Meridian 2

Transcript

21.5 inch FHD TFT LCD Colour Monitor(TV) 221TE2LB/00 221TE2LB/01 Chassis: MERIDIAN 2 Horizontal frequencies 30 - 8 3 kHz TABLE OF CONTENTS Description Page Description Page Important Safety Notice--------------------------------------2 Technical Data--------------------------------------------- 3~4 Installation--------------------------------------------------5~10 Failure Mode Of Panel - -----------------------------------42 Wiring Diagram----------------------------------------------43 Block Diagram------------------------------------------------44 Troubleshooting------------------------------------------11~12 On Screen Display---------------------------------------13~14 Lock/unlock, Aging,Factory mode------------------------15 Philips Pixel Defect Policy ---------------------------------16 Mechanical Instructions ------------------------------17~21 Color adjustment --------------------------------------------22 F AQs (Frequently Asked Questions)--------------23~24 Electrical instruction ----------------------------------25~26 Service Tool-----------------------------------------------27~28 DDC Instructions & Serial Number -----------------29~35 DDC DATA -----------------------------------------------36~37 Firmware Upgrade for CPU- ------------------------38~41 Scaler Diagram & C.B.A. ------------------------------45~53 Power Diagram & C.B.A. -----------------------------54~57 LED Driver Diagram & C.B.A. -------------------------58~59 Control Diagram & C.B.A. -----------------------------60~61 SAFETY IR Diagram & C.B.A. ------------------------------------62~63 General product specification---------------------64~108 Exploded V iew ---------------------------------------------109 Spare/ Recommended P arts List-----------------------110 PCBA photos--------------------------------------------------111 Repair tips----------------------------------------------112~113 Repair Flow chart-------------------------------------114~118 Safety Test Requirments-----------------------------------119 NOTICE ANY PERSON ATTEMPTING TO SERVICE THIS CHASSIS MUST FAMILIARIZE HIMSELF WITH THE CHASSIS AND BE AWARE OF THE NECESSARY SAFETY PRECAUTIONS TO BE USED WHEN SERVICING ELECTRONIC EQUIPMENT CONTAINING HIGH VOL TAGES. CAUTION: USE A SEPARATE ISOLATION TRANSFORMER FOR THIS UNIT WHEN SERVICING. REFER TO BACK COVER FOR IMPORTANT SAFETY GUIDELINES Published by Philips Consumer Lifestyle Copyright reserved Subject to modification JDec 09 2010 GB 2 221TE2L LCD Important Safety Notice Proper service and repair is important to the safe, reliable operation of all Philips Consumer Electronics Company equipment. The service procedures recommended by Philips and FOR PRODUCTS CONTAINING LASER : DANGER - described in this service manual a re eff ective methods of performing service operations . Some of these service AVOID DIRECT EXPOSURE TO BEAM. CAUTION - operations require the us e of tools speciall y desi gned for the Use of controls or adjustments or performance of procedures other than purpose. The special tools should be used when and as those specified herein may result in recomm ended. hazardous radiation exposure. It is im portant to note that this m anual c ontains various CAUTI ONS and NOTICES which should becarefully read in Invisible laser radiation when open. CAUTION - The use of optical instruments with this product will increase eye hazard. order to m inimize the risk of personal injury to service personnel . The possibility exists that improper service methods may damage the equipment. It is also important to underst and that these CAUTIONS and NOTICES ARE NOT EXHAU STIVE. Philips could not possibly know, evaluate and advise the servic etrade of all conceivable ways i n which TO ENSURE THE CONTINUED RELIABILITY OF THIS service might be done or of the possible hazardous PRODUCT , USE ONLY ORIGINAL MANUFACTURER'S consequences of each way. Consequently, Philips has not REPLACEMENT PAR TS, WHICH ARE LISTED WITH THEIR PART undertaken any such broad evaluation. Accordingly, NUMBERS IN THE PARTS LIST SECTION OF THIS who uses a servi ce procedure or tool which is not SERVICE MANUAL. recommended by Philips must first satisfy himself thoroughly that neither his safety nor the safe operation of the equipment will be jeopardized by the service method selected. * * Hereafter throughout this manual, Philips Consumer Electronics Company will be referred to as Philips . * * Take care during handling the LCD module with backlight unit - Must mount the module using mounting holes arranged in four WARNING corners. - Do not press on the panel, edge of the frame strongly or electric Critical components having special safety characteristics are identified with a by the Ref. No. in the parts list and enclosed within a broken line shock as this will result in damage to the screen. - Do not scratch or press on the panel with any sharp objects, such as pencil or pen as this may result in damage to the panel. (where several critical components are grouped in one area) along with the safety symbol on the schematics or exploded views. - Protect the module from the ESD as it may damage the electronic circuit (C -MOS). Use of substitute replacement parts which do not have the - Make certain that treatment body are grounded through same speci fied safety characteristic s may create shock, fire, wrist band. or other hazards . - Do not leave the module in high temperature and in areas of high Under no circumstances should the original design be humidity for a long time. modified or altered without written permission from Philips. Philips assumes no liability, express or implied, arising out of - Avoid contact with water as it may as hort circuit within the module. - If the surface of panel become dirty, please wipe it off with a soft any unauthorized modification of design. Servicer assumes all liability. material. (Cleaning with a dirty or rough cloth may damage the panel.) 221TE2L LCD Technical Data D-SUB AUO Type NR. Resolution Outside dimensions Pitch (mm) Color pixel arrangement PIN No. 1 2 3 4 5 6 7 8 : AUO M215HW01 V7 : 1920x1080 : 495.6(H) x 292.2(V) x 11(D) Typ : 0.24825mm x 0.24825mm : 1920 horiz. By 1080 vert : Hard coating (3H), Anti-glare treatment : 16.7M (6 bit with Hi-FRC) : 2 CCFL : 476.64(H) × 268.11(V) mm : >=170 for Right/Left (Typ) : >=160 for Up/Down (Typ) : >=1000:1 (Typ) : 250 (center,Typ) : >=72% : Raydium / Novatek : Raydium / Novatek : 5 ms (Typ) Display surface Color depth Backlight Active area (W x H) View angle (CR=10) Contrast ratio White luminance Color gamut Gate IC Source IC Response time Vertical frequency range SIGNAL PIN No. Red 9 Green/ SOG 10 Blue 11 Sense (GND) 12 Cable Detect (GND) 13 Red GND 14 Green GND 15 Blue GND ʳ SIGNAL DDC +3.3V or +5V Logic GND Sense (GND) Bi-directional data H/H+V sync V-sync Data clock ʳ Description PIN No. TMDS Data2+ 11 TMDS Data2 Shield 12 TMDS Data213 TMDS Data1+ 14 TMDS Data1 Shield 15 TMDS Data116 TMDS Data0+ 17 TMDS Data0 Shield 18 TMDS Data019 MDS Clock+ SIGNAL TMDS Clock Shield TMDS ClockCEC NC SCL SDA DDC/CEC Ground +5V Power Hot Plug Detect HDMI PIN No. 1 2 3 4 5 6 7 8 9 10 : 50/60 Hz r 3 Hz Full SCART PIN No. 1 2 3 4 5 Scanning frequencies Hor.: 30 – 83 K Hz Ver.: 56 - 76 Hz Video dot rate: D-sub < 165 MHz ; DVI < 165 MH) Description Audio output right Audio input right Audio output left GND(audio) GND(blue) PIN No. 12 13 14 15 16 Power input: 90-264 V AC, 50/60 r 3 Hz 6 Audio input left - 17 Power consumption: Normal on: < 40 W (max) 7 Blue input 18 8 9 Switch signal input (Fast Blanking) GND(green) 10 11 N.C Green input Functions: (1) D-SUB analog R/G/B separate inputs, H/V sync separated, Composite (H+V) TTL level, SOG sync. (2) DVI digital Panel Link TMDS inputs. 