pin 6 of it is low voltage to reset chip MT1389 FLASH, TAS5508 and
Cs5340. When charge of the capacitor is close to 3.3V, triode Q204 cut off; pin 5 of phase inverter input port is low level; phase inverter outputs high voltage from pin 6 and MT1389 reset finishes. After reset of
MT1389, reset signal is also given to sound D/A conversion chip CS4360 and sound A/D conversion chip CS5340V for their resetting. In the course of system working, pin 214 of MT1389 outputs reset signal to reset TAS5508 and CS5340 on power amplifier board.
3. Key point voltage is shown as the following table:
Key point
DV33 (point A)
Position
Diode VD201 cathode
Voltage
3.3V
Remark
TC217 may sends out c urrent f rom this point after pow er f ailure
- 26 -
Point B
Point C
Diode VD201 anode
Pin 5 of r everter
3.3V af ter res et finishes
0V af ter res et finishes
URST# (point D) Connection place of R256 and R253 3.3V af ter res et finishes
Af ter res et finishes , voltage increas es f rom
0V to 3.3V
Af ter res et finishes , voltage decr eases f rom
3.3V to 0V
Af ter res et finishes , voltage increas es f rom
0V to 3.3V
3.2.7 Mute circuit
As shown in the figure 3.2.7.1, this model dose not set special mute circuit and SCMUTE signal outputted from pin 176 o f Mt1389 changes into MUTE signal through flat cable X207 to control As5508.
In normal times, it is kept in high level, but after pressing MUTE button, MUTE signal changes to low level to control TAS5508 and make it not output sound.
Figure 3.2.7.1 MT1389 SCMUTE signal block diagram
The other factor that causes mute in this model is that after inserting headphone, power amplifier board has no output. As shown in figure 3.2.7.2, this player has two HDET signals, in which one is outputted from headphone terminal and sent to Mt1389, and the other is sent to TAS5508 after Mt1389 receives HDET signal outputted from headphone. When headphone is not inserted, HDET signal outputted from headphone keeps in high level, after headphone being inserted, it changes into 0V and transmits to pin 184 of U201 (MT1389). Pin 174 of MT1389 also outputs RDSID signal, and signal name changes into HDET through flat cable XS201. In normal times, it is also high level, after U201 (MT1389) receives HDET outputted from headphone, it changes into low level, and HDET signal outputted from headphone also changes from high level into low level to inform N12 (TAS5508) of mute. MUTE, HDET signal change is shown as the following figure:
Headphone
Figure 3.2.7.2 Headphone mute block diagram
Note: when inserting headphone, only mixed left/right channel on AV board have output, and audio signal on power amplifier board has no output; when in mute state, all have no output.
- 27 -
3.2.8 Video circuit
1. Video circuit block diagram is shown as the following figure 3.2.8.1:
MT1389
Y
C
V-OUT
Pr
Pb
Y1
S-VIDEO
V-OUT
Component video
SCART terminal
Figure 3.2.8.1 Video circuit block diagram
2. Working principle: Brightness signal, colour difference signal, CVBS signal and component video signal after being decoded by U201 (MT1389) are sent out to the corresponding terminal for output after lowpass filtering and clipping. Take Y1 signal as an instance, the following figure 3.2.8.2 shows the working principle of filtering limiter circuit.
This circuit is very simple. R261 is a matched resistor, which makes the signal achieve the maximum power on load. Capacitor C106, C108 and inductor L106 compose a lowpass filter which filters the high frequency interference signals beside useful ones; dual diode VD102 is clamping circuit.
It is known from features of diode that the maximum amplitude of colour difference signal Y cannot exceed 5.7V and the minimum one cannot be under -0.7V, thus the high voltage signal from TV set can be avoided burning down the player.
Y1 VIDEO_Y
R105
75R
L106 1.8uH
C106
47P
VGNDVGND
C108
47P
VD102
MMBD4148SE
VGND VGND
D+5V
Figure 3.2.8.2 S-VIDEO output circuit diagram
- 28 -
S-VIDEO
3.2.9 Audio power amplifying circuit block diagram
1. Audio power amplifying circuit block diagram is shown as the following figure 3.2.9.1:
External audio input
AU R
AU L
MIC signal input
External audio input
OK
TUL
TUR
N5
CD4052
AINR
AINL
N7
CS5340
SDA
N4
74HCT125
SDA AD
OK
N12
Decode board SDATAO,ADATA1,ADATA2 N3
74HCT125
N13
TAS5112
N14
TAS5112
N8
TLV272
N9
TLV272
LD
Surround left/right channel on power amplifier board, subwoofer channel output
Front left/right channel on power amplifier board, centre channel output
AV board left/right channel output
RO
N11
4580
H-R
H-L
Headphone output
Figure 3.2.9.1 Audio power amplifying circuit block diaghram
2. Working principle:
N5 (CD4052): CD4052 is a switch for selection, which is used to select externally inputted tuning signal, MIC signal and left/right channel audio signal. When the player is in the state of playing disc, MIC signal may be on. MIC changes to digital signal after conversion of CS5340, and this digital signal outputs from pin 227 of MT1389 (ASDATO) to power amplifier board after outputting to decode for processing. Note: MIC signal through Cs5340 does not pass through N4 (74HCT125).
N7 (CS5340): converse analog signal sent out from CD4052 to digital signal for processing by back stage circuit.
N3, N4 (74HCT125): 74HCT125 is a gating IC with 4 paths in it, which can perform gating to 4 paths signals. N3 performs gating to MCLK, audio signal SDATA0, SDATA1 and SDATA2.
N12 (TAS5508): after the processing of pulse width demodulation to SDA, SDATA0, SDATA1,
SDATA2 digital audio signals, 10 channel outputs generate, that is, left/right channel output on input/output board, headphone left/right channel output, front left/right channel on power amplifier board, surround left/right channel output, subwoofer channel and centre channel output.
N13, N14 (TAS5112): is a high performance amplifying IC, which demodulates and amplifies front left/right channel, surround left/right channel, centre and subwoofer after PWM of N12 (TAS5508).
3.2.10 Input/output circuit
Input/output circuit is also called AV board. AV board outputs video and audio signals sent from decode board and power amplifier board from the corresponding terminal after coupling and filter circuit processing. Externally inputted audio signal is sent to power amplifier board and decode board for processing also through AV board. Circuit includes composite video output terminal, S-video terminal
- 29 -
2
3
4
5
And component video output terminal; audio circuit includes mixed left/right channel output terminal, digital and optical output terminal, coaxial cable output terminal, SCART terminal, and also one path input terminal, that is left/right channel input terminal.
1. SCART terminal
SCART is a terminal that integrates video and audio together, which can transmit video and audio signals at the same time and operation is very convenient. It has 21 pins in all and lies in the middle part at rear side of the player. Pin function is shown as the following table:
Pin
1
6
7
8
9
10
11
Name
A(B)OUT
A(B)IN
A(A)OUT
A-COM
RETURN
A(A)IN
BLUE I/O
FUNCSW
RETURN
CONT
GREEN I/O
Signal direction
I
O
I
I
O
I/O
Function descr iption
Audio right channel input
Audio right channel output
Audio left channel input
Audio signal ground
Pb signal ground
Audio left channel output
Pb signal I/O interfac e
Function selection interf ace
Y1 s ignal ground
I/O
I/O
Pin
12
19
20
Netw ork communication data line 2
Y1 s ignal I/O interfac e
21
13
14
15
16
17
18
Name
NC
RETURN
RETURN
RED I/O
BLK I/O
RETURN
TRTURN
V-OUT
V-IN
GND
Signal direction
Function descr iption
Netw ork communication data line 2
I/O
I/O
I
O
Pr signal ground
Blanking signal ground
Pr signal I/O interfac e
Blanking signal
I/O interf ace
Blanking signal ground
Composite video signal ground
Composite video signal input
Composite video signal output
Commo n
Note: Blanking signal of pin 16 is used to select RGB or CVBS mode. I means inout, O means output and I/O means input/output.
2. SCART terminal function selection is shown as the following figure:
PDA TO
0
0
1
1
PDA T1
___
___
___
___
PDA T2
0
1
0
1 pin 8 of SCART terminal
10V
7.5V
0.90V
0.85V
Function
AV4:3()
AV16:9
TV
TV
- 30 -
___
___
0
1
___
___
___
___
CVBS MODE
RGB MODE
Note: PDAT0 and PDAT2 are used to control the input voltage on pin 8 of SCART terminal. PDAT1 is used to control the voltage change on pin 16 of SCART terminal. The voltage on pin 16 controls and decides SCART selects whether RGB or CVBS mode.
3.2.11 Control panel components
1. Control panel components block diagram is shown as the following figure 3.2.11.1:
Remote controller
Digital potentiometer
Button
IR receiver
CLK, STB, SDA
VFD screen
Drive light emission diode
VD105, VD106, VD107, VD108
Figure 3.2.11.1 Control panel components block diagram
2. Working principle: panel is mainly composed of VFD screen, drive chip Ad7312, remote controller
IR receiver, digital potentiometer, MIC jack, button and indicator light.
VFD is a vacuum fluorescence display screen and the working principle is the same with that of
CRT TV set, that is, emit light and display through electron bombarding fluorescent powder. Pin 1, 2, 34 and 35 of VFD are filament power supply pin, GRID1GRID8 is segment control equal to grid, which speeds up electro emission and is responsible for display selection within reticular scope in display screen. SEG1SEG16 is bit control connected to single character with fluorescent powder on it. When electro is bombarding it, it emits light and displays character or strokes.
The function of N101 (Ad7312) is to drive display to display the corresponding state after processing data signal sent from decode board, meanwhile scan panel buttons matrix and sends it to
CPU in digital signal means after processing button information to control the player and perform the corresponding acts.
Pin 3 of remote control IR receiver is 5V power supply pin, pin 2 grounds, and pin 1 is output pin.
After processing remote controller buttons information, remote control receiver outputs from pin 1 and then sends to decode board directly.
Digital potentiometer is used to adjust volume, which uses the phase difference of pulse send out from pin 1 and 3 of it to realize the adjustment of volume.
- 31 -
3.2.12 Power supply circuit
1. Power supply circuit block diagram is shown as the following figure 3.2.12.1:
220V
Rectification diode
Absorption loop
Filter circuit
P+28V
Switch module
Switch module
Absorption loop
Filtering
Filtering
Rectification diode
Rectification diode
Feedback circuit
Rectification circuit
Rectification circuit
Rectification circuit
Rectification circuit
5V voltage regulator
A+5V
A+12V
Filter circuit
D+5V
Filter circuit
Voltage regulator diode
A-12V
Filter circuit
-21V
Filter circuit
Voltage regulator diode
FL+
FL-
Rectification circuit
Filter circuit
D+3V3
Feedback loop
Figure 3.2.12.1 Power supply circuit block diagram
2. Working principle: this power supply circuit is composed of two parts that use electromagnetic disturbance filter circuit, bridge rectification circuit and other module circuit commonly. The first part circuit generates P+28V DC voltage used for power amplifier circuit power supply; the other part is responsible for power supply of other module circuit of this player. Working principle of each composed part is shown as follows:
(1) Electromagnetic disturbance filter circuit: for various electromagnetic radiation exist outside, the input AC will be affected. The function of electromagnetic disturbance filter capacitor is to filter these disturbance to make those that enter bridge rectification circuit are pure 220V AC.
(2) Bridge rectification and filter circuit: the function of this circuit is to generate a 310V DC to supply usage for back stage circuit.
- 32 -
(3) Start circuit: when power on and transformer has not started to work, start circuit provides a power supply voltage for switch module to make it work. When transformer begins to work, the voltage provided by power supply circuit for switch module is used to maintenance the working of switch module.
(4) Absorption loop: switch module performs on/off action in a very high frequency, so a very strong self induction voltage in the preliminary coil of transformer, which may probably cause the damage of switching module. The function of absorption is to form a loop for this self induction to ensure the normal working of circuit.
5) Switch module: the input from transformer is 310V DC. To make transformer work, AC shape voltage must be presented. The function of switch module is to control this 310V DC to make it on for a while and off for another while to make the input terminal of transformer generate high and low change, thus the transformer can work.
(6) Power supply circuit: provides a power supply voltage for switch module.
(7) Rectification diode: the voltage outputted from transformer just now is pulse DC. The function of rectification diode is to change pulse DC into DC together with the back filter circuit.
(8) Feedback loop: the time length of “on” and “off” inside switch module 5L0380R is decided bu feedback loop. Feedback loop samples +3.3V output voltage; when output voltage is too high, voltage sampled is on high side, through feedback loop, the space occupation ration of pin 5 of 5L0380R is changed, “on” time decreases and output voltage begins to reduce; when output voltage is too low, voltage sampled is on low side, through feedback loop, the space occupation ratio of 5L0380R increases, and output voltage increases, through the function of feedback loop, power board outputs stable voltage.
LM431 used in this power is a 2.5V comparator; compare sampling voltage with this 2.5V voltage, when sampling voltage is over 2.5V (that is output voltage is high), LM431 is on, light emission diode in photoelectric coupler begins to emit light to make the other end of photoelectric coupler begin to be on; the light emission is stronger, the degree of “on” is stronger, “on” time of switch module 5L0380R decreases, output voltage begins to decrease; when sampling voltage is less than 2.5V (that is, output voltage is low), LM431 cuts off, “on” time of VEPR22 increases, output voltage increases, thus, through the auto control function of feedback loop, power board outputs stable voltage.
(9) Filter circuit: the function of it is to generate a stable and small ripple DC voltage. “ " filter is mostly used in filter circuit. The feature of capacitor filtering is that when load resistance is high and current is small, the filtering is obvious; for inductor filtering, when load resistance is small and current is big, filtering is obvious. Form capacitor to “ “ filter and it can exert better filtering effect.
3. Main function of each output voltage of power board:
(1) FL+, FL-: supply power for filament of panel display screen.
(2) D+5V: supply power for N101, servo drive chip U302 (D5954) and open/close door circuit.
(3) P+28V: supply power for audio power amplifying chip N13, N14 (TAS5112).
- 33 -
(4) A-10V, A+10V: supply power for audio power amplifying chip N1 (F4558) on power amplifier board. A+12V: supply power for tuning data processing chip N6 (SAA6558) and tuner.
(5) D+3V3: supply power for U201 (MT1389), U214 (FLASH), U211 (SDRAM) and U205 (74HCU04).
(6) A+5V (XP203 pin 5): supply power for loader.
(7) A+5V (XS504 pin 1): supply power for power amplifier board A/D conversion chip N7 (CS5340), digital audio pulse width modulating chip N12 (TAS5508), power amplifier board data selection chip N5
(CD4052), audio power amplifying chip N8 and N9 (TLV272).
- 34 -
Section Three Service Cases
3.3.1 Servicing cases
Example 1 Symptom: power not on
Description: connect with power, power indicator light is not on and the player cannot be switched on.
Analysis and troubleshooting: test power board 5V, 3.3V voltage and they are both normal, check decode board 1389 chip power supply and it is 3.3V, 1.8V, which is normal; then use oscillograph to check the crystal oscillator that provides 1389 chip with 27MHZ clock frequency; check oscillation frequency and this frequency is on lower side, so we doubt that the crystal oscillator has trouble; after changing it, trouble is removed.
Example 2 Symptom: not read DVD disc
Description: laser head focus, feed, main axis and trace are all normal, but no light emission
Analysis and troubleshooting: disconnect power supply, use multimeter to check triode Q301 and it is not damaged; LD02 and 1389HD communication is normal; power on and check working of V301 and find that V301 emitter electrode has no 3.3V power; check 3.3V power of the player and it is normal; seeing from circuit diagram, 3.3V is added to V301 emitter electrode through R301, so we doubt that the trouble is caused by R301; use resistance level (2K) of multimeter to test and find that resistance value is infinite; after changing it, V301 emitter electrode is 3.3V, which is normal, laser head emits DVD laser light normally, and trouble is removed.
Example 3 Symptom: front power amplifier has no sound output
Description: mixed sound output of DVD AV board is normal, front power amplifier has no sound output.
Analysis and troubleshooting: use multimeter to test voltage of pin 1 of power board XS101 and it is
28V, which is normal; then test pin 1 voltage of CON4 on power amplifier board and it is also +28V, so we may judge that IC power supply is normal; use oscillograph to test whether vertical screen-shielded filtering inductor L2, L3 have waveform and find there is no waveform output, so we judge that power amplifier IC N14 may be invalid; after changing N14, trouble is removed.
- 35 -
Example 4 Symptom: waveform is small
Description: left and right output waveform of mixed audio terminal are both small
Analysis and troubleshooting: left and right output waveform of mixed audio terminal are both small, when this situation appears, the possibility for the element commonly used by two branch terminals is large. Firstly check whether the flat cable between AV board and power amplifier board is well connected or disconnected, after removing the above factor, check power supply on IC with location number N8, N9 on power amplifier board and they are both +5V, N12 power supply is 3.3V, which is normal; check flat cable between power amplifier board and decode board and it is also normal; check audio signal AD conversion voltage ADACVDD3 and it is 2.4V, which is slightly small, which should be 3.3V in normal conditions; check and find that resistance on two ends of C235, C231 are infinite, so seeing from this,
L207 has damaged; after changing it, trouble is removed.
Example 5 Symptom: headphone has no sound
Description: after inserting headphone, two sides of headphone have no sound
Analysis and troubleshooting: after inserting headphone, test voltage of pin 8 on pow amplifier board X104 and it is 0, which is normal; test pin 8 voltage of N11, N8, N9 and it is +5V, which is also normal; then check pin 36 of N12 and voltage is 0, this pin is IC power supply pin and it should be 3.3V in normal conditions; use multimeter to test R113 resistance and it is infinite, this resistor has trouble; after changing it, trouble is removed.
Example 6 Symptom: tuning has no sound
Description: when tuning, connect left channel of power amplifier and there is no sound output.
Analysis and troubleshooting: adjust in tuning state firstly, use probe of oscillograph to test pin 3, 13 of N15 and find that there is audio signals; then test pin 4 of N7 and there is no audio signals; but test pin
10, 12 and there is audio signals. Observe and find that N7 is invalid; after changing N7, trouble is removed.
Example7 Symptom: the player not power on
Description: connect with power, blue power indicator light is on, red standby indicator light also emits light; press POWER button on the panel and the player cannot start up, red indicator light will not flash and is in standby state all the time.
Analysis and troubleshooting: check STBY signal at the moment of power on according to symptom and there will be a pulse without abnormality; seeing from this, tis trouble should lie in standby control circuit of panel; check CPU5V power voltage and it is normal; when pressing POWER button to switch on the player, check STBY signal from decode board to power board and there is no change; check power light touch switch and it is not damaged; test pin 39 of panel IC6317, after pressing POWER button, there is no 5V voltage, so we confirm that trouble should be caused by panel IC; after changing panel IC6312, trouble is removed.
- 36 -
Example 8 Symptom: no MIC
Description: when speaking after inserting microphone, there is no audio output.
Analysis and troubleshooting: insert microphone and speak, use probe of oscillograph to test pin 7 of power amplifier board N1 and there is signal output; test pin 3, 13 of N5 and there is also signals; test pin 4 of N7 and there is signals; check flat cable pin 28 between power amplifier board and decode board and there is also signal; but test pin 215 of MT1389 and there is no signal; judging from this, R268 is disconnected, after changing it, trouble is removed.
Example 9 Symptom: remote control has no function
Description: when pressing remote controller, there is not any function.
Analysis and troubleshooting: insert probe of oscillograph into pin 12 of decode board XP900; when pressing remote controller, there is not any response on oscillograph, which means remote control signals are not received; check L233, R230 and find that there is no disconnection and joint welding; contact probe with pin 1 of N102 receiver on main panel, press remote controller and there is signal skipping, which means receiver has no trouble; then connect to pin 2 of N101, press remote controller and there is no signal skipping on oscillograph; carefully observe and find that R110 has rosin joint; after welding again, trouble is removed.
Example 10 Symptom: power amplifier has no sound
Description: line output sound is normal, when switching to tuning state, there is no sound output; after power on of this player, switch on power amplifier volume, power amplifier output has small noise.
Analysis and troubleshooting: the symptom has indicated that trouble lies in the common channel around power amplifier; check SD signal of power amplifier IC and it is 0V all the time, now power amplifier IC has been in over-current or over-heat protection state; use multimeter to test voltage to ground of each lead wire of power amplifier output end and find that voltage to ground of subwoofer channel are 9V and 5V (14.5V in normal conditions); take down L10 of this channel and test, sound restores to be normal, so we confirm that trouble is caused by L10, after changing it, trouble is removed.
Example 11 Symptom: no OSD
Description: connect with power, panel indicator light emits light normally, press POWER button and the player starts up normally, video signal output is normal, but there is no OSD.
Analysis and troubleshooting: check display screen filament and it has ben lighted with red light emission, but without function display; use multimeter to test panel IC power supply and voltage around and they are normal; test CLK, STB, SDA signal from decode board to main panel and they are normal; test pin of main panel IC 6317 and there is no SDA signal; check main panel R112 and there is no abnormality; test resistance to ground of pin 5, 6 of panel IC 6317 and it is 1.5-ohm; after changing 6317, trouble is removed.
