BBK DV911S SERVICE MANUAL

SERVICE MANUAL

DV911S

CONTENTS

1. SAFETY PRECAUTIONS

2. PREVENTION OF ELECTRO STATIC DISCHARGE(ESD)TO ELECTROSTATICALLY

SENSITIVE(ES)DEVICES

3. CONTROL BUTTON LOCATIONS AND EXPLANATIONS

4. PREVERTION OF STATIC ELECTRICITY DISCHARGE

5. ASSEMBLING AND DISASSEMBLING THE MECHANISM UNIT

5.1 OPTICAL PICKUP UNIT EXPLOSED VIEW AND PART LIST

5.2 BRACKET EXPLOSED VIEW AND PART LIST

5.3 MISCELLANEOUS

6. ELECTRICAL CONFIRMATION

6.1 VIDEO OUTPUT (LUMINANCE SIGNAL) CONFIRMATION

6.2 VIDEO OUTPUT(CHROMINANCE SIGNAL) CONFIRMATION

1

2

3 4 4 6 7 8

8

9

7. MPEG BOARD CHECK WAVEFORM

8. IC BLOCK DIAGRAM & DESCRIPTION

8.1 MT1336 11

8.2 MT1379

8.3 U214 HY29F800 35

8.4 U203 SDRAM-HY57V1610D

9. SCHEMATIC & PCB WIRING DIAGRAM

10. SPARE PARTS LIST 49

10 11

19

38

40

1.1 GENERAL GUIDELINES

1. SAFETY PREAUTIONS

2.PREVENTION OF ELECTRO STATIC DISCHARGE(ESD)TO  ELECTROSTATICALLY SENSITIVE(ES)DEVICES

1

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.

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)

3.Control Button Locations and Explanations

2

Front Panel Illustration

2

3

4

5

6

POWER switch

Disc tray

2

3

IR SENSOR button

4

OPEN/CLOSE button

PLAY/ buttonPAUSE

5

6

STOP button

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.

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

1. Put a conductive material(sheet)or iron sheet on the area where the optical pickup is placed,and ground the

3. The flexible cable may be cut off if an excessive force is applied to it.Use caution when handling the cable.

3

4.PREVENTION OF STATIC ELECTRICITY DISCHARGE

4.1.Grounding for electrostatic breakdown prevention

grounding works is completed.

4.1.1. Worktable grounding

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.

4. The half-fixed resistor for laser power adjustment cannot be adjusted. Do not turn the resistor.

5.1 Optical pickup Unit Explosed View and Part List

5. Assembling and disassembling the mechanism unit

4

Pic (1)

Materials to Pic (1)

5

No. PARTS CODE PARTS NAME Q ty

14692200 SF-HD60 1

1

1EA0311A06300 ASSY, CHASSIS, COMPLETE 1

2

Or

3

4

5

6

7

8

9

10

11

21

Or

31

32

1EA0M10A15500 ASSY, MOTOR, SLED 1

1EA0M10A15501 ASSY, MOTOR, SLED 1

1EA2451A24700 HOLDER, SHAFT 3

1EA2511A29100 GEAR, RACK 1

1EA2511A29200 GEAR, DRIVE 1

1EA2511A29300 GEAR, MIDDLE, A 1

1EA2511A29400 GEAR, MIDDLE, B 1

1EA2744A03000 SHAFT, SLIDE 1

1EA2744A03100 SHAFT, SLIDE, SUB 1

1EA2812A15300 SPRING, COMP, TYOUSEI 3

1EA2812A15400 SPRING, COMP, RACK 1

1EA0B10B20100 ASSY, PWB 1

1EA0B10B20200 ASSY, PWB 1

SEXEA25700--- SPECIAL SCREW BIN+-M2X11 3

SEXEA25900--- SPECIAL SCREW M1.7X2.2 2

33

34

35



Note : This parts list is not for service parts supply.

SFBPN204R0SE- SCR S-TPG PAN 2X4 2

SFSFN266R0SE- SCR S-TPG FLT 2.6X6 1

SWXEA15400--- SPECIAL WASHER 1.8X4 X0.25 2

5.2 Bracket Explosed View and Part List

6

Pic (2)

Materials to Pic(2)

1.bracket 14. front silicon rubber

2.belt 15. Back silicon rubber

3.screw 16. Pick-up

4.belt wheel 17. Pick-up

5.gearwheel 18. switch

6.iron chip 19. Five-pin flat plug

7. Immobility mechanism equipment 20. screw

8. Magnet 21. PCB

9. Platen 22. motor

10. Bridge bracket 23. Motor wheel

11. screw 24. screw

12. screw 25.tray

13. Big bracket

Before going process with disassembly and installation, please carefully both peruse the chart and confirm the materials.

5.3 MISCELLANEOUS

7

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.

6.1. Video Output (Luminance Signal) Confirmation

6.Electrical Confirmation

8

DO this confirmation after replacing a P.C.B.

Measurement point

Video output terminal

Measuring equipment,tools

200mV/dir,10 sec/dir

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

PLAY(Title 46):DVDT-S15 PLAY(Title 12):DVDT-S01

Mode Disc

Color bar 75%

Confirmation value

1000mVp-p±30mV

DVDT-S15

or

DVDT-S01

Do the confirmation after replacing P.C.B.

Screwdriver,Oscilloscope

6.2 Video Output(Chrominance Signal) Confirmation 

9

Measurement point

Video output terminal

Measuring equipment,tools Confirmation value

200mV/dir,10 sec/dir

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

PLAY(Title 46):DVDT-S15 PLAY(Title 12):DVDT-S01

Mode Disc

Color bar 75%

621mVp-p±30mV

DVDT-S15

or

DVDT-S01

7.MPEG BOARD CHECK WAVEFORM

7.1 27MHz WAVEFORM 

7.2 ICVIPER22 PIN.5 WAVEFORM DIAGRAM

10

8.1 MT1336

8. IC BLOCK DIAGRAM & DESCRIPTION

11

PRELIMINARY, SUBJ ECT TO CHANGE WITHOUT NOTICE MTK CONFIDENTIAL, NO DISCLOSURE

MT1336

GENERAL DESCRIPTION

MT1336 is a high performance CMOS analog front-end IC for both CD_ROM driver up to 48XS and

DVD-ROM driver up to 16XS. It also supports DVD- RAM read up to 4XS Version 2. It contains servo amplifiers to generate focusing error, 3-beam tracking error, 1 beam radial push-pull signal, RF level and SBAD for servo functions. It also includes DPD tracking error signal for DVD_ROM application. For DVD- RAM disks, there are also Differential Push-Pull (DPP) method for generating tracking signal and Differential Astigmatic Detection (DAD) for processing focusing signal. Programmable equalizer and AGC circuits are also incorporated in this chip to optimize read channel performance. In addition, this chip has dual automatic laser power control circuits for DVD- ROM (DVD-RAM) and CD -ROM seperately and reference voltage generators to reduce external components. Programmable functions are implemented by the access of internal register through bi-directional serial port to configure modes selection.

FEATURES

n RF equalizer with programmable

13dB.

n MT1336 supports at least eight different kinds of pick-up heads with versatile input configuration for

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.

from 3MHz to 70 MHz and programmable boost from 3dB to

f

c

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.

MT1336

12

PRELIMINARY, SUBJ ECT TO CHANGE WITHOUT NOTICE MTK CONFIDENTIAL, NO DISCLOSURE

DVDA

CDA

DVDB

CDB

DVDC

CDC

DVDD

CDD

DVDRFIN

DVDRFIP

DPFN DPFO

DPDMUTE

CDFOP CDFON

RFGC RFGCU

RFGCI

AGC1

AGC2 AGC3

RFSUBO

WOBSO

V20

V2REFO

VREFO

MC

TPI TNI

MA MB

MD

OSP OSN

ATTENUATOR

INPUT MUX

AGC

SA SB

SC SD

IR

VGA

VGA EQ

ENVELOP

DETECTOR

DPD

SBAD

TE

PCS

DVD APC

RFOP

RFON

LRFRP

DEFECT HRFRP CRTP CRTPLP

CSO

LVL

TEO

FEO

REFCOS HALLCOS

COSPHI

REFSIN HALLSIN SINPHI

MDI2

LDO2

RF

LEVEL

FE

CD

APC

MDI1

LDO1

CENTRAL

SERVO

UDGATE

WOBBLE

DET

REF and 2VREF

Voltage Generator

SERIAL

PORT

IDGATE VFO13

SDATA SLCK

SDEN

MT1336 FUNCTION BLOCKS DIAGRAM

13

MT1336

PRELIMINARY, SUBJ ECT TO CHANGE WITHOUT NOTICE MTK CONFIDENTIAL, NO DISCLOSURE

WGND

WOBSO

WVDD AGNDX AGNDX

AVDDO

RFOP RFON AGNDO

TM1 TM2 TM3

AGNDT TM4

AVDDT

V2REFO VREFO V20

FEO

LVL CSO

TEO VDDP DEFECT LRFRP HRFRP CRTP CRTPLP

TRLPA

TRLP HTRC

GNDP DPFN DPFO

AGNDX

VDD VFO13

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

RFSUBO

LDO2

LDO1

127

126

125

128

3940414243

MDI1

124

WAVDD

MDI2

123

AGC1

AGC2

AGC3

121

120

119

122

MT1336

DVD-ROM

DVD_RAM

454647

44

48

WAGND

TNI

SGND

118

117

116

With

Read

495051

525453

CDFOP

SVDD

TPI

CDFON

115

114

113

112

111

555657585960616263

SASBMC

IR

AVDDSCSD

110

109

108

MD

AGND

107

106

105

104

103

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

64

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

IO0

GND

UDGATE

HDGATE

IO4

IO1

IO5

IO7

IO8

IO9

IO6

IO3

IO2

IOB

IOA

MT1336 PIN ASSIGNMENT

SCLK

VDDS

XCK16M

RST

SDEN

GNDS

SDATA

AGNDP

AGNDX

AVDDP

DPDMUTE



14

PRELIMINARY, SUBJ ECT TO CHANGE WITHOUT NOTICE MTK CONFIDENTIAL, NO DISCLOSURE

MT1336

MT1336 PIN DESCRIPTIONS

Pin Numbers Symbol Type Description

LQFP128

RF Flag Interface

23 DEFECT Digital Output Flag of bad data output status

RF SIO interface

56 SCLK Digital Input RF serial clock input

58 SDEN Digital Input RF serial data enable

59 SDATA Digital IO RF serial data IO

60 RST Digital input Reset (active high)

55 XCK16M Digital Input 16.9MHz for verification

RF SERVO interface

40 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 B

98 DVDC Analog Input AC coupled DVD RF signal input C

97 DVDD Analog Input AC coupled DVD RF signal input D

95 DVDRFIN Analog Input AC coupled DVD RF signal input RFIN

96 DVDRFIP Analog Input AC coupled DVD RF signal input RFIP

94 CDA Analog Input AC coupled CD RF signal input A

93 CDB Analog Input AC coupled CD RF signal input B

92 CDC Analog Input AC coupled CD RF signal input C

91 CDD Analog Input AC coupled CD RF signal input D

90 OSN Analog RF Offset cancellation capacitor connecting

89 OSP Analog RF Offset cancellation capacitor connecting

85 CEQP Analog RF Offset cancellation capacitor connecting

84 CEQN Analog RF Offset cancellation capacitor connecting

88 RFGC Analog RF AGC loop capacitor connecting for DVD -ROM

15

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

MT1336

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

TRACKING ERROR

32 DPFN Analog DPD amplifier negative input 33 DPFO Analog DPD amplifier output

61 DPDMUTE Digital input DPD mute control input 116 TNI Analog Input 3 beam satellite PD signal negative input 115 TPI Analog Input 3 beam satellite PD signal positive input

