table of contents - Super TV Servis M+S
table of contents - Super TV Servis M+S
table of contents - Super TV Servis M+S
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TABLE OF CONTENTS<br />
1. INTRODUCTION.....................................................................................................4<br />
1.1. Purpose ....................................................................................................................................4<br />
1.2. Scope .......................................................................................................................................4<br />
1.3. General Features .......................................................................................................................4<br />
2. GENERAL DESCRIPTION .....................................................................................5<br />
2.1. Introduction ..............................................................................................................................5<br />
2.2. System Building Blocks...............................................................................................................5<br />
2.2.1. AK57 Chassis Block Diagrams 5<br />
2.2.1.1. Genaral...................................................................................................................5<br />
2.2.1.2. SMPS ......................................................................................................................6<br />
2.2.1.3. DEFLECTION ...........................................................................................................6<br />
2.2.2. AK57 Chassis Main Blocks 7<br />
2.2.2.1. UOC-II (ULTIMATE-ONE-CHIP).................................................................................8<br />
2.2.2.2. Audio....................................................................................................................16<br />
2.2.2.3. External AV I/O .....................................................................................................18<br />
2.2.2.4. AV Switching .........................................................................................................19<br />
2.2.2.4.1. MC74VHC4052 ..................................................................................................19<br />
2.2.2.4.2. NLAST4599 .......................................................................................................21<br />
2.2.2.5. TUNER..................................................................................................................23<br />
2.2.2.6. SAW FILTERS........................................................................................................25<br />
2.2.2.6.1. K3958M (IF Filter for Video Applications).............................................................25<br />
2.2.2.6.2. K9656M (IF Filter for Audio Applications) ............................................................25<br />
2.2.2.6.3. K2966 (IF Filter for Intercarrier Applications).......................................................26<br />
2.2.2.6.4. K2962 (IF Filter for Intercarrier Applications).......................................................26<br />
2.2.2.6.5. G1975 (IF Filter for Intercarrier Applications) ......................................................27<br />
2.2.2.7. SMPS ....................................................................................................................27<br />
2.2.2.7.1. PRIMARY BLOCK ...............................................................................................27<br />
2.2.2.7.1.1. SMPS CONTROLLER (NCP1207)..........................................................................28<br />
2.2.2.7.1.2. MOSFET............................................................................................................31<br />
2.2.2.7.1.2.1. MTP3N60E ......................................................................................................31<br />
2.2.2.7.1.2.2. MTP6N60E ......................................................................................................32<br />
2.2.2.7.2. SECONDARY BLOCK...........................................................................................33<br />
2.2.2.7.3. SMPS Block Diagram..........................................................................................33<br />
2.2.2.8. DEFLECTION .........................................................................................................34<br />
2.2.2.8.1. HORIZANTAL DEFLECTION ................................................................................34<br />
2.2.2.8.2. MD1803DFX ......................................................................................................34<br />
2.2.2.8.3. FBT...................................................................................................................36<br />
2.2.2.8.4. AN15524A (VERTICAL DEFLECTION OUTPUT).....................................................37<br />
2.2.2.9. CRT BOARD ..........................................................................................................39<br />
2.2.3. AK57 Chassis Scematics 42<br />
2.2.3.1. Part1 ....................................................................................................................42<br />
2.2.3.2. Part2 ....................................................................................................................43<br />
2.2.3.3. Part3 ....................................................................................................................44<br />
2.2.3.4. Part4 ....................................................................................................................45<br />
2.2.4. DVD PLAYER 46<br />
2.2.4.1. General Description ...............................................................................................46<br />
2.2.4.1.1. MT1389D ..........................................................................................................46<br />
2.2.4.1.2. SDRAM Memory Interface ..................................................................................46
2.2.4.1.3. Drive Interfaces.................................................................................................47<br />
2.2.4.2. System Block Diagram and MT1389D Pin Description...............................................47<br />
2.2.4.2.1. MT1389D Pin Description ...................................................................................47<br />
2.2.4.2.2. 2.1 Sytem Block Diagram ...................................................................................56<br />
2.2.4.3. Audio Output.........................................................................................................57<br />
2.2.4.4. Audio DACS...........................................................................................................57<br />
2.2.4.5. Video Interface......................................................................................................57<br />
2.2.4.6. Flash Memory........................................................................................................58<br />
2.2.4.7. Serial Eeprom Memory...........................................................................................58<br />
2.2.4.8. Audio Interface Audio Sampling Rate and PLL Component Configuration...................58<br />
2.2.4.9. Scematics..............................................................................................................58<br />
2.2.4.9.1. Part1 ................................................................................................................58<br />
2.2.4.9.2. Part2 ................................................................................................................59<br />
2.2.4.9.3. Part3 ................................................................................................................60<br />
2.2.4.9.4. Part4 ................................................................................................................61<br />
2.2.4.9.5. Part 5 ...............................................................................................................62<br />
2.3. AK57 Service Menu..................................................................................................................64<br />
2.4. TUNER SETTINGS....................................................................................................................75
1. Introduction<br />
1.1. Purpose<br />
This document is prepared for the UOCII <strong>TV</strong> project and describes the whole system features<br />
and operating principles to be used in hardware design phase.<br />
The document is based on “Device Specification UOCII-Version 1.12” from Philips<br />
Semiconductors.<br />
Prior to hardware design start, all parties involved must agree with the <strong>contents</strong> <strong>of</strong> this<br />
document.<br />
1.2. Scope<br />
The document covers detailed descriptions <strong>of</strong> 11AK56 chassis system building blocks.<br />
1.3. General Features<br />
11AK57 is a 90° / 50 Hz. chassis which is capable <strong>of</strong> driving 14” superflat and 15” realflat CRT’s .<br />
The chassis will have the following main features;<br />
• Remote Control<br />
• 100 programs<br />
• On Screen Display<br />
• Mono<br />
• Colour Standarts ; PAL, SECAM, NTSC,<br />
• Transmission standarts ; B/G, L/L’ I/I’, DK,<br />
• Teletext ; One pages,<br />
• Multi-standard alignment free PLL tuning,<br />
• DVD or DVIX Player<br />
• DVB-T option<br />
• Europe Scart<br />
• Detachable headphone output option,<br />
• Front or side or back AV input option,<br />
• Back AV output option,<br />
• Coaxial output for ID<strong>TV</strong>/DVB-T<br />
• 2W (%10 THD),<br />
• 90-270V 50Hz or 170V-270V 50Hz SMPS<br />
• Less than 3W<br />
• DVD-Video, DVD R/RW, CD-R/RW, CD-Audio and MP3 Audio, JPEG (Picture CD), Video CD<br />
and its sub formats like CVD, SVCD, DVCD.
1<br />
3<br />
5<br />
2<br />
2. General Description<br />
2.1. Introduction<br />
This chapter describes system building blocks and their detailed descriptions.<br />
2.2. System Building Blocks<br />
2.2.1. AK57 Chassis Block Diagrams<br />
2.2.1.1. Genaral<br />
SPDIF<br />
P2.0_PWM0<br />
73<br />
71,72<br />
WP<br />
I2C<br />
EEPROM<br />
5VSTB<br />
SPDIF-OUT<br />
DVD12V<br />
DVD5V<br />
DVD3V3<br />
DVD-IR<br />
NLAST4599<br />
SW0<br />
75<br />
P2.2_PWM1<br />
76<br />
P2.3_PWM2<br />
18,19,<br />
23,24<br />
IF<br />
6 SECAM<br />
P0.6<br />
PORT<br />
22<br />
IF<br />
BLOCK<br />
AGC<br />
TUN-IF<br />
TUNER<br />
33V<br />
5V<br />
ID<strong>TV</strong>30V<br />
8V<br />
5V<br />
33V<br />
12V<br />
B+<br />
DVD<br />
DVD-ON<br />
DVD-MONO<br />
DVD-CVBS<br />
SW0<br />
V1<br />
SW1<br />
80<br />
P0.3_ADC0<br />
16,17<br />
30<br />
31<br />
VERTICAL DRIVE<br />
HORIZANTAL DRIVE<br />
HOR. FB<br />
DEFLECTION<br />
EHT<br />
ID<strong>TV</strong>30V<br />
ID<strong>TV</strong>12V<br />
DVD-SPDIF<br />
V2<br />
V3<br />
V4<br />
A1<br />
A2<br />
A3<br />
A4<br />
VOUT<br />
AOUT<br />
4052<br />
42<br />
CVBS2<br />
28<br />
AUDIO2<br />
33<br />
AUDEEM<br />
UOCII<br />
56,57,58<br />
55<br />
RGB<br />
BLKIN<br />
HEATER<br />
V+<br />
CRT BOARD<br />
RGB<br />
DVB-T<br />
ID<strong>TV</strong>-CVBS<br />
ID<strong>TV</strong>-MONO<br />
ID<strong>TV</strong>-SPDIF<br />
Rx<br />
Tx<br />
IRQ<br />
NLAST4599<br />
77<br />
P2.4_PWM3<br />
SW2<br />
69<br />
P1.2_INT0<br />
70<br />
P1.3_T1<br />
74<br />
P2.1_PWM0<br />
P3.2_ADC2<br />
CVBS1O<br />
P1.1_T0<br />
P0.5<br />
P3.3_ADC3<br />
P1.0_INT1<br />
P3.1_ADC1<br />
48<br />
AUDOUT1<br />
78<br />
P2.5_PWM4 MUTE<br />
MONO<br />
MUTE<br />
A12V<br />
2822M<br />
59,61,66<br />
9,39<br />
67<br />
68<br />
47<br />
53<br />
52<br />
51<br />
50<br />
RCA IN<br />
RCA-CVBS-IN<br />
RCA-MONO-IN<br />
STB<br />
LED<br />
NC<br />
<strong>TV</strong>-IR<br />
KEYBOARD<br />
8V<br />
3V3STB<br />
B+<br />
12V<br />
DVD12V<br />
ID<strong>TV</strong>12<br />
SC-PIN8<br />
RGB-FB<br />
A12V<br />
DVD5V<br />
SMPS<br />
SC-R<br />
5VSTB<br />
Scart1<br />
SC-G<br />
SC-B<br />
SC-CVBS-IN<br />
3V3STB<br />
DVD3V3<br />
STB<br />
SC-MONO-IN<br />
SC-CVBS-OUT<br />
SC-MONO-OUT<br />
RCA-CVBS-OUT<br />
RCA-MONO-OUT<br />
RCA OUT<br />
11AK57<br />
GENERAL BLOCK DIAGRAM
2.2.1.2. SMPS<br />
220V<br />
50Hz<br />
5<br />
15<br />
B+<br />
16<br />
2<br />
13<br />
A12V<br />
ID<strong>TV</strong>12V<br />
14<br />
1 DMAG<br />
2 CONT_INT<br />
VI 8<br />
12<br />
DVD12V<br />
NCP1207<br />
3<br />
6<br />
I_SENSE VCC<br />
8<br />
11<br />
12V<br />
4 5<br />
GND DRIVER<br />
10<br />
9V<br />
TR.REG<br />
3V3STB<br />
7 9<br />
TR.REG<br />
5VSTB<br />
6V<br />
LDO<br />
DVD3V3<br />
LDO<br />
DVD5V<br />
STB<br />
11AK57<br />
SMPS BLOCK DIAGRAM<br />
2.2.1.3. DEFLECTION
HORIZONTAL<br />
DRIVE<br />
HORIZONTAL<br />
Horz.<br />
Yoke<br />
30KV<br />
FOCUS<br />
SCREEN<br />
Lin.<br />
+33V<br />
+8V<br />
+9V<br />
Heater<br />
+5V<br />
-14V VERTICAL<br />
+14V VERTICAL<br />
30KV<br />
RGB<br />
DRIVE<br />
TRANSISTORS<br />
CRT<br />
BOARD<br />
Heater<br />
G2<br />
FOCUS<br />
VERTICAL<br />
DRIVE<br />
VERTICAL<br />
AMPLIFIER<br />
AN5524A<br />
VERTICAL<br />
YOKE<br />
2.2.2. AK57 Chassis Main Blocks<br />
AK57 chassis main blocks are;<br />
• UOCII : Microcontroller + Video Proccessor + Sound Proccessor + IF + Teletext<br />
• AUDIO : Audio Amp.,<br />
• EXT. AV I/O : Scart , AV input, AV output,<br />
• AV SWITCHING : 4052, 4599<br />
• TUNER : PLL Tuner
• SAW FILTERS<br />
• SMPS : SMPS Controller, SMT, Bridge Rect., Line Filters<br />
• DEFLECTION : FBT, HOT, Vertical Amplifier, Line Driver,<br />
• CRT BOARD : RGB Amp. with transistors,<br />
2.2.2.1. UOC-II (ULTIMATE-ONE-CHIP)<br />
UOCII is composed <strong>of</strong> microcontroller, video proccessor, sound proccessor and IF blocks.<br />
The various versions <strong>of</strong> the TDA955X H/N1 series combine the functions <strong>of</strong> a video processor<br />
together with a microcontroller.The ICs are intended to be used in economy television receivers<br />
with 90 and 110 degree picture tubes.<br />
The ICs have supply voltages <strong>of</strong> 8V and 3.3V and they are mounted in a QFP 80 envelope.<br />
The features are given in the following feature list.<br />
FEATURES<br />
<strong>TV</strong>-signal processor<br />
• Multi-standard vision IF circuit with alignment-free PLL demodulator<br />
• Internal (switchable) time-constant for the IF-AGC circuit<br />
• The QSS and mono FM functionality are both available so that an FM/AM <strong>TV</strong> receiver can<br />
be built without the use <strong>of</strong> additional ICs<br />
• The mono intercarrier sound circuit has a selective<br />
• FM-PLL demodulator which can be switched to the different FM sound frequencies<br />
(4.5/5.5/6.0/6.5 MHz). The quality <strong>of</strong> this system is such that the external band-pass<br />
filters can be omitted.<br />
• The FM-PLL demodulator can be set to centre frequencies <strong>of</strong> 4.74/5.74 MHz so that a<br />
second sound channel can be demodulated. In such an application it is necessary that an<br />
external bandpass filter is inserted.<br />
• The vision IF and mono intercarrier sound circuit can be used for the demodulation <strong>of</strong><br />
FM radio signals<br />
• Video switch with 2 external CVBS inputs and a CVBS output. One <strong>of</strong> the CVBS inputs<br />
can be used as Y/C input.<br />
• 2 external audio inputs. The selection <strong>of</strong> the various inputs is coupled to the selection <strong>of</strong><br />
the CVBS signals<br />
• Integrated chrominance trap circuit<br />
• Integrated luminance delay line with adjus<strong>table</strong> delay time<br />
• Switchable group delay correction in the CVBS path<br />
• Picture improvement features with peaking (with switchable centre frequency,<br />
depeaking, variable positive/negative overshoot ratio and video dependent coring),<br />
dynamic skin tone control and blue-, black- and white stretching<br />
• Integrated chroma band-pass filter with switchable centre frequency<br />
• Switchable DC transfer ratio for the luminance signal<br />
• Only one reference (12 MHz) crystal required for the m-Controller, Teletext- and the<br />
colour decoder<br />
• PAL/NTSC or multi-standard colour decoder with automatic search system
• Internal base-band delay line<br />
• Indication <strong>of</strong> the Signal-to-Noise ratio <strong>of</strong> the incoming CVBS signal<br />
• A linear RGB/YUV/YPBPR input with fast blanking for external RGB/YUV sources. The<br />
synchronisation circuit can be connected to the incoming Y signal. The Text/OSD signals<br />
are internally supplied from the<br />
• m-Controller/Teletext decoder.<br />
• RGB control circuit with ‘Continuous Cathode Calibration’, white point and black level <strong>of</strong>fset<br />
adjustment so that the colour temperature <strong>of</strong> the dark and the light parts <strong>of</strong> the<br />
screen can be chosen independently.<br />
• Contrast reduction possibility during mixed-mode <strong>of</strong> OSD and Text signals<br />
• Adjus<strong>table</strong> ‘wide blanking’ <strong>of</strong> the RGB outputs<br />
• Horizontal synchronization with two control loops and alignment-free horizontal oscillator<br />
• Vertical count-down circuit<br />
• Vertical driver optimized for DC-coupled vertical output stages<br />
• Horizontal and vertical geometry processing<br />
• Horizontal and vertical zoom function for 16 : 9 applications<br />
• Horizontal parallelogram and bow correction for large screen picture tubes<br />
• Low-power start-up <strong>of</strong> the horizontal drive circuit<br />
Microcontroller<br />
• 80C51 m-controller core standard instruction set and timing<br />
• 1 ms machine cycle<br />
• 32 - 128Kx8-bit late programmed ROM<br />
• 3 - 12Kx8-bit DataRAM (shared between Display, Acquisition and Auxiliary RAM)<br />
• Interrupt controller for individual enable/disable with two level priority<br />
• Two 16-bit Timer/Counter registers<br />
• One 16-bit Timer with 8-bit Pre-scaler<br />
• WatchDog timer<br />
• Auxiliary RAM page pointer<br />
• 16-bit Data pointer<br />
• Stand-by, Idle and Power Down modes<br />
• 14 bits PWM for Voltage Synthesis Tuning<br />
• 8-bit A/D converter with 4 multiplexed inputs<br />
• 5 PWM (6-bits) outputs for control <strong>of</strong> <strong>TV</strong> analogue signals<br />
• 18 general I/O ports<br />
Data Capture<br />
• Text memory for 1 or 10 pages<br />
• In the 10 page versions inventory <strong>of</strong> transmitted Teletext pages stored in the<br />
Transmitted Page Table (TPT) and Subtitle Page Table (SPT)<br />
• Data Capture for US Closed Caption<br />
• Data Capture for 525/625 line WST, VPS (PDC system A) and Wide Screen Signalling<br />
(WSS) bit decoding<br />
• Automatic selection between 525 WST/625 WST<br />
• Automatic selection between 625 WST/VPS on line 16 <strong>of</strong> VBI<br />
• Real-time capture and decoding for WST Teletext in Hardware, to enable optimized m-<br />
processor throughput
• Automatic detection <strong>of</strong> FASTEXT transmission<br />
• Real-time packet 26 engine in Hardware for processing accented, G2 and G3 characters<br />
• Signal quality detector for video and WST/VPS data types<br />
• Comprehensive teletext language coverage<br />
• Full Field and Vertical Blanking Interval (VBI) data capture <strong>of</strong> WST data<br />
Display<br />
• Teletext and Enhanced OSD modes<br />
• Features <strong>of</strong> level 1.5 WST and US Close Caption<br />
• Serial and Parallel Display Attributes<br />
• Single/Double/Quadruple Width and Height for characters<br />
• Scrolling <strong>of</strong> display region<br />
• Variable flash rate controlled by s<strong>of</strong>tware<br />
• Enhanced display features including overlining, underlining and italics<br />
• S<strong>of</strong>t colours using CLUT with 4096 colour palette<br />
• Globally selec<strong>table</strong> scan lines per row (9/10/13/16) and character matrix [12x10, 12x13,<br />