- 37 -
3.3.2 Troubleshooting flow chart
1. Troubleshooting process for “Power not on” is shown in the figure 3.3.2.1:
Power not on
Check 1.8V path
Check 1.8V path
N
Whether power board +5V power supply is normal
Y
N
Whether decode board 1.8V power supply is normal
Y
N
Whether decode board 3.3V power supply is normal
Y
Change firmware
Whether
L506, D615 has been connected
Y
N
Change L506, D615
Whether
TC509 and TC510 are normal
Y
N
Change TC509, TC510
Whether U501 is normal
Y
N
Change U501
Whether rectifying circuit is normal
N
Y
Change rectifying diode
Whether
F501 has open circuit
Y
Weld F501 again
N
Change F501
Figure 3.3.2.1 Troubleshooting flow chart for “Power not on”
- 38 -
2. Troubleshooting process for “Power amplifier has no output” is shown in the figure 3.3.2.2:
Power amplifier has no output
Check power branch
Check over-current protection circuit
Check 5508 peripheral circuit
Y
Change N3, N4
N
Whether power amplifier IC
28V power supply is normal
Y
Y
Whether
PWM signal from
5508 to power amplifier
IC is normal
N
N
Whether there is output when in tuning state or testing microphone
Y
Whether pin 2, 3, 4 of power amplifier board
XS108 has signal output
Y
N
Whether pin 25~31 signal of N12 is normal
N
N Whether
N3, N4 are normal
Y
Check decode board circuit
Check decode board circuit
Whether pin 25~31 signal of N12 is normal
Y
N
Whether
PWM signal between 5508 and power amplifier IC is normal
Y
N
Whether
VALID signals and SD signals of power amplifier IC are normal
N
Y
Change power amplifier IC
Check N3, N4 peripheral circuit
Check 5508 peripheral circuit
Change 5508
Figure 3.3.2.2 Troubleshooting flow chart for “Power amplifier has no output”
- 39 -
3. Troubleshooting process for “Headphone has no sound output” is shown in the figure 3.3.2.3:
Headphone had no sound output
Whether pin 1, 7 of N1 has output
Y
Whether
R170, R171 are short-circuited to ground
Y
N
Check flat cable between headphone and power amplifier
N
Weld R170, R171 again
Whether
+5V power supply is normal
N
Check +5V power supplier branch
Y
Whether pin 7 of N8, N9 has audio signal
N
Y
Whether pin 44 47 of N12 has signal
Y
N
Whether pin 29 31 of N12 has signal
N
Y
Check MT1389 and power amplifier path
Change N1
Change N8, N9
Change N12
Figure 3.3.2.3 Troubleshooting flow chart for “Headphone has no sound output”
- 40 -
4. Troubleshooting process for “Power amplifier external input has no sound” is shown in the figure
3.3.2.4:
External input had no sound
Whether
AV board mixed terminal has output
N
Y
Whether pin 34, 38 of power amplifier board N14 has output
N
Y
Whether pin 2, 15 of power amplifier board N5 has signal
Y
Normal
N
Check flat cable from power amplifier board to AV board
Whether pin 10, 12 of N7 has signal
N
Y
Whether pin 215 of MT1389 has signal
N
Y
Normal
Change N5
Change MT1389
Change N14
Figure 3.3.2.4 Troubleshooting flow chart for “Power amplifier external input has no sound”
- 41 -
5. Troubleshooting process for “Not read disc” is shown in the figure 3.3.2.5:
Not read disc
Change laser head
Check power supply
N
N
Whether laser head emits light normally
Y
Whether laser head +5V power supply is normal
Y
Check disc type circuit
N
Whether
1389 servo signal is normal
Y
Change 1389
Y
Whether laser head has action after closing door to proper position
N
Whether pin 52 voltage of
1389 is 0V
Y
Check loader 5P flat cable
N
Whether pin 41 signal of 1389 is normal
N
Check 1389 power supply
Y
Whether
5954 power supply voltage is normal
Y
N
Check power circuit
Whether drive voltage of 5954 is normal
N
Y
Change laser head
Change 5954
Figure 3.3.2.5 Troubleshooting flow chart for “Not read disc”
- 42 -
6. Troubleshooting process for “Power not on for the player” is shown in the figure 3.3.2.6:
Power not on for the player
Whether panel indicator light is lighted
N
Y
Whether power board +5V is normal
N
Y
Change panel light emission diode
Check power circuit
Whether standby red indicator light is on
N
Whether main panel STBY signal is normal
Y
N
Check main panel circuit
Y
After pressing POWER button, whether panel red indicator light is off
Y
N
A
Whether each voltage of power board has instantaneous output
Y
Check decode board circuit
N
Check power board standby control circuit
Whether panel display is normal
Y
N
Check panel circuit
Y
Troubleshooting
A
Whether
POWER button is normal
Y
N
Change buttons with trouble
Whether video has signal output
N
Change 1389
Whether main panel PT6317 control signal is normal
Y
N
Change PT6317
Whether
182, 183, 185, 187 of 1389 have signals
Y
Check flat cable from decode board to AV board
N
Whether
CN102 socket STB,
CLK are normal
Y
Check decode circuit
N
Check flat cable and socket
Figure 3.3.2.6 Troubleshooting flow chart for “Power not on for the player”
- 43 -
Section Four Waveform diagram
This section collects signal waveform diagram of audio, video and each unit circuit with the purpose to help servicing personnel to judge where trouble lies in accurately and quickly to improve servicing skills. For the difference of oscillograph's type, model and tuner, a certain difference may exist, so the servicing personnel are expected to pay more attention to check in daily operation.
1. RFO signal waveform diagram of pin 17 of Xs301
2. A signal waveform diagram of pin 16 of XS301(B C D E F
- 44 -
3. DMO signal (when there is main axis rotation) waveform diagram of pin 37 of U201 (MT1389)
4. FMO signal (when there is feed) waveform diagram of pin 38 of U201 (MT1389)
5. TRO signal (when there is trace) waveform diagram of pin 41 of U201 (MT1389)
- 45 -
6. FOO signal (when there is focus) waveform diagram of pin 42 of U201 (MT1389)
7. Waveform diagram of pin 29 (when no disc in) of U214 (FLASH)
8. Waveform diagram of pin 38of U211 (SDRAM)
- 46 -
9. 27M clock signal waveform diagram
10. 1KHZ signal waveform diagram. It is suggested to use test disc, if not, the tested waveform will change at any time to affect judgment.
11. Waveform diagram of the comparison between reset signal (channel 1) and 3.3V voltage
(channel 2)
- 47 -
12. Waveform diagram of the comparison between LRSWM signal (channel 2) and +12 power
(channel 1) when power on. When power on, increase of LRSWM signal goes through 2 steps: the first is
0.6V with duration time 6.5 S; the second one is 16V with duration time 13.5 S.
13. Waveform diagram of the comparison between LRSWM signal (channel 1) and LRSWMUT signal (channel 2). When turning on mute, 1389 sends out low level signal LRSWMUT more than 310ms to make LRSWM signal level pull down and output mute. 1389 is muted from inside to make all channels have no output. Mute means of centre/surround channel is the same with that of main channel.
- 48 -
Section Five Function Introduction to IC
3.5.1 Function introduction to MT1389HD
1. Description
MT1389HD (U201) is a cost-effective DVD system-on-chip (SOC) which incorporates advanced features like MPEG-4 video decoder, high quality TV encoder and state-of-art de-interlace processing. the DVD player SOC. It integrates the MediaTek 2nd generation front-end analog RF amplifier and the
Servo/MPEG AV decoder.
To enrich the feature of DVD player, the MT1389 equips a simplified MPEG-4 advanced simple profile
(ASP) video decoder to fully support the DivX1 Home Theater profile. It makes the MT1389-based DVD player be capable of playback MPEG-4 content which become more and more popular.
The progressive scan of the MT1389HD utilized advanced motion-adaptive de-interlace algorithm to achieve the best movie/video playback. It also supports a 3:2 pull down algorithm to give the best film effect.
The 108MHz/12-bit video DAC provides users a whole new viewing experience.
2. General Feature lists
(1)Integration DVD player single chip
High performance analog RF amplifier
Servo controller and data channel processing
MPEG-1/MPEG-2/JPEG video
Dolby AC-3/DTS Decoder
Unified memory architecture
Versatile video scaling & quality enhancement
OSD & Sub-picture
Built-in clock generator
Built-in high quality TV encoder
Built-in progressive video processor
Audio effect post-processor
Built-in 5.1-ch Audio DAC
- 49 -
(2)High Performance A nalog RF Amplifier
Programmable fc
Dual automatic laser power control
Defect and blank detection
RF level signal generator
(3)Speed Performance on Servo/Channel Decoding
DVD-ROM up to 4XS
CD-ROM up to 24XS
(4)Channel Data Processor
Digital 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
(5)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
Built-in ADCs and DACs for digital servo control
Provide 2 general PWM
Tray control can be PWM output or digital output
(6)Embedded Micro controller
Built-in 8032 micro controller
Built-in internal 373 and 8-bit programmable lower address port
1024-bytes on-chip RAM
Up to 2M bytes FLASH-programming interface
Supports 5/3.3-Volt. FLASH interface
Supports power-down mode
Supports additional serial port
(7)DVD-ROM/CD-ROM Decoding Logic
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
Decoder Error Notification Interrupt that signals various decoder errors
Provide error correction acceleration
(8)Buffer Memory Controller
Supports 16Mb/32Mb/64Mb SDRAM
Supports 16-bit SDRAM data bus
Provides the self-refresh mode SDRAM
- 50 -
Block-based sector addressing
(9)Video Decode
Decodes MPEG1 video and MPEG2 main level, main profile video (720/480 and 720x576)Decodes
MPEG-4 Advanced Simple Profile
Support DivX 3.11/4.x/5.x Home Theater Profile
Support Nero-Digital
Smooth digest view function with I, P and B picture decoding
Baseline, extended-sequential and progressive JPEG image decoding
Support CD-G titles
(10)Video/OSD/SPU/HLI Processor
Arbitrary ratio vertical/horizontal scaling of video, from 0.25X to 256X
65535/256/16/4/2-color bitmap format OSD,
256/16 color RLC format OSD
Automatic scrolling of OSD image
(11)Audio Effect Processing
Dolby Digital (AC-3)/EX decoding
DTS/DTS -ES decoding
MPEG-1 layer 1/layer 2 audio decoding
MPEG-2 layer1/layer2 2-channel audio
High Definition Compatible Digital (HDCD)
Windows Media Audio (WMA)
Dolby ProLogic II
Concurrent multi-channel and downmix out
IEC 60958/61937 output
PCM / bit stream / mute mode
Custom IEC latency up to 2 frames
Pink noise and white noise generator
Karaoke functions
Microphone echo
Microphone tone control
Vocal mute/vocal assistant
Key shift up to +/- 8 keys
Chorus/Flanger/Harmony/Reverb
Channel equalizer
3D surround processing include virtual surround and speaker separation
(12)TV Encoder
Four 108MHz/12bit DACs
- 51 -
255
6
7
8
4
5
256
1
2
3
231
132
252
253
254
Support NTSC, PAL-BDGHINM, PAL-60
Support 525p, 625p progressive TV format
Automatically turn off unconnected channels
Support PC monitor (VGA)
Support Macrovision 7.1 L1, Macrovision 525P and 625P
CGMS-A/WSS
Closed Caption
(13)Progressive Scan Video
Automatic detect film or video source
3:2 pull down source detection
Advanced Motion adaptive de-interlace
Minimum external memory requirement
(14)Outline
216-pin LQFP package
3.3/1.8-Volt. Dual operating voltages
3. Pin Definitions
PIN Main Alt
RFGND18
RFVDD 18
OSP
OSN
RFGC
IREF
AVDD3
AGND
DVDA
DVDB
DVDC
DVDD
DVDRFIP
DVDRFIN
MA
Type Description
RF interface (26)
Ground Analog ground
Power
Analog output
Analog output
Analog output
Analog input
Power
Ground
Analog input
Analog input
Analog input
Analog input
Analog input
Analog input
Analog input
Analog power 1.8V
RF Offset cancellation capacitor connecting
RF Offset cancellation capacitor connecting
RF AGC loop capacitor connecting for DVD-ROM
Current reference input. It generates reference current for RF path. Connect an external 15K resistor to this pin and AVSS
Analog power 3.3V
Analog ground
AC couple input path A
AC couple input path B
AC couple input path C
AC couple input path D
AC coupled DVD RF signal input RFIP
AC coupled DVD RF signal input RFIN
DC coupled main beam RF signal input A
- 52 -
244
245
ADCVDD3
ADCVSS
24
25
26
27
13
14
15
16
17
18
19
9
10
11
12
20
21
22
23
28
29
30
SVDD3
CSO
RFLVL
SGND
MB
MC
MD
SA
SB
SC
SD
CDFON
CDFOP
TNI
TPI
MIDI1
MIDI2
LDO2
LDO1
43
44
45
VPLLVSS
CAPPAD
VPLLVDD3
V2REFO
V20
VREFO
RFOP
RFON
Analog input
Analog input
Analog input
Analog input
DC coupled main beam RF signal input B
DC coupled main beam RF signal input C
DC coupled main beam RF signal input D
DC coupled sub-beam RF signal output A
Analog input
Analog input
DC coupled sub-beam RF signal output B
DC coupled sub-beam RF signal output C
Analog input
Analog input
Analog input
Analog input
DC coupled sub-beam RF signal output D
CD focusing error negative input
CD focusing error positive input
3 beam satellite PD signal negative input
Analog input
ALPC (4)
3 beam satellite PD signal positive input
Analog input
Analog input
Analog output
Laser power monitor input
Laser power monitor input
Laser driver output
Analog output Laser driver output
ADC Power ( 2 )
Power
Ground
Analog 3.3V Power for ADC
Analog ground for ADC
Ground
VPLL (3)
Analog ground for VPLL
Analog Inout
Power
VPLL External Capacitance connection
Analog 3.3V Power for VPLL
Reference voltage (3)
Analog output Reference voltage 2.8V
Analog output
Analog output
Reference voltage 2.0V
Reference voltage 1.4V
Analog monitor output (7)
Power Analog power 3.3V
Analog output
Analog output
Ground
1) Central servo
2) Positive main beam summing output
1) RFRP low pass, or
2) Negative main beam summing output
Analog ground
- 53 -
31
32
33
34
35
36
37
38
39
246
247
248
249
250
251
239
240
241
242
243
235
236
237
238
40
41
42
JITFO
JITFN
PLLVSS
IDACEXLP
PLLVDD3
LPFON
LPFIP
LPFIN
LPFOP
FEO
TEO
TEZISLV
RFVDD3
RFRPDC
RFRPAC
HRFZC
CRTPLP
RFGND
OP_OUT
OP_INN
OP_INP
DMO
FMO
TROPENPW
M
PWMOUT1
TRO
FOO
ADIN0
Analog output
Analog output
Focus error monitor output
Tracking error monitor output
Analog output TE slicing Level
Analog monitor output (6)
Analog output
Analog Input
Analog Power
RF ripple detect output
Analog output
Analog output
Analog output
Ground
RF ripple detect input(through AC-coupling)
High frequency RF ripple zero crossing
Defect level filter capacitor connecting
Analog Power
RF Data PLL Interface (9)
Analog output Output terminal of RF jitter meter
Analog Input
Ground
Analog output
Input terminal of RF jitter meter
Ground pin for data PLL and related analog circuitry
Data PLL DAC Low-pass filter
Power
Analog Output
Analog input
Analog input
Power pin for data PLL and related analog circuitry
Negative output of loop filter amplifier
Positive input terminal of loop filter amplifier
Negative input terminal of loop filter amplifier
Analog output Positive output of loop filter amplifier
Motor and Actuator Driver Interface (10)
Analog output
Analog input
Analog input
Analog output
Op amp output
Op amp negative input
Op amp positive input
Disk motor control output. PWM output
Analog output Feed motor control. PWM output
Analog output Tray PWM output/Tray open output
Analog output
Analog output
Analog output
1) 1st General PWM output
2) AD input 0
Tracking servo output. PDM output of tracking servo compensator
Focus servo output. PDM output of focus servo compensator
- 54 -
72
71
70
69
68
89
86
85
62
74
73
118
131
145
156
170
208
213
81
178
65
96
55
93
142
160
174
90
148
50
FG
(Digital pin)
ADIN1
GPIO
LVTTL3.3 Input,
Schmitt input, pull up,
1) Monitor hall sensor input
2) AD input 1 with analog input path for ADIN1
3) GPIO
General Power/Ground (18)
DVDD18
DVSS
DVDD3
DVSS
Power
Ground
Power
1.8V power pin for internal digital circuitry
1.8V ground pin for internal digital circuitry
3.3V power pin for internal digital circuitry
HIGHA0
HIGHA1
HIGHA2
HIGHA3
HIGHA4
HIGHA5
HIGHA6
HIGHA7
AD7
AD6
AD5
Ground 3.3V ground pin for internal digital circuitry
Micro Controller and Flash Interface (48)
InOut 4~16mA,SRPU Microcontroller address 8
InOut 4~16mA,SRPU Microcontroller address 9
InOut 4~16mA,SRPU Microcontroller address 10
InOut 4~16mA,SRPU Microcontroller address 11
InOut 4~16mA,SRPU Microcontroller address 12
InOut 4~16mA,SRPU Microcontroller address 13
InOut 4~16mA,SRPU Microcontroller address 14
InOut 4~16mA,SRPU Microcontroller address 15
InOut 4~16mA,SRPU Microcontroller address/data 7
InOut 4~16mA,SRPU Microcontroller address/data 6
InOut 4~16mA,SRPU Microcontroller address/data 5
- 55 -
79
92
59
60
61
67
91
77
56
57
58
84
83
82
80
63
64
75
87
88
78
66
76
94
AD4
AD3
AD2
AD1
AD0
IOA 0
IOA 1
IOA 2
IOA 3
IOA 4
IOA 5
IOA 6
IOA 7
A16
A17
A18
A19
A20
A21
ALE
IOOE#
IOWR#
IOCS#
UWR#
YUV0
YUV7
GPIO
InOut 4~16mA,SRPU Microcontroller address/data 4
InOut 4~16mA,SRPU Microcontroller address/data 3
InOut 4~16mA,SRPU Microcontroller address/data 2
InOut 4~16mA,SRPU Microcontroller address/data 1
InOut 4~16mA,SRPU Microcontroller address/data 0
InOut 4~16mA,SRPU Microcontroller address
InOut 4~16mA,SRPU Microcontroller address 1/ IO
InOut 4~16mA,SRPU Microcontroller address 2/ IO
InOut 4~16mA,SRPU Microcontroller address 3/ IO
InOut 4~16mA,SRPU Microcontroller address 4/ IO
InOut 4~16mA,SRPU Microcontroller address 5/ IO
InOut 4~16mA,SRPU Microcontroller address 6/ IO
InOut 4~16mA,SRPU Microcontroller address 7/ IO
InOut 4~16mA,SRPU Flash address 16
InOut 4~16mA,SRPU Flash address 17
InOut 4~16mA,
SRPD,SMT
InOut 4~16mA,
SRPD,SMT
Flash address 18 /IO
Flash address 19 /IO
InOut 4~16mA,
SRPD,SMT
InOut 4~16mA,
SRPD,SMT
5) Flash address 20 /IO
6) While External Flash size <= 1MB:
I) Alternate digital video YUV output 0
7) Flash address 21 /IO
8) While External Flash size <= 2MB:
I) Digital video YUV output 7 II) GPIO
InOut 4~16mA,
SRPD,SMT
Microcontroller address latch enable
InOut 4~16mA,
SRPD,SMT
InOut 4~16mA,
SRPD,SMT
InOut 4~16mA,
SRPD,SMT
InOut 4~16mA,
SRPD,SMT
Flash output enable, active low / IO
Flash write enable, active low / IO
Flash chip select, active low / IO
Microcontroller write strobe, active low
- 56 -
95
100
101
97
98
99
102
103
104
105
106
109
110
204
205
URD#
UP1_2
UP1_3
UP1_4
UP1_5
UP1_6
UP1_7
UP3_0
UP3_1
UP3_4
UP3_5
IR
INT0#
SPMCLK
SPDATA
RXD
SDA
SCL
SDA
RXD
TXD
RXD
SCL
SCLK0
SDIN0
InOut 4mA,
SRPD,SMT
InOut 4~16mA,
SRPD,SMT
InOut 4mA,
SRPD,SMT
InOut 4mA,
SRPD,SMT
InOut 4mA,
SRPD,SMT
InOut 4mA,
SRPD,SMT
InOut 4mA,
SRPD,SMT
InOut 4mA,
SRPD,SMT
InOut 4mA,
SRPD,SMT
Microcontroller read strobe, active low
Microcontroller port 1-2
Microcontroller port 1-3
Microcontroller port 1-4
Microcontroller port 1-5
InOut 4mA,
SRPD,SMT
InOut 4~16mA,
SRPD,SMT
1) Microcontroller port 1-6
2) I2C clock pin
1) Microcontroller port 1-7
1) I2C data pin
1) Microcontroller port 3-0
2) 8032 RS232 RxD
1) Microcontroller port 3-1
2) 8032 RS232 TxD
1) Microcontroller port 3-4
2) Hardwired RD232 RxD
3) I2C clock pin
1) Microcontroller port 3-5
2) Hardwired RD232 TxD
3) I2C data pin
Input SMT
InOut 4~16mA,
SRPD,SMT
IR control signal input
Microcontroller external interrupt 0, active low
Audio interface ( 28 )
Inout
Inout
1) Audio DAC master clock of SPDIF input
2) While SPDIF input is not used:
I) Serial interface port 0 clock pin
II) GPIO
1) Audio data of SPDIF input
2) While SPDIF input is not used:
I) Serial interface port 0 data-in
II) GPIO
- 57 -
206
207
209
210
211
197
202
203
SPLRCK
SPBCK
SDCS0
ASDATA
5
ALRCK
ABCK
ACLK
ASDATA0
ASDATA1
ASDATA2
SDO0
Fs64
Inout
Inout
InOut 4mA,
PD,SMT
InOut 4mA,
SMT
InOut 4mA,
SMT
InOut 4mA,
PD,SMT
InOut 4mA,
PD,SMT
InOut 4mA,
PD,SMT
1) Audio left/right channel clock of SPDIF input
2) While SPDIF input is not used:
I) Serial interface port 0 data-out II) GPIO
1) Audio bit clock of SPDIF input
2) While SPDIF input is not used:
I) Serial interface port 0 chip select
II) Audio serial data 5 part I : DSD data sub-woofer
Channel or Microphone output III) GPIO
1) Audio left/right channel clock
2) Trap value in power-on reset:
I) 1: use external 373
II) 0: use internal 373
1) Audio bit clock
2) Phase de-modulation
Audio DAC master clock
1) Audio serial data 0 (Front-Left/Front-Right)
2) DSD data left channel
3) Trap value in power-on reset:
I) 1: manufactory test mode
II) 0: normal operation
4) While using external channels: ) GPO_2
2) Audio serial data 0 (Front-Left/Front-Right)
2) DSD data right channel
3) Trap value in power-on reset:
I) 1: manufactory test mode
II) 0: normal operation
4) While using external channels:
I) GPO_2
1) Audio serial data 1 (Left-Surround/Right-Surround)
2) DSD data left surround channel
3) Trap value in power-on reset:
I) 1: manufactory test mode
II) 0: normal operation
4) While using external channels:
I) GPO_1
- 58 -
212
214 ASDATA4
INT1#
215 MC_DATA
INT2#
216
217
218
219
220
221
222
223
224