21 TEO Analog Output Tracking error output

FOCUSING ERROR & RF LEVEL & CENTRAL SERVO SIGNAL

112 CDFOP Analog Input CD focusing error positive input 113 CDFON Analog Input CD focusing error negative input

18 FEO Analog Output Focusing error output

19 LVL Analog Output RF level output

20 CSO Analog output Central servo signal output

ALPC

16

PRELIMINARY, SUBJ ECT TO CHANGE WITHOUT NOTICE MTK CONFIDENTIAL, NO DISCLOSURE

MT1336

124 MDI1 125 LDO1 Analog Ou tput Laser driver output 123 MDI2 126 LDO2 Analog Output Laser driver output

RF RIPPLE

26 CRTP Analog RF top envelop filter capacitor connecting

27 CRTPLP Analog Defect level filter capacitor connecting

25 HRFRP Analog output High frequency RF ripple output or Blank detector’s output

24 LRFRP Analog output Low frequency RF ripple output

POWER

67, 69 AVDD Power Master PLL Filter power 65, 73 AGND GND GND for Master PLL Filter 64 AVDD Power DPD Power 62 AGND GND DPD GND 109 AVDD Power RF path Power 107 AGND GND RF path GND

Analog Input

Laser power monitor input

114 SVDD Power Servo Power 117 SGND GND Servo GND 2,120 WAVDD Power Wobble Power 128,118 WAGND GND Wobble GND 5 AVDDO Power Power for RF output

8 AGNDO GND GND for RF output 14 AVDDT Power Power for Trimming PAD 12 AGNDT GND GND for Trimming PAD 22 VDDP Power Peak Detection Power 31 GNDP GND Peak Detection GND 37,54 VDD Power Serial I/O Power 39,57 GND GND Serial I/O GND

REFERENCE VOLTAGE

16 VREFO Analog output Reference voltage 1.4V

15 V2REFO Analog output Reference voltage 2.8V

17 V20 Analog Output Reference voltage 2.0V

17

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

PCS

74 HALLSIN Analog input Negative input of amplifier for hall sensor signal

75 REFSIN Analog input Positive input of amplifier for hall sensor signal

76 SINPHI Analog output Amplifier output for hall sensor signal

MT1336

71 HALLCOS Analog input Negative input of amplifier for hall sensor signal

72 REFCOS Analog input Positive input of amplifier for hall sensor signal

70 COSPHI Analog output Amplifier output for hall sensor signal

FOR MONITOR ONLY

81 80

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 43 IO1 44 IO2 45 IO3 46 IO4

MON Analog output

MOP Analog output

IO0

47 IO5

18

PRELIMINARY, SUBJ ECT TO CHANGE WITHOUT NOTICE MTK CONFIDENTIAL, NO DISCLOSURE

48 IO6 49 IO7 50 IO8 51 IO9 52 IOA 53 IOB

MT1336

19

8.2 MT1379

Specifications are subject to change without notice

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

§

Unified track buffer and A/V decoding buffer

§

Video processing for scaling and video quality enhancement

§

OSD & Sub-picture decoding

§

Built-in clock generator

§

Built-in TV encoder

§

Built-in progressive video output

§

Video input port and audio/SPDIF input port

n Speed Performance on Servo and Decoding

§

DVD-ROM up to 8XS

§

CD-ROM up to 24XS

§

Built-in a frequency programmable clock to µP and RSPC Decoder to optimize the performance over power

n Channel Data Processor

§

Provides interface with analog front -end processor

§

Analog data slicer for small jitter capability

§

Built-in high performance data PLL for channel data demodulation

§

EFM/EFM+ data demodulation

§

Enhanced channel data frame sync protection & DVD-ROM sector sync protection

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

Progressive Scan DVD Player Combo Chip

§

Tray control can be PWM output or digital output

§

Built-in DSP for digital servo control

n Host Micro controller

§

Built-in 8032 micro controller

§

Built-in internal 373 and 8-bit programmable

MT1379

lower address port

§

1024-bytes on-chip RAM

§

Up to 2M bytes FLASH -programming interface

§

Supports 5/3.3-Volt. FLASH interface

§

Supports power-down mode

§

Supports additional serial port

n DVD-ROM/CD-ROM Decoding Logic

§

Supports CD-ROM Mode 1, CD-ROM XA Mode 2 Form 1, CD-ROM XA Mode 2 Form 2, and CD -DA formats

§

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 se lf-refresh mode SDRAM

§

Programmable DRAM access cycle and refresh

20

PRELIMINARY, SUBJECT TO CHANGE WITHOUT NOTICE MTK CONFIDENTIAL, NO DISCLOSURE

MT1379

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 MPEG 1 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

n Video/OSD/SPU/HLI Processor

§

Arbitrary ratio vertical/horizontal scaling of video, from 0.25X to 256X

§

65535/256/16/4/2-color bitmap format OSD,

§

256/16 color RLC format OSD

§

Automatic scrolling of OSD image

§

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 Audio Processing

§

Decoder format supports:

- Dolby Digital (AC-3) decoding

- DTS decoding

- MLP decoding for DVD-Audio

- MPEG-1 layer 1/layer 2 audio decoding

- MPEG-2 layer1/layer2 2-channel audio decoding

- Dolby Pro Logic decoding

- High Definition Compatible Digital (HDCD) decoding

§

Up to 6 channel linear PCM output for DVD Audio / DVD Video

§

Downmix function

§

Support IEC 60958/61937 output

- PCM / bit stream / mute mode

- Custom IEC latency up to 2 frames

§

Pink noise and white noise generator

§

Karaoke functions

- Microphone echo with adjustable echo level, echo -depth and delay length

- Microphone tone control with three custom second-order IIR filter

- Vocal mute/vocal assistant

- Key shift up to +/- 8 keys controlled by 1/2 key

§

Channel equalizer

§

3D surround processing include virtual surround and speaker separation

§

Power-down control

§

HDCD certified

n TV Encoder

§

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

n Progressive Output

§

Automatic detect film or video source

§

3:2 pull down source detection

§

Advanced Motion adaptive de-interlace

§

Minimum external memory requirement

n Audio/Video 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

§

216-pin LQFP package

§

3.3/2.5-Volt. Dual operating voltages

The 2nd general PWM output

21

PRELIMINARY, SUBJECT TO CHANGE WITHOUT NOTICE MTK CONFIDENTIAL, NO DISCLOSURE

MT1379

P

IN DEFINITIONS

Pin Number Symbol Type Description

1 IREF Analog Input Current reference input. It generates reference current for data

2 PLLVSS Ground Ground pin for data PLL and related analog circuitry 3 LPIOP Analog Output Positive output of the low pass filter 4 LPION Analog Output Negative output of the low pass filter 5 LPFON Analog output Negative output of loop filter amplifier 6 LPFIP Analog Input Positive input of loop filter amplifier 7 LPFIN Analog Input Negative input of loop filter amplifier 8 LPFOP Analog Output Positive output of loop filter amplifier

9 JITFO Analog Output RF jitter meter output 10 JITFN Analog Input Negative input of the operation amplifier for RF jigger meter 11 PLLVDD3 Power 3.3V power pin for data PLL and related analog circuitry 12 FOO Analog Output Focus servo output. PDM output of focus servo compensator 13 TRO Analog Output Tracking servo output. PDM output of tracking servo compensator 14 TROPENPWM Analog Output Tray open output, controlled by microcontroller.

15 PWMOUT1 Analog Output The 1st general PWM output 16 PWMOUT2 Analog Output 17 DVDD2 Power 2.5V power pin for internal fully digital circuitry 18 DMO Analog Output Disk motor control output. PWM output 19 FMO Analog Output Feed motor control. PWM output 20 DVSS Ground Ground pin for internal fully digital circuitry 21 FG Input Motor Hall sensor input 22 HIGHA0 Inout

23 HIGHA1 Inout

24 HIGHA2 Inout

25 HIGHA3 Inout

26 HIGHA4 Inout

27 HIGHA5 Inout

28 DVSS Grou nd Ground pin for internal digital circuitry

PLL. Connect an external 100K resistor to this pin and PLLVSS.

This is PWM output for TRWMEN27hRW2=1 or is digital output for TRWMEN27hRW2=0

Microcontroller address 8

2~16MA, SR

PU

Microcontroller address 9

2~16MA, SR

PU

Microcontroller address 10

2~16MA, SR

PU

Microcontroller address 11

2~16MA, SR

PU

Microcontroller address 12

2~16MA, SR

PU

Microcontroller address 13

2~16MA, SR

PU

22

PRELIMINARY, SUBJECT TO CHANGE WITHOUT NOTICE MTK CONFIDENTIAL, NO DISCLOSURE

Pin Number Symbol Type Description

29 HIGHA6 Inout

30 HIGHA7 Inout

31 AD7 Inout

32 AD6 Inout

33 AD5 Inout

34 AD4 Inout

35 DVDD3 Power 3.3V power pin for internal digital circuitry 36 AD3 Inout

37 AD2 Inout

38 AD1 Inout

39 AD0 Inout

40 IOA0 Inout

41 IOA1 Inout

42 DVDD2 Power 2.5V power pin for internal digital circuitry 43 IOA2 Inout

44 IOA3 Inout

45 IOA4 Inout

46 IOA5 Inout

47 IOA6 Inout

Microcontroller address 14

2~16MA, SR

PU

Microcontroller address 15

2~16MA, SR

PU

Microcontroller address/data 7

2~16MA, SR

Microcontroller address/data 6

2~16MA, SR

Microcontroller address/data 5

2~16MA, SR

Microcontroller address/data 4

2~16MA, SR

Microcontroller address/data 3

2~16MA, SR

Microcontroller address/data 2

2~16MA, SR

Microcontroller address/data 1

2~16MA, SR

Microcontroller address/data 0

2~16MA, SR

Microcontroller address 0 / IO

2~16MA, SR

PU

Microcontroller address 1 / IO

2~16MA, SR

PU

Microcontroller address 2 / IO

2~16MA, SR

PU

Microcontroller address 3 / IO

2~16MA, SR

PU

Microcontroller address 4 / IO

2~16MA, SR

PU

Microcontroller address 5 / IO

2~16MA, SR

PU

Microcontroller address 6 / IO

2~16MA, SR

PU

MT1379

23

PRELIMINARY, SUBJECT TO CHANGE WITHOUT NOTICE MTK CONFIDENTIAL, NO DISCLOSURE

Pin Number Symbol Type Description

48 IOA7 Inout

49 A16 Output

50 A17 Output

51 IOA18 Inout

52 IOA19 Inout

53 IOA20 Inout

54 APLLVSS Ground Ground pin for audio clock circuitry 55 APLLVDD3 Power 3.3V Power pin for audio clock circuitry 56 ALE Inout