12x16 (VxH)]<br />
• Fringing (Shadow) selec<strong>table</strong> from N-S-E-W direction<br />
• Fringe colour selec<strong>table</strong><br />
• Meshing <strong>of</strong> defined area<br />
• Contrast reduction <strong>of</strong> defined area<br />
• Cursor<br />
• Special Graphics Characters with two planes, allowing four colours per character<br />
• 32 s<strong>of</strong>tware redefinable On-Screen display characters<br />
• 4 WST Character sets (G0/G2) in single device (e.g. Latin, Cyrillic, Greek, Arabic)<br />
• G1 Mosaic graphics, Limited G3 Line drawing characters<br />
• WST Character sets and Closed Caption Character set in single device<br />
Optional Used ICs at AK57 chassis are TDA9550 H/N1, TDA9551 H/N1, TDA9552 H/N1.<br />
FUNCTIONALOF TDA9550 H/N1<br />
• <strong>TV</strong> range is 90°<br />
• Mono intercarrier multi-standard sound demodulator (4.5 - 6.5 MHz) with switchable<br />
centre frequency Audio switch<br />
• Automatic Volume Levelling<br />
• PAL decoder<br />
• NTSC decoder<br />
• ROM size 32 – 64K<br />
• User RAM size 1K<br />
• One page teletext<br />
• Close Captioning<br />
FUNCTIONALOF TDA9551H<br />
• <strong>TV</strong> range is 90°<br />
• Mono intercarrier multi-standard sound demodulator (4.5 - 6.5 MHz) with switchable<br />
centre frequency Audio switch
• Automatic Volume Levelling<br />
• PAL decoder<br />
• SECAM decoder<br />
• NTSC decoder<br />
• ROM size 32 – 64K<br />
• User RAM size 1K<br />
• One page teletext<br />
• Close Captioning<br />
FUNCTIONALOF TDA9552H<br />
• <strong>TV</strong> range is 90°<br />
• Mono intercarrier multi-standard sound demodulator (4.5 - 6.5 MHz) with switchable<br />
centre frequency Audio switch<br />
• Automatic Volume Levelling<br />
• QSS sound IF amplifier with separate input and AGC circuit<br />
• AM sound demodulator without extra reference circuit<br />
• PAL decoder<br />
• SECAM decoder<br />
• NTSC decoder<br />
• ROM size 32 – 64K<br />
• User RAM size 1K<br />
• One page teletext<br />
• Close Captioning
BLOCK DIAGRAM<br />
PINING
2.2.2.2. Audio<br />
The TDA2822 is DUAL LOW-VOLTAGE POWER AMPLIFIER.<br />
• Supply voltage down to 1.8V<br />
• Low crossover distorsion<br />
• Low quıescent current<br />
• Bridge or stereo configuration<br />
ELECTRICALCHARACTERISTICS<br />
Figure: Test Circuit (Stereo)
Figure: Test Circuit (Bridge)<br />
Figure: Application in 11AK56
SCART PINING<br />
2.2.2.3. External AV I/O<br />
1. Audio right output 0.5Vrms / 1KΩ<br />
2. Audio right input 0.5Vrms / 10KΩ<br />
3. Audio left output 0.5Vrms / 1KΩ<br />
4. Ground AF<br />
5. Ground Blue<br />
6. Audio left input 0.5Vrms / 10KΩ<br />
7. Blue input 0.7Vpp / 75Ω<br />
8. AV switching input 0-12VDC /10KΩ<br />
9. Ground Green<br />
10. Not Used<br />
11. Green input 0.7Vpp / 75Ω<br />
12. Not Used<br />
13. Ground Red<br />
14. Ground Blanking<br />
15. Red input 0.7Vpp / 75Ω<br />
16. Blanking input 0-0.4VDC, 1-3VDC / 75Ω<br />
17. Ground CVBS output<br />
18. Ground CVBS input<br />
19. CVBS output 1Vpp / 75Ω<br />
20. CVBS input 1Vpp / 75Ω<br />
21. Ground<br />
Front/Side/Back AV Input
Audio<br />
Video<br />
0.5Vrms / 10KΩ<br />
1Vpp / 75Ω<br />
Back AV Output<br />
Audio<br />
Video<br />
0.5Vrms / 1KΩ<br />
1Vpp / 75Ω<br />
2.2.2.4. AV Switching<br />
2.2.2.4.1. MC74VHC4052<br />
The MC74VHC4052 utilize silicon--gate CMOS technology to achieve fast propagation delays,<br />
low ON resistances, and low OFF leakage currents. These analog multiplexers/demultiplexers<br />
control analog voltages that may vary across the complete power supply range (from VCC to<br />
VEE).<br />
The Channel--Select and Enable inputs are compatible with standard CMOS outputs; with pullup<br />
resistors they are compatible with LSTTL outputs.<br />
These devices have been designed so that the ON resistance (Ron) is more linear over input<br />
voltage than Ron <strong>of</strong> metal--gate CMOS analog switches.<br />
• Fast Switching and Propagation Speeds<br />
• Low Crosstalk Between Switches<br />
• Diode Protection on All Inputs/Outputs<br />
• Analog Power Supply Range (VCC -- VEE) = 2.0 to 12.0 V<br />
• Digital (Control) Power Supply Range (VCC -- GND) = 2.0 to 6.0 V<br />
• Improved Linearity and Lower ON Resistance Than Metal—Gate Counterparts<br />
• Low Noise
2.2.2.4.2. NLAST4599<br />
The NLAST4599 is an advanced high speed CMOS single pole − double throw analog switch<br />
fabricated with silicon gate CMOS technology. It achieves high speed propagation delays and<br />
low ON resistances while maintaining low power dissipation. This switch controls analog and<br />
digital voltages that may vary across the full power−supply range (from VCC to GND).<br />
The device has been designed so the ON resistance (RON) is much lower and more linear over<br />
input voltage than RON <strong>of</strong> typical CMOS analog switches.<br />
The channel select input structure provides protection when voltages between 0 V and 5.5 V are<br />
applied, regardless <strong>of</strong> the supply voltage. This input structure helps prevent device destruction<br />
caused by supply voltage − input/output voltage mismatch, battery backup, hot insertion, etc.<br />
Features<br />
• Select Pin Compatible with TTL Levels<br />
• Channel Select Input Over−Voltage Tolerant to 5.5 V<br />
• Fast Switching and Propagation Speeds<br />
• Break−Before−Make Circuitry<br />
• Low Power Dissipation: ICC = 2 _A (Max) at TA = 25°C<br />
• Diode Protection Provided on Channel Select Input<br />
• Improved Linearity and Lower ON Resistance over Input Voltage<br />
• Latch−up Performance Exceeds 300 mA
• ESD Performance: HBM > 2000 V; MM > 200 V<br />
• Chip Complexity: 38 FETs<br />
• Pb−Free Packages are Available
2.2.2.5. TUNER
Channel coverage <strong>of</strong> PLLTuner for VHF/UHF<br />
BAND<br />
CHANNELS<br />
OFF-AIR CHANNELS<br />
FREQUENCY<br />
RANGE (MHz)<br />
CHANNELS<br />
CABLE CHANNELS<br />
FREQUENCY<br />
RANGE (MHz)<br />
Low Band E2 to C 48.25 to 82.25 (1) S01 to S08 69.25 to 154.25<br />
Mid Band E5 to E12 175.25 to 224.25 S09 to S38 161.25 to 439.25<br />
High Band E21 to E69 471.25 to 855.25 (2) S39 to S41 447.25 to 463.25<br />
(1). Enough margin is available to tune down to 45.25 MHz.<br />
(2). Enough margin is available to tune up to 863.25 MHz.<br />
Noise Typical Max. Gain Min. Typical Max.<br />
Low band : 5dB 9dB All channels : 38dB 44dB 52dB<br />
Mid band : 5dB 9dB Gain Taper (<strong>of</strong>-air channels): 8dB<br />
High band : 6dB 9dB<br />
Noise is typically 6dB for all channels. Gain is minimum 38dB and maximum 50dB for all<br />
channels.<br />
Terminals for External Connection<br />
Electrical conditions
Standard<br />
• B/G<br />
• D/K<br />
• I<br />
• L/L’<br />
2.2.2.6. SAW FILTERS<br />
2.2.2.6.1. K3958M (IF Filter for Video Applications)<br />
Pin configuration<br />
1 Input<br />
2 Input - ground<br />
3 Chip carrier - ground<br />
4 Output<br />
5 Output<br />
Features<br />
• <strong>TV</strong> IF video filter with Nyquist slopes at 33.90 MHz and 38.90 MHz<br />
• Constant group delay<br />
Standard<br />
• B/G<br />
• D/K<br />
• I<br />
• L/L’<br />
Pin configuration<br />
2.2.2.6.2. K9656M (IF Filter for Audio Applications)
1 Input<br />
2 Input - ground<br />
3 Chip carrier - ground<br />
4 Output<br />
5 Output<br />
Features<br />
• <strong>TV</strong> IF audio filter with two channels<br />
• Channel 1 (L’) with one pass band for sound carriers at 40,40 MHz (L’) and 39,75 MHz<br />
(L’- NICAM)<br />
• Channel 2 (B/G, D/K, L, I) with one pass band for sound carriers between 32,35 MHz<br />
and 33,40 MHz<br />
Standard<br />
• B/G<br />
• D/K<br />
2.2.2.6.3. K2966 (IF Filter for Intercarrier Applications)<br />
Pin configuration<br />
1 Input<br />
2 Input - ground<br />
3 Chip carrier - ground<br />
4 Output<br />
5 Output<br />
Features<br />
• <strong>TV</strong> IF filter with Nyquist slope and sound shelf<br />
• Broad sound shelf for sound carriers at 32,40MHz and 33,40 MHz<br />
• Group delay predistortion<br />
Standard<br />
• B/G<br />
• I<br />
• L/L’<br />
2.2.2.6.4. K2962 (IF Filter for Intercarrier Applications)<br />
Pin configuration<br />
1 Input<br />
2 Input - ground<br />
3 Chip carrier - ground<br />
4 Output<br />
5 Output
Features<br />
• <strong>TV</strong> IF filter with two Nyquist slope and sound shelf<br />
• Picture carriers at 33,90 MHz and 38,90 MHz<br />
• Broad sound shelf at 15 dB level for sound carriers at 32,90 MHz and 33,40 MHz<br />
• Constant group delay<br />
Standard<br />
• B/G<br />
2.2.2.6.5. G1975 (IF Filter for Intercarrier Applications)<br />
Pin configuration<br />
1 Input<br />
2 Input - ground<br />
3 Chip carrier - ground<br />
4 Output<br />
5 Output<br />
Features<br />
• <strong>TV</strong> IF filter with Nyquist slope and sound shelf<br />
• Picture carrier at 38.90MHz<br />
• Reduced group delay predistortion as compared with standard B/G, half<br />
2.2.2.7. SMPS<br />
2.2.2.7.1. PRIMARY BLOCK<br />
AC power applied via AC inlet, line filter components prevent chassis from incoming noise <strong>of</strong> AC<br />
line, also prevents AC line against created noises by <strong>TV</strong>. Bridge rectifier and bulk capacitor<br />
converts AC voltage to DC voltage. Applied DC voltage to primary winding is then swicthed via<br />
MOSFET by primary controller in a controlled manner.<br />
SMPS controller works on quasi-resonant PWM and gets first supply voltage from AC line (SMPS<br />
Controller supply). Controller drives MOSFET according to feedback information supplied by<br />
shunt regulator and opto-coupler, according to that information adjusts on-time <strong>of</strong> MOSFET for<br />
required power. After the start-up in normal operation mode SMPS controller is supplied by SMT.<br />
Primary block consist <strong>of</strong> following main parts,<br />
AC Inlet (PL800),<br />
Fuse (F800),<br />
Varistor (R803),
Line Filter For EMC (C801,L800,C800),<br />
SMPS Controller (IC806),<br />
SMPS Controller supply for first Start-up (R807),<br />
Bridge Rectifier (D820,D821,D822,D823),<br />
Rectifier For SMPS Controller(D803),<br />
Bulk Cap (C809),<br />
Clamping Circuitry (R820, C810, C811, D824),<br />
SMT (Switch Mode Transformer) (TR800),<br />
SMT Driver MOSFET (Q802),<br />
Current Sense Resistor (R828),<br />
Protection Components for MOSFET Failure (D805,D806,R826)<br />
2.2.2.7.1.1. SMPS CONTROLLER (NCP1207)<br />
PWM Current-Mode Controller for Free Running Quasi-Resonant Operation<br />
The NCP1207A combines a true current mode modulator and a demagnetization detector to<br />
ensure full borderline/critical Conduction Mode in any load/line conditions and minimum drain<br />
voltage switching (Quasi−Resonant operation). Due to its inherent skip cycle capability, the<br />
controller enters burst mode as soon as the power demand falls below a predetermined level. As<br />
this happens at low peak current, no audible noise can be heard. An internal 8.0 _s timer<br />
prevents the free−run frequency to exceed 100 kHz (therefore below the 150 kHz CISPR−22<br />
EMI starting limit), while the skip adjustment capability lets the user select the frequency at<br />
which the burst foldback takes place.<br />
The Dynamic Self−Supply (DSS) drastically simplifies the transformer design in avoiding the use<br />
<strong>of</strong> an auxiliary winding to supply the NCP1207A. This feature is particularly useful in applications<br />
where the output voltage varies during operation (e.g. battery chargers). Due to its<br />
high−voltage technology, the IC is directly connected to the high−voltage DC rail. As a result,<br />
the short−circuit trip point is not dependent upon any VCC auxiliary level.<br />
The transformer core reset detection is done through an auxiliary winding which, brought via a<br />
dedicated pin, also enables fast Overvoltage Protection (OVP). Once an OVP has been detected,<br />
the IC permanently latches <strong>of</strong>f.<br />
Finally, the continuous feedback signal monitoring implemented with an overcurrent fault<br />
protection circuitry (OCP) makes the final design rugged and reliable.
Features<br />
• Free−Running Borderline/Critical Mode Quasi−Resonant Operation<br />
• Current−Mode with Adjus<strong>table</strong> Skip−Cycle Capability<br />
• No Auxiliary Winding VCC Operation<br />
• Auto−Recovery Overcurrent Protection<br />
• Latching Overvoltage Protection<br />
• External Latch Triggering, e.g. Via Overtemperature Signal<br />
• 500 mA Peak Current Source/Sink Capability<br />
• Undervoltage Lockout for VCC Below 10 V<br />
• Internal 1.0 ms S<strong>of</strong>t−Start<br />
• Internal 8.0 _s Minimum TOFF<br />
• Adjus<strong>table</strong> Skip Level<br />
• Internal Temperature Shutdown<br />
• Direct Optocoupler Connection<br />
• SPICE Models Available for TRANsient Analysis<br />
• Pb−Free Package is Available Typical Applications<br />
• AC/DC Adapters for Notebooks, etc.<br />
• Offline Battery Chargers<br />
• Consumer Electronics (DVD Players, Set−Top Boxes, <strong>TV</strong>s, etc.)<br />
• Auxiliary Power Supplies (USB, Appliances, <strong>TV</strong>s, etc.)<br />
Typical Application:
Internal Circuit Architecture
2.2.2.7.1.2. MOSFET<br />
The MTP3N60E used for voltage range 170-270V, The MTP6N60E used for voltage range 90 –<br />
270V.<br />
2.2.2.7.1.2.1. MTP3N60E<br />
N–Channel Enhancement–Mode Silicon Gate<br />
This advanced high voltage TMOS E–FET is designed to with stand high energy in the<br />
avalanche mode and switch efficiently. This new high energy device also <strong>of</strong>fers a drain–to–<br />
source diode with fast recovery time. Designed for high voltage, high speed switching<br />
applications such as power supplies, PWM motor controls and other inductive loads, the<br />
avalanche energy capability is specified to eliminate the guesswork in designs where inductive<br />
loads are switched and <strong>of</strong>fer additional safety margin against unexpected voltage transients.<br />
Avalanche Energy Capability Specified at Elevated Temperature<br />
Low Stored Gate Charge for Efficient Switching<br />
Internal Source–to–Drain Diode Designed to Replace External Zener Transient Suppressor —<br />
Absorbs High Energy in the Avalanche Mode<br />
Source–to–Drain Diode Recovery Time Comparable to Discrete Fast Recovery Diode
2.2.2.7.1.2.2. MTP6N60E<br />
N–Channel Enhancement–Mode Silicon Gate<br />
This high voltage MOSFET uses an advanced termination scheme to provide enhanced<br />
voltage–blocking capability without degrading performance over time. In addition, this advanced<br />
TMOS E–FET is designed to withstand high energy in the avalanche and commutation modes.<br />
The new energy efficient design also <strong>of</strong>fers a drain–to–source diode with a fast recovery time.<br />
Designed for high voltage, high speed switching applications in power supplies, converters and<br />
PWM motor controls, these devices are particularly well suited for bridge circuits where diode<br />
speed and commutating safe operating areas are critical and <strong>of</strong>fer additional safety margin<br />
against unexpected voltage transients.<br />
• Robust High Voltage Termination<br />
• Avalanche Energy Specified<br />
• Source–to–Drain Diode Recovery Time Comparable to a Discrete Fast Recovery Diode<br />
• Diode is Characterized for Use in Bridge Circuits<br />
• IDSS and VDS(on) Specified at Elevated Temperature
2.2.2.7.2. SECONDARY BLOCK<br />
Switching primary winding <strong>of</strong> SMT induces voltages to secondary windings <strong>of</strong> SMT. Induced<br />
voltages are then rectified by secondary recitification diodes and capacitors.<br />
Output Voltages<br />
+3.3.V_STB : The signal is +3.3VDC and continuous stand-by on/<strong>of</strong>f. Used for digital part <strong>of</strong><br />
UOCII.<br />
+5V_STB : The signal is +5VDC and continuos stand-by on/<strong>of</strong>f. Used for port control.<br />
B+ : The voltage needed for FBT. Voltage range 114V – 117V according to CRT.<br />
12V : The voltage needed for horizantal driver circuit.<br />
12V_A : The voltage supply <strong>of</strong> audio amplifier.<br />
12V_DVD : The voltage needed for DVD.<br />
12V_ID<strong>TV</strong> : The voltage needed for ID<strong>TV</strong>.<br />
+5V_DVD : The voltage needed for DVD.<br />
+3.3.V_DVD : The voltage needed for DVD.<br />
2.2.2.7.3. SMPS Block Diagram<br />
220V<br />
50Hz<br />
5<br />
15<br />
B+<br />
16<br />
2<br />
13<br />
A12V<br />
ID<strong>TV</strong>12V<br />
14<br />
1 DMAG<br />
2 CONT_INT<br />
VI 8<br />
12<br />
DVD12V<br />
NCP1207<br />
3<br />
6<br />
I_SENSE VCC<br />
8<br />
11<br />
12V<br />
4 5<br />
GND DRIVER<br />
10<br />
9V<br />
TR.REG<br />
3V3STB<br />
7 9<br />
TR.REG<br />
5VSTB<br />
6V<br />
LDO<br />
DVD3V3<br />
LDO<br />
DVD5V<br />
STB<br />
11AK57<br />
SMPS BLOCK DIAGRAM
2.2.2.8. DEFLECTION<br />
2.2.2.8.1. HORIZANTAL DEFLECTION<br />
Deflection block consist <strong>of</strong> following main parts,<br />
Horizontal driver transistor (Q600),<br />
Horizontal driver (L600),<br />
HOT (Horizontal Output Transistor) (Q603),<br />
FBT (TR600),<br />
Linearity Coil (L601),<br />
Flyback Capacitors (C611),<br />
S-correction capacitor (C622),<br />
Modulated S-correction capacitor (C623),<br />
Hdrive signal is buffered and applied to line driver transistor by a capacitor.<br />
Line driver produces necessary base currents, parallel diode to base series resistor speeds up<br />
the reverse base current.<br />
UOCII has s<strong>of</strong>t-start and s<strong>of</strong>t-stop features to have more safe operation. There are two base<br />
current adjustment resistors on the circuit. Collector current differs according to CRT sizes .<br />
Tube dependent components are choosen to fit best picture performance by keeping;<br />
11-12usec. Flyback time,<br />
Max. 1300V. collector voltage (peak-detect mode measurement)<br />
2.2.2.8.2. MD1803DFX<br />
HIGH VOLTAGE NPN POWER TRANSISTOR FOR STANDARD DEFINITION CRT DISPLAY<br />
Features<br />
• State-Of-The-Art Technology: – Diffused collector “ENHANCED GENERATION”<br />
• More s<strong>table</strong> performance versus operating temperature variation<br />
• Low base drive requirement<br />
• Tighter hFE range at operating collector current<br />
• Fully insulated power package U.L. compliant<br />
• Integrated free wheeling diode<br />
• In compliance eith the 2002/93/EC EUROPEAN DIRECTIVE
2.2.2.8.3. FBT<br />
Operating Ampient Temperatue : -10°C..........+60°C<br />
Stroge Ampient Temperature : -20°C..........+80°C<br />
Operating Horizantal Frequency : 15.625KHz ±0.5KHz<br />
INDUCTANCE (Between pin1 to pin3) : 3.02mH ± %8<br />
INTERNAL RESISTANCE : Max. 2.2Ohm Regulation:Max.%10<br />
FLYBACK TIME : 11.5µsec<br />
COLLECTOR VOLTAGE : 1000Vp_p<br />
FOCUS VOLTAGE RANGE % OF EHT: min.≤18.2 max.≥34.6<br />
DEFLECTION CURRENT : 3.1Ap_p max.<br />
AUXLIARY OUTPUTS:<br />
Heater Voltage : 6.3Vrms / max 750mA<br />
RGB Supply : +200V / max 30mA ±%5<br />
Vertical Supply : +14V / max 1A ±%5<br />
Vertical Supply : -14V / max 1A ±%5<br />
Auxliary Voltage : +9V / max 1A ±%5<br />
Tuning Voltage : +33V max 100mA ±%5
2.2.2.8.4. AN15524A (VERTICAL DEFLECTION OUTPUT)<br />
The AN5524A (<strong>TV</strong> vertical deflection output circuit) is a monolithic integrated circuit designed for<br />
vertical deflection output, such as <strong>TV</strong> and display.<br />
Features<br />
• Built-in Pump-up circuit<br />
• Built-in Thermal protection circuit<br />
• Maximum deflection current = 1.6Ap-p<br />
• Dimple forming type :<br />
Advantages : a) Withstand repeated movements between the body and the solder joint <strong>of</strong> the IC<br />
(when a heat-sink is used).<br />
b) Better vibration absorber (eg. C<strong>TV</strong> installed in the bus/coach).<br />
• VCC operating range : 12V ~ 30V
2.2.2.9. CRT BOARD<br />
Transistors are used for amplifying RGB signals.<br />
2SC2482 For High Voltage Switching And Amplifier Applications:<br />
• High Voltage : V(BR)=300V.<br />
• Small Collector Output Capacitance : Cob=3.0pF (typ.)