225
ASDATA3
SPDIF
APLLVDD3
APLLCAP
APLLVSS
ADACVSS2
ADACVSS1
ARF
ARS
AR
AVCM
GPIO
GPIO
InOut 4mA,
PD,SMT
InOut 4mA,
PD,SMT
InOut 2mA,
PD,SMT
1) Audio serial data 2 (Center/LFE)
2) DSD data right surround channel
3) Trap value in power-on reset:
I) 1: manufactory test mode
II) 0: normal operation
4) While only 2 channels output:
I) GPO_0
1) Audio serial data 3 (Center-back/
Center-left-back/Center-right-back, in 6.1 or 7.1 mode)
2) DSD data center channel
18) While only 2 channels output:
I) Digital video YUV output 6
II) GPIO
1) Microphone serial input
2) While not support Microphone:
I) Microcontroller external interrupt 2
II) GPIO
Output
4~16mA,
SR: ON/OFF
Power
Analog inout
Ground
Ground
Ground
Output
Output
Output
Analog
S/PDIF output
3.3V Power pin for audio clock circuitry
APLL External Capacitance connection
Ground pin for audio clock circuitry
Ground pin for AUDIO DAC circuitry
Ground pin for AUDIO DAC circuitry
1) AUDIO DAC Sub-woofer channel output
2) While internal AUDIO DAC not used: GPIO
1) AUDIO DAC Right Surround channel output
2) While internal AUDIO DAC not used:
a. SDATA3
b. GPIO
1) AUDIO DAC Right channel output
2) While internal AUDIO DAC not used:
a. SDATA1
b. GPIO
AUDIO DAC reference voltage
- 59 -
226
227
AL
ALS
GPIO
GPIO
228
229
230
ALF
ADACVDD1
ADACVDD2
GPIO
188
187
186
185
184
183
192
191
190
189
196
195
194
193
CVBS
Y/G
B/Cb/Pb
C
Y
CIN
DACVSSB
YUV3
DACVDDA
YUV4
DACVSSA
YUV 5
DACVDDC
VREF
FS
YUV0
DACVSSC
YUV1
DACVDDB
YUV2
182 YUV 6 R/Cr/Pr
Output
Output
Output
Power
Power
1) AUDIO DAC Left Surround channel output
2) While internal AUDIO DAC not used:
a. SDATA2
b. GPIO
1) AUDIO DAC Left Surround channel output
2) While internal AUDIO DAC not used:
a.SDATA0
b. GPIO
1) AUDIO DAC Center channel output
2) While internal AUDIO DAC not used: GPIO
3.3V power pin for AUDIO DAC circuitry
3.3V power pin for AUDIO DAC circuitry
Output
4MA, SR
Ground
Output
4MA, SR
Power
Output
4MA, SR
Ground
Output
4MA, SR
Output
4MA, SR
Video Interface ( 18 )
Power 3.3V power pin for VIDEO DAC circuitry
Analog Bandgap reference voltage
Analog
Output
4MA, SR
Ground
Output
4MA, SR
Power
Full scale adjustment
1) Video data output bit 0
2) Compensation capacitor
Ground pin for VIDEO DAC circuitry
1) Video data output bit 1
2) Analog Y output
3.3V power pin for VIDEO DAC circuitry
1) Video data output bit 2
2) Analog chroma output
Ground pin for VIDEO DAC circuitry
1) Video data output bit 3
2) Analog composite output
3.3V power pin for VIDEO DAC circuitry
1) Video data output bit 4
2) Green or Y
Ground pin for VIDEO DAC circuitry
1) Video data output bit 5
2) Blue or CB
1) Video data output bit 6
2) Red or CR
- 60 -
181
180
179
VSYN
YUV 7
HSYN
165
166
167
168
169
170
160
161
162
163
164
DACVDDC
VREF
FS
DACVSSC
CVBS
DACVDDB
DACVSSB
DACVDDA
Y/G
DACVSSA
B/CB/PB
171 R/CR/PR
V_ADIN1
INT3#
ASDATA
5
INT4#
V_ADIN2
Output
4MA, SR
Output
4MA, SR
Output
4MA, SR
1) Vertical sync input/output
2) While no External TV-encoder:
I) Vertical sync for video-input
II) Version AD input port 1
III) GPIO
1) Video data output bit 7
2) While no External TV-encoder:
I) Microcontroller external interrupt 3
II) Audio serial data 5 part II : DSD data sub-woofer channel or Microphone output
III) GPIO
1) Horizontal sync input/output
2) While no External TV-encoder:
I) Horizontal sync for video-input
II) Version AD input port 2
III) GPIO
IV) Microcontroller external interrupt 4
Video Interface (12)
Power 3.3V power pin for video DAC circuitry
Analog
Analog
Ground
Bandgap reference voltage
Full scale adjustment
Ground pin for video DAC circuitry
InOut 4mA,
SR
Power
Ground
Analog composite output
3.3V power pin for video DAC circuitry
Ground pin for video DAC circuitry
Power
InOut 4mA,
SR
Ground
InOut 4mA,
SR
3.3V power pin for video DAC circuitry
Green, Y, SY, or CVBS
Ground pin for video DAC circuitry
Blue, CB/PB, or SC
InOut 4mA,
SR
MISC (12)
Red, CR/PR, CVBS, or SY
- 61 -
108
49
201
200
199
198
107
233
234
46
47
48
167
177
166
176
175
173
172
171
169
168
165
PRST#
ICE
XTALO
XTALI
USB_VSS
USBP
USBM
USB_VDD3
GPIO3
GPIO4
RCLKB
RVREF
C_0
C_1
C_2
C_3
C_4
C_5
C_6
C_7
IO_17
YUVCLK
Y_0
GPIO5
InOut
PD,SMT
InOut PD,SMT
Output
Input
USB Ground
Analog Inout
Analog Inout
Analog Inout
InOut Pull-Down
InOut Pull-Down
InOut Pull-Down
Power on reset input, active low
Microcontroller ICE mode enable
27MHz crystal output
27MHz crystal input
USB ground pin
USB port DPLUS analog pin
USB port DMINUS analog pin
USB Power pin 3.3V
GPIO
GPIO
GPIO
IO_3(RD1
9)
IO_4(RD2
0)
IO_5(RD2
1)
IO_6(RD2
2)
IO_7(RD2
3)
IO_0(RD1
6)
IO_1(RD1
7)
IO_2(RD1
8)
GPIO6 InOut Pull-Down GPIO
Dram Interface (58) (Sorted by position)
InOut Non-pull
InOut Non-pull
InOut Non-pull
1) Digital Video output C bit 0
2) GPIO
1) Digital Video output C bit 1
2) GPIO
1) Digital Video output C bit 2
2) GPIO
InOut Non-pull
InOut Non-pull
InOut Non-pull
InOut Non-pull
InOut Non-pull
1) Digital Video output C bit 3
2) GPIO
1) Digital Video output C bit 4
2) GPIO
1) Digital Video output C bit 5
2) GPIO
1) Digital Video output C bit 6
2) GPIO
1) Digital Video output C bit 7
2) GPIO
(DQM2)
IO_8(DQ
M3)
IO_9(RD2
4)
InOut Pull- Up
InOut Pull- Up
InOut Non-pull
GPIO
1) Digital Video output Clock
2) GPIO
1) Digital Video output Y bit 0
2) GPIO
- 62 -
164
163
162
161
159
158
157
147
146
144
143
141
140
139
138
137
136
135
134
133
155
154
153
152
151
150
149
Y_1
Y_2
Y_3
Y_4
Y_5
Y_6
Y_7
CKE
RCLK
RA3
RA2
RA1
RA0
RA10
BA1
BA0
RCS#
RAS#
CAS#
RWE#
RA4
RA5
RA6
RA7
RA8
RA9
RA11
IO_10(RD
25)
IO_11(RD
26)
IO_12(RD
27)
IO_13(RD
28)
IO_14(RD
29)
IO_15(RD
30)
IO_16(RD
31)
InOut Non-pull
InOut Non-pull
InOut Non-pull
InOut Non-pull
InOut Non-pull
InOut Non-pull
InOut Non-pull
InOut
InOut
InOut
InOut
InOut
InOut
InOut
InOut Pull-Down
InOut
InOut
InOut
InOut
InOut
InOut
InOut
InOut output output output output
1) Digital Video output Y bit 1
2) GPIO
1) Digital Video output Y bit 2
2) GPIO
1) Digital Video output Y bit 3
2) GPIO
1) Digital Video output Y bit 4
2) GPIO
1) Digital Video output Y bit 5
2) GPIO
1) Digital Video output Y bit 6
2) GPIO
1) Digital Video output Y bit 7
2) GPIO
DRAM address 4
DRAM address 5
DRAM address 6
DRAM address 7
DRAM address 8
DRAM address 9
DRAM address bit 11
DRAM clock enable
Dram clock
DRAM address 3
DRAM address 2
DRAM address 1
DRAM address 0
DRAM address 10
DRAM bank address 1
DRAM bank address 0
DRAM chip select, active low
DRAM row address strobe, active low
DRAM column address strobe, active low
DRAM Write enable, active low
- 63 -
127
126
121
120
119
117
116
125
124
123
125
115
114
113
112
111
132
130
129
128
51
52
53
54
DQM1
IO_18
RD8
RD9
RD10
RD11
RD0
RD1
RD2
RD3
RD4
RD12
RD13
RD14
RD15
RD5
RD6
RD7
IO_19
DQM0
TDI
TMS
TCK
TDO
(DQS1)
(DQS0)
V_ADIN4
V_ADIN5
V_ADIN6
V_ADIN7
InOut
InOut Non-pull
InOut
InOut
InOut
InOut
InOut
InOut
InOut
InOut
InOut
InOut
InOut
InOut
InOut
Data mask 1
GIPIO
DRAM data 8
DRAM data 9
DRAM data 10
DRAM data 11
DRAM data 12
DRAM data 13
DRAM data 14
DRAM data 15
DRAM data 0
DRAM data 1
DRAM data 2
DRAM data 3
DRAM data 4
InOut
InOut
InOut
InOut
DRAM data 5
DRAM data 6
DRAM data 7
GPIO
InOut Non-pull Data mask 0
JTAG Interface( 4 )
InOut Non-pull
1) Serial interface port 3 data-out
2) Version AD input port 4
3) GPIO
InOut Non-pull
InOut Non-pull
InOut Non-pull
1) Serial interface port 3 data-out
2) Version AD input port 5
3) GPIO
1) Serial interface port 3 data-out
2) Version AD input port 6
3) GPIO
1) Serial interface port 3 data-out
2) Version AD input port 7
3) GPIO
- 64 -
3.5.2 function introduction to AT24C02
1. Description
The AT24C02 (U202) provides 2048 bits of serial electrically erasable and programmable read-only memory (EEPROM) organized as 256 words of 8 bits each. The device is optimized for use in many industrial and commercial applications where low-power and low-voltage operation are essential. The AT24C02 is available in space-saving 8-lead PDIP,
8-lead MAP, 8 lead TSSOP and 8-ball dBGA2 packages and is accessed via a 2-wire serial interface. In addition, the entire family is available in 2.7V (2.7V to 5.5V) and 1.8V (1.8V to 5.5V) versions.
2. Features
◆ Low-voltage and Standard-voltage Operation
– 2.7 (VCC = 2.7V to 5.5V)
– 1.8 (VCC = 1.8V to 5.5V)
◆ Internally Organized, 256 x 8 (2K),
◆ 2-wire Serial Interface
◆ Schmitt Trigger, Filtered Inputs for Noise Suppression
◆ Bi-directional Data Transfer Protocol
◆ 100 kHz (1.8V) and 400 kHz (2.5V, 2.7V, 5V) Compatibility
◆ Write Protect Pin for Hardware Data Protection
◆ 8-byte Page (1K, 2K), Write Modes
◆ Partial Page Writes are Allowed
◆ Self-timed Write Cycle (5 ms max)
◆ High-reliability
◆ – Endurance: 1 Million Write Cycles
◆ – Data Retention: 100 Years
◆ Automotive Grade, Extended Temperature and Lead-Free Devices Available
◆ 8-lead PDIP, 8-lead JEDEC SOIC, 8-lead MAP, 5-lead SOT23,
◆ 8-lead TSSOP and 8-ball dBGA2™ Packages
3. PIN DESCRIPTION
PIN No. Symbol I/O Description
3
4
1
2
5
A0
A1
A2
VSS
SDA
I
I
I
I
I/O
To Ground
To Ground
To Ground
To Ground
Serial Data input
- 65 -
6
7
SCL
TEST
I/O
I/O
Serial SCL input
Test port
8 VDD I
3.5.3 function introduction to 74HCU04
1. Description
Positive Power Supply
The 74HCU04(U205) is a high-speed Si-gate CMOS device and is pin compatible with low power
Schottky TTL (LSTTL). It is specified in compliance with JEDEC standard no. 7A.
The 74HCU04 is a general purpose hex inverter. Each of the six inverters is a single stage
2. Features
◆ Output capability: standard
◆ ICC category: SSI
3. PIN CONFIGURATION
PIN NO. SYMBOL I/O Description
1, 3, 5, 9, 11, 13 1A to 6A I data inputs
2, 4, 6, 8, 10, 12
7
1Y to 6Y
GND
O data outputs ground (0 V)
14 VCC positive supply voltage
3.5.4 function introduction to LM1117
1. Description
The LM1117(U209) series of adjustable and fixed voltage regulators are designed to provide 1A output current and to operate down to 1V input-to-output differential. The dropout voltage of the device is guaranteed maximum 1.3V at maximum output current, decreasing at lower load currents.
On-chip trimming adjusts the reference voltage to within 1% accuray. Current limit is also trimmed, minimizing the stress under overload conditions on both the regulator and power source circuitry.
The BM1117 devices are pin compatible with other three-terminal SCSI regulators and are offered in the low profile surface mount SOT-223 package and in the TO-252 (DPAK) plastic package.
2. Features
Three Terminal Adjustable or Fixed Voltages 1.5V, 1.8V, 2.5V, 2.85V, 3.3V and 5.0V
Output Current of 1A
- 66 -
Operates Down to 1V Dropout
Line Regulation: 0.2% Max.
Load Regulation: 0.4% Max.
SOT-223 and TO-252 package available
3.
PIN DESCRIPTION
PIN No. Symbol
1
2
GND/adjust
Vout
I/O
I
O
Description
Ground (fixed)/adjust (adjustable)
Voltage output
3 Vin I Voltage input
3.5.5 Function introduction to 29LV160BE
29LV160BE (U214) is a 16Mbit FLASH memorizer, and the damage of U214 may cause troubles, such as power not on, no disc reading and power on picture mosaic. Pin function is shown as the following table:
Pin Name Function Voltage (when no disc) Data direction
1-9、16-25、48 AO-A19 20 bit address bus I
11 WE Write enable signal, low level is effective
3.23V I
RESET Reset, low level is effective 12
10、13、14
15
NC
RY/BY
Blank pin
Ready/system busy
3.23V
3.23V
I
O
26
27、46
CE
VSS
Chip enable, low level effective
Ground
28 OE
29-3、6、38-44 DQ0-DQ14
37
45
47
Output enable signal , low level is effective
15 bit data bus
VCC 5V power supply
DQ15/A-1
Take word extend mode as data line, and bit extend mode as address line
BYTE
Select 8-bit or 16-bit output mode. High level is 16-bit output and low level is 8-bit output
0V
0V
+5V
I
I
O
I/O
I
- 67 -
3.5.6 Function introduction to HY57V641620HGT-7
64M 16-bit memorizer SDRAM (U211) with the player and the working clock frequency is 166/143MHZ.
The function of 16SDRAM in DVD players is to memorizer the program of AML3298 taken out from FLASH and information of image and sound taken out from disc to form buffer, add the stability of information output and add anti-shaking effect of player. Pin function introduction is shown as the following table:
Pin Name Function Signal flow Pin Name Function Signal flow
1 VDD 3.3V power supply 28 VSS Ground
2 DQ0 Data bus I/O 29 MA4 Address bus I
5
6
7
3
4
8
9
10
11
DQ4
VDDQ
DQ5
DQ6
VDDQ
DQ1
DQ2
VSSQ
DQ3
12 VSSQ
3.3V power supply
Data bus
Data bus
Ground
Data bus
Data bus
3.3V power supply
Data bus
Data bus
Ground
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
30
31
32
33
34
35
36
37
38
39
40
41
MA5
MA6
MA7
MA8
MA9
MA11
NC
CKE
CLK
UDQM
NC
VSS
Address bus
Address bus
Address bus
Address bus
Address bus
Address bus
Blank
Clock enable signal
System clock input
Data input/output screen-shielded signal
Blank
Ground
I
I
I
I
I
I
I
I
I
13
14
DQ7
VDD
Data bus
3.3V power supply
15 LDQM
Data input/output screen-shielded signal
16 WE Write control signal
17
18
19
CAS
RAS
CS
Line address gating signal
Row address gating signal
Chip selection signal
20 SD-BS0 Segmanr address 0 gating signal
21 SD-BS1 Segmanr address 1 gating signal
22 MA10 Address bus
23
24
MA0
MA1
Address bus
Address bus
I
I
I
I
I
I
I
I
I
I
42 DQ8
VDDQ
DQ9
DQ10
VSSQ
DQ11
DQ12
VDDQ
DQ13
DQ14
43
44
45
46
47
48
49
50
51
Data bus
3.3V power supply
Data bus
Data bus
Ground
Data bus
Data bus
3.3V power supply
Data bus
Data bus
I/O
I/O
I/O
I/O
I/O
I/O
I/O
- 68 -
25 MA2 Address bus I 52 VSSQ Ground
15
16
17
18
11
12
13
14
19
20
21
6
7
8
9
10
4
5
2
3
26 MA3 Address bus I 53 DQ15 Data bus I/O
27 VDD 3.3V power supply 54 VSS Ground
3.5.7 Function introduction to D5954
1. DESCRIPTION
D5954 (U302) is a servo drive IC with built-i n 4-channel drive circuit. Digital focus, trace, feed and mainaxis drive signal outputted by MT1389E is sent to D5954 for amplifying through RC integration circuit.
The focus, trace, feed and main axis drive signal being amplified by D5954 is sent to loader to fulfil the corresponding servo work.
2. PIN DESCRIPTION
PIN Symbol I/O Description
1 VINFC I Focus control signal input
VOSL-
VO2+
VOFC-
VOSC+
VOTK+
VOTK-
VOLD+
VOLD-
PGND
VINFTK
PVCC2
CF1
CF2
VINSL+
VINSL-
VOSL
VINFFC
VCC
PVCC1
PGND
O
O
O
O
O
O
O
O
I
I
I
I
I
I
O
I
I
I
I
I
External feedback loop
External feedback loop
Forward control input, connected to reference voltage
Main axis control signal input
External feedback resistor
Focus feedback signal input
5V power supply
5V power supply
Ground
Main axis drive reverse voltage output
Main axis drive forward direction voltage output
Focus drive reverse voltage output
Focus drive forward voltage output
Trace drive forward direction voltage output
Trace drive reverse voltage output
Feed drive forward direction voltage output
Feed drive reverse voltage output
Ground
Trace feedback signal input
5V power supply
- 69 -
22
23
24
25
PREGND
VINLD
CTK2
CTK1
I
I
I
I
Ground
Feed control signal input
External feedback loop
External feedback loop
26
27
VINTK
BIAS
I
I
Trace control signal input
1.4V reference voltage input
28 STBY I Enable control signal
3.5.8 function introduction to 4558
1. Description
The RC4558 and RM4558 devices (N1) are dual general-purpose operational amplifiers with each half electrically similar to the
?
A741 except that offset null capability is not provided.
The high common-mode input voltage range and the absence of latch-up make these amplifiers ideal for voltage-follower applications. The devices are short-circuit protected and the internal frequency compensation ensures stability without external components.
The RC4558 is characterized for operation from 0
?
C to 70
?
C, and the RM4558 is characterized for operation over the full military temperature range of –55 C to 125 C.
2. FEATURES
◆ Continuous-Short-Circuit Protection
◆ Wide Common-Mode and Differential
◆ Voltage Ranges
◆ No Frequency Compensation Required
◆ Low Power Consumption
◆ No Latch-Up
◆ Unity-Gain Bandwidth . . . 3 MHz Typ
◆ Gain and Phase Match Between Amplifiers
◆ Designed To Be Interchangeable With
◆ Raytheon RC4558 and RM4558 Devices
3. PIN CONFIGURATION
PIN No Symbol I/O
1
2
1OUT
1IN–
O
I
Description
Output 1
Inverting Input Pin 1
- 70 -
3
4
1IN+
VCC–
I
I
Non-Inverting Input Pin 1
Negative Power Supply
5
6
2IN+
2IN–
I
I
Non-Inverting Input Pin 2
Inverting Input Pin 2
7 2OUT O Output 2
3.5.9 function introduction to SN74LVC
1. Description
The SN74LVC16373A (N2) is particularly suitable for implementing buffer registers, I/O ports, bidirectional bus drivers, and working registers.
The device can be used as two 8-bit latches or one 16-bit latch. When the latch-enable (LE) input is high, the Q outputs follow the data (D) inputs. When LE is taken low, the Q outputs are latched at the levels set up at the D inputs.
2. FEATURES
◆ Operates From 1.65 V to 3.6 V
◆ Inputs Accept Voltages to 5.5 V
◆ Max t pd
of 4.2 ns at 3.3 V
◆ Typical V
OLP
(Output Ground Bounce)
<0.8 V at V
CC
= 3.3 V, T
A
= 25°C
◆ Typical V
OHV
(Output V
OH
Undershoot)
>2 V at V
CC
= 3.3 V, T
A
= 25°C
◆ I off
Supports Partial-Power -Down Mode Operation
◆ Supports Mixed-Mode Signal Operation
(5-V Input and Output Voltages With 3.3-V V
CC
)
◆ Latch-Up Performance Exceeds 100 mA Per JESD 78, Class II
◆ ESD Protection Exceeds JESD 22
◆ 2000-V Human-Body Model (A114-A )
◆ 1000-V Charged-Device Model (C101)
3.5.10 function introduction to 74HCT125
1. Description
The Harris CD74HC125 and CD74HCT125 contain 4 independent three-state buffers, each having its own output enable input, which when “HIGH” puts the output in the high impedance state.
- 71 -
2. FEATURES
◆ Three-State Outputs
◆ Separate Output Enable Inputs
◆ Fanout (Over Temperature Range)
Standard Outputs : 10 LSTTL Loads
Bus Driver Outputs: 15 LSTTL Loads
◆ Wide Operating Temperature Range . . . -55oC to 125oC
◆ Balanced Propagation Delay and Transition Times
◆ Significant Power Reduction Compared to LSTTL Logic ICs
◆ HC Types
2V to 6V Operation
High Noise Immunity: NIL = 30%, NIH = 30% of VCC at VCC = 5V
◆ HCT Types
4.5V to 5.5V Operation
Direct LSTTL Input Logic Compatibility, VIL= 0.8V (Max), VIH = 2V (Min)
CMOS Input Compatibility, Il £ 1mA at VOL, VOH
3.5.11 function introduction to CD4052
1. Description
The CD4052B (N5) analog multiplexers is digitally-controlled analog switches having low ON impedance and very low OFF leakage current. Control of analog signals up to 20VP-P can be achieved by digital signal amplitudes of 4.5V to 20V (if VDD-VSS = 3V, a V DD-VEE of up to 13V can be controlled; for VDD-VEE level differences above 13V, a VDD-VSS of at least 4.5V is required). For example, if VDD = +4.5V, VSS = 0V, and
VEE = -13.5V, analog signals from -13.5V to +4.5V can be controlled by digital inputs of 0V to 5V. These multiplexer circuits dissipate extremely low quiescent power over the full VDD-VSS and VDD-VEE supply-voltage ranges, independent of the logic state of the control signals. When a logic “1” is present at the inhibit input terminal, all channels are off.
The CD4052B is a differential 4-Channel multiplexer having two binary control inputs, A and B, and an inhibit input. The two binary input signals select 1 of 4 pairs of channels to be turned on and connect the analog inputs to the outputs.
2. FEATURES
◆ Wide Range of Digital and Analog Signal Levels
Digital : 3V to 20V
Analog: ≤20VP-P
◆ Low ON Resistance, 125W (Typ) Over 15VP-P Signal Input Range for V
DD
-V
EE
= 18V
- 72 -
◆ High OFF Resistance, Channel Leakage of ±100pA (Typ) at V
DD
-V
EE
= 18V
◆ Logic-Level Conversion for Digital Addressing Signals of 3V to 20V (V
DD
-V
SS
= 3V to 20V) to Switch
Analog Signals to 20VP -P (V
DD
-V
EE
= 20V)
◆ Matched Switch Characteristics, r
ON
= 5W (Typ) for V
DD
-V
EE
= 15V
◆ Very Low Quiescent Power Dissipation Under All Digital-Control Input and Supply Conditions, 0.2mW
(Typ) at V
DD
-V
SS
= V
DD
-V
EE
= 10V
◆ Binary Address Decoding on Chip
◆ 5V, 10V and 15V Parametric Ratings
◆ 10% Tested for Quiescent Current at 20V
◆ Maximum Input Current of 1mA at 18V Over Full Package Temperature Range, 100nA at 18V and 25
℃
◆ Break-Before-Make Switching Eliminates Channel Overlap
3.5.12 function introduction to SAA6588
1. DESCRIPTION
Today most FM radio stations in Europe and meanwhile also many FM/AM radio broadcasting stations in the USA transmit the inaudible European RDS (Radio Data System) or the USA RBDS (Radio Broadcast
Data System) informations respectively. Likewise nowadays receivers, most car radios and also some home and portable radios on the market include at least some of the RDS features.