57 IOOE# Inout

58 IOWR# Inout

59 IOCS# Inout

60 DVSS Ground Ground pin for internal digital circuitry 61 UP1_2 Inout

62 UP1_3 Inout

63 UP1_4 Inout

64 UP1_5 Inout

65 UP1_6 Inout

66 DVDD3 Power 3.3V power pin for internal digital circuitry

Microcontroller address 7 / IO

2~16MA, SR

PU

Flash address 16

2~16MA, SR

Flash address 17

2~16MA, SR

Flash address 18 / IO

2~16MA, SR

SMT

Flash address 19 / IO

2~16MA, SR

SMT

Flash address 20 / IO

2~16MA, SR

SMT

2~16MA, SR

PU, SMT

2~16MA, SR

SMT

2~16MA, SR

SMT

2~16MA, SR

PU, SMT

4MA, SR PU, SMT

OR Videoin Data PortB 0

Microcontroller address latch enable

Flash output enable, active low / IO

Flash write enable, active low / IO

Flash chip select, active low / IO

Microcontroller port 1-2

Microcontroller port 1-3

Microcontroller port 1-4

Microcontroller port 1-5

Microcontroller port 1-6

MT1379

24

PRELIMINARY, SUBJECT TO CHANGE WITHOUT NOTICE MTK CONFIDENTIAL, NO DISCLOSURE

Pin Number Symbol Type Description

67 UP1_7 Inout

68 UP3_0 Inout

69 UP3_1 Inout

70 INT0# Inout

71 IR Input

72 DVDD2 Power 2.5V power pin for internal digital circuitry 73 UP3_4 Inout Microcontroller port 3-4 74 UP3_5 Inout Microcontroller port 3-5 75 UWR# Inout

76 URD# Inout

77 DVSS Ground Ground pin for internal digital circuitry 78 RD7 Inout DRAM data 7 79 RD6 Inout DRAM data 6 80 RD5 Inout DRAM data 5 81 RD4 Inout DRAM data 4 82 DVDD2 Power 2.5V power pin for internal digital circuitry 83 RD3 Inout DRAM data 3 84 RD2 Inout DRAM data 2 85 RD1 Inout DRAM data 1 86 RD0 Inout DRAM data 0 87 RWE# Output

88 CAS# Output

89 RAS# Output

90 RCS# Output

91 BA0 Output

92 DVSS Ground Ground pin for internal digital circuitry 93 RD15 Inout

Microcontroller port 1-7 4MA, SR PU, SMT

Microcontroller port 3-0 4MA, SR PU, SMT

Microcontroller port 3-1 4MA, SR PU, SMT

Microcontroller interrupt 0, active low

2~16MA, SR

PU, SMT

IR control signal input

SMT

Microcontroller write s trobe, active low

2~16MA, SR

PU, SMT

Microcontroller read strobe, active low

2~16MA, SR

PU, SMT

DRAM Write enable, active low

2~16MA, SR

DRAM columnaddress strobe, active low

2~16MA, SR

DRAM row address strobe, active low

2~16MA, SR

DRAM chip select, active low

2~16MA, SR

DRAM bank address 0

2~16MA, SR

DRAM data 15

2~16MA, SR PU/PD, SMT

MT1379

25

PRELIMINARY, SUBJECT TO CHANGE WITHOUT NOTICE MTK CONFIDENTIAL, NO DISCLOSURE

MT1379

Pin Number Symbol Type Description

94 RD14 Inout

DRAM data 14

2~16MA, SR PU/PD, SMT

95 RD13 Inout

DRAM data 13

2~16MA, SR PU/PD, SMT

96 RD12 Inout

DRAM data 12

2~16MA, SR

PU/PD, SMT 97 DVDD3 Power 3.3V power pin for internal digital circuitry 98 RD11 Inout

DRAM data 11 2~16MA, SR PU/PD, SMT

99 RD10 Inout

DRAM data 10 2~16MA, SR PU/PD, SMT

100 RD9 Inout

DRAM data 9 2~16MA, SR PU/PD, SMT

101 RD8 Inout

DRAM data 8 2~16MA, SR PU/PD, SMT

102 DVSS Ground Ground pin for internal digital circuitry 103 CLK Output

DRAM clock 2~16MA, SR

104 CLE Output

DRAM clock enable 2~16MA, SR

105 RA11 Output

DRAM address bit 11 or audio serial data 3 (channel 7/8) 2~16MA, SR

106 RA9 Output

DRAM address 9 2~16MA, SR

107 RA8 Output

DRAM address 8 2~16MA, SR

108 DMVDD3 Power 3.3V Power pin for DRAM clock circuitry 109 DMVSS Ground Ground pin for DRAM clock circuitry 110 RA7 Output

DRAM address 7 2~16MA, SR

111 DVDD3 Power 3.3V power pin for internal digital circuitry 112 RA6 Output

DRAM address 6 2~16MA, SR

113 RA5 Output

DRAM address 5 2~16MA, SR

114 RA4 Output

DRAM address 4 2~16MA, SR

115 DVSS Ground Ground pin for internal digital circuitry 116 DQM1 Output

Mask for DRAM input/output byte 1 2~16MA, SR

26

PRELIMINARY, SUBJECT TO CHANGE WITHOUT NOTICE MTK CONFIDENTIAL, NO DISCLOSURE

Pin Number Symbol Type Description

117 DQM0 Output

118 BA1 Output

119 RA10 Output

120 DVDD2 Power 2.5V power pin for internal digital circuitry 121 RA0 Output

122 RA1 Output

123 RA2 Output

124 RA3 Output

125 DVSS Ground Ground pin for internal digital circuitry 126 RD31 Inout

127 RD30 Inout

128 RD29 Inout

129 RD28 Inout

130 DVDD3 Power 3.3V power pin for internal digital circuitry 131 RD27 Inout

132 RD26 Inout

133 RD25 Inout

134 RD24 Inout

135 DVSS Ground Ground pin for internal digital circuitry 136 DQM3 Output

137 DQM2 Output

Mask for DRAM input/output byte 0 2~16MA, SR

DRAM bank address 0 2~16MA, SR

DRAM address10 2~16MA, SR

DRAM address 0 2~16MA, SR

DRAM address 1 2~16MA, SR

DRAM address 2 2~16MA, SR

DRAM address 3 2~16MA, SR

DRAM data 31 2~16MA, SR PU/PD, SMT

DRAM data 30 2~16MA, SR PU/PD, SMT

DRAM data 29 2~16MA, SR PU/PD, SMT

DRAM data 28 2~16MA, SR PU/PD, SMT

DRAM data 27 2~16MA, SR PU/PD, SMT

DRAM data 26 2~16MA, SR PU/PD, SMT

DRAM data 25 2~16MA, SR PU/PD, SMT

DRAM data 24 2~16MA, SR PU/PD, SMT

Mask for DRAM input/output byte 3 2~16MA, SR

Mask for DRAM input/output byte 2 2~16MA, SR

MT1379

27

PRELIMINARY, SUBJECT TO CHANGE WITHOUT NOTICE MTK CONFIDENTIAL, NO DISCLOSURE

Pin Number Symbol Type Description

138 RD23 Inout

139 RD22 Inout

140 DVDD2 Power 2.5V power pin for internal digital circuitry 141 RD21 Inout

142 RD20 Inout

143 RD19 Inout

144 RD18 Inout

145 DVSS Ground Ground pin for internal digital circuitry 146 RD17 Inout

147 RD16 Inout

148 ABCK Output

149 ALRCK Inout

150 DVDD3 Power 3.3V power pin for internal digital circuitry 151 ACLK Inout

152 MC_DATA Input Microphone serial input 153 SPDIF Output

154 ASDATA0 Inout

155 ASDATA1 Inout

156 ASDATA2 Inout

DRAM data 23 / 2~16MA, SR PU/PD, SMT

2~16MA, SR PU/PD, SMT

4MA

4MA,

PD, SMT

4MA

2~16MA,

SR : ON/OFF

4MA

PD SMT

4MA

PD SMT

4MA

PD SMT

Videoin Data PortA 7

DRAM data 22 /

Videoin Data PortA 6

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

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

Audio DAC master clock (384/256 audio sample frequency)

SPDIF output

(1) Audio serial data 0 (left/right channel) (2) Trap value in power-on reset :

1 : manufactory test mode 0 : normal operation

(1) Audio serial data 1 (surround left/surround right channel) (2) Trap value in power-on reset : 1 : manufactory test mode 0 : normal operation (1) Audio serial data 2 (center/left channel) (2) Trap value in power-on reset : 1 : manufactory test mode 0 : normal operation

MT1379

Analog Y output

28

PRELIMINARY, SUBJECT TO CHANGE WITHOUT NOTICE MTK CONFIDENTIAL, NO DISCLOSURE

Pin Number Symbol Type Description

157 ASDATA3 Inout

158 ASDATA4 Inout

159 DACVDDC Power 3.3V power pin for VIDEO DAC circuitry 160 VREF Analog input Bandgap reference voltage 161 FS Analog output Full scale adjustment 162 YUV0/CIN Output

163 DACVSSC Ground Ground pin for VIDEO DAC circuitry 164 YUV1/C Output

165 DACVDDB Power 3.3V power pin for VIDEO DAC circuitry 166 YUV2/Y Output

167 DACVSSB Ground Ground pin for VIDEO DAC circuitry 168 YUV3/CVBS Output

169 DACVDDA Power 3.3V power pin for VIDEO DAC circuitry

170 YUV4/G Output

171 DACVSSA Ground Ground pin for VIDEO DAC circuitry 172 YUV5/B Output

173 YUV6/R Output

174 ICE

175 BLANK# Inout

176 VSYN Inout

177 YUV7 Inout

178 DVSS Ground Ground pin for internal digital circuitry 179 HSYN Inout

180 SPMCLK Input Audio DAC master clock of SPDIF input /

(1) Audio serial data 3 (surround left/surround right channel)