2.2.3. AK57 Chassis Scematics<br />
2.2.3.1. Part1
SC_G_IN<br />
L123<br />
1u<br />
L100<br />
470k<br />
R225<br />
330R<br />
R214<br />
470R<br />
R184<br />
L116<br />
50V<br />
39p<br />
C100<br />
+8V<br />
PL111<br />
1<br />
2<br />
3<br />
BC848B<br />
Q117<br />
10n<br />
C105<br />
100R<br />
R174<br />
K3958M<br />
Z100<br />
IN1<br />
1<br />
IN2<br />
2<br />
GND<br />
3<br />
OUT1 4<br />
OUT2 5<br />
PL105<br />
1<br />
100R<br />
R234<br />
100R<br />
R178<br />
50V<br />
10n<br />
C107<br />
16V<br />
100u<br />
C131<br />
50V<br />
10n<br />
C112<br />
SAW_SW<br />
PL112<br />
1<br />
2<br />
100R<br />
R145<br />
50V<br />
10u<br />
C181<br />
1k<br />
R208<br />
50V<br />
1n5<br />
C162<br />
100R<br />
R164<br />
VPROT<br />
3k3<br />
R226<br />
1N4148<br />
D104<br />
CVBS_OUT<br />
STBY<br />
SC_FBLK<br />
16V<br />
220n<br />
C178<br />
BC848B<br />
Q110<br />
100R<br />
R237<br />
25V<br />
100n<br />
C121<br />
KEYBOARD<br />
100R<br />
R143<br />
4R7<br />
R195<br />
EHT_INFO<br />
+5V<br />
100R<br />
R231<br />
+33V<br />
820R<br />
R215<br />
SC_R_IN<br />
2k2<br />
R200<br />
16V 47u<br />
C110<br />
47p<br />
C139<br />
50V<br />
L122<br />
2u2<br />
100u C137<br />
100R<br />
R229<br />
4R7<br />
R116<br />
50V<br />
10n<br />
C164<br />
+12V_A<br />
16V<br />
100n<br />
C154<br />
16V<br />
220n C159<br />
100R<br />
R227<br />
4.5MHz_TRAP<br />
Z102<br />
1<br />
2<br />
3<br />
25V<br />
10n<br />
C113<br />
SC_A_OUT<br />
16V<br />
100n C158<br />
50V<br />
4u7<br />
C155<br />
L121<br />
100R<br />
R147<br />
50V<br />
1u<br />
C176<br />
+5V_STB<br />
TDA2822M<br />
IC102<br />
1<br />
OUT1<br />
2<br />
SUPPLY_VOLT<br />
3<br />
OUT2<br />
4<br />
GND<br />
5 IN21<br />
6 IN22<br />
7 IN11<br />
8 IN12<br />
+5V<br />
16V<br />
100n<br />
C140<br />
100R<br />
R162<br />
50V<br />
47p<br />
C188<br />
220n<br />
C149<br />
63V<br />
16V<br />
100n<br />
C141<br />
BC848B<br />
Q119<br />
4k7<br />
R138<br />
+8V<br />
REMOTE<br />
100k<br />
R217<br />
BLM21A601S<br />
L103<br />
4k3<br />
R165<br />
220R<br />
R221<br />
100R<br />
R242<br />
100R<br />
R191<br />
470R<br />
R206<br />
27k<br />
R199<br />
100R<br />
R203<br />
SC_STATUS<br />
4R7<br />
R117<br />
50V<br />
1u<br />
C153<br />
1N4148<br />
D107<br />
SC_B_IN<br />
3k9<br />
R161<br />
RCA_A_IN<br />
L101<br />
22u<br />
100n<br />
C145<br />
50V<br />
1n5<br />
C161<br />
100R<br />
R223<br />
100R<br />
R148<br />
100R<br />
R114<br />
120k<br />
R218<br />
S102<br />
1N4148<br />
D101<br />
100R<br />
R189<br />
75R<br />
R239<br />
390R<br />
R196<br />
50V<br />
10u<br />
C111<br />
IC103<br />
1 P3.1_ADC1<br />
2 P3.2_ADC2<br />
3 P3.3_ADC3<br />
4 VSSC_P<br />
5 P0.5<br />
6 P0.6<br />
7 VSSA<br />
8 DEC<br />
9 VP2<br />
10 DECDIG<br />
11 PH2LF<br />
12 PF1LF<br />
13 GND3<br />
14 DECBG<br />
15 AVL<br />
16 VDRB<br />
25<br />
GND2<br />
26<br />
SNDPLL<br />
27<br />
REFOUT_SNDIF<br />
28<br />
AUDIO2<br />
29<br />
AUDIO3<br />
30<br />
HOUT<br />
31<br />
FBISO<br />
32<br />
DECSDEM<br />
33<br />
AUDEEM<br />
34<br />
EHTO<br />
35<br />
PLLIF<br />
36<br />
SIFAGC<br />
37<br />
IC2<br />
38<br />
SVO_IFOUT<br />
39<br />
VP1<br />
40<br />
CVBS1<br />
49<br />
IFVO2<br />
50<br />
INSSW2<br />
51<br />
R2_VIN<br />
52<br />
G2_YIN<br />
53<br />
B2_UIN<br />
54<br />
BCLIN<br />
55<br />
BLKIN<br />
56<br />
RO<br />
57<br />
GO<br />
58<br />
BO<br />
59<br />
VDDA<br />
60<br />
VPE<br />
61<br />
VDDC<br />
62<br />
OSCGND<br />
63<br />
XTALIN<br />
64<br />
XTALOUT<br />
65 RESET<br />
66 VDDP<br />
67 P1.0_INT1<br />
68 P1.1_T0<br />
69 P1.2_INTO<br />
70 P1.3_T1<br />
71 P1.6_SCL<br />
72 P1.7_SDA<br />
73 P2.0_PMW<br />
74 P2.1_PWM0<br />
75 P2.2_PWM1<br />
76 P2.3_PWM2<br />
77 P2.4_PWM3<br />
78 P2.5_PWM4<br />
79 NC<br />
80 P3.0_ADC0<br />
17 VDRA<br />
18 IFIN1<br />
19 IFIN2<br />
20 IREF 45<br />
C<br />
46<br />
WHSTR<br />
47<br />
CVBS10<br />
48<br />
AUDOUT1<br />
21 VSC<br />
22 AGCOUT<br />
23 IC<br />
24 IC1 41<br />
GND<br />
42<br />
CVBS2<br />
43<br />
GNDA1<br />
44<br />
CVBS3_Y<br />
6k2<br />
R220<br />
S101<br />
BC848B<br />
Q118<br />
220k<br />
R136<br />
75R<br />
R212<br />
100n<br />
C103<br />
50V<br />
EHT_INFO<br />
30k<br />
R201<br />
SC_FBLK<br />
R179<br />
15k<br />
1k<br />
R149<br />
16V<br />
100n<br />
C130<br />
AUDIO_OUT<br />
BA591<br />
D105<br />
SEL_CVBS<br />
R102<br />
100R<br />
100R<br />
R175<br />
100R<br />
R180<br />
SDA<br />
330R<br />
R252<br />
75R<br />
R230<br />
16V<br />
100n<br />
C187<br />
50V<br />
47u<br />
C193<br />
10k<br />
R204<br />
+3V3_STB<br />
BC848B<br />
Q116<br />
50V<br />
6n8<br />
C106<br />
L120<br />
L117<br />
+5V_STB<br />
SDA<br />
3k3<br />
R235<br />
SC_A_OUT<br />
100R<br />
R144<br />
4k7<br />
R130<br />
CVBS_OUT<br />
SC_B_IN<br />
50V<br />
10n<br />
C165<br />
16V<br />
100n<br />
C172<br />
16V<br />
100n<br />
C144<br />
10k<br />
R105<br />
220R<br />
R216<br />
100R<br />
R198<br />
4n7<br />
C198<br />
50V<br />
1k<br />
R205<br />
+3V3_STB<br />
BC848B<br />
Q109<br />
50V<br />
4n7<br />
C180<br />
330R<br />
R125<br />
MUTE<br />
16V<br />
100n<br />
C147<br />
SC_R_IN<br />
50V<br />
4u7<br />
C170<br />
50V<br />
1u<br />
C169<br />
16V<br />
100u<br />
C102<br />
SC_STATUS<br />
75R<br />
R240<br />
PL106<br />
1<br />
2<br />
3<br />
4<br />
5<br />
AUDIO_OUT<br />
12MHz<br />
X100<br />
PL107<br />
1<br />
2<br />
R100<br />
1k<br />
75R<br />
R188<br />
50V<br />
39p<br />
C104<br />
680k<br />
R219<br />
25V<br />
100n<br />
C123<br />
4k7<br />
R131<br />
REMOTE<br />
D103<br />
+5V_STB<br />
SCL<br />
39k<br />
R187<br />
+5V_STB<br />
1k2<br />
R209<br />
15k<br />
R173<br />
100R<br />
R169<br />
+8V<br />
330k<br />
R158<br />
50V<br />
2u2<br />
C156<br />
47u<br />
C135<br />
16V<br />
75R<br />
R228<br />
6u8<br />
L118<br />
1k2<br />
R210<br />
HOUT<br />
50V<br />
150p<br />
C197<br />
Q111<br />
1k<br />
R197<br />
RCA_V_IN<br />
MUTE<br />
25V<br />
100n<br />
C120<br />
16V<br />
100u<br />
C136<br />
22R<br />
R190<br />
16V<br />
220n<br />
C182<br />
6k2<br />
R112<br />
16V<br />
100u<br />
C138<br />
47p<br />
C142<br />
50V<br />
100R<br />
R176<br />
SC_G_IN<br />
SDA<br />
+3V3_STB<br />
HFLYBACK<br />
100R<br />
R160<br />
KEYBOARD<br />
SCL<br />
+8V<br />
16V<br />
220n<br />
C177<br />
16V<br />
100u<br />
C173<br />
BC848B<br />
Q100<br />
100R<br />
R186<br />
IN1<br />
1<br />
IN2<br />
2<br />
GND<br />
3<br />
OUT1 4<br />
OUT2 5<br />
38.9MHz_<strong>TV</strong>TUN<br />
TU100<br />
AGC 1<br />
VT 2<br />
AS 3<br />
SCL 4<br />
SDA 5<br />
NC 6<br />
VS 7<br />
NC/ADC 8<br />
VST 9<br />
IF2/GND 10<br />
IF1 11<br />
75R<br />
R232<br />
100R<br />
R142<br />
VERT-<br />
10n<br />
C175<br />
50V<br />
BC848B<br />
Q112<br />
3k3<br />
R182<br />
50V<br />
10u<br />
C143<br />
2n7<br />
C174<br />
50V<br />
50V<br />
4n7<br />
C151<br />
PL104<br />
1<br />
5k6<br />
R103<br />
50V<br />
100n C157<br />
1k<br />
R207<br />
10k<br />
R236<br />
TX<br />
+5V_STB<br />
L113<br />
100R<br />
R185<br />
150p<br />
C191<br />
50V<br />
SC_V_IN<br />
50V<br />
150p<br />
C195<br />
1k<br />
R211<br />
SC_A_IN<br />
16V<br />
220n<br />
C160<br />
16V<br />
100n<br />
C171<br />
SEL_MONO<br />
SC_A_OUT<br />
2k7<br />
R224<br />
50V<br />
2n2<br />
C152<br />
PL108<br />
1<br />
2<br />
50V<br />
100n<br />
C101<br />
16V<br />
47u<br />
C183<br />
5k6<br />
R104<br />
50V<br />
100p<br />
C196<br />
220R<br />
R159<br />
PL103<br />
1<br />
2<br />
3<br />
4<br />
5<br />
50V<br />
270p<br />
C186<br />
SCL<br />
470R<br />
R177<br />
100R<br />
R115<br />
4k7<br />
R137<br />
27k<br />
R202<br />
R101<br />
100R<br />
16V<br />
220n<br />
C168<br />
180R<br />
R222<br />
4.5MHz_TRAP<br />
Z103<br />
1<br />
2<br />
3<br />
100R<br />
R146<br />
10k<br />
R167<br />
10k<br />
R129<br />
16V<br />
100n<br />
C132<br />
100R<br />
R166<br />
100n<br />
C163<br />
63V<br />
VERT+<br />
1k<br />
R113<br />
SAW_SW<br />
PL119<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
7<br />
8<br />
9<br />
10<br />
11<br />
12<br />
13<br />
14<br />
15<br />
16<br />
17<br />
18<br />
19<br />
20<br />
21<br />
BC858B<br />
Q107<br />
63V<br />
220n<br />
C150<br />
L115<br />
1u<br />
50V<br />
22u<br />
C108<br />
10k<br />
R141<br />
75R<br />
R244<br />
BC858B<br />
Q115<br />
16V<br />
100n<br />
C148<br />
IRQ<br />
KEYBOARD<br />
75R<br />
R213<br />
12k<br />
R111<br />
1N4148<br />
D100<br />
50V<br />
820p<br />
C179<br />
+8V<br />
A<br />
B<br />
C<br />
RACK_RCA_DVB<br />
JK101<br />
3<br />
1 2 4 5<br />
A B C<br />
RACK_RCA_DVB<br />
JK102<br />
3 1<br />
2<br />
4<br />
5<br />
+5V<br />
AGC<br />
AGC<br />
IF1<br />
IF2<br />
IF2<br />
IF1<br />
4k7<br />
R139<br />
4k7<br />
R140<br />
4k7<br />
R153<br />
4k7<br />
R150<br />
4k7<br />
R151<br />
4k7<br />
R152<br />
100R<br />
R154<br />
100R<br />
R155<br />
100R<br />
R156<br />
100R<br />
R157<br />
RX<br />
SW0<br />
SW1<br />
SW2<br />
DVD_ON<br />
100R<br />
R168<br />
4k7<br />
R163<br />
LED<br />
R126<br />
330R<br />
100R<br />
R128<br />
LED<br />
D102<br />
PL113<br />
1<br />
2<br />
3<br />
DVD_CVBS<br />
DVD_ON<br />
75R<br />
R233<br />
PL114<br />
1<br />
2<br />
PL115<br />
1<br />
2<br />
75R<br />
R245<br />
ID<strong>TV</strong>_CVBS<br />
ID<strong>TV</strong>_MONO<br />
1k<br />
R246<br />
10k<br />
R243<br />
PL116<br />
1<br />
2<br />
3<br />
1k<br />
R249<br />
DVD_MONO<br />
PL117<br />
1<br />
2<br />
DVD_SPDIF<br />
PL118<br />
1<br />
2<br />
ID<strong>TV</strong>_SPDIF<br />
M74HC4052<br />
IC101<br />
1 Y0<br />
2 Y2<br />
3 COM_Y_OUT_IN<br />
4 Y3<br />
5 Y1<br />
6 INH<br />
7 VEE<br />
8 GND 9<br />
B<br />
10<br />
A<br />
11<br />
X3<br />
12<br />
X0<br />
13<br />
COM_X_OUT_IN<br />
14<br />
X1<br />
15<br />
X2<br />
16<br />
VCC<br />
50V<br />
4u7<br />
C124<br />
50V<br />
4u7<br />
C125<br />
50V<br />
4u7<br />
C126<br />
50V<br />
4u7<br />
C127<br />
RCA_V_IN<br />
ID<strong>TV</strong>_CVBS<br />
DVD_CVBS<br />
SC_V_IN<br />
ID<strong>TV</strong>_MONO<br />
SC_A_IN<br />
RCA_A_IN<br />
DVD_MONO<br />
50V<br />
10u<br />
C122<br />
10k<br />
R118<br />
10k<br />
R119<br />
10k<br />
R120<br />
10k<br />
R121<br />
SW0<br />
SW1<br />
47R<br />
R110<br />
2k2<br />
R109<br />
10k<br />
R108<br />
10R<br />
R106<br />
150R<br />
R107<br />
BC848B<br />
Q102<br />
+5V<br />
SEL_CVBS<br />
SEL_MONO<br />
2k2<br />
R133<br />
10k<br />
R132<br />
10R<br />
R134<br />
+8V<br />
150R<br />
R135<br />
BC848B<br />
Q106<br />
47R<br />
R122<br />
+5V<br />
RF_MONO<br />
100R<br />
R250<br />
100R<br />
R251<br />
10k<br />
R247<br />
10k<br />
R248<br />
47R<br />
R183<br />
10k<br />
R192<br />
220R<br />
R193<br />
100R<br />
R194<br />
BC858B<br />
Q113<br />
BC848B<br />
Q114<br />
+5V_SPDIF<br />
25V<br />
10n<br />
C166<br />
50V<br />
1n<br />
C167<br />
A<br />
RCA_JACK_1P_90_LONG<br />
JK100<br />
1<br />
2<br />
PL109<br />
1<br />
2<br />
3<br />
50V<br />
390p<br />
C146<br />
PL102<br />
1<br />
2<br />
3<br />
4<br />
TX<br />
IRQ<br />
RX<br />
BLM21A601S<br />
L107<br />
+5V<br />
33V<br />
D106<br />
BLM21A601S<br />
L104<br />
BLM21A601S<br />
L105<br />
BLM21A601S<br />
L106<br />
BLM21A601S<br />
L109<br />
BLM21A601S<br />
L108<br />
BLM21A601S<br />
L110<br />
BLM21A601S<br />
L119<br />
470R<br />
R181<br />
10k<br />
R241<br />
NLAST4599<br />
IC105<br />
1 SW<br />
2 VSS<br />
3 GND 4<br />
IN1<br />
5<br />
OUT<br />
6<br />
IN2<br />
NLAST4599<br />
IC104<br />
1 SW<br />
2 VSS<br />
3 GND 4<br />
IN1<br />
5<br />
OUT<br />
6<br />
IN2<br />
SW0<br />
RF_MONO<br />
SEL_MONO<br />
+5V<br />
+5V<br />
SW2<br />
BLM21A601S<br />
L112<br />
BLM21A601S<br />
L111<br />
16V<br />
10u<br />
C134<br />
16V<br />
10u<br />
C133<br />
DVD_SPDIF<br />
ID<strong>TV</strong>_SPDIF<br />
300R<br />
R170<br />
300R<br />
R172<br />
1k<br />
R238<br />
SPDIF_OUT<br />
S100<br />
SPDIF_OUT<br />
BC858B<br />
Q104<br />
BC848B<br />
Q103<br />
+5V_STB<br />
BC848B<br />
Q105<br />
10k<br />
R127<br />
50V<br />
220p<br />
C128<br />
BLM21A601S<br />
L114<br />
25V<br />
100n<br />
C114<br />
25V<br />
100n<br />
C115<br />
25V<br />
100n<br />
C116<br />
25V<br />
100n<br />
C117<br />
10k<br />
R123<br />
50V<br />
4u7<br />
C109<br />
100R<br />
R124<br />
16V<br />
220n<br />
C118<br />
PL100<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
PL101<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
BLM21A601S<br />
L102<br />
PL120<br />
1<br />
2<br />
3<br />
4<br />
5<br />
+5V_SPDIF<br />
16V<br />
100n<br />
C203<br />
BLM21A601S<br />
L124<br />
1k<br />
R254<br />
S103<br />
S104<br />
ESD_20V<br />
D109<br />
ESD_20V<br />
D110<br />
ESD_20V<br />
D111<br />
ESD_20V<br />
D112<br />
ESD_20V<br />
D113<br />
ESD_20V<br />
D114<br />
ESD_20V<br />
D115<br />
ESD_20V<br />
D116<br />
ESD_20V<br />
D117<br />
ESD_20V<br />
D118<br />
ESD_20V<br />
D119<br />
ESD_20V<br />
D120<br />
ESD_20V<br />
D121<br />
ESD_20V<br />
D122<br />
ESD_20V<br />
D123<br />
S105<br />
ESD_20V<br />
D124<br />
B5V1_SOD123<br />
D125<br />
PL121<br />
1<br />
2<br />
24LC02<br />
IC100<br />
1 A0<br />
2 A1<br />
3 A2<br />
4 VSS 5<br />
SDA<br />
6<br />
SCL<br />
7<br />
WP<br />
8<br />
VCC<br />