The RDS/RBDS system offers a large range of applications by its many functions to be implemented. For car radios the most important are:
◆ Program Service (PS) name
◆ Traffic Program (TP) identification
◆ Traffic Announcement (TA) signal
◆ Alternative Frequency (AF) list
◆ Program Identification (PI)
◆ Enhanced Other Networks (EON) information.
The RDS/RBDS pre-processor is a CMOS device that integrates all RDS/RBDS relevant functions in one chip. The IC contains filtering and demodulation of the RDS/RBDS signal, symbol decoding, block synchronization, error detection, error correction and additional detectors for multi-path, signal quality and audio signal pauses. The pre-processed RDS/RBDS information is available via the I2C-bus.
The RDS/RBDS pre-processor replaces a number of Ics and peripheral components used nowadays in car radio concepts with RDS or RBDS features. The integration of the relevant RDS/RBDS data processing functions provides, in an economic manner, high performance of RDS/RBDS processing and reduces the real-time requirements for the main radio microcontroller considerably. In addition it simplifies the development of the RDS specific software for the main controller of the radio set.
- 73 -
Compared with standard radio systems, RDS/RBDS controlled radio systems additionally require an
RDS/RBDS demodulator with a 57 kHz band-pass filter, information about the current reception situation
(reception quality, multi-path disturbance etc.), and additional microcontroller power for RDS/RBDS data processing, decoding and radio control.
The new RDS/RBDS pre-processor includes all these specific functions and meets all requirements of a high end RDS/RBDS radio. Moreover the timing requirements of the set controller, regarding RDS/RBDS data processing are reduced due to the integration of decoder functions, so that the development of radio control software can be concentrated specifically on radio set features.
2. FEATURES
◆ Integrated switched capacitor filters
◆ Demodulation of the European Radio Data System (RDS) or the USA Radio Broadcast Data System
(RBDS) signal
◆ RDS and RBDS block detection
◆ Error detection and correction
◆ Fast block synchronization
◆ Synchronization control (flywheel)
◆ Mode control for RDS/RBDS processing
◆ Different RDS/RBDS block information output modes (e.g. A-block output mode)
◆ Fast I2C-bus interface
◆ Multi-path detector
◆ Signal quality detector with sensitivity adjustment
◆ Pause detector with pause level and time adjustment
◆ Alternatively oscillator frequency: n ´ 4.332 MHz (n = 1 to 4)
◆ UART compatible with 17.328 MHz (n = 4)
◆ CMOS device
◆ Single supply voltage
◆ Extended temperature range (-40 to +85 °C).
3. PIN DESCRIPTION
PIN No. Symbol I/O Description
3
4
5
1
2
MRO
MPTH
TCON
OSCO
OSCI
I
O
I
O
O multi-path rectifier output multi-path detector output test control input pin oscillator output oscillator input
- 74 -
6
7
VSSD
VDDD
I
I digital ground (0 V) digital supply voltage (5 V)
8
9
DAVN
SDA
O
I/O data available output (active LOW)
I2C-bus serial data I/O
10
11
SCL
PSWN
I
O
I2C-bus serial clock input pause switch output (active LOW)
12
13
MAD
AFIN
I
I slave address (LSB) input audio signal input
14 VDDA I analog supply voltage (5 V)
15 VSSA I analog ground (0 V)
16 MPX I multiplex input signal
17 Vref O reference voltage output
18 SCOUT O
I band-pass filter output
19 CIN comparator input
20 LVIN I level input
3.5.13 function introduction to 5340
1. DESCRIPTION
The CS5340 (N7) is complete analog-to-digital converter for digital audio systems. It performs sampling, analog-to-digital conversion and anti-alias littering, generating 24-bit values for both left and right inputs in serial form at sample rates up to 200 kHz per channel.
The CS5340 uses a 5th-order,multi-bit delta-sigma modulator followed by digital filtering and decimation, which removes the need for an external anti-alias filter.
The CS5340 is ideal for audio systems requiring wide dynamic range, negligible distortion and low noise, such as set-top boxes, DVD-karaoke players, DVD recorders, A/V receivers, and automotive applications.
2. FEATURES
◆ Advanced multi-bit Delta-Sigma architecture
◆ 24-bit conversion.
◆ Supports all audio sample rates including 192kHz.
◆ 101dB Dynamic Range at 5V.
◆ -94 dB THD+N.
◆ High pass filter to remove DC offsets.
◆ Analog/digital core supplies from 3.3V to 5V..
- 75 -
◆ Linear phase digital anti-alias filtering.
◆ Auto-mode selection.
3. PIN DESCRIPTION
PIN No. Symbol
8
9
10
11
12
13
3
4
1
2
5
6
7
LRCK
/RST
AINL
VQ
AINR
VA
M0
MCLK
VL
SDOUT
GND
VD
SCLK
I
I
I
I
O
I/O
I
I
I
O
I
I
I
I
Description
Mode selection 0
Master clock
Logic power
Serial audio data output
GND
Digital power
Serial clock
Left right clock
Reset
Analog input L
Quiescent voltage
Analog input R
Analog power
14
15
REF_GND
FILT+
I
I
GND
Positive voltage reference
16 M1 I Mode selection 1
3.5.14 function introduction to TLV272
1. DESCRIPTION
The TLV27x (N8, N9) takes the minimum operating supply voltage down to 2.7 V over the extended industrial temperature range while adding the rail-to-rail output swing feature. This makes it an ideal alternative to the TLC27x family for applications where rail-to-rail output swings are essential. The TLV27x also provides 3-MHz bandwidth from only 550µA.
Like the TLC27x, the TLV27x is fully specified for 5-V and
±
5-V supplies. The maximum recommended supply voltage is 16 V, which allows the devices to be operated from a variety of rechargeable cells (
±
8 V supplies down to
±
1.35 V).
The CMOS inputs enable use in high-impedance sensor interfaces, with the lower voltage operation making an attractive alternative for the TLC27x in battery -powered applications.
All members are available in PDIP and SOIC with the singles in the small SOT-23 package, duals in the
- 76 -
MSOP, and quads in the TSSOP package.
The 2.7-V operation makes it compatible with Li-Ion powered systems and the operating supply voltage
2. FEATURES
◆ Rail-To-Rail Output
◆ Wide Bandwidth . . . 3 MHz
◆ High Slew Rate . . . 2 .4 V/µs
◆ Supply Voltage Range . . . 2.7 V to 16 V
◆ Supply Current . . . 550 µA/Channel
◆ Input Noise Voltage . . . 39 nV/vHz
◆ Input Bias Current . . . 1 pA
◆ Specified Temperature Range
0°C to 70°C . . . Commercial Grade
-40°C to 125°C . . . Industrial Grade
◆ Ultrasmall Packaging
8 Pin MSOP (TLV272)
3.5.15 function introduction to LM4880
1. DESCRIPTION
The LM4880 (N11) is a dual audio power amplifier capable of delivering typically 250mW per channel of continuous average power to an 8O load with 0.1% THD+N using a 5V power supply.
Boomer audio power amplifiers were designed specifically to provide high quality output power with a minimal amount of external components using surface mount packaging. Since the LM4880 does not require bootstrap capacitors or snubber networks, it is optimally suited for low-power portable systems.
The LM4880 features an externally controlled, low-power consumption shutdown mode, as well as an internal thermal shutdown protection mechanism.
The unity-gain stable LM4880 can be configured by external gain-setting resistors.
2. FEATURES
◆ No bootstrap capacitors or snubber circuits are necessary
◆ Small Outline (SO) and DIP packaging
◆ Unity-gain stable
◆ External gain configuration capability
- 77 -
3.5.16 function introduction to TAS5508PAG
1. DESCRIPTION
The TAS5508 (N12) is an eight channel digital pulse width modulator (PWM) that provides both advanced performance and a high level of system integration. The TAS5508 is designed to interface seamlessly with most audio digital signal processors. In crystal mode, the TAS5508 automatically adjusts control configurations in response to clock and data rate changes and idle conditions. This enables the
TAS5508 to provide an easy to use control interface with relaxed timing requirements.
The TAS5508 can drive eight channels of H-bridge power stages. Texas Instruments H-bridge parts
TAS5111, TAS5112, or TAS5182 + FETs are designed to work seamlessly with the TAS5508. The TAS5508 supports both single-ended or bridge tied load configurations. The TAS5508 also provides a high performance differential output to drive an external differential input analog headphone amplifier (such as the
TPA112). data. The 8x over sampling combined with the 5 th order noise shaper provides a broad flat noise floor and excellent dynamic range from 20 Hz to 20 kHz.
The TAS5508 is clock slave only device. The TAS5508 receives MCLK, SCLK and LRCLK from other system components. The TAS5508 accepts master clock rates of 64, 128, 192, 256, 384, 512, and 768 Fs.
The TAS5508 accepts a 64-Fs bit clock.
The TAS5508 allows for extending the dynamic range by providing a power supply volume control (PSVC) output signal.
2. FEATURES
◆ Automated Operation With an Easy to Use Control Interface
◆ I 2 C Serial Control Slave Interface
◆ Integrated AM Interference Avoidance Circuitry
◆ Single 3.3-V Power Supply
◆ 64-Pin TQFP Package
◆ 5-V Tolerant Inputs
◆ Supports Two PLL Input Modes:
◆ Crystal Mode
◆ No-Crystal Mode
3. PIN DESCRIPTION
PIN Symbol I/O Description
1 VRA_PLL Voltage reference for PLL analog supply 1.8 V
2 PLL_FLT_RET AO PLL external filter return
- 78 -
DI
DI
P
P
DI
DI
P
P
P
AO
AI
P
P
P
P
DI
DI
DI
DI
P
P
O
P
AO
AO
AI
DIO
DI
DI
DI
PLL_FLTM
PLL_FLTP
AVSS
AVSS
VRD_PLL
AVSS_PLL
AVDD_PLL
VBGAP
RESET
HP_SEL
PDN
MUTE
DVDD
DVSS
VR_DPLL
OSC_CAP
XTL_OUT
XTL_IN
RESERVED
TBASE_SEL
RESERVED
SDA
SCL
LRCLK
SCLK
SDIN4
SDIN3
SDIN2
SDIN1
PSVC
VR_DIG
DVSS
DVSS
9
10
11
12
13
14
15
16
17
7
8
5
6
3
4
28
29
30
31
32
33
34
35
23
24
25
26
27
18
19
20
21
22
- 79 -
PLL negative input
PLL positive input
Analog ground
Analog ground
Voltage reference for PLL digital supply 1.8 V
Analog ground for PLL
3.3-V analog power supply for PLL
Band gap voltage reference
System reset input
Headphone in/out
Power down
Soft mute of outputs
Digital power 3.3-V supply for digital core
Digital ground for digital core
Voltage reference for digital PLL supply 1.8 V
Oscillator capacitor in crystal mode
1.8-V output drive to the crystal
1.8-V input port for the oscillator circuit
Connect to digital ground
Connect to digital ground in crystal mode
Connect to digital ground
I2C serial control data interface input / output
I2C serial control clock input output
Serial audio data left / right clock
Serial audio data clock
Serial audio data 4 input
Serial audio data 3 input
Serial audio data 2 input
Serial audio data 1 input
Power supply volume control PWM output
Voltage reference for digital core supply 1.8 V
Digital ground
Digital ground
DVDD
/BKND_ERR
DVSS
VALID
PWM_M_1
PWM_P_1
PWM_M_2
PWM_P_2
PWM_M_3
PWM_P_3
PWM_M_4
PWM_P_4
VR_PWM
PWM_M_7
PWM_P_7
PWM_M_8
PWM_P_8
DVSS_PWM
DVDD_PWM
PWM_M_5
PWM_P_5
PWM_M_6
PWM_P_6
PWM_HPML
PWM_HPPL
PWM_HPMR
PWM_HPPR
MCLK
RESERVED
P
DI
DO
DO
DO
DO
DO
DO
P
DO
DO
P
DO
DO
DO
DO
DO
DO
DO
DO
DO
DO
DO
P
P
DO
DO
DI
40
41
42
43
44
45
46
47
48
49
50
36
37
38
39
55
56
57
58
59
60
51
52
53
54
61
62
63
64
3.3-V digital power supply
Digital ground
Output indicating validity of PWM outputs
PWM 1 output (differential -)
PWM 1 output (differential +)
PWM 2 output (differential -)
PWM 2 output (differential +)
PWM 3 output (differential -)
PWM 3 output (differential +)
PWM 4 output (differential -)
PWM 4 output (differential +)
Voltage reference for digital PWM core supply
PWM 7 (Line out L) output (differential -)
PWM 7 (Line out L) output (differential +)
PWM 8 (Line out R) output (differential -)
PWM 8 (Line out R) output (differential +)
Digital ground for PWM
3.3-V digital power supply for PWM
PWM 5 output (differential -)
PWM 5 output (differential +)
PWM 6 output differential -)
PWM 6 output (differential +)
PWM left channel headphone (differential -)
PWM left channel headphone (differential +)
PWM right channel headphone (differential -)
PWM right channel headphone (differential +)
MCLK is a 3.3-V clock master clock input
Connect to digital ground
3.5.17 function introduction to TAS5112DFD
1. DESCRIPTION
The TAS5112 (N13, N14) is a high-performance, integrated stereo Digital Amplifier Power Stage
- 80 -
24
23
22
21
20
19
28
27
26
25 and is used in conjunction with a Digital Audio PWM processor (TAS50XX) and a simple passive demodulation filter to deliver high-quality, high efficiency True Digital Audio Amplification.
The efficiency of this digital amplifier is typically 88%, reducing the size of both the power supplies and heat sinks needed. Heat sink should have thermal resistance of at least 3.5 C/W and mass of 140 grams. When running both channels full power continuously, adequate thermal design is required. Over-Current Protection,
Over-Temperature Protection and Under-Voltage Protection are built into the TAS5112, safeguarding the device and speakers against fault conditions that could damage the system.
2. FEATURES
◆ 2x50W (BTL) into 6 O
◆ 95 dB SNR (TDAA system with TAS5026)
◆ < 0.06% THD+N (TDAA system - 1W RMS into 6O)
◆ < 0.2% THD+N (TDAA system - 50W RMS into 6 O )
◆ Power efficiency typical 88% @ 6 O load
◆ Self-protection design (including under voltage, over temperature and short condition) with error reports
◆ 56-pin DFD PowerPad
TM
package
◆ 3.3 V Digital Interface
◆ Internal Gate Drive Supply voltage Regulator
◆ EMI compliant when used with recommended system design
◆ Four matched DMOS power transistors
3. PIN DESCRIPTION
PIN Symbol I/O Description
GND
GND
GREG
DVDD
GND
DGND
GND
PWM AP
PWM AM
/RESET AB
I
I
I
P
P
P
P
Power ground
Power ground
Gate drive voltage regulator decoupling pin
I/O refernece supply input (3.3V)
Power ground
Digital I/O reference ground
I/O reference ground
Input signal (positive), Half-bridge A
Input signal (negative), Half-bridge A
Reset signal, active low
- 81 -
14
13
6
5
8
7
4
12
11
10
9
18
17
16
15
49
48
47
46
45
44
43
42
55
54
53
52
51
50
3
2
1
56
PWM BM
PWM BP
DREG
M1
M2
M3
DREG RTN
PWM CP
PWM CM
/RESET CD
PWM DM
PWM DP
/SD AB
/SD CD
/OTW
GREG
GND
GND
GND
GVDD
BST D
PVDD D
PVDD D
OUT D
OUT D
GND
GND
OUT C
OUT C
PVDD C
PVDD C
BST C
BST B
O
O
I
I
O
I
I
P
I
I
I
P
I
I
I
P
P
O
O
P
P
P
P
O
O
P
P
P
P
P
P
Input signal (negative), Half-bridge B
Input signal (positive), Half-bridge B
Digital supply voltage regulator decoupling pin
Mode selection pin
Mode selection pin
Mode selection pin
Digital suppl y voltage regulator decoupling return pin
Input signal (positive), Half-bridge C
Input signal (negative), Half-bridge C
Reset signal, active low
Input signal (negative), Half-bridge D
Input signal (positive), Half-bridge D
Shutdown signal for half-bridge A and B
Shutdown signal for half-bridge C and D
Over temperature warning output
Gate drive voltage regulator decoupling pin
Power ground
Power ground
Power ground
Voltage supply
HS bootstrap supply (BST)
Power supply input for half-bridge D
Power supply input for half-bridge D
Output, half-bridge D
Output, half-bridge D
Power ground
Power ground
Output, half-bridge C
Output, half-bridge C
Power supply input for half-bridge C
Power supply input for half-bridge C
HS bootstrap supply (BST)
HS bootstrap supply (BST)
- 82 -
41
40
39
38
37
36
PVDD B
PVDD B
OUT B
OUT B
GND
GND
O
O
P
P
P
P
Power supply input for half-bridge B
Power supply input for half-bridge B
Output, half-bridge B
Output, half-bridge B
Power ground
Power ground
35
34
33
32
31
30
OUT A
OUT A
PVDD A
PVDD A
BST A
GVDD
P
P
O
O
P
P
Output, half-bridge A
Output, half-bridge A
Power supply input for half-bridge A
Power supply input for half-bridge A
HS bootstrap supply (BST)
Voltage supply
29 GND Power ground
3.5.18 Function introduction to AD7312
1. DESCRIPTION
The AD7312 (N101) is a VFD (Vacuum Fluorescent Display) controller/driver with STANDBY controller. It is driven on a 1/4 to 1/11 duty factor (include key scan). It consists of 5 segment output lines, 6 segment/key scan output lines, 6 grid output lines, 5 segment/grid output drive lines, 2 LED output ports, a display memory, a control circuit, and a key scan circuit. In addition, it includes 2 input ports, RMIN and SKEY, RMIN receives the signal form the STANDBY-KEY of remote sensor, SEKY can be controlled by an external switch. Both of them and STANBY SCAN-KEY can control the output level (High) of PSV port to realize the STANDBY function. To leave the standby mode, we can use the 2 remote WAKE_UP -KEY, 3 WAKE_UP SCAN-KEY, remote STANDBY-KEY, STANDBY-KEY and STANDBY SCAN-KEY to control the output level (Low) of PSV port to realize the Wake Up function. Serial data is input to the AD7312 through a four-line serial interface.
2. FEATURES
◆ Serial interface (CLK, STB, D
IN,
D
OUT
)
◆ Key scanning (6× 4 matrices)
◆ Programming display modes (11-digit & 11-segment to 6-digit & 16-segment)
◆ Programming dimming step
◆ High-voltage output (V
DD
-35V max).
◆ LED ports (2 channels., 20 mA max).
◆ 2-pin General-purpose input port
- 83 -
5
9
8
44
21 to 25
15 to 20
32 to 37
26, 28 to 31
39 and 42
40
41
10 to 13
14, 38
7, 43
27
1 and 4
2
3
◆ Built-in oscillator
◆ No external resistor necessary for driver outputs (provides PMOS open-drain and pull-low resistor output)
◆ Remote signal input port
◆ Remote signal output port
◆ 3 STANDBY master output ports (controlled by remote STANDBY-KEY, STANDBY-KEY and
STANDBY SCAN-KEY)
◆ 8 WAKE UP master output ports (controlled by 2 remote WAKE_UP -KEY, 3 WAKE_UP SCANKEY, remote STANDBY-KEY, STANDBY-KEY and STANDBY SCAN-KEY)
◆ NEC 6121/6122 infrared protocol support
3. PIN DESCRIPTION
PIN Symbol I/O Description
6 DIN I Data input
O
O
I
DOUT
STB
CLK
OSC
Seg7 to Seg11
Seg1/KS1 to Seg6/KS6
Grid1 to Grid6
Seg12/Grid11 to Seg16/Grid7
LED1 and LED4
RMBUF
PSV
KEY1 to KEY4
VDD
VSS
VEE
SW1 and SW4
RMIN
SKEY
I
I
I
I
I
I
O
I
I
O
O
O
O
O
Data output
Strobe
Clock input
Oscillator pin
High-voltage output (Segment)
High-voltage output
High-voltage output (Grid)
High-voltage output (Segment/grid)
LED output
Remote Control Buffer
Power Saving Output
Key data input
Logic power
Logic ground
Pull-down level
Switch input
Remote Control Input
Standby Key Input
- 84 -
3.5.19 function introduction to VIPer22ADIP
1. DESCRIPTION
The VIPer22A (U501) combines a dedicated current mode PWM controller with a high voltage Power
MOSFET on the same silicon chip. Typical applications cover off line power supplies for battery charger adapters, standby power supplies for TV or monitors, auxiliary supplies for motor control, etc. The internal control circuit offers the following benefits:
Large input voltage range on the VDD pin accommodates changes in auxiliary supply voltage. This feature is well adapted to battery charger adapter configurations.
Automatic burst mode in low load condition.
Over voltage protection in hiccup mode.
2. FEATURES
◆ FIXED 60 KHZ SWITCHING FREQUENCY
◆ 9V TO 38V WIDE RANGE VDD VOLTAGE
◆ CURRENT MODE CONTROL
◆ AUXILIARY UNDERVOLTAGE LOCKOUT WITH HYSTERESIS
◆ HIGH VOLTAGE START UP CURRENT SOURCE
◆ OVERTEMPERATURE, OVERCURRENT AND OVERVOLTAGE PROTECTION WITH
AUTORESTART
3. PIN DESCRIPTION
PIN Symbol I/O Description
1 SOURCE O Power MOSFET source and circuit ground reference.
4
5
2
3
6
7
SOURCE
FB
VDD
DRAIN
DRAIN
DRAIN
I
I
O
I
I
I
Power MOSFET source and circuit ground reference.
Feedback input.
Power supply of the control circuits.
Pow er MOSFET drain.
Power MOSFET drain.
Power MOSFET drain.
8 DRAIN I Power MOSFET drain.
3.5.20 Function introduction to HS817
HS817 (U502, U506) is a photoelectric coupler, shown as the figure 3.5.20.1. The right side is a light emitting diode, which sends out light of different intensity according to the strength of voltage inputted from the right side, generates photocurrent of different intensity on the left side according to light of different intensity,
- 85 -
and outputs from position D. The higher of the voltage inputted from the right side, the stronger of the light emitted from light emitting diode and the larger of the photocurrent produced from position D. The lower of the voltage inputted from the right side of photoelectric coupler, the weaker of the light emitted from light emitting diode and the weaker of the current outputted from position D.
Figure 3.5.20.1 2501 outside drawing
3.5.21 Function introduction to TL431A
TL431A (U503, U507) is a 2.5V comparator, shown as the figure 3.5.21.1. Compared the inputted voltage of
R end with 2.5V, when voltage of R end is more than 2.5V, KA end is on and photoelectric coupler starts to send out photocurrent; when voltage of R end is less than 2.5V, KA end is cutoff and photoelectric coupler does not send out photocurrent. CPU+3.3V in power board circuit must be kept in 3.3V, for the function of comparator. No matter more than or less than 3.3V, through on and off status of comparator, it will control the on state of the output end of photoelectric coupler LM431A to adjust the output space occupation ratio of switch module to control the output voltage of transformer and masthead the power.