4MA

PD SMT

4MA

PD SMT

4MA, SR

Input

PD, SMT

4MA, SR

SMT

4MA, SR

SMT

4MA, SR

SMT

4MA, SR

SMT

(2) 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

Video data output bit 0 /

Compensation capacitor

Video data output bit 1 /

Analog chroma output

Video data output bit 2 /

Video data output bit 3 /

Analog composite output

Video data output bit 4 /

Green or Y

Video data output bit 5 /

Blue or CB

Video data output bit 6 /

Red or CR

Microcontroller ICE mode enable

Video blank area, active low /

Videoin Field_601

Vertical sync /

Videoin Vsync_601

Video data output bit 7 /

Videoin Data PortB 3

Horizontal sync /

Videoin Hsync_601

Videoin Data PortB 4

MT1379

RF serial data output

29

PRELIMINARY, SUBJECT TO CHANGE WITHOUT NOTICE MTK CONFIDENTIAL, NO DISCLOSURE

Pin Number Symbol Type Description

181 SPDATA Input Audio data of SPDIF input /

182 DVDD2 Power 2.5V power pin for internal digital circuitry 183 SPLRCK Input Audio left/right channel clock of SPDIF input /

184 SPBCK Input Audio bit clock of SPDIF input /

185 DVDD3 Power 3.3V power pin for internal digital circuitry 186 XTALO Output Crystal output 187 XTALI Input Crystal input 188 PRST Input

189 DVSS Ground Ground pin for internal digital circuitry 190 VFO13 Output The 1st, 3rd header VFO pulse output 191 IDGATE Output Header detect signal output 192 DVDD3 Power 3.3V power pin for internal digital circuitry 193 UDGATE Output DVD_RAM recording data gate signal output 194 WOBSI Input Wobble signal input 195 SDATA Output 196 SDEN Output RF serial data latch enable 197 SLCK Output RF serial clock output 198 BDO Input Flag of defect data input status 199 ADCVSS Ground Ground pin for ADC circuitry 200 ADIN Analog Input General A/D input 201 RFSUBI Analog Input RF subtraction signal input terminal 202 TEZISLV Analog Input Tracking error zero crossing low pass input 203 TEI Analog Input Tracking error input 204 CSO Analog Input Central servo input 205 FEI Analog Input Focus error input 206 RFLEVEL Analog Input Sub beam add input or RFRP low pass input 207 RFRP_DC A Input RF ripple detect input 208 RFRP_AC Analog Input RF ripple detect input (through AC coupling) 209 HRFZC Analog Input High frequency RF ripple zero crossing 210 PWMVREF A Input A reference voltage input for PWM circuitry. A typical value of 4.0 v 211 PWM2VREF A Input A reference voltage input for PWM circuitry. A typical value of 2.0 v 212 ADCVDD3 Power 3.3V power pin for ADC circuitry 213 RFDTSLVP Analog Output Positive RF data slicer level output 214 RFDTSLVN Analog Output Negative RF data slicer level output 215 RFIN Analog Input Negative input of RF differential signal 216 RFIP Analog Input Positive input of RF differential signal

Videoin Data PortB 5

Videoin Data PortB 6

Videoin Data PortB 7

Power on reset input, active high

PD, SMT

MT1379

30

PRELIMINARY, SUBJECT TO CHANGE WITHOUT NOTICE MTK CONFIDENTIAL, NO DISCLOSURE

MT1379

26 Jul, 2002

Page 1 of 2

IREF

PLLVSS

LPIOP LPION

LPFON

LPFIP LPFIN

LPFOP

JITFO

JITFN

PLLVDD3

FOO

TRO

TROPENPWM

PWMOUT1 PWMOUT2

DVDD2

DMO

FMO

DVSS

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

RFRP_AC

RFRP_DC

FEI

RFLEVEL

RFDTSLVN

RFDTSLVP

ADCVDD3

212

213

214

59

58

575655

PWMVREF

210

211

209

626160

RFIN

RFIP

215

216

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21

FG

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

HRFZC

PWM2VREF

CSO

TEI

ADIN

RFSUBI

TEZISLV

200

201

202

203

204

205

206

207

208

717069

686766

656463

BDO

ADCVSS

198

199

SLCK

197

747372

SDEN

196

SDATA

WOBSI

194

195

777675

UDGATE

193

PRST

VFO13

DVDD3

IDGATE

DVSS

XTALI

XTALO

186

187

188

189

190

191

192

MT1379

(216 pins)

84

838281

807978

DVDD3

SPBCK

184

185

878685

DVDD2

SPLRCK

182

183

89

88

SPDATA

SPMCLK

180

181

HSYN

179

929190

DVSS

178

YUV7

177

VSYN

176

959493

BLANK

175

ICE

174

YUV6/R

YUV5/B

172

173

989796

99

YUV4/G

DACVDDA

DACVSSA

169

170

171

102

101

100

DACVSSB

YUV2/Y

YUV3/CVBS

166

167

168

104

103

105

DACVDDB

DACVSSC

YUV1/C

163

164

165

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

108

107

106

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

ALE

IOOE#

APLLVDD3

IOCS#

IOWR#

DVSS

UP1_2

UP1_3

UP1_4

UP1_5

UP1_6

DVDD3

UP1_7

UP3_0

UP3_1

INT0#

IR

UP3_4

DVDD2

UP3_5

UWR#

URD#

DVSS

RD7

RD6

RD5

RD4

RD3

DVDD2

RD2

RD1

RD0

RWE#

CAS#

RAS#

RCS#

BA0

DVSS

RD15

RD14

RD13

RD12

RD11

DVDD3

RD10

RD9

RD8

DVSS

CLK

CKE

RA11

RA9

RA8

DMVDD3

31

PRELIMINARY, SUBJECT TO CHANGE WITHOUT NOTICE MTK CONFIDENTIAL, NO DISCLOSURE

MT1379

F

UNCTIONAL BLOCK

IR/

VFD

Servo

IO

Servo

DSP

Playback

Controller

System

Controller

DVD module

Analog

Front end

DRAM

Interface

Spindle

Controller

DPU

Processor

Audio

Channel

Decode

Debug

Port

Audio

Output

CSS/

CPPM

System

Parser

Microphone

Input

Video

Decoder

TV encoder

Video

Output

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 stream, 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 sp indle 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

DRAMFlash

Audio DAC

SPDIF

MIC

32

PRELIMINARY, SUBJECT TO CHANGE WITHOUT NOTICE MTK CONFIDENTIAL, NO DISCLOSURE

MT1379

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 reconstructor (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

§

Video Processor

SPU

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

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.

33

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 Output 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, right alignment, or I2S 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 alignment, right alignment, or I2S formats.

MT1379

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.

34

PRELIMINARY, SUBJECT TO CHANGE WITHOUT NOTICE MTK CONFIDENTIAL, NO DISCLOSURE

MT1379

E

LECTRICAL CHARACTERISTICS

Absolute Maximum Rating

Symbol Parameters Value Unit

VDD3 3.3V Supply voltage -0.3 to 3.6 V VDD2 2.5V Supply voltage -0.3 to 3.0 V VDDA Analog Supply voltage -0.3 to 3.6 V

VIN Input Voltage -0.3 to 5.5 V

V

Output Voltage -0.3 to VDD3+0.3 V

OUT

Ta Ambient Temperature 0 to 70 °C

DC Charateristics

Symbol Parameters Min Typ Max Unit

VIH Input voltage high 2.4 - 3.6 V

VIL Input voltage low - - 0.8 V VOH Output voltage high 3.0 - VDD3 V VOL Output voltage low - - 0.5 V

IIH High level input current 10 uA

IIL Low level input current -10 uA

PD Power dissapation 1.0 W

P

Power down mode 0.1 W

Down

KEY FEATURES

35

8.3 U214 HY29F800

n 5 Volt Read, Program, and Erase

– Minimizes system-level power requirements

n High Performance

– Access times as fast as 55 ns

n Low Power Consumption

– 20 mA typical active read current in byte

mode, 28 mA typical in word mode – 35 mA typical program/erase current – 5 µA maximum CMOS standby current

n Compatible with JEDEC Standards

– Package, pinout and command-set

compatible with the single-supply Flash

device standard – Provides superior inadvertent write

protection

n Sector Erase Architecture

– Boot sector architecture with top and

bottom boot block options available – One 16 Kbyte, two 8 Kbyte, one 32 Kbyte

and fifteen 64 Kbyte sectors in byte mode – One 8 Kword, two 4 Kword, one 16 Kword

and fifteen 32 Kword sectors in word mode – A command can erase any combination of

sectors – Supports full chip erase

n Erase Suspend/Resume

– Temporarily suspends a sector erase

operation to allow data to be read from, or

programmed into, any sector not being

erased

n Sector Protection

– Any combination of sectors may be

locked to prevent program or erase operations within those sectors

n Temporary Sector Unprotect

– Allows changes in locked sectors

(requires high voltage on RESET# pin)

n Internal Erase Algorithm

– Automatically erases a sector, any

combination of sectors, or the entire chip

n Internal Programming Algorithm

– Automatically programs and verifies data

at a specified address

n Fast Program and Erase Times

– Byte programming time: 7 µs typical – Sector erase time: 1.0 sec typical – Chip erase time: 19 sec typical

n Data# Polling and Toggle Status Bits

– Provide software confirmation of

completion of program or erase operations

n Ready/Busy# Output (RY/BY#)

– Provides hardware confirmation of

completion of program and erase operations

n Minimum 100,000 Program/Erase Cycles n Space Efficient Packaging

– Available in industry-standard 44-pin

PSOP and 48-pin TSOP and reverse TSOP packages

19

A[18:0]

CE#

OE#

WE#

RESET#

BYTE#

8

DQ[7:0]

7

DQ[14:8]

DQ[15]/A-1

RY/BY#

BLOCK DIAGRAM

36

DQ[15:0]

A[18:0], A-1

DQ[15:0]

WE#

CE#

OE#

BYTE#

RESET#

RY/BY#

STATE

CONTROL

COMMAND

REGISTER

PROGRAM

VOLTAGE

GENERATOR

VCC DETECTOR TIMER

ERASE VOLTAGE

GENERATOR AND

SECTOR SWITCHES

A[18:0], A-1

I/O CONTROL

Y-DECODER

X-DECODER

ADDRESS LATCH

I/O BUFFERS

DATA LATCH

Y-GATING

8 Mb FLASH

MEMORY

ARRAY

PIN CONFIGURATIONS

37

RY/BY#

A18

A17

A7 A6 A5 A4 A3 A2 A1910 A0

CE#1112

V

SS

OE#1314 DQ0 DQ81516 DQ1 DQ91718 DQ2

DQ101920

DQ3

DQ112122

1 2 3 4 5 6 7 8

PSOP44

44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23

RESET# WE# A8 A9 A10 A11 A12 A13 A14 A15 A16 BYTE# V

SS

DQ15/A-1 DQ7 DQ14 DQ6 DQ13 DQ5 DQ12 DQ4 V

CC

A15 A14 A13 A12 A11 A10

A9

A8 NC NC910

WE#

RESET#1112

NC NC1314

RY/BY#

A181516 A17

A71718

A6

A51920

A4

A32122

A2

A12324

A16

BYTE#

V

SS

DQ15/A-1

DQ7

DQ14

DQ6

DQ13

DQ5

DQ12

DQ4

V

CC

DQ11

DQ3

DQ10

DQ2 DQ9 DQ1 DQ8 DQ0

OE#

V

SS

CE#

A0

10 11 12 13 14 15 16 17 18 19 20

21 22 23 24

A16

1 2 3 4 5 6 7 8

Standard

TSOP48

1 2 3 4 5 6 7 8 9

Reverse TSOP48

48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25

BYTE# V

SS

DQ15/A-1 DQ7 DQ14 DQ6 DQ13 DQ5 DQ12 DQ4 V

CC

DQ11 DQ3 DQ10 DQ2 DQ9 DQ1 DQ8 DQ0 OE# V

SS

CE# A0

A15 A14 A13 A12 A11 A10 A9 A8 NC NC WE# RESET# NC NC RY/BY# A18 A17 A7 A6 A5 A4 A3 A2 A1

DESCRIPTION

38

8.4 U203 SDRAM-HY57V1610D

THE Hynix HY57V161610D is a 16,777,216-bits CMOS Synchronous DRAM, ideally suited for the Mobile applications which require low power consumption and industrial temperature range. HY57V161610D is organized as 2banks of 524,288x16.

