Transcript
SERVICE MANUAL BBK963S
1
MIC
2
OPEN/CLOSE
CONTENTS 1.
SAFETY PRECAUTIONS
2.
PREVENTION OF ELECTRO STATIC DISCHARGE(ESD)TO ELECTROSTATICALLY
1
SENSITIVE(ES)DEVICES
1
3.
CONTROL BUTTON LOCATIONS AND EXPLANATIONS
2
4.
PREVERTION OF STATIC ELECTRICITY DISCHARGE
3
5.
ASSEMBLING AND DISASSEMBLING THE MECHANISM UNIT
4
5.1
OPTICAL PICKUP UNIT EXPLOSED VIEW AND PART LIST
4
5.2
BRACKET EXPLOSED VIEW AND PART LIST
6
5.3
MISCELLANEOUS
7
6.
ELECTRICAL CONFIRMATION
8
6.1
VIDEO OUTPUT (LUMINANCE SIGNAL) CONFIRMATION
8
6.2
VIDEO OUTPUT(CHROMINANCE SIGNAL) CONFIRMATION
9
7.
MPEG BOARD CHECK WAVEFORM
10
8.
IC BLOCK DIAGRAM & DESCRIPTION
11
8.1
MT1336
11
8.2
MT1379
19
8.3
AM29LV160D
35
8.4
HY57V641620HG
40
9. 10.
SCHEMATIC & PCB WIRING DIAGRAM SPARE PARTS LIST
43 56
1. SAFETY PREAUTIONS 1.1 GENERAL GUIDELINES 1. When servicing, observe the original lead dress. if a short circuit is found, replace all parts which have been overheated or damaged by the short circuit. 2. After servicing, see to it that all the protective devices such as insulation barrier, insulation papers shields are properly installed. 3. After servicing, make the following leakage current checks to prevent the customer from being exposed to shock hazards.
2.PREVENTION OF ELECTRO STATIC DISCHARGE(ESD)TO ELECTROSTATICALLY SENSITIVE(ES)DEVICES Some semiconductor(solid state)devices can be damaged easily by static electricity. Such components commonly are called Electrostatically Sensitive(ES)Devices. Examples of typical ES devices are integrated circuits and some field-effect transistors and semiconductor chip components. The following techniques should be used to help reduce the incidence of component damage caused by electro static discharge(ESD). 1. Immediately before handling any semiconductor component or semiconductor-equipped assembly, drain off any ESD on your body by touching a known earth ground. Alternatively, obtain and wear a commercially availabel discharging ESD wrist strap, which should be removed for potential shock reasons prior to applying power to the unit under test. 2. After removing an electrical assembly equipped with ES devices,place the assembly on a conductive surface such as alminum foil, to prevent electrostatic charge buildup or exposure of the assembly. 3. Use only a grounded-tip soldering iron to solder or unsolder ES devices. 4. Use only an anti-static solder removal device. Some solder removal devices not classified as anti-static (ESD protected)can generate electrical charge sufficient to damage ES devices. 5. Do not use freon-propelled chemicals. These can generate electrical charges sufficient to damage ES devices. 6. Do not remove a replacement ES device from its protective package until immediately before you are ready to install it. (Most replacement ES devices are packaged with leads electrically shorted together by conductive foam, alminum foil or comparable conductive material). 7. Immediately before removing the protective material from the leads of a replacement ES device, touch the protective material to the chassis or circuit assembly into which the device will be installed. Caution Be sure no power is applied to the chassis or circuit, and observe all other safety precautions. 8. Minimize bodily motions when handling unpackaged replacement ES devices. (Otherwise harmless motion such as the brushing together of your clothes fabric or the lifting of your foot from a carpeted floor can generate static electricity(ESD).
notice (1885x323x2 tiff)
1
2
1
9
10
4
5
6
7
8
OPEN/CLOSE
2
MIC
3
11
12
13
14
POWER switch
6
STOP button
11
MIC 1 VOLUME knob
2
Disc tray
7
REW button
12
MIC 2 VOLUME knob
3
OPEN/CLOSE button
8
FWD button
13
IR SENSOR
4
PLAY button
9
MIC 1 jack
14
LED display window
5
PAUSE button
10
MIC 2 jack
2
4.PREVENTION OF STATIC ELECTRICITY DISCHARGE The laser diode in the traverse unit (optical pickup)may brake down due to static electricity of clothes or human body. Use due caution to electrostatic breakdown when servicing and handling the laser diode. 4.1.Grounding for electrostatic breakdown prevention Some devices such as the DVD player use the optical pickup(laser diode)and the optical pickup will be damaged by static electricity in the working environment.Proceed servicing works under the working environment where grounding works is completed. 4.1.1. Worktable grounding 1. Put a conductive material(sheet)or iron sheet on the area where the optical pickup is placed,and ground the sheet. 4.1.2.Human body grounding 1 Use the anti-static wrist strap to discharge the static electricity from your body. safety_3 (1577x409x2 tiff)
4.1.3.Handling of optical pickup 1. To keep the good quality of the optical pickup maintenance parts during transportation and before installation, the both ends of the laser diode are short-circuited.After replacing the parts with new ones, remove the short circuit according to the correct procedure. (See this Technical Guide). 2. Do not use a tester to check the laser diode for the optical pickup .Failure to do so willdamage the laser diode due to the power supply in the tester. 4.2. Handling precautions for Traverse Unit (Optical Pickup) 1. Do not give a considerable shock to the traverse unit(optical pickup)as it has an extremely high-precise structure. 2. When replacing the optical pickup, install the flexible cable and cut is short land with a nipper. See the optical pickup replacement procedure in this Technical Guide. Before replacing the traverse unit, remove the short pin for preventingstatic electricity and install a new unit.Connect the connector as short times as possible. 3. The flexible cable may be cut off if an excessive force is applied to it.Use caution when handling the cable. 4. The half-fixed resistor for laser power adjustment cannot be adjusted. Do not turn the resistor.
3
5. Assembling and disassembling the mechanism unit 5.1 Optical pickup Unit Explosed View and Part List
Pic (1)
4
Materials to Pic (1) No.
PARTS CODE
PARTS NAME
Q ty
14692200
SF-HD60
1
1
1EA0311A06300
ASSY, CHASSIS, COMPLETE
1
2
1EA0M10A15500
ASSY, MOTOR, SLED
1
Or
1EA0M10A15501
ASSY, MOTOR, SLED
1
3
1EA2451A24700
HOLDER, SHAFT
3
4
1EA2511A29100
GEAR, RACK
1
5
1EA2511A29200
GEAR, DRIVE
1
6
1EA2511A29300
GEAR, MIDDLE, A
1
7
1EA2511A29400
GEAR, MIDDLE, B
1
8
1EA2744A03000
SHAFT, SLIDE
1
9
1EA2744A03100
SHAFT, SLIDE, SUB
1
10
1EA2812A15300
SPRING, COMP, TYOUSEI
3
11
1EA2812A15400
SPRING, COMP, RACK
1
21
1EA0B10B20100
ASSY, PWB
1
Or
1EA0B10B20200
ASSY, PWB
1
31
SEXEA25700---
SPECIAL SCREW BIN+-M2X11
3
32
SEXEA25900---
SPECIAL SCREW M1.7X2.2
2
33
SFBPN204R0SE-
SCR S-TPG PAN 2X4
2
34
SFSFN266R0SE-
SCR S-TPG FLT 2.6X6
1
35
SWXEA15400---
SPECIAL WASHER 1.8X4 X0.25
2
Note : This parts list is not for service parts supply.
5
5.2 Bracket Explosed View and Part List
Pic (2) Materials to Pic(2) 1.bracket 2.belt 3.screw 4.belt wheel 5.gearwheel 6.iron chip 7. Immobility mechanism equipment 8. Magnet 9. Platen 10. Bridge bracket 11. screw 12. screw 13. Big bracket
14. front silicon rubber 15. Back silicon rubber 16. Pick-up 17. Pick-up 18. switch 19. Five-pin flat plug 20. screw 21. PCB 22. motor 23. Motor wheel 24. screw 25.tray
Before going process with disassembly and installation, please carefully both peruse the chart and confirm the materials.
6
5.3 MISCELLANEOUS 5.3.1 Protection of the LD(Laser diode) Short the parts of LD circuit pattern by soldering.
5.3.2 Cautions on assembly and adjustment Make sure that the workbenches,jigs,tips,tips of soldering irons and measuring instruments are grounded,and that personnel wear wrist straps for ground. Open the LD short lands quickly with a soldering iron after a circuit is connected. Keep the power source of the pick-up protected from internal and external sources of electrical noise. Refrain from operation and storage in atmospheres containing corrosive gases (such as H2S,SO2, NO2 and Cl2)or toxic gases or in locations containing substances(especially from the organic silicon,cyan, formalin and phenol groups)which emit toxic gases.It is particularly important to ensure that none of the above substances are present inside the unit.Otherwise,the motor may no longer run.
7
6.Electrical Confirmation 6.1. Video Output (Luminance Signal) Confirmation DO this confirmation after replacing a P.C.B. Measurement point
Mode
Disc
Video output terminal
Color bar 75% PLAY(Title 46):DVDT-S15 PLAY(Title 12):DVDT-S01
DVDT-S15 or DVDT-S01
Measuring equipment,tools
Confirmation value
200mV/dir,10 sec/dir
1000mVp-p±30mV
Purpose:To maintain video signal output compatibility. 1.Connect the oscilloscope to the video output terminal and terminate at 75 ohms. 2.Confirm that luminance signal(Y+S)level is 1000mVp-p±30mV
8
6.2 Video Output(Chrominance Signal) Confirmation Do the confirmation after replacing P.C.B. Measurement point
Mode
Disc
Video output terminal
Color bar 75% PLAY(Title 46):DVDT-S15 PLAY(Title 12):DVDT-S01
DVDT-S15 or DVDT-S01
Measuring equipment,tools Screwdriver,Oscilloscope 200mV/dir,10 sec/dir
Confirmation value 621mVp-p±30mV
Purpose:To maintain video signal output compatibility. 1.Connect the oscilloscope to the video output terminal and terminate at 75 ohme. 2.Confirm that the chrominance signal(C)level is 621 mVp-p±30mV
9
7.MPEG BOARD CHECK WAVEFORM 7.1 27MHz WAVEFORM DIAGRAM
7.2 IC5L0380R PIN.2 WAVEFORM DIAGRAM
10
MT1336 PRELIMINARY, SUBJ ECT TO CHANGE WITHOUT NOTICE
MTK CONFIDENTIAL, NO DISCLOSURE
8. IC BLOCK DIAGRAM & DESCRIPTION 8.1 MT1336 GENERAL DESCRIPTION M T 1 3 3 6 i s a h i g h p e r f o r m a n c e C M O S a n a l o g f r o n t -e n d I C f o r b o t h C D _ R O M d r i v e r u p t o 4 8 X S a n d D V D - R O M d r i v e r u p t o 1 6 X S . I t a l s o s u p p o r t s D V D- R A M r e a d u p t o 4 X S V e r s i o n 2 . I t c o n t a i n s s e r v o a m p li f i e r s t o g e n e r a t e f o c u s i n g e r r o r , 3-b e a m t r a c k i n g e r r o r , 1 b e a m r a d i a l p u s h -p u l l s i g n a l , R F l e v e l a n d S B A D f o r s e r v o f u n c t i o n s . I t a l s o i n c l u d e s D P D t r a c k i n g e r r o r s i g n a l f o r D V D _ R O M a p p l i c a t i o n . F o r D V D- R A M d i s k s , t h e r e a r e a l s o D i f f e r e n t i a l P u s h -P u l l ( D P P ) m e t h o d f o r g e n e r a t i n g t r a c k i n g s i g n a l a n d D i f f e r e n t i a l A s t i g m a t i c D e t e c t i o n (DAD) for processing focusing signal. Programmable equalizer and AGC circuits are also incorporated in this chip to optimize read channel performance. In addition, this chip has dual automatic laser power control circuits f o r D V D- R O M ( D V D-R A M )
and
C D -R O M s e p e r a t e l y a n d r e f e r e n c e v o l t a g e g e n e r a t o r s t o r e d u c e e x t e r n a l
c o m p o n e n t s . P r o g r a m m a b l e f u n c t i o n s a r e i m p l e m e n t e d b y t h e a c c e s s o f i n t e r n a l r e g i s t e r t h r o u g h b i -d i r e c t i o n a l serial port to configure modes selection.
FEATURES n
RF equalizer with programmable
fc
from 3MHz to 70 MHz and programmable boost from 3dB to
13dB.
n
M T 1 3 3 6 s u p p o r t s a t l e a s t e i g h t d i f f e r e n t k i n d s o f p i c k-u p h e a d s w i t h v e r s a t i l e i n p u t c o n f i g u r a t i o n f o r both RF input stages and servo signal blocks.
n
Versatile on -line AGC.
n
3 beams tracking error signal generator for CD_ROM application.
n
One beam differential phase tracking error (DPD) generator for DVD_ROM application.
n
Differential push pull tracki ng error (DPP) generator for DVD_RAM application.
n
Focusing error signal generator for CD-ROM, DVD-ROM and DVD-RAM (DAD method).
n
RF level signal generator.
n
Sub-beam added signal for 3 beams CD_ROM.
n
One beam push -pull signal generator for central servo application.
n
High speed RF envelop detection circuit with bandwidth up to 400KHz for CD-ROM.
n
Defect and Blank detection circuits.
n
Dual automatic laser power control circuits with programmable level of LD monitor voltage.
n
Vref=1.4V voltage and V2ref=2.8V voltage generators.
n
V20=2.0V voltage for pick -up head reference.
n
Bi-directional serial port to access internal registers.