STBY_PR<br />
5V1<br />
D108<br />
S106<br />
50V<br />
10n<br />
C204<br />
50V<br />
10n<br />
C205<br />
BLM21A601S<br />
L125<br />
08/10/2007 01 <strong>of</strong> 04<br />
001.sht<br />
Rev.<br />
03<br />
Ver.<br />
Author<br />
YALCIN ELIK<br />
Sheet<br />
11AK57 VIDEO&AUDIO<br />
OPTIONAL<br />
DATE<br />
COMMON<br />
<strong>TV</strong> R&D GROUP<br />
VESTEL ELECTRONICS<br />
2.2.3. AK57 Chassis Scematics<br />
2.2.3.1. Part1
10k<br />
R826<br />
1k<br />
R841<br />
L801<br />
BA159<br />
D812<br />
MTP6N60E/SSP7N60A<br />
Q802<br />
33R<br />
R833<br />
4k7<br />
R842<br />
UF5407<br />
D814<br />
16V<br />
1000u<br />
C823<br />
25V<br />
1000u<br />
C832<br />
10R<br />
R824<br />
2k2<br />
R845<br />
D800<br />
400V<br />
MCR22_6<br />
IC806<br />
MC44608<br />
1 DEMAG<br />
2 I_SENSE<br />
3 CONT_IN<br />
4 GND 5<br />
DRIVER<br />
6<br />
VCC<br />
7<br />
NC<br />
8<br />
VI<br />
BC848B<br />
Q803<br />
BYD33D<br />
D808<br />
C5V6_SOD123<br />
D813<br />
A 1 K 2<br />
400V<br />
150u<br />
C809<br />
2x27m<br />
L800<br />
1<br />
2<br />
3 4<br />
+12V<br />
1N4148<br />
D816<br />
1N4007<br />
D822<br />
50V<br />
100n<br />
C826<br />
2R2<br />
R806<br />
TCET110G<br />
IC811<br />
1<br />
2<br />
3<br />
4<br />
1k8<br />
R835<br />
50V<br />
68n<br />
C841<br />
BC848B<br />
Q804<br />
BA159<br />
D824<br />
1kV<br />
100p<br />
C820<br />
1N4007<br />
D821<br />
1k2<br />
R832<br />
PL800<br />
1<br />
2<br />
PL803<br />
1<br />
150n<br />
C801<br />
250V<br />
PL802<br />
1<br />
2<br />
3<br />
STBY<br />
25V<br />
100n<br />
C812<br />
33k<br />
R821<br />
50V<br />
100n<br />
C830<br />
75R<br />
R838<br />
65uH<br />
L806<br />
1N4148<br />
D803<br />
1kV<br />
100p<br />
C821<br />
22k<br />
R834<br />
1N4007<br />
D818<br />
50V<br />
22n<br />
C828<br />
4M7<br />
R810<br />
630V<br />
47n<br />
C810<br />
2u2<br />
L804<br />
150n<br />
C800<br />
250V<br />
33k<br />
R820<br />
1N4007<br />
D820<br />
1n<br />
C802<br />
1kV<br />
B+<br />
1N4007<br />
D823<br />
50V<br />
1n<br />
C827<br />
SMPS_46<br />
TR800<br />
DRAIN<br />
8<br />
6<br />
+300V<br />
7<br />
NC3<br />
VVC<br />
4<br />
GND<br />
3<br />
NC2 5<br />
NC1 2<br />
NC<br />
1<br />
GND3<br />
16<br />
+112V<br />
15<br />
+14V<br />
11<br />
+8V5<br />
9<br />
GND1<br />
12<br />
+8V5_1<br />
10<br />
GND2<br />
14<br />
+22V<br />
13<br />
9R<br />
TH800<br />
99k<br />
R839<br />
1k<br />
R807<br />
BYD33D<br />
D809<br />
22k<br />
R831<br />
1N4007<br />
D819<br />
1kV<br />
470p<br />
C817<br />
50V<br />
33u<br />
C813<br />
4kV<br />
2n2<br />
C805<br />
330R<br />
R825<br />
150uH<br />
L807<br />
L803<br />
1kV<br />
1n<br />
C822<br />
+12V_A<br />
160V<br />
47u<br />
C840<br />
3.15A<br />
F800<br />
4kV<br />
4n7<br />
C804<br />
1k<br />
R830<br />
1n<br />
C806<br />
1kV<br />
VAR-510V<br />
R803<br />
2k<br />
R815<br />
100V<br />
4n7<br />
C814<br />
TL431SAMF2<br />
D802<br />
1N4148<br />
D801<br />
10k<br />
R823<br />
BC858B<br />
Q801<br />
470R<br />
R822<br />
10k<br />
R816<br />
10k<br />
R827<br />
50V<br />
1n<br />
C816<br />
50V<br />
47n<br />
C815<br />
50V<br />
100p<br />
C807<br />
1kV<br />
1n<br />
C803<br />
220u<br />
C844<br />
16V<br />
+3V3_STB<br />
50V<br />
100n<br />
C843<br />
6V3<br />
2200u<br />
C842<br />
16V<br />
220u<br />
C833<br />
UF5402<br />
D807<br />
1kV<br />
100p<br />
C818<br />
50V<br />
100n<br />
C836<br />
16V<br />
470u<br />
C824<br />
UF5402<br />
D811<br />
1n 1kV<br />
C825<br />
BYD33D<br />
D810<br />
L4931<br />
IC813<br />
1<br />
2<br />
3<br />
50V<br />
100n<br />
C838<br />
16V<br />
2200u<br />
C837<br />
1k<br />
R836<br />
+5V_DVD<br />
+5V_DVD<br />
LM1117<br />
IC815<br />
4<br />
VOUT 2<br />
OUT<br />
1<br />
GND<br />
3 IN +3V3_DVD<br />
6V3<br />
2200u<br />
C846<br />
16V<br />
100n<br />
C845<br />
+12V_ID<strong>TV</strong><br />
+12V_ID<strong>TV</strong><br />
+3V3_DVD<br />
+33V_ID<strong>TV</strong><br />
PL804<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
2u2<br />
L805<br />
16V<br />
1u<br />
C834<br />
+12V_DVD<br />
+12V_DVD<br />
16V<br />
2200u<br />
C831<br />
50V<br />
100n<br />
C835<br />
PL805<br />
1<br />
2<br />
3<br />
4<br />
5<br />
KA78R12<br />
IC814<br />
4<br />
VDIS<br />
2<br />
OUT<br />
1 IN<br />
3<br />
GND<br />
+5V_STB<br />
BC848B<br />
Q805<br />
22k<br />
R843<br />
22k<br />
R844<br />
STBY<br />
78L05_TO92<br />
IC812<br />
1<br />
2<br />
3<br />
1kV<br />
220p<br />
C811<br />
470R<br />
R849<br />
2k2<br />
R846<br />
1kV<br />
1n<br />
C839<br />
BA159<br />
D815<br />
86k<br />
R837<br />
1N4148<br />
D825<br />
RL800<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
S800<br />
0R22<br />
R828<br />
C8V2<br />
D804<br />
4R7<br />
R850<br />
S817<br />
TL431SAMF2<br />
D827<br />
1kV<br />
470p<br />
C847<br />
160V<br />
33u<br />
C848<br />
680R<br />
R851<br />
250V<br />
1u<br />
C849<br />
1M<br />
R852<br />
150k<br />
R853<br />
MCR_GATE<br />
MCR_GATE<br />
1k<br />
R854<br />
50V<br />
10u<br />
C850<br />
5k1<br />
R855<br />
5k1<br />
R856<br />
BC848B<br />
Q808<br />
25V<br />
100n<br />
C851<br />
470R<br />
R857<br />
STB_SUPPLY<br />
STB_SUPPLY<br />
BC327<br />
Q809<br />
BC848B<br />
Q810<br />
BC848B<br />
Q811<br />
10k<br />
R858<br />
10k<br />
R859<br />
10k<br />
R860<br />
150R<br />
R861<br />
560R<br />
R862<br />
C2V7<br />
D828<br />
ESD_20V<br />
D829<br />
ESD_20V<br />
D830<br />
ESD_20V<br />
D831<br />
10k<br />
R864<br />
1N4148<br />
D832<br />
1N4148_SOD123<br />
D805<br />
1N4148_SOD123<br />
D806<br />
S818<br />
50V<br />
1n<br />
C852<br />
1k<br />
R865<br />
1N4148<br />
D833<br />
1N4148<br />
D834<br />
1N4148<br />
D835<br />
1N4148<br />
D836<br />
1k5<br />
R866<br />
BC858B<br />
Q812<br />
3k3<br />
R867<br />
+3V3_STB<br />
22k<br />
R868<br />
C2V4_SOD123<br />
D838<br />
16V<br />
1u<br />
C853<br />
16V<br />
1u<br />
C854<br />
1N4148<br />
D839<br />
220k<br />
R869<br />
BC848B<br />
Q813<br />
STBY<br />
STBY_PR<br />
AUDIO_PR<br />
AUDIO_PR<br />
HOR_PR<br />
HOR_PR<br />
+12V_ID<strong>TV</strong><br />
DVD_PR<br />
DVD_PR<br />
16V<br />
1u<br />
C855<br />
680k<br />
R871<br />
680k<br />
R872<br />
680k<br />
R873<br />
1kV<br />
10n<br />
C856<br />
2W<br />
3R3<br />
R863<br />
08/10/2007<br />
Ver.<br />
02 <strong>of</strong> 04<br />
03 SMPS GROUP<br />
11AK57 SMPS<br />
DATE<br />
VESTEL ELECTRONICS<strong>TV</strong> R&D GROUP<br />
002.sht<br />
Rev. Author Sheet<br />
PROTECTION
PL601<br />
1<br />
2<br />
EHT<br />
FOCUS<br />
G2<br />
FBT_AK19<br />
TR600<br />
COLLECTOR<br />
1<br />
NC<br />
2<br />
150V<br />
3<br />
4<br />
E_W<br />
45V<br />
5<br />
15V<br />
6<br />
GND1<br />
7<br />
HEATER<br />
8<br />
200V<br />
9<br />
EHTINFO<br />
10<br />
10V<br />
11<br />
GND2<br />
12<br />
GND3<br />
13<br />
BA159_SMD<br />
D609<br />
BU2508AF<br />
Q603<br />
VIDEO_B+<br />
BA159<br />
D607<br />
1.6kV<br />
7n5<br />
C611<br />
250V<br />
10u<br />
C619<br />
VIDEO_B+<br />
B+<br />
R604<br />
2k2<br />
VPROT<br />
2k2<br />
R601<br />
100p<br />
C603<br />
50V<br />
2n2<br />
C600<br />
50V<br />
50V<br />
2n2<br />
C601<br />
VERT+<br />
HER107<br />
D603<br />
5k1<br />
R606<br />
390R<br />
R607<br />
PL600<br />
1<br />
2<br />
27k<br />
R605<br />
S<strong>TV</strong>9379FA<br />
IC600<br />
1 INVERT_IN<br />
2 VCC<br />
3 FBKSUPPLY<br />
4 GND<br />
5 OUT<br />
6 OUTSUPPLY<br />
7 N_INVERT_IN<br />
VERT-<br />
63V<br />
100u<br />
C602<br />
1R<br />
R608<br />
100V<br />
100n<br />
C608<br />
1k<br />
R632<br />
EHT_INFO<br />
100V<br />
22n<br />
C625<br />
+8V<br />
10k<br />
R634<br />
22R<br />
R603<br />
16V<br />
100u<br />
C605<br />
+12V<br />
HOUT<br />
1N4148<br />
D612<br />
2kV<br />
2n2<br />
C607<br />
BC639<br />
Q600<br />
R611<br />
100R<br />
47R<br />
R618<br />
100V<br />
47n<br />
C606<br />
BA159<br />
D606<br />
25V<br />
470u<br />
C615<br />
25V<br />
470u<br />
C616<br />
+14V<br />
+14V<br />
-14V<br />
-14V<br />
100V<br />
22n<br />
C604<br />
10R<br />
R612<br />
+33V<br />
50V<br />
100u<br />
C626<br />
1/2W<br />
0R22<br />
R630<br />
BA159<br />
D611<br />
+8V<br />
16V<br />
220u<br />
C618<br />
1/2W<br />
0R22<br />
R622<br />
BY299<br />
D608<br />
4R7<br />
R614<br />
75R<br />
R617<br />
BC639<br />
Q602<br />
16V<br />
100u<br />
C610<br />
+5V<br />
16V<br />
100u<br />
C609<br />
1N4148<br />
D605<br />
250V<br />
47n<br />
C612<br />
+5V<br />
1N4148<br />
D604<br />
HFLYBACK<br />
250V<br />
330n<br />
C622<br />
5k1<br />
R627<br />
BA159<br />
D610<br />
250V<br />
10u<br />
C623<br />
L600<br />
1<br />
4<br />
2<br />
3<br />
5<br />
100R<br />
R610<br />
16V<br />
100n<br />
C617<br />
1/2W<br />
0R47<br />
R624<br />
250V<br />
47n<br />
C613<br />
75R<br />
R616<br />
BC639<br />
Q601<br />
C5V6<br />
D602<br />
C8V2<br />
D601<br />
10R<br />
R609<br />
33R<br />
R633<br />
+33V_ID<strong>TV</strong><br />
C8V2<br />
D600<br />
10k<br />
R619<br />
1/2W<br />
0R22<br />
R620<br />
1/2W<br />
0R22<br />
R621<br />
1W<br />
1R<br />
R631<br />
33R<br />
R613<br />
100k<br />
R600<br />
500V<br />
1n<br />
C614<br />
1/4W<br />
R628<br />
PL603<br />
1<br />
2<br />
3<br />
4<br />
50V<br />
100n<br />
C624<br />
1/2W<br />
1R5<br />
R602<br />
<strong>TV</strong> R&D GROUP<br />
03<br />
Author<br />
Rev.<br />
08/10/2007 03 <strong>of</strong> 04<br />
YALCIN ELIK<br />
VESTEL ELECTRONICS<br />
Sheet<br />
Ver.<br />
11AK57 DEFLECTION<br />
DATE<br />
003.sht<br />
HEATER<br />
+9V
50V<br />
180p<br />
C903<br />
3k3<br />
R905<br />
1k8<br />
R904<br />
1k5<br />
R920<br />
100R<br />
R917<br />
10k<br />
R911<br />
PL906<br />
1<br />
3k3<br />
R903<br />
2SC2482<br />
Q900<br />
2SC2482<br />
Q902<br />
50V<br />
180p<br />
C902<br />
1k5<br />
R923<br />
1k8<br />
R900<br />
PL903<br />
1<br />
2<br />
3<br />
4<br />
330R<br />
R910<br />
G3<br />
EHT<br />
PL902<br />
5<br />
R<br />
3<br />
G<br />
B<br />
8<br />
2<br />
G1<br />
4<br />
G2<br />
6<br />
GND<br />
7<br />
F2<br />
1 9<br />
100R<br />
R918<br />
10k<br />
R912<br />
3k3<br />
R901<br />
1k8<br />
R902<br />
1kV<br />
2n7<br />
C913<br />
PL905<br />
1<br />
50V<br />
180p<br />
C901<br />
50V<br />
820p<br />
C909<br />
PL900<br />
1<br />
2<br />
3<br />
4<br />
5<br />
1k5<br />
R919<br />
BF421<br />
Q904<br />
50V<br />
820p<br />
C905<br />
2SC2482<br />
Q901<br />
PL904<br />
1<br />
50V<br />
820p<br />
C907<br />
PL907<br />
1<br />
50V<br />
220p<br />
C900<br />
100R<br />
R922<br />
330R<br />
R909<br />
BF421<br />
Q903<br />
10k<br />
R907<br />
330R<br />
R914<br />
BF421<br />
Q905<br />
G3<br />
EHT<br />
PL901<br />
5<br />
R<br />
3<br />
G<br />
B<br />
8<br />
2<br />
G1<br />
4<br />
G2<br />
6<br />
GND<br />
7<br />
F2<br />
1 9<br />
+200V<br />
+200V<br />
+200V<br />
BF422<br />
Q906<br />
BF422<br />
Q907<br />
BF422<br />
Q908<br />
75R<br />
R924<br />
75R<br />
R925<br />
75R<br />
R926<br />
+200V<br />
+200V<br />
+200V<br />
+200V<br />
08/10/2007<br />
Ver.<br />
04 <strong>of</strong> 04<br />
03 YALCIN ELIK<br />
11AK57 CRT BOARD<br />
DATE<br />
VESTEL ELECTRONICS<strong>TV</strong> R&D GROUP<br />
004.sht<br />
Rev. Author Sheet
2.2.4. DVD PLAYER<br />
2.2.4.1. General Description<br />
2.2.4.1.1. MT1389D<br />
The MT1389D Progressive Scan DVD-Player Combo Chip is a single-chip MPEG video decoding chip<br />
that integrates audio/video stream data processing, <strong>TV</strong> encoder, four video DACs with Macrovision. Copy<br />
protection, DVD system navigation, system control and housekeeping functions.<br />
The features <strong>of</strong> this chip can be listed as follows:<br />
Features<br />
• Progressive scan DVD-player combo chip<br />
• Integrated NTSC/PAL encoder.<br />
• Built-in progressive video output<br />
• DVD-Video, VCD 1.1, 2.0, and SVCD<br />
• Unified track buffer and A/V decoding buffer.<br />
• Direct interface <strong>of</strong> 32-bit SDRAM.<br />
• Servo controller and data channel processing.<br />
Video Related Features:<br />
• Macrovision 7.1 for NTSC/PAL interlaced video.<br />
• Simultaneous composite video and S-video outputs, or composite and YUV outputs, or composite<br />
and RGB outputs.<br />
• 8-bit CCIR 601 YUV 4:2:2 output.<br />
• Decodes MPEG video and MPEG2 main pr<strong>of</strong>ile at main level.<br />
• Maximum input bit rate <strong>of</strong> 15Mbits/sec<br />
Audio Related Features:<br />
• Dolby Digital (AC-3) and Dolby Pro Logic.<br />
• Dolby Digital S/PDIF digital audio output.<br />
• High-Definition Compatible Digital. (HDCD) decoding.<br />
• Dolby Digital Class A and HDCD certified.<br />
• CD-DA.<br />
• MP3.<br />
2.2.4.1.2. SDRAM Memory Interface<br />
The MT1389D provides a glueless 16-bit interface to DRAM memory devices used as OSD, MPEG<br />
stream and video buffer memory for a DVD player. The maximum amount <strong>of</strong> memory supported is 16MB<br />
<strong>of</strong> Synchronous DRAM (SDRAM). The memory interface is configurable in depth to support 110-Mb<br />
addressing. The memory interface controls access to both external SDRAM memories, which can be the<br />
sole unified external read/write memory acting as program and data memory as well as various decoding<br />
and display buffers.