19 20 21 SIGNAL N.C GND(red) GND(blanking) Red input RGB switching control GND(video input & output) GND(RGB switching control) Video output(composite) Video input(composite) Common ground 0 qC - 40 qC Ambient temperature: Power input connection Power cord length : 1.8 M Power cord type : 3 leads power cord with protective earth plug. Susceptibility of display to external environment Operating Power management - Temperature : 0 to 35 degree C The monitor must comply with the Microsoft On Now specification, and meet EPA requirements. - Humidity - Altitude - Air pressure : 80% max : 0-3658m : 600-1100 mBAR Mode HSYN VSYN Video Pwr-con Indicatio Rec C C s. n . tim e Power-O n On Power Saving Off On Off active blanke d <40W (max.) < 0.5W White LED -- ʳ ʳ N/A < 0.5 W - Temperature - Humidity - Altitude - Air pressure : -20 to 60 degree C : 95% max : 0-12192m : 300-1100 mBAR Note: recommend at 5 to 35qC, Humidity less than 60 % Blinking White LED <3s Period: 3sec On, 3sec Off DC Power Off Storage LED Off ʳ 3 4 221TE2L LCD Technical Data D-SUB CPT Type NR. Resolution Outside dimensions Pitch (mm) Color pixel arrangement : CPT CLAA215FA 03S : 1920x1080 : 495.6(H) x 292.2(V) x 11.4(D) Typ : 0.24825mm x 0.24825mm : 1920 horiz. By 1080 vert : Hard coating (3H), Anti-glare treatment : 16.7M (8 bit with A-FRC) : 2 CCFL : 476(H) × 230.4(V) mm : >=170 for Right/Left (Typ) : >=160 for Up/Down (Typ) : >=1000:1 (Typ) : 250 (center,Typ) : >=72% : Raydium / Novatek : Raydium / Novatek : 5 ms (Typ) Display surface Color depth Backlight Active area (W x H) View angle (CR=10) Contrast ratio White luminance Color gamut Gate IC Source IC Response time Vertical frequency range PIN No. 1 2 3 4 5 6 7 8 SIGNAL PIN No. Red 9 Green/ SOG 10 Blue 11 Sense (GND) 12 Cable Detect (GND) 13 Red GND 14 Green GND 15 Blue GND ʳ SIGNAL DDC +3.3V or +5V Logic GND Sense (GND) Bi-directional data H/H+V sync V-sync Data clock ʳ Description PIN No. TMDS Data2+ 11 TMDS Data2 Shield 12 TMDS Data213 TMDS Data1+ 14 TMDS Data1 Shield 15 TMDS Data116 TMDS Data0+ 17 TMDS Data0 Shield 18 TMDS Data019 MDS Clock+ SIGNAL TMDS Clock Shield TMDS ClockCEC NC SCL SDA DDC/CEC Ground +5V Power Hot Plug Detect HDMI PIN No. 1 2 3 4 5 6 7 8 9 10 : 56~76Hz Full SCART PIN No. 1 2 3 4 5 Scanning frequencies Hor.: 30 – 83 K Hz Ver.: 56 - 76 Hz Video dot rate: D-sub < 165 MHz ; DVI < 165 MH) Description Audio output right Audio input right Audio output left GND(audio) GND(blue) PIN No. 12 13 14 15 16 Power input: 90-264 V AC, 50/60 r 3 Hz 6 Audio input left - 17 Power consumption: Normal on: < 40 W (max) 7 Blue input 18 8 9 Switch signal input (Fast Blanking) GND(green) 10 11 N.C Green input Functions: (1) D-SUB analog R/G/B separate inputs, H/V sync separated, Composite (H+V) TTL level, SOG sync. (2) DVI digital Panel Link TMDS inputs. 19 20 21 SIGNAL N.C GND(red) GND(blanking) Red input RGB switching control GND(video input & output) GND(RGB switching control) Video output(composite) Video input(composite) Common ground 0 qC - 40 qC Ambient temperature: Power input connection Power cord length : 1.8 M Power cord type : 3 leads power cord with protective earth plug. Susceptibility of display to external environment Operating Power management - Temperature : 0 to 35 degree C The monitor must comply with the Microsoft On Now specification, and meet EPA requirements. - Humidity - Altitude - Air pressure : 80% max : 0-3658m : 600-1100 mBAR Mode HSYN VSYN Video Pwr-con Indicatio Rec C C s. n . tim e Power-O n On Power Saving Off On Off active blanke d <40W (max.) < 0.5W White LED -- ʳ ʳ N/A < 0.5 W - Temperature - Humidity - Altitude - Air pressure : -20 to 60 degree C : 95% max : 0-12192m : 300-1100 mBAR Note: recommend at 5 to 35qC, Humidity less than 60 % Blinking White LED <3s Period: 3sec On, 3sec Off DC Power Off Storage LED Off ʳ 221TE2L LCD Installation Front View Product Description Rear View ʳ 5 6 221TE2L LCD Installation 221TE2L LCD Installation 7 8 221TE2L LCD Installation 221TE2L LCD Installation 9 10 221TE2L LCD Installation 221TE2L LCD Troubleshootingʳ 11 12 221TE2L LCD Troubleshooting 221TE2L LCD 13 On-Screen Display Description of the On Screen Displayʳ What is the On-Screen Display?ʳ On-Screen Display (OSD) is a feature in all Philips LCD monitors. It allows an end user to adjust screen performance or select functions of the monitors directly through an on-screen instruction window. A user friendly on screen display interface is shown as below :ʳ 14 221TE2L LCD On-Screen Display Supported display resolutionsʳ ʳ 221TE2L LCD /RFN8QORFN$JLQJ)DFWRU\0RGH To lock/unlock OSD FUNCTION(User Mode) The OSD function can be locked by pressing"OK"button(1) for more than 10 seconds, the screen shows following windows for 4 seconds. Every time when you press"OK" button, this message appears on the screen automatically . Step 2 : By pressing " UP" and " DOWN " key to Burning Icon. Press "MENU then press " UP" and "DOWN " key to turn on Aging Mode. Unlock OSD function Unlocked OSD function can be released by pressing "OK" button for more than 10 seconds again. $FFHVV)DFWRU\0RGH 1). Turn off monitor. 2).[Push "EXIT" & "MENU" buttons at the same time and hold them]+[Press "power" button until comes out "Windows screen" ]=> then release all buttons 3).Press "MENU" button, wait until the OSD menu with Characters "MERIDIAN 221TE2L V0.01.06” (below OSD menu) come on the Screen of the monitor. Step 3 : Disconnect interface cable between Monitor and PC. After 3 seconds, bring up: Factory Mode indicator Factory Menu Cursor can move on gray color area Hot key function: by pressing " UP " and " DOWN " key Simultaneously at User Mode (or Factory Mode) (PS: The Of fset R G B function can be used on reduce or eliminate snowy noise on the background when the resolution of video signal is 1680*1050vertical 60Hz. Slightly increase or decrease the value until snowy noise completely disappear . $FFHVV$JLQJ0RGH Step 1 : Access Factory Mode then enter Factory Menu. repeatly Connect Signal cable again=> go back to normal display 15 16 221TE2L LCD Philips Pixel Defect Policyʳ Philips' Flat Panel Monitors Pixel Defect Policyʳ Philips strives to deliver the highest quality products. We use some of the industry's most advanced manufacturing processes and practice stringent quality control. However, pixel or sub pixel defects on the TFT LCD panels used in flat panel monitors are sometimes unavoidable. No manufacturer can guarantee that all panels will be free from pixel defects, but Philips guarantees that any monitor with an unacceptable number of defects will be repaired or replaced under warranty. This notice explains the different types of pixel defects and defines acceptable defect levels for each type. In order to qualify for repair or replacement under warranty, the number of pixel defects on a TFT LCD panel must exceed these acceptable levels. For example, no more than 0.0004% of the sub pixels on a 19" XGA monitor may be