11
MT1336 PRELIMINARY, SUBJ ECT TO CHANGE WITHOUT NOTICE
MTK CONFIDENTIAL, NO DISCLOSURE
OSP DVDA
OSN
CDA DVDB
RFOP
ATTENUATOR INPUT MUX
VGA
EQ RFON
CDB DVDC LRFRP CDC DEFECT
DVDD
HRFRP
CDD DVDRFIN
CRTP
ENVELOP
CRTPLP
DETECTOR
DVDRFIP
AGC
MA CSO
MB MC
LVL
MD
DPD
SA
TEO
SB
FEO
SC REFCOS
SD
SBAD
PCS
HALLCOS COSPHI
DPFN
REFSIN
DPFO
HALLSIN
IR
SINPHI DPDMUTE
TE
DVD
MDI2
APC
TPI TNI
LDO2
CDFOP
RF
CDFON
LEVEL
RFGC RFGCU MDI1
CD
FE
RFGCI
APC
AGC1
LDO1
AGC2
CENTRAL
AGC3
SERVO RFSUBO WOBSO
UDGATE IDGATE
WOBBLE
VFO13
DET
SDATA
SERIAL V20 V2REFO
REF and 2VREF
PORT
Voltage Generator VREFO
MT1336 FUNCTION BLOCKS DIAGRAM
12
SLCK SDEN
MT1336
CDFOP SD SC AVDD IR AGND SB SA MD MC
TNI TPI SVDD CDFON
WAGND SGND
WAVDD AGC1
MDI2 AGC3 AGC2
LDO2 LDO1 MDI1
MTK CONFIDENTIAL, NO DISCLOSURE
128 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 111 110 109 108 107 106 105 104 103
WGND RFSUBO
PRELIMINARY, SUBJ ECT TO CHANGE WITHOUT NOTICE
MT1336 DVD-ROM With DVD_RAM Read
MT1336 PIN ASSIGNMENT
13
AGNDP AGNDX AVDDP
AVDDT V2REFO VREFO V20 FEO LVL CSO TEO VDDP DEFECT LRFRP HRFRP CRTP CRTPLP TRLPA TRLP HTRC GNDP DPFN DPFO AGNDX AGNDX AGNDX VDD VFO13
12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38
DPDMUTE
AGNDT TM4
GNDS SDEN SDATA RST
TM1 TM2 TM3
39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64
RFOP RFON AGNDO
1 2 3 4 5 6 7 8 9 10 11
GND UDGATE HDGATE IO0 IO1 IO2 IO3 IO4 IO5 IO6 IO7 IO8 IO9 IOA IOB VDDS XCK16M SCLK
WOBSO WVDD AGNDX AGNDX AVDDO
102 101 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65
MB MA DVDA DVDB DVDC DVDD DVDRFIP DVDRFIN CDA CDB CDC CDD OSN OSP RFGC RFGCU RFGCI CEQP CEQN AGNDX AGNDX MON MOP SW1 SW2 SWO SINPHI REFSIN HALLSIN AGNDM REFCOS HALLCOS COSPHI AVDDM AGNDX AVDDF VCON AGNDF
MT1336 PRELIMINARY, SUBJ ECT TO CHANGE WITHOUT NOTICE
MTK CONFIDENTIAL, NO DISCLOSURE
MT1336 PIN DESCRIPTIONS Pin Numbers
Symbol
Type
Description
DEFECT
Digital Output
56
SCLK
Digital Input
RF serial clock input
58
SDEN
Digital Input
RF serial data enable
59
SDATA
Digital IO
60
RST
Digital input
Reset (active high)
55
XCK16M
Digital Input
16.9MHz for verification
LQFP128 RF Flag Interface 23
Flag of bad data output status
RF SIO interface
RF serial data IO
RF SERVO interface 40
UDGATE
Digital Input
Con trol signal for DVD-RAM
41
IDGATE
Digital Input
Control signal for DVD -RAM
38
VFO13
Digital Input
DVD -RAM Header signal
RF 100
DVDA
Analog input
AC coupled DVD RF signal input A
99
DVDB
Analog Input
AC coupled DVD RF signal input
98
DVDC
Analog Input
AC coupled DVD RF signal input C
97
DVDD
Analog Input
AC coupled DVD RF signal input D
95
DVDRFIN
Analog Input
AC coupled DVD RF signal input RFIN
96
DVDRFIP
Analog Input
AC coupled DVD RF signal input RFIP
94
CDA
Analog Input
AC coupled CD RF signal input A
93
CDB
Analog Input
AC coupled CD RF signal input B
92
CDC
Analog Input
AC coupled CD RF signal input C
91
CDD
Analog Input
AC coupled CD RF signal input D
90
OSN
Analog
RF Offset cancellation capacitor connecting
89
OSP
Analog
RF Offset cancellation capacitor connecting
85
CEQP
Analog
RF Offset cancellation capacitor connecting
84
CEQN
Analog
RF Offset cancellation capacitor connecting
88
RFGC
Analog
RF AGC loop capacitor connecting for DVD -ROM
14
B
MT1336 PRELIMINARY, SUBJ ECT TO CHANGE WITHOUT NOTICE
MTK CONFIDENTIAL, NO DISCLOSURE
87
RFGCU
Analog
RF AGC loop capacitor connecting for DVD -RAM
86
RFGCI
Analog
RF AGC loop capacitor connecting for DVD -RAM
101
MA
Analog Input
DC coupled DVD-RAM main-beam RF signal input A
102
MB
Analog Input
DC coupled DVD-RAM main-beam RF signal input B
103
MC
Analog Input
DC coupled DVD-RAM main-beam RF signal input C
104
MD
Analog Input
DC coupled DVD-RAM main-beam RF signal input D
105
SA
Analog Input
DC coupled DVD-RAM sub-beam RF signal input A
106
SB
Analog Input
DC coupled DVD-RAM sub-beam RF signal input B
110
SC
Analog Input
DC coupled DVD-RAM sub-beam RF signal input C
111
SD
Analog Input
DC coupled DVD-RAM sub-beam RF signal input D
108
IR
Analog
External current bias resistor (R=20K)
119
AGC1
Analog
Wobble AGC loop1 capacitor
121
AGC2
Analog
Wobble AGC loop2 capacitor
122
AGC3
Analog
Wobble AGC loop3 capacitor
127
RFSUBO
Analog output
Header push-pull RF output signal
1
WOBSO
Digital output
Wobble signal output
6
RFOP
Analog output
RF positive output
7
RFON
Analog output
RF negative output
32
DPFN
Analog
DPD amplifier negative input
33
DPFO
Analog
DPD amplifier output
61
DPDMUTE
Digital input
DPD mute control input
116
TNI
Analog Input
3 beam satellite PD signal negative input
115
TPI
Analog Input
3 beam satellite PD signal positive input
21
TEO
Analog Output
TRACKING ERROR
FOCUSING ERROR & RF LEVEL
Tracking error output
& CENTRAL SERVO SIGNAL
112
CDFOP
Analog Input
CD focusing error positive input
113
CDFON
Analog Input
CD focusing error negative input
18
FEO
Analog Output
Focusing error output
19
LVL
Analog Output
RF level output
20
CSO
Analog output
Central servo signal output
ALPC
15
MT1336 PRELIMINARY, SUBJ ECT TO CHANGE WITHOUT NOTICE
MTK CONFIDENTIAL, NO DISCLOSURE
124
MDI1
Analog Input
125
LDO1
Analog Ou tput
123
MDI2
Analog Input
126
LDO2
Analog Output
26
CRTP
Analog
RF top envelop filter capacitor connecting
27
CRTPLP
Analog
Defect level filter capacitor connecting
25
HRFRP
Analog output
High frequency RF ripple output or Blank detector’s output
24
LRFRP
Analog output
Low frequency RF ripple output
67, 69
AVDD
Power
65, 73
AGND
GND
64
AVDD
Power
DPD Power
62
AGND
GND
DPD GND
109
AVDD
Power
107
AGND
GND
RF path GND
114
SVDD
Power
Servo Power
117
SGND
GND
2,120
WAVDD
Power
128,118
WAGND
GND
5
AVDDO
Power
Power for RF output
8
AGNDO
GND
GND for RF output
14
AVDDT
Power
12
AGNDT
GND
GND for Trimming PAD
22
VDDP
Power
Peak Detection Power
31
GNDP
GND
Peak Detection GND
37,54
VDD
Power
Serial I/O Power
39,57
GND
GND
Serial I/O GND
Laser power monitor input Laser driver output Laser power monitor input Laser driver output
RF RIPPLE
POWER Master PLL Filter power GND for Master PLL Filter
RF path Power
Servo GND Wobble Power Wobble GND
Power for Trimming PAD
REFERENCE VOLTAGE 16
VREFO
Analog output
Reference voltage 1.4V
15
V2REFO
Analog output
Reference voltage 2.8V
17
V20
Analog Output
Reference voltage 2.0V
16
MT1336 PRELIMINARY, SUBJ ECT TO CHANGE WITHOUT NOTICE
MTK CONFIDENTIAL, NO DISCLOSURE
ALPC TRIMMING 9
TM1
Analog input
Trimming pin for ALPC1
10
TM2
Analog input
Trimming pin for ALPC1
11
TM3
Analog input
Trimming pin for ALPC2
13
TM4
Analog input
Trimming pin for ALPC2
HIGH SPEED TRACK COUNTING 29
TRLP
Analog
Low-pass filter capacitor connecting
28
TRLPA
Analog
Low-pass filter capacitor connecting
30
HTRC
Digital output
High speed track counting digital output
74
HALLSIN
Analog input
Negative input of amplifier for hall sensor signal
75
REFSIN
Analog input
Positive input of amplifier for hall sensor signal
76
SINPHI
Analog output
Amplifier output for hall sensor signal
71
HALLCOS
Analog input
Negative input of amplifier for hall sensor signal
72
REFCOS
Analog input
Positive input of amplifier for hall sensor signal
70
COSPHI
Analog output
Amplifier output for hall sensor signal
PCS
FOR MONITOR ONLY 81
MON
Analog output
80
MOP
Analog output
66
VCON
Analog output
77
SWO
Analog output
Output from mux of SW1 & SW2
78
SW2
Analog input
External input for servo input select
79
SW1
Analog input
External input for servo input select
FOR SERIAL I/O 42
IO0
43
IO1
44
IO2
45
IO3
46
IO4
47
IO5
17
MT1336 PRELIMINARY, SUBJ ECT TO CHANGE WITHOUT NOTICE
48
IO6
49
IO7
50
IO8
51
IO9
52
IOA
53
IOB
MTK CONFIDENTIAL, NO DISCLOSURE
18
MT1379 Progressive Scan DVD Player Combo Chip
Specificationsaresubjecttochangewithoutnotice
8.2 MT1379 n Super Integration DVD player single chip §
Servo controller and data channel processing
§
MPEG-1/MPEG-2/JPEG video decoding Dolby AC-3/DTS/DVD -Audio audio decoding
§ § § § § §
Built-in TV encoder Built-in progressive video output
§
Video input port and audio/SPDIF input port
§ §
§ § § §
Built-in DSP for digital servo control
§
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
§ § §
§
Built-in a frequency programmable clock to µP and RSPC Decoder to optimize the performance over power
§ § §
Provides interface with analog front-end processor Analog data slicer for small jitter capability
§ §
Built-in high performance data PLL for chann el data demodulation
§
EFM/EFM+ data demodulation Enhanced channel data frame sync protection & DVD-ROM sector sync protection
§ § §
n Servo Control and Spindle Motor Control §
§
Programmable frequency error gain and phase error gain of spindle PLL to control spindle motor on CLV and CAV mode Provide a varipitch speed control for CLV and CAV mode Built-in ADCs and DACs for digital servo control
§
Provide 2 general PWM
§
Supports power-down mode Supports additional serial port
n DVD-ROM/CD-ROM Decoding Logic
DVD-ROM up to 8XS CD-ROM up to 24XS
n Channel Data Processor §
§
§
n Speed Performance on Servo and Decoding §
Tray control can be PWM output or digital output
n Host Micro controller
Unified track buffer and A/V decoding buffer Video processing for scaling and video quality enhancement OSD & Sub-picture decoding Built-in clock generator
§
§
19
Supports CD-ROM Mode 1, CD-ROM XA Mode 2 Form 1, CD-ROM XA Mode 2 Form 2, and CD-DA formats High-speed ECC logic capable of correcting one error per each P-codeword or Q-codeword Automatic sector Mode and Form detection Automatic sector Header verification 8-bit counter for decode completion check Programmable descrambling and error correction schemes Automatically repeated error corrections 8-bit C2 Pointer counter Decoder Error Notification Interrupt that signals various decoder errors Provide error correction acceleration
n Buffer Memory Controller §
Supports 16Mb/32Mb/64Mb/128Mb SDRAM
§
§
Supports 16-bit/32-bit SDRAM data bus interface Build in a DRAM interface programmable clock to optimize the DRAM performance Provide the self-refresh mode SDRAM
§
Programmable DRAM access cycle and refresh
§
MT1379 PRELIMINARY, SUBJECT TO CHANGE WITHOUT NOTICE
§
MTK CONFIDENTIAL, NO DISCLOSURE
§
cycle timings Block-based sector addressing
§
§
Programmable buffering counter for buffer status tracking
§
Maximum DRAM speed is 133MHz Support 5/3.3-Volt. DRAM Interface
§
§ §
n Video Decode § §
Decodes MPEG1 video and MPEG2 main level, main profile video (720/480 and 720x576) Maximum input bit-rate of 15Mbits/sec
§
Smooth digest view function with I, P and B picture decoding
§
Baseline, extended-sequential and progressive JPEG image decoding
§
RLE and non-RLE BMP image decoding Support CD-G titles
§
§
§ § § § § §
§
§ §
HDCD certified
§
§
Six 54MHz/12bit DA converters Support NTSC, PAL-BDGHI, PAL-N, PAL-M interlace TV format and 480p, 576p progressive TV format Automatically turn off unconnected channel(s). Support PC monitor (VGA)
§
Support Macrovision 7.1
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256/16 color RLC format OSD Automatic scrolling of OSD image
§
Provides 4 -color/32x32-pixel hardware cursor Fade-in, Fade out, and Wipe functions as specified in the DVD-Audio Specification and other slide show transition effects Progressive scan output
n Progressive Output §
Automatic detect film or video source
§
3:2 pull down source detection Advanced Motion adaptive de-interlace Minimum external memory requirement
§
Decoder format supports: - Dolby Digital (AC -3) decoding
§
- DTS decoding - MLP decoding for DVD -Audio
n Audio/Video Output §
- MPEG-1 layer 1/layer 2 audio decoding - MPEG-2 layer1/layer2 2 -channel audio decoding - Dolby Pro Logic decoding - High Definition Compatible Digital (HDCD) decoding §
Karaoke functions - Microphone echo with adjustable echo level, echo -depth and delay length - Microphone tone control with three custom second-order IIR filter - Vocal mute/vocal assistant - Key shift up to +/- 8 keys controlled by 1/2 key
n TV Encoder
Arbitrary ratio vertical/horizontal scaling of video, from 0.25X to 256X 65535/256/16/4/2-color bitmap format OSD,
n Audio Processing §
- PCM / bit stream / mute mode - Custom IEC latency up to 2 frames Pink noise and white noise generator
Channel equalizer 3D surround processing include virtual surround and speaker separation Power-down control
§
n Video/OSD/SPU/HLI Processor
Downmix function Support IEC 60958/61937 output
§ §
Line-in/SPDIF-in for versatile audio processing CCIR601/656 video input port Support picture-in-picture for video decoding and input source
n Outline
Up to 6 channel linear PCM output for DVD Audio / DVD Video
20
§ §
216-pin LQFP package 3.3/2.5-Volt. Dual operating voltages
MT1379 PRELIMINARY, SUBJECT TO CHANGE WITHOUT NOTICE
MTK CONFIDENTIAL, NO DISCLOSURE
P IN D EFINITIONS Pin Number
Symbol
Type
1
IREF
Analog Input
2 3 4 5 6 7 8 9 10 11 12 13 14
PLLVSS LPIOP LPION LPFON LPFIP LPFIN LPFOP JITFO JITFN PLLVDD3 FOO TRO TROPENPWM
Ground Analog Output Analog Output Analog output Analog Input Analog Input Analog Output Analog Output Analog Input Power Analog Output Analog Output Analog Output
15 16 17 18 19 20 21 22
PWMOUT1 PWMOUT2 DVDD2 DMO FMO DVSS FG HIGHA0
23
HIGHA1
24
HIGHA2
25
HIGHA3
26
HIGHA4
27
HIGHA5
28
DVSS
Analog Output Analog Output Power Analog Output Analog Output Ground Input Inout 2~16MA, SR PU Inout 2~16MA, SR PU Inout 2~16MA, SR PU Inout 2~16MA, SR PU Inout 2~16MA, SR PU Inout 2~16MA, SR PU Grou nd
Description Current reference input. It generates reference current for data PLL. Connect an ext ernal 100K resistor to this pin and PLLVSS. Ground pin for data PLL and related analog circuitry Positive output of the low pass filter Negative output of the low pass filter Negative output of loop filter amplifier Positive input of loop filter amplifier Negative input of loop filter amplifier Positive output of loop filter amplifier RF jitter meter output Negative input of the operation amplifier for RF jigger meter 3.3V power pin for data PLL and related analog circuitry Focus servo output. PDM output of focus servo compensator Tracking servo output. PDM output of tracking servo compensator Tray open output, controlled by microcontroller. This is PWM output for TRWMEN27hRW2=1 or is digital output for TRWMEN27hRW2=0 The 1st general PWM output
The 2nd general PWM output 2.5V power pin for internal fully digital circuitry Disk motor control output. PWM output Feed motor control. PWM output Ground pin for internal fully digital circuitry Motor Hall sensor input Microcontroller address 8
Microcontroller address 9
Microcontroller address 10
Microcontroller address 11
Microcontroller address 12
Microcontroller address 13
Ground pin for internal digital circuitry
21
MT1379 PRELIMINARY, SUBJECT TO CHANGE WITHOUT NOTICE
MTK CONFIDENTIAL, NO DISCLOSURE
Pin Number
Symbol
Type
29
HIGHA6
30
HIGHA7
31
AD7
32
AD6
33
AD5
34
AD4
35 36
DVDD3 AD3
37
AD2
38
AD1
39
AD0
40
IOA0
41
IOA1
42 43
DVDD2 IOA2
44
IOA3
45
IOA4
46
IOA5
47
IOA6