HY57V161610D is offering fully synchronous operation referenced to a positive edge 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 1,2 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 pipeline design is not restricted by a `2N` rule.)

FEATURES

• Single 3.0V to 3.6V power supply

• All device pins are compatible with LVTTL interface

• JEDEC standard 400mil 50pin TSOP-II with 0.8mm of pin pitch

• All inputs and outputs referenced to positive edge of system clock

• Data mask function by UDQM/LDQM

• Internal two banks operation

Note1)

ORDERING INFORMATION

Part No. Clock Frequency Organization Interface Package

HY57V161610DTC-55I 183MHz

HY57V161610DTC-6I 166MHz

HY57V161610DTC-7I 143MHz

HY57V161610DTC-10I 100MHz

• Auto refresh and self refresh

• 4096 refresh cycles / 64ms

• Programmable Burst Length and Burst Type

- 1, 2, 4, 8 and Full Page for Sequence Burst

- 1, 2, 4 and 8 for Interleave Burst

• Programmable CAS Latency ; 1, 2, 3 Clocks

2Banks x 512Kbits x 16 LVTTL

400mil

50pin TSOP II

This document is a general product description and is subject to chage without notice. Hyundai Electronics does not assume any responsibility for use of circuits described. No patent licenses are implied

Rev. 0.2/Aug.01

PIN CONFIGURATION

39

PIN DESCRIPTION

VDD

DQ0 DQ1

VSSQ

DQ2 DQ3

VDDQ

DQ4 DQ5

VSSQ

DQ6

DQ7 VDDQ LDQM

WE CAS RAS

CS A11 A10

A0 A1 A2 A3

VDD

1 2 3 4 5 6 7 8

9 10 11 12

50pin TSOP-II

13

400mil x 825mil

14

0.8mm pin pitch

15 16 17 18 19 20 21 22 23 24 25

50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26

VSS DQ15 DQ14 VSSQ DQ13 DQ12 VDDQ DQ11 DQ10 VSSQ DQ9 DQ8 VDDQ NC UDQM CLK CKE NC A9 A8 A7 A6

A5 A4 VSS

PIN PIN NAME DESCRIPTION

CLK Clock

CKE Clock Enable

The system clock input. All other inputs are referenced to the SDRAM on the rising edge of CLK.

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 Command input enable or mask except CLK, CKE and DQM

BA Bank Address Select either one of banks during both RAS and CAS activity.

A0 ~ A10 Address

Row Address Strobe,

RAS, CAS, WE

Column Address Strobe, Write Enable

Row Address : RA0 ~ RA10, Column Address : CA0 ~ CA7 Auto-precharge flag : A10

RAS, CAS and WE define the operation. Refer function truth table for details

LDQM, UDQM Data Input/Output Mask DQM control output buffer in read mode and mask input data in write mode

DQ0 ~ DQ15 Data Input/Output Multiplexed data input / output pin

V DD/V SS Power Supply/Ground Power supply for internal circuit and input buffer

V DDQ/V SSQ Data Output Power/Ground Power supply for DQ

NC No Connection No connection

XS401

FRONT SCHEMATIC DIAGRAM

40

9. SCHEMATIC & PCB WIRING DIAGRAM

XS06

U403

HS0038A2

1

3

2

TC407

100uF/16V

23415

6

IR

C405

R416

4.7K

VCC

R417

104

4.7K

R418

R415

100

4.7K

VCC

IR

VCC

GND

DST

DCK

DAT

DST

K401

DCK

K402

K403

DAT

D401

IN4148

A1K

2

FRONT SCHEMATIC DIAGRAM

41

-9V

POWER BOARD SCHEMATIC DIAGRAM

42

ZD502

9.1V/1W

CN502

XS07

2341567

CN501

XS02

2

1

L505

+9V

C508

104

TC504

470uF/16V

10uH/1A

TC503

470uF/16V

D508

HER105

!

+5V

C510

TC506

L507 10uH/2A

TC505

SR560

D510

10T501

8 9

1 2 3 4

1000uF/10V

104

7

TC510

1000uF/10V

+3.3V

D513

1N4007

D509

1N4007

D511

HER105

6

EEL19H

5

R511

330R/1W

TC513

R508

R507

TC512

3.3K

1K

47uF/50V

100uF/16V

R506

330

C515

104

R509

10K

R

K

A

U503

LM431A

1

2

!

U502

2501

4

3

-9V

GND

+3.3V

+5V

GND

+9V

BC503

~400V 221

GND

R517

330R

+5V

!

D506

HER105

10ohm

TC502

47uF/50V

D505

C503

D504

D501

TC501

HER107

101/1KV

47uF/400V

1N4007

C502

103/1KV

R503

39K/2W

D503

1N4007

A1K

2

D502

1N4007

R505

C504

104

FB

L503

!

9.1K

R512

C506

473

4

3

D

8 7 6 5

S

D

FB

2

VDD

D

S

U501

1

BC501

~275V 104

VIPER22

L501

!

R501

680K 2W

!

F501

T1.6A/250V

1

~220V

2

BCN501

~220V

!

BCN501

!

BCN502

SW-SPST

D

POWER BOARD SCHEMATIC DIAGRAM

43

TROPEN

MIAN SCHEMATIC DIAGRAM

44

LOAD-

R334

(TRCLOSE1) (TROPEN1)

TC308

47uF/16V

R322

470R

2.2R\1/4W R341

V307

8050

V308

8050

9014-S

V310

R323

470R

R339

10K

(TRCLOSE1)

TRCLOSE

TROPEN

R338

1.5K

V306

8550

V309

8550

R342

1.5K

TC309

47uF/16V

LOAD+

23415

LOAD-

LOAD+

TROUT

TRIN

330K

R336

1R

R331

750K

R333

330K

C341

104

R335

750K

VCC

V1P4

SP-

6

XS302

5P2.0mm

C332

104

C333 27pF

R332

0R

ADIN

OP-

OP+

OPO

U302

BA5954

XS303

XS06

23415

SP+

SL+

SL-

LIMIT

A

D

R316 20K

C334 151

FMSO

47uF/16V

104

C337

104

TRSO

V1P4

STBY

104

28

VINSL+

VINSL-

VINFC

VOSL

CF12CF2

1

3

4

5

6

V1P4

FOSO

R321

20K

C331 151

20K

DMSO

101

A

BCC

B

C316 105

C317 105

C318 105

PREGND22VINLD23CTK224CTK125VINTK26BIAS27STBY

VINFFC

R319 10K

R320

SL+

SL-

GND

TC304

C335

C336

7

C342

D

C315 105

R312

1R

VCC

R313

1R

21

VOTK+15VOTK-16VOLD+17VOLD-18PGND19VNFTK20PVCC2

29

GND

30

GND

VOFC+

PVCC1

VOFC-

VOSL-

PGND

VO2+

VCC

9

10

11

12

13

14

8

VCC

SP-

SP+

R318

1R

R317

1R

C311 470P

C312 104

C313 104

C314 105(DNS)RFO

C329

104

2341568910711121415161317182021221923

C330

104

SW1

L320

L321

L322

L323

L324

FBSMT

R315

10R

LDO-AVCC

47uF/16V

RFVCC

OPO

OP-

OP+

R337 0R

L318

L316

L312

L314

L311

L310

L308

L307

L306

L319

L317

FBSMT

A

F

B

RFO

IOADC

V20

V302

2SB1132-S

TC303

LDO1

DV33

LDO-AVCC

RVCCIN

104

L305

FBSMT

10uH

FBSMT

E

MD11

10R

V301

2SB1132-S

LDO-AVCC

TC302

47uF/16V

LDO2

100K

C327

C326

XS301

24P0.5mm

24

L304

L303

L301

FBSMT

10uH

FBSMT

AVCC

C328

104

TC301

220uF/16V

R314

R308

V303

2SK3018-S

V304

2SK3018-S

3904-S

R310

100K

V305

R309

10K

AVCC

R311

10K

IOA

F E

MD11 LDO1 LDO2

DD#

CC#

BB#

AA#

102MA101

100

MB

DVDA

DVDB99DVDC98DVDD97DVDRFIP96DVDRFIN95CDA94CDB93CDC92CDD91OSN90OSP89RFFGC88RFGCU87RFGCI86CEOP85CEON84AGNDX83AGNDX82MON81MOP80SW179SW278SW077SINPHI76REFSIN75HALLSIN74AGNDM

103

MC

104

MD

105

SA

106

SB

107

AGND

108

IR

109

R307

15K

C319

153

C324

104

C325

AVDD

110

SC

111

SD

112

CDFOP

113

CDFON

114

SVDD

115

TPI

116

TNI

117

SGND

118

WGAND

119

AGC1

120

WAVDD

121

AGC2

122

AGC3

123

MD12

124

MD11

125

LDO1

126

LDO2

127

RFSUBO

128

WGND

WOBSO

AGNDX3AGNDX4AVDDO

AGNDO

AGNDT

WVDD

RFON

RFOP

2

6

1

5

RVCCIN

47uF/16V

TC305

104

C320

C321

104

C322

104

C323

104

C2157

104

C2158

104

RFOP

RVCCIN

AVDDT

TM19TM210TM3

TM4

7

12

8

11

13

RFON

C301

104

C302

104

10uF/16V

C303

104TC306

TC307

10uF/16V

MT1336E_128

U301

V2REFO

VREFO

14

15

V2P8

DEFECT

LRFRP

VDDP

CSO20TEO

FEO18LVL

V20

19

21

22

23

16

V1P4

24

17

V20

FEO

RFL

CSO

TEO

BDO

C304

391

C305

82p

C306

333

HRFRP

25

RFRP

72

73

AGNDF65VCON66AVDDF67AGNDX68AVDDM69COSPHI70HALLCOS71REFCOS

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

CRTPLP

TRLPA

GNDP

HTRC

CRTP

DPFN32DPFO

TRLP

26

28

30

31

27

29

CRTP

HTRC

C308

153

AGNDX34AGNDX35AGNDX

33

R326

R327

DNS

HSYNC#

SW1

GND

VFO13

VDD

37

38

36

RVCCIN

64 63 62 61

PWMOUT2

60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39

104

C338

C339

104

RFVCC

URST SDATA SDEN

SCLK

TRCLOSE

IOA ENDM STBY LIMIT TROUT TRIN

STBY

R306 10K

ENDM

R305 10K

TRCLOSE

TROPEN

R304 10K

R303 10K

47pF

MIAN SCHEMATIC DIAGRAM

45

DRD# DWR# DCE#

GND

PDAT0

DWE# DCAS# DRAS# DCS# BA0

ãÞ""Œä

‰aŒäŽ¼

C241

47pF C242

C243

47pF

C244

47pF

R2107 33R R2108 33R R2109 33R

C2140

101

C2141

101

IR

RXD TXD

DQ7 DQ6 DQ5 DQ4

DQ3 DQ2 DQ1

DQ0

R229 33R R230 33R R231 33R R232 33R R233 33R

DQ15

DQ14

DQ13

DQ12

DQ11

DQ10

DQ9

DQ8

""