defective. Furthermore, Philips sets even higher quality standards for certain types or combinations of pixel defects that are more noticeable than others. This policy is valid worldwide. Black Dot Defects Black dot defects appear as pixels or sub pixels that are always dark or 'off'. That is, a dark dot is a sub-pixel that stands out on the screen when the monitor displays a light pattern. These are the types of black dot defects:ʳ ʳ One dark sub pixelʳ Two or three adjacent dark sub pixelsʳ Proximity of Pixel Defects ʳ Because pixel and sub pixels defects of the same type that are near to one another may be more noticeable, Philips also specifies tolerances for the proximity of pixel defects. Pixel Defect Tolerancesʳ Pixels and Sub pixels A pixel, or picture element, is composed of three sub pixels in the primary colors of red, green and blue. Many pixels together form an image. When all sub pixels of a pixel are lit, the three colored sub pixels together appear as a single white pixel. When all are dark, the three colored sub pixels together appear as a single black pixel. Other combinations of lit and dark sub pixels appear as single pixels of other colors. In order to qualify for repair or replacement due to pixel defects during the warranty period, a TFT LCD panel in a Philips flat panel monitor must have pixel or sub pixel defects exceeding the tolerances listed in the following tables.ʳ BRIGHT DOT DEFECTSʳ MODELʳ ʳTypes of Pixel Defects ʳ Pixel and sub pixel defects appear on the screen in different ways. There are two categories of pixel defects and several types of sub pixel defects within each category. ʳ Bright Dot Defects Bright dot defects appear as pixels or sub pixels that are always lit or 'on'. That is, a bright dot is a sub-pixel that stands out on the screen when the monitor displays a dark pattern. There are the types of bright dot defects:ʳ 3ʳ 2 adjacent lit subpixelsʳ 1ʳ 3 adjacent lit subpixels (one white pixel)ʳ 0ʳ Distance between two bright dot defects*ʳ >15mmʳ Total bright dot defects of all typesʳ 3ʳ ACCEPTABLE LEVEL ʳ MODELʳ 221TE2Lʳ 1 dark subpixelʳ 5 or fewerʳ Two adjacent lit sub 2 adjacent dark subpixelsʳ 2 or fewerʳ pixels: 3 adjacent dark subpixelsʳ 0 ʳ ʳ ʳ - Red + Blue = Three adjacent lit sub Purple pixels (one white blue sub pixelʳ 221TE2Lʳ 1 lit subpixelʳ BLACK DOT DEFECTSʳ One lit red, green or ACCEPTABLE LEVEL ʳ Distance between two black dot defects*ʳ Total black dot defects of all typesʳ >15mmʳ 5 or fewerʳ - Red + Green = pixel)ʳ Yellow ACCEPTABLE LEVEL ʳ - Green + Blue = TOTAL DOT DEFECTSʳ Cyan (Light Blue)! MODELʳ 221TE2Lʳ Total bright or black dot defects of all typesʳ 5 or fewerʳ A red or blue bright dot must be more than 50 percent brighter than neighboring dots while a green bright dot is 30 percent ʳ brighter than neighboring dots.ʳ Note: * 1 or 2 adjacent sub pixel defects = 1 dot defect 221TE2L LCD 17 Mechanical Instruction Preparation before disassemble 1.Clean the room for disassemble 2.Identify the area for monitor 3.Check the position that the monitors be placed and the quantity of the monitor ;prepare the area for material flow; according to the actual condition plan the disassemble layout 4.Prepare the implement, equipments, materials as bellow: 1) Press-fixture 2) working table 3) Screw-driver 4) knife*1 5) glove 6) cleaning cloth 7) ESD protection ite m picture Operation Tool Notes Disassemble the base 1 2 Disassemble screws by Screw-driver a screw-driver 3 disassembly the bezel When disassembly from the monitor, notice the bezel ,notice don’t the disassembly order : bend the C/B .man 1. Top parts of bezel must wear glove 2. Left parts of bezel The purpose is loose 3. Bottom parts of bezel the BZL 4. Right parts of RC Don’t draw the BZL 18 221TE2L LCD Mechanical Instruction 4 Disassemble the CVR RC 5 Tear off the LVDS cable Please carefully use from the Panel two hands (one hand And the PCBA connect presses the locking-latch of LVDS cable’s housing, and at the same time another hand pulls out the LVDS cable.) for this step to avoid from deforming the terminals of positive-locking type LVDS cable. 6 7 MA CPT Tear off the light cable Disassemble the gasket 221TE2L LCD Mechanical Instruction 8 Disassemble the two adhesive tape and tear off the bugle cable 9 Disassemble screws then Take the Main-BKT out of the Panel 10 Tear down control cable and bugle cable from the Panel , then take the Panel out from the BZL 11 Disassemble the bugle Screw-driver Æ 4 screws 12 Disassemble the C/B Æ 1 screws Screw-driver 19 20 221TE2L LCD Mechanical Instruction 13 Tear off the Mylar from the C/B , then Disassemble Lens 14 Disassemble the PCBA Screw-driver board Æ 12 screw 15 Take the PCBA from Main-BKT and then put it on the cushion 16 Disassemble the driver Screw-driver board Æ 1 screw 17 Disassemble the column Æ 1 screw Screw-driver 221TE2L LCD Mechanical Instruction 18 Disassemble the hingeÆ 1 screw Screw-driver 21 22 221TE2L LCD Color Adjustment Alignment procedure 1. Turn on the LCD monitor 2. Turn on the Timing/pattern generator. See Fig.1 3. Preset LCD color Analyzer CA-1 10 -Remove the lens protective cover of probe CA-A30. -Set measuring/viewing selector to measuring position for reset analyzer .(zero calibration) as Fig.2 - Turn on the color analyzer (CA-1 10) -Press 0-CAL button to starting reset analyzer .                       )LJ Fig. 1 Fig.2 4. Access Factory Mode 1). Turn off monitor. 2). [Push "AUT O" & "MENU" buttons at the same time and hold them] +[Press "power" button untill comes out "Windows screen" ] => then release all buttons 3).Press "MENU button, wait until the OSD menu with Characters " MERIDIAN 221TE2L V0.01.16” (below OSD menu) come on the Screen of the monitor as shown in Fig3. Fig.5 5.Display Press "UP" or "DOWN" button to select . Change the value by "UP" or "DOWN" key until the X, Y co-ordinates as below 5.1 Color temperature adjustment There are six factory preset white color 11500K, 9300K, 8200K, 7500K, 6500K, sRGB, 5000K Align by Philips PerfecTune (also called FGA) function. Apply full white pattern, with brightness in 100 % position and the contrast control at 50 % position. The 1931 CIE Chromaticity (color triangle) diagram (x , y) coordinate for the screen center should be: YPBPR:Timing 720P pattern color bar 100и VGA: Timing 800*600 60Hz pattern gray scale H-32step Factory Mode indicator                  )LJ 4). Press button, then select factory mode indicator by "MENU" "LEFT" or "RIGHT" button .Press"MENU" button to bring up submenu windows as below: DTV(MMD) Smart picture Color temp personal warm vivid warm standard normal cineme cool game warm energy saving normal nature cool custom warm ʳ Warm Normal Cool CCT 6500º K 8000º K 9300º K X 0.313 ± .02 0.296 ± .02 0.283 ± .02 Y 0.329 ± .02 0.299 ± .02 0.297 ± .02 221TE2L LCD FAQs (Frequently Asked Questions) 23 24 221TE2L LCD FAQs (Frequently Asked Questions) 221TE2L LCD 25 Electrical Instructions Electrical characteristics 1. VIDEO SIGNAL REQUIREMENTS 1.1 CVBS input -1000mVpp (including 300 mV sync level), terminated with input impedance of 75:. 1.2 S-Video input - Y: 1000mVpp, C: 300mVpp, terminated with input impedance of 75:. 1.3 Component video input - Y: 1000mVpp, PbPr: ±350mVpp, terminated with input impedance of 75:. 