K
R
A
Figure 3.5.21.1 LM431A outside drawing
3.5.22 function introduction to KA1M0880BTU
1. DESCRIPTION
The Fairchild Power Switch(FPS) product family is specially designed for an off-line SMPS with minimal external components. The Fairchild Power Switch(FPS) consist of high voltage power SenseFET and current mode PWM IC. Included PWM controller features integrated fixed frequency oscillator, under voltage lock-out, leading edge blanking, optimized gate turn-on/turn-off driver, thermal shutdown protection, over voltage
- 86 -
protection, and temperature compensated precision current sources for loopcompensation and fault protection circuitry. Compared to discrete MOSFET and PWM controller or RCC solution, a Fairchild Power
Switch(FPS) can reduce total component count, design size, weight and at the same time increase efficiency, productivity, and system reliability. It has a basic platform well suited for cost effective design in either a flyback converter or a forward converter.
2. FEATURES
◆ Precision fixed operating frequency (100/67/50kHz), KA1M0880BTU (70Hz)
◆ Low start -up current(typ. 100uA)
◆ Pulse by pulse current limiting
◆ Over current protection
◆ Over voltage protecton (Min. 25V), KA1M0880BTU (Min. 23V)
◆ Internal thermal shutdown function
◆ Under voltage lockout
◆ Internal high voltage sense FET
◆ Auto-restart mode
3. PIN DESCRIPTION
PIN Symbol I/O Description
3
4
1
2
GND
Drain
Vcc
FB
I
I
I
O ground
Voltage output
Voltage input
Feed back
- 87 -
Chapter Four
Disassembly and Assembly Process
DVD players manufactured in BBK are largely identical but with minor differences and are mainly composed of loader components, control panel components, decode and servo board components, power board components, power amplifier board components, MIC board components and AV board components. In order to speed up the compilation of “Service Manual”, we shall not give repeat explanation to model with minor differences in chapter four “Disassembly and Assembly Process” for the later compiled service manuals. For disassembly and assembly process in this chapter, please refer to chapter 4 of “DK1005S Service Manual” or “DK1020S Service” .
The pictures of this model are shown as follows:
- 88 -
Chapter Cinque
PCB board & Circuit diagram
Section One PCB board
5.1.1 Surface layer of KEY SCAN Board
S 1 1 0
C 1 0 5
C 1 0 4
R 1 2 6 VD108
C 1 0 6
R 1 1 0
N 1 0 2
1
S 1 1 1
C 1 1 2
S 1 0 7
S 1 0 8
S 1 0 9
V103 C113
R 1 3 7
C 1 0 7
C 1 0 9
C 1 0 8 V 1 0 1
V 1 0 2 3 5
DS101
R123 VD106
6DK1910S-0
2006 04 14
VD105
S 1 0 2
S 1 0 1
VD107
S 1 0 3
S 1 0 4 S 1 0 5 S 1 0 6
- 89 -
5.1.2 Bottom layer of KEY SCAN Board
N 1 0 1
X S 1 0 6 X P 1 0 2
- 90 -
5.1.3 Surface layer of DECODE&SERVO Board
R2159
R248
R244
U205
C234
L205
TC211
L206
TC203 TC
20
2
C223
C224
C225
C227
C228 R223
6
L250
G
O I
TC209 TC213
7
U208
XS202
GND TXDRXDDV33
R341
R342
R343
R344
R345
C282
U202
TC217
TC201
VD201
U201
TC208
TC207
TC
301
1
TC302
8
4
R346
R347
C281
27
TC210 28
U203
XP207
L216
2DK1910S-0
2006 04 14
C347
1
U211
54
U214
L233
C266
R230
C263
L232
C264
L231
C265
L230
C267
C279
C349
R234
R235
R249
C348
R348
R255
28
C208
R206
TC205
U302
TC304
L302
TC247
R297
R339
R325
V310
R327
L204
TC237
R2140
R240
R241
R238
R239
R326
V308
V306
TC308
TC204
R324 R323
XS302
LO-
LO+
TRO
GND
TRI
C303 C302 R312 C304
XS303
XS301
- 91 -
5.1.4 Bottom layer of DECODE&SERVO Board
C345
R258
R257
L235
R331
C249
R213
C256
C237
C245
C2167
L234
C235
C230
C219
C220
C222
R224
C229
R268
C221
L249
C2158
C239
C218
L203
L207
L208
L228
R205
C308
C206
R310
V304
C312
R303
C311
L304
L309
R270
R256
R243
R242
- 92 -
5.1.5 Surface layer of audio power amplifying Board
XC100
R182
SR-
SR+
SW-
SW+
R181
R177
SL+
R180
R178
R176
R44
R47 R52
R45
C44 C93
SL-
C+
R93
R90
R39
R38
R145
R197
R192
R195
R191
C-
R196
R194
R193
R-
R51
R43
R42
R46
R+
L+
L-
C170
R184
R183
R50
R48
R172
A10
XS101
C177 C173
C186
C176 C172
C43
C133
C90
R143 R142
C140
C185
C141 C139
C36
C37
C181
C180
C134
C169
C168
R40
RST
SDA_LR
SDA_SLSR
SDA_CSW
GND
MCLK
GND
SCLK
LRCK
AUIN_SL0
AUIN_SL1
SCL
SDA
MUTE
STBY
DTS DO
DTS CL
DTS D1
DTS CE
TUNER_ON
DAVNIN
M1
GND
M0
HDET
SDA
XS108
L1
L4
C204
R54
R55
R57
R139
R221
R222
C211
N4
R12 R58 R8
R11
C21
N3
C20
N2
R94
R95
R96
C191
R97
C192
R98
C193
R99
C194
C195
R100
C196
R101
R113
R5
C201
Y3
L10
C105
R41
C95 R104
Y1
C110
L9
C109
C96
L11
R36
C29
R31
C27
R135
C122
R32
R35
C30
R131
C123
R132
R186
C26
R141 C138
R185
R34
R130
C28
C137
C120 R134
R33
R30
C119
C179
N13 N14
C72
C112
C111
C54
L2
L3
C56
C52
C58
C55
C67
N12
C49
C50 R64 C53 R66
C19
XS114
XS104
MIC1GND MIC2
VD9
A9
L13 L15 4DVR979-5
2006 03 15
C220
C118
C124
R133
N15
8 7
R126
R125
R124
R123
RDS_MPX AGND
TU_R
TU_L
TU+9V
DIS DO1
GND
DIS CL1
DIS DI1
DIS CE1
Y2
2
C126
R137
R86
R85
R84
C128 N6
R92
C117
C81
C127
1
C94
C160
C159
R165
C14
R14
6
C108
R200
R7
A11
XS113
3
VD2
R245
R15
VD8
R109
C107 R166
R19 R162
C98 C97
C154
R102
R105
C100
R106
R156
C102
R108
C155
XP112
C8
R21
VD6
VD5
C84
C78
C80
R88
C148
C165
C197
C198
R17
C132
R18
C106 R16 C101
C150 R254 R154
C156
R158
R157
R161
C205
R220
C157
C161
R163 R167 C163
C149
C62
V2
C254
R219
C158
R164 R168
C162 C164
R20
N1
C153
C199
C206
R171
R170
R4
C86
R87
R201
C91
L6
C79
N7
L12
L7
C87
C92
C57
C6
R1
R2
C167
C2 N5
C166
C1
R80
R81
C77
C76
R83
R82
C61
C74
R78
R79
R77
R76
C190 C189
A8
- 93 -
5.1.6 Bottom layer of audio power amplifying Board
R117
R119
R120
R121
C13
C70
C12
C69
C10
C71
C66
C11
C65
C68 C9
C64
- 94 -
C213
C212
L17
R13
C17 C18
C171 C217 C73
C218
C216
C215
C214
5.1.7 Surface layer of AV Board
- 95 -
5.1.8 Bottom layer of AV Board
- 96 -
5.1.9 POWER Board
YC502
YC501
L501
XC501
RV501
R501
XC502
RT501
TC501
TC504
R509
V501
@5DVR979N-7 UL
2006 02 22
TC503
R510
D505
D501
R508
C501
TC502
R502
D506
D502
L502
U501 R503
T501
V502
F501
R506 R505
XS100
C502
R518
1
R517
U502
R511
R512
1
8
ZD503
YC503
D510
D511
D512
U507
D507
D509
C510
D519
U505
1
T502
1
L504
D508
R524
R537
R523
R514
C513
C515
C508
C517 D513
C518 C521
R516
C520
C519
R520
R519
R526
16
9
R532
R533
C523
D518
R530
C527
R531
R529
P+28V PGND
XS101
R528
C526
U506
TC517
GDN502
TC518
L508
C524
XS105
D+
5V
DG
D+
3V
AG
A+
5V
R527
TC516
W20
W19
L505 TC507
ZD502
R521
C516
U508
C528 TC520
W15
W21
TC508
W11
W14
W4
W10
XS103
A+10V
A+
5V
AG
A-10V
PG
H-R
H-L
T
H-
DE
XS104
H-R
PG
H-L
H-
DE
T
DG
FL
+
FL
-
-21
V
CP
U5
STBY
D514
R525 TC515
- 97 -
2
3
4
11
12
13
14
15
16
5
6
7
8
9
10
17
18
19
20
21
22
23
24
24P0.5mm
C311
104
SL+
SL-
MO_VCC
C305
104
R319
150K
R304
1R
2SK3018-S
C304
V303
R305
1R
L308
L307
L306
L305
L304
L322
L303
L301
C302
104
R3211R
R340
1R
R308
100K
L324
L323
L321
L320
L319
L318
L317
L314
L312
R303
L311
L310
L316
C312
104
GND
FMSO
TC304
47uF/16V
R312 20K
C303
104
10K
151 TRSO
V1P4
STBY
R313
C307 2200pF
R317
680K
R320
150K
C308
DNS
15
16
17
18
19
20
21
22
23
24
25
26
27
28
FBSMT
FBSMT
R310
V304
2SK3018-S
100K
AVCC
C301
104
FBSMT
FBSMT
FBSMT
FBSMT
FBSMT
FBSMT
FBSMT
0R
FBSMT
FBSMT
FBSMT
FBSMT
FBSMT
10uH
FBSMT
FBSMT
FBSMT
10uH
FBSMT
R309
AVCC
10K
R311
V305
3904-S
10K
IOA
VOTK+
VOTK-
VOLD+
VOLD-
PGND
VNFTK
PVCC2
PREGND
VINLD
CTK2
CTK1
VINTK
BIAS
STBY
U302
BA5954
R318
R322
680K
0R
MDI1
E
V20
F
B
A
RFO
IOA
D
C
VOFC+
VOFC-
VO2+
VOSL-
PGND
PVCC1
VCC
VINFFC
VOSL
VINSL-
VINSL+
CF2
CF1
VINFC
OPO
ADIN
OP-
OP+
C310
2200pF
V1P4
SP-
DV33
L238
FB
RFV33
TC211
220uF/16V
L205
FB
C231
104
L206
4.7R
L207 FB
L208
FB
PLLVDD3
C234
TC203
104 47uF/16V
ADCVDD3
VREFN
C235
104
RFVDD3
C238
104
C236
104
RFSVDD3
C237
104 C C201
C229
104
1uF
C240
1uF
VREFP
C239
104
TC301
220uF/16V
L250
FB
B C202 1uF
R301 L309 L234
1
5
4
3
2
1
7
6
14
13
12
11
10
9
8
XS06
2
3
4
5
6
10R
R302
10R
LDO-AV33
V301
2SB1132-S
R331 0R
V302
2SB1132-S
FB
TC302
47uF/16V
LDO2
DQS0
LDO1
TC303
47uF/16V
LDO-AV33
DV33
C241
104
V18
FB
RFV18
C230
104
TC206
47uF/16V
RFO
C206
120p
A
D
E
F
C
B
A
D
C203 1uF
C204 1uF
C205 DNS
R201
R202
R203
R204
R228 0R
0R
0R
0R
0R
MDI1
MDI2
MO_VCC
V1P4
FOSO
VCC
C242
104
TC205
47uF/16V
LDO2
LDO1
RFSVDD3
R21650R RFOP
L302
FB
R306
1R
SP-
SP+
DMSO
R315
20K
R316 20K
R349
10K
R307
1R
C306
151
C243
104
V1P4
ADIN
C208
C209
DV33
R328
10K
89V33
R329
10K
TC204
47uF/16V
TRSO
FOSO
C210 C211 C212 C213
153p
V1P4
104
L204
FBSMT
330p
L201 FB
330p
C255
R210
R211
C214
104
VPLLV33
ADIN
18K
20K
TC247
47uF/16V
USBVDD
RFON
V2P8
V20
V1P4
DMSO
FMSO
C207 104
R21660R FEO
TEO
TEZISLV
OPO
R208 10K
R209 15K
OP-
OP+
DMO
FMO
TROPEN
TRO
FOO
C2175
104
44
45
46
USBP
USBM
47
48
49
50
38
39
40
41
42
43
TDI
TMS
TCK
TDO
SL+
SL-
LIMIT
SP+
XS05
4
3
2
1
LOAD-
LOAD+
TROUT
TRIN
C343
104
C344
104 104
C309
104
C345
104
C346
104
A3
A4
A5
A6
A7
A8
A18
A19
TROUT
TRIN
STBY
TRCLOSE
V18
A2
51
52
53
54
55
56
32
33
34
35
36
37
26
27
28
29
30
31
57
58
59
60
61
62
63
64
20
21
22
23
24
25
14
15
16
17
18
19
8
9
10
11
12
13
5
6
7
2
3
4
DV33 89V33
R223
15K
AVDD3
FMO
TROPENPWM
PWMOUT1/V_ADIN9
TRO
FOO
VPLLVSS
CAPPAD
VPLLVDD3
USB_VSS
USBP
USBM
USB_VDD3
FG/V_ADIN8
TDI/V_ADIN4
TMS/V_ADIN5
TCK/V_ADIN6
TDO/V_ADIN7
DVDD18
IOA2
IOA3
IOA4
IOA5
IOA6
IOA7
HIGHA0
IOA18
IOA19
AGND
DVDA
DVDB
DVDC
DVDD
DVDRFIP
DVDRFIN
MA
MB
MC
MD
SA
SB
SC
SD
CDFON
CDFOP
TNI
TPI
MDI1
MDI2
LDO2
LDO1
SVDD3
CSO/RFOP
RFLVL/RFON
SGND
V2REFO
V20
VREFO
FEO
TEO
TEZISLV
OP_OUT
OP_INN
OP_INP
DMO
VCC
TC308
47uF/16V
R323
1.5K
V309
8550
R324
1.5K
TC309
47uF/16V
L235
FB
L236 FB
TC248
47uF/16V
C244
104
C245
104
AVDD3
C246
104
C247
104
C248
104
C249
104
C250
104
C251
104
LOAD-
(TRCLOSE1)
TROPEN
R325
470R
R326
2.2R\1/4W
V306
8550
V307
8050
V308
8050
V310
9014-S
R327
470R
R339
10K
LOAD+
(TROPEN1)
TRCLOSE
(TRCLOSE1)
TROPEN 104
V18
C2167 C254
104
C2174
104
C256
104
C257
104
C258
104 PWR#
PCE#
PRD#
R297
R298
R299
0R
0R
0R
DWR#
DCE#
DRD#
C222
20pF
C223
102
TC202
10uF/16V
C218
0.47uF
U201
MT1389HD
10uF/16V TC207
89V33
L209
4.7uH
R213
1K
C216
R214
510R
JITFO C233 100pF JITFN
R227 750K
DACVDD3
L203
FB DV33
DVDD3
RA4
RA5
RA6
RA7
RA8
RA9
RA11
DVSS
CKE
RCLK
DVDD3
RA3
RA2
DVDD18
RA1
RA0
RA10
BA1
BA0
RCS
RAS
CAS
RWE
DQM1
DVDD3
IO_18
RD8
DACVSSC
YUV1/Y
DACVDDB
YUV2/C
DACVSSB
YUV3/CVBS
DACVDDA
YUV4/G
DACVSSA
YUV5/B
YUV6/R
VSYNC/V_ADIN1
YUV7
HSYNC/V_ADIN2
DVSS
IO_17
C0/IO_0
C1/IO_1
DVDD18
C2/IO_2
C3/IO_3
C4/IO_4
DVDD3
C5/IO_5
C6/IO_6
C7/IO_7
YUVCLK/IO_8
Y0/IO_9
Y1/IO_10
Y2/IO_11
Y3/IO_12
Y4/IO_13
DVDD18
Y5/IO_14
Y6/IO_15
Y7/IO_16
156
155
154
153
152
151
150
149
148
147
146
145
144
162
161
160
159
158
157
168
167
166
165
164
163
137
136
135
134
133
132
131
130
129
143
142
141
140
139
138
174
173
172
171
170
169
180
179
178
177
176
175
186
185
184
183
182
181
192
191
190
189
188
187
C217
104
89V33V18
TC201
10uF/16V
Y1
Y2
Y3
Y4
Y5
Y6
VSYNC#
HSYNC#
VDATA3
DTS_DO
DTS_CL
DTS_DI
DTS_CE
R261
33R VOICE_DET
TUNER_ON
CLK
RDS_DATA
POWER_ON_RST
RDSSYNC
SCMUTE
RDSID
RDSCE
AUIN_SL0
AUIN_SL1
J3
J4
DMA4
DMA5
DMA6
DMA7
DMA8
DMA9
DMA11
DCKE
DCLK
DMA3
DMA2
DMA1
DMA0
DMA10
BA1
BA0
CS#
RAS#
CAS#
WE#
DQM1
LIMIT
DQ8
XP203
1
2
3
4
5
XS05
2
3
4
XS04(DNS)
L222
L223
L209
DV33
L226
FB
DV33
RXD
TXD
GND
U208
BA033FP(DNS)
FB
FB
FB
C267
104
AVCC
C281
104
SD33
C2162
104
XP900
9
10
11
6
7
8
3
4
1
2
5
12
CON12
C2163
104
C263
47pF
C270
104
VCC
C2168
104
TC210
47uF/16V
C271
104
TC208
220uF/16V
TC207
220uF/16V
C2170
104
L230
L231
L232
L233
C264
47pF
USBP
USBM
USB_VBUS
DV33
J4
J3
FBSMT
FBSMT
FBSMT
FBSMT
C265
47pF
C266
47pF
VCC
VFDAT
VFDST
VFDCK
IR
R230
4.7K
DV33
L227
FB
C2171
104
C272
104
DV33A
C2173
104
1
2
3
4
TC213
220uF/16V
U202
AT24C16X4050
DC/NC
RST_/NC
WP/RST_
VSS
VCC
RST/WP
SCL
SDA
VD
8
7
6
5
R241
4.7K(DNS)
DV33
SCL
SDA
C260
102(DNS)
A16
A15
A14
A13
A12
A11
A10
A9
AA20
AA21
DWR#
URST#
VP
A19
A18
A8
A7
A6
A5
A4
A3
A2
R259
680R
R260
680R
10
11
12
13
14
15
16
17
7
8
9
3
4
5
1
2
6
18
19
20
21
22
23
24
C261
102(DNS)
C259
104
U214
A15
A14
A13
A12
A11
A10
A9
A6
A5
A4
A3
A2
A1
A8
A19
NC
WE
RESET
NC
NC
RY/BY
A18
A17
A7
8M_FLASH(TSOP)
42
41
40
39
38
37
36
35
34
33
32
48
47
46
45
44
43
31
30
29
28
27
26
25
A16
BYTE
Vss
DQ15/A-1
DQ7
DQ14
DQ6
DQ13
DQ5
DQ12
DQ4
Vcc
DQ11
DQ3
DQ10
DQ2
DQ9
DQ1
DQ8
DQ0
OE
Vss
CE
A0
DCLK
DCKE
R263
R264
CS#
RAS#
CAS#
WE#
R265
R266
R267
R2162
R231
33R
R232
33R
DMA0
DMA1
DMA2
DMA3
DMA4
DMA5
DMA6
DMA7
DMA8
DMA9
DMA10
MA11
BA0
#BA1
33R
33R
SDCLK
SDCKE
38
37
33R
33R
33R
33R
DCS#
DRAS#
DCAS#
DWE#
19
18
17
16
DQM0
DQM1
15
39
23
24
25
26
29
30
31
32
33
34
22
35
20
21
36
40
54
41
28
A17
GND
A0
AD7
AD6
AD5
AD4
VD
AD3
AD2
AD1
AD0
DRD#
GND
DCE#
A1
U211
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10/AP
A11
BA0/A13
BA1/A12
CLK
CKE
/CS
/RAS
/CAS
/WE
VCC
VCC
VCC
DQML
DQMH
VCCQ
VCCQ
VCCQ
VCCQ NC
NC
VSS
VSS
VSS
SDRAM 64M
VSSQ
VSSQ
VSSQ
VSSQ
DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
3
9
43
49
6
12
46
52
DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
2
4
5
7
8
10
11
13
42
44
45
47
48
50
51
53
SD33
1
14
27
SD33
C2160
104
C282
104
VCC
VCC
R234
4.7K
R235
4.7K
R249
4.7K
SPDATA
SPLRCLK
SPBCLK
R341
R342
R343
SPMCLK R344
VOICE_DET R345
VCC
SCL
SDA
DGND
XO
DV33
Y1
Y2
Y3
VGND
Y4
Y5
Y6
HSYNC#
VSYNC#
VDATA3
33R
33R
33R
IEC958
DGND
SPDAT
SPLRCK
SPBCK
33R
33R
DGND
SPMCK
AUDIO_RST
INT
DVCC
L251 FB
R233 75R
AUDIO_RST
SDATA0
SDATA1
SDATA2
GND
SACLK
GND
SBCLK
SLRCK
AUIN_SL0
AUIN_SL1
SCL
SDA
SCMUTE
LRSWMUTE
DTS_DO
DTS_CL
DTS_DI
DTS_CE
TUNER_ON
DAVNIN
GND
RDSSYNC
RDSID
RDSCE
RDCL
QUAL
ADC_DAT
R250
0R(DNS)
VCC DV33
DV33 C274
VD202
1N4004(DNS)
VD203
1N4004(DNS)
DV33
ACLK
ABCK
ALRCK
ASDAT0
ASDAT1
ASDAT2
R291
R292
R293
R294
R295
R296
33R
33R
33R
33R
33R
33R
SACLK
SBCLK
SLRCK
SDATA0
SDATA1
SDATA2
XI
R244
0R
L249
2.7uH(DNS)
C2158
27pF(DNS)
R252
75K
R253
0R(DNS)
DV33
VD201
1N4148
R236
1K
Q204
9015
TC217
47uF/16V