š¢""

L208

FBSMT

VSDA1

éñ çå éñçª "•÷

XS07

2341567

L203

L201

L202

FBSMT

VSCK

VSTB

VSDA

GND

DCLK DCKE DMA11 DMA9 DMA8

RST#

L207

IR#

PRD# PWR# PCE#

VSCK VSDA VSTB SCL

SDA

VDATA3

4.7R

R260

0R(DNS)

XS201

XS202

XS04(DNS)

100 101 102 103 104 105 106 107 108

RDQM1

R247

33R

DQM1

33R

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

RDQM2

R248

DQM2

5 6

URST

4.7R

R241

33R

9014

47uF/16V

R2159

R212

RDQM3 DQM3

33R

Q204

ASPDIF SPDIF#

R242

33R

104

TC237

FB(DNS)

GND

AV33

C226

225

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

R2157

10K

C2146

L206

VCC

234

RXD

TXD

C224

104

GND

APLLVSS54IOA20

DMVSS

109

VD201

1N4148

VCC

C225

47pF

R210

0R

IR

R211

4.7K

VCC

C228

225

R213

DCLK SDCLK

RDQM0

AV33

R234

R235

R246

33R

SDCKEDCKE

DQM0

TC217

10uF/16V

R2158

1K

C2148

102

U205D

HCU04

U205C

HCU04

89

R2162

0R

AVCC

R2163

0R(DNS)

RSET

27MHZ

1

DV33

C2149

10pF(DNS)

A16

A17

A18

A19

A20

53

52

DVDD3

DQM1

DQM0

DVSS

RA7

RA6

RA5

RA4

110

111

112

113

114

115

116

117

DMA7

DMA6

DMA5

DMA4

RDQM1

RDQM0

4.7K(DNS)

AVCC

24

8M_FLASH(TSOP)

A520A421A322A7

A223A1

VD DV33

DQ0

R220

0R

Vss

OE

CE26A0

28

25

29

27

AD0

DRD#

GND

DCE#

A1

C222

27pF

X201

27MHz

C223

27pF R209

10R(DNS)

DVDD2

RA10

BA1

RA0

RA1

118

119

120

121

BA1

DMA10

DMA0

R221

A18A7A6A5A4A3A2

A8

A19

18

A619A1717RY/BY15A1816NC

DQ10

DQ830DQ9

DQ233DQ3

DQ1

32

31

AD2

AD9

AD1

AD8

0R

RA2

122

123

DMA1

DMA2

14

34

35

AD3

AD10

R240 0R

R243

XO

AD1

AD0A0A1A2A3A4A5A6A7

DVSS

RA3

124

125

DMA3

VP

RSET

12

Vcc

36

37

R238

0R(DNS)

1 2

R208

100K

R239

0R(DNS)

3 4

7 14

104

U205B

HCU04

XTALI

AD7

AD6

AD5

AD4

AD3

AD2

DVDD3

RD31

RD30

RD29

RD28

RD27

RD26

126

127

128

129

130

131

132

DQ31

DQ30

DQ29

DQ28

DQ27

DQ26

R215 4.7K R223 4.7K

R222 4.7K

A20

A12

A11

A10A9DWR#

NC10NC13A97A151A142A133A115A106A88A199WE11RESET

DQ1239DQ11

DQ1443DQ13

DQ6

DQ7

DQ540DQ4

42

44

41

38

AD14

AD6

AD13

AD5

AD12

AD4VDAD11

XI

V1P4

FMSO

DMSO

PWMOUT2

TROPEN

TRSO

FOSO

PWMOUT1

A10

DVDD2

139

DQ22

UPA[20..0]

V25

JITFO

LPFOP

LPFIP

JITFN

C216

101

R202

C213

103

R203

R204

R2050RR206

R207

FGA8A9

20K

18K

10K

15K

MC_DATA

ALRCK

DVDD3

ABCK

ACLK

DVSS

RD21

RD20

RD19

RD18

RD17

RD16

140

141

142

143

144

145

146

147

148

149

150

151

152

ACLK

AMDAT

DQ21

UPD[15..0]

ALRCK

DQ20

DQ19

DQ18

DQ17

DQ16

ABCK

R259

0R

DV33

L204

RST#

FB

C245

104

C246

104

SD33

C247

104

C248

104

C249

104

C250

104

C251

104

C252

104

TC206

47uF/16V

C215 103

750K

ASDATA3

ASDATA4

ASDATA0

ASDATA1

ASDATA2

SPDIF

157

153

154

155

156

ASDAT0

ASDAT1

ASDAT2

ASPDIF

DQM1

36

NC37NC33DQML14WE

DQMH

VSS26VSS

47

50

DQM3

36

NC37NC33DQML14WE

DQMH

VSS26VSS

47

50

C214 103

DACVDDC

158

VSSQ4VSSQ10VSSQ41VSSQ

159

DACV33C

DQM0

DQM2

C212 103

RFDTSLVN

RFDTSLVP

ADCVDD3

PWM2VREF

PWMVREF

RFLEVEL

BLAANK#

DACVSSA

DACVDDA

YUV3/CVBS

DACVSSB

DACVSSC

VREF

160FS161

VREF

FS

DWE#

15

44

DWE#

15

44

U205A

HCU04

C217

331

C218

331

103(DNS)

C219

AVCC

C2113

C220

153

C221

104

A11

A12

A13

A14

A15

MT1379E_216

U201

DQM3

DQM2

DVSS

RD25

RD24

RD23

RD22

133

134

135

136

137

138

DQ25

DQ24

RDQM3

RDQM2

DQ23

R2160

1K

C2161

104

C2162

104

C2163

104

VD

C2164

104

A15

A14

A13

A16

4

U214

A12

DQ15/A-1

BYTE

A16

Vss

48

47

45

46

GNDA0AD7

A17

LPION

R201

8.2K

IREF1PLLVSS2LPION4LPIOP3LPFON5LPFIP6LPFIN7LPFOP8JITFO9JITFN10PLLVDD311FOO12TRO13TROPENPWM14PWMOUT115PWMOUT216DVDD217DMO18FMO19DVSS20FG21HIGHA022HIGHA123HIGHA224HIGHA325HIGHA527HIGHA426DVSS28HIGHA629HIGHA730AD731AD632AD533DVDD335AD336AD434AD237AD138AD039IOA040IOA141DVDD242IOA243IOA344IOA445IOA546IOA647IOA748A1649A1750IOA1851IOA19

RFIP RFIN

HRFZC RFRP_AC RFRP_DC

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

YUV6/R YUV5/B

YUV4/G

YUV2/Y

YUV0/CIN

YUV1/C

162

Y0

DCAS#

16

VCCQ13VCCQ7VCCQ38VCCQ

DCAS#

16

VCCQ13VCCQ7VCCQ38VCCQ

DV33

C2159

104

R252

C2160

104

4.7R

LPIOP

C2142

104

C240

104

TC204

47uF/16V

216 215 214 213 212 211 210 209 208 207 206 205

FEI

204

CSO

203

TEI

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

ICE

173 172 171 170 169 168 167 166 165 164 163

SDCKE

DCS#

DRAS#

34

RAS17CS18CAS

CKE

VCC1VCC

49

25

SD33

DQ15

SDCKE

DCS#

DRAS#

34

RAS17CS18CAS

CKE

VCC1VCC

49

25

SD33

DQ31

AV33

104

R251

104

4.7R 104

104

GND

RFRPC

C237

104

R214 4.7R(DNS)

BA0

SDCLK

35

DQ11

DQ12

DQ13

DQ14

BA0

SDCLK

35

DQ27

DQ28

DQ29

DQ30

104

C227

104

C202

104

C253

C203

104

C208

C204

104

C209

C205

104

C210

C206

104

C211

RFON RFIN

DV33

C238 102

C239 102RFOP

RFIP

RFZC

RFL FEO CSO TEO

ADIN

BDO SCLK SDEN SDATA

URST XI XO

SPBCK SPLRCK

SPDATA SPMCLK

HSYNC#

VGND Y7

VSYNC#

VSDA1

Y6 Y5 VGND Y4

DACV33A

Y3 VGND Y2

DACV33B

Y1 VGND

V25

VGND

R237

2.0K

DMA7

DMA8

DMA9

DMA10

DQ1042DQ1143DQ1245DQ1346DQ1448DQ15

DQ712DQ611DQ59DQ48DQ36DQ25DQ13DQ0

DQ839DQ9

40

DQ7

DQ8

DQ9

DQ10

DMA7

DMA8

DMA9

DMA10

DQ1042DQ1143DQ1245DQ1346DQ1448DQ15

DQ712DQ611DQ59DQ48DQ36DQ25DQ13DQ0

DQ839DQ9

40

DQ23

DQ24

DQ25

DQ26

C2165

C207

C233 102

C229 104(DNS)

DMA6

DQ6

DMA6

DQ22

4

DC/NC1RST_/NC2WP/RST_3VSS

AT24C02/X4050

U202

RST/WP

VCC

SDA

SCL

8

7

6

5

SDA

V25

GND

V2P8

10uF/16V

TC201

C234

104

RFRP

R216

18K

R236

0R(DNS)

L330

FBSMT

104

47uF/16V

TC215

L329

FBSMT

DMA2

DMA3

DMA4

DMA5

DQ2

DQ3

DQ4

DQ5

DMA2

DMA3

DMA4

DMA5

DQ18

DQ19

DQ20

DQ21

DV33

SCL

C201

104

R227

1K

R228

1K

HTRC

RFRPC

R219

R218

R217

0R(DNS)