2.2.4.1.3. Drive Interfaces<br />
The MT1389D supports the DV34 interface, and other RF and servo interfaces used by many types <strong>of</strong> DVD<br />
loaders. These interfaces meet the specifications <strong>of</strong> many DVD loader manufacturers.<br />
2.2.4.2. System Block Diagram and MT1389D Pin Description<br />
2.2.4.2.1. MT1389D Pin Description
2.2.4.2.2. 2.1 Sytem Block Diagram
A sample system block diagram for the MT1389D DVD player board design is shown in the following figurre:<br />
2.2.4.3. Audio Output<br />
The MT1389D supports two-channel and six-channel analog audio output. In a system configuration with six<br />
analog outputs, the front left and right channels can be configured to provide the stereo (2 channel) outputs and<br />
Dolby Surround, or the left and right front channels for a 5.1 channel surround system. The MT1389D also<br />
provides digital output in S/PDIF format. The board supports both optical and coaxial SPDIF outputs.<br />
2.2.4.4. Audio DACS<br />
The MT1389D supports several variations <strong>of</strong> an I2S type bus, varying the order <strong>of</strong> the data bits (leading or no<br />
leading zero bit, left or right alignment within frame, and MSB or LSB first) is possible using the MT1389D<br />
internal configuration registers. The I2S format uses four stereo data lines and three clock lines. The I2S data<br />
and clock lines can be connected directly to one or more audio DAC to generate analog audio output. The twochannel<br />
DAC is internal. The six channel DAC is PCM1606. The outputs <strong>of</strong> the DACs are not differential. The<br />
buffer circuits use National LM833 op-amps to perform the low-pass filtering and the buffering.<br />
2.2.4.5. Video Interface<br />
Video Display Output<br />
The video output section controls the transfer <strong>of</strong> video frames stored in memory to the internal <strong>TV</strong> encoder <strong>of</strong><br />
the MT1389D. The output section consists <strong>of</strong> a programmable CRT controller capable <strong>of</strong> operating either in<br />
Master or Slave mode.<br />
The video output section features internal line buffers which allow the outgoing luminance and chrominance<br />
data to match the internal clock rates with external pixel clock rates, easily facilitating YUV4: 2:2 to YUV4: 2:0<br />
component and sample conversion. A polyphase filter achieves arbitrary horizontal decimation and<br />
interpolation.<br />
Video Bus
The video bus has 8 YUV data pins that transfer luminance and chrominance (YUV) pixels in CCIR601 pixel<br />
format (4:2:2). In this format, there are half as many chrominance (U or V) pixels per line as luminance (Y)<br />
pixels; there are as many chrominance lines as luminance.<br />
Video Post-Processing<br />
The MT1389D video post-processing circuitry provides support for the color conversion, scaling, and filtering<br />
functions through a combination <strong>of</strong> special hardware and s<strong>of</strong>tware. Horizontal upsampling and filtering is done<br />
with a programmable, 7-tap polyphase filter bank for accurate non-integer interpolations. Vertical scaling is<br />
achieved by repeating and dropping lines in accordance with the applicable scaling ratio.<br />
Video Timing<br />
The video bus can be clocked either by double pixel clock and clock qualifier or by a single pixel clock. The<br />
double clock typically is used for <strong>TV</strong> displays, the single for computer displays.<br />
2.2.4.6. Flash Memory<br />
The decoder board supports 70ns Flash memories.<br />
FLASH_512K_8b<br />
The MT1389D permits 8- bit common memory I/O accesses.<br />
2.2.4.7. Serial Eeprom Memory<br />
An I2C serial EEPROM is used to store user configuration (i.e. language preferences, speaker setup, etc.) and<br />
s<strong>of</strong>tware configuration.. Industry standard EEPROM range in size from 1kbit to 256kbit and share the same IC<br />
footprint and pinout. The default device is 2kbit, 256kx 8, SOIC8 SGS Thomson ST24C02M1 or equivalent.<br />
2.2.4.8. Audio Interface Audio Sampling Rate and PLL Component<br />
Configuration<br />
The MT1389D audio mode configuration is selec<strong>table</strong>, allowing it to interface directly with low-cost audio DACs<br />
and ADCs. The audio port provides a standard I2S interface input and output and S/PDIF (IEC958) audio<br />
output. Stereo mode is in I2S format while six channels Dolby Digital (5.1 channel) audio output can be<br />
channeled through the S/PDIF. The S/PDIF interface consists <strong>of</strong> a bi-phase mark encoder, which has low skew.<br />
The transmit I2S interface supports the 112, 128, 192, 256, 384, and 512 sampling frequency formats, where<br />
sampling frequency Fs is usually 32 kHz, 44.1 kHz, 48 kHz, 96 kHz, or 192 kHz. The audio samples for the I2S<br />
transmit interface can be 16, 18, 20, 24, and 32-bit samples.<br />
For Linear PCM audio stream format, the MT1389D supports 48 kHz and 96 kHz. Dolby Digital audio only<br />
upports 48 kHz. The MT1389D incorporates a built-in programmable analog PLL in the device architecture in<br />
order to generate a master audio clock. The MCLK pin is for the audio DAC clock and can either be an output<br />
from or an input to the MT1389D. Audio data out (TSD) and audio frame sync (TWS) are clocked out <strong>of</strong> the<br />
MT1389D based on the audio transmit bit clock (TBCK). Audio receive bit clock (RBCK) is used to clock in<br />
audio data in (RSD) and audio receive frame sync (RWS).<br />
2.2.4.9. Scematics<br />
2.2.4.9.1. Part1
2<br />
5<br />
1<br />
3<br />
1<br />
3<br />
+<br />
+<br />
+<br />
+<br />
4<br />
3<br />
2<br />
1<br />
[1,2,4]<br />
[1,2,3]<br />
[1,2,3,4]<br />
[2]<br />
[2]<br />
VCC<br />
DV33<br />
GND<br />
AL<br />
AR<br />
VCC<br />
DV33<br />
GND<br />
AL<br />
AR<br />
[1]<br />
+12V<br />
+12V<br />
D<br />
[2]<br />
MUTE_DAC<br />
MUTE_DAC<br />
D<br />
LCH<br />
RCH<br />
LCH [4]<br />
RCH [4]<br />
R116<br />
24k<br />
C74<br />
100pF<br />
MUTE<br />
AL<br />
C75<br />
10uF/16v<br />
R117<br />
10k<br />
R118<br />
5.1k<br />
2<br />
1/2VCC 3<br />
C77<br />
1000pF<br />
8 4<br />
-<br />
+<br />
1<br />
U13A<br />
NJM4558 OPA<br />
+12V<br />
R119<br />
C76 10uF/16v 100<br />
A_MUTE<br />
2<br />
1 3<br />
LCH<br />
Q14<br />
2N3904<br />
SOT23<br />
VCC<br />
R122<br />
24k<br />
C<br />
+12V<br />
R123<br />
22k<br />
C78<br />
100pF<br />
C<br />
R124 470 + CE31<br />
DV33<br />
1 2<br />
D17<br />
4.7V<br />
R121<br />
10K<br />
2 Q15 2<br />
3906<br />
Q25<br />
3906<br />
100uF/16V<br />
AR<br />
C79<br />
10uF/16v<br />
R125<br />
10k<br />
R126<br />
5.1k<br />
6<br />
1/2VCC 5<br />
C83<br />
1000pF<br />
8 4<br />
-<br />
+<br />
7<br />
U13B<br />
NJM4558 OPA<br />
+12V<br />
R127<br />
C80 10uF/16v 100<br />
A_MUTE<br />
2<br />
1 3<br />
RCH<br />
Q16<br />
2N3904<br />
SOT23<br />
Q28 3906/NC<br />
1 3<br />
R120 10K<br />
R174<br />
D19 1N4148/NC<br />
1 2<br />
A_MUTE<br />
R147<br />
1K<br />
R134<br />
10K/NC<br />
R171<br />
10K/NC<br />
MUTE_DAC<br />
B<br />
B<br />
+12V<br />
R17210k<br />
R173100k<br />
1/2VCC<br />
CB57<br />
0.1uF<br />
10k<br />
+ CE38<br />
47uF/16V<br />
A<br />
A<br />
MediaTek Confidential<br />
MediaTek (ShenZhen) Inc.<br />
Title<br />
COMMON1389E_HD60<br />
Size Document Number Drawn: changqiao Rev<br />
C<br />
3<br />
AUDIO OUT Checked: Tom Wang<br />
Date: Saturday, December 09, 2006<br />
Sheet 1 <strong>of</strong> 5<br />
5<br />
4<br />
3<br />
2<br />
1
5<br />
4<br />
3<br />
2<br />
1<br />
+5VV<br />
+5VV<br />
R178 100<br />
R179 75<br />
TP3<br />
D<br />
[1] +12V<br />
[1,2,5] VCC<br />
[1,2,3,5] GND<br />
[2] CVBS<br />
[2] R<br />
[2] G<br />
[2] VB<br />
[2] ASPDIF<br />
[5] LCH<br />
[5] RCH<br />
+12V<br />
VCC<br />
GND<br />
CVBS<br />
R<br />
G<br />
VB<br />
ASPDIF<br />
LCH<br />
RCH<br />
R90<br />
75<br />
CVBS<br />
C104<br />
47P<br />
L28 1.8uH<br />
R88 0<br />
2<br />
C105<br />
47P<br />
R86<br />
75/NC<br />
3 1<br />
Q10<br />
3906/NC<br />
1 2<br />
1 2<br />
D25<br />
1N4148/NC<br />
D27<br />
1N4148/NC<br />
CVBSO<br />
VCC<br />
ASPDIF<br />
C51<br />
0.1uF<br />
C109<br />
C110<br />
0.1UF<br />
100PF<br />
R73 33<br />
1<br />
2<br />
3<br />
+ C52 C112<br />
10uF/16v<br />
27PF<br />
C111<br />
100PF<br />
J10<br />
TJC3-3AW<br />
OPTICAL<br />
P=2.54mm<br />
R180<br />
100/NC<br />
D<br />
J9<br />
+5VV<br />
R74<br />
75/NC<br />
R76 0<br />
+5VV<br />
1 2<br />
D20<br />
1N4148/NC<br />
G/Y<br />
CVBSO<br />
R/V<br />
G/Y<br />
B/U<br />
RGB/CVBS#<br />
ASPECT<br />
LCH<br />
RCH<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
7<br />
8<br />
9<br />
10<br />
1<br />
C<br />
G<br />
R78<br />
75<br />
C100<br />
47P<br />
L27 1.8uH<br />
C101<br />
47P<br />
2<br />
3<br />
Q6<br />
3906/NC<br />
1 2<br />
D21<br />
1N4148/NC<br />
TJC3-10AW<br />
C<br />
B<br />
VCC<br />
L20<br />
10uH/NC<br />
+5VV<br />
+5VV<br />
C48 + C50<br />
47uF/16v/NC<br />
0.1uF<br />
VB<br />
R84<br />
75<br />
C57<br />
47P<br />
L23<br />
1.8uH<br />
+5VV<br />
R80<br />
75/NC<br />
R82 0<br />
2<br />
C58<br />
47P<br />
3 1<br />
Q8<br />
3906/NC<br />
+5VV<br />
1 2<br />
1 2<br />
D24<br />
1N4148/NC<br />
D26<br />
1N4148/NC<br />
B/U<br />
[ 2 ]<br />
RGB_SWITCH<br />
R183<br />
2K<br />
2<br />
1 3<br />
R181 10K<br />
R182 4.7K 2<br />
Q30<br />
9014<br />
VCC<br />
1<br />
3<br />
Q29<br />
3906<br />
RGB/CVBS#<br />
B<br />
+12V<br />
R184 680<br />
ASPECT<br />
R185<br />
1k<br />
C<br />
B E<br />
3904 / 3906<br />
R186<br />
75<br />
3906<br />
C<br />
B E<br />
+5VV<br />
R87<br />
75/NC<br />
R89 0<br />
+5VV<br />
1 2<br />
D28<br />
1N4148/NC<br />
R/V<br />
[ 2 ] FS0<br />
[ 2 ] FS1<br />
R187 2k<br />
2<br />
1 3<br />
Q31<br />
2N3904<br />
2<br />
R188 2k<br />
1 3<br />
Q32<br />
2N3904<br />
1<br />
A<br />
R<br />
R91<br />
75<br />
L26 1.8uH<br />
C63<br />
47P<br />
C64<br />
47P<br />
2<br />
3<br />
Q11<br />
3906/NC<br />
1 2<br />
D29<br />
1N4148/NC<br />
MediaTek Confidential<br />
MediaTek (ShenZhen) Inc.<br />
Title<br />
COMMON1389E_HD60<br />
Drawn: changqiao<br />
Size Document Number Rev<br />
Custom VIDEO OUT<br />
Checked: Tom Wang<br />
3<br />
Saturday, December 09, 2006<br />
Date: Sheet <strong>of</strong> 2 5<br />
A<br />
5<br />
4<br />
3<br />
2<br />
1
5<br />
5<br />
4<br />
4<br />
3<br />
3<br />
2<br />
2<br />
1<br />
1<br />
D<br />
D<br />
C<br />
C<br />
B<br />
B<br />
A<br />
A<br />
16Mb<br />
IIC<br />
DRAM<br />
FLASH<br />
FLASH<br />
DRAM<br />
SDRAM&FLASH 3<br />
B<br />
3 5<br />
Saturday, December 09, 2006<br />
COMMON1389E_HD60<br />
MediaTek Confidential<br />
changqiao<br />
Tom Wang<br />
Title<br />
Size Document Number Rev<br />
Date: Sheet <strong>of</strong><br />
MediaTek (ShenZhen) Inc.<br />
Drawn:<br />
Checked:<br />
A9<br />
A3<br />
AD3<br />
A1<br />
A19<br />
A4<br />
AD6<br />
AD1<br />
A17<br />
A16<br />
A13<br />
A14<br />
AD0<br />
A2<br />
A6<br />
A8<br />
A18<br />
AD7<br />
A7<br />
AD5<br />
A12<br />
A15<br />
A10<br />
AD2<br />
AD4<br />
A11<br />
A5<br />
A0<br />
DBA1<br />
DQ8<br />
DQ14<br />
MA11<br />
DRAS#<br />
MA2<br />
DQ15<br />
MA5<br />
DQ10<br />
MA4<br />
DQ13<br />
MA8<br />
DBA0<br />
DQM1<br />
DCS#<br />
DQ9<br />
SDCLK<br />
MA9<br />
DQ11<br />
MA3<br />
MA6<br />
DQM0<br />
MA7<br />
MA0<br />
DCAS#<br />
DWE#<br />
MA10<br />
SDCKE<br />
DQ12<br />
MA1<br />
A20<br />
AA20<br />
PRD#<br />
PWR#<br />
AA20<br />
DQ2<br />
DQ5<br />
DQ1<br />
DQ6<br />
DQ4<br />
DQ3<br />
DQ0<br />
DQ7<br />
DQ6<br />
DQ11<br />
DQ0<br />
DQ7<br />
DQ3<br />
DQ2<br />
DQ5<br />
DQ10<br />
DQ12<br />
DQ13<br />
DQ8<br />
DQ9<br />
DQ1<br />
DQ15<br />
DQ4<br />
DQ14<br />
SDCLK<br />
SDCKE<br />
DWE#<br />
DBA1<br />
DCAS#<br />
MA0<br />
MA8<br />
MA1<br />
MA3<br />
MA2<br />
MA9<br />
MA10<br />
MA6<br />
MA7<br />
DBA0<br />
DQM1<br />
DQM0<br />
SDA<br />
AD[0..7]<br />
DQ[0..15]<br />
SCL<br />
PRD#<br />
PWR#<br />
DWE#<br />
WE#<br />
DCS#<br />
RAS#<br />
DCAS#<br />
CS#<br />
DRAS#<br />
CAS#<br />
DBA0<br />
BA0<br />
DCKE<br />
DBA1<br />
BA1<br />
SDCLK<br />
SDCKE<br />
A[0..20]<br />
CAS#<br />
RAS#<br />
CS#<br />
WE#<br />
MA[0..11]<br />
BA[0..1]<br />
DQM[0..1]<br />
DCLK<br />
DCKE<br />
GND<br />
DV33<br />
VCC<br />
DCLK<br />
MA4<br />
MA5<br />
DRAS#<br />
PCE#<br />
PCE#<br />
GND<br />
SD33<br />
SCL<br />
SDA<br />
DQ[0..15]<br />
[2]<br />
SCL<br />
[2,3]<br />
AD[0..7]<br />
[2]<br />
SDA<br />
[2,3]<br />
PRD#<br />
[2]<br />
PWR#<br />
[2]<br />
A[0..20]<br />
[2]<br />
CAS#<br />
[2]<br />
WE#<br />
[2]<br />
CS#<br />
[2]<br />
RAS#<br />
[2]<br />
MA[0..11]<br />
[2]<br />
DQM[0..1]<br />
[2]<br />
BA[0..1]<br />
[2]<br />
DCLK<br />
[2]<br />
DCKE<br />
[2]<br />
DV33<br />
[1,2,5]<br />
GND<br />
[1,2,4,5]<br />
VCC<br />
[1]<br />
PCE#<br />
[2]<br />
SD33<br />
SD33<br />
DV33<br />
SD33<br />
SD33<br />
SD33<br />
FVCC<br />
FVCC<br />
FVCC<br />
DV33<br />
DV33<br />
DV33<br />
FVCC<br />
R85 0<br />
L29 FB<br />
CB40<br />
0.1uF<br />
C107<br />
10PF<br />
R61 33<br />
CB52<br />
0.1uF<br />
R63 33<br />
CB46<br />
0.1uF<br />
+ CE25<br />
47uF/16v<br />
U7<br />
ESMT M12L16161A-7<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
7<br />
8<br />
9<br />
10<br />
11<br />
12<br />
13<br />
14<br />
15<br />
16<br />
17<br />
18<br />
19<br />
20<br />
21<br />
22<br />
23<br />
24<br />
25<br />
26<br />
27<br />
28<br />
29<br />
30<br />
31<br />
32<br />
33<br />
34<br />
35<br />
36<br />
37<br />
38<br />
39<br />
40<br />
41<br />
42<br />
43<br />
44<br />
45<br />
46<br />
47<br />
48<br />
49<br />
50<br />
VCC<br />
DQ0<br />
DQ1<br />
VSSQ<br />
DQ2<br />