480i/p, 576i/p, 720p, 1080i, 1080p signal handling capability. HD ready logo required. (Must Have) 1.4 HD ready Display engine:The minimum native resolution of the display (e.g. LCD, PDP) or display engine (e.g. DLP) is 720 physical lines in wide aspect ratio. Video Interfaces: The display device accepts HD input via: Analog YPbPr. “HD ready” displays support analog YPbPr as a HD input format to allow full compatibility with today's HD video sources in the market. Support of the YPbPr signal should be through common industry standard connectors directly on the HD ready display or through an adaptor easily accessible to the consumer; and: DVI or HDMI HD capable inputs accept the following HD video formats: 1280x720 @ 50 and 60Hz progressive scan (“720p”) 1920x1080 @ 50 and 60Hz interlaced (“1080i”) The DVI or HDMI input supports copy protection (HDCP). 1.5 SCART - Full SCART, includes CVBS in/out, RGB/Sync, audio L/R in/out. Pin 8, the function-switching pin, carries a signal from the source that indicates the type of video present, 0V means no signal, or internal bypass +6V means a widescreen (16:9) signal +12V means a normal (4:3) signal 1.6 HDMI input - Compliance with HDMI Specification 1.3a. 480i/p, 576i/p, 720p, 1080i/p signal handling capability. TMDS channel: Carries audio, video and auxiliary data. Signaling method: According to HDMI Ver.1.3a specification. (Type A HDMI). Video pixel rate: 25 MHz to 165 MHz (Type A) Pixel encodings: RGB 4:4:4, YCbCr 4:2:2, YCbCr 4:4:4. Audio sample rates: 32 kHz, 44.1 kHz, 48 kHz, Audio channels: up to 2 DDC channel: Allows source to interrogate capabilities of sink. I²C signaling with 100 kHz clock. E-EDID data structure according to EIA/CEA-861B and VESA Enhanced EDID. Content protection: According to High-Definition Content Protection (HDCP) Specification 1.10. 1.7 Common Interface - Complies with version 1: EN50221 ETSI TS 101 699, V1.1.1 (1999-11) and [R206-001F] (DTV only) 1.8 No signal input - While no signal at external inputs, screen goes black (blue) before entering standby mode. 2. Timing requirement 26 221TE2L LCD Electrical Instructions White color adjustment There are three factory preset white color 9300K, 6500K, sRGB. Apply full gray64 pattern, with brightness in 100 % position and the contrast control at 50 % position.The 1931 CIE Chromaticity (color triangle) diagram (x ,y) coordinate for the screencenter should be: YPBPR:Timing 720P pattern color bar 100и VGA: Timing 800*600 60Hz pattern gray scale H-32step DTV(MMD) Smart picture Color temp personal warm vivid warm standard normal cineme cool game warm energy saving normal nature cool custom warm ʳ Warm Normal Cool CCT 6500º K 8000º K 9300º K X 0.313 ± .02 0.296 ± .02 0.283 ± .02 Y 0.329 ± .02 0.299 ± .02 0.297 ± .02 221TE2L LCD Service tool-Hardware PCM code 12NC 5E.L8215.001 996510019769 27 28 221TE2L LCD Service tool-Software Firmware writing tool : MStar ISP Utility V4.4.9.5 DDC writing tool: Q-EDID-V30 221TE2L LCD DDC Instructions DDC Data Re-programming In case the DDC data memory IC or main EEPROM which storage all factory settings were replaced due to a defect, the serial numbers have to be re-programmed "Analog DDC IC, Digital DDC IC & EEPROM". It is advised to re-soldered DDC IC and main EEPROM from the old board onto the new board if circuit board have been replaced, in this case the DDC data does not need to be re-programmed. Additional information Additional information about DDC (Display Data Channel) may be obtained from Video Electronics Standards Association (VESA). Extended Display Identification Data(EDID) information may be also obtained from VESA. Configuration and procedure "PI-EDID" The software is provided by IMS to upgrade the firmware of CPU. PI-EDID Tools is for the interface between "Parallel Port of PC" and "15 pin-D-SUB connector of Monitor". It is a windows-based program, which cannot be run in MS-DOS. System and equipment requirements 1. An Pentium (or above) personal computer or compatible. 2. Microsoft operation system Windows 95/98/2000/XP and Port95NT.exe. 3. EDID Software "QEDID.exe" 4. ISP boardas shown in Fig. 1 And I2C Board Jump wire should follow J10 (short), J9 (open), J5/J6/ (1and 2 pin short) J7/J8 (1 and 2 pin short) 3 2 1 1 2 3 Connected to print cord and PC Fig.1 Connected to Display Signal Cable 29 30 221TE2L LCD DDC Instructions 5. Connect and Mains cord to Monitor as shown in Fig.2. Fig.2 Pin assignments : A. 15-pin D-Sub Connector PIN No. 1 2 3 4 5 6 7 8 SIGNAL PIN No. Red 9 Green/ SOG 10 Blue 11 Sense (GND) 12 Cable Detect (GND) 13 Red GND 14 Green GND 15 Blue GND ʳ B. Input HDMI Connector pin SIGNAL DDC +3.3V or +5V Logic GND Sense (GND) Bi-directional data H/H+V sync V-sync Data clock ʳ 221TE2L LCD 31 DDC Instructions 6. Setup the Philips-IMS EDID Tools program Step 1: Open Q-EDID V030 Software into your folder as shown in Fig.3. and Fig.4. ˤ˘˗˜˗ˆ˃˃ˁ˸̋˸ Fig.3 Fig.4 32 221TE2L LCD DDC Instructions Step 2: Press “Open File” then choose 191TE2L_EDID_VGA.ddc or 191TE2L_EDID_HDMI.ddc as shown in Fig. 5 . Fig.5 221TE2L LCD DDC Instructions Step 3 : Load DDC file success as shown in Fig. 6 . Fig.6 Step 4 : update Serial number and press enter to correct S/N number shown as Fig.7 . Fig.7 33 34 221TE2L LCD DDC Instructions Step 5 : Press “RUN” to write EDID and serial number shown as Fig.8 . Fig.8 Step 6 : EDID and serial number update success shown as Fig.9 Fig.9 221TE2L LCD 35 DDC Instructions 8. Press “Read EDID” to read EDID and serial number shown as Fig.10 . and check Serial number is the same as we set. Note: If not the same, please rewrite EDID S/N again. Fig.10 Serial Number Definition 36 221TE2L LCD DDC DATA Analog DDC //////////Displaying Monitor EDID////////// 128 bytes EDID Data (Hex): 0 1 2 3 4 5 0: 00 10: 62 20: 0E 30: 9A 40: 81 50: 81 60: 2D 70: 00 80: 30 90: 00 100: 70 110: 00 120: 20 FF C0 30 25 80 40 40 1E 30 00 73 FD 20 FF 98 1B 0F 81 A9 58 00 30 00 20 00 20 FF D5 78 50 8A C0 2C 00 30 FC 32 38 20 FF E8 EE 54 95 02 45 00 30 00 32 4C 20 6 FF 29 13 BF 00 3A 00 FF 30 50 31 1E 20 7 FF 1E E4 EF A9 80 DC 00 30 68 54 53 00 8 9 00 41 0C 14 01 03 A3 59 55 00 71 4F 40 B3 00 18 71 38 0C 11 00 4E 54 30 30 30 31 69 6C 69 45 00 00 11 00 0A 29 Decoded EDID data <---Header---> Header: <-x-Header-x-> 00 FF FF FF FF FF FF 00 <---Vendor/Product Identification---> ID Manufacturer Name: PHL ID Product Code: 49250 ID Serial Number: 29E8D598 Week of Manufacture: 30 Year of Manufacture: 2010 <-x-Vendor/Product Identification-x-> <---EDID Structure Version/Revision---> EDID Version#: 1 EDID Revision#: 3 <-x-EDID Structure Version/Revision-x-> <---Basic Display Parameters/Features---> Video i/p definition: Analog Setup: Blank-to-Black not expected Seperate Syncs. support: Yes Composite Sync. support: Yes Vsync. Pulse: serration required Max Horz Image Size: 48 cm. Max Vert Image Size: 27 cm. Display Gamma: 2.2 Display Type: RGB color display Standard Default Color Space: Yes Features, Preferred Timing Mode: In first detailed block Features, GTF support: No DPMS Features, Stand-by: Yes DPMS Features, Suspend: Yes DPMS Features, Active Off: Yes <-x-Basic Display Parameters/Features-x-> <---Color Characteristics---> Red x: 0.636719 Red y: 0.348633 Green x: 0.332031 Green y: 0.604492 Blue x: 0.147461 Blue y: 6.05469e-002 White x: 0.313477 White y: 0.328125 <-x-Color Characteristics-x-> <---Established Timings---> Established Timimgs 1: BF - 720x400 @70Hz - 640x480 @60Hz - 640x480 @67Hz - 640x480 @72Hz - 640x480 @75Hz - 800x600 @56Hz - 800x600 @60Hz Established Timimgs 2: EF - 800x600 @72Hz - 800x600 @75Hz - 832x624 @75Hz - 1024x768 @60Hz - 1024x768 @70Hz - 1024x768 @75Hz - 1280x1024 @75Hz Established Timings 3: 00 <-x-Established Timings-x-> <---Standard Timing Identification---> Standard Timing: 1152x864 @75Hz Standard Timing: 1280x1024 @60Hz Standard Timing: 1280x1024 @70Hz Standard Timing: 1440x1440 @60Hz Standard Timing: 1600x1200 @60Hz Standard Timing: 1680x1680 @60Hz Standard Timing: 1280x960 @60Hz Standard Timing: 1600x900 @60Hz <-x-Standard Timing Identification-x-> <---Detailed Timing Descriptions---> Detailed Timing: 1920x1080 @60Hz Detailed Timing: FF (Monitor SN) 'NT00000000001' Detailed Timing: FC (Monitor name) 'Philips 221TE' Detailed Timing: FD (Monitor limits) Vert: 56 - 76 Hz Horz: 30 - 83 KHz Clk: 170 MHz <-x-Detailed Timing Descriptions-x-> Extension Flag: 00 Checksum: 29 221TE2L LCD 37 DDC DATA HDMI DDC //////////Displaying Monitor EDID////////// 256 bytes EDID Data (Hex): 00,FF,FF,FF,FF,FF,FF,00,41,0C,62,C0,98,D5,E8,29,1E,14, 01,03,80,30,1B,78,EE,13,E4,A3,59,55,9A,25, 0F,50,54,BF,EF,00,71,4F,81,80,81,8A,95,00,A9,40,B3,00, 81,40,A9,C0,02,3A,80,18,71,38,2D,40,58,2C, 45,00,DC,0C,11,00,00,1E,00,00,00,FF,00,4E,54,30,30,30, 30,30,30,30,30,30,30,31,00,00,00,FC,00,50, 68,69,6C,69,70,73,20,32,32,31,54,45,00,00,00,FD,00,38, 4C,1E,53,11,00,0A,20,20,20,20,20,20,01,B6, 02,03,25,F0,4F,13,04,12,11,16,03,02,07,01,10,1F,05,14,1 5,06,26,09,7F,07,11,7F,50,83,01,00,00,65, 03,0C,00,10,00,02,3A,80,18,71,38,2D,40,58,2C,45,00,9A, E6,10,00,00,1E,01,1D,80,18,71,1C,16,20,58, 2C,25,00,9A,E6,10,00,00,9E,01,1D,00,72,51,D0,1E,20,6E ,28,55,00,9A,E6,10,00,00,1E,01,1D,80,D0,72, 1C,16,20,10,2C,25,80,9A,E6,10,00,00,9C,01,1D,00,BC,5 2,D0,1E,20,B8,28,55,40,9A,E6,10,00,00,1E,65 Model name............... Philips 221TE Manufacturer............. Philips Plug and Play ID......... PHLC062 Serial number............ NT00000000001 Manufacture date......... 2010, ISO week 30 ------------------------EDID revision............ 1.3 Input signal type........ Digital Color bit depth.......... Undefined Display type............. RGB color Screen size.............. 480 x 270 mm (21.7 in) Power management..Standby, Suspend, Active off/sleep Extension blocs.......... 1 (CEA-EXT) DDC/CI................... Supported MCCS revison............. 2.0 Display technology....... TFT Controller............... Mstar 0x237 Firmware revision........ 1.0 Firmware flags........... 0x00000045 Active power on time..... 13 hours Power consumption........ Not supported Current frequency........ 67.40kHz, 59.90Hz Color characteristics Default color space...... sRGB Display gamma............ 2.20 Red chromaticity......... Rx 0.637 - Ry 0.349 Green chromaticity....... Gx 0.332 - Gy 0.604 Blue chromaticity........ Bx 0.147 - By 0.061 White point (default).... Wx 0.313 - Wy 0.328 Additional descriptors... None Timing characteristics Horizontal scan range.... 30-83kHz Vertical scan range...... 56-76Hz Video bandwidth.......... 170MHz CVT standard............. Not supported GTF standard............. Not supported Additional descriptors... None Preferred timing......... Yes Native/preferred timing.. 1920x1080p at 60Hz (16:9) Modeline............... "1920x1080" 148.500 1920 2008 2052 2200 1080 1084 1089 1125 +hsync +vsync EIA/CEA-861 Information Revision number.......... 3 IT underscan............. Supported Basic audio.............. Supported YCbCr 4:4:4.............. Supported YCbCr 4:2:2.............. Supported Native formats........... 0 Detailed timing #1....... 1920x1080p at 60Hz (16:9) Modeline............... "1920x1080" 148.500 1920 2008 2052 2200 1080 1084 1089 1125 +hsync +vsync Detailed timing #2....... 1920x1080i at 60Hz (16:9) Modeline............... "1920x1080" 74.250 1920 2008 2052 2200 1080 1084 1094 1124 interlace +hsync +vsync Detailed timing #3....... 1280x720p at 60Hz (16:9) Modeline............... "1280x720" 74.250 1280 1390 1430 1650 720 725 730 750 +hsync +vsync Detailed timing #4....... 1920x1080i at 50Hz (16:9) Modeline............... "1920x1080" 74.250 1920 2448 2492 2640 1080 1084 1094 1124 interlace -hsync +vsync Detailed timing #5....... 1280x720p at 50Hz (16:9) Modeline............... "1280x720" 74.250 1280 1720 1760 1980 720 725 730 750 +hsync +vsync CE audio data (formats supported) LPCM 2-channel, 16/20/24 bit depths at 32/44/48/88/96/176/192 kHz AC-3 2-channel, 640k max. bit rate at 32/44/48/88/96/176/192 kHz CE speaker allocation data Channel configuration.... 2.0 Front left/right......... Yes Front LFE................ No Front center............. No Rear left/right.......... No Rear center.............. No Front left/right center.. No Rear left/right center... No Rear LFE................. No CE vendor specific data (VSDB) IEEE registration number. 0x000C03 CEC physical address..... 1.0.0.0 Maximum TMDS clock....... 165MHz Report information Date generated........... 2010/12/6 Software revision........ 2.53.0.861 Data source.............. Real-time 0x0031 Operating system......... 5.1.2600.2.Service Pack 3 38 221TE2L LCD Firmware Upgrade for CPU I. I2C upgrade FW 1. Hardware Requirement: 1.1. I2C board x 1 (a.Print Board b. I2C Board) 1.2. DSUB VGA cables x 2 1.3. Printer cable (with one male connector and another female connector) x 1. 1.4. PC or Notebook with parallel (printer) port x1. Print I2C 1.5 Check the Jumpers on the I2C circuit board (make sure J5/J6/J7/J8 are set at Pin 1 & Pin 2 short) Connected to print Connected to Display cord and PC Signal Cable 221TE2L LCD 39 Firmware Upgrade for CPU Link “I2C BD, Power cable and Signal cable 2. Software prepare MStar ISP Utility V4.4.9.5 MSTAR ISP Tool 4.4.9.5 DebugTool_V6.7_200 ˗ˍ˯˧̂̂˿˯ˠ˦˧˔˥˯ ˜˦ˣ˲˧̂̂˿ʳˇˁˇˁˌˁˈˁ̅˴̅ Step 1: Press MStar ISP Tool Step 2: Choose Option “Config”, set Port type to “LPT1”; set I2C Speed Setting to 30 , Press “Auto Detect” till the tool shows “ok” 40 221TE2L LCD Firmware Upgrade for CPU Step 4: Choose Option “Connect”, the tool will show FLASH type as below, then press “OK” 221TE2L LCD Firmware Upgrade for CPU Step 5: Choose Option “Auto”, then press “Run” Step 6: Choose Option “Auto”, and then press “Run”; the firmware will upgrade complete after the message shows “PASS” 41 42 221TE2L LCD Failure Mode Of Panel Quick reference for failure mode of LCD panel this page presents problems that could be made by LCD panel. It is not necessary to repair circuit board. Simply follow the mechanical instruction on this manual to eliminate failure by replace LCD panel. Failure description Vertical block defect Polarizer has bubbles Phenomenon Polarizer has bubbles Vertical dim lines Foreign material inside polarizer . It shows liner or dot shape. Vertical lines defect (Always bright or dark) Concentric circle formed Horizontal block defect Bottom back light of LCD is brighter than normal Horizontal dim lines Back light un-uniformity Horizontal lines defect (Always bright or dark) Has bright or dark pixel Backlight has foreign material. Black or white color, liner or circular type :LULQJ'LDJUDP  221TE2L LCD 43 44 221TE2L LCD %ORFN'LDJUDP A B C D NC T S _ MD O [0 . . 