Inout 2~16MA, SR PU Inout 2~16MA, SR PU Inout 2~16MA, SR Inout 2~16MA, SR Inout 2~16MA, SR Inout 2~16MA, SR Power Inout 2~16MA, SR Inout 2~16MA, SR Inout 2~16MA, SR Inout 2~16MA, SR Inout 2~16MA, SR PU Inout 2~16MA, SR PU Power Inout 2~16MA, SR PU Inout 2~16MA, SR PU Inout 2~16MA, SR PU Inout 2~16MA, SR PU Inout 2~16MA, SR PU
Description Microcontroller address 14
Microcontroller address 15
Microcontroller address/data 7 Microcontroller address/data 6 Microcontroller address/data 5 Microcontroller address/data 4 3.3V power pin for internal digital circuitry Microcontroller address/data 3 Microcontroller address/data 2 Microcontroller address/data 1 Microcontroller address/data 0 Microcontroller address 0 / IO
Microcontroller address 1 / IO
2.5V power pin for internal digital circuitry Microcontroller address 2 / IO
Microcontroller address 3 / IO
Microcontroller address 4 / IO
Microcontroller address 5 / IO
Microcontroller address 6 / IO
22
MT1379 PRELIMINARY, SUBJECT TO CHANGE WITHOUT NOTICE
MTK CONFIDENTIAL, NO DISCLOSURE
Pin Number
Symbol
Type
48
IOA7
49
A16
50
A17
51
IOA18
52
IOA19
53
IOA20
54 55 56
APLLVSS APLLVDD3 ALE
57
IOOE#
58
IOWR#
59
IOCS#
60 61
DVSS UP1_2
62
UP1_3
63
UP1_4
64
UP1_5
65
UP1_6
66
DVDD3
Inout 2~16MA, SR PU Output 2~16MA, SR Output 2~16MA, SR Inout 2~16MA, SR SMT Inout 2~16MA, SR SMT Inout 2~16MA, SR SMT Ground Power Inout 2~16MA, SR PU, SMT Inout 2~16MA, SR SMT Inout 2~16MA, SR SMT Inout 2~16MA, SR PU, SMT Ground Inout 4MA, SR PU, SMT Inout 4MA, SR PU, SMT Inout 4MA, SR PU, SMT Inout 4MA, SR PU, SMT Inout 4MA, SR PU, SMT Power
Description Microcontroller address 7 / IO
Flash address 16 Flash address 17 Flash address 18 / IO
Flash address 19 / IO
Flash address 20 / IO OR Videoin Data PortB 0 Ground pin for audio clock circuitry 3.3V Power pin for audio clock circuitry Microcontroller address latch enable
Flash output enable, active low / IO
Flash write enable, active low / IO
Flash chip select, active low / IO
Ground pin for internal digital circuitry Microcontroller port 1 -2
Microcontroller port 1 -3
Microcontroller port 1 -4
Microcontroller port 1 -5
Microcontroller port 1 -6
3.3V power pin for internal digital circuitry
23
MT1379 PRELIMINARY, SUBJECT TO CHANGE WITHOUT NOTICE
MTK CONFIDENTIAL, NO DISCLOSURE
Pin Number
Symbol
Type
67
UP1_7
68
UP3_0
69
UP3_1
70
INT0#
71
IR
72 73 74 75
DVDD2 UP3_4 UP3_5 UWR#
76
URD#
77 78 79 80 81 82 83 84 85 86 87
DVSS RD7 RD6 RD5 RD4 DVDD2 RD3 RD2 RD1 RD0 RWE#
88
CAS#
89
RAS#
90
RCS#
91
BA0
92 93
DVSS RD15
Inout 4MA, SR PU, SMT Inout 4MA, SR PU, SMT Inout 4MA, SR PU, SMT Inout 2~16MA, SR PU, SMT Input SMT Power Inout Inout Inout 2~16MA, SR PU, SMT Inout 2~16MA, SR PU, SMT Ground Inout Inout Inout Inout Power Inout Inout Inout Inout Output 2~16MA, SR Output 2~16MA, SR Output 2~16MA, SR Output 2~16MA, SR Output 2~16MA, SR Ground Inout 2~16MA, SR PU/PD, SMT
Description Microcontroller port 1 -7
Microcontroller port 3 -0
Microcontroller port 3 -1
Microcontroller interrupt 0, active low
IR control signal input 2.5V power pin for internal digital circuitry Microcontroller port 3 -4 Microcontroller port 3 -5 Microcontroller write strobe, active low
Microcontroller read strobe, active low
Ground pin for internal digital circuitry DRAM data 7 DRAM data 6 DRAM data 5 DRAM data 4 2.5V power pin for internal digital circuitry DRAM data 3 DRAM data 2 DRAM data 1 DRAM data 0 DRAM Write enable, active low DRAM columnaddress strobe, active low DRAM row address strobe, active low DRAM chip select, active low DRAM bank address 0 Ground pin for internal digital circuitry DRAM data 15
24
MT1379 PRELIMINARY, SUBJECT TO CHANGE WITHOUT NOTICE
MTK CONFIDENTIAL, NO DISCLOSURE
Pin Number
Symbol
Type
94
RD14
95
RD13
96
RD12
97 98
DVDD3 RD11
99
RD10
100
RD9
101
RD8
102 103
DVSS CLK
104
CLE
105
RA11
106
RA9
107
RA8
108 109 110
DMVDD3 DMVSS RA7
111 112
DVDD3 RA6
113
RA5
114
RA4
115 116
DVSS DQM1
Inout 2~16MA, SR PU/PD, SMT Inout 2~16MA, SR PU/PD, SMT Inout 2~16MA, SR PU/PD, SMT Power Inout 2~16MA, SR PU/PD, SMT Inout 2~16MA, SR PU/PD, SMT Inout 2~16MA, SR PU/PD, SMT Inout 2~16MA, SR PU/PD, SMT Ground Output 2~16MA, SR Output 2~16MA, SR Output 2~16MA, SR Output 2~16MA, SR Output 2~16MA, SR Power Ground Output 2~16MA, SR Power Output 2~16MA, SR Output 2~16MA, SR Output 2~16MA, SR Ground Output 2~16MA, SR
Description DRAM data 14
DRAM data 13
DRAM data 12
3.3V power pin for internal digital circuitry DRAM data 11
DRAM data 10
DRAM data 9
DRAM data 8
Ground pin for internal digital circuitry DRAM clock DRAM clock enable DRAM address bit 11 or audio serial data 3 (channel 7/8) DRAM address 9 DRAM address 8 3.3V Power pin for DRAM clock circuitry Ground pin for DRAM clock circuitry DRAM address 7 3.3V power pin for internal digital circuitry DRAM address 6 DRAM address 5 DRAM address 4 Ground pin for internal digital circuitry Mask for DRAM input/output byte 1
25
MT1379 PRELIMINARY, SUBJECT TO CHANGE WITHOUT NOTICE
MTK CONFIDENTIAL, NO DISCLOSURE
Pin Number
Symbol
Type
117
DQM0
118
BA1
119
RA10
120 121
DVDD2 RA0
122
RA1
123
RA2
124
RA3
125 126
DVSS RD31
127
RD30
128
RD29
129
RD28
130 131
DVDD3 RD27
132
RD26
133
RD25
134
RD24
135 136
DVSS DQM3
137
DQM2
Output 2~16MA, SR Output 2~16MA, SR Output 2~16MA, SR Power Output 2~16MA, SR Output 2~16MA, SR Output 2~16MA, SR Output 2~16MA, SR Ground Inout 2~16MA, SR PU/PD, SMT Inout 2~16MA, SR PU/PD, SMT Inout 2~16MA, SR PU/PD, SMT Inout 2~16MA, SR PU/PD, SMT Power Inout 2~16MA, SR PU/PD, SMT Inout 2~16MA, SR PU/PD, SMT Inout 2~16MA, SR PU/PD, SMT Inout 2~16MA, SR PU/PD, SMT Ground Output 2~16MA, SR Output 2~16MA, SR
Description Mask for DRAM input/output byte 0 DRAM bank address 0 DRAM address10 2.5V power pin for internal digital circuitry DRAM address 0 DRAM address 1 DRAM address 2 DRAM address 3 Ground pin for internal digital circuitry DRAM data 31
DRAM data 30
DRAM data 29
DRAM data 28
3.3V power pin for internal digital circuitry DRAM data 27
DRAM data 26
DRAM data 25
DRAM data 24
Ground pin for internal digital circuitry Mask for DRAM input/output byte 3 Mask for DRAM input/output byte 2
26
MT1379 PRELIMINARY, SUBJECT TO CHANGE WITHOUT NOTICE
MTK CONFIDENTIAL, NO DISCLOSURE
Pin Number
Symbol
Type
138
RD23
139
RD22
140 141
DVDD2 RD21
142
RD20
143
RD19
144
RD18
145 146
DVSS RD17
147
RD16
148
ABCK
149
ALRCK
150 151
DVDD3 ACLK
152 153
MC_DATA SPDIF
154
ASDATA0
155
ASDATA1
156
ASDATA2
Inout 2~16MA, SR PU/PD, SMT Inout 2~16MA, SR PU/PD, SMT Power Inout 2~16MA, SR PU/PD, SMT Inout 2~16MA, SR PU/PD, SMT Inout 2~16MA, SR PU/PD, SMT Inout 2~16MA, SR PU/PD, SMT Ground Inout 2~16MA, SR PU/PD, SMT Inout 2~16MA, SR PU/PD, SMT Output 4MA Inout 4MA, PD, SMT Power Inout 4MA Input Output 2~16MA, SR : ON/OFF Inout 4MA PD SMT Inout 4MA PD SMT Inout 4MA PD SMT
Description DRAM data 23 / Videoin Data PortA 7 DRAM data 22 / Videoin Data PortA 6 2.5V power pin for internal digital circuitry DRAM data 21 / Videoin Data PortA 5 DRAM data 20 / Videoin Data PortA 4 DRAM data 19 / Videoin Data PortA 3 DRAM data 18 / Videoin Data PortA 2 Ground pin for internal digital circuitry DRAM data 17 / Videoin Data PortA 1 DRAM data 16 / Videoin Data PortA 0 Audio bit clock (1) Audio left/right channel clock (2) Trap value in power-on reset : 1 : use external 373 0: use internal 373 3.3V power pin for internal digital circuitry Audio DAC master clock (384/256 audio sample frequency) Microphone serial input SPDIF output
(1) (2) (1) (2) (1) (2)
Audio serial data 0 (left/right channel) Trap value in power-on reset : 1 : manufactory test mode 0 : normal operation Audio serial data 1 (surround left/surround right channel) Trap value in power-on reset : 1 : manufactory test mode 0 : normal operation Audio serial data 2 (center/left channel) Trap value in power-on reset : 1 : manufactory test mode 0 : normal operation
27
MT1379 PRELIMINARY, SUBJECT TO CHANGE WITHOUT NOTICE
MTK CONFIDENTIAL, NO DISCLOSURE
Pin Number
Symbol
Type
157
ASDATA3
Inout 4MA PD SMT
158
ASDATA4
Inout 4MA PD SMT
159 160 161 162
DACVDDC VREF FS YUV0/CIN
163 164
DACVSSC YUV1/C
165 166
DACVDDB YUV2/Y
Power Analog input Analog output Output 4MA, SR Ground Output 4MA, SR Power Output 4MA, SR Ground
Description (1) (2)
Audio serial data 3 (surround left/surround right channel) Trap value in power-on reset : 1 : manufactory test mode 0 : normal operation OR Videoin Data PortB 1 (1) Audio serial data 4 (center/left channel) (2) Trap value in power-on reset : 1 : manufactory test mode 0 : normal operation OR Videoin Data PortB 2 3.3V power pin for VIDEO DAC circuitry Bandgap reference voltage Full scale adjustment Video data output bit 0 / Compensation capacitor Ground pin for VIDEO DAC circuitry Video data output bit 1 / Analog chroma output 3.3V power pin for VIDEO DAC circuitry Video data output bit 2 /
Analog Y output
167
DACVSSB
168
YUV3/CVBS
Output 4MA, SR
Ground pin for VIDEO DAC circuitry Video data output bit 3 / Analog composite output
169 170
DACVDDA YUV4/G
171 172
DACVSSA YUV5/B
173
YUV6/R
174
ICE
3.3V power pin for VIDEO DAC circuitry Video data output bit 4 / Green or Y Ground pin for VIDEO DAC circuitry Video data output bit 5 / Blue or CB Video data output bit 6 / Red or CR Microcontroller ICE mode enable
175
BLANK#
176
VSYN
177
YUV7
178 179
DVSS HSYN
180
SPMCLK
Power Output 4MA, SR Ground Output 4MA, SR Output 4MA, SR Input PD, SMT Inout 4MA, SR SMT Inout 4MA, SR SMT Inout 4MA, SR SMT Ground Inout 4MA, SR SMT Input
Video blank area, active low / Videoin Field_601 Vertical sync / Videoin Vsync_601 Video data output bit 7 / Videoin Data PortB 3 Ground pin for internal digital circuitry Horizontal sync / Videoin Hsync_601 Audio DAC master clock of SPDIF input / Videoin Data PortB 4
28
MT1379 PRELIMINARY, SUBJECT TO CHANGE WITHOUT NOTICE
MTK CONFIDENTIAL, NO DISCLOSURE
Pin Number
Symbol
Type
181
SPDATA
Input
182 183
DVDD2 SPLRCK
Power Input
184
SPBCK
Input
185 186 187 188
DVDD3 XTALO XTALI PRST
189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216
DVSS VFO13 IDGATE DVDD3 UDGATE WOBSI SDATA SDEN SLCK BDO ADCVSS ADIN RFSUBI TEZISLV TEI CSO FEI RFLEVEL RFRP_DC RFRP_AC HRFZC PWMVREF PWM2VREF ADCVDD3 RFDTSLVP RFDTSLVN RFIN RFIP
Power Output Input Input PD, SMT Ground Output Output Power Output Input Output Output Output Input Ground Analog Input Analog Input Analog Input Analog Input Analog Input Analog Input Analog Input A Input Analog Input Analog Input A Input A Input Power Analog Output Analog Output Analog Input Analog Input
Description Audio data of SPDIF input / Videoin Data PortB 5 2.5V power pin for internal digital circuitry Audio left/right channel clock of SPDIF input / Videoin Data PortB 6 Audio bit clock of SPDIF input / Videoin Data PortB 7 3.3V power pin for internal digital circuitry Crystal output Crystal input Power on reset input, active high Ground pin for internal digital circuitry The 1st, 3rd header VFO pulse output Header detect signal output 3.3V power pin for internal digital circuitry DVD_RAM recording data gate signal output Wobble signal input RF serial data output RF serial data latch enable RF serial clock output Flag of defect data input status Ground pin for ADC circuitry General A/D input RF subtraction signal input terminal Tracking error zero crossing low pass input Tracking error input Central servo input Focus error input Sub beam add input or RFRP low pass input RF ripple detect input RF ripple detect input (through AC coupling) High frequency RF ripple zero crossing A reference voltage input for PWM circuitry. A typical value of 4.0 v A reference voltage input for PWM circuitry. A typical value of 2.0 v 3.3V power pin for ADC circuitry Positive RF data slicer level output Negative RF data slicer level output Negative input of RF differential signal Positive input of RF differential signal
29
MT1379 PRELIMINARY, SUBJECT TO CHANGE WITHOUT NOTICE
MTK CONFIDENTIAL, NO DISCLOSURE
26 Jul, 2002
216 215 214 213 212 211 210 209 208 207 206 205 204 203 202 201 200 199 198 197 196 195 194 193 192 191 190 189 188 187 186 185 184 183 182 181 180 179 178 177 176 175 174 173 172 171 170 169 168 167 166 165 164 163
RFIP RFIN RFDTSLVN RFDTSLVP ADCVDD3 PWM2VREF PWMVREF HRFZC RFRP_AC RFRP_DC RFLEVEL FEI CSO TEI TEZISLV RFSUBI ADIN ADCVSS BDO SLCK SDEN SDATA WOBSI UDGATE DVDD3 IDGATE VFO13 DVSS PRST XTALI XTALO DVDD3 SPBCK SPLRCK DVDD2 SPDATA SPMCLK HSYN DVSS YUV7 VSYN BLANK ICE YUV6/R YUV5/B DACVSSA YUV4/G DACVDDA YUV3/CVBS DACVSSB YUV2/Y DACVDDB YUV1/C DACVSSC
Page 1 of 2
MT1379 (216 pins)
162 161 160 159 158 157 156 155 154 153 152 151 150 149 148 147 146 145 144 143 142 141 140 139 138 137 136 135 134 133 132 131 130 129 128 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 111 110 109
55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108
LPIOP LPION LPFON LPFIP LPFIN LPFOP JITFO JITFN PLLVDD3 FOO TRO TROPENPWM PWMOUT1 PWMOUT2 DVDD2 DMO FMO DVSS FG HIGHA0 HIGHA1 HIGHA2 HIGHA3 HIGHA4 HIGHA5 DVSS HIGHA6 HIGHA7 AD7 AD6 AD5 AD4 DVDD3 AD3 AD2 AD1 AD0 IOA0 IOA1 DVDD2 IOA2 IOA3 IOA4 IOA5 IOA6 IOA7 A16 A17 IOA18 IOA19 IOA20 APLLVSS
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54
APLLVDD3 ALE IOOE# IOWR# IOCS# DVSS UP1_2 UP1_3 UP1_4 UP1_5 UP1_6 DVDD3 UP1_7 UP3_0 UP3_1 INT0# IR DVDD2 UP3_4 UP3_5 UWR# URD# DVSS RD7 RD6 RD5 RD4 DVDD2 RD3 RD2 RD1 RD0 RWE# CAS# RAS# RCS# BA0 DVSS RD15 RD14 RD13 RD12 DVDD3 RD11 RD10 RD9 RD8 DVSS CLK CKE RA11 RA9 RA8 DMVDD3
IREF PLLVSS
30
YUV0/CIN FS VREF DACVDDC ASDATA4 ASDATA3 ASDATA2 ASDATA1 ASDATA0 SPDIF MC_DATA ACLK DVDD3 ALRCK ABCK RD16 RD17 DVSS RD18 RD19 RD20 RD21 DVDD2 RD22 RD23 DQM2 DQM3 DVSS RD24 RD25 RD26 RD27 DVDD3 RD28 RD29 RD30 RD31 DVSS RA3 RA2 RA1 RA0 DVDD2 RA10 BA1 DQM0 DQM1 DVSS RA4 RA5 RA6 DVDD3 RA7 DMVSS
MT1379 PRELIMINARY, SUBJECT TO CHANGE WITHOUT NOTICE
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F UNCTIONAL B LOCK
DVD module
Servo IO
Analog Front end
Servo DSP
Spindle Controller
Debug Port
Channel Decode
DPU
System Parser
CSS/ CPPM
TV encoder
Video Decoder
Video Output
Playback Controller IR/ VFD
System Controller
DRAM Interface
Flash
DRAM
Audio Processor
Audio Output
Audio DAC
SPDIF
Microphone Input
MIC
Servo Controller The servo control is accomplished through the servo DSP (Servo Digital Signal Processor) and its accessory I/O circuits. This servo DSP is capable of performing complex operations an d also provides a friendly interface for the system controller. By issuing type 1 and type 2 commands from the system controller, the servo DSP can accomplish various complicated servo control functions, such as tracking, seeking and MT1336/MT1376 chip register programming. As for the servo I/O circuits, it provides interface between the input servo signals and the Servo DSP. It has built-in ADCs to digitize the servo control signal and DACs to provide signals for the actuator and sledge motor. It also has a serial interface to communicate with the MT1336/MT1376 chip.