R246 100K
C275
27pF
X201
27MHz
R248
0R
C276
27pF
XO
R254
47K
C279
104
5
C278
225
VD
R255
0R
L204
TC237
47uF/16V
6
FB(DNS)
DV33
VCC
U205C
HCU04
R256
33R
IEC958
R251
0R
R347
10K
CLK
R346
330
DV33
10
U205E
HCU04
11 12
U205F
HCU04
VCC
L216
FB
C347
104
3
4
U203
RT9701 vin ce
104
13
R2159
0R vout vout
1
5
C348
104
ASPDIF
USB_VBUS
V18
L228
FB
C273
104
C349
225
R348
10R(DNS)
TC209
220uF/16V
R242
3.3K
R243
1.2K
U209
LM1117MP-1.8
15
16
17
18
19
20
21
22
23
24
25
26
27
28
XS28
XP206
1
2
11
12
13
14
15
16
17
18
19
20
21
7
8
9
5
6
3
4
10
8
9
10
11
12
13
14
XP207
1
2
5
6
3
4
7
22
23
24
25
26
27
28
XS28
URST#
X S 1 0 8
12
13
14
15
16
17
18
19
10
11
7
8
9
5
6
3
4
1
2
20
21
22
23
24
25
26
27
28
C O N 2 8
C O N 8
X S 1 0 4
1
4
5
2
3
6
7
8
L15 FB
L13
100uH A G N D
A+5V
L14
+9V
D+3.3V
100uH
V D 9
1N4004
V D 1 0
1N4004
-9V
H G N D
H-R
H-L
H D E T
R241
47/0.25W
R242
270
C148
47U/16V
V2
8050
47U/16V
VD12
5.6V
C149
C150
104
+5V
AUIN_SL1 AUIN_SL0
0
0
1
1
0
1
0
1
OUTPUT
MIC(1)
AUX(2)
TUNER(3)
MIC2
G N D
MIC1
X S 1 1 4
3
2
1
C O N 3
X P 1 1 2
5
6
3
4
7
1
2
C O N 8
C217
104
C214
104
C215
104
C216
104
C218
104
C110u/16V
R13K
C210u/16V
R23K
6
5
C6 101
R4 51K
N1B
4558
7
C8
10u/16V
+9V
R O
A G N D
LO
A U X R
A G N D
A U X L
RO
LO
2
3
-9V
N1A
4558
1
+9V
C199
104
C200
104
-9V
+9V
R201K
R21
1K
V D 5
1N4148
V D 6
1N4148
A+5V
A+5V
R76 4.7K
R77 4.7K
O K
A U X R
TU_R
A U X L
TU_L
A U I N _ S L 1
A U I N _ S L 0
2
4
1
5
6
9
10
12
14
15
11
N5
X0
X1
X2
X3
X
Y
Y0
Y1
Y2
Y3
INH
VDD
B
A
CD4052
VSS
VEE
13
3
16
8
7
C75
104
C74
104
R784.7K
R794.7K
A+5V
-9V
QUAL 1
DAVNIN 2
C224
4.7u/16V
MUXL
C223
104
VDDA
3
4
5
6
7
C225
561
8
N15
QUAL RDCL
RDDA
VREF
T57
OSC2
MUX OSC1
AVDD DVDD
AVSS DVSS
CIN TEST
SCOUT MODE
PT2579
16
15
RDCL
14 OSCO
13 OSC1
12
11
10
VDDD
C220
104
9
1
R8 100k
N2A
6 3
N2B S N 7 4 L V C 2 G 0 4 D B V R
4
L16
FB
1k
R10
1k
R12
3k
R11
47
C145
100p
C144
100p
TU+5V
D A V N I N
S D A
S C L
R D S _ M P X
R84
10K
R85
10K
R86
10K
C117 561
18
19
1
5
2
8
9
10
11
13
20
N6 S A A 6 5 8 8
MPTH
DAVN
SDA
SCL
PSWN
AFIN
LVIN
SCOUT
MPXIN
VDDA
VDDD
Vref
TCON
CIN
MRO
OSC1
MAD
VSSD
VSSA
OSCO
16
14
7
17
3
12
6
15
4
R133
1K
C81
331
TU+9V
VDDA
VDDD
R245
100
V 5S8550
L5 FB
R89 10
C85
470u/16V
C88
104
TU+5V
C89
102
R91
220/0.5W
R92
10K
R137 10
C125
4.7u/16V
C126
104
C127
104
C128
47u/16V
V D 3
5.1V
V 6
9014
+9V
C94
470u/16V
R138 4.7K
3.3V
R139
4.7K
C118
15p
Y 24.332MHz
C124
15p
C17
100p
Y 312.288MHz
C18
100p
3.3V
A+5V
硬件复位信号
R S T
A U I N _ S L 0
A U I N _ S L 1
S C L
S D A
MUTE
H D E T
D T S D O
D T S C L
D T S D I
D T S C E
T U N E R _ O N
D A V N I N
M1
H M U T
M0
RDCL
QUAL
RST
SCL
SDA
MUTE
HDET
R2947
R5647
R5947
R6247
R6347
R6947
R225 47
C213
100p
C212
100p
N3A
74HCT125
N3B
S D A _ L R
74HCT125
L17
FB
SDA_LR
N 3 C
S D A _ S L S R
74HCT125
SDA_SLSR
N 3 D
S D A _ C S W
SDA_CSW
74HCT125
N4A
74HCT125
N4B SCLK
74HCT125
N 4 C L R C K
74HCT125
SCLK
LRCK
N 4 D S D A _ A D
74HCT125
SDA_AD
R13
220
R22110K
R22210K
3.3V
3.3V
MCLK
C211
220p
R87 10K
SCLK
L R C K
C60
C59 104 C20 102 104
C21 C204
102 104
C19 47u/16V
C61 104
C57 47u/16V
L12
FB
L6 FB
R885.1
C80
104
3
4
5
6
1
2
7
8
N7 CS5340
M0
MCLK
VL
SDA
GND
VD
SCLK
LRCK
M1
FILT+
RGND
VA
AINR
VQ
AINL
RST
C78
104
C79
47u/16V
C83
104
L7 FB
C86
10u/16V
16
15
14
13
12
11
10
9 R S T
C82
104
C87
4.7u/16V
C84
4.7u/16V
C91 4.7u/16V
C92 4.7u/16V
C76
101
3.3V
C77
101
R83
4.7K
R81
4.7K
R82
2.2K
R80
2.2K
D T S _ C E 1
DTS_DI1
DTS_CL1
D T S _ D O 1
R126
R125
R124
R123
220
220
220
220
R117
R119
R120
R121
TU+5V
10K
10K
10K
10K
R223
A G N D
R D S _ M P X
0R
TU_R
TU+9V
TU_L
R224
DGND
DTS_DO1
DTS_CL1
DTS_DI1
D T S _ C E 1
0R
XS113
5
6
7
8
9
10
11
1
2
3
4
CON11
+5V
R111
4.7K
R110
4.7K
C104
10u/16V
C103
104
LGND LGND LGND
PWM_RL-
PWM_RL+
R1034.7K
LGND
R1024.7K
C102101
R10818K R107 27K
C97
681
C98
681
2
3
LGND
N8A
TLV272
R106 27K
R109 18K
C100
101
LGND
+5V
1
R1668.2K
R16522K
6
5
R15 220K
LGND
C159
152
C160
105
LGND
R1412K
C1482p
N8B
TLV272
7
C108 10u/16V
+5V
R9
4.7K
R6
510
V7
2N5401
LO1
V9
8050
R114
47K
R217510
LO
R244
4.7K
R243
1K
LGND
PWM_RR-
PWM_RR+
RO1
LO1
R1054.7K
LGND
R1564.7K
R220
10K
R219
10K
C101101
R1812K
LGND
V8
8050
R157 27K
C154
681
C155
681
2
3
R158 27K
R162 18K
R16118K
LGND
+5V
N9A
TLV272
1
R16 8.2K
R1722K
C198
152
R19 220K
LGND
6
5
C132 82p
N9B
TLV272
7
C165 10u/16V
R7
510
RO1
C156
101
LGND
C197
105
LGND
A+5V
HGND HGND
R160
47K
R154
10K
C205
10u/16V
R163 10K
C157
471
47p
C161
10K
C206
10u/16V
C62
C158
471
R164 10K
C162
47p
HGND
HGND
HGND
C153
10u/16V
10u/16V
V 4
9014
C254
47u/16V
HGND
C163221
R16710K
2
3
6
5
1 IN-
1 IN+
2 IN-
2 IN+
N11LM4880
1 OUT
2 OUT
+V
V-
R16810K
C164221
+5V +5V +5V
LGND
C63
47u/16V
LGND
C106
104
LGND
C107
104
A+5V
R254
0(dns)
+5V
C166330u/10V
1
7
8
4
A+5V
HGND
C167330u/10V
H-R
H-L
R170
10K
R171
10K
LGND
R169
47K
LGND
H-R
H-L
HGND
R218510
HGND
+9V
-9V
RO
C189
220u/16V
C171
104
C190
220u/16V
C73
104
MCLK
RST
MUTE
D+3.3V
D+3.3V
L8 FB
DGND
SDA
SCL
LRCK
SCLK
SDA_CSW
SDA_AD
SDA_SLSR
SDA_LR
PWM_SL+
PWM_SL-
P W M _ S L +
P W M _ S L -
SD
VALID
S D
V A L I D
PWM_SR-
PWM_SR+
P W M _ S R -
P W M _ S R +
R208 0R
R209 0R
R25 10
R210 0R
R211 0R
PWM_SW+
P W M _ S W +
PWM_SW-
P W M _ S W -
R24 10
R212 0R
R213 0R
PWM_CEN+
P W M _ C E N +
P W M _ C E N -
PWM_CEN-
SD
S D
VALID
V A L I D
R202 0R
R203 0R
R116 10
PWM_FL+
PWM_FL-
PWM_FL+
PWM_FL-
P W M _ F R -
PWM_FR-
PWM_FR+
P W M _ F R +
R204 0R
R205 0R
R175 10
R206 0R
R207 0R
+28.5V
R183
20K
R184
20K
PGND
MCLK
R S T
MUTE
D G N D
3.3V
3.3V
S D A
S C L
L R C K
SCLK
S D A _ C S W
S D A _ A D
S D A _ S L S R
S D A _ L R
C180
470u/35V
FL-
C181
470u/35V
R187
1
C182
103
PGND
VCC
VDD
PWM_3.3V
C111
224
R115 22
C112
10u/16V
P W M _ H _ P R
P W M _ H _ M R
P W M _ H _ P L
P W M _ H _ M L
P W M _ R R +
P W M _ R R -
P W M _ R L +
P W M _ R L -
P W M _ S W +
P W M _ S W -
P W M _ C E N +
P W M _ C E N -
PWM_H_PR
PWM_H_MR
PWM_H_PL
PWM_H_ML
PWM_RR+
PWM_RR-
PWM_RL+
PWM_RL-
PWM_SW+
PWM_SW-
PWM_CEN+
PWM_CEN-
3.3V
C48
104
C202
104
R57
10K
3.3V
R54
10K
R55
10K
R94
R95
R96
R97
R98
R99
R100
R101
47
47
47
47
47
47
47
47
3.3V
R68 2.2
A V D D
C58
10u/16V
C56
104
R67 3.3
AVSS
C50
103
R64
200
C52
104
C53
103
R66
200
C55
104
3.3V
R65 1
C54
10u/16V
C49
104
C67
104
C113
4.7u/16V
D V D D
C51
104
8
9
10
11
12
13
14
15
16
3
4
1
2
5
6
7
A V S S
O
VRA_PLL
PLL_FLT_RET
PLL_FLTM
PLL_FLTP
AVSS
AVSS_GR
VRD_PLL
AVSS_PLL
AVDD_PLL
VBGAP
/RESET
/HP_SEL
/PDA
/MUTE
DVDD
DVSS
C95 15p
R104
100k
C96 15p
Y 1
13.5M
C99104
N12
T A S 5 5 0 8 P A G
C191
101
C192
101
C193
101
C194
101
C195
101
C196
101
VR_PWM
PWM_P_4
PWM_M_4
PWM_P_3
PWM_M_3
PWM_P_2
PWM_M_2
PWM_P_1
PWM_M_1
VALID
DVSS
/BKND_ERR
DVDD
DVSS
DVSS
VR_DIG
44
43
42
41
40
48
47
46
45
39
38
37
36
35
34
33
C105
104
C72
104
P W M _ S R +
P W M _ S R -
P W M _ S L +
P W M _ S L -
P W M _ F R +
P W M _ F R -
PWM_FL+
PWM_FL-
V A L I D
D3.3V
R5 47
PWM_SR+
PWM_SR-
PWM_SL+
PWM_SL-
PWM_FR+
PWM_FR-
PWM_FL+
PWM_FL-
VALID
V D 1 1N4148
S D
C110
R113
C109
104
10u/16V
1
C201
104 V D 7
1N4148
R230
4.7K
3.3V
R3
1K
3.3V
V D 8
5.1V
SD
+9V
R27 51
C22
104
PGND
PGND
PGND
C23105
C24 104
C25
105
PGND PGND
C115 105
C116 104
R122 51
C114
104
PGND
C175
105
PGND PGND
N13
TAS5112DFD
GND
GND
GREG
/OTW
/SD_CD
/SD_AB
PWM_DP
PWM_DM
/RESET_CD
PWM_CM
PWM_CP
DREG_RTN
M3
M2
M1
DREG
PWM_BP
PWM_BM
/RESET_AB
PWM_AM
PWM_AP
GND
DGND
GND
DVDD
GREG
GND
GND
8
9
10
11
12
13
14
15
3
4
5
1
2
6
7
16
17
18
19
20
21
22
23
24
25
26
27
28
N14
TAS5112DFD
GND
GND
GREG
/OTW
/SD_CD
/SD_AB
PWM_DP
PWM_DM
/RESET_CD
PWM_CM
PWM_CP
DREG_RTN
M3
M2
M1
DREG
PWM_BP
PWM_BM
/RESET_AB
PWM_AM
PWM_AP
GND
DGND
GND
DVDD
GREG
GND
GND
10
11
12
13
14
15
16
17
18
19
5
6
7
8
9
3
4
1
2
20
21
22
23
24
25
26
27
28
GND
GVDD
BST_D
PVDD_D
PVDD_D
OUT_D
OUT_D
GND
GND
OUT_C
OUT_C
PVDD_C
PVDD_C
BST_C
BST_B
PVDD_B
PVDD_B
OUT_B
OUT_B
GND
GND
OUT_A
OUT_A
PVDD_A
PVDD_A
BST_A
GVDD
GND
GND
GVDD
BST_D
PVDD_D
PVDD_D
OUT_D
OUT_D
GND
GND
OUT_C
OUT_C
PVDD_C
PVDD_C
BST_C
BST_B
PVDD_B
PVDD_B
OUT_B
OUT_B
GND
GND
OUT_A
OUT_A
PVDD_A
PVDD_A
BST_A
GVDD
GND
51
50
49
48
47
46
45
44
43
42
56
55
54
53
52
41
40
39
38
37
36
35
34
33
32
31
30
29
PGND PGND
C27
104
VCC28A
C32 333 R311
C28 104 R34 1.5
PGND
PGND
PGND
C29 104 R361.5
C33 333 R321
C129 333 R131 1
C120 104 R134 1.5
C121 104 R136 1.5
PGND
C130 333 R132 1
C26
104
VCC28A
PGND
PGND
PGND PGND
56
55
54
53
52
51
50
49
48
47
46
45
37
36
35
34
33
32
44
43
42
41
40
39
38
31
30
29
PGND PGND
C119
104
VCC28B
C183 333 R1851
C123 104 R186 1.5
PGND
PGND
PGND
C122104 R135 1.5
C131 333 R130 1
C34 333 R301
C30 104 R351.5
C31 104 R371.5
C35 333 R331
C179
104
VCC28B
PGND
PGND
PGND
PGND PGND
C36
680u/35V
C38
102
PGND
C40
103
+28.5V
R40
3.3
C133
680u/35V
C135
102
+28.5V
C137
103
R140
3.3
PGND
C134
680u/35V
C136
102
+28.5V
C138
103
R141
3.3
PGND
C37
680u/35V
C39
102
C41
103
+28.5V
R41
3.3
PGND
+28.5V
+28.5V
PGND
P G N D
PGND
X S 1 0 1
1
2
3
4
C O N 4
L4 10uH
L1 10uH
L9 10uH
L10 10uH
L11 10uH
L3 10uH
L2 10uH
+28.5V
R44
3K
R45
2K
R47
5.1K
R198
1K/3W
PGND
C43
0.47u
R52
1
C44
103
S L O U T 6
PGND
C64
103 C9
104
SL-
5
X C 1 0 0 C
W P 1 2
PGND
+28.5V
PGND
R38
3K
R39
5.1K
R90
2K
C90
0.47u
R93
1
S R O U T
8
PGND
C65
103
C10
S R -
104
7
X C 1 0 0 D
W P 1 2
C93
103
PGND PGND
C139
0.47u
R142
10K
R143
10K
C140
0.1u
R144
1
C143
103
C142
103
C141
0.1u
R145
1
PGND
C66
103
S W +
PGND
S W -
9
10
XC100E
W P 1 2
C71
103
+28.5V
R191
3K
R195
5.1K
R192
2K
C184
0.47u
R197
1
C188
103
PGND
C68
103
C E N +
4
XC100B
C11
C E N 3
104
W P 1 2
PGND
+28.5V
PGND
R42
3K
R46
5.1K
R43
2K
PGND
+28.5V
C42
0.47u
R51
1
C46
103
PGND
C69
103
PGND
F L O U T
2
XC100A
C12
FL-
104
1
W P 1 2
R48
3K
R50
5.1K
XC100F
R49
2K
C45
0.47u
R53
1
C47
103
PGND
C70
103
C13
F R -
104
11
W P 1 2
PGND PGND
+28.5V
R172
20K
R173
20K
PGND
C168
470u/35V
F R -
C169
470u/35V
R174
1
C170
103
PGND
+28.5V
R176
20K
R177
20K
PGND
C172
470u/35V
SL-
C173
470u/35V
R178
1
C174
103
PGND
+28.5V
R180
20K
R181
20K
PGND
C176
470u/35V
S R -
C177
470u/35V
R182
1
C178
103
PGND
+28.5V
R193
20K
R194
20K
PGND
C185
470u/35V
C E N -
C186
470u/35V
R196
1
C187
103
PGND
R190
10
+28.5V
R188
47/0.5W
R189
10
+28.5V
C207
104
C208
104
C209
104
C210
104
C151
104
C152
104
C146
104
C147
104
PGND PGND PGND PGND PGND PGND PGND PGND
GND PGND GND
R2010R
GND HGND
R199
0R
LGND
R2000R
XS111
11
12
13
14
15
16
17
18
19
20
21
7
8
9
5
6
3
4
10
22
23
24
25
26
27
28
1
2
CON28
C128
10u/16V
D+5V
L101
RH354708
6
VA
C130
104
7
AG
N101
CS8415A
Y1
Y2
Y3
Y4
Y5
Y6
VSYNC
HSYNC
VDATA3
SPDIF
SDOUT
OLRCK
OSCLK
RMCK
RST
INT
D+5V
SCL
SDA
OMCK
D3.3V
VGND
XC106B
AVG-2 I
C104
104
C132
104
R118
10K
C133
104
C135 104
D3.3V
R125
75R
R119
1.2K
C137
104
C136
472
D3.3V
L109
FB
VD
23
DG
22
C134
104
C127
10u/16V
XC106A
AVG-2 I
1
VCC
GND
3
C131
104 2
C138 104
L108 47uH
C141
D+5V
47u/16V
R128
75R
C139
20P
Y3 V-COMP
R107
75R
L110 1.8uH
C110
47P
VGND VGND
C111
47P
VD100
MMBD4148SE
VGND VGND D+5V
Y2 VIDEO_C
R106
75R
L107 1.8uH
C107
47P
VGND VGND
C109
47P
VD101
MMBD4148SE
VGND VGND D+5V
Y1 VIDEO_Y
R105
75R
L106 1.8uH
C106
47P
VGND VGND
C108
47P
VD102
MMBD4148SE
VGND VGND D+5V
Y4 VIDIO Y1
R108
75R
L111 1.8uH
C112
47P
VGND VGND
C114
47P
VD103
MMBD4148SE
VGND VGND D+5V
Y5 VIDIO U
R109
75R
L114 1.8uH
C113
47P
VGND VGND
C115
47P
VD104
MMBD4148SE
VGND VGND D+5V
Y6 VIDIO V
R110
75R
L116 1.8uH
C116
47P
VGND VGND
C117
47P
VD105
MMBD4148SE
VGND VGND D+5V
HSYNC
VDATA3
VSYNC
SPDIF
XS112
5
6
7
3
4
1
2
CON7
+9V
R1
AGND
L1
AUXR
AGND
AUXL
+9V
V-COMP
VIDEO_C
VIDEO_Y
VIDIO Y1
VIDIO U
VIDIO V
L102 RH354708
L100 RH354708
L122 RH354708
L121 RH354708
C102
102
C103
102
C119
102
C118
102
L120 RH354708
L119 RH354708
VGND
VGND
C101
20P
C122
20P
C123
20P
L118 RH354708
L103 RH354708
VGND
L104 RH354708
C124
20P
C125
20P
L105 RH354708
VGND
C126
20P
RO
LO
7
6
5
4
3
2
1
6
5
4
3
2
1
R
L
R
L
XC103B
MIX-OUT
XC103A
AUX-IN
XC105
DASW-02
VY
1
2
VU 3
L
R
Y(Green)
XC104A
AV4
Cb/Pb(Blue)
VV 6
5
VC 4
R
L
Cr/Pr(Red)
XC104B
AV4
V-COMP(Yellow)
D+5V +9V
R111
4.7K
R104
330R
A+9V
R112
2.2K
R114
33R
R115
1K
VGND
V100
8050
R113
2.2K
VGND
V101
8050
D+5V
R116
75R
C187 20P
C188 20P
C186 20P
V102
8050
C185 20P
C184 20P
C129
104
C183 20P
VU
VY
VV
VC
1
6
7
8
9
2
3
4
5
10
11
12
13
14
15
16
17
18
19
20
21
XC107
CS-111
VGND VGND
D+5V
R126 220R
R127 100K
C121
101
C120
104
R103 68R
C105
224
3
2
1
VCC
GND
XC102B
AVG-2 O
XC102A
AVG-2 O
DS101 HNV-08SS56
V101
2N5401
+5V
XP102
3
4
5
6
1
2
CON6
C105
47u/16V
DGND
FL+
FL-
Vee
STBY
Vee
+5V
VD109
1N4148
C101
104
C104
47u/16V
R101
4.7K
改为 10K
VD101
1N4148 DNS )
V102
2N5401
+5V +5V
R120
330R
VD105
R122
120R
R121
330R
R105 10K
LED-BK VD106
R123
120R
R124
150R
LED-BK VD107 Blue LED
+5V
R131
4.7K
改为 2.2K
+5V
R129 0R
VD108
Blue LED
R130 0R
R126 150R
R128 15K
Vee
VD102
1N4148
S101 EJECT
VD103
1N4148
S102 PLAY
VD104
1N4148
S103 FUNC R100 10K
Vee
G8
G7
G6
G5
C112
10u/50V
C102
104
23
24
25
26
27
28
29
30
31
32
33
Seg9
Seg10
Seg11
Seg12/Grid11
Vee
Seg13/Grid10
Seg14/Grid9
Seg15/Grid8
Seg16/Grid7
Grid6
Grid5
V103
8050
R133
0R DNS )
R134
0R DNS )
R135
0R
R106
10K DNS )
R136
10K
C113
104
R132
10K
+5V
S104 STOP S105 MEM S106 BAND R102 10K
+5V
S107 NEXT S108 REV S109 FWD
Key2
Key1
STB
CLK
Vss
Din
Dout
SCL
SDA
IR-IN
SW1
11
10
9
8
7
6
5
4
3
2
1
+5V
R107
10K DNS )
10K
R108
S110 POWER
+5V
N101
AD7312
R137
0R DNS
)
R110
R138
0R
R139
0R
100R
3
2
R114
33K
C103 104
R125
47R
C106 47u/16V
N102 REMOT
VS
GND
OUT
+5V
S111 PREV
C107
221
C108
221
R109 100R
R111 100R
R112 100R
C109
221
更改为
VD110
1N4148
R113 100R
1
R127
10K
RP101 RVP
1
2
3
C110
102
+5V
R103 10K
R104 10K
+5V
R115 4.7K
+5V
R116 4.7K
+5V
R118 4.7K
IR
CLK
STB
SDA
J3
J4
XS106
3
4
1
2
5
6
R117 4.7K
CON6
+5V
R119 4.7K
+5V
C111
102
YC504
102Y1
!