7] S03 S 05 T S _ MD I 0 T S _ MD I 1 T S _ MD I 2 T S _ MD I 3 T S _ MD I 4 T S _ MD I 5 T S _ MD I 6 T S _ MD I 7 33 G2 G1 C5 2 2 0 U 1 6V + VC C DATADATA+ GND J 18 1 2 3 4 G2 G1 J4 VC C DATADATA+ GND 2 B C 0 0 2 1031 G2 G1 1 0 R 26 1 2 3 4 NC _0 R 25 N C _ 2 B C 0 0 4 0 011 G2 G1 US B P or t § 0 2 K N 5 0 6 2021 R E G# C E 1# C E 2# OE # WE # IOR D# IOW R # INP _AC K IR E Q# GND GND GND GND GND GND MDO0 MDO1 MDO2 MDO3 MDO4 MDO5 MDO6 MDO7 MOC LK MOS TR T MOVAL MDI0 MDI1 MDI2 MDI3 MDI4 MDI5 MDI6 MDI7 MIC LK MIS TR T MIVAL J3 V7 T24 T26 T29 T32 V 14 T71 T72 T73 T130 S03 61 7 42 9 15 44 45 60 16 G2 G1 68 35 34 1 P C M_ R E G _ N T52 P C M_ C E _ N T54 T56 P C M_ O E _ N T57 P C M_ W E _ N T58 P C M_ I O R D _ N T59 P C M _ I O W R _ NT61 T62 T64 T67 64 65 66 37 38 39 40 41 T36 T38 T40 T42 T44 T46 T48 T49 47 48 49 50 53 54 55 56 T8 T10 T12 T14 T16 T17 T18 T20 57 63 62 20 46 19 T1 T3 T5 T27 T30 T33 US B P or t R 36 4.7K 6 J . 4 7 5 0 0 . 041 5 R 117 R 63 N C _ 100 J 4 5 V8 R 28 R 29 V 15 R 57 R 58 NC S 04 E MI c l os e t o JAT 3 1910 MOCLK MO S T A R T MO V A L V C C - P C MC I A F1 6 V 0 . 7 5A P C M_ I R Q A _ N T S _ MD O [0 . . 7] +5V S 04 E MI c l os e t o J 3 S 05 N C _100P J M IC L K P M IS T AR T MI V A L T S _ MO C L K T S _ MO S T A R T R 70 NC _100 J T S _ MO V AL T S _ MD O 0 T S _ MD O 1 T S _ MD O 2 C 47 T S _ MD O 3 N C _100P J T S _ MD O 4 T S _ MD O 5 T S _ MD O 6 T S _ MD O 7 T S _ MI C L K P T S _ MI S Y N C 7,8 T S _ MI V A L I D 8 T S _ MD I [1 . . 7] 7,8 7,8 PCMC I A C 371 1 1 0 0 U 2 5V 5.1 5.1 R 555 51K C 5 4 4C 5 4 5 Pl a c e C6 C7 U S B 1_DM U S B 1_DP 7 P XX C 11 0.1U 50V F or U S B 1_DM7 U S B 1_DP 7 7 U S B 0 _ D M7 U S B 0_DP 7 U S B _O C D1_N U S B 0_DM U S B 0_DP c l os e t o US B c onnec t or U S B _O C D1_N R 556 100K F or U S B _O C D0_N + V C C - P C MC I A R 122 R 32 4.7K 33 3 B S 2 - n 4 5 GND B A U2 CI I C C8 0.1U 50V R 30 NC _15K Y VC C 5 4 2 L 11 P C M_ C D _ N 7 Z150 C 17 0 . 1 U 5 0V D M_ 3V3 7,8 7,8 V C C - P C MC I A c a r d pl u g i n j a c k . Q4 P MB S 3 904 R 35 N C _ 1K J D S N 74AHC 1G 32DB V R 3 1 P C M_ C D 2 R 42 100K P C M_ C D 1 R 43 100K F AULT ILIM OUT 6 N C _TP S 2550DB VR EN GND IN OR g a t e d e t e c t C 279 4 .7U K 3 2 1 U21 Q3 A P M2 3 0 5 B A C - TR L R 34 100K R 38 4.7K +3 V 3_S R 37 4.7K AT 1 9 1 0 7 P C M_ P W R _ C T L MAIN5V AT 1 9 1 0 2 d e t e c t e d P C MC I A c a r d be f or e t ur n on powe r 7 P C M_ P W R _ C T L Fi r s t AXX a nd AT 2 2 2 6 MF P C M_ W A I T _ N P C M_ A [0 . . 1 4] 7 P C M_ D [0 . . 7 ] V C C - P C MC I A C M_ D 0 C M_ D 1 C M_ D 2 C M_ D 3 C M_ D 4 C M_ D 5 C M_ D 6 C M_ D 7 C 10 0.1U 50V P C M_ R E S E T P P P P P P P P c l os e t o US B c onnec t or AT 1 9 1 0 + NC _5.1 NC _5.1 Pl a c e R 56 NC _100K R 55 U S B _O C D0_N NC _51K AT 1 9 1 0 + 5 6 7 8 5 6 7 8 P C M_ C D 1 P C M_ C D 2 T69 C9 T65 T63 T60 T53 T55 T50 T51 N C _0.1U 50V N C _0.1U 50V 4 G4 G3 51 17 33 58 18 52 43 59 36 67 R P 1 3 33 P C M_ A 0 P C M_ A 1 P C M_ A 2 P C M_ A 3 P C M_ A 4 P C M_ A 5 P C M_ A 6 P C M_ A 7 P C M_ A 8 P C M_ A 9 P C M_ A 1 0 P C M_ A 1 1 P C M_ A 1 2 P C M_ A 1 3 P C M_ A 1 4 T19 T21 T22 T23 T25 T28 T31 T34 T35 T37 T39 T41 T43 T45 T47 29 28 27 26 25 24 23 22 12 11 8 10 21 13 14 2 K N5 0 6 2 0 2 1 GND GND VC C VC C IOC S 16 RESET VP P 1 VP P 2 VTG_S E NS E W AIT# C D1# C D2# A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 D0 D1 D2 D3 D4 D5 D6 D7 33 R P 12 4 3 2 1 4 3 2 1 T2 T4 T6 T7 T9 T11 T13 T15 30 31 32 2 3 4 5 6 3 S c alar Diagram & C .B .A 1 2 G C E 5 1 2 1 N C _5V 1P F 2 . . 1 . . 5 V 1P F 2 2 . . N C _5V 1P F 1 . . 2 NC _0.1U 50V 5 V 1P F NC _0.1U 50V P C M _C D_N T S _ MD O [0 . . 7 ] T S _ MO C L K T S _ MO S T A R T T S _ MO V AL T S _ MD I 0 8 T S _ MD I [1 . . 7 ] T S _ MI C L K P T S _ MI S Y N C 7,8 T S _ MI V A L I D P C M_ D [0 . . 7 ] P C M_ A [0 . . 1 4] 7 P C M_ R E S E T P C M_ W A I T _ N 7 P C M_ R E G _ N 7 P C M_ O E _ N 7 P C M_ W E _ N 7 P C M_IO R D_N 7 P C M_IO W R _N 7 P C M_ C E _ N P C M_ I R Q A _ N 1 T S _ MD O [0 . . 7] MOCLK MO S T A R T MO V A L T S _ MD I 0 T S _ MD I [1 . . 7] M IC L K P M IS T AR T MI V A L P C M_ D [0 . . 7 ] P C M_ A [0 . . 1 4] 7 P C M_ R E S E T P C M_ W A I T _ N P C M_ R E G _ N P C M_ O E _ N P C M_ W E _ N P C M_ I O R D _ N P C M _IO W R _N P C M_ C E _ N P C M_ I R Q A _ N P C M_ C D _ N 7 1 221TE2L LCD 45 A B C D A B C D S03 j + I F _O UT C 338 220U 16V L17 Z 200 T U NE R _ 5V 5 10nF C 342 C 340 10nF 56 J R 400 T79 R 401 820 10nF C 341 R 399 1.5K J B 270 R 143 L69 0.82U 1 0 dB~12 R 145 68 J Q28 B F 799 dB C 348 10nF 10nF C 344 270R C 343 10nF 4 R 128 N C _ 51 R 406 NC _0 4 K IF _ A G C _ T D - IF D - IF D -IF + D -IF + I F _O UT R 403 6.8K C 572 10U M A C 336 22U M L70 Z 200 S F1 K 3953M 33. 9/38. 9MHZ Q11 2N7002 G B A 892-02V D5 S F2 K 9656 M R 124 NC _ 10K C 76 0. 1U 50V T U NE R _ S C L T U NE R _ S DA C 571 10U M T U NE R _ 5V R F _A G C _T 100 100 6.8K R 123 R 105 R 107 C 16 C 64 10nF 0. 1U 50V I 2 C s l a v e a ddr e s s =0 x C2 100P J C 399 AS p i n =o p e n : 1 2 3 4 5 6 7 8 9 10 11 12 R 103 NC _ 0 Ant P W R -optiona l VC C R F AG C SCL S DA VC C NC NC IF AG C control DIF DIF + AIF G ND G ND G ND G ND G4 G3 G2 G1 5 1 2 3.3K F R 125 221TE2L LCD D L3 N C _1UH S 46 C E 1 2 3 4 5 1 2 3 4 5 1 2 3 4 5 1 2 3 4 5 C 81 N C _ 10P J NC or L18 NC _ 2.2U K V IF P not ? ? 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C 79 NC _ 4. 7U K R F _A G C _T f r o m De mod or C 78 100NF K 200 J R 422 R 421 10K J 100 J C 366 100NF K R 418 I F _ AGC T O T UNE R R 114 1K J C 77 100NF K R 419 R F _ AGC T O T UNE R 1 15 A B C D A B C D 2 B 1 3048151 R B G U2 7 1 1 J 13 3 6 L_S R_T 5 6 5 RT RS 4 BT 3 1 GS BS 2 GT 5 4 L_T R_S 1 2 11 9 12 7 8 10 Y_S Y_T P=1 4 mm, H=10mm R W Y S J 11 T999 1 2 +3V 3 K K D26 +3V 3 0 . 4 7 U 1 6V C 225 S G 11 K +3V 3 1 5 V 1 50P F . . V AR 3 1 5 V 1 50P F K D24 A K B AV 99 A K B AV 99 A D30 D33 A K B AV 99 A D27 LL4148 B AV 99 B AV 99 C 222 330P J 12K J R 308 12K J Y Pr L7 C 18 220P J L6 4 4 2. 2U K S05 C 217 6 / 28 75 560P J C 223 560P J C 198 0 . 0 4 7 U 16V C IN _ 1 + C 204 0 . 0 4 7 U 16V C 537 0 . 0 4 7 U 16V V C O M1 Y IN _ 1 + C 219 C 215 C 209 R C A _ A U _ IN _ 1 R P l a c e me nt Ne a r S c a l e r 2.2U 6.3V 7 7 7 7 7 R C A _ C V B S _ IN R C A _ A U _ IN _ 1 L 0 . 0 4 7 U 16V 2.2U 6.3V 47 J P l a c e me nt Ne a r S c a l e r 47 J 47 J P l a c e me nt Ne a r S c a l e r 47 J 7 C 39 82P J L13 0. 47U K C 34 82P J L34 C 226 56P J C 220 56P J 0. 47U K C 213 56P J 0. 47U K R 310 75 J R 305 75 J R 299 75 J Y - IN R 24 47 J R 22 47 J R 21 47 J R 19 47 J R 18 47 J R 15 47 J R 14 470 3 S OY_YUV S OY_YUV C 35 R G B 1_P R 0 . 0 4 7 U 16V C 30 R G B 1_P R + 0 . 0 4 7 U 16V R G B 1_P R - R G B 1_P R + R G B 1_P B- R G B 1_P B+ C 29 R G B 1_P B0 . 0 4 7 U 16V R G B 1 _ YC 540 R G B 1 _P B + 0 . 0 4 7 U 16V R G B 1 _ Y+ C 539 R G B 1 _ Y0 . 0 4 7 U 16V C 20 R G B 1 _ Y+ 0 . 0 4 7 U 16V C 19 1 0 0 0P K P l a c e me nt Ne a r S c a l e r ohm l a y out pl a c e me nt c l os t t o MS D237 R 296 75 J C 33 82P J L8 R 725 R 291 R 284 R 295 R 293 75 J S 0 2 E MI Z120 L95 Z120 L94 4/ 8 2. 2U K C 207 270P J R 285 75 J 3 S c al ar Diag ram & C .B .A 75 ohm l a y out pl a c e me nt c l os t t o MS D237 2. 2U K C 200 270P J C 211 270P J C 15 220P J L5 R 303 A A Pb A 10K F R 307 C 216 10K F 330P J R 302 C 32 220P J LL4148 D25 LL4148 D21 S 0 2 E MI S 0 2 E MI K +3V 3 0 . 4 7 U 1 6V 2 A D19 B AV 99 +3V 3 D20 J 0 . 