Analog Front End The analog front end contains a data slicer circuit and a data PLL circuit. The RF analog signal from MT1336/MT1376 is quantized by the data slicer to form the EFM/EFM+ bit st ream, from which the channel bit clock is extracted by the data PLL.The EFM/EFM+bit stream and bit clock are then output to DPU for channel bit processing.
DPU Data path unit (DPU) provides protection on data with lost synchronization patterns and demodulates EFM/EFM+ bit stream into the channel raw data that will be corrected by the decoder. The synchronization protection makes data after the synchronization pattern to be extracted even if the synchronization pattern is not found.
Spindle Controller The spindle controller is used to control disc spindle motor. It includes a varipitch CLV clock generator, a CLV/CAV controller, and a PWM generator. The varipitch CLV clock enerator generates a reference colck for the speed of operation. The CLV/CAV
31
MT1379 PRELIMINARY, SUBJECT TO CHANGE WITHOUT NOTICE
MTK CONFIDENTIAL, NO DISCLOSURE
controller changes the mode and speed of operation according to servo register setting. The PWM generator generates pulse -width-modulated signal to drive disc spindle motor driver.
CSS/CPPM The CSS/CPPM module provides functions necessary for decoding discs conforming to CSS/CPPM specification.
System Parser The system parser is used to help the system controller to decode DVD/SVCD/VCD bitstream just after the channel decoder performing error correction. Acting as a DMA master, it moves bitstream data from RSPC buffer to video, audio, or sub-picture buffer according to system controller request. It also decrypts the scramble data of the CSS/CPPM sectors. Another function of system parser is providing system controller/DSP a DRAM memory copy controller to enhance system controller/DSP performance.
Video Decoder The primary function of MT1379 is to support MPEG1 and MPEG2 video decoding. The video decode engine comprises of variable length decoder (VLD), inverse transformer (IT), motion compensator (MC), and block reconst ructor (BR). The video decode engine decodes the variable length encoded symbols in MPEG bitstream and performs inverse scan, inverse quantization, mismatch control and inverse discrete cosine transform onto the variable length decoded data. The motion compensator fetches prediction data from reference picture buffer according to motion vectors and motion prediciton mode for P and B pictures. Finally, the block reconstructor combines both the results of inverse transformer and motion compensator to derive the reconstructed image macroblock and write back to picture buffer. The video decode engine can also support JPEG and BMP file decoding by common image compression hardware kernels.
Video Output The Video Output unit contains Video Processor, SPU, OSD, Cursor, TV encoder units, it performs § Reading decoded video from DRAM buffer § Scaling the image § Gamma/Brightness/Hue/Saturation adjustment and edge enhancement § Reading and decoding SPU and OSD data from DRAM buffer § Generating hardware cursor image § Merging the video data, SPU, OSD and cursor Video Processor The Video Processor unit controls the transfer of video data stored in the DRAM to an internal or external TV encoder. It uses FIFOs to buffer outgoing luminance and chrominance data, and performs YUV420 to YUV422 conversion and arbitrary vertical/horizontal decimation/interpolation, from 1/4x to 256x. With this arbitrary ratio scaling capability, the Video Processor can perform arbitrary image conversion, such as PAL to NTSC, NTSC to PAL, MPEG1 to MPEG2, Letterbox, Pan-Scan conversion or zoom in, zoom out. It is also capible of interlace to progressive conversion. The Video Processor unit performs the following functions: § Requests and receives the decoded picture data from the picture buffer in external DRAM for display § Resample vertical data to create 4:2:2 sample format § Optionally performs vertical/horizontal resampling of both luminance and chrominance data § Performs optional Gamma correction, luminance/chrominance adjustment, and edge enhancement The V ideo Processor unit contains two 2-tap vertical filters for luminance and chrominance . These filters are used to interpolate and reposition luminance and chrominance line to improve picture quality. These filters are capble of generating up to eight, unique subline value between two consecutive scan lines. The generation of lines depends on the ratio between the height of the source image and the target image. In applications where DRAM bandwidth are critical the filters can be configured as simple line-repeating to reduce the DRAM bandwidth required. The Video Processor unit integrates two separate horizontal postprocessing filter, a simple 2-tap linear horizontal filter and an 8-tap programmable filter. These filters are provided for scaling images horizontally along the scan line. These two filters is capable of generating up to eight, unique subpixel values between two consecutive pixels on a scan line. The generation of pixels depends on the ratio between the width of the source image and the target image. SPU
32
MT1379 PRELIMINARY, SUBJECT TO CHANGE WITHOUT NOTICE
MTK CONFIDENTIAL, NO DISCLOSURE
This is a hardware sub-picture decoder. It decodes the compressed SPU image bitstream and CHG_COLCON commands according to SPU header information previously decoded by system controller. The SPU module also allows two SPU objects to be displayed at the same time. SPU image is blended with main video stream. OSD The OSD module can operate with 2/4/16/256 -color bitmap format (1/2/4/8 bits), and 16/256 color RLC format, all have 16 levels of transparency. In addition, it accepts an special WARP mode, which inserts one programmable RLC code in the bitmap to reduce the image size stored in DRAM. It also features automatic shadow/outline generation in 2-color mode, 2 Hilight areas, 1 ChangeColor area and 1 OSDVoid area. One OSD area can occupy the full or a partial screen, or multiple OSDs can occur in a screen at the same time, only if they don't occupy the same horizontal line. The output image is blended with the video-SPU mixed stream. Cursor A hardware cursor generator is integrated in Video Ou tput Unit. The cursor image is a 32x32 4-color bitmap image, each colors are programmable. Cursor can be enlarged by 2 in both vertical and horizontal directions. Cursor image is multiplexed with video-SPU-OSD mixed stream.
Audio Interface Audio interface consists of Audio Output Interface and Microphone Input Interface. Audio Output Interface The MT1379 can support up to 8 channel audio outputs. The output formats can be 16, 24, or 32-bit frames. Left alignment, 2 right alignment, or I S formats are all supported. With built-in PLL, MT1379 can provide the audio clock (ACLK) for external audio DAC at 384Fs, where Fs is usually 32KHz, 44.1KHz, 48KHz, 96KHz, or 192KHz. ACLK can also be programmed to be from outside MT1379. When ACLK is input to MT1379, the frequency could be 128*n Fs, where n is from 1 to 7. Audio raw (encoded) data or cooked (decoded) data can be output on a single line using S/PDIF interface. The output slew rate and driving force of this pad are programmable. Microphone Input Interface The MT1379 provides a microphone input interface. Two independent microphones’ data could be input to the MT1379. There are two independent digital volume control for these two input channels. The input data formats can also be left 2 alignment, right alignment, or I S formats.
System Controller MT1379 uses an embedded Turbo-8032 as System Controller and provide ICE interface to increase the feasibility of F/W development. Also, MT1379 includes an build-in internal 373 to latch lower byte address from 8032 Port 0 and provide a glue-logic free solution. MT1379 supports up to 1M X 16 bits Flash ROM to store 8032 code, H/W related data, User data, etc. F/W upgrade can be achieved either by debug interface or by disk.
33
MT1379 PRELIMINARY, SUBJECT TO CHANGE WITHOUT NOTICE
MTK CONFIDENTIAL, NO DISCLOSURE
E LECTRICAL C HARACTERISTICS Absolute Maximum Rating Symbol
Parameters
Value
Unit
VDD3 VDD2 VDDA VIN VOUT Ta
3.3V Supply voltage 2.5V Supply voltage Analog Supply voltage Input Voltage Output Voltage Ambient Temperature
-0.3 to 3.6 -0.3 to 3.0 -0.3 to 3.6 -0.3 to 5.5 -0.3 to VDD3+0.3 0 to 70
V V V V V °C
DC Charateristics Symbol
Parameters
Min
Typ
Max
Unit
VIH VIL VOH VOL IIH IIL PD PDown
Input voltage high Input voltage low Output voltage high Output voltage low High level input current Low level input current Power dissapation Power down mode
2.4 3.0 -
-
3.6 0.8 VDD3 0.5 10
V V V V uA uA W W
-10 1.0 0.1
34
8.3 Am29LV160D 16 Megabit (2 M x 8-Bit/1 M x 16-Bit) CMOS 3.0 Volt-only Boot Sector Flash Memory DISTINCTIVE CHARACTERISTICS ■ Single power supply operation
■ Embedded Algorithms
— Full voltage range: 2.7 to 3.6 volt read and write operations for battery-powered applications — Regulated voltage range: 3.0 to 3.6 volt read and write operations and for compatibility with high performance 3.3 volt microprocessors ■ Manufactured on 0.23 µm process technology — Fully compatible with 0.32 µm Am29LV160B device
— Embedded Erase algorithm automatically preprograms and erases the entire chip or any combination of designated sectors — Embedded Program algorithm automatically writes and verifies data at specified addresses ■ Minimum 1,000,000 write cycle guarantee per sector ■ 20-year data retention at 125°C
■ High performance
— Reliable operation for the life of the system
— Access times as fast as 70 ns ■ Ultra low power consumption (typical values at 5 MHz)
■ Package option — 48-ball FBGA
— 200 nA Automatic Sleep mode current
— 48-pin TSOP
— 200 nA standby mode current
— 44-pin SO ■ CFI (Common Flash Interface) compliant
— 9 mA read current — 20 mA program/erase current ■ Flexible sector architecture — One 16 Kbyte, two 8 Kbyte, one 32 Kbyte, and thirty-one 64 Kbyte sectors (byte mode)
— Provides device-specific information to the system, allowing host software to easily reconfigure for different Flash devices ■ Compatibility with JEDEC standards
— One 8 Kword, two 4 Kword, one 16 Kword, and thirty-one 32 Kword sectors (word mode)
— Pinout and software compatible with singlepower supply Flash
— Supports full chip erase
— Superior inadvertent write protection ■ Data# Polling and toggle bits
— Sector Protection features: A hardware method of locking a sector to prevent any program or erase operations within that sector Sectors can be locked in-system or via programming equipment
— Provides a software method of detecting program or erase operation completion ■ Ready/Busy# pin (RY/BY#)
Temporary Sector Unprotect feature allows code changes in previously locked sectors ■ Unlock Bypass Program Command
— Provides a hardware method of detecting program or erase cycle completion (not available on 44-pin SO) ■ Erase Suspend/Erase Resume
— Reduces overall programming time when issuing multiple program command sequences ■ Top or bottom boot block configurations available
— Suspends an erase operation to read data from, or program data to, a sector that is not being erased, then resumes the erase operation ■ Hardware reset pin (RESET#) — Hardware method to reset the device to reading array data
This Data Sheet states AMD’s current technical specifications regarding the Product described herein. This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications.
35
Publication# 22358 Rev: B Amendment/+3 Issue Date: November 10, 2000
PRODUCT SELECTOR GUIDE Family Part Number
Am29LV160D Voltage Range: VCC = 2.7–3.6 V
-70
-90
-120
Max access time, ns (tACC)
70
90
120
Max CE# access time, ns (tCE)
70
90
120
Max OE# access time, ns (tOE)
30
35
50
Speed Option
Note: See “AC Characteristics” for full specifications.
BLOCK DIAGRAM DQ0–DQ15 (A-1)
RY/BY# VCC
Sector Switches
VSS Erase Voltage Generator
RESET#
WE# BYTE#
Input/Output Buffers
State Control Command Register
PGM Voltage Generator Chip Enable Output Enable Logic
CE# OE#
VCC Detector
Address Latch
STB Timer
A0–A19
Am29LV160D
36
STB
Data Latch
Y-Decoder
Y-Gating
X-Decoder
Cell Matrix
CONNECTION DIAGRAMS
A15 A14 A13 A12 A11 A10 A9 A8 A19 NC WE# RESET# NC NC RY/BY# A18 A17 A7 A6 A5 A4 A3 A2 A1
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
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
Standard TSOP
Reverse TSOP
37
48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25
48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 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
A15 A14 A13 A12 A11 A10 A9 A8 A19 NC WE# RESET# NC NC RY/BY# A18 A17 A7 A6 A5 A4 A3 A2 A1
CONNECTION DIAGRAMS RESET# A18 A17 A7 A6 A5 A4 A3 A2 A1 A0 CE# VSS OE# DQ0 DQ8 DQ1 DQ9 DQ2 DQ10 DQ3 DQ11
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22
44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23
SO
WE# A19 A8 A9 A10 A11 A12 A13 A14 A15 A16 BYTE# VSS DQ15/A-1 DQ7 DQ14 DQ6 DQ13 DQ5 DQ12 DQ4 VCC
FBGA Top View, Balls Facing Down
A6
B6
C6
D6
E6
A13
A12
A14
A15
A16
A5
B5
C5
D5
E5
F5
G5
H5
A9
A8
A10
A11
DQ7
DQ14
DQ13
DQ6
A4
B4
C4
D4
E4
F4
G4
H4
WE#
RESET#
NC
A19
DQ5
DQ12
VCC
DQ4
A3
B3
C3
D3
E3
F3
G3
H3
RY/BY#
NC
A18
NC
DQ2
DQ10
DQ11
DQ3
A2
B2
C2
D2
E2
F2
G2
H2
A7
A17
A6
A5
DQ0
DQ8
DQ9
DQ1
A1
B1
C1
D1
E1
F1
G1
H1
A3
A4
A2
A1
A0
CE#
OE#
VSS
Special Handling Instructions Special handling is required for Flash Memory products in FBGA packages.