DQ3<br />
VCCQ<br />
DQ4<br />
DQ5<br />
VSSQ<br />
DQ6<br />
DQ7<br />
VCCQ<br />
DQML<br />
WE<br />
CAS<br />
RAS<br />
CS<br />
BA/A11<br />
A10<br />
A0<br />
A1<br />
A2<br />
A3<br />
VCC<br />
VSS<br />
A4<br />
A5<br />
A6<br />
A7<br />
A8<br />
A9<br />
NC<br />
CKE<br />
CLK<br />
DQMH<br />
NC<br />
VCCQ<br />
DQ8<br />
DQ9<br />
VSSQ<br />
DQ10<br />
DQ11<br />
VCCQ<br />
DQ12<br />
DQ13<br />
VSSQ<br />
DQ14<br />
DQ15<br />
VSS<br />
U9<br />
IC FLASH MX29LV800 8Mb<br />
25<br />
24<br />
23<br />
22<br />
21<br />
20<br />
19<br />
18<br />
8<br />
10<br />
28<br />
47<br />
16<br />
29<br />
31<br />
33<br />
35<br />
7<br />
26<br />
38<br />
40<br />
42<br />
44<br />
30<br />
32<br />
14<br />
36<br />
39<br />
41<br />
43<br />
45<br />
37<br />
27<br />
11<br />
9<br />
34<br />
46<br />
6<br />
4<br />
5<br />
3<br />
2<br />
1<br />
48<br />
17<br />
12<br />
A0<br />
A1<br />
A2<br />
A3<br />
A4<br />
A5<br />
A6<br />
A7<br />
A8<br />
A20<br />
OE<br />
BYTE<br />
A18<br />
D0<br />
D1<br />
D2<br />
D3<br />
A9<br />
CE<br />
D4<br />
D5<br />
D6<br />
D7<br />
D8<br />
D9<br />
WP/ACC<br />
D11<br />
D12<br />
D13<br />
D14<br />
D15/A-1<br />
VCC<br />
GND1<br />
WE<br />
A19<br />
D10<br />
GND2<br />
A10<br />
A12<br />
A11<br />
A13<br />
A14<br />
A15<br />
A16<br />
A17<br />
RESET<br />
U8<br />
ESMT M12L64164A/N.C<br />
TSOP54<br />
1<br />
2<br />
4<br />
12<br />
5<br />
7<br />
9<br />
8<br />
10<br />
46<br />
11<br />
13<br />
15<br />
16<br />
17<br />
18<br />
19<br />
35<br />
22<br />
23<br />
24<br />
25<br />
26<br />
14<br />
41<br />
29<br />
30<br />
31<br />
32<br />
33<br />
34<br />
36<br />
37<br />
38<br />
39<br />
40<br />
43<br />
42<br />
44<br />
52<br />
45<br />
47<br />
49<br />
48<br />
50<br />
51<br />
53<br />
54<br />
20<br />
21<br />
3<br />
6<br />
27<br />
28<br />
VCC<br />
DQ0<br />
DQ1<br />
VSSQ<br />
DQ2<br />
DQ3<br />
VCCQ<br />
DQ4<br />
DQ5<br />
VSSQ<br />
DQ6<br />
DQ7<br />
DQML<br />
WE<br />
CAS<br />
RAS<br />
CS<br />
A11<br />
A10/AP<br />
A0<br />
A1<br />
A2<br />
A3<br />
VCC<br />
VSS<br />
A4<br />
A5<br />
A6<br />
A7<br />
A8<br />
A9<br />
NC<br />
CKE<br />
CLK<br />
DQMH<br />
NC<br />
VCCQ<br />
DQ8<br />
DQ9<br />
VSSQ<br />
DQ10<br />
DQ11<br />
VCCQ<br />
DQ12<br />
DQ13<br />
DQ14<br />
DQ15<br />
VSS<br />
BA0/A13<br />
BA1/A12<br />
VCCQ<br />
VSSQ<br />
VCC<br />
VSS<br />
R70<br />
10k<br />
CB43<br />
0.1uF<br />
U11<br />
EEPROM 24C02<br />
SOP8<br />
1<br />
2<br />
3<br />
4 5<br />
6<br />
7<br />
8<br />
NC<br />
NC<br />
NC<br />
GND<br />
SDA<br />
SCL<br />
WP<br />
VCC<br />
RN1<br />
33x4<br />
1 2<br />
3 4<br />
5 6<br />
7 8<br />
CB45<br />
0.1uF<br />
CB42<br />
0.1uF<br />
CB53<br />
0.1uF<br />
R67<br />
1k<br />
CB38<br />
0.1uF<br />
CB47<br />
0.1uF<br />
R68<br />
10k<br />
CB50<br />
0.1uF<br />
R62 33<br />
CB41<br />
0.1uF<br />
CB39<br />
0.1uF<br />
R65<br />
1k<br />
R60 33<br />
R64<br />
0/NC<br />
+<br />
CE26<br />
10uF/16v<br />
CB44<br />
0.1uF
5<br />
5<br />
4<br />
4<br />
3<br />
3<br />
2<br />
2<br />
1<br />
1<br />
D<br />
D<br />
C<br />
C<br />
B<br />
B<br />
A<br />
A<br />
IIC<br />
G<br />
VIDEO INTERFACE<br />
C<br />
2SK3018<br />
2N3904<br />
B<br />
FLASH<br />
AUDIO INTERFACE<br />
3<br />
3<br />
2SB1132<br />
1<br />
3<br />
2<br />
E<br />
C<br />
1<br />
2<br />
E<br />
MEMORY<br />
1<br />
D<br />
B<br />
S<br />
C<br />
RS-232<br />
use DIP decal<br />
MT1389E LQFP 216 3<br />
C<br />
4 5<br />
Saturday, December 09, 2006<br />
COMMON1389E_HD60<br />
MediaTek Confidential<br />
changqiao<br />
Tom Wang<br />
Title<br />
Size Document Number Rev<br />
Date: Sheet <strong>of</strong><br />
MediaTek (ShenZhen) Inc.<br />
Drawn:<br />
Checked:<br />
DMSO<br />
PCE#<br />
V1P4<br />
FOSO<br />
TRSO<br />
A<br />
WE#<br />
F+<br />
AD[0..7]<br />
SCL<br />
SP+<br />
SL-<br />
T+<br />
C<br />
RAS#<br />
ASPDIF<br />
PRD#<br />
PWR#<br />
D<br />
SL+<br />
DCLK<br />
DCKE<br />
FMSO<br />
T-<br />
SP-<br />
B<br />
IOA<br />
SDA<br />
AVCC1<br />
CAS#<br />
LDO1<br />
LDO2<br />
OP-<br />
D<br />
CS#<br />
BA[0..1]<br />
DQM[0..1]<br />
PWR#<br />
PCE#<br />
V20<br />
V1P4<br />
V1P4<br />
JITFO<br />
ADIN<br />
A5<br />
A11<br />
A19<br />
AD7<br />
V20<br />
LDO1<br />
B<br />
BA0<br />
DCLK<br />
MA11<br />
MA9<br />
MA5<br />
AD0<br />
TEZISLV<br />
CC<br />
ADIN<br />
A7<br />
DD<br />
BB<br />
WE#<br />
RAS#<br />
MA6<br />
PCE#<br />
VSCK<br />
RFVDD3<br />
AD6<br />
CS#<br />
A16<br />
A13<br />
A10<br />
FMO<br />
C<br />
OPO<br />
MA7<br />
MA4<br />
OP+<br />
F<br />
E<br />
AA<br />
MA3<br />
A6<br />
DMO<br />
V2P8<br />
DQ8<br />
BA1<br />
MA0<br />
DCKE<br />
PRD#<br />
AD3<br />
V2P8<br />
DQM1<br />
MA1<br />
A1<br />
AD1<br />
A12<br />
FOO<br />
CAS#<br />
MA10<br />
RFVDD3<br />
AD2<br />
AD5<br />
A14<br />
A9<br />
JITFN<br />
TRO<br />
PWR#<br />
A20<br />
OP-<br />
OPO<br />
OP+<br />
A4<br />
A8<br />
TROPEN<br />
LDO2<br />
A<br />
DACVDD3<br />
A2<br />
A0<br />
AD4<br />
A15<br />
RFV18<br />
MA2<br />
MA8<br />
A3<br />
V1P4<br />
PLLVDD3<br />
A17<br />
STBY<br />
RFO<br />
F-<br />
SDA<br />
MDI1<br />
SP-<br />
SL+<br />
SL-<br />
LIMIT<br />
SP+<br />
C<br />
D<br />
IOA<br />
RFO<br />
A<br />
B<br />
F<br />
V20<br />
AVCC1<br />
E<br />
LD-CD<br />
MDI1<br />
AVCC1<br />
LD-DVD<br />
V18<br />
VSDA<br />
SCL<br />
VSTB<br />
RXD<br />
TXD<br />
URST#<br />
IR<br />
DQ12<br />
DQ10<br />
DQ9<br />
DQ2<br />
DQ0<br />
DQ14<br />
DQ1<br />
DQ4<br />
DACVDD3<br />
FS<br />
VREF<br />
TRIN<br />
RFVDD3<br />
JITFO<br />
JITFN<br />
XO<br />
XI<br />
XTALI<br />
PLLVDD3<br />
APLLVDD3<br />
APLLVDD3<br />
ADACVDD3<br />
AL<br />
AR<br />
R<br />
VB<br />
G<br />
CVBS<br />
MUTE_DAC<br />
STBY<br />
MUTE_DAC<br />
CVBS<br />
R<br />
G<br />
VB<br />
AL<br />
AR<br />
DQ7<br />
DQM0<br />
DQ6<br />
DQ5<br />
ASPDIF<br />
DACVDD3<br />
ADACVDD3<br />
ADACVDD3<br />
ADVCM<br />
AADVDD3<br />
VSTB<br />
VSDA<br />
VSCK<br />
RFV18<br />
AADVDD3<br />
DV33<br />
TRCLOSE<br />
IOA<br />
FS0<br />
RGB_SWITCH<br />
URST#<br />
VCC<br />
IR<br />
DV33<br />
GND<br />
DQ3<br />
DQ11<br />
MA[0..11]<br />
DQ[0..15]<br />
DQ13<br />
DQ15<br />
TxD<br />
RxD<br />
V1P4<br />
FMO<br />
FOO<br />
V1P4<br />
V1P4<br />
DMO<br />
V1P4<br />
TRO<br />
FMSO<br />
DMSO<br />
FOSO<br />
TRSO<br />
TRIN<br />
LOAD+<br />
TROUT<br />
LOAD-<br />
MOVCC<br />
TROPEN<br />
LOAD+<br />
TROUT<br />
LIMIT<br />
V18<br />
A[0..20]<br />
A18<br />
RFVDD3<br />
DACVDD3<br />
VCC<br />
TRCLOSE<br />
LOAD-<br />
RFVDD3<br />
RFV33<br />
RFV33<br />
DV33<br />
GND<br />
GND<br />
XI<br />
XO<br />
FS1<br />
FS0<br />
RGB_SWITCH<br />
FS1<br />
SDA [3]<br />
PCE# [3]<br />
ASPDIF [4]<br />
SCL [3]<br />
PRD# [3]<br />
PWR# [3]<br />
WE# [3]<br />
CS# [3]<br />
RAS# [3]<br />
CAS# [3]<br />
DCKE [3]<br />
DCLK [3]<br />
AD[0..7] [3]<br />
PCE# [3]<br />
PWR# [3]<br />
BA[0..1] [3]<br />
DQM[0..1] [3]<br />
CVBS [4]<br />
R [4]<br />
G [4]<br />
VB [4]<br />
AL [5]<br />
AR [5]<br />
VSCK [1]<br />
VSTB [1]<br />
VSDA [1]<br />
MUTE_DAC [5]<br />
FS0 [4]<br />
RGB_SWITCH [4]<br />
URST# [1]<br />
VCC<br />
[1,4,5]<br />
IR [1]<br />
DV33 [1,3,5]<br />
GND [1,3,4,5]<br />
DQ[0..15] [3]<br />
MA[0..11] [3]<br />
A[0..20] [3]<br />
FS1 [4]<br />
AVCC1<br />
RFV33<br />
VCC<br />
VCC<br />
MO_VCC<br />
MO_VCC<br />
MO_VCC<br />
V18<br />
DV33<br />
DV33<br />
V18<br />
DV33<br />
RFV33<br />
V18<br />
DV33<br />
DV33<br />
V18<br />
DV33<br />
DV33<br />
ADACVDD3<br />
V18<br />
DV33<br />
VCC<br />
DV33<br />
DV33<br />
DV33<br />
DV33<br />
L37 FB<br />
C40<br />
330pF<br />
C9 0.1uF<br />
C15 0.47uF/N.C<br />
C37<br />
NC<br />
R33<br />
10k<br />
CB27<br />
0.1uF<br />
C32<br />
1uF<br />
R31<br />
100k<br />
R40 10<br />
+ CE22<br />
47uF/16v<br />
J2<br />
PH2.0-6AW<br />
6<br />
5<br />
4<br />
3<br />
2<br />
1<br />
J4<br />
PH2.0-5AW<br />
1<br />
2<br />
3<br />
4<br />
5<br />
CB31<br />
0.1uF<br />
C41<br />
0.1uF<br />
CB16<br />
0.1uF<br />
CB20<br />
0.1uF<br />
L31 FB<br />
C29<br />
1uF<br />
C30<br />
1uF<br />
C42<br />
0.015uF<br />
+<br />
CE36<br />
47uF/16v<br />
CB24<br />
0.1uF<br />
C17<br />
1000pF<br />
+ CE12<br />
10uF/16v<br />
DC4<br />
+<br />
C14<br />
10uF/16v<br />
R23 1<br />
TP4<br />
+<br />
CE21<br />
47uF/16v<br />
CB33<br />
0.1uF<br />
R26<br />
560<br />
R16<br />
150k<br />
CB19<br />
0.1uF<br />
CB15<br />
0.1uF<br />
C4<br />
2200pF<br />
CB10<br />
0.1uF<br />
TOP<br />
HA1<br />
HEADER 24 SMD0.5 TOP<br />
24<br />
23<br />
22<br />
21<br />
20<br />
19<br />
18<br />
17<br />
16<br />
15<br />
14<br />
13<br />
12<br />
11<br />
10<br />
9<br />
8<br />
7<br />
6<br />
5<br />
4<br />
3<br />
2<br />
1<br />
25 26<br />
R58<br />
10k<br />
+ CE16<br />
47uF/16v<br />
C13<br />
1500pF<br />
C27<br />
0.1uF<br />
R15<br />
150k<br />
Q1<br />
2N3904<br />
2<br />
1 3<br />
L10<br />
1.8uH<br />
C39<br />
330pF<br />
R83 1<br />
CB14<br />
0.1uF<br />
C36<br />
0.1uF<br />
R175<br />
33 Y1<br />
27MHz<br />
R4 100<br />
R20<br />
NC<br />
+<br />
CE19<br />
47uF/16v<br />
Q24<br />
8550<br />
R54<br />
10k<br />
Q9<br />
8050<br />
1<br />
2<br />
3<br />
+<br />
C12<br />
10uF/16v<br />
R47<br />
18k<br />
R43<br />
1<br />
C3<br />
390pF<br />
Q21<br />
8550<br />
C44<br />
150pF<br />
Q20<br />
8050<br />
1<br />
2<br />
3<br />
R52<br />
10k<br />
CB26<br />
0.1uF<br />
R38<br />
NC<br />
U4<br />
CD5954<br />
1<br />
9<br />
10<br />
12<br />
3<br />
2<br />
15<br />
7<br />
14<br />
13<br />
21<br />
19<br />
20<br />
24<br />
27<br />
6<br />
4<br />
5<br />
28<br />
8<br />
11<br />
17<br />
18<br />
16<br />
23<br />
22<br />
25<br />
26<br />
29<br />
30<br />
VINFC<br />
PVCC1<br />
PGND<br />
VOSL+<br />
CF2<br />
CF1<br />
VOTK+<br />
VNFFC<br />
VOFC+<br />
VOFC-<br />
PVCC2<br />
PGND<br />
VNFTK<br />
CTK2<br />
BIAS<br />
VOSL<br />
VINSL+<br />
VINSL-<br />
STBY<br />
VCC<br />
VOSL-<br />
VOLD+<br />
VOLD-<br />
VOTK-<br />
VINLD<br />
PREGND<br />
CTK1<br />
VINTK<br />
G1<br />
G2<br />
R7<br />
2K<br />
CB30<br />
0.1uF<br />
C5<br />
0.1uF/NC<br />
R53<br />
20k<br />
C33<br />
1uF<br />
C18<br />
33pF<br />
L11<br />
10uH<br />
0603<br />
R5 100<br />
C21<br />
6800pF<br />
C0603/SMD<br />
+ CE17<br />
47uF/16v<br />
R17<br />
680k<br />
R8<br />
2K<br />
R42<br />
1<br />
R55<br />
20k<br />
CB17<br />
0.1uF<br />
R176<br />
33<br />
+ CE13<br />
47uF/16v<br />
CB22<br />
0.1uF<br />
R32<br />
10k<br />
R11<br />
680k<br />
Q5<br />
8550<br />
2<br />
1<br />
3<br />
+ CE24<br />
47uF/16v<br />
R35<br />
100k<br />
+<br />
CE15<br />
47uF/16v<br />
CB18<br />
0.1uF<br />
CB34<br />
0.1uF<br />
C43<br />
150pF<br />
R18 15k<br />
+ CE34<br />
100uF/16v<br />
C108<br />
100NF<br />
C23 0.033uF<br />
CB13<br />
0.1uF<br />
CB23<br />
0.1uF<br />
R49<br />
10k<br />
CB28<br />
0.1uF<br />
L13<br />
FB<br />
R45<br />
1<br />
C34<br />
0.1uF<br />
CB36<br />
0.1uF<br />
R41 10<br />
C24 0.047uF<br />
C31<br />
1uF<br />
C19<br />
33pF<br />
R13 100k<br />
CB32<br />
0.1uF<br />
L30 10UH<br />
MT1389E<br />
Pin Assignment v1.4<br />
U3<br />
MT1389E<br />
LQFP216/SMD<br />
2<br />
210<br />
3<br />
4<br />
5<br />
1<br />
212<br />
213<br />
6<br />
7<br />
8<br />
9<br />
10<br />
11<br />
12<br />
13<br />
14<br />
15<br />
16<br />
17<br />
18<br />
19<br />
20<br />
21<br />
22<br />
23<br />
216<br />
28<br />
27<br />
30<br />
29<br />
32<br />
31<br />
43<br />
26<br />
25<br />
33<br />
34<br />
35<br />
36<br />
42<br />
41<br />
45<br />
39<br />
40<br />
46<br />
38<br />
37<br />
65<br />
64<br />
62<br />
61<br />
60<br />
59<br />
58<br />
52<br />
81<br />
77<br />
76<br />
55<br />
74<br />
73<br />
72<br />
71<br />
63<br />
83<br />
53<br />
54<br />
70<br />
57<br />
82<br />
75<br />
66<br />
68<br />
80<br />
69<br />
56<br />
67<br />
84<br />
85<br />
86<br />
87<br />
88<br />
89<br />
90<br />
91<br />
92<br />
93<br />
94<br />
95<br />
106<br />
96<br />
97<br />
204<br />
205<br />
98<br />
99<br />
100<br />
101<br />
102<br />
103<br />
104<br />
105<br />
107<br />
108<br />
162<br />
161<br />
160<br />
159<br />
158<br />
157<br />
156<br />
155<br />
154<br />
153<br />
152<br />
151<br />
150<br />
149<br />
148<br />
147<br />
146<br />
145<br />
144<br />
143<br />
142<br />
141<br />
140<br />
139<br />
137<br />
138<br />
136<br />
135<br />
134<br />
133<br />
132<br />
131<br />
130<br />
129<br />
128<br />
126<br />
127<br />
125<br />
124<br />
123<br />
122<br />
121<br />
120<br />
118<br />
119<br />
117<br />
116<br />
115<br />
114<br />
113<br />
111<br />
112<br />
110<br />
109<br />
209<br />
215<br />
24<br />
214<br />
191<br />
189<br />
198<br />
197<br />
208<br />
207<br />
196<br />
211<br />
206<br />
203<br />
201<br />
202<br />
200<br />
199<br />
194<br />
195<br />
192<br />
184<br />
185<br />
182<br />
181<br />
180<br />
179<br />
186<br />
178<br />
177<br />
175<br />
173<br />
174<br />
164<br />
171<br />
170<br />
169<br />
168<br />
172<br />
167<br />
166<br />
165<br />
163<br />
193<br />
44<br />
47<br />
48<br />
49<br />
50<br />
51<br />
78<br />
79<br />
176<br />
183<br />
188<br />
190<br />
187<br />
DVDA<br />
CRTPLP<br />
DVDB<br />
DVDC<br />
DVDD<br />
AGND<br />
OSP<br />
OSN<br />
DVDRFIP<br />
DVDRFIN<br />
MA<br />
MB<br />
MC<br />
MD<br />
SA<br />
SB<br />
SC<br />
SD<br />
CDFON<br />
CDFOP<br />
TNI<br />
TPI<br />
MDI1<br />
MDI2<br />
LDO2<br />
LDO1<br />
AVDD3<br />
V2REFO<br />
SGND<br />
VREFO<br />
V20<br />
TEO<br />
FEO<br />
FG/ADIN1<br />
RFLVL/RFON<br />
CSO/RFOP<br />
TEZISLV<br />
OP_OUT<br />
OP_INN<br />
OP_INP<br />
FOO<br />
TRO<br />
GPIO1/HSYNC#<br />
TROPENPWM<br />
PWMOUT1/ADIN0<br />
GPIO2<br />
FMO<br />