0R

100K

C230

104

V1P4

C231

104

XTALI

DV33

10uF/16V

TC202

DACV33C

C232

10uF/16V

TC219

C2137

104

L331

FBSMT

C235

104

DV33

DMA0

DMA1

U203

SDRAM 512*16*2

A021A122A223A324A427A528A629A730A831A932A1020BA/A1119CLK

2

DQ0

DQ1

DMA0

DMA1

U204

SDRAM 512*16*2

A021A122A223A324A427A528A629A730A831A932A1020BA/A1119CLK

2

DQ16

DQ17

SPDIF#

MIAN SCHEMATIC DIAGRAM

46

XS203

R258

100R

C2143

104

AVCC

R254

10M

R255

1M

R257

91R

AGND

U205F

HCU04

1213

C294

U205E

HCU04

1011

C2144

104

R256

330R

SPDIF##

C2156

R2161

VGND

104

TC208

220uF/16V

104

220uF/16V

TC207

A5V AVCC

L209

FB

TC205

220uF/16V

A5V

C2152

104

XS07

2341567

L242 FB

L241 FB

L249 FB

L250 FB

Q201

C2154

+9V-9V RVCC DV33

A5V

VCC

L205

FB

AV33

C295

C296

C297

8050

C2153

104

TC211

220uF/16V

104

V25

220uF/16V

TC213

C2151

104

Y2

Y6

R280

150R

VGND VGND

L248

0R

C269

101

L215

1.8uH

C271

101

Q214

3906-S

VGND

VGND VGND

C270 20pF(DNS)

A5V

R281

150R

VIDEO_V

220uF/16V

R

L222

FBSMT

C277

20pFTC220

Pr

Y5

R276

150R C266

L247

0R

101

1.8uH

C268

101

FBSMT

C276

20pF

C267 20pF(DNS)

L214

Q220

3906-S

VIDEO_U

TC218

220uF/16V

G

B

L220

FBSMT

L221

C275

20pF

Y

Pb

150R

R273

150R

VGND VGND

C263

101

1.8uH

C265

101

A5V

R277

Y1

Y4

VGND VGND

L246

0R

C264 20pF(DNS)

L213

150R

Q213

3906-S

VIDEO_Y1

TC216

220uF/16V

VGND

Y3

C2150

104

TC203

10uF/16V

R262

R274

150R

VGND VGND

L244

0R

C257

101

C259

101

A5V

R271

C258 20pF(DNS)

L211

1.8uH

R275

150R

Q217

3906-S

VIDEO_C

TC212

220uF/16V

C272

20pF

VGND

C273

20pF

R270

150R

L245

0R

C260

101

1.8uH

101

A5V

R272

C274

20pF

C261 20pF(DNS)

L212

C262

Q216

3906-S

VIDEO_COMP

TC214

220uF/16V

L219

FBSMT

VIDEO

576

JK202

V-OUT5

150R

VGND VGND

L243

0R

C254

101

L210

1.8uH

C256

101

A5V

L217

FBSMT

L216

FBSMT

3

4

1 2

C255 20pF(DNS)