A
38
F6
G6
BYTE# DQ15/A-1
H6 VSS
Flash memory devices in FBGA packages may be damaged if exposed to ultrasonic cleaning methods. The package and/or data integrity may be compromised if the package body is exposed to temperatures above 150°C for prolonged periods of time.
PIN CONFIGURATION A0–A19
LOGIC SYMBOL
= 20 addresses
20
DQ0–DQ14 = 15 data inputs/outputs DQ15/A-1
A0–A19
= DQ15 (data input/output, word mode), A-1 (LSB address input, byte mode)
16 or 8 DQ0–DQ15 (A-1)
BYTE#
= Selects 8-bit or 16-bit mode
CE#
= Chip enable
CE#
OE#
= Output enable
OE#
WE#
= Write enable
RESET#
= Hardware reset pin
RY/BY#
= Ready/Busy output (N/A SO 044)
WE# RESET# BYTE#
VCC
= 3.0 volt-only single power supply (see Product Selector Guide for speed options and voltage supply tolerances)
VSS
= Device ground
NC
= Pin not connected internally
39
RY/BY# (N/A SO 044)
HY57V641620HG 4 Banks x 1M x 16Bit Synchronous DRAM
8.4 HY57V641620HG
DESCRIPTION The Hyundai HY57V641620HG is a 67,108,864-bit CMOS Synchronous DRAM, ideally suited for the main memory applications which require large memory density and high bandwidth. HY57V641620HG is organized as 4banks of 1,048,576x16. HY57V641620HG is offering fully synchronous operation referenced to a positive edge of the clock. All inputs and outputs are synchronized with the rising edge of the clock input. The data paths are internally pipelined to achieve very high bandwidth. All input and output voltage levels are compatible with LVTTL. Programmable options include the length of pipeline (Read latency of 2 or 3), the number of consecutive read or write cycles initiated by a single control command (Burst length of 1,2,4,8 or Full page), and the burst count sequence(sequential or interleave). A burst of read or write cycles in progress can be terminated by a burst terminate command or can be interrupted and replaced by a new burst read or write command on any cycle. (This pipelined design is not restricted by a `2N` rule.)
FEATURES •
Single 3.3±0.3V power supply Note)
•
Auto refresh and self refresh
•
All device pins are compatible with LVTTL interface
•
4096 refresh cycles / 64ms
•
JEDEC standard 400mil 54pin TSOP-II with 0.8mm of pin pitch
•
Programmable Burst Length and Burst Type
•
All inputs and outputs referenced to positive edge of system clock
- 1, 2, 4, 8 or Full page for Sequential Burst
•
Data mask function by UDQM or LDQM
•
Internal four banks operation
- 1, 2, 4 or 8 for Interleave Burst •
.
40
Programmable CAS Latency ; 2, 3 Clocks
HY57V641620HG
PIN CONFIGURATION VDD DQ0 VDDQ DQ1 DQ2 VSSQ DQ3 DQ4 VDDQ DQ5 DQ6 VSSQ DQ7 VDD LDQM /WE /CAS /RAS /CS BA0 BA1 A10/AP A0 A1 A2 A3 VDD
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27
54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28
54pin TSOP II 400mil x 875mil 0.8mm pin pitch
VSS DQ15 VSSQ DQ14 DQ13 VDDQ DQ12 DQ11 VSSQ DQ10 DQ9 VDDQ DQ8 VSS NC UDQM CLK CKE NC A11 A9 A8 A7 A6 A5 A4 VSS
PIN DESCRIPTION PIN
PIN NAME
DESCRIPTION
CLK
Clock
The system clock input. All other inputs are registered to the SDRAM on the rising edge of CLK
CKE
Clock Enable
Controls internal clock signal and when deactivated, the SDRAM will be one of the states among power down, suspend or self refresh
CS
Chip Select
Enables or disables all inputs except CLK, CKE and DQM
BA0,BA1
Bank Address
Selects bank to be activated during RAS activity Selects bank to be read/written during CAS activity
A0 ~ A11
Address
Row Address : RA0 ~ RA11, Column Address : CA0 ~ CA7 Auto-precharge flag : A10
RAS, CAS, WE
Row Address Strobe, Column Address Strobe, Write Enable
RAS, CAS and WE define the operation Refer function truth table for details
LDQM, UDQM
Data Input/Output Mask
Controls output buffers in read mode and masks input data in write mode
DQ0 ~ DQ15
Data Input/Output
Multiplexed data input / output pin
VDD/VSS
Power Supply/Ground
Power supply for internal circuits and input buffers
VDDQ/VSSQ
Data Output Power/Ground
Power supply for output buffers
NC
No Connection
No connection
41
HY57V641620HG FUNCTIONAL BLOCK DIAGRAM 1Mbit x 4banks x 16 I/O Synchronous DRAM
Self refresh logic & timer
Internal Row counter
1Mx16 Bank 3
CLK Row active
Column Pre Decoders
UDQM
Y decoders
LDQM
Bank Select
A0 A1
Column Add Counter
Address Registers Address buffers
A11 BA0 BA1
Memory Cell Array
Burst Counter
Mode Registers
CAS Latency
42
Data Out Control
Pipe Line Control
DQ0 I/O Buffer & Logic
Column Active
1Mx16 Bank 0 Sense AMP & I/O Gate
WE
refresh
1Mx16 Bank 1
X decoders
CAS
1Mx16 Bank 2
X decoders
RAS
State Machine
CS
Row Pre Decoders
X decoders X decoders
CKE
DQ1
DQ14 DQ15
XS403 XS02
2 1
XS09
XS402 1 2 3 4 5 6 7 8 9
XS02
XSA01 2 1
LED# GND
VCC2 VCC1 GND IR KEY1 KEY2 KEY3 S1 S2
LED# GND
LED-SOCK(1)
10K
R407
LEDA01
LED
S1 S2 S3 S4 S5 S6 S7 S8 S9 G1 G2 G3 G4 G5 G6 G7
8050
Q401
R406 470
VCC
LED#
C401 104
VCC
R401
51K
S4 S5 S6
S1 S2 S3
LEDAT LEDCK LEDST KEY1 KEY2 KEY3
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 PT6961
GND GR1 GR2 GND GR3 GR4 GND VDD GR5 GR6 SEG12/GR7 SEG11 SEG10/KS10 SEG9/KS9 SEG8/KS8 SEG7/KS7
KEY3
KEY2
KEY1
OSC DOUT DIN CLK STB K1 K2 K3 VDD SEG1/KS1 SEG2/KS2 SEG3/KS3 NC SEG4/KS4 SEG5/KS5 SEG6/KS6
K903
K902
K901
K906
K905
K904
R408
0R
LED904
D902 1N4148
R403 R404 R405 R402
XS09
XS901 1 2 3 4 5 6 7 8 9
VCC1
R411 1/4W
LED
VCC
LED907
8050
Q402
R410 1/4W
VCC
LED905 LED906
10K
R409
LED
LED902 LED903
C401 104
VCC1
S9 S8 S7
G4 G1 G7
G3 G6
G5 G2
LED901
D901 1N4148
TC401 220uF/16V
32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17
S1
A B C D E F G
1 2 5 7 10 12 14 15 16 11 13 8 4 9 6 3
VCC
1
LED401
1
2
1 2
1 2 S2
1 2
1 2
1 2
1 2
43
2
U401
VCC2 VCC1 GND IR KEY1 KEY2 KEY3 S1 S2
VCC2
VCC
IR
100R
R412
10K 10K 10K 0R
TC402 100uF/16V
C901 104
7 6 5 4 3 2 1
1 2
3
VCC2 TC403 100uF/16V
IR VCC GND LEDST LEDCK LEDAT
U901 HS0038A2
XS07
XS401
9. SCHEMATIC & PCB WIRING DIAGRAM
FRONT SCHEMATIC DIAGRAM
FRONT SCHEMATIC DIAGRAM
44
!
BCN502 SW-SPST
!
D501 1N4007
!
BCN501 ~220V
F501 T1.6A/250V
!
L502
!
BC502 ~275V 104
TC501 47uF/400V
D504 1N4007
D503 1N4007
3
R501 680K 1/2W
U501 5L0380R
GND
FB
R502 120K/2W
FB
D502 1N4007
L503 2 D
45 VCC
1
4
R504 1M
C503 101/1KV
R503 39K/2W
D506 HER105
C506 223
TC502 47uF/50V
R505 33ohm
D505 HER107
C502 103/1KV
!
C505 101
BC503 ~400V 471
U502 HS817
!
10
7 EI28/8
11
6 9
12
14 13
15
16
4
3
2
T501
!
C514 101
D511 HER105
C513 101
D512 HER105
C511 101
HER306
C509 101
D509 SR360
D510
D508 HER105
U503 LM431A
R512 330
TC512 47uF/50V
L506 TC509 10uH/2A 1000uF/10V
TC505 1000uF/10V
L507 10uH/2A
TC503 470uF/16V
L505 10uH/1A
A
K
R
C515 104
R507 10K
R509 12K
TC510 1000uF/10V
TC506 1000uF/10V
TC504 470uF/16V
R510 4.7K
R508 4.7K
TC511 100uF/16V
+3.3V
C510 104
+5V
C508 104
5.1V ZD501
FL+ FL-21V DGND +5V
1 2 3 4 5
XS05
CN501
TC513 100uF/16V
R511 220R/1W
+9V
1
-9V
IN
6 5 4 3 2 1
1 2 3 4
ZD502 9.1V/1W
DGND SD+5V DGND SA+5V DGND +9V
SD+5V DGND DGND +12V
OUT
3
+5V -9V +9V AGND OK DET
1 2 3 4 5 6
CN504 XS06
CN503 XS10
100uF/16V
TC508
SA+5V
VOICE-DET 1 OK 2 AGND 3 +9V 4 -9V 5 DGND 6 +5V 7 DGND 8 +3.3V 9 +3.3V 10
CN502 XS06
XS04
CN505
U504 LM7805
GND 2
C507 101
POWER BOARD SCHEMATIC DIAGRAM
POWER BOARD SCHEMATIC DIAGRAM
46
1 2 3 4 5 6
XS06
XS601
MIC601
MIC602
+5V -9V +9V AGND OK DET
9 8 7 6 5 4 3 2 1
9 8 7 6 5 4 3 2 1
+9V
L601
L602
R621 10ohm1/6W
1 2 3 4 5 XS05
XS602
R602 22K
TC602 4.7u
TC615 47uF/16V
C603 103
R603 560R
R608 1K
C601 104
+9VA
OUT1 OUT2 AGND MIC1 MIC2
C604 103
R604 560R
TC606 22uF/16V
R601 22K
TC601 4.7uF
-9V
R606 10K
5
6
R605 10k
3
2
4
100p
1
4558
U601A
TC616 47uF/16V
R622 10ohm1/6W
U601B 4558 7
C606 100p
R610 10K
+9VA
8
TC604 4.7uF/16V
C602 104
-9VA
MIC1
OUT1
OUT2
TC603 4.7uF/16V MIC2
-9VA
4.7K
R618 10K
R611 4.7K
R612
10K
R623
3
2
C607
100P -9VA
R613 5.1K
4 +9VA
8
10K
1 U602A 4558
C608 102
4.7uF/16V
TC613
MIX
R616 330
R615 100K
VRB01 10K
R617 100K
+5V
5
6
VRB02 10K 2 OUT2
C605
2 OUT1
R609
1
R607 1K
3
TC605 22uF/16V
3
47 7
MIC
100
R619
麦克风副板
U602B 4558
1
OK
XSB01 XS05
VD602 1N4148
1 2 3 4 5
OUT1 OUT2 GND MIX MIC
TC611 47uF/16V
VD603 1N4158
VD601 1N4148
R620 1K
DET
OK SCHEMATIC DIAGRAM
OK SCHEMATIC DIAGRAM
48
C
Y
PDAT0
PDAT2
XS28
XS701 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28
R712 2.2K
2.2K
R710
330R
+10V R709
TC706 220uF/16V
TC705 220uF/16V
R704 4.7K
VCC
FBSMT
L712
L711 FBSMT
AGND VGND
VGND
LFE +10V
CC
SR
SL
R
VIEDO PDAT0 L
Pb
Y1
Pr
C
PDAT2 PDAT1 SPDIF VCC Y
AGND
V703 8050
R711 1K
A+10V
AGND
V702 8050
R708 33R
A+10V
4
3
AGND
R713 0R
VGND
C707 105
VGND
2 1
49 K J 703 S-VIDEO
SPDIF
AGND
C710 104
V701 8050
R705 75R
L714 FCM
L713 FCM
SPDIF
C709 104
AGND
VCC
68R
R703
C708 224
100R
R702
AGND
VCC
2
20
18
16
14
12
10
8
6
4
6
5
AGND
C711 104
VJS3921
A(BO ) UT A(B)IN A(AO ) UT A-COM RETURN A(AI)N BLUE I/O FUNC SW RETURN CONT GREEN I/O NC RETURN RETURN RED I/O BLK I/O RETURN TRTURN V-OUT V-IN GND
K J 706
R701 220R
VGND
21
19
17
15
13
11
9
7
5
3
1
K J 704 V-OUT5
VGND
R707
A+10V
3
2
GND
VCC
K J 705 OPTICAL 1 VIN
7
AGND
Pr
Pb
VIEDO
Y1
TC701 220uF
R
L
SR
SL
FB
TC704 220uF/16V
TC703 220uF/16V
G
C706 102
C705 102
C704 102
C703 102
C702 102
C701 102
R
B
R706 2.2R
L706
FB
L705
FB
L704
FB
L703
FB
L702
FB
L701
TC702 1000uF/10V
LFE
CC
FBSMT
L708
FBSMT
L707
L710 FBSMT
FBSMT
L709
AGND
VGND
12
10
9
7
6
4
3