!
!
!
!
!
!
!
!
2
AC
RT501
AC
KBL04
3
U505
KAIM0880BTU TO-3P-5L
C501
103/1KV
C518
103/1KV
D512
HER207
2
XC502
104X2
4
H-GND
1
YC501
102Y1
YC502
102Y1
L502
JBL2004 20mH
3
2
1
P-GND
4
L501
JBL2004 20mH
3
XC501
104X2
RV501
07D471
R501
680K/1W
!
3
C502
FB
104/50V
H-GND
U501
VIPER22A
VDD
4
H-GND
D501
HER107
V501
2N5551
H-GND
H-GND
H-GND
ZD501
BZX79-C20V
TC503
2.2uF/160V
U502
HS817
!
2
3
4
!
T502
!
!
YC503
102Y1
T501
1
2
3
5 9
6
BCK-28-0287
D502
1N4148
!
7
8
14
13
12
11
10
14
13
H-GND
C519
104/50V
H-GND H-GND
TC517
47uF/50v
D511
HER105
R520
47R/0.25W
6
8
11
BCK-40-0244
10
D508
HER105
C516
101/50V
D503
SR560
C503 101/50V
C504 101/50V
D504
SR560
D505
SR560
C505 101/50V
D506
HER105
C506 101/50V
D507
HER105
C507 101/50V
R521
33R/1W
C520
101/50V
D513
BYW29E200
R522
33R/1W
D514
BYW29E200
C521
101/50V
TC512
220uF/35V
R529
TC514
220uF/50V
1.2K/0.5W
V502
2SC8550
L503
10uH/1A
TC504
1000uF/25V
C510
102/50V
C522
473/50V
TC520
470uF/50V
1
TC505
470uF/25V
C512
333/50V
TC507
L504
10uH/1A
1000uF/10V
TC508
1000uF/10V
C513
472/50V
L505
10uH/2A
TC509
1000uF/10V
R512
10R/0.5W
TC510
1000uF/10V
C514
472/50V
TC511
220uF/10V
Vin
R513
33/1W
R514
33/1W
D515
1N4148
C523
102/50V
R526
C524
47K/0.25W
104/50V
R525
2.2K/0.25W
U507
TL431
TC521
100uF/25V
R515
1K/0.25W
V503
2SC9014
U504
LM7805
Vout
3
TC506
470uF/10V
D509
SR160
D510
1N4148
TC515
470uF/25V
C517
104/50V
R516
1K/0.25W
C515
472/50V
R511
330R/0.5W
!
P +28V
U506
PC817
P GND
CPU5V
D GND
STBY
A+10V
A+5V
A GND
D+5V
CPU5V
D GND
D+3V3
D GND
FL+
FL-
-21V
A-10V
C525
473/50V
H-GND
P +28V
P +28V
P GND
P GND
P+28V
P+28V
P-gnd
P-gnd
A+5V
A+10V
A GND
A-10V
H GND
H-R
H-L
HDET
A+5V
A+10V
A-gnd
A-10V
H-gnd
H-R
H-L
HDET
XS503
3
4
1
2
XS504
7
8
5
6
3
4
1
2
D+5V
D GND
D+3V3
A GND
A+5V
D+5V
D-gnd
D+3V3
A-gnd
A+5V
XP203
3
4
1
2
5
D GND
FL+
FL-
-21V
CPU5V
STBY
D-gnd
FL+
FL-
-21V
CPU5V
STBY
XS505
3
4
1
2
5
6
H-R
H GND
H-L
HDET
H-R
H gnd
H-L
HDET
XS501
3
4
1
2
!
U503
HA17431
XS502
~220V
DGND
Chapter six BOM List
MATERIAL
CODE
MATERIAL NAME
DK1910SI(RU)SILVER WHITE
SPECIFICATIONS
MICROPHONE HOLDER BOARD 5446645
1980030 MICROPHONE SOCKET
0000140 CARBON FILM RESISTOR
CK3-6.35-19
1/6W22K±5% SHAPED 7.5
MIC1,MIC2
R100,R101
0200174
2110329
2120534
PORCELAIN CAPACITOR
LEAD
FLAT CABLE
50V 103±10% 2.5mm
22# 70mm BLACK,WITH WELD PIECE
C101
XP114 3P80 2.5 2 SOCKET WITH NEEDLE
91070-0 1563711 PCB
DK1910SI(RU)SILVER WHITE
AMPLIFIER BOARD: 5448507
0000466 CARBON FILM RESISTOR
0000274 CARBON FILM RESISTOR
1/2W220O±5% SHAPED 12.5
1/4W47O±5% SHAPED 10
0000679 CARBON FILM RESISTOR 1/6W270O±5% SHAPED 7.5
0010233 METAL OXIDE FILM RESISTOR 1/2W47O±5% SHAPED 12.5
0210145
0210165
METAL POLYESTER FILM
CAPACITOR
METAL POLYESTER FILM
CAPACITOR
CL21X 100V 104K C5
CL23X 63V 474±5% 5
0010282 METAL OXIDE FILM RESISTOR 3W1K±5% SHAPED R 20×8
0260127 CD CD11 16V4.7U±20%5×11 2
R91
R241
R242
R188
C140,C141
LOCATION
C42,C43,C45,C90,C139,C184
0260019
0260025
0260028
0260618
0260029
0260048
CD
CD
CD
CD
CD
CD
CD11 16V10U±20%5×11 2
CD11 16V47U±20%5×11 2
CD11 16V220U±20%6×12 2.5
CD11 10V330U±20%6.3×11 2.5
CD11 16V470U±20%8×123.5
CD11 35V470U±20%10×20 5
R198
C84,C87,C91,C92,C113,C224
C1,C2,C8,C54,C58,C62,C86,C104,C108,C
110,C112,C165,C153,C205,C206
C19,C57,C63,C79,C128,C148,C149,C254
C189,C190
C166,C167
C94,C85
C168,C169,C172,C173,C176,C177,C180,
C181,C185,C186
C36,C37,C133,C134
L5,L8,L15
0260491 CD CD11K 35V680U±20% 13×20 5
0390057 MAGNETIC BEADS INDUCTOR RH354708
0410176
VERTICAL SCREEN SHIELD
FILTERING INDUCTOR
0570004 DIODE
10uH±10% 4A 5mm
1N4004
05800069 VOLTAGE REGULATOR DIODE 5.1V±5% 1/2W BELT
05800339 VOLTAGE REGULATOR DIODE 5.6V±5% 1/2W BELT
L1~L4,L9~L11
VD9,VD10,R245
VD8,VD3
VD12
- 104 -
MATERIAL
CODE
0780032 TRIODE
MATERIAL NAME
0780025 TRIODE
9014C
2N5401
SPECIFICATIONS
0780138 TRIODE
0960226
0960182
0960171
CMETAL OXIDE FILM
RESISTORSTAL OSCILLATOR
CMETAL OXIDE FILM
RESISTORSTAL OSCILLATOR
CMETAL OXIDE FILM
RESISTORSTAL OSCILLATOR
0881743 IC
8050D
4.332MHz 49-s
12.288MHz 49-S
13.50MHZ 49-S
F4558 DIP
0880445 IC 4558C DIP
V4
V7
V2,V8,V9
Y2
Y3
Y1
LOCATION
0882161 IC
0880124 IC
0881393 IC
0881429 IC
AZ4558 DIP
NJM4558D DIP
IL4558N DIP
CD4052BE DIP
0880443 IC CD4052BCN DIP
1940003
2150191
SOCKET
FLAT CABLE
1940009 SOCKET
4P 2.5mm
7P200 2.5 T2 2×2P SHIELD,WITH
NEEDLE,TOGETHER DIRECTION
8P 2.5mm
1940140
1940033
CABLE SOCKET
CABLE SOCKET
14P 1.0mm DUAL RANK STRAIGHT
INSERT
11P 1.25mm DUAL RANK STRAIGHT
INSERT
1990025 EXTERNAL SOURCES SOCKET 6PZ-7
N1 ①
N1 ①
N1 ①
N1 ①
N1 ①
N5 ②
N5 ②
XS101
XP112
XS104
XS108
XS113
0390168 INDUCTOR
1940002 SOCKET
3580186 RADIATOR
5230707 SOFT SPONGE SPACER
4490001 SPRING PAD
100UH±10% 0410 SHAPED 12.5mm
3P 2.5mm
78×49×30 DVR938 NOT OXIDATION
10×10×2 SINGLE-FACED,HARD
F 3
XC100
L13,L14
XS114
4450012
5230147
4210005
5233174
BOLT PAD
INSULATED PAD
MACHINE-TAPPING SCREW
RUBBER SPACER
F 3×7.2×0.5
F 8×3×0.8 WITHOUT GLUE IN REAR
SIDE
PM 3×8 BLACK
9×9×1 SINGLE-FACED WITH GLUE IN
REAR SIDE,CENTER HOLE f 3
DK1910SI(RU)SILVER WHITE
AMPLIFIER BOARD-SMD: 4DVR979-5 VER2.1
0090001 SMD RESISTOR 1/16W 0O±5% 0603 R199~R213,R223,R254
- 105 -
MATERIAL
CODE
MATERIAL NAME
0090272 SMD RESISTOR
0090540 SMD RESISTOR
0090002 SMD RESISTOR
0090616 SMD RESISTOR
0090314 SMD RESISTOR
0090003 SMD RESISTOR
0090004 SMD RESISTOR
0090230 SMD RESISTOR
0090220 SMD RESISTOR
0090017 SMD RESISTOR
0090239 SMD RESISTOR
0090008 SMD RESISTOR
0090014 SMD RESISTOR
0090249 SMD RESISTOR
0090223 SMD RESISTOR
0090183 SMD RESISTOR
0090019 SMD RESISTOR
0090016 SMD RESISTOR
0090020 SMD RESISTOR
0090022 SMD RESISTOR
0090023 SMD RESISTOR
0090187 SMD RESISTOR
0090188 SMD RESISTOR
0090025 SMD RESISTOR
0090026 SMD RESISTOR
0090027 SMD RESISTOR
0090192 SMD RESISTOR
0090029 SMD RESISTOR
0090201 SMD RESISTOR
0090034 SMD RESISTOR
0090147 SMD RESISTOR
SPECIFICATIONS
1/16W 1O±5% 0603
1/16W1.5O±5% 0603
1/16W 2.2O ±5% 0603
1/16W 3.3O±5% 0603
1/16W 5.1O±5% 0603
1/16W 10O±5% 0603
1/16W 22O±5% 0603
1/16W 47O±5% 0603
1/16W 51O±5% 0603
1/16W 2.2K±5% 0603
1/16W 200O±5% 0603
1/16W 220O±5% 0603
1/16W 1K±5% 0603
1/16W 510O±5% 0603
1/16W 2K±5%
1/16W 3K±5% 0603
1/16W 4.7K±5% 0603
1/16W 1.5K±5% 0603
1/16W 5.1K±5% 0603
1/16W 8.2K±5%
1/16W 10K±5% 0603
1/16W 12K±5% 0603
1/16W 18K±5% 0603
1/16W 20K±5% 0603
1/16W 22K±5% 0603
1/16W 27K±5% 0603
1/16W 51K±5% 0603
1/16W 47K±5% 0603
1/16W 220K±5% 0603
1/16W 100K±5% 0603
1/10W 1O±5% 0805
- 106 -
LOCATION
R51~R53,R65,R93,R113,R144,R145,R174
,R178,R182,R187,R196,R197
R34~R37,R134~R136,R186
R68
R40,R41,R67,R140,R141
R88
R24,R25,R89,R116,R137,R175
R115
R10,R13,R29,R56,R59,R62,R63,R69,R11,
R94~R101,R225,R5
R27,R122
R80,R82
R64,R66
R123~R126
R3,R20,R21,R133,R243,R58
R6,R7,R217,R218
R43,R45,R49,R90,R192
R38,R42,R44,R48,R191,R1,R2
R76~R79,R81,R83,R102,R103,R105,R110
,R111,R138,R139,R156,R230,R244
R9
R39,R46,R47,R50,R195
R166,R16
R54,R55,R57,R84~R87,R92,R117,R119~
R121,R142,R143,R163,R164,R167,R168,
R170,R171,R154,R72
R14,R18
R108,R109,R161,R162
R172,R176,R180,R183,R193,R173,R177,
R181,R184,R194
R17,R165
R106,R107,R157,R158
R4
R114,R169,R160,R118
R15,R19
R8,R104
R30,R31,R32,R33,R130,R131,R132,R185
MATERIAL
CODE
MATERIAL NAME
0090039 SMD RESISTOR
0310046 SMD CAPACITOR
0310042 SMD CAPACITOR
0310045 SMD CAPACITOR
0310047 SMD CAPACITOR
0310051 SMD CAPACITOR
0310196 SMD CAPACITOR
0310471 SMD CAPACITOR
0310054 SMD CAPACITOR
0310066 SMD CAPACITOR
0310067 SMD CAPACITOR
0310072 SMD CAPACITOR
SPECIFICATIONS
1/10W 10O±5% 0805
50V 82P±5% NPO 0603
50V 15P±5% NPO 0603
50V 47P±5% NPO 0603
50V 101±5% NPO 0603
50V 331±5% NPO 0603
50V 471±10% 0603
50V 561±5% NPO 0603
50V 681±5% NPO 0603
50V 102±10% X7R 0603
50V 152±10% X7R 0603
50V 103±10% X7R 0603
0310207
0310543
SMD CAPACITOR
SMD CAPACITOR
0310112 SMD CAPACITOR
0310234 SMD CAPACITOR
0310673 SMD CAPACITOR
0310368 SMD CAPACITOR
0390355 SMD INDUCTOR
0390095 SMD MAGNETIC BEADS
0700007 SMD DIODE
0882353 IC
0882946 IC
0882349 IC
0882350 IC
0882352 IC
50V 104 ±20% X7R 0603
50V 104±10% X7R 0603
16V 224±10% 0603
16V 105 +80%-20% Y5V 0603
50V 333±5% X7R 0603
25V 105 +80%-20% Y5V 0805
4.7UH±10% 1608
FCM1608K-221T05
1N4148
CS5340 TSSOP
PT2579-SN SOP
TAS5112 TSSOP
TAS5508 TQFP
TLV272 SOP
- 107 -
LOCATION
R189,R190
C14,C132
C95,C96,C118,C124
C144,C145,C211
C6,C76,C77,C100~C102,C156,C191~C19
6,C17,C18,C212,C213
C81
C157,C158
C225
C97,C98,C154,C155
C20,C21,C38,C39,C89,C135,C136
C159,C198
C40,C41,C44,C46,C47,C50,C53,C64~C66
,C68~C71,C93,C137,C138,C142,C143,C1
70,C174,C178,C182,C187,C188
C9~C13,C22,C24,C26~C31,C48,C49,C51,
C52,C55,C56,C59~C61,C67,C72~C75,C7
8,C80,C82,C83,C88,C99,C103,C105~C10
7,C109,C114,C116,C119~C123,C223,C12
7,C179,C199,C200~C202,C204,C150,C17
1 ③
C9~C13,C22,C24,C26~C31,C48,C49,C51,
C52,C55,C56,C59~C61,C67,C72~C75,C7
8,C80,C82,C83,C88,C99,C103,C105~C10
7,C109,C114,C116,C119~C123,C223,C12
7,C179,C199,C200~C202,C204,C150,C17
1 ③
C111
C160,C197
C32~C35,C129,C130,C131,C183
C23,C25,C115,C175
R219,R220
L6,L12,L16,L17
VD1,VD5,VD6,VD7
N7
N15
N13,N14
N12
N8,N9
MATERIAL
CODE
0882920 IC
0882373 IC
0882398 IC
1633181 PCB
MATERIAL NAME SPECIFICATIONS
SN74LVC125APWR TSSOP
SN74LVC2G04DBVR SOT-23
LM4880M SOP
4DVR979-5
DK1910SI(RU)SILVER WHITE
DECODE BOARD:2DK1910S-1 Ver2.5
0000375 CARBON FILM RESISTOR 1/4W2.2O±5%
02604379 CD
02600019 CD
02601819 CD
0260028 CD
CD11 16V10U±20%5×11C5 BELT
CD11 16V22U±20%5×11 C5 BELT
CD11 16V220U±20%6×12 C5 BELT
CD11 16V220U±20%6×12 2.5
02600029 CD CD11 16V47U±20%5×11 C5 BELT
0260200 CD CD11C 16V47U±20%5×7 2
0390057 MAGNETIC BEADS INDUCTOR RH354708
07801389 TRIODE
07800299 TRIODE
07801519 TRIODE
07800309 TRIODE
8050D BELT
C8050 BELT
8550D BELT
8550C BELT
07800339 TRIODE
0960020
CMETAL OXIDE FILM
RESISTORSTAL OSCILLATOR
9015C(200-600) TO-92 BELT
27.00MHz 49-S
1940140
1940261
2121685
2121686
2121687
2122001
CABLE SOCKET
CABLE SOCKET
FLAT CABLE
SOFT FLAT CABLE
SOFT FLAT CABLE
FLAT CABLE
14P 1.0mm DUAL RANK STRAIGHT
INSERT
14P 1.0mm DUAL RANK TOUCH
POINT,DUAL RANK FLEX INSERT
5P230 2.5/2.0 2 PIN,WITH L
NEEDLE,TOGETHER DIRECTION
6P240 2.0 2 PIN,WITH L
NEEDLE,REVERSE
5P300 2.0 2 PIN,WITH L
NEEDLE,TOGETHER DIRECTION
12P280 2.0 2 PIN,WITH L
NEEDLE,TOGETHER DIRECTION
DK1910SI(RU)SILVER WHITE
DECODE BOARD-SMD: 2DK1910S-1 Ver2.5
N3,N4
N2
N11
LOCATION
XP203
XS303
XS302
XP900
R326
TC202
TC217
TC207~TC209,TC213
TC211,TC301
TC205,TC203,TC204,TC247,TC248,TC23
7,TC304,TC308,TC309
TC302,TC303,TC206,TC201,TC210
L209,L222,L223,L302,L250
V307,V308 ④
V307,V308 ④
V306,V309 ⑤
V306,V309 ⑤
Q204
X201
XP206
XP207
0090001
0090006
SMD RESISTOR
SMD RESISTOR
1/16W 0O±5% 0603
1/16W 75O±5% 0603
R201~R204,R244,R248,R251,R255,R297,
R298,R299,R331,R228,R303,R318,R2165,
R2166,R257,R258,R2159
R233
- 108 -
MATERIAL
CODE
MATERIAL NAME
0090272 SMD RESISTOR
0090003 SMD RESISTOR
0090005 SMD RESISTOR
SPECIFICATIONS
1/16W 1O±5% 0603
1/16W 10O±5% 0603
1/16W 33O±5% 0603
0090181 SMD RESISTOR
0090011 SMD RESISTOR
0090014 SMD RESISTOR
0090029 SMD RESISTOR
0090016 SMD RESISTOR
0090249 SMD RESISTOR
0090018 SMD RESISTOR
0090019 SMD RESISTOR
0090023 SMD RESISTOR
0090030 SMD RESISTOR
0090024 SMD RESISTOR
0090025 SMD RESISTOR
0090188 SMD RESISTOR
0090197 SMD RESISTOR
0090231 PRECISION SMD RESISTOR
0090319 PRECISION SMD RESISTOR
0090034 SMD RESISTOR
0090111 SMD RESISTOR
0310085 SMD CAPACITOR
0310190 SMD CAPACITOR
0310045 SMD CAPACITOR
0310051 SMD CAPACITOR
0310048 SMD CAPACITOR
1/16W 100O±5% 0603
1/16W 470O±5% 0603
1/16W 1K±5% 0603
1/16W 47K±5% 0603
1/16W 1.5K±5% 0603
1/16W 510O±5% 0603
1/16W 3.3K±5% 0603
1/16W 4.7K±5% 0603
1/16W 10K±5% 0603
1/16W 56K±5% 0603
1/16W 15K±5% 0603
1/16W 20K±5% 0603
1/16W 18K±5% 0603
1/16W 150K±5% 0603
1/16W 680K±1% 0603
1/16W 750K±1% 0603
1/16W 100K±5% 0603
1/10W 4.7O±5% 0805
50V 20P±5% NPO 0603
50V 27P±5% NPO 0603
50V 47P±5% NPO 0603
50V 331±5% NPO 0603
50V 151±5% NPO 0603
0310222 SMD CAPACITOR 25V 104±20% X7R 0603
LOCATION
R304~R307,R321,R340
R301,R302
R232,R256,R261,R263,R264,R268,R292~
R296,R231,R265~R267,R2162,R341~R34
4
R291
R325,R327
R213,R236
R254
R323,R324,R243
R214
R242
R238~R240,R234,R235,R249,R230,R2140
R208,R309,R311,R313,R314,R339,R328,
R329,R259,R260,R349,R347
R252
R209,R223
R211,R312,R315,R316
R210
R319,R320
R317,R322
R227
R224,R308,R310,R246
L206
C222
C275,C276
C263~C266
C212,C213
C304,C306
C207,C211,C214,C216,C217,C224,C227~
C231,C234~C239,C241~C251,C254,C256
~C259,C267,C270~C274,C279,C281,C30
1~C303,C305,C309,C311,C312,C2160,C2
162,C2163,C2167,C2168,C2170,C2171,C
2173~C2175,C343~C345,C347,C348
⑥
- 109 -
MATERIAL
CODE
MATERIAL NAME
0310207 SMD CAPACITOR
0310543 SMD CAPACITOR
SPECIFICATIONS
50V 104 ±20% X7R 0603
50V 104±10% X7R 0603
0310234 SMD CAPACITOR
0310066 SMD CAPACITOR
0310566 SMD CAPACITOR
0310068 SMD CAPACITOR
0310201 SMD CAPACITOR
0310047 SMD CAPACITOR
0310055 SMD CAPACITOR
0310056 SMD CAPACITOR
0310362 SMD CAPACITOR
0310245 SMD CAPACITOR
0390163 SMD INDUCTOR
0390087 SMD MAGNETIC BEADS
0390095 SMD MAGNETIC BEADS
0390170 SMD INDUCTOR
0700007 SMD DIODE
0700001 SMD DIODE
0700002 SMD DIODE
0780062 SMD TRIODE
0780040 SMD TRIODE
0780193 SMD TRIODE
0780115 SMD TRIODE
0880165 IC
0880322 IC
16V 105 +80%-20% Y5V 0603
50V 102±10% X7R 0603
10V 225 +80%-20% Y5V 0603
50V 222±10% X7R 0603
50V 153±10% X7R 0603
50V 101±5% NPO 0603
16V 333±10% X7R 0603
16V 473±10% X7R 0603
16V474 +80%-20% Y5V 0603
50V 121±10% X7R 0603
3.3uH±10% 1608
FCM2012V-221T07
FCM1608K-221T05
10UH±10% 1608
1N4148
LS4148
LL4148
9014C
3904(100-300) SOT-23
2SK3018
2SB1132
74HCU04D SOP
MM74HCU04M SOP
- 110 -
LOCATION