4 7 U 1 6V C 208 S G6 . . K C 202 +3V 3 V AR 2 S G9 S G 13 T126 T124 T123 1 S G 12 T125 S G 10 S G8 T122 T120 S G5 T119 J J AT 1 9 1 0 J 5 J J 2 2 1 1 221TE2L LCD e vC ode > A B C D 47 A B C D MU TE _S 0J 0J 0J 0J E C 522 330P J L91 Z600 C 525 100U 25V C A1 A2 Q31 2N 3906S R 707 4.7K J Audio_G N D R 691 10K J B B AT54C A1 A2 D 57 + 1K J C 182 220P K R 560 220K 5 C 53 C 52 R 579 220K C 48 2. 2U K 1U K 12 1U K 14 6 4 16 13 A P A 2175OITR G LIN R IN C P- C P+ /LS D /R S D U 11 E a r pho ne OUT S 0 4 0 . 0 1 5 U- - >220p C 183 220P K 1K J S 04 10K Mu J t e_earphone VDD LOU T R OU T VS S C VS S GND PGND PVDD 9 11 8 7 15 5 2 10 +3V 3 C 45 22U M amp_mute 10K J R 711 S 04 R 702 22K 0. 47U 16V C 55 N C _ 820P J 2. 2U K C 51 0. 1U 50V C 46 C 54 N C _820P J C 499 C 496 10U M 0. 47U 16V C 500 2. 2U K C 495 1U K C 512 R 550 2K Audio_G N D R 551 4.02K F R 696 22K C 515 0. 015U K C 494 1U K V -A udio C 493 1U K V O L _ADJ C 498 2 2 0 U 16V V -A udio R 709 Q32 2N 3904S Mu t e_earphone R 712 10K J B R 708 4.7K J +3V 3 R 692 100 J C 502 0. 015U K R 699 100 J AU OU TR 0 +5V + A u d io_G N D AU OU TL0 R 69 N C _ 4.7K J R 710 4.7K J L109 Z200 L110 NC _Z200 P A M 8 603_5V Mu t e _ e a r phone Hi g h : nor ma l L o w : s hut down E A R _AU _OU T_L R 393 J E A R _AU _OU T_R R 578 J AT 1 910 C 489 100U 25V D Q30 2N 3904S Mu t e _ a mp Hi g h : d i s a bl e out put L o w : e n a b l e out put + MA IN7V 5 R 76 R 73 R 72 R 71 C 492 4. 7U K D 56 LL4148 NC _0 Mute_amp R 77 7 P o wer_S av ing R 689 100K S P A M8 6 03_5V 1 Q29 A P M2305B AC -TR L G C 0. 1U 50V R 690 10K J B E C 488 A K 1 2 C E 2 1 2 A MP 5V 1 3 NC NC R 562 R 561 S 03 7 C 49 V AR 11 15V 150P F V AR 12 15V 150P F R 411 24 13 14 15 16 17 18 19 20 21 22 23 Z150 Z150 1K R 410 100K +3V 3 NC VR E F NC NC IN R GND /S H D N PVDDR -OU TR PGNDR PGNDR +OU TR -OU TL +OU TL ZD1 TZ MC 6V 2 P A M8603MN H R NC V olume VDC NC IN L H P _D E TE C T 12 11 10 9 8 L65 R 564 15K VDC VDD /MU TE PVDDL -OU TL PGNDL 33 J R 563 C 50 15K R 552 150 7 6 5 4 3 +OU TL PGNDL L64 4 1U K C 516 IN L 1 2 U 42 33 J AT 1 910 A u d io_G N D amp_mute C 497 10U M 4 0. 047U K 5 1 . . 2 221TE2L LCD 1 . . 2 K A 48 0. 047U K -OU TR Z300 S Z300 S Z300 S J 15 4 / 13 2B 10254121 0 IN R S05 A U _ E AR _R OU T A U _ E AR _LOU T TP 347 3 TP 348 5 4 TP 349 2 1 HE ADPHONE A u d io_G N D 1U K V R E F C 517 Z600 L111 L88 L89 i C 490 C 524 1000P 50V 1000P 50V C 523 1000P 50V TP 57 TP 58 TP 59 TP 60 3 3 He a dp hone_DET L o w ==> Not Pl ug- i n Hi gh ==> Pl ug- i n C 491 1000P 50V L R s wap A u d io_G N D +OU TR L85 L86 Z300 S 4 3 2 1 4 3 2 1 J 19 2K 61185104 2 2 S c alar Diagram & C .B .A D ate: 1 1 T u e s d a y , N ov ember 02, 2010 S heet 1 of 16 e v C od A B C D A B C P AN E L_ON V B LC TR L MU TE _S Mute_amp H P _D E TE C T P ower_On P o wer_s av ing D M_R E S E T S IF _C TL LE D _OR G V G A_C AB H D MI0_C AB H D MI2_C AB R 627 R 628 R 629 R 630 R 631 R 632 S 05 IN T AMP _S TB P W M4 H P - D E TE C T LE D _R E D G P IO14 R 623 R 624 R 625 4 / 13 P C M_D [0. . 7] P C M_A[0. . 14] P C M_C D _N P C M_R E S E T P C M_W AIT_N P C M_R E G _N P C M_OE _N P C M_W E _N P C M_IOR D _N P C M_IOW R _N P C M_C E _N P C M_IR QA_N P C M_P W R _C TL 100 J NC _100 J 10K J 0J 10K J 100 J +3V 3_S S 05 5 +3V 3_S 5 S 03 S 03 47 J C 462 V C OM0 0. 047U 16V 33 J 33 J TS _S Y N C 33 J TS _V ALID AV D D _33 C 43 2. 2U 6. 3V S04 LED C 42 2. 2U 6. 3V C 463 22U M V R 27 DI P - >S MD C 459 30P G s ol ut i on P o we r s a v i ng 12MH Z Y2 1M C 475 22P J S 05 G P IO_A1 G P IO_A2 G P IO_A3 U AR T_R X2 U AR T_TX2 V R 12 TAG C V R 27 S IF P S IF M V IF M V IF P XTAL2O XTAL2I HS Y NC 1 VS Y NC 1 V C LP R EFP R EFM B IN 1P S OG IN 1 G IN 1P R IN 1P B IN 0M B IN 0P G IN 0M G IN 0P S OG IN 0 R IN 0M R IN 0P HS Y NC 0 VS Y NC 0 C V B S _OU T2 VS Y NC 2 B IN 2 G IN 2 S OG IN 2 R IN 2 C 0(C V B S 7P ) C 1(C V B S 6P ) Y 0(C V B S 5P ) Y 1(C V B S 4P ) C V B S 3P C V B S 2P C V B S 1P V C OM1 C V B S 0P V C OM0 C V B S _OU T IOU TX V R E XT R XC N R XC P R X0N R X0P R X1N R X1P R X2N R X2P H OTP LU G A R E XT D D C D A_D A D D C D A_C K C E C /U AR T_R X1/C E C H OTP LU G B B _R XC N B _R XC P B _R X0N B _R X0P B _R X1N B _R X1P B _R X2N B _R X2P D D C D B _D A D D C D B _C K R 645 10K J P W M0 P W M1 R 642 10K J +3V 3_S 4 0J R 27 AUDI O I N/ OUT S 05 B 15 J9 J 10 J 11 J 12 J 13 K9 K 10 K 11 K 12 K 13 L9 L10 L11 L12 L13 L19 L20 M9 M10 M11 M12 M13 W6 D7 D8 D 12 D 13 C 471 100N F K C 472 1U K AV D D _LP LL AV D D _33 AV D D _33 AV D D _33 AV D D _33 V D 33 V D 33 V D 33 V D 33 MS D 2 3 7H F G -LF -S A AV D D _D M VDDC VDDC VDDC VDDC VDDC VDDC VDDC VDDC VDDC AC D D L_D V I AV D D _V IF AV D D _D D R AV D D _D D R AV D D _D D R AV D D _D D R AV D D _D D R AV D D _MP LL AV D D _ME MP LL U 118B AV D D _33 VDDC P 13 A V D D L_D V I G 10 AV D D _V IF A V D D _D D R A V D D _MP LL A V D D _ME MP LL A V D D _LP LL AV D D _33 H9 H 10 J 15 K 15 L15 M15 N 10 N 11 P 10 P7 G 13 G 11 G 12 G 14 H 14 N7 D 14 K 18 H7 J6 J7 K7 N8 N 12 P 11 P 12 DDR2_ 3 2Bi t PCMCI A/ CI U118A MS D237HF G -LF -S A VDDP C 473 4. 7U K AU V R P AU V AG AU V R M AU C OM Cl os e t o I C wi t h wi dt h t r a c e C 470 10U Z VS S VS S VS S VS S VS S VS S VS S VS S VS S VS S VS S VS S VS S VS S VS S VS S VS S VS S VS S VS S VS S VS S VS S VS S VS S VS S VS S VS S L1 Z30 100N F K C 467 mo d i f y bom I C C onfiguration Selection C 474 22P J al i ve XTALI R 605 XTALO N6 P3 P4 T2 U2 R F _ AG C _C TL MU TE -amp T U N _R E S E T C 466 100N F K N3 M5 M6 Y2 W2 W1 Y1 V R 12 A_R F _AG C V R 27 S IF P S IF M V IF M V IF P G7 G8 G4 G5 G6 H3 H4 H5 H6 N1 N2 M1 M2 J5 L1 L2 L7 M7 K5 K6 L3 L4 L5 L6 K4 J4 K3 J3 M3 P1 M4 R1 P2 R2 T1 N 16 M16 G2 G1 H2 H1 J2 J1 K2 K1 F4 F5 F6 G3 E3 E5 C2 C1 D2 D1 E2 E1 F2 F1 E4 E6 U S B 1_D P U S B 1_D M U S B _OC D 1_N U1 V1 C 464 22U M 4 U S B 0_D P U S B 0_D M U S B _OC D 0_N XTALO XTALI S ystem X T AL S 02 C 465 100N F K R 594 820 V C OM0 S C 1 _ C V B S _OU T V C OM1 S C 1-R + C IN _1+ S C _c hroma Y IN _1+ S C _ C V B S _IN R C A _C V B S _IN S C 1 -V S Y N C S C 1-B + S C 1-G + V G A _H S Y N C 1 V G A _V S Y N C 1 V C LP R EFP R EFM V G A_B IN + V G A_S OG V G A_G IN + V G A_R IN + R G B 1_P B R G B 1_P B + R G B 1_Y R G B 1_Y + S OY _Y U V R G B 1_P R R G B 1_P R + H D MI-R E XT V R 12 due t o GP I O s u p p or t R 581 H D MI-C E C NC _0 J H D MI0-H P D IN H D MI0-C LK N H D MI0-C LK P H D MI0-R X0N H D MI0-R X0P H D MI0-R X1N H D MI0-R X1P H D MI0-R X2N H D MI0-R X2P H D MI0-S D A H D MI0-S C L d e l e t e S C1_CVBS _I N TS _C LK U S B 1_D P U S B 1_D M U S B _OC D 1_N U S B 0_D P U S B 0_D M U S B _OC D 0_N S 0 5 NC No S C ART - S OG? ? ? S 0 2 L E D_ B L UE PWM4 L E D_ RE D GPI O P ower_On MU TE _S LE D _B LU E H P _ D E TE C T LE D _OR G P AN E L_ON Mute_amp F L A S H _W P N V B LC TR L R 587 390 F S C 1-G + S C 1-B + S C _c hroma S C _ C V B S _IN S C 1-R + No R C A CVBS out out S C 1-G + S C 1-B + S C _c hroma S C _ C V B S _IN S C 1-R + c h a g e t o 33 ohm- - OK R 595 R 596 R 597 R 600 TS 1_C LK TS 1_S Y N C TS 1_V ALID TS 1_D 0 TS _D [0. . 7] TS -C LK TS -S Y N C TS -V ALID U AR T-TX U AR T-R X R F _ AG C _C TL A_R F _AG C V IF M V IF P S IF M S IF P LE D _B LU E B R I _AD J -P W M B 5_R XE C B 4_R XE C + G 3_R XE 0G 2_R XE 0+ G 1_R XE 1G 0_R XE 1+ B 7_R XE 2B 6_R XE 2+ B 3_R XE 3B 2_R XE 3+ R 1_R XOC R 0_R XOC + R 7_R XO0R 6_R XO0+ R 5_R XO1R 4_R XO1+ R 3_R XO2R 2_R XO2+ G 7_R XO3G 6_R XO3+ H D MI2-R X0P H D MI2-R X0N H D MI2-R X1P H D MI2-R X1N H D MI2-R X2P H D MI2-R X2N H D MI2-C LK P H D MI2-C LK N H D MI2-H P D IN H D MI2-S C L H D MI2-S D A H D MI0-R X0P H D MI0-R X0N H D MI0-R X1P H D MI0-R X1N H D MI0-R X2P H D MI0-R X2N H D MI0-C LK P H D MI0-C LK N H D MI0-H P D IN H D MI0-S C L H D MI0-S D A H D MI-C E C L E D_ B L UE a n d L E D_ RE D pul l hi gh t o MAI N5 V S 02 B _ MD ATA[15: 0] B _ MAD R [12: 0] B _MC LK B _MC LK Z B _C K E B _W E Z B _C AS Z B _R AS Z B _B A0 B _B A1 B _B A2 B _OD T B _D QS 0M B _D QS 0P B _D QS 1M B _D QS 1P B _D QM0 B _D QM1 TS _MIC LK TS _MIS Y N C TS _MIV ALID TS _MD I0 TS _MD O[0. . 