11
8
5
2
1
6
4
3
RCA-407
5
2
1
K J 702
RED
BLUE
VIDEO
GREEN
RED
WH ITE
K J 701 AV8
OUTPUT BOARD SCHEMATIC DIAGRAM
OUTPUT BOARD SCHEMATIC DIAGRAM
50
R336 1R
151
C334
750K
R331
1.5K
R338
2.2R\1/4W
R341
R322 470R
TC308 47uF/16V
R333 330K
27pF
C333
C337 104
TC304 C335 47uF/16V 104 20K
GND FMSO R316
VCC
TROPEN (TRCLOSE1)
LOAD-
R334 330K
C330 104
C329 104
V307 8050
V306 8550
0R
V308 8050
V309 8550
PREGND VINLD CTK2 CTK1 VINTK BIAS STBY
VOTK+ VOTKVOLD+ VOLDPGND VNFTK PVCC2
V310 9014-S
V1P4 SP-
VOFC+ VOFCVO2+ VOSLPGND PVCC1 VCC
R323 470R
R342 1.5K
10K
R339
VCC
LOAD+
FOSO
V1P4
SPSP+
(TRCLOSE1)TROPEN
(TROPEN1) TRCLOSE
1 2 3 4 5 6
XS303 XS06
7 6 5 4 3 2 1
TC309 47uF/16V
VINFFC VOSL VINSLVINSL+ CF2 CF1 VINFC
14 13 12 11 10 9 8
R315 LDO-AVCC 22R
TC303 47uF/16V
V302 2SB1132-S LDO1
V301 2SB1132-S
TC302 47uF/16V LDO2
R314 22R LDO-AVCC
TC301 220uF/16V
U302 BA5954
ADIN OPOP+
OPO
22 23 24 25 26 27 28
15 16 17 18 19 20 21
F B A RFO IOA D C
V20
E
MD11
C328 104
AVCC
VCC
R335 C341 750K 104
R332
TRSO V1P4 STBY
C336 104
0R FBSMT FBSMT FBSMT FBSMT FBSMT FBSMT FBSMT FBSMT FBSMT FBSMT FBSMT
R337 L312 L314 L316 L317 L318 L319 L320 L321 L322 L323 L324
SL+ SL-
FBSMT FBSMT
L310 L311
R313 1R
FBSMT FBSMT 10uH FBSMT FBSMT
L304 L305 L306 L307 L308
R312 1R
FBSMT 10uH
L301 L303
24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
XS301 24P0.5mm
29 30
FBSMT
10K
XS302 5P2.0mm 1 2 3 4 5
SP+
SL+ SLLIMIT
R317 1R
TRIN
LOADLOAD+ TROUT
C331 151
R320 20K
R318 1R
VCC
FBSMT
RVCC
FBSMT
AVCC
R321 20K
R319
L327
L326
DV33 L325
V303 2SK3018-S
10K
0R
0R
0R
C332 104
DMSO
R346
R345
R344
RFVCC
C342 101
RVCCIN
LDO-AVCC
100K
R310
10K
R311
AVCC
V304 2SK3018-S
V305 3904-S
R309
100K
A D
C C B
C318
105
105
105
C316 C317
105
C315
A B
RVCCIN
DD# CC# BB# AA#
105(DNS)
104
104
104
C326 104
D
RFO C314
C313
C312
C311
SW1
OPO OPOP+
C327 104
IOA
65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 AGNDF VCON AVDDF AGNDX AVDDM COSPHI HALLCOS REFCOS AGNDM HALLSIN REFSIN SINPHI SW0 SW2 SW1 MOP MON AGNDX AGNDX CEON CEOP RFGCI RFGCU RFFGC OSP OSN CDD CDC CDB CDA DVDRFIN DVDRFIP DVDD DVDC DVDB DVDA MA MB MT1336E_128
U301
SCLK
PWMOUT2 URST SDATA SDEN R307 33K
F E
GND GND
TRCLOSE IOA ENDM STBY LIMIT TROUT TRIN
64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 AVDDP AGNDX AGNDP DPDMUTE RST SDATA SDEN GNDS SCLK XCK16M VDDS IOB IOA IO9 IO8 IO7 IO6 IO5 IO4 IO3 IO2 IO1 IO0 HDGATE UDGATE GND MC MD SA SB AGND IR AVDD SC SD CDFOP CDFON SVDD TPI TNI SGND WGAND AGC1 WAVDD AGC2 AGC3 MD12 MD11 LDO1 LDO2 RFSUBO WGND C319 153
103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128
51
MD11 LDO1 LDO2
R308
VFO13 VDD AGNDX AGNDX AGNDX DPFO DPFN GNDP HTRC TRLP TRLPA CRTPLP CRTP HRFRP LRFRP DEFECT VDDP TEO CSO LVL FEO V20 VREFO V2REFO AVDDT TM4 AGNDT TM3 TM2 TM1 AGNDO RFON RFOP AVDDO AGNDX AGNDX WVDD WOBSO
38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
RFVCC
TRCLOSE TROPEN ENDM STBY
C324 104
RVCCIN
C321 104
RVCCIN
C302 104
C304 391
C306 333
R301 100K
C308 153
C325 104
C322 104
C323 104
C303 TC306 104 10uF/16V
C305 391
R324 R325 27pF R326 R327 27K
C339 104
10K 10K 10K 10K
TC305 C320 47uF/16V 104
RFON RFOP
TEO CSO RFL FEO V20 V1P4 V2P8
BDO
CRTP RFRP
C301 104
C338 104
HTRC
R302
C310
R303 R304 R305 R306
TC307 10uF/16V
C307 471
C309 10pF
0R 0R GND DNS HSYNC# DNS SW1
MIAN SCHEMATIC DIAGRAM
52
AGND
VDATA3
IEC958
XS13
XS203 1 2 3 4 5 6 7 8 9 10 11 12 13
AGND
+9V
150R
R256
FBSMT(DNS)
FBSMT(DNS)
FBSMT(DNS)
L208 L251 FBSMT(DNS)
L223
L224
VIDEO_U
VIDEO_Y1
VIDEO_V
VIDEO_C
+5V VIDEO_Y
HSYNC# VSYNC#
+5V
FBSMT(DNS)
FBSMT(DNS)
R244 0R
R243 0R(DNS)
R242 0R
VGND AGND
LFE
Cc
SR
SL
Rt
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28
+9V PDAT0
Rt
Lt
XS28
C297
DV33
2Q01 8050
L205 FB
V25
VCC
BA1
R284
R283 33R
33R
VCC
19 18 17 16
DCS# DRAS# DCAS# DWE#
54 41 28
36 40
15 39
38 37
SDCLK SDCKE
DQM 0 DQM 1
23 24 25 26 29 30 31 32 33 34 22 35 20 21
C2153 104
V25
C2154 104
VCC VCC VCC
VSSQ VSSQ VSSQ VSSQ
VCCQ VCCQ VCCQ VCCQ
SDRAM 64M
VSS VSS VSS
NC NC
DQM L DQM H
/CS /RAS /CAS /WE
CLK CKE
DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ1 0 DQ1 1 DQ1 2 DQ1 3 DQ1 4 DQ1 5
0R
R257
6 12 46 52
3 9 43 49
1 14 27
2 4 5 7 8 10 11 13 42 44 45 47 48 50 51 53 DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ1 0 DQ1 1 DQ1 2 DQ1 3 DQ1 4 DQ1 5
C2151 104
AVCC
C2152 104
A5V
VGND
FB
L209
A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10/AP A11 BA0/A13 BA1/A12
U211
A5V
TC211 220uF/16V
TC213 220uF/16V IEC958
AV33
DMA0 DMA1 DMA2 DMA3 DMA4 DMA5 DMA6 DMA7 DMA8 DMA9 DMA10 MA11 BA0 #BA1
U209 LM1117MP-2.5(DNS)
AV33
U208 BA033FP(DNS)
104 TC208 TC207 220uF/16V 220uF/16V
DMA11
104
XS204
VIDEO_Y1
VIDEO_U
VIDEO_V
C296
104
RVCC VCC
C295
+9V
C294 104
FBSMT(DNS) VIDEO_COMP L225
L226
L227
FBSMT(DNS)
VIDEO_COMP R241 Lt 0R(DNS)
XS205 XS17(DNS) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17
GND
ASTB L219
L228
L218 FB FB
HSYNC# VSYNC# GND B GND R GND G GND CVBS GND
FB
L250
GND A5V PDAT0 MUTEA
FB
L249
L241 L242
FBSMT VOICE-DET FBSMT OKA GND FB FB
L239 L240
-9V
IN GND OUT 1 2 3 GND OUT IN 1 2 3
SD33
SD33
C2150 104
C236 104
10
TC203 10uF/16V
HCU04
U205E 11
12
Y6
Y5
Y4
Y1
Y2
Y3
HCU04
U205F
R224 0R(DNS)
13
SPDIF#
VGND
R280 150R
VGND
150R
R276
VGND
R273 150R
VGND
R270 150R
VGND
R274 150R
VGND
R262 150R
L248 0R
L247 0R
0R
L246
L245 0R
L244 0R
L243 0R
VGND
VGND
C265 101 VGND
C268 101 VGND
C269 101
C271 101 VGND
L215 1.8uH
C270 20pF(DNS)
C266 101
L214 1.8uH
C267 20pF(DNS)
C263 101
L213 1.8uH
C264 20pF(DNS)
C260 101
C262 101
20pF(DNS)
L212 1.8uH
C261
VGND
C259 101
L211 1.8uH C257 101
C256 101
A5V
C258 20pF(DNS)
C254 101
L210 1.8uH
C255 20pF(DNS)
2Q15 3906-S
2Q17 3906-S
2Q14 3906-S
R281 150R
A5V
2Q20 3906-S
R277 150R
A5V
2Q13 3906-S
R272 150R
A5V
2Q16 3906-S
R271 150R
A5V
R275 150R
A5V
150R
R263
VIDEO_V
VIDEO_U
VIDEO_Y1
VIDEO_COMP
VIDEO_C
VIDEO_Y
MIAN SCHEMATIC DIAGRAM
C253 104
C227 104
R252
AV33 R251
C202 104
C207 104
U205A HCU04
C217 331
C241 47pF
XS07
XS201 7 6 5 4 3 2 1
XS04(DNS)
XS202 1 2 3 4
27MHZ
JITFO JITFN
LPFOP
LPFIP
C216 101
C272 104
C209 104
C204 104
C242 47pF
L201 L202 L203 L217
C243 47pF
R210 0R
DV33 RXD TXD GND
C223 27pF
0R
3
103
103
C214
C215
10K 15K
R206 R207
IR#
C244 47pF
VCC GND VSTB VSCK VSDA VSDA1
IR R211 4.7K
R212 4.7R
A2 A3 A4 A5 A6 C2149 A7 10pF(DNS) A16 A17 A18 A19 A20 C224 GND 104 AV33
AD3 AD2 AD1 AD0 A0 A1
A14 A15 AD7 AD6 AD5 AD4
C226 225
0R
R205
750K
103
C212
8.2K
20K 18K
FG A8 A9 A10 A11 A12 A13
102
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54
GND
102
C239
C234 104
C230 104
IREF PLLVSS LPIOP LPION LPFON LPFIP LPFIN LPFOP JITFO JITFN PLLVDD3 FOO TRO TROPENPWM PWMOUT1 PWMOUT2 DVDD2 DMO FMO DVSS FG HIGHA0 HIGHA1 HIGHA2 HIGHA3 HIGHA4 HIGHA5 DVSS HIGHA6 HIGHA7 AD7 AD6 AD5 AD4 DVDD3 AD3 AD2 AD1 AD0 IOA0 IOA1 DVDD2 IOA2 IOA3 IOA4 IOA5 IOA6 IOA7 A16 A17 IOA18 IOA19 IOA20 APLLVSS
RFIP
RFIN
TC201 10uF/16V
0R(DNS) 0R
100K
C238
TC204 47uF/16V
C206 RFON 104 RFOP C211DV33 104
GND
RFRPC R218 HTRC R219 V2P8
R203 R204
R202
C213 103
R209 10R(DNS)
XO
4
U205B HCU04
FBSMT FBSMT FBSMT FBSMT
R239 0R(DNS)
R255
2
C2113 104
V25
R201
C210 104
C205 104
C240 104
SCL SDA
C201 104
C218 C219 C220 C221 331 103(DNS) 153 104 AVCC
L216 FBSMT
C225 47pF
C222 X201 27pF 27MHz
R238 0R(DNS) R208 100K
1
V1P4
8 7 6 5
LPIOP LPION
4.7R
4.7R
C208 104
C203 104
DC/NC VCC RST_/NCRST/WP WP/RST_ SCL VSS SDA
FOSO TRSO TROPEN PWMOUT1 PWMOUT2 V25 DMSO FMSO
1 2 3 4
R217
PRD# PWR# PCE#
33R 33R 33R
DRD# R2107 DWR# R2108 DCE# R2109
R228 1K
V1P4
C231 104
C273 C274 101 101
VSCK VSDA VSTB SCL GND
R227 1K
SDA
XI
ADIN R285 4.7K IR
0R
XTALI
L330 FBSMT
DV33
TC202 10uF/16V
R236 0R(DNS)
URST XI XO
RFRP RFZC C233 RFRPC 102 RFL FEO CSO TEO R216 18K VDATA3
PDAT0 DV33
R240
BDO SCLK SDEN SDATA RXD TXD
104
C232
DACV33C TC219 10uF/16V
MT1379E_216
U201
YUV0/CIN FS VREF DACVDDC ASDATA4 ASDATA3 ASDATA2 ASDATA1 ASDATA0 SPDIF MC_DATA ACLK DVDD3 ALRCK ABCK RD16 RD17 DVSS RD18 RD19 RD20 RD21 DVDD2 RD22 RD23 DQM 2 DQM 3 DVSS RD24 RD25 RD26 RD27 DVDD3 RD28 RD29 RD30 RD31 DVSS RA3 RA2 RA1 RA0 DVDD2 RA10 BA1 DQM 0 DQM 1 DVSS RA4 RA5 RA6 DVDD3 RA7 DMVSS
V25
TC215 47uF/16V L329 FBSMT
C2137 104
FBSMT C235 104
DV33
162 161 160 159 158 157 156 155 154 153 152 151 150 149 148 147 146 145 144 143 142 141 140 139 138 137 136 135 134 133 132 131 130 129 128 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 111 110 109
C237 104 34 18 17 16
SDCKE DCS# DRAS# DCAS#
4.7R
AV33
ASPDIF RDQM 3 RDQM 2 RDQM 1 RDQM 0 DCKE DCLK
ASDAT2 ASDAT1 ASDAT0 ASPDIF AMDAT ACLK
R254 R249 R248 R247 R246 R235 R234
DMA7
DMA4 DMA5 DMA6
DMA10 BA1 RDQM 0 RDQM 1
DMA3 DMA2 DMA1 DMA0
DQ2 8 DQ2 9 DQ3 0 DQ3 1
DQ2 4 DQ2 5 DQ2 6 DQ2 7
DQ2 2 DQ2 3 RDQM 2 RDQM 3
DQ1 8 DQ1 9 DQ2 0 DQ2 1
ALRCK ABCK DQ1 6 DQ1 7
DQM 1
DQM 0
33 37
36
14
15
35
SDCLK
DWE#
21 22 23 24 27 28 29 30 31 32 20 19
DMA0 DMA1 DMA2 DMA3 DMA4 DMA5 R237 DMA6 1.5K DMA7 DMA8 DMA9 DMA10 BA0
Y0 FS VREF DACV33C
C228 225 R213
VGND
C229 104(DNS)
L331
4.7R(DNS) R214
DV33
DQ7 DQ6 DQ5 DQ4
14
SPBCK SPLRCK 33R 33R 33R 33R 33R
DQ3 DQ2 DQ1 DQ0 R229 R230 R231 R232 R233 DWE# DCAS# DRAS# DCS# BA0
7
SPDATA SPMCLK HSYNC# VGND Y7 VSYNC# VSDA1 DQ1 5 DQ1 4 DQ1 3 DQ1 2
XTALI
Y6 Y5 VGND Y4 DACV33A Y3 VGND Y2 DACV33B Y1 VGND