DMO<br />
HIGHA2<br />
HIGHA3<br />
HIGHA5<br />
HIGHA6<br />
DVDD3<br />
HIGHA7<br />
A16<br />
IOA6<br />
AD7<br />
AD5<br />
AD4<br />
IOA18<br />
DVSS<br />
AD2<br />
AD1<br />
AD0<br />
HIGHA4<br />
IOA0<br />
IOA7<br />
HIGHA0<br />
IOOE#<br />
IOWR#<br />
A17<br />
AD3<br />
HIGHA1<br />
IOCS#<br />
ALE<br />
IOA1<br />
IOA19<br />
IOA20<br />
DVDD18<br />
UWR#<br />
URD#<br />
DVDD3<br />
UP1_2<br />
UP1_3<br />
GPIO6<br />
UP1_4<br />
UP1_5<br />
UP1_6<br />
UP1_7<br />
UP3_0<br />
RD6<br />
UP3_1<br />
UP3_4<br />
ADCVDD3<br />
ADCVSS<br />
UP3_5<br />
GPIO7<br />
ICE<br />
PRST#<br />
IR<br />
INT0#<br />
DQM0#<br />
RD7<br />
RD5<br />
DVDD3<br />
FS<br />
VREF<br />
DACVDDC<br />
SPDIF<br />
MC_DATA<br />
ASDATA3<br />
ASDATA2<br />
ASDATA1<br />
ASDATA0<br />
ALRCK<br />
ACLK<br />
ABCK<br />
GPIO5<br />
DVSS<br />
GPIO4<br />
GPIO3<br />
DVDD18<br />
RA4<br />
RA5<br />
RA6<br />
RA7<br />
RA8<br />
RA9<br />
RA11<br />
DVDD3<br />
CKE<br />
RCLK<br />
RA3<br />
RA2<br />
RA1<br />
DVDD18<br />
RA0<br />
RA10<br />
BA1<br />
BA0<br />
RAS#<br />
RCS#<br />
CAS#<br />
RWE#<br />
DQM1<br />
RD8<br />
RD9<br />
DVSS<br />
RD11<br />
RD10<br />
RD12<br />
RD13<br />
RD14<br />
RD15<br />
RD0<br />
RD2<br />
RD1<br />
RD3<br />
RD4<br />
HRFZC<br />
IREF<br />
SVDD3<br />
RFGC<br />
RFGND18<br />
ADACVDD1<br />
IDACEXLP<br />
PLLVSS<br />
RFRPAC<br />
RFRPDC<br />
JITFN<br />
RFGND<br />
RFVDD3<br />
LPFOP<br />
LPFIP<br />
LPFIN<br />
LPFON<br />
PLLVDD3<br />
XTALI<br />
JITFO<br />
RFVDD18<br />
AR/SDATA1<br />
AVCM<br />
ARF(SW)<br />
ADACVSS2<br />
ADACVSS1<br />
APLLVSS<br />
AL/SDATA2<br />
APLLCAP<br />
APLLVDD<br />
AKIN1<br />
AKIN2<br />
ADVCM<br />
CVBS<br />
R/Cr/CVBS/SY<br />
B/Cb/SC<br />
DACVSSA<br />
G/Y/SY/CVBS<br />
AADVSS<br />
DACVDDA<br />
DACVSSB<br />
DACVDDB<br />
DACVSSC<br />
XTALO<br />
GPIO0/VSYNC#<br />
IOA2<br />
DVDD18<br />
IOA3<br />
IOA4<br />
IOA5<br />
AD6<br />
IOA21<br />
AADVDD<br />
ARS<br />
ALF(CTR)<br />
ADACVDD2<br />
ALS/SDATA0<br />
+<br />
C11<br />
10uF/16v<br />
R44<br />
1<br />
R46<br />
20k<br />
R48<br />
15k<br />
R24<br />
10k<br />
C26<br />
0.1uF<br />
+ CE18<br />
47uF/16v<br />
C16<br />
2200pF<br />
R19<br />
6.8<br />
R12 0<br />
Q2<br />
2SK3018<br />
2<br />
1<br />
3<br />
CB21<br />
0.1uF<br />
R14<br />
100k<br />
C38<br />
0.1uF<br />
C10<br />
20pF<br />
R10<br />
10<br />
C25 0.047uF<br />
C20 0.1uF<br />
CB11<br />
0.1uF<br />
C45<br />
0.1UF<br />
R9<br />
750k<br />
J3<br />
PH2.0-4AW<br />
4<br />
3<br />
2<br />
1<br />
C28<br />
6800pF<br />
C0603/SMD<br />
+ CE14<br />
10uF/16v<br />
C6<br />
0.1uF<br />
Q3<br />
2SK3018<br />
2<br />
1<br />
3<br />
CB25<br />
0.1uF<br />
CB12<br />
0.1uF<br />
R50<br />
10k<br />
C22 0.1uF<br />
Q4<br />
8550<br />
2<br />
1 3<br />
R51<br />
20k
5<br />
1<br />
4<br />
3<br />
2<br />
1<br />
COMMON1389E_HD60_V3<br />
MT1389E (LQFP216) DVD MP Board for SANYO HD60 PUH<br />
D<br />
1 INDEX & POWER, RESET<br />
2 MT1389E<br />
3 SDRAM & FLASH<br />
4 VIDEO OUT & AV-CON<br />
5 AUDIO OUT - WM8766<br />
D<br />
NAME TYPE<br />
DEVICE<br />
VCC Digital 5V<br />
SUPPLY<br />
DV33 Digital 3.3V MT1389E<br />
RFV33 Servo 3.3V<br />
MT1389E<br />
AV33 Laser Diode 3.3V<br />
V18 Digital 1.8V MT1389E<br />
SD33 Digital 3.3V SDRAM<br />
+12V Audio +12V<br />
OP AMP.<br />
-12V Audio -12V OP AMP.<br />
AVDD5 Audio 5V<br />
Audio DAC<br />
DVDD3 Audio 3.3V<br />
Audio DAC<br />
Rev<br />
History<br />
P# Date<br />
V1 Initial released. Modified from 3-SY1389DP1-V11<br />
2005.01.19<br />
V2 Add SCART and VGA output 2005.03.01<br />
V3<br />
Modify Video backend circuit.<br />
2005.03.09<br />
+12V<br />
+12V [4 5 ]<br />
C<br />
URST#<br />
IR<br />
URST# [ 2 ]<br />
IR [ 2 ]<br />
C<br />
DV33<br />
VCC<br />
GND<br />
DV33 [ 2,3,5]<br />
VCC<br />
[ 2,4,5 ]<br />
GND [ 2,3,4,5]<br />
CON1<br />
6<br />
5<br />
4<br />
3<br />
2<br />
1<br />
TJC3-6AW<br />
HEAD6-2.54/H<br />
P=2.54mm<br />
+5VCC<br />
+3.3VCC<br />
+12VCC<br />
+12VCC<br />
L35 FB<br />
CE5<br />
100uF/25v<br />
+<br />
+12V<br />
CB5<br />
0.1uF<br />
[2]<br />
[2]<br />
[2]<br />
VSCK<br />
VSDA<br />
VSTB<br />
VSCK<br />
VSDA<br />
VSTB<br />
B<br />
DV33<br />
VCC<br />
+5VCC<br />
L36 FB<br />
CE10<br />
100uF/16v<br />
+<br />
VCC<br />
CB8<br />
0.1uF<br />
3<br />
U10<br />
AZ-1117 3.3V/NC<br />
IN<br />
2<br />
GND OUT<br />
+3.3VCC<br />
+<br />
CE39<br />
100uF/16v/NC<br />
DV33<br />
RESET Circuit<br />
B<br />
R2<br />
R3<br />
R1<br />
R177<br />
10K<br />
10k<br />
10k<br />
10<br />
CON2<br />
6<br />
5<br />
4<br />
3<br />
2<br />
1<br />
IR<br />
IRVCC<br />
VSDA<br />
VSCK<br />
VSTB<br />
+3.3VCC<br />
DV33<br />
D3<br />
1N4148<br />
R6<br />
10k<br />
TJC3-6AW<br />
P=2.54mm<br />
C1<br />
10pF<br />
+ CE1<br />
10uF/16v<br />
L32<br />
FB<br />
+ CE2<br />
100uF/16v<br />
CB3<br />
0.1uF<br />
URST#<br />
+ CE9<br />
10uF/16v<br />
DC4<br />
L33<br />
D11<br />
D9<br />
V18<br />
FB<br />
+ CE37<br />
100uF/16v<br />
1N4007<br />
1N4007<br />
+ CE7<br />
100uF/16v<br />
CB7<br />
0.1uF<br />
A<br />
A<br />
FM1<br />
FM2<br />
MediaTek Confidential<br />
MediaTek (ShenZhen) Inc.<br />
Title<br />
COMMON1389E_HD60<br />
Size Document Number Drawn: changqiao Rev<br />
C<br />
3<br />
INDEX Checked: Tom Wang<br />
Date: Saturday, December 09, 2006<br />
Sheet 5 <strong>of</strong> 5<br />
5<br />
4<br />
3<br />
2<br />
1
2.3. AK57 Service Menu<br />
S-No OSD Tanım<br />
( Definition )<br />
Mümkün Ayarlar<br />
( Possible Settings )<br />
001 FAPS First APS ON = Aktif<br />
OFF = İn-Aktif<br />
Varsayılan Değer<br />
( Default )<br />
OFF<br />
002 ISPM I2C Modu<br />
( I2C Mode )<br />
003 INIT Yazılım ve donanım resetleme<br />
( Resetting s<strong>of</strong>tware and hardware )<br />
ON = Active<br />
OFF = In-active<br />
OFF<br />
ON = Resetleme aktif<br />
OFF = Resetleme in-aktif<br />
ON = Enable resetting<br />
OFF = Disable resetting<br />
OFF<br />
OFF<br />
Table 1 Init<br />
S-No OSD Tanım<br />
( Definition )<br />
004 AGCSPD IF AGC hızı<br />
( IF AGC speed )<br />
Mümkün Ayarlar<br />
( Possible Settings )<br />
0 = Yavaş<br />
1 = Standart<br />
2 = Hızlı<br />
3 = Hız seviyesi 2’ den daha<br />
yüksek<br />
Varsayılan Değer<br />
( Default )<br />
1<br />
0 = Slow<br />
1 = Standard<br />
2 = Fast<br />
3 = Fastest<br />
005 AGCTO AGC Take over 0..63 31<br />
Table 2 AGC <strong>Servis</strong> ayarları ( AGC Service settings )<br />
S-No OSD Tanım<br />
( Definition )<br />
006 COFF Cut – Off Ayarı<br />
Mümkün Ayarlar Varsayılan Değer<br />
( Possible Settings ) ( Default )<br />
0..63 32<br />
( Cut-Off setting )<br />
Table 3 VG2 Alignment <strong>Servis</strong> ayarları ( VG2 Alignment Service settings )
S-No OSD Tanım<br />
( Definition )<br />
007 VERT SLOP Dikey eğim (VSL), SBL biti yarı blank’e<br />
anahtarlanmalıdır.<br />
( Vertical slope (VSL), SBL bit should be<br />
keyed to half-blank.)<br />
008 SCORRECTION S-doğrulaması (SC)<br />
( S-correction (SC) )<br />
009 VERT SHIFT 4:3 Wide Screen için dikey kaydırma<br />
( 4:3 vertical shifting for Wide Screen )<br />
010 VERT AMP Dikey genlik (VA)<br />
( Vertical Amplitude (VA) )<br />
011 HOR SHIFT Yatay kaydırma<br />
( Horizontal shifting )<br />
012 VERT SHIFT16 16:9 Wide Screen için dikey kaydırma<br />
( 16:9 vertical shifting for Wide Screen )<br />
013 VERT AMP16 16:9 Dikey genlik<br />
( 16:9 Horizontal amplitude )<br />
014 RGB HSH 50 Hz’lik RGB modunda yatay kaydırma<br />
( In RGB mode with 50 Hz, horizontal<br />
shifting )<br />
015 RGB HSH60 60 Hz’lik RGB modunda yatay kaydırma<br />
( In RGB mode with 60 Hz, horizontal<br />
shifting )<br />
016 60HZ HSH 43 4:3 MODE 60 Hz yatay kaydırma<br />
( In 4:3 MODE with 60 Hz, horizontal<br />
shifting )<br />
017 60HZ VSH 43 4:3 MODE 60 Hz dikey kaydırma<br />
( In 4:3 MODE with 60 Hz, vertical<br />
shifting )<br />
018 60HZ VA 43 4:3 MODE 60 Hz dikey genlik<br />
( In 4:3 MODE with 60 Hz, vertical<br />
amplitude )<br />
019 60HZ VSH 169 16:9 MODE 60 Hz dikey kaydırma<br />
( In 16:9 MODE with 60 Hz, vertical<br />
shifting )<br />
020 60HZ VA 169 16:9 MODE 60 Hz Dikey genlik<br />
Mümkün Ayarlar Varsayılan Değer<br />
( Possible Settings ) ( Default )<br />
0..63 32<br />
0..63 32<br />
0..63 32<br />
0..63 32<br />
0..63 32<br />
0..63 32<br />
0..63 32<br />
0..63 37<br />
0..63 37<br />
0..63 31<br />
0..63 31<br />
0..63 31<br />
0..63 31<br />
0..63 31<br />
( In 16:9 MODE with 60 Hz, vertical<br />
amplitude )<br />
Table 4 Geometri <strong>Servis</strong> ayarları ( Geometry Service settings )
S-No OSD Tanım<br />
( Definition )<br />
021 QSS Qss amfi mode değiştirici<br />
( Switching the mode <strong>of</strong> the QSS amplifier )<br />
022 OIF IF-PLL’de DC <strong>of</strong>set doğrultması<br />
Mümkün Ayarlar<br />
( Possible Settings )<br />
ON = QSS Aktif<br />
OFF = QSS İn-aktif<br />
ON = QSS Active<br />
OFF = QSS In-Active<br />
0..63 29<br />
Varsayılan Değer<br />
( Default )<br />
ON<br />
( DC <strong>of</strong>fset correction at IF-PLL )<br />
023 IF PLL demodulatör frekansı<br />
( PLL demodulator frequency )<br />
024 OFR Frekans Girişi Aktivasyonu: Installation<br />
menüsündeki Tuning Mode olan Frekans modunu<br />
aktif veya pasif hale getirir.<br />
( Frequency Entry Activation: Frequency mode<br />
which is value Tuning Mode item on the<br />
Installation menu can be enabled or disabled by<br />
OFR. )<br />
025 FFI IF-PLL Hız filtresi<br />
( Fast filter IF-PLL )<br />
0 = 58.75 MHz<br />
1 = 45.75 MHz<br />
2 = 38.90 MHz<br />
3 = 38.00 MHz<br />
4 = 33.40 MHz<br />
5 = 42.00 MHz<br />
6 = 33.90 MHz<br />
7 = 48.00 MHz<br />
8 = EXTERNAL<br />
ON = Aktif<br />
OFF = İn-aktif<br />
ON = Active<br />
OFF = In-Active<br />
ON =Hızlı zaman<br />
sabiti<br />
OFF = Normal zaman<br />
sabiti<br />
2<br />
ON<br />
OFF<br />
026 BS1 (Gerekli ayarlamayı yapmak için ilgili Tuner<br />
dökümanına bakılmalıdır.)<br />
( Please look at the related Tuner specification for<br />
necessary adjustments. )<br />
027 BS2 (Gerekli ayarlamayı yapmak için ilgili Tuner<br />
dökümanına bakılmalıdır.)<br />
( Please look at the related Tuner specification for<br />
necessary adjustments. )<br />
028 BS3 (Gerekli ayarlamayı yapmak için ilgili Tuner<br />
dökümanına bakılmalıdır.)<br />
( Please look at the related Tuner specification for<br />
necessary adjustments. )<br />
029 CB (Gerekli ayarlamayı yapmak için ilgili Tuner<br />
dökümanına bakılmalıdır.)<br />
ON = Fast time<br />
constant<br />
OFF = Normal time<br />
constant<br />
0..15 1<br />
0..15 2<br />
0..15 4<br />
0..255 142<br />
( Please look at the related Tuner specification for<br />
necessary adjustments. )
S-No OSD Tanım<br />
( Definition )<br />
030 B1-H (Gerekli ayarlamayı yapmak için ilgili Tuner<br />
dökümanına bakılmalıdır.)<br />
( Please look at the related Tuner specification for<br />
necessary adjustments. )<br />
031 B1-L (Gerekli ayarlamayı yapmak için ilgili Tuner<br />
dökümanına bakılmalıdır.)<br />
( Please look at the related Tuner specification for<br />
necessary adjustments. )<br />
032 B2-H (Gerekli ayarlamayı yapmak için ilgili Tuner<br />
dökümanına bakılmalıdır.)<br />
( Please look at the related Tuner specification for<br />
necessary adjustments. )<br />
033 B2-L (Gerekli ayarlamayı yapmak için ilgili Tuner<br />
dökümanına bakılmalıdır.)<br />
Mümkün Ayarlar Varsayılan Değer<br />
( Possible Settings ) ( Default )<br />
0..255 12<br />
0..255 32<br />
0..255 30<br />
0..255 2<br />
( Please look at the related Tuner specification for<br />
necessary adjustments. )<br />
Table 5 Tuning <strong>Servis</strong> ayarları ( Tuning Service settings )<br />
S-No OSD Tanım<br />
( Definition )<br />
034 FRAV AV için Peaking merkezi frekansı<br />
( For AV, Peaking center frequency )<br />
035 YSCM SECAM için Y-delay ayarı<br />
( For SECAM, Y-delay setting )<br />
036 YNTS NTSC için Y-delay ayarı<br />
( For NTSC, Y-delay setting )<br />
037 YPAL PAL için Y-delay ayarı<br />
( For PAL, Y-delay setting )<br />
038 YAV1 AV-1 için Y-delay ayarı<br />
( For AV-1, Y-delay setting )<br />
039 YSVHS SVHS için Y-delay ayarı<br />
Mümkün Ayarlar Varsayılan Değer<br />
( Possible Settings ) ( Default )<br />
0 = 2.7 Mhz 1<br />
1 = 3.1 Mhz<br />
2 = 3.5 Mhz<br />
0..15 12<br />
0..15 2<br />
0..15 2<br />
0..15 4<br />
0..15 4<br />
( For S-VHS-2, Y-delay setting )<br />
Table 6 Video <strong>Servis</strong> ayarları ( Video Service settings )<br />
S-No OSD Tanım<br />
Mümkün Ayarlar Varsayılan Değer<br />
( Definition )<br />
( Possible Settings ) ( Default )<br />
040 WPRC Cold için White point Red 0..63 32
S-No OSD Tanım<br />
( Definition )<br />
( For Cold, White point Red )<br />
041 WPGC Cold için White point Green<br />
( For Cold, White point Green )<br />
042 WPBC Cold için White point Blue<br />
( For Cold, White point Blue )<br />
043 BLORB Black seviyesi <strong>of</strong>set Red – Blue<br />
( Black level <strong>of</strong>fset Red – Blue)<br />
044 BLOG Black seviyesi <strong>of</strong>set Green<br />
( Black level <strong>of</strong>fset Green )<br />
045 WPRN Normal için White point Red<br />
( For Normal, White point Red )<br />
046 WPGN Normal için White point Green<br />
( For Normal, White point Green )<br />
047 WPBN Normal için White point Blue<br />
( For Normal, White point Blue )<br />
048 BLRB-RGB RGB için Black seviyesi <strong>of</strong>set Red – Blue<br />
( For RGB, Black level <strong>of</strong>fset Red – Blue )<br />
049 BLG-RGB RGB için Black seviyesi <strong>of</strong>set Green<br />
( For RGB, Black level <strong>of</strong>fset Green )<br />
050 WPRW Warm için White point Red<br />
( For Warm, White point Red )<br />
051 WPGW Warm için White point Green<br />