C207,C211,C214,C216,C217,C224,C227~
C231,C234~C239,C241~C251,C254,C256
~C259,C267,C270~C274,C279,C281,C30
1~C303,C305,C309,C311,C312,C2160,C2
162,C2163,C2167,C2168,C2170,C2171,C
2173~C2175,C343~C345,C347,C348
⑥
C207,C211,C214,C216,C217,C224,C227~
C231,C234~C239,C241~C251,C254,C256
~C259,C267,C270~C274,C279,C281,C30
1~C303,C305,C309,C311,C312,C2160,C2
162,C2163,C2167,C2168,C2170,C2171,C
2173~C2175,C343~C345,C347,C348
⑥
C201~C204,C221,C240
C223
C278,C349
C307,C310
C210
C233,C282
C225
C219,C220
C218
C206
L249
L201,L203,L205,L207,L208,L226,L227,L23
4,L235,L238
L309,L228,L236,L230~L233,L301,L305,L3
07,L310,L312,L314,L316,L317,L320,L304,
L308,L318,L322,L324,L311,L321,L251,L30
3,L306,L216
L319,L323
VD201 ⑦
VD201 ⑦
VD201 ⑦
V310
V305
V303,V304
V301,V302
U205 ⑧
U205 ⑧
MATERIAL
CODE
0880513 IC
0881157
0881661 IC
0881969 IC
0881182
0881079
IC
IC
IC
MATERIAL NAME SPECIFICATIONS
HCU04 SOP
HY57V641620HGT-H TSOP
IC42S16400-7T TSOP
IP1117-ADJ SOT-223
LM1117MP-ADJ SOT-223
AT24C04 SOP
0882644
1940228
IC
0881459 IC
0881378 IC
0881914 IC
CABLE SOCKET
MT1389FE/H(HD) QFP
D5954 SOP
BA5954FP HSOP
RT9701CB SOT25
24P 0.5mm SMD,NEXT MEET WITH
CLASP
2DK1910S-1 1633380 PCB
DK1910SI(RU)SILVER WHITE
EARPHONE BOARD: 5448508
0090237 SMD RESISTOR
0090028 SMD RESISTOR
0310543 SMD CAPACITOR
0310222 SMD CAPACITOR
0310207 SMD CAPACITOR
0390095 SMD MAGNETIC BEADS
2120535 FLAT CABLE
2120463 FLAT CABLE
1940175 SOCKET
1860135 USB SOCKET
1980061 EARPHONE SOCKET
1/16W 39O±5% 0603
1/16W 33K±5% 0603
50V 104±10% X7R 0603
25V 104±20% X7R 0603
50V 104 ±20% X7R 0603
FCM1608K-221T05
4P60 2.5 2 SOCKET WITH NEEDLE
6P80 2.5 2 SOCKET WITH NEEDLE
12P 2.0mm STRAIGHT INSERT
3DHM04S-30N-C
CKX-3.5-01K
1633546 PCB
0090001 SMD RESISTOR
C1910-3
1/16W 0O±5% 0603
DK1910SI(RU)SILVER WHITE
INPUT OUTPUT BOARD 5446095
0390057 MAGNETIC BEADS INDUCTOR RH354708
0390147 INDUCTOR
0260019 CD
47UH±5% 0410 SHAPED 10mm
CD11 16V10U±20%5×11 2
U205 ⑧
U211 ⑨
U211 ⑨
U209 ⑩
U209 ⑩
U202
U201
U302 ⑾
U302 ⑾
U203
XS301
R17,R18
R19,R20
C10 ⑿
C10 ⑿
C10 ⑿
L1,L2,L5
XP103
XP106
XS1
JK1
CK1
R21
LOCATION
L100~L105,L118~L122
L108
C127,C128
- 111 -
MATERIAL
CODE
0260025 CD
1910158
1910159
1910195
MATERIAL NAME
TERMINAL SOCKET
1910194 TERMINAL SOCKET
1860059 SCART SOCKET
TERMINAL SOCKET
TERMINAL SOCKET
SPECIFICATIONS
CD11 16V47U±20%5×11 2
AV4-8.4-13
AV4-8.4-13/PB-08B
CS-111
CS TERMINAL DASW-02
AVG-2-07 BLACK
1090071 OPTIC-ELECTRO CONVERTOR RX179AT
1090077
ELECTRO-OPTIC
TRANSFORMER
1940007 SOCKET
TX179AT-2
7P 2.5mm
1940140 CABLE SOCKET
14P 1.0mm DUAL RANK STRAIGHT
INSERT
5446090 PCB SEMI-FINISHED PRODUCT 7979-0-SMD DK1050S(RU)
DK1910SI(RU)SILVER WHITE
INPUT OUTPUT BOARD-SMD 5446090
0090005 SMD RESISTOR
0090230 SMD RESISTOR
0090238 SMD RESISTOR
0090006 SMD RESISTOR
0090008 SMD RESISTOR
0090009 SMD RESISTOR
0090014 SMD RESISTOR
0090015 SMD RESISTOR
0090017 SMD RESISTOR
1/16W 33O±5% 0603
1/16W 47O±5% 0603
1/16W 68O±5% 0603
1/16W 75O±5% 0603
1/16W 220O±5% 0603
1/16W 330O±5% 0603
1/16W 1K±5% 0603
1/16W 1.2K±5% 0603
1/16W 2.2K±5% 0603
0090019 SMD RESISTOR
0090023 SMD RESISTOR
0090034 SMD RESISTOR
0310085 SMD CAPACITOR
0310045 SMD CAPACITOR
0310066 SMD CAPACITOR
0310198 SMD CAPACITOR
0310543 SMD CAPACITOR
0310723 SMD CAPACITOR
0390095 SMD MAGNETIC BEADS
1/16W 4.7K±5% 0603
1/16W 10K±5% 0603
1/16W 100K±5% 0603
50V 20P±5% NPO 0603
50V 47P±5% NPO 0603
50V 102±10% X7R 0603
50V 472±10% X7R 0603
50V 104±10% X7R 0603
16V 224±10% X7R 0603
FCM1608K-221T05
C141
XC103
XC104
XC107
XC105
XC102,XC106
XC106
XC102
XS112
XS111
LOCATION
R114
R101,R102,R117,R120~R124
R103
R105~R110,R116,R125,R128
R126
R104
R115
R119
R112,R113
R111
R118
R127
C101,C122~C126,C139,C183~C188
C106~C117
C102,C103,C118,C119
C136
C104,C120,C129~C135,C137,C138
C105
L109
- 112 -
MATERIAL
CODE
MATERIAL NAME
0390096 SMD INDUCTOR
0700056 SMD DOUBLE DIODE
0780085 SMD TRIODE
0882413 IC
1632105 PCB
8050D
CS8415A TSSOP
7979-1
SPECIFICATIONS
1.8UH±10% 1608
MMBD4148SE SOT-23
DK1910SI(RU)SILVER WHITE
POWER BOARD: 5448506
2100003 LEAD
2100004 LEAD
2100006 LEAD
2100007 LEAD
2100016 LEAD
2100017 LEAD
0000274 CARBON FILM RESISTOR
0000431 CARBON FILM RESISTOR
0000432 CARBON FILM RESISTOR
0000362 CARBON FILM RESISTOR
0000277 CARBON FILM RESISTOR
0000278 CARBON FILM RESISTOR
0000283 CARBON FILM RESISTOR
0000361 CARBON FILM RESISTOR
0000284 CARBON FILM RESISTOR
0000460 CARBON FILM RESISTOR
0000289 CARBON FILM RESISTOR
0000294 CARBON FILM RESISTOR
0000299 CARBON FILM RESISTOR
0000423 CARBON FILM RESISTOR
0000301 CARBON FILM RESISTOR
0010270 METAL FILM RESISTOR
0010140 METAL FILM RESISTOR
0010062 METAL FILM RESISTOR
0010273 METAL FILM RESISTOR
F 0.6 SHAPED 7.5mm
F 0.6 SHAPED 10mm
F 0.6 SHAPED 12.5mm
F 0.6 SHAPEN 15mm
F 0.6 SHAPEN 18mm
F 0.6 SHAPED 20mm
1/4W47O±5% SHAPED 10
1/4W75O±5% SHAPED 10
1/4W150O±5% SHAPED 10
1/4W220O±5% SHAPED 10
1/4W300O±5% SHAPED 10
1/4W330O±5% SHAPED 10
1/4W1K±5% SHAPED 10
1/4W1.2K±5% SHAPED 10
1/4W1.5K±5% SHAPED 10
1/4W3K±5% SHAPED 10
1/4W4.7K±5% SHAPED 10
1/4W10K±5% SHAPED 10
1/4W22K±5% SHAPED 10
1/4W30K±5% SHAPED 10
1/4W47K±5% SHAPED 10
1/4W1.8K±1% SHAPED 10
1/4W3K±1% SHAPED 10
1/4W2.2K±1% SHAPED 10
1/4W24K±1% SHAPED 10
L106,L107,L110,L111,L114,L116
VD100~VD105
V100~V102
N101
LOCATION
R511
R503
R517
R521
R505
W1,W2,W9,W10,W16,W17,W22
W4,W7,W11,W12,W14,W18,W21
W5,W6
W3,W15,W19,W20
W8,W13
W23
R523
R518
R514
R506,R533
R540
R522
R515,R524,R532,R537,R536
R513
R504
R531
R519
R520
R529
R530
- 113 -
MATERIAL
CODE
MATERIAL NAME SPECIFICATIONS
0010138 METAL OXIDE FILM RESISTOR 1W330O±5% SHAPED FLAT 15×9
0010294 METAL OXIDE FILM RESISTOR 1W750K±5% FLAT 12.5×7
0010259 METAL OXIDE FILM RESISTOR 1W0.47O±5% FLAT 12.5×7
0010165 METAL OXIDE FILM RESISTOR 1W1O±5%SHAPED FLAT 15×7
0010191 METAL OXIDE FILM RESISTOR 1W33O±5%SHAPED FLAT 15×8
0010279 METAL OXIDE FILM RESISTOR 1W680K±5% SHAPED 15
0010295 METAL OXIDE FILM RESISTOR 2W10O±5% SHAPED VERTICAL 7.5
0010219 METAL OXIDE FILM RESISTOR 2W10O±5% SHAPED FLAT 15×7
0010147 METAL OXIDE FILM RESISTOR 2W47K±5% SHAPED FLAT 15×7
0010157 METAL OXIDE FILM RESISTOR 2W68K±5%SHAPED FLAT 15×7
0010263 METAL OXIDE FILM RESISTOR 2W75K±5% SHAPED FLAT 15×7
0010282 METAL OXIDE FILM RESISTOR 3W1K±5% SHAPED R 20×8
0200105 PORCELAIN CAPACITOR
0200123 PORCELAIN CAPACITOR
0200138 PORCELAIN CAPACITOR
0200223 PORCELAIN CAPACITOR
0200224 PORCELAIN CAPACITOR
50V 100P±10% 5mm
50V 102±10% 5mm
50V 104±20% 5mm
1000V 101 +80%-20% 7.5mm
1000V 103 +80%-20% 7.5mm
0210148 TERYLENE CAPACITOR
0210116 ANTI-JAMMING CAPACITOR
0200343 CERAMIC CAPACITOR
0260749 CD
0260655 CD
0260656 CD
0260657 CD
0260661 CD
0260662 CD
0260659 CD
0260660 CD
0260672 CD
0260673 CD
0260751 CD
0390340 VERTICAL INDUCTOR
100V 473±10% SHAPED 5mm
MKP61 X2 275VAC 104±20%15
Y1 400VAC 102±10% 10mm
EZ 400V220U±20% 30×30 10
CD288H 16V220U±20% 8×12 3.5
CD288H 16V470U±20% 10×12 5
CD288H 16V1000U±20% 10×20 5
CD288H 16V2200U±20%13×20 5
CD288H 25V470U±20%10×16 5
CD288H 35V220U±20%10×12 5
CD288H 50V1U±20%5×11 2
CD288H 50V47U±20%6.3×11 2.5
CD288H 50V470U±20%13×20 5
CD11K 50V1000U±20%16×25 7.5
10uH±10% 5A 12.5×26.5 10mm
LOCATION
R525
R512
R534,R535
R507,R516
R526,R527
R501
R539
R538
R508,R510
R509
R502
R528
C507,C510,C513,C515,C517,C518,C523,
C524
C527,C503
C504,C508,C519,C520,C521,C526
C502
C501,C505
C509,C511,C512,C514,C516,C522,C525,
C528,C506
XC501,XC502
YC501,YC502,YC503
TC501
TC513
TC508,TC520
TC507,TC510,TC512
TC506,TC509,TC511
TC515
TC514
TC503
TC502,TC504,TC505
TC518
TC516,TC517
L508
- 114 -
MATERIAL
CODE
MATERIAL NAME
0390154 MAGNETIC BEADS INDUCTOR RH-357508
SPECIFICATIONS
0410010 CHOKE COIL VERTICAL 10UH 1A 5mm
VERTICAL 10UH 2A 5mm 0410011 CHOKE COIL
1000038 FILTER OF POWER NET
0460481
0460482
0460454
0460441
SWITCH POWER
TRANSFORMER
SWITCH POWER
TRANSFORMER
SWITCH POWER
TRANSFORMER
SWITCH POWER
TRANSFORMER
0680026 SCHOTTKY DIODE
SE1989 20mH +∞-0%
BCK-28-0598
SE2017
BCK-40-0244
BCK-40-0726
SR160
0680065 SCHOTTKY DIODE
0680078 SCHOTTKY DIODE
0570006 DIODE
0570013 DIODE
SR560 DO-27 SHAPED 20mm
SR3A0 DO-27 SHAPED 17.5
1N4148
HER105
0570014 DIODE
0570042 DIODE
HER107
HER207 SHAPED 12.5mm
0570045 DIODE BYW29E-200 TO-220
0570047 DIODE ER802 GOLD SEALED TO-220
05800069 VOLTAGE REGULATOR DIODE 5.1V 1/2W BELT
0580072 VOLTAGE REGULATOR DIODE 9.1V±5% 1W SHAPED 10mm
1N5408 0570032 DIODE
0790061
SMD FIELD EFFECT
TRANSISTOR
0780026 TRIODE
IRFBC20 PLASTIC SEALED TO-220
2N5551
0690001 CONTROLLABLE SILICON
0880379 IC
MCR100-6
LM7805 GOLD SEALED TO-220
0880247 IC
0880499 IC
0880553 IC
0882089 IC
0882462 IC
0882041 IC
0881480 IC
0881500 IC
MC7805CT GOLD SEALED TO-220
L7805CV GOLD SEALED TO-220
LM431ACZ TO-92
TL431 TO-92
AZ431AZ-A TO-92
MIK431C TO-92
NCP1200P60 DIP
KA1M0880BTU TO-3P-5L
LOCATION
L503
L504,L505,L506
L507
L501,L502
T501 ⒀
T501 ⒀
T502 ⒁
T502 ⒁
D515
D510,D511
D509
D508,D514
D503,D504,D506,D507,D512,D513
D501,D502
D505
D516,D517 ⒂
D516,D517 ⒂
ZD501
ZD502
D520,D521,D522,D523
V501
V502,V503,V504
Q501
U508 ⒃
U508 ⒃
U508 ⒃
U503,U506 ⒄
U503,U506 ⒄
U503,U506 ⒄
U503,U506 ⒄
U501
U504
- 115 -
MATERIAL
CODE
MATERIAL NAME SPECIFICATIONS
1030007 PRESS SENSITIVITY RESISTOR 7D 471±10% 5mm
1050002 HEAT SENSITIVITY RESISTOR NTC SCK-104MS±20%
1080011 PHOTOELECTRIC COUPLER
1570182 PCB
1940003 SOCKET
1940004 SOCKET
HS817
@5DVR979N-8 UL
4P 2.5mm
5P 2.5mm
1940006 SOCKET
1940009 SOCKET
1940074 SOCKET
2300004 FUSE
3020402 FUSE HOLDER
6P 2.5mm
8P 2.5mm
2P 7.92mm
T3.15AL 250V
BLX-2
3580086 HEAT RADIATION BOARD
3580091 HEAT RADIATION BOARD
3580156 HEAT RADIATION BOARD
3870115
GROUND CHIP OF POWER
BOARD
4000453 SELF-TAPPING SCREW
11×15×25 BLACK SINGLE HOLE
11×15×31 LFDR9905
40×20×35 DVR938-2
AB903
4000564 SELF-TAPPING SCREW
4000627 SELF-TAPPING SCREW
BT 3×8H WHITE NICKEL
PWT 3×12×7H WHITE NICKEL
PWT 2.6×6×5H BLACK ZINC
DK1910SI(RU)SILVER WHITE
REMOTE CONTROL 5471746
0310222 SMD CAPACITOR
0310191 SMD CAPACITOR
0090029 SMD RESISTOR
0090233 SMD RESISTOR
0090002 SMD RESISTOR
0700007 SMD DIODE
0970008 CERAMIC RESONATOR
0090008 SMD RESISTOR
0260008 CD
0630003 EMISSION PIPE
0160217 DIGITAL POTENTIOMETER
1340190
LIGHT TOUCH SWITCH(FIVE
DIRECTION)
25V 104±20% X7R 0603
50V 30P±5% NPO 0603
1/16W 47K±5% 0603
1/16W 4.7MO±5% 0603
1/16W 2.2O ±5% 0603
1N4148
2.0MHz
1/16W 220O±5% 0603
CD11C 10V47U±20%4×7 1.5
TSAL6200
EC30P16
SKQUCAA010
XS101,XS103
XS105
XS102
XS104
XS100
F501
F501
D516,D517,V501
U508
U504
GND501,GND502
V501,U508,D516,D517
U504
LOCATION
RV501
RT501
U502,U505,U507
R6
TC1
LED1
RP1
C3 ,C5
C1, C2
R2
R3, R4
R5
VD2
G1
RP2
- 116 -
MATERIAL
CODE
MATERIAL NAME
0780085 SMD TRIODE
1564473 PCB
8050D
81910SI-2
SPECIFICATIONS
2100003 LEAD F 0.6 SHAPED 7.5mm
3031855
3041406
3051348
SURFACE CASING OF REMOTE
CONTROL
RC-073 BLACK
BOTTOM CASING OF REMOTE
CONTROL
BATTERY CASE DOOR OF
REMOTE CONTROL
RC-073 BLACK
RC-073 BLACK
3051349 GLASS OF REMOTE CONTROL RC-073 MING PURPLE
3850124 ANODE SPRING RC026
3850125 CATHODE SPRING
3850126 ANODE/CATHODE SPRING
3072572 5-DIRECTION BUTTON
3072570 VOLUME KNOB
RC026
RC026
RC-073 GREEN
RC-073 BLACK
4000179 SELF-TAPPING SCREW PB 2×8 BLACK
0890292 PROGRAM CPU
4631058
4631059
5071274
CONDUCT GLUE OF REMOTE
CONTROL(UPPER)
CONDUCT GLUE OF REMOTE
CONTROL(LOWER)
GLUE BAG FOR
ENVIRONMENTAL
PROTEETION(WITHOUT
HOLE)
DK1910SI(RU)SILVER WHITE
CPURC073RU-0
RC-073
RC-073
85×290×0.05 PE
SURFACE CONTROL BOARD: 5448509
0000619 CARBON FILM RESISTOR
0000452 CARBON FILM RESISTOR
0000123 CARBON FILM RESISTOR
0260075 CD
0260025 CD
0620040 RADIATION DIODE
0620078
DUAL COLOR RADIATION
DIODE
0881944 PCB
1340064
1340003
LIGHT TOUCH RESTORE
SWITCH
LIGHT TOUCH RESTORE
SWITCH
0160201 DIGITAL POTENTIOMETER
1/6W120O±5% SHAPED 7.5
1/6W150O±5% SHAPED 7.5
1/6W330O±5% SHAPED 7.5
CD11 50V10U±20%5×11 2
CD11 16V47U±20%5×11 2
3B 4SC WHITE ISSUE BLUE
3RB9SW03 RED BLUE
AD7312 QFP
KFC-A06-2WB L3.8
HORIZONTAL 6×6×1
EC12P24L25F12
V1
W1
LOCATION
R122,R123
R124,R126
R120,R121
C112
C104,C105,C106
VD107,VD108
VD105,VD106
N101
S102,S104~S111
S101,S103
RP101
- 117 -
MATERIAL
CODE
MATERIAL NAME
2360021 IR SENSOR
1200653 DISPLAY SCREEN
AT138BV3
HL-D593
SPECIFICATIONS
1200532
1200531
2121688
1940006
5233341
DISPLAY SCREEN
ISPLAY SCREEN
FLAT CABLE
SOCKET
SOFT SPONGE SPACER
HNV-08SS56
VFD16-0801
6P100 2.5 2 PIN,WITH
NEEDLE,TOGETHER DIRECTION
6P 2.5mm
10×10×8 DOUBLE-FACED,HARD(35
DEGREE)
DK1910SI(RU)SILVER WHITE
SURFACE CONTROL BOARD-SMD: 6DK1910S-2 VER 2.3
0090001 SMD RESISTOR
0090230 SMD RESISTOR
1/16W 0O±5% 0603
1/16W 47O±5% 0603
0090181 SMD RESISTOR
0090019 SMD RESISTOR
0090017 SMD RESISTOR
1/16W 100O±5% 0603
1/16W 4.7K±5% 0603
1/16W 2.2K±5% 0603
0090023 SMD RESISTOR 1/16W 10K±5% 0603
0090192 SMD RESISTOR
0310195 SMD CAPACITOR
0310066 SMD CAPACITOR
0310543 SMD CAPACITOR
1/16W 51K±5% 0603
50V 221±10% X7R 0603
50V 102±10% X7R 0603
50V 104±10% X7R 0603
0700007 SMD DIODE
0780271 SMD TRIODE
0780085 SMD TRIODE
1633467 PCB
0090021 SMD RESISTOR
1N4148
2N5401 SOT-23
8050D
6DK1910S-2
1/16W 6.8K±5% 0603
DK1910SI(RU)SILVER WHITE
PROGRAM FLASH ROMDK1910SIRU-0A(16M) 0911715
0881998 IC AT49BV162A 70TI TSOP
0881754 IC
DK1910SI(RU)SILVER WHITE
29LV160BE-70NC TSOP
PROGRAM CPURCO73RU-0 0890292
0883034 IC
5156608 SIGN STICKER
M37544G2AGP LQFP
CPURC073RU-0
LOCATION
N102
DS101 ⒅
DS101 ⒅
DS101 ⒅
XP102
XS106
R129,R135,R138,R139
R125
R109~R112
R115~R119
R131
R100,R102~R105,R108,R127,R132,R136,
R140
R114
C107,C108,C109
C110,C111
C101,C102,C103,C113
VD102~VD104,VD109,VD110
V101,V102
V103
R101
U214 ⒆
U214 ⒆
N1
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