216 215 214 213 212 211 210 209 208 207 206 205 204 203 202 201 200 199 198 197 196 195 194 193 192 191 190 189 188 187 186 185 184 183 182 181 180 179 178 177 176 175 174 173 172 171 170 169 168 167 166 165 164 163 DQ1 1 DQ1 0 DQ9 DQ8
1K
FB
VSS VSS
VSSQ VSSQ VSSQ VSSQ
VCCQ VCCQ VCCQ VCCQ
VCC VCC
DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ1 0 DQ1 1 DQ1 2 DQ1 3 DQ1 4 DQ1 5
RST#
VD
VOICE-DET
DV33 L204
33R SPDIF# 33RDQM 3 33R DQM 2 33R DQM 1 33R DQM 0 33R SDCKE 33R SDCLK
R2160
R259 0R
0R
R261
NC NC
DQM H
DQM L
WE
CAS
RAS
CS
CKE
CLK
A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 BA/A11
U203 SDRAM 512* 16* 2
26 50
4 10 41 47
7 13 38 44
1 25
2 3 5 6 8 9 11 12 39 40 42 43 45 46 48 49
C245 104
R2157 10K
UPA[20..0]
TC217 10uF/16V
2Q04 9014
VD201 1N4148
A19 A18 A8 A7 A6 A5 A4 A3 A2
DWR# RSET VP
A16 A15 A14 A13 A12 A11 A10 A9 A20
R2158 1K
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
33 37
36
14
15
16
17
18
34
35
21 22 23 24 27 28 29 30 31 32 20 19
NC NC
DQM H
DQM L
WE
CAS
RAS
CS
CKE
CLK
5
9
RST#
8
U205C HCU04 U205D HCU04
C2148 102
0R L206
R220
48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25
0R
R2162
33R
GND A0 AD7 AD14 AD6 AD13 AD5 AD12 AD4 VD AD11 AD3 AD10 AD2 AD9 AD1 AD8 AD0 DRD# GND DCE# A1
A17
URST
RSET R260 0R(DNS)
R2163 0R(DNS)
AVCC
VCC
DQ1 6 DQ1 7 DQ1 8 DQ1 9 DQ2 0 DQ2 1 DQ2 2 DQ2 3 DQ2 4 DQ2 5 DQ2 6 DQ2 7 DQ2 8 DQ2 9 DQ3 0 DQ3 1 SD33
TC206 47uF/16V
26 50
4 10 41 47
7 13 38 44
1 25
2 3 5 6 8 9 11 12 39 40 42 43 45 46 48 49
C252 104
DV33
C251 104
VSS VSS
VSSQ VSSQ VSSQ VSSQ
VCCQ VCCQ VCCQ VCCQ
VCC VCC
DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ1 0 DQ1 1 DQ1 2 DQ1 3 DQ1 4 DQ1 5
TC237 FB(DNS) 47uF/16V R2159 6
8M_FLASH(TSOP) VD
A16 BYTE Vss DQ1 5/A-1 DQ7 DQ1 4 DQ6 DQ1 3 DQ5 DQ1 2 DQ4 Vcc DQ1 1 DQ3 DQ1 0 DQ2 DQ9 DQ1 DQ8 DQ0 OE Vss CE A0
C250 104
A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 BA/A11
U204 SDRAM 512* 16* 2
C249 104
A15 A14 A13 A12 A11 A10 A9 A8 A19 NC WE RESET NC NC RY/BY A18 A17 A7 A6 A5 A4 A3 A2 A1
U214
C248 104
C2146 104
DQM 3
DQM 2
DWE#
DCAS#
DRAS#
DCS#
SDCKE
SDCLK
DMA0 DMA1 DMA2 DMA3 DMA4 DMA5 DMA6 DMA7 DMA8 DMA9 DMA10 BA0
C247 104
SD33
UPD[15..0]
C246 104
DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ1 0 DQ1 1 DQ1 2 DQ1 3 DQ1 4 DQ1 5 SD33
AVCC
R221 4.7K(DNS)
4.7K 4.7K
RFIP RFIN RFDTSLVN RFDTSLVP ADCVDD3 PWM2VREF PWMVREF HRFZ C RFRP_AC RFRP_DC RFLEVEL FEI CSO TEI TEZIS LV RFSUBI ADIN ADCVSS BDO SLCK SDEN SDATA WOBSI UDGATE DVDD3 IDGATE VFO13 DVSS PRST XTALI XTALO DVDD3 SPBCK SPLRCK DVDD2 SPDATA SPMCLK HSYN DVSS YUV7 VSYN BLAANK# ICE YUV6/R YUV5/B DACVSSA YUV4/G DACVDDA YUV3/CVBS DACVSSB YUV2/Y DACVSSB YUV1/C DACVSSC
APLLVDD3 ALE IOOE# IOWR# IOCS# DVSS UP1_2 UP1_3 UP1_4 UP1_5 UP1_6 DVDD3 UP1_7 UP3_0 UP3_1 INT0# IR DVDD2 UP3_4 UP3_5 UWR# URD# DVSS RD7 RD6 RD5 RD4 DVDD2 RD3 RD2 RD1 RD0 RWE# CAS# RAS# RCS# BA0 DVSS RD15 RD14 RD13 RD12 DVDD3 RD11 RD10 RD9 RD8 DVSS CLK CLE RA11 RA9 RA8 DMVDD3
55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 DCLK DCKE DMA11 DMA9 DMA8
4.7K R215 R223
53
R222
U202 AT24C02/X4050
MIAN SCHEMATIC DIAGRAM
OKA
C284 102(DNS)
150R(DNS)
R2180
AMDAT
SACLK SBCLK SLRCK
C286 105(DNS)
C285 105(DNS)
AVCC
Rt
R2116 100K
R2115 100K
R2114 100K
R2113 100K
R2112 100K
R2111 100K
1 2 3 4 5 6 7
AGND
PCM1801(DNS)
VL VR DGND VDD SCKI BCK LRCK
U210
C283 104
C280 104
AGND
C282 104
VREF1 VREF2 AGND VCC FMT BYPAS DOUT
TC242 C287 104(DNS) 10uF/16V(DNS)
Cc
LFE
SL
AGND
SR
Lt
C281 104
AGND
-9V
AGND
C279 104
CH-R
CH-C
CH-SW
CH-SL
R278 0R(DNS)
ACLK ABCK ALRCK ASDAT0 ASDAT1 ASDAT2
10uF/16V
TC224
10uF/16V
TC223
10uF/16V
TC222
10uF/16V
TC221
10uF/16V
TC241
10uF/16V
TC240
MUTE-1
CH-SR
CH-L
C288 104(DNS) TC243 1uF/16V(DNS) TC244 1uF/16V(DNS) AGND
R268 0R(DNS)
R2128 1K
2Q10 2SC1815-YS
14 13 12 11 10 9 8
1K
1K R2126
1K R2125
R2124
1K
R2123
1K
R2127 1K
2Q09 2SC1815-YS
2Q08 2SC1815-YS
2Q07 2SC1815-YS
1K R2122
R2121
1K 2Q06 2SC1815-YS R2120 1K
R2119
1K
1K 2Q05 2SC1815-YS R2118
R2117
R269 0R(DNS)
R291 R292 R293 R294 R295 R296
7
33R 33R 33R 33R 33R 33R
1
7
-9V
+9V
C2117
R2137
-9V
+9V
101
4580 U221B
5
6
4.7K
4.7K
4.7K
4.7K
4.7K
4.7K
4.7K
4.7K
4.7K
4.7K
AGND
C2127 102
R2151
R2150
AGND
C2124 102
R2147
AGND
C2121 102
R2143
R2142
AGND
C2118 102
R2139
R2138
AGND
C2115 102
R2135
R2134
AGND
R2146
R2149 20K C2126 101
3 U221A 4580
2
C2123 101
R2145 20K
5 U220B 4580
6
101
R2141 20K
U220A 4580
3
2
4.7K
4.7K C2112 102
R2131
R2130
20K
U219B 4580
5
6
101
20K
U219A 4580
C2120
SACLK SBCLK SLRCK SDATA0 SDATA1 SDATA2
-9V
+9V
-9V
+9V
-9V
+9V
1
7
C2114
-9V
3
2
101
20K C2111
+9V
R2133
1
R2129
8
4 8
4 8
4
C278 104
R279 0R(DNS)
8 4 8 4 8
54 4
+9V
C2136 122
R2155 6.8K
C2135 122
R2154 6.8K
C2133 122
0R
C2128
C2134 683(DNS)
R2153 6.8K
C2130 122
R2152 6.8K
C2129 122
OKA
SW
C2119 0R
MUTE3
MUTE2
MUTE1
VD209 1N4148
VD208 1N4148
VD207 1N4148
/C
SL#
R2106 1K
R2105 1K
SR#
RST# SCL SDA
SDATA0 SDATA1 SDATA2 SBCLK SLRCK SACLK
R282 0R
VCC
MUTEA
R253 -9V 330R
2Q11 1015
TC238 R266 2.2uF/16V(DNS) 1K
TC230 10uF/16V
TC229 10uF/16V
TC228 10uF/16V
CS4360
VLS SDIN1 SDIN2 SDIN3 SCLK LRCK MCLK VD GND RST SCL SDA CS VLC
U207
R267 +9V 1K
10uF/16V
TC227 10uF/16V
TC226
1 2 3 4 5 6 7 8 9 10 11 12 13 14
10uF/16V
C292 104
DV33
TC225
TC231 10uF/16V
0R
0R(DNS)
C293 104
R226
R225
C2132 683(DNS)
683(DNS)
C2138
C2131 0R
L
R
C2116 102
AGND
R2148 6.8K
20K
R2156
C2122 122
R2136 6.8K
20K
R2132
AVCC
R265 10K
AGND
C#
AGND TC234 47uF/16V
0R
R250 10K
TC232 10uF/16V
TC233 10uF/16V
2Q19 1015
MUTE-1
VOICE-DET
C289 104
C290 104
C# LFE# MUTE3
MUTE1 LL RR MUTE2 LS RS
VD205 1N4148
LFE#
LS
RS
LL
RR
AGND
2Q18 1015
R297
28 27 26 25 24 23 22 21 20 19 18 17 16 15
2Q12 2SC1815-Y
MUTEC1 AOUTA1 AOUTB1 MUTEC2 AOUTA2 AOUTB2 VA GND AOUTA3 AOUTB3 MUTEC3 VQ FILT+ M2
C291 104
R264 150R
AGND
TC236 10uF/16V
AVCC
+9V TC235 220uF/16V
VD206 1N4148
MIAN SCHEMATIC DIAGRAM
MIAN SCHEMATIC DIAGRAM
55
10. SPARE PARTS LIST BBK963S(RU)MATERIAL LIST 1. DECODE BOARD NO
MATERIAL
SPECIFICATIONS/PART NUMBER
QUANTITY
LOCATION C2119,C2128,C2131,L243~L248,R2 05,R219,R220,R226,R240,R241,R24 3,R255,R257,R259,R282,R332,R337 ,R2162,R286,R268,R278
1
SMD RESISTOR
1/16W 0Ω ±5%
26
2 3 4 5 6
SMD RESISTOR CARBON FILM RESISTOR SMD RESISTOR SMD RESISTOR SMD RESISTOR
1/16W 75Ω ±5% 1/4W2.2Ω±5% 1/16W1Ω±5% 1/16W 4.7Ω ±5% 1/16W 15Ω ±5%
1 1 5 4 2
7
SMD RESISTOR
1/16W 33Ω ±5%
22
8
SMD RESISTOR
1/16W 470Ω ±5%
2
9
SMD RESISTOR
1/16W 150Ω ±5%
14
10
SMD RESISTOR
1/16W 330Ω ±5%
1
11
SMD RESISTOR
1/16W 1K ±5%
20
12 13
SMD RESISTOR SMD RESISTOR
1/16W 1.5K ±5% 1/16W 2K ±5%
2 1
14
SMD RESISTOR
1/16W 4.7K ±5%
15
15
SMD RESISTOR
1/16W 6.8K ±5%
6
R227,R228,R266,R267,R2105,R 2106,R2117~R2128,R2158,R216 0 R338,R342 R237 R222,R223,R2130,R2131,R2134, R2135,R2138,R2139,R2142,R21 43,R2146,R2147,R2150,R2151,R 285 R2136,R2148,R2152~R2155
16
SMD RESISTOR
1/16W 8.2K ±5%
1
R201
17
SMD RESISTOR
1/16W 10K ±5%
13
R206,R250,R265,R303~R306,R3 09,R311,R319,R339,R2157,R210
18 19 20
SMD RESISTOR SMD RESISTOR SMD RESISTOR
1/16W 15K ±5% 1/16W 20K ±5% 1/16W 18K ±5%
2 4 2
21
SMD RESISTOR
1/16W24K±5%
6
22
PRECISION SMD RESISTOR 1/16W 330K ±1%
2
R207,R307 R203,R316,R320,R321 R204,R216 R2129,R2133,R2137,R2141,R21 45,R2149 R333,R334
23
PRECISION SMD RESISTOR 1/16W 750K ±1%
3
R202,R331,R335
24
CD
CD11 16V22U±20%5×11 2
1
25
SMD RESISTOR
1/16W 100K ±5%
10
26
CD
CD11 16V1U±20%5×11 2
2
TC217 R208,R2111~R2116,R217,R308, R310 TC243,TC244
27
CD
CD11 16V10U±20%5×11 2
23
28
CD
CD11 16V220U±20%6×12 2.5
6
29
CD
CD11 16V47U±20%5×11 2
11
30
SMD CAPACITOR
50V 27P ±5% NPO 0603
3
56
R256 R341
R312,R313,R317,R318,R336 R212,R213,R251,R252 R314,R315 R2107~R2109,R2159,R229~R23 5,R246,R247,R254,R283,R284,R 291~R296 R322,R323 R262~R264,R270~R277,R280,R 281,R2180 R253
TC201,TC202,TC203,TC219,TC 221~TC233,TC236,TC240,TC24 1,TC306,TC307,TC242, TC207,TC208,TC211,TC213,TC 235,TC301 TC204,TC206,TC215,TC234,TC 237,TC302~TC305,TC308,TC30 9 C222,C223,C333
C225,C241~C243,C254,C256,C2 57,C259,C260,C262,C266,C268, C269,C271 C305
31
SMD CAPACITOR
50V 47P ±5% NPO 0603
14
32
SMD CAPACITOR
50V 82P ±5% NPO 0603
1
33
SMD CAPACITOR
50V 101 ±5% NPO 0603
10
C216,C273,C274,C342,C2111,C211 4,C2117,C2120,C2123,C2126
34 35 36
SMD CAPACITOR SMD CAPACITOR SMD CAPACITOR
50V 331 ±5% NPO 0603 50V 151 ±5% NPO 0603 50V 391 ±10% 0603
2 2 1
C217,C218 C331,C334 C304
76
C201~C211,C221,C224,C227,C2 30~C232,C234~C237,C240,C246 ,C247,C251~C253,C272,C278~C 283,C289~C297,C301~C303,C31 2,C313,C320~C330,C332,C335~ C339,C341,C2113,C2137,C2146, C2150~C2154,C287,C288 C201~C211,C221,C224,C227,C2 30~C232,C234~C237,C240,C246 ,C247,C251~C253,C272,C278~C 283,C289~C297,C301~C303,C31 2,C313,C320~C330,C332,C335~ C339,C341,C2113,C2137,C2146, C2150~C2154,C287,C288
37
SMD CAPACITOR
37.1
50V 104 +80%-20% 0603
SMD CAPACITOR
25V 104 +80%-20% 0603
76
38 39 40
SMD CAPACITOR SMD CAPACITOR SMD CAPACITOR
16V 105 +80%-20% 0603 10V 225 +80%-20% 0805 50V 471 ±5% NPO 0603
6 2 1
41
SMD CAPACITOR
50V 102 ±10% 0603
11
42
SMD CAPACITOR
50V 122 ±10% 0603
6
43
SMD CAPACITOR
50V 103 ±10% 0603
4
C315~C318,C285,C286 C226,C228 C311 C233,C238,C239,C2112,C2115, C2118,C2121,C2124,C2127,C21 48,C284 C2122,C2129,C2130,C2133,C21 35,C2136 C212~C215
44
SMD CAPACITOR
50V 153 ±10% 0603
3
C220,C308,C319
45 46 47
SMD CAPACITOR SMD INDUCTOR SMD INDUCTOR
16V 333 ±10% 0603 10UH ±10% 2012 1.8UH ±10% 1608
1 2 6
48
MAGNETIC BEADS INDUCTOR
RH354708
7
49
SMD MAGNETIC BEADS
FCM1608K-221T05