( For Warm, White point Green )<br />
052 WPBW Warm için White point Blue<br />
( For Warm, White point Blue )<br />
053 BLRB-YUV YUV için Black seviyesi <strong>of</strong>set Red – Blue<br />
( For YUV, Black level <strong>of</strong>fset Red – Blue )<br />
054 BLG-YUV YUV için Black seviyesi <strong>of</strong>set Green<br />
( For YUV, Black level <strong>of</strong>fset Green )<br />
055 WPRW-RGB RGB için White point Red<br />
( For RGB, White point Red )<br />
056 WPGW-RGB RGB için White point Green<br />
( For RGB, White point Green )<br />
057 WPBW-RGB RGB için White point Blue<br />
Mümkün Ayarlar<br />
( Possible Settings )<br />
0..63 32<br />
0..63 31<br />
0..63 32<br />
0..63 32<br />
0..63 37<br />
0..63 32<br />
0..63 19<br />
0..63 32<br />
0..63 32<br />
0..63 49<br />
0..63 40<br />
0..63 25<br />
0..63 32<br />
0..63 32<br />
0..63 32<br />
0..63 40<br />
0..63 32<br />
Varsayılan Değer<br />
( Default )<br />
( For RGB, White point Blue )<br />
Table 7 White ton ayarları ( White tone adjustments )
S-No OSD Tanım<br />
( Definition )<br />
058 OSO Dikey overscan’de Switch-<strong>of</strong>f<br />
( Switch-<strong>of</strong>f at vertical overscan )<br />
059 FSL Dikey sync için Forced Slicing seviyesi<br />
( For vertical sync, Forced Slicing level )<br />
Mümkün Ayarlar<br />
( Possible Settings )<br />
ON = Aktif Switch-<strong>of</strong>f<br />
OFF = İn-aktif Switch-<strong>of</strong>f<br />
ON = Enable Switch-<strong>of</strong>f<br />
OFF = Disable Switch-<strong>of</strong>f<br />
ON = Sync genliği %60’ı<br />
sabit seviyede bulunan<br />
dikey slicing<br />
OFF = Otomatik dikey<br />
slicing seviyesi<br />
Varsayılan Değer<br />
( Default )<br />
ON<br />
OFF<br />
060 PN8-STB If option is ON <strong>TV</strong> can open from stanby<br />
when PIN8 is activated<br />
061 PWL Peak white sınırlayıcı<br />
ON = Vertical slicing level<br />
fixed to 60% <strong>of</strong> sync<br />
amplitude<br />
OFF = Automatic vertical<br />
slicing level<br />
OFF = feature is not OFF<br />
avaliable<br />
ON = feature is avaliable<br />
0..15 8<br />
( Peak white limiting )<br />
062 BPS Bypass chroma temel-band<br />
( Bypass chroma base-band )<br />
063 CLPL S<strong>of</strong>t kırpma seviyesi<br />
( S<strong>of</strong>t clipping level )<br />
ON = Bypass temel-band<br />
kroma gecikme çizgisi<br />
OFF = Temel-band<br />
kroma gecikme çizgisi<br />
aktif<br />
ON = Bypass baseband<br />
chroma delay line<br />
OFF = Baseband chroma<br />
delay line active<br />
0 = PWL‘in 0% üstünde<br />
1 = PWL’in 5% üstünde<br />
2 = PWL’in 10% üstünde<br />
3 = İn-aktif<br />
OFF<br />
0<br />
064 CL Katot drive seviyesi<br />
0 = 0% above PWL<br />
1 = 5% above PWL<br />
2 = 10% above PWL<br />
3 = Off<br />
0..15 10<br />
( Cathode drive level )<br />
065 ST-LMI Option for sleep timer last minute<br />
indicator<br />
ON = last minute<br />
indicator appears on <strong>TV</strong><br />
OFF = last minute<br />
indicator does not appear<br />
on <strong>TV</strong><br />
OFF
S-No OSD Tanım<br />
( Definition )<br />
Mümkün Ayarlar<br />
( Possible Settings )<br />
066 DNMENU Dynamic Menu Mode ON = Dynamic Menu<br />
Enable<br />
OFF = Dynamic Menu<br />
Disable<br />
Varsayılan Değer<br />
( Default )<br />
OFF<br />
067 UK-EU ID<strong>TV</strong> UK veya PAN-EU OFF = 0 UK<br />
(ID<strong>TV</strong> UK)<br />
OFF<br />
ON = 1 PAN-EU<br />
(ID<strong>TV</strong> PAN-EU)<br />
Table 8 Bit Kontrol <strong>Servis</strong> ayarları ( 8 Bit Control Service settings )<br />
S-No OSD Tanım<br />
( Definition )<br />
068 FAVI FAV<br />
( FAV )<br />
069 BAVI BAV<br />
( BAV )<br />
070 BSVI SVHS<br />
( SVHS )<br />
071 SSTDBG BG ses standardı<br />
( BG sound standard )<br />
072 SSTDI I ses standardı<br />
( I sound standard )<br />
073 SSTDDK DK ses standardı<br />
( DK sound standard )<br />
074 SSTDL L- L prime ses standardı<br />
( L- L prime sound standard )<br />
Mümkün Ayarlar<br />
( Possible Settings )<br />
ON = Aktif<br />
OFF = İn-aktif<br />
ON = Active<br />
OFF = In-active<br />
ON = Aktif<br />
OFF = İn-aktif<br />
ON = Active<br />
OFF = In-active<br />
ON = Aktif<br />
OFF = İn-aktif<br />
ON = Active<br />
OFF = In-active<br />
ON = Aktif<br />
OFF = İn-aktif<br />
ON = Active<br />
OFF = In-active<br />
ON = Aktif<br />
OFF = İn-aktif<br />
ON = Active<br />
OFF = In-active<br />
ON = Aktif<br />
OFF = İn-aktif<br />
ON = Active<br />
OFF = In-active<br />
ON = Aktif<br />
OFF = İn-aktif<br />
ON = Active<br />
Varsayılan Değer<br />
( Default )<br />
ON<br />
OFF<br />
OFF<br />
ON<br />
ON<br />
ON<br />
ON
S-No OSD Tanım<br />
( Definition )<br />
Mümkün Ayarlar<br />
( Possible Settings )<br />
OFF = In-active<br />
Table 9 Kaynak seçimi <strong>Servis</strong> seçenekleri ( Source Switching Service settings)<br />
Varsayılan Değer<br />
( Default )<br />
S-No OSD Tanım<br />
( Definition )<br />
075 TXHPOS Teletext tek sayfa başlangıç noktası ayarları<br />
( One page Teletext starting point setting )<br />
076 TXTBRI Teletext parlaklık ayarı<br />
( Teletext brightness setting )<br />
077 TXTCON Teletext contrast ayarı<br />
( Teletext contrast setting )<br />
078 LSEL1 Menü dili seçimi<br />
( Menu language setting )<br />
079 LSEL2 Menü dili seçimi<br />
Mümkün Ayarlar Varsayılan Değer<br />
( Possible Settings ) ( Default )<br />
0..20 10<br />
0..63 32<br />
0..15 0<br />
0..255 255<br />
0..255 255<br />
080 -------<br />
( Menu language setting )<br />
Table 10 Teletext <strong>Servis</strong> seçenekleri ( Teletext Service settings )<br />
S-No OSD Tanım<br />
( Definition )<br />
081 PWPRF Açılışta görüntü ve sesin gelmesine göre, fast<br />
startup ve perfect startup.<br />
( According to video and sound, when <strong>TV</strong><br />
opening, fast startup and perfect startup )<br />
082 PWRES STANDBY’dan açılır.<br />
( Opens from STANDBY. )<br />
Mümkün Ayarlar<br />
( Possible Settings )<br />
0..15<br />
0 = Fast<br />
15 = Perfect<br />
ON = Son duruma<br />
gore açılır<br />
OFF = STANDBY’dan<br />
açılır<br />
ON = Opens<br />
depending on the<br />
last state<br />
OFF = Opens from<br />
STANDBY<br />
Varsayılan Değer<br />
( Default )<br />
10<br />
ON<br />
Table 11 Güç <strong>Servis</strong> seçenekleri ( Power Service settings )<br />
S-No OSD Tanım<br />
( Definition )<br />
Mümkün Ayarlar<br />
( Possible Settings )<br />
Varsayılan Değer<br />
( Default )
083 MAXCOL Picture menüsündeki maksimum renk ayar<br />
sınırlayıcısı<br />
(Maximum color setting limiter at Picture menu )<br />
084 MAXBRI Picture menüsündeki maksimum parlaklık ayar<br />
sınırlayıcısı<br />
(Maximum brightness setting limiter at Picture<br />
menu )<br />
085 MINBRI Picture menüsndeki minimum parlaklık ayar<br />
sınırlaması<br />
(Minimum brightness setting limiter at Picture<br />
menu)<br />
086 MAXCON Picture menüsündeki maksimum contrast ayar<br />
sınırlayıcısı<br />
0..63 50<br />
0..63 57<br />
0..63 20<br />
0..63 50<br />
(Maximum contrast setting limiter at Picture<br />
menu )<br />
Table 12 Picture <strong>Servis</strong> seçenekleri ( Picture Service settings )<br />
S-No OSD Tanım<br />
( Definition )<br />
087 SAVEFS Fabrika <strong>Servis</strong> ayarlarını saklama<br />
( Saving Factory settings )<br />
088 LOADFS Fabrika <strong>Servis</strong> ayarlarını yükleme<br />
Mümkün Ayarlar<br />
( Possible Settings )<br />
OFF<br />
OFF<br />
Varsayılan Değer<br />
( Default )<br />
OFF<br />
OFF<br />
( Loading Factory setting )<br />
089 OAVL Ses menusunde AVL’i optional yapar<br />
0-63 32<br />
(AVL is optional in sound menu)<br />
OAVL = 0 (AVL is <strong>of</strong>f and AVL line is not<br />
avaliable in sound menu)<br />
OAVL = 1 (AVL line is avaliable in sound menu)<br />
OAVL = 2 (AVL is on and AVL line is not<br />
avaliable in sound menu)<br />
Other values <strong>of</strong> OAVL work like OAVL =1<br />
090 HTLSRC Selection for hotel mode search<br />
0-63 32<br />
HTLSRC = 0 (<strong>TV</strong>)<br />
HTLSRC = 1 (AV)<br />
HTLSRC = 2 (FAV)<br />
HTLSRC = 3 (SVHS)<br />
HTLSRC > 3 (HOTEL MODE NOT AVAILABLE)<br />
091 HMAXVOL Maximum volume for hotel mode 0-63 32<br />
092 HDEFVOL Volume level definition for hotel mode when tv<br />
is openning<br />
093 RPO Preover Shoot Ratio<br />
PSYS_RATIO_PRE_OVERSHOOT_MIN =0<br />
PSYS_RATIO_PRE_OVERSHOOT_MAX =3<br />
0-63 32<br />
0-3 32
094 PF Peaking Frequency<br />
PF1-PF0 = 0 (2.7 Mhz)<br />
1 (3.1 Mhz)<br />
2 (3.5 Mhz)<br />
3 (spare)<br />
095 APSSND Default value <strong>of</strong> sound standard in APS menu<br />
0-> BG<br />
1-> I<br />
2-> DK<br />
3-> L\L’<br />
096 SRCO Control DVD,ID<strong>TV</strong>, AV2 (Only AK58) sources<br />
0-> DVD, AV2 are OFF<br />
1-> DVD is ON. AV2 is OFF<br />
2-> AV2 is ON. DVD is OFF<br />
3-> DVD, AV2 are ON<br />
Table 13 Fabrika <strong>Servis</strong> ayarları ( Factory Service settings )<br />
0-3 2<br />
0-3 0<br />
0-7 0<br />
Geometri ayarları : Service menüsündeki 007-011 satırlar arasındaki 50Hz geometri ayarları yapıldıktan sonra, NTSC<br />
<strong>of</strong>fsetlerin belirlenmesi için 016-018 satırlar arasındaki NTSC 60Hz ayarları yapılır. NTSC ayarlarını her tüp çalıması için<br />
bir kez yapılması yeterlidir. Çünkü NTSC ayarları yapılırken, NTSC <strong>of</strong>fset değerleri hesaplanarak EEPROM da saklanır.<br />
16:9 Zoom modu ayarlarıda NTSC ayarları gibi yapılır ve 16:9 <strong>of</strong>fset değerleri hesaplanarak EEPROM’da saklanır. Daha<br />
sonra 50 Hz geometri ayarları değiştirildiğinde, 007-011 veya 016-018 satırlar arasında iken menü tusuna basılarak<br />
geometri ayarları kaydedildiğinde, otomatik olarak 16:9 modu, RGB horizontal shift ve NTSC geometri değerleri<br />
hesaplanır. RGB horizontal shift <strong>of</strong>fset değerleri koda gömülü haldedir. NTSC ve 16:9 modu <strong>of</strong>fset değeri EEPROM’da<br />
saklanmaktadır.<br />
Geometry Adjustment: After adjusting 50Hz geometry items (between 007-011). NTSC 60 Hz geometry items<br />
(between 016-018) should be adjusted to determine NTSC 60Hz <strong>of</strong>fset. NTSC <strong>of</strong>fset is automatically calculated and<br />
stored in NVM. Later on, if we need to change 50Hz geometry settings, NTSC 60Hz geometry settings is automatically<br />
calculated by using NTSC <strong>of</strong>fset. 16:9 mode geometry adjustment works like NTSC 60Hz geometry adjustment.<br />
If press to menu button between 007-011 or 016-018 items. New geometry setting is stored and, 16:9 mode, RGB<br />
shift and NTSC geometry automatically calculated. RGB shift <strong>of</strong>fset value is stored in s<strong>of</strong>tware. Only NTSC <strong>of</strong>fset and<br />
16:9 mode <strong>of</strong>fset values are stored in EEPROM.<br />
AGC ayarı : Tunere 60db yayın verildikten sonra AGCTO iteminin uzerine gelinip mavi tuşa basıldıgında AGC otomatik<br />
olarak ayarlanır.<br />
AGC adjustment: Connect to tuner 60db broadcast and, press to blue button on AGCTO item. AGC is automatically<br />
adjusted.<br />
Screen Ayarı: <strong>Servis</strong> menüsünde sarı tuşa basılarak, dikey tarama iptal edilir ve screen ayarının yapılabilmesi için ilgili<br />
registerlar güncellenir. Ekranda ince bir çizgi belirir. Daha sonar bu ince çizgi en ince hale gelene kadar screen<br />
potansiyometrisi ayarlanır. Tekrar sarı tuşa basıldığında eski ayarlar geri yüklenir.<br />
Screen Adjustment: When yellow button is pressed in service menu. Vertical scan is disabled and related registers<br />
are updated. Thin line will be appeared on the screen. Then the screen potentiometer is gently adjusted until the<br />
thin line will be lightly disappeared When press to yellow button again, old register values are reloaded and vertical<br />
scan is enabled.<br />
FOCUS Ayarı : <strong>TV</strong> de yayın verilir. . FOCUS potansiyometresi en uygun değerede ayarlanır.<br />
FOCUS Adjustment: <strong>TV</strong> is tuned to the signal. Then focus potantiometer (the upper pot on the rear side <strong>of</strong> the FBT<br />
transformer) is adjusted for optimum focusing drive.
2.4. TUNER SETTINGS<br />
VHF1-VHF3 VHF3-UHF AK56 SERVICE MENU ITEMS<br />
Frq. (Mhz) Frq. (Mhz) B1-H B1-L B2-H B2-L BS1 BS2 BS3 CB<br />
Philips UV1316S MK3 156,25 MHz 441,25 MHz 012 050 030 02 001 002 004 142<br />
LG TAEW-G002D 140,25 Mhz 431.25 Mhz 011 050 029 098 001 002 008 142<br />
Thomson CTT5020 114,25 MHz 401,25 MHz 009 146 027 130 003 006 133 142<br />
Samsung TECC2949PG28B 170,25 MHz 465,25 MHz 013 018 031 130 001 002 004 142<br />
Samsung TECC2949PG35B 170,25 MHz 449,25 MHz 013 018 030 130 001 002 008 142<br />
Alps TEDE9X226A 142,25 MHz 425,25 MHz 011 082 029 002 001 002 008 142<br />
Alps TEDE9-004A 149,25 MHz 424,25 MHz 011 194 028 242 001 002 008 142<br />
Samsung TECC2949PG40B 142,25 MHz 425,25 MHz 011 082 029 002 001 002 008 142<br />
Samsung TECC2949PS40B 142,25 MHz 425,25 MHz 011 082 029 002 001 002 008 142<br />
Explanations<br />
B1H High byte <strong>of</strong> VHF1-VHF3 cross-over frequency<br />
B1L Low byte <strong>of</strong> VHF1-VHF3 cross-over frequency<br />
B2H High byte <strong>of</strong> VHF3-UHF cross-over frequency<br />
B2L Low byte <strong>of</strong> VHF3-UHF cross-over frequency<br />
BS1 Band switching byte for VHF1<br />
BS2 Band switching byte for VHF3<br />
BS3 Band switching byte for UHF<br />
CB Control byte<br />
According to Reference Divider 62.5 Khz apply the following formula<br />
Value = ( Frequency (Mhz) * 1000 ) / ( 62.5 ) + 622 ;<br />
Binary_value ( 2 bytes ) = ToBinary( value );<br />
x can be 1 or 2<br />
Bx-H = MSByte( Binary_value ); ( most significant byte )<br />
Bx-L = LSByte( Binary_value ); ( least significant byte )
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