A5V

R263

Q215

3906-S

150R

VIDEO_Y

TC210

220uF/16V

JK202

S-VIDEO

RED

MIAN SCHEMATIC DIAGRAM

47

RED

WHITE

BLACK

RCA-407

PDAT0

HSYNC#

R345

R350

2.2K

AGND

Q207

8050

VGND VGND

VJS3921

GND

AGND

R349

1K

VIDEO

Pr

19

21

RETURN

TRTURN

BLK I/O

V-IN

16

14

18

20

AGND

100uF/16V

TC234

R250

10K

R264

150R

2.2K

A+10V

AGND

Q203

8050

Lt

Pb

Y

AGND

A(B)OUT1A(A)OUT3RETURN5BLUE I/O7RETURN9GREEN I/O11RETURN13RED I/O15RETURN17V-OUT

FUNC SW

A-COM

A(B)IN

A(A)IN

CONT

2

4

6

8

10NC12

0R

MUTEC

1N4148

R2106

1K

R2105

1KVD207

TC238

2.2uF/16V

Q211

1015

-9V

R249

330R

R266

1K

R265

10K

Q212

2SC1815-Y

AGND

VD205

1N4148

Q219

1015

AGND

TC235

47uF/16V

+9V

VCC

R343

4.7K

+9V A+10V

R347

330R

R346

33R

VSYNC#

AGND

Rt

JK203

R348

VCC

1015

MUTE-1

VD206

1N4148

Q202

8050

C280

104

A+10V

+9V

R267

1K

Q218

R344

75R

VCC

AGND

1

Lt

AGND

7

-9V

4 8

U220B

4580

5

6

R2269

3.9K

C2124

104

R2268

75K

R2154

100K

1

-9V

4 8

U220A

4580

3

30K

2

3

Rt

2SC1815-Y

Q209

1K

+9V

C2123

10n

75K

+9V

2

30K

R2146

R

L

47pF

100K

102

4

SUB

L233

C2107

R2115

C2108

R2147

30K

R2145

FB

L236

FB

LOUT

102

2SC1815-Y

Q206

R2120

1K

R2125

1K

R2126

CH-SW

TC223

10uF/16V

R2143

L

C2135 120P

TC226

10uF/16V

LL

5

6

C2101

47pF

AGND

R2112

100K

C2102

R21191KR2118

MUTE-1

-9V

4 8

AGND

R

TC225

10uF/16V

RR

JK201

AGND

SPDIF##

C299

47pF

L232

FB

R2111

100K

ROUT

C2100

102

2SC1815-Y

Q205

R2117

1K

CH-R

CH-L

TC241

10uF/16V

7

+9V

U219B

4580

5

6

R2134

4.7K

R2135

4.7K

C2115

102

R2148 6.8K

C2129

122

C2114 151

R2133

4 8

24K

AGND

104

-9V

U219A

4580

102

AGND

-9V

TC222

10uF/16V

C281

C282

TC240

10uF/16V

1

+9V

C2111 151

3

2

R2130

4.7K

R2131

4.7K

C2112

R2136 6.8K

C2122

122

PAGND

8

REF-GND

FILT+

9

C289

104

TC232

10uF/16V

C290

104

AGND

TC233

10uF/16V

+9V

TC221

10uF/16V

C278

104

C279

104

ACLK SACLK

ABCK SBCLK

ALRCK SLRCK

ASDAT0 SDATA0

R2129

R291 33R

R292 33R

R293 33R

R294 33R

24K

SDATA0

SBCLK

SLRCK

SACLK

RST#

U207 CS4340

/RST1SDA2SCLK3LRCK4MCLK5DIF16DIF07DEM0

MUTEC

AOUTA

AOUTB

AGND

16

15VA14

13

12

11VQ10

RR

MUTEC

C291

104

TC236

10uF/16V

AVCC

MIAN SCHEMATIC DIAGRAM

48

DV911S-2 MATERIAL LIST

49

10. SPARE PARTS LIST

1. POWER BOARD

MATERIAL CODE MATERIAL NAME SPECIFICATIONS UNIT QUANTITY LOCATION

294

0010101 METAL FILM RESISTOR 1/4W12K±1% SHAPED 10 PCS 1 R509

0000461

0010063 METAL FILM RESISTOR 1/4W4.7K±1% SHAPED 10 PCS 1 R508

0000431

0010135

0000278

0000380

0070001

0580054

0010250

0570005 DIODE 1N4007 PCS 4 D501~D504

0570011 DIODE RL202 PCS 2 D509,D513

0200138

0200224

0200223

0200228

0210191 TERYLENE CAPACITOR 50V 222 ±10% 5mm PCS 1 C506

0260559

0260563

0260557

0260594 CD CD11T 25V220U±20%8×12 3.5 PCS 2 TC503,TC504

0260560 CD CD11T 10V1000U±20%8×16 3.5 PCS 3 TC505,TC506,TC510

0390057

0410010 CHOKE COIL VERTICAL 10UH 1A 5mm PCS 1 L505

0410011 CHOKE COIL VERTICAL 10UH 2A 5mm PCS 1 L507

1080011

0570013 DIODE

0570014 DIODE

0680010 SCHOTTKY DIODE SR560 DO-27 PCS 1 D510

0880553

0880581

0880800

0210066 TERYLENE CAPACITOR 275V 104 ±20% 15mm PCS 1 BC501

0210070 TERYLENE CAPACITOR 275V 104 ±10% 15mm PCS 1 BC501

0200267 CERAMIC CAPACITOR CT81 250VAC221±20% 10mm PCS 1 BC503

0200268 TERYLENE CAPACITOR CT81 250VAC221±10% 10mm PCS 1 BC503

0460394

1000004 POWER GRID FILTER UT-20 40mH ±20% 10×13 PCS 1 L501

CARBON FILM RESISTOR

METAL OXIDE FILM RESISTOR

CARBON FILM RESISTOR

HIGH VOLTAGE RESISTOR

VOLTAGE REGULATOR DIODE

METAL OXIDE FILM RESISTOR

PORCELAIN CAPACITOR

CD CD CD

MAGNETIC BEADS INDUCTOR

PHOTOELECTRIC COUPLER

IC IC IC

SWITCHING POWER TRANSFORMER

1/4W10K±5% SHAPED 10 PCS 1 R507

1/4W9.1K±5% SHAPED 10 PCS 1 R512

1/4W75Ω±5% SHAPED 10

2W39K±5% SHAPED FLAT 15×9 PCS 1 R503

1/4W330Ω±5% SHAPED 10

1/4W510Ω±5% SHAPED 10

1/2W680K±5% PCS 1 R501

9.1V 1W PCS 1 ZD502

1W22Ω±5％SHAPED R 15×8

50V 104 ±20% 5mm PCS 4 C504,C508,C510,C515

1000V 103 +80%-20% 7.5mm PCS 1 C502

1000V 101 +80%-20% 7.5mm PCS 1 C503

1000V 101 ±10% 7.5mm PCS 1 C503

CD11T 50V47U±20%6×12 2.5 PCS 2 TC502,TC512

KM 400V47U±20%18×20 7.5 PCS 1 TC501

CD11T 16V100U±20%6×12 2.5 PCS 1 TC513

RH354708 PCS 1 L503

HS817 PCS 1 U502

HER105 HER107

LM431ACZ TO-92 PCS 1 U503

TL431C TO-226AA(LP) PCS 1 U503

431L TO-92 PCS 1 U503

BCK-19-0179 PCS 1 T501

PCS 1 R505

PCS 1 R517

PCS 1 R506

PCS 1 R511

PCS 3 D506,D508,D511

PCS 1 D505

1563407 PCB 5501A-4 PCS 1

50

2100003 CONNECTION CORDS

2100010 CONNECTION CORDS

2300021 FUSE T1.6AL 250V PCS 1 F501

1940045 SOCKET 2P 8.0mm 2# PCS 2 BCN501,BCN502

1940023 SOCKET 7P 2.0mm PCS 1 CN502

1940027 SOCKET 2P 2.0mm PCS 1 CN501

0881933

3870115

IC

GROUND CHIP OF POWER BOARD

Φ0.6 SHAPED 7.5mm Φ0.6 SHAPED 5mm

VIPER22A DIP8 PCS 1 U501

AB903 PCS 2 G501,G502

PCS 2 JP501,JP503

PCS 1 JP502

2. MAIN BOARD

MATERIAL CODE MATERIAL NAME SPECIFICATIONS UNIT QUANTITY LOCATION

5232805

0000009

0090023

0570006

1340003

0200139

0260206

2360002

2100010

2121660

1563482

SOFT SPONGE SPACER 6×6×2.5 DOUBLE-FACED, HARD PCS 1 1PC FOR IR SENSOR

CARBON FILM RESISTOR

SMD RESISTOR 1/16W 10K ±5% PCS 3 R416,R417,R418

DIODE 1N4148 PCS 1 D401

LIGHT TOUCH RESTORE SWITCH

PORCELAIN CAPACITOR

CD

IR SENSOR HS0038B PCS 1 U403

CONNECTION CORDS

FLAT CABLE

PCB 4911S-1

1/6W100Ω±5% PCS 1 R415

HORIZONTAL 6×6×1 PCS 3 K401~K403

50V 104 +80%-20% 5mm PCS 1 C405

CD11C 10V100U±20%5×7 2 PCS 1 TC407

Φ0.6 SHAPED 5mm

6P200 2.0 2 SOCKET WITH L NEEDLE, THE SAME DIRECTION

PCS 1

PCS 1 XS401

PCS

1

JP401

3. MAIN PANEL

MATERIAL CODE MATERIAL NAME SPECIFICATIONS UNIT QUANTITY LOCATION

R205,R220,R219,R236,R2

0090001 SMD RESISTOR 1/16W 0Ω ±5% PCS 19

0090272 SMD RESISTOR 1/16W1Ω±5% PCS 5

0090106 SMD RESISTOR

0090179 SMD RESISTOR

0090005 SMD RESISTOR

0000375 SMD RESISTOR 1/4W2.2Ω±5% PCS 1 R341

0000273 SMD RESISTOR

0000278 SMD RESISTOR

0090006 SMD RESISTOR 1/16W 75Ω ±5% PCS 1 R344

0090003 SMD RESISTOR 1/16W 10Ω ±5% PCS 1 R210

0090232 SMD RESISTOR 1/16W 150Ω ±5% PCS 13

0090009 SMD RESISTOR

0090014 SMD RESISTOR

0090017 SMD RESISTOR

1/16W 4.7Ω ±5% 1/16W 15Ω ±5%

1/16W 33Ω ±5%

1/4W33Ω±5% SHAPED 10 1/4W330Ω±5% SHAPED 10

1/16W 330Ω ±5%

1/16W 1K ±5%

1/16W 2.2K ±5%

PCS 4 R212,R213,R251,R252

PCS 2 R314,R315

PCS 20

PCS 1 R346

PCS 1 R347

PCS 2 R249,R256

PCS 13

PCS 2 R345,R350

38,R239,R258,R259,R332, R337,R2162,L243~L248,C 2143,R348

R312,R313,R317,R318,R3 36

R229~R235,R241,R242,R 246~R248,R291~R294,R2 107,R2108,R2109,R2159

R262~R264,R270~R277,R 281,R280

R227,R228,R266,R267,R2 105,R2106,R2117~R2120, R2158,R2160,R349

0090019 SMD RESISTOR 1/16W 4.7K ±5% PCS 8

51

0090021 SMD RESISTOR 1/16W 6.8K ±5% PCS 2 R2136,R2148

0090022 SMD RESISTOR 1/16W 8.2K ±5% PCS 1 R201

0090016 SMD RESISTOR 1/16W 1.5K ±5% PCS 2 R338,R342

0090223 SMD RESISTOR 1/16W 2K ±5% PCS 1 R237

0090011 SMD RESISTOR 1/16W 470Ω ±5% PCS 2 R322,R323

0090023 SMD RESISTOR 1/16W 10K ±5% PCS 12

0090024 SMD RESISTOR 1/16W 15K ±5% PCS 2 R207,R307

0090025 SMD RESISTOR 1/16W 20K ±5% PCS 6

0090188 SMD RESISTOR 1/16W 18K ±5% PCS 2 R204,R216

0090229

0090319

0090034 SMD RESISTOR 1/16W 100K ±5% PCS 6

0090244 SMD RESISTOR 1/16W 91Ω ±5% PCS 1 R257

0260019

0260028 CD CD11 16V220U±20%6×12 2.5 PCS 13

0260200

0310190 SMD CAPACITOR 50V 27P ±5% NPO 0603 PCS 3 C222,C223,C333

0310045 SMD CAPACITOR 50V 47P ±5% NPO 0603 PCS 14

0310047 SMD CAPACITOR 50V 101 ±5% NPO 0603 PCS 5

0310051 SMD CAPACITOR 50V 331 ±5% NPO 0603 PCS 2 C217,C218

0310048 SMD CAPACITOR 50V 151 ±5% NPO 0603 PCS 2 C334,C331

0310364 SMD CAPACITOR 10V 225 +80%-20% 0805 PCS 2 C226,C228

0310064 SMD CAPACITOR 50V 391 ±10% 0603 PCS 1 C304

0310046 SMD CAPACITOR 50V 82P ±5% NPO 0603 PCS 1 C305

0310196 SMD CAPACITOR

PRECISION SMD RESISTOR

CD

1/16W 330K ±1% PCS 2 R333,R334

1/16W 750K ±1% PCS 3 R202,R331,R335

CD11 16V10U±20%5×11 2 PCS 14

CD11C 16V47U±20%5×7 2 PCS 11

50V 471 ±10% 0603

PCS 1 C311

R211,R222,R223,R2130,R 2131,R2134,R2135,R343

R206,R250,R265,R303~R 306,R309,R311,R319,R33 9,R2157

R203,R316,R320,R321,R2 129,R2133

R208,R217,R308,R310,R2 111,R2112

TC201,TC202,TC203,TC2 17,TC219,TC225,TC226, TC232,TC233,TC236,TC2 40,TC241,TC306,TC307

TC205,TC207,TC208,TC2 10~TC214,TC216,TC218, TC220,TC235,TC301

TC204,TC206,TC215,TC2 34,TC237, TC302~TC305,TC308,TC 309

C225,C241,C242,C243,C2 54,C256,C257,C259,C260, C262,C266,C268,C269,C2 71

C216,C2111,C2114,C2140 ,C2141

0310084 SMD CAPACITOR 50V 104 +80%-20% 0603 PCS 82

C201~C211,C221,C224,C 227,C230,C231,C232,C23 4,C235,C237,C240,C245~ C253,C279,C282,C289~C 291,C294~C297,C301~C3 03,C312~C313,C320~C33 0,C332,C335~C339,C341, C2113,C2137,C2142,C214 4,C2146,C2150~C2154,C2 157,C2158,C2165,C2159, C2160,C2161~C2164,C28 0

C201~C211,C221,C224,C

52

227,C230,C231,C232,C23 4,C235,C237,C240,C245~ C253,C279,C282,C289~C 291,C294~C297,C301~C3

0310058 SMD CAPACITOR 25V 104 +80%-20% 0603 PCS 82

0310234 SMD CAPACITOR 16V 105 +80%-20% 0603 PCS 4 C315~C318

0310066 SMD CAPACITOR 50V 102 ±10% 0603 PCS 8

0310231 SMD CAPACITOR 50V 122 ±10% 0603 PCS 2 C2122,C2129

0310072 SMD CAPACITOR 50V 103 ±10% 0603 PCS 4 C212~C215

0310201 SMD CAPACITOR 50V 153 ±10% 0603 PCS 3 C220,C308,C319

0310055 SMD CAPACITOR 16V 333 ±10% 0603 PCS 1 C306

0310044 SMD CAPACITOR 50V 33P ±5% NPO 0603 PCS 1

0390044 SMD INDUCTOR 10UH ±10% 2012 PCS 2 L303,L306

0390096 SMD INDUCTOR 1.8UH ±10% 1608 PCS 6 L210~L215

0390057 MAGNETIC INDUCTOR RH354708 PCS 7

0390095 SMD MAGNETIC BEADS FCM1608K-221T05 PCS 33

0700007 SMD DIODE 1N4148 PCS 4 VD201,VD205~VD207

0700001 SMD DIODE LS4148 PCS 4 VD201,VD205~VD207

0700002 SMD DIODE LL4148 PCS 4 VD201,VD205~VD207

0780032 TRIODE 9014C PCS 1 Q204

0780030 TRIODE 8550C PCS 2 V306,V309

0780029 TRIODE C8050 PCS 6

0780197 SMD TRIODE C1815 PCS 2 Q205,Q206

0780020 TRIODE C1815Y PCS 1 Q212

0780043 TRIODE 2SA1015 PCS 3 Q211,Q218,Q219

0780062 SMD TRIODE 9014C PCS 1 V310

0780041 SMD TRIODE 3906 PCS 6 Q213~Q217,Q220

0780040 SMD TRIODE 3904 PCS 1 V305

0780193 SMD TRIODE 2SK3018 PCS 2 V303,V304

0780115 SMD TRIODE 2SB1132 PCS 2

0880185

0880513

0880498

0881124

0881031 IC 24C02N SOP PCS 1 U202

0881690

0881689

0881378 IC BA5954FP HSOP PCS 1 U302

1860029 SCART SOCKET SCART-01 PCS 1 JK203

0960020 CRYSTAL OSCILLATOR 27.00MHz 49-S PCS 1 X201

1910140 TERMINAL SOCKET AV4-8.4-5G-5 BLACK PCS 1 JK201

IC IC HCU04 SOP IC HY57V161610DTC-8 SOP IC

IC IC

NJM4558M SOP PCS 1 U219

PCS 1 U205

PCS 2 U203,U204

CS4340-KS SOP PCS 1 U207

MT1336E-C QFP PCS 1 U301

MT1379EE-C QFP PCS 1 U201

03,C312~C313,C320~C33 0,C332,C335~C339,C341, C2113,C2137,C2142,C214 4,C2146,C2150~C2154,C2 157,C2158,C2165,C2159, C2160,C2161~C2164,C28 0

C233,C238,C239,C2112,C 2115,C2148,,C299,C2101

L204,L205,L209,L241,L2 42,L249,L250

L201~L203,L207,L216,L2 17,L219~L222,L232,L233, L301,L304,L305,L307,L3 08,L310~L312,L314,L316 ~L324,L329~L331

V307,V308,Q201,Q202,Q2 03,Q207

V301,V302

1910129 TERMINAL SOCKET

53

1940024 SOCKET 5P 2.0mm PCS 1 XS302

1940005 SOCKET 6P 2.0mm PCS 2 XS201,XS303

1940023 SOCKET 7P 2.0mm PCS 1 XS203

1631550 PCB 2911S-1 PCS 1

1940094 CABLE SOCKET 24P 0.5mm SMD WITH CLASP PCS 1 XS301

SA-001-012 BLACK IRON SHEET SCREEN-SHIELDED

PCS 1 JK202

BBK DV911S SERVICE MANUAL

Specifications and Main Features

Frequently Asked Questions

User Manual