30
C306 L303,L306 L210~L215 L204,L205,L209,L241,L242,L24 9,L250 L201~L203,L216,L239,L240,L30 1,L304,L305,L307,L308,L310,L3 11,L312,L314,L316~L324,L329~ L331,L325~L327
50
SMD DIODE
1N4148
6
VD201,VD205~VD209
50.1
SMD DIODE
LS4148
6
VD201,VD205~VD209
50.2
SMD DIODE
LL4148
6
VD201,VD205~VD209
51
TRIODE
C8050
3
V307,V308,Q201
52
TRIODE
8550C
2
V306,V309
53
TRIODE
9014C
1
Q204
54 55 56 57
TRIODE SMD TRIODE TRIODE SMD TRIODE
C1815Y C1815 2SA1015 3906
1 6 3 6
Q212 Q205~Q210 Q211,Q218,Q219 Q213~Q217,Q220
57
58 59 60 61 62 63 64
SMD TRIODE SMD TRIODE SMD TRIODE SMD TRIODE IC IC IC IC
3904 9014C 2SK3018 2SB1132 PCM1801U SOP NJR5532 SOP MM74HCU04M SOP HCU04 SOP
1 1 2 2 1 3 1 1
V305 V310 V303,V304 V301,V302 U210 U219,U220,U221 U205 U205
IC
HY57V641620HGT-7 TSOP
1
U211
66 67 68 69 70
IC IC IC IC IC IC
MT48LC4M16A2-7 SOP CS4360 SSOP 24C02N SOP MT1336E-C QFP MT1379EE-C QFP BA5954FP HSOP
1 1 1 1 1 1
U211 U207 U202 U301 U201 U302
71
CRYSTAL OSCILLATOR
1
X201
72
CABLE SOCKET
1
XS204
73
PCB
27.00MHz 49-S 14P 1.0mm STRAIGHT DUAL LINE PLUG 2965-0
1
74
SOCKET
5P 2.0mm
1
XS302
75
SOCKET
6P 2.0mm
2
XS303,XS201
76
SOCKET
11P 2.5mm
1
XS203
77
CABLE SOCKET
24P 0.5mm SMD WITH CLASP
1
XS301
64.1 65 65.1
2. POWER BOARD NO
1 2 3 4 5 6 7 8
MATERIAL
CARBON FILM RESISTOR CARBON FILM RESISTOR METAL OXIDE FILM RESISTOR
CARBON RESISTOR CARBON RESISTOR METAL FILM RESISTOR METAL FILM RESISTOR METAL OXIDE FILM RESISTOR
8.1 9 10 11 12 13
METAL OXIDE FILM RESISTOR METAL OXIDE FILM RESISTOR
13.1 14 15 15.1 16 17 17.1 18 18.1 18.2
HIGH VOLTAGE RESISTOR PORCELAIN CAPACITOR PORCELAIN CAPACITOR PORCELAIN CAPACITOR PORCELAIN CAPACITOR PORCELAIN CAPACITOR CERAMIC CAPACITOR CERAMIC CAPACITOR TERYLENE CAPACITOR TERYLENE CAPACITOR TERYLENE CAPACITOR CD CD CD
SPECIFICATIONS/PART NUMBER
1/4W33Ω±5% SHAPED 10 1/4W330Ω±5% SHAPED 10 1W330Ω±5% SHAPED R 15×8 1/4W10K±5% SHAPED 10 1/4W1MΩ±5% SHAPED 10 1/4W4.7K±1% 1/4W12K±1% SHAPED 10 2W39K±5% SHAPED FLAT 15×9 2W39K±5% SHAPED FLAT 15×7 2W120K±5% SHAPED FLAT 15×7 1/2W680K±5% 50V 100P ±10% 5mm 50V 104 ±20% 5mm 1000V 101 +80%-20% 7.5mm 1000V 101 ±10% 7.5mm 1000V 103 +80%-20% 7.5mm CT81 400V 221±20% 10mm CT81 400V221±10% 10mm 100V 223 ±10% 5mm 275V 104 ±20% 15mm 275V 104 ±10% 15mm GZ16V100U±20%6×12 2.5 CD11 16V100U±20%6×12 2.5 CD110 16V100U±20%6×12 2.5
58
QUANTITY
1 1 1 1 1 1 1 1 1 1 1 5 4 1 1 1 1 1 1 1 1 2 2 2
LOCATION
R505 R506 R511 R507 R504 R508 R509 R503 R503 R502 R501 C505,C507,C509,C511,C514 C504,C508,C510,C515 C503 C503 C502 BC503 BC503 C506 BC501 BC501 TC508,TC513 TC508,TC513 TC508,TC513
18.3 18.4 19 19.1 20 21 21.1 21.2 21.3 22 22.1 23 24 25
26.1 27 28 29 30 31 32 33 34
2 2 2 2 2 4 4 4 4 1 1 1 1 2
TC508,TC513 TC508,TC513 TC503,TC504 TC503,TC504 TC502,TC512 TC505,TC506,TC509,TC510 TC505,TC506,TC509,TC510 TC505,TC506,TC509,TC510 TC505,TC506,TC509,TC510 TC501 TC501 L503 L505 L506,L507
BCK-28-0286
1
T501
BCK2801-624
1
T501
IC PCB SOCKET SOCKET SOCKET SOCKET CONNECTION CORDS CONNECTION CORDS CONNECTION CORDS FUSE FUSE
HER105 HER306 SR360 HER107 1N4007 9.1V 1W 5L0380R YDTU LM431ACZ TO-92 TL431C TO-226AA(LP) 431L TO-92 KA431AZ TO-92 UT-20 40mH ±20% 10×13 HS817 LM7805 GOLD SEALED TO-220 5933-0 9P 2.5mm 2P 2.5mm 6P 2.5mm 2P 8.0mm 2# Φ0.6 SHAPED 7.5mm Φ0.6 SHAPED 10mm Φ0.6 SHAPED 12.5mm T1.6AL 250V BLX-2
3 1 1 1 4 1 1 1 1 1 1 1 1 1 1 1 1 1 2 2 4 2 1 1
D506,D508,D511 D510 D509 D505 D501~D504 ZD502 U501 U503 U503 U503 U503 L501 U502 U504
HEAT RADIATOR BOARD
11×15×25 AB009K
2
HEAT RADIATOR BOARD
11×15×25 WHITE AB905
2
AB903
2
G501~G502
BT 3×8 BLACK
2
FIXED HEAT RADIATION
CHOKE COIL CHOKE COIL SWITCHING POWER TRANSFORMER SWITCHING POWER TRANSFORMER DIODE DIODE SCHOTTKY DIODE DIODE DIODE VOLTAGE REGULATOR DIODE
34.1 34.2 34.3 35 36 37 38 39 40 41 42 43 44 45 46 47
IC IC IC IC IC POWER GRID FILTER PHOTOELECTRIC COUPLER
48 48.1
50
CD11C 16V100U±20%6×7 2.5 CD11 25V470U+20%-10%10×16 5 CD11 25V470U±20%10×16 5 CD11 50V47U±20%6×12 2.5 CD11 10V1000U±20%8×16 3.5 CD11 10V1000U±20%8×14 3.5 GS 10V1000U±20%8×16 3.5 GS 10V1000U±20%8×14 3.5 LP3 400V47U±20%22×28 10 LS 400V47U±20%22×25 10 RH354708 VERTICAL 10UH 1A 5mm VERTICAL 10UH 2A 5mm
MAGNETIC BEADS INDUCTOR
26
49
CD CD CD CD CD CD CD CD CD CD CD
GROUND CHIP OF POWER BOARD TAPPING SCREW
CD11C 16V100U+20%-15%6×7 2.5
3. OK BOARD
59
CN503 CN502 CN504 BCN501,BCN502 J506,J503 L502,J501,J505 J504,J502 F501 FOR F501 U501,U504 FOR HEAT RADIATION U501,U504 FOR HEAT RADIATION
NO
MATERIAL
SPECIFICATIONS/PART NUMBER
QUANTITY
1 2 3 4 5 6
CARBON FILM RESISTOR CARBON FILM RESISTOR CARBON FILM RESISTOR CARBON FILM RESISTOR CARBON FILM RESISTOR CARBON FILM RESISTOR
1/6W10Ω±5% SHAPED 7.5 1/6W100Ω±5% SHAPED 7.5 1/6W330Ω±5% SHAPED 7.5 1/6W560Ω±5% SHAPED 7.5 1/6W1K±5% SHAPED 7.5 1/6W5.1K±5% SHAPED 7.5
2 1 1 2 3 1
7
CARBON FILM RESISTOR
1/6W10K±5% SHAPED 7.5
6
8 9 10 11
CARBON FILM RESISTOR CARBON FILM RESISTOR CARBON FILM RESISTOR PORCELAIN CAPACITOR PORCELAIN CAPACITOR PORCELAIN CAPACITOR PORCELAIN CAPACITOR PORCELAIN CAPACITOR PORCELAIN CAPACITOR PORCELAIN CAPACITOR CD CD CD CD CD CD
2 2 2 2 2 2 1 2 2 1 3 3 3 5 2 2 2 3 2 2 1
22
DIODE IC IC PCB
23
FLAT CABLE
24 25
SOCKET MICROPHONE TERMINAL
1/6W22K±5% SHAPED 7.5 1/6W100K±5% SHAPED 7.5 1/6W4.7K±5% SHAPED 7.5 50V 47P ±5% NPO 5mm 50V 47P ±5% 5mm 50V 47P ±10% 5mm 50V 100P ±10% 5mm 50V 103 ±10% 5mm 50V 104 ±20% 5mm 50V 102 ±20% 5mm CD110 16V47U±20%5×11 2 CD11 16V47U±20%5×11 2 CD11C 16V47U±20%5×7 2 CD11 16V4.7U±20%5×11 2 CD11 16V22U±20%5×11 2 CD11 25V22U±20%5×11 2 RH354708 1N4148 NJM4558D DIP KA4558 DIP 6963B-0 6P90 2.5 2 SOCKET WITH L NEEDLE REVERSE 5P 2.0mm CK3-6.35-4
26
CONNECTION CORDS
Φ0.6 SHAPED 7.5mm
11.1 11.2 12 13 14 15 16 16.1 16.2 17 18 18.1 19 20 21
MAGNETIC BEADS INDUCTOR
21.1
LOCATION
R621,R622 R619 R616 R603,R604 R607,R608,R620 R613 R605,R606,R618, R623,R609,R610 R601,R602 R615,R617 R611,R612 C605,C606 C605,C606 C605,C606 C607 C603,C604 C601,C602 C608 TC611,TC615,TC616 TC611,TC615,TC616 TC611,TC615,TC616 TC601~TC604, TC613 TC605,TC606 TC605,TC606 L601,L602 VD601~VD603 U601,U602 U601,U602
1
XS601
1 2
XS602 MIC601,MIC602
8
JP601~JP608
4. OK SUBSIDIARY BOARD NO
MATERIAL
1
ROTATED POTENTIOMETER
2
FLAT CABLE
3
PCB
SPECIFICATIONS/PART NUMBER
WHE101N-2-B10K±20% 5P100 2.0 2 SOCKET WITH L NEEDLE REVERSE B963A-1
QUANTITY
LOCATION
2
VRB02,VRB01
1
XSB01
1
5. OUTPUT BOARD NO
1 2 3 4 5
MATERIAL
CARBON FILM RESISTOR CARBON FILM RESISTOR CARBON FILM RESISTOR CARBON FILM RESISTOR CARBON FILM RESISTOR
SPECIFICATIONS/PART NUMBER
1/4W68Ω±5% 1/4W100Ω±5% 1/4W220Ω±5% 1/4W330Ω±5% 1/4W2.2Ω±5% SHAPED 10
60
QUANTITY
1 1 1 1 1
LOCATION
R703 R702 R701 R709 R706
6 7 8 9 10 11 12 13 13.1 14 14.1 15 16 17 17.1 17.2 17.3 18
CARBON FILM RESISTOR CARBON FILM RESISTOR CARBON FILM RESISTOR CARBON FILM RESISTOR CARBON FILM RESISTOR SMD CAPACITOR SMD CAPACITOR PORCELAIN CAPACITOR PORCELAIN CAPACITOR MULTILAYER CERAMIC CAPACITOR MULTILAYER CERAMIC CAPACITOR TRIODE CD CD CD CD CD MAGNETIC BEADS INDUCTOR
1/4W1K±5% 1/4W33Ω±5% 1/4W2.2K±5% 1/4W4.7K±5% 1/4W75Ω±5% 50V 102 ±10% 0603 16V 105 +80%-20% 0603 50V 104 ±20% 5mm 50V 104 +80%-20% 5mm
1 1 2 1 1 6 1 3 3
R711 R708 R710,R712 R704 R705 C701~C706 C707 C709,C710,C711 C709,C710,C711
50V 224 ±20% 5mm
1
C708
50V 224 ±10% 5mm
1
C708
S8050D CD11 16V220U±20%6×12 2.5 GS 10V1000U±20%8×14 3.5 CD11 10V1000U±20%8×14 3.5 GS 10V1000U±20%8×16 3.5 CD11 10V1000U±20%8×16 3.5 RH354708
3 5 1 1 1 1 12
V701~V703 TC701,TC703~TC706 TC702 TC702 TC702 TC702 L701~L712
TX179ATW
1
JK705
TX179AT
1
JK705
1 1 1 1
JK702 JK701 JK706
1
XS701
1 1 7
JK704 JK703 JP701~JP703,JP705--JP708
3
R707,L713,L714
20 21 22 23
ELECTRO-OPTIC TRANSFORMER ELECTRO-OPTIC TRANSFORMER TERMINAL SOCKET TERMINAL SOCKET SCART SOCKET PCB
24
CABLE SOCKET
25 26 27
TERMINAL SOCKET TERMINAL SOCKET CONNECTION CORDS
AV4-8.4-6G-5 AV8-8.4-6G-3 SCART-01 7939B-0 14P 1.0mm STRAIGHT DUAL LINE PLUG AV1-8.4-5G-2 BLACK S TERMINAL Φ0.6 SHAPED 5mm
28
CONNECTION CORDS
Φ0.6 SHAPED 10mm
19 19.1
6. MAIN FRONT PANEL NO
MATERIAL
SPECIFICATIONS/PART NUMBER
QUANTITY
1
SOFT SPONGE SPACER
16×8×4 DOUBLE FACED, HARD
2
2 3 4 5 6 7 8 9 10 11 12
CD LED IC SOCKET SOCKET SOCKET SMD RESISTOR SMD RESISTOR SMD RESISTOR SMD RESISTOR SMD CAPACITOR
CD11C 10V100U±20%5×7 2 LTG-0275G PT6961 SOP 2P 2.0mm 9P 2.0mm 6P 2.0mm 1/16W 100Ω ±5% 1/16W 2.2Ω ±5% 1/16W 10K ±5% 1/16W 51K ±5% 50V 104 +80%-20% 0603
3 1 1 1 1 1 1 1 3 1 1
13
PCB
4963-2
1
61
LOCATION
CONNECT LED WITH FRONT PANEL PCB TC401,TC402,TC403 LED401 U401 XS403 XS402 XS401 R412 R408 R403,R404,R405 R401 C401
7. SUBSIDIARY BOARD 1 NO
MATERIAL
1
SMD RADIATION DIODE
2
FLAT CABLE
3
PCB
SPECIFICATIONS/PART NUMBER
LTST-C930TBKT 2P100 2.0 1 SOCKET RED-BLACK 28#CORD A963-1
QUANTITY
LOCATION
1
LEDA01
1
XSA01
1
8. SUBSIDIARY BOARD 2 NO
1 2 3 4
MATERIAL
SPECIFICATIONS/PART NUMBER
QUANTITY
LOCATION
SMD CAPACITOR SMD DIODE LIGHT TOUCH RESTORE SWITCH
50V 104 +80%-20% 0603 1N4148
1 2
C901 D901,D902
VERTICAL 6×7×1
1
K906
SMD LIGHT TOUCH SWITCH
TD-BXAX-A00(160 GRAM POWER)
5
K901~K905
5
SOFE FLAT CABLE
6 7
IR SENSOR BUTTON STAND BOARD
9P70 2.0 2 SOCKET WITH L NEEDLE, THE SAME DIRECTION HS0038B3V DV963 GREY
8
TAPPING SCREW
CB 1.7×4.2 BLACK
4
9
FUNCTION BUTTON
DV963 TRANSPARENT
1
10
PCB
9963-0
1
62
1
XS901
1 1
U901 FUNCTION BUTTON AND PCB AND 4 STAND BOARDS