7] TS _MOC LK T S _ MOS TAR T TS _MOV AL U AR T-TX U AR T-R X R F _ AG C _C TL A_R F _AG C V IF M V IF P S IF M S IF P L E D _B LU E B R I _AD J -P W M B 5_R XE C B 4_R XE C + G 3_R XE 0G 2_R XE 0+ G 1_R XE 1G 0_R XE 1+ B 7_R XE 2B 6_R XE 2+ B 3_R XE 3B 2_R XE 3+ R 1_R XOC R 0 _ R XOC + R 7_R XO0R 6_R XO0+ R 5_R XO1R 4_R XO1+ R 3_R XO2R 2_R XO2+ G 7_R XO3G 6_R XO3+ H D MI2-R X0P H D MI2-R X0N H D MI2-R X1P H D MI2-R X1N H D MI2-R X2P H D MI2-R X2N H D MI2-C LK P H D MI2-C LK N H D MI2-H P D IN H D MI2-S C L H D MI2-S D A H D MI0-R X0P H D MI0-R X0N H D MI0-R X1P H D MI0-R X1N H D MI0-R X2P H D MI0-R X2N H D MI0-C LK P H D MI0-C LK N H D MI0-H P D IN H D MI0-S C L H D MI0-S D A H D MI-C E C +3V 3_S B _ MD ATA[15: 0] B _ MAD R [12: 0] B _MC LK B _MC LK Z B _C K E B _W E Z B _C AS Z B _R AS Z B _B A0 B _B A1 B _B A2 B _OD T B _D QS 0M B _D QS 0P B _D QS 1M B _D QS 1P B _D QM0 B _D QM1 S 0 2 M A I N3V 3 A _ MD ATA[15: 0] A _ MAD R [12: 0] 1K J 0J 100 J A _ MD ATA[15: 0] A _ MAD R [12: 0] R C A _AU _IN _0L R C A _ AU _IN _0R R C A _AU _IN _1L R C A _ AU _IN _1R E A R _ AU _OU T_L E A R _ AU _OU T_R P C _ Audio-AU L2 P C _ Audio-AU R 2 S C 1-Lin S C 1-R in S C 1_LOU T S C 1_R OU T S P D IF _OU T AU OU TL0 AU OU TR 0 S C 1 _ C V B S _OU T R C A _C V B S _IN V C OM1 Y IN _1+ C IN _1+ S OY _Y U V R G B 1_Y + R G B 1_Y R G B 1_P B + R G B 1_P B R G B 1_P R + R G B 1_P R - V G A_R IN + V G A_G IN + V G A_B IN + V G A_S OG P AN E L_ON V B LC TR L MU TE _S Mute_amp H P _ D E TE C T P ower_On P o wer_s av ing T U N _R E S E T S IF _C TL LE D _OR G V G A_C AB H D MI0_C AB H D MI2_C AB A_MC LK A_MC LK Z A_C K E A_W E Z A_C AS Z A_R AS Z A_B A0 A_B A1 A_B A2 A_OD T A_D QS 0M A_D QS 0P A_D QS 1M A_D QS 1P A_D QM0 A_D QM1 P C M_D [0. . 7] P C M_A[0. . 14] P C M_C D _N P C M_R E S E T P C M_W AIT_N P C M_R E G _N P C M_OE _N P C M_W E _N P C M_IOR D _N P C M_IOW R _N P C M_C E _N P C M_IR QA_N P C M_ P W R _C TL A_MC LK A_MC LK Z A_C K E A_W E Z A_C AS Z A_R AS Z A_B A0 A_B A1 A_B A2 A_OD T A_D QS 0M A_D QS 0P A_D QS 1M A_D QS 1P A_D QM0 A_D QM1 MU TE -amp S AR 3 P W M3 G PI O R C A _ AU _IN _0L R C A _ AU _IN _0R R C A _ AU _IN _1L R C A _ AU _IN _1R E A R _ AU _OU T_L E A R _ AU _OU T_R P C _ A udio-AU L2 P C _ A udio-AU R 2 S C 1-Lin S C 1-R in S C 1 _LOU T S C 1 _R OU T S P D IF _OU T AU OU TL0 AU OU TR 0 S C 1 _ C V B S _OU T R C A _C V B S _IN V C OM1 10K J Y IN _1+ C IN _1+ S OY _Y U V R G B 1_Y + R G B 1_Y R G B 1_P B + R G B 1_P B R G B 1_P R + R G B 1_P R - V G A_R IN + V G A_G IN + V G A_B IN + V G A_S OG V G A _H S Y N C 1 V G A _V S Y N C 1 S C 1 -H S Y N C S C 1 -V S Y N C N C _ 10K J HDMI _ 0 / 1 VI DE O I N/ OUT S C 1-Lin S C 1-R in R C A _AU _IN _0L R C A _ AU _IN _0R R C A _AU _IN _1L R C A _ AU _IN _1R P C _ Audio-AU L2 P C _ Audio-AU R 2 AU C OM LIN E _IN _0L LIN E _IN _0R LIN E _IN _1L LIN E _IN _1R LIN E _IN _2L LIN E _IN _2R LIN E _IN _3L LIN E _IN _3R V IM0 LIN E _IN _4L LIN E _IN _4R LIN E _IN _5L LIN E _IN _5R P5 P6 R3 R4 Y3 Y4 R5 R6 V2 T3 T4 T5 T6 AU V R M AU V R P AU V AG AV D D _AU S D M N5 N4 U3 P8 AU V R M AU V R P AU V AG AV D D _AU LIN E _OU T _2L LIN E _OU T _2R LIN E _OU T _1L LIN E _OU T _1R (D AC O_S ) LIN E _OU T _0L(D AC O_L) LIN E _OU T _0R (D AC O_R ) Y5 W3 V3 U4 Y6 W4 S C 1_LOU T S C 1_R OU T E A R _AU _OU T _L E A R _AU _OU T _R AU OU T L0 AU OU T R 0 3 HDMI _2 N C _ 100N F K C 477 R EFM R EFP V C LP 4 / 13 R 48 10K J 3 E E P R OM MA IN3V 3 S 0 4 ? 402 C 478 100N F K C 476 100N F K C 468 100N F K Cl os e t o I C a s c l os e a s pos s i bl e wi t h wi dt h t r a c e St r eam T r a ns por t R 586 NC _0 J U 39 VC C WP SCL S DA 8 7 6 5 at A T24C 512B N-S H25-T A0 A1 A2 GND I 2 C addr es s A0 . 1 2 3 4 R 615 24K C 469 10U Z C 479 0. 1U K 50V S P I-C S 0N S P I-S D O S P I-S D I S P I-S C K G 3_R XE 0G 2_R XE 0+ G 1_R XE 1G 0_R XE 1+ B 7_R XE 2B 6_R XE 2+ B 5_R XE C B 4_R XE C + B 3_R XE 3B 2_R XE 3+ R 644 R 643 E E _W P R 633 4.7K J 100 J 100 J R 634 4.7K J 1 I2C _S C L I2C _S D A I2C -S D A I2C -S C L R 635 4.7K J S P I_S C K L83 Z150 L82 Z150 L81 Z150 L80 Z150 A V D D _AU A V D D _OTG A V D D _V IF A V D D _LP LL S 03 2 S P I_S D O S P I _C S N _1 R 598 10K J 8 7 6 5 4 3 2 1 F L A S H _W P N C 460 100N F K R 423 0J H OLD N 1 F las h_3V 3 4 3 2 1 S I/S IO1 S C LK N C /S IO3 VC C 5 6 7 8 9 10 11 12 13 14 15 16 S P I_S D I F L A S H _W P N S P I_S D I S P I_S C K H OLD N 1 F las h_3V 3 W P /S IO2 GND NC NC NC NC S I/S IO0 S C LK N C _ M X 2 5L 6445EM 2I-10G GND W P /S IO2 S O/S IO1 CS U 43 S O/S IO1 CS NC NC NC NC VC C N C /S IO3 U 36 S P I_S D O S P I _C S N _2 C 437 100N F K C 433 100N F K C 420 100N F K 4 3 2 1 S I/S IO1 S C LK N C /S IO3 VC C 5 6 7 8 9 10 11 12 13 14 15 1 C 447 100N F K S P I_S D I S P I_S C K C 454 2. 2U K F L A S H _W P N S P I_S D I S P I_S C K H OLD N 2 F las h_3V 3 W P /S IO2 GND NC NC NC NC 16 S 0 2 CL K S C LK S I/S IO0 C 432 100N F K C 440 100N F K C 453 0. 1U 50V AV D D _OTG C 446 100N F K C 457 100N F K C 445 100N F K N C _ M X 2 5L 6445EM 2I-10G GND W P /S IO2 S O/S IO1 CS U 44 S O/S IO1 CS NC NC NC NC VC C S O P16 300mi l S04 N C /S IO3 U 37 C 456 10U Z A V D D _LP LL C 444 100N F K AV D D _D D R C 441 100N F K C 439 10U Z A V D D _ME MP LL C 430 100N F K P M Mo de PWR C 422 100N F K C 429 100N F K C 438 100N F K VDDP C 421 100N F K 1 221TE2L LCD A V D D _MP LL C 455 100N F K F L A S H _W P N 8 7 6 5 3 2 1 C 461 N C _100N F K 4 R 424 NC _0 J H OLD N 2 F las h_3V 3 R 599 N C _ 10K J F las h_3V 3 S 03 VDDP C 436 100N F K AV D D _AU C 443 10U Z PWR C 435 100N F K L75 Z150 MA IN3V 3 C 418 100N F K * 1 0 0 M H z , No any V IA hole! S 0 2 CL K S P I_S D I S P I_S C K S P I_S D O S P I _C S N _1 S P I _C S N _2 A V D D _D D R L79 Z150 C 442 22U M +3V 3 C 434 10U Z Nor ma l A V D D _MP LL A V D D _ME MP LL AV D D _33 C 417 100N F K VDDC 2nd S PI F lash S O P16 300mi l 56 J R 607 0 J R 609 56 J R 611 33 J R 613 R 614 33 J S 03 1 0 0 - - >0 ohm C 428 100N F K C 416 10U Z STB PWR AV D D _33 +1V 8 L78 Z150 L77 Z150 L76 Z150 C 427 10U Z A V D D L_D V I VDDC * 1 0 0 M H z , No any V IA hole! F las h_3V 3 S P I-S D O S P I-C S 0N AU W S _IN S P I-S D I R59 +3V 3_S MA IN 3V 3 A0 0 8 / 9 L74 Z150 L73 Z150 C 415 22U M +1 V 26_S B oot L oader SPI F lash F las h_3V 3 R 612 0 56 J Cl os e t o Scal er S 0 2 E MI R 64 S 03 Cl os e t o Scal er S IF _C TL TS 1_C LK TS 1_S Y N C TS 1_V ALID TS 1_D 0 0J S 0 4 E MI 1 0 0 - - >0 ohmS P I-S C K +3V 3_S GND C 359 100P J R 588 U S B _OC D 0_N U S B _OC D 1_N C 449 C 450 C 451 C 452 N C _10P J N C _10PNJC _10PN JC _10P J C 369 100P J 0J 33 J 33 J 33 J R 59 100 J R 23 0 J S 0 4 E MI U S B 1_D P U S B 1_D M U S B 0_D P U S B 0_D M H D MI-C E C 0J 0J NC _0 R J 12 NC _0 R J 17 R8 R 10 C 425 100N F K C 426 1000P K AV D D _D D R R 721 1K F B _ MD D R _V R E F 2 s u p p o r t pm mode c ec dmi _c ec pi n R 580 1K F NC _0 J AU S D _IN R 20 IR U 38 N C _ G 6 90H 293T73U F +3V 3_S R 608 N C _ 10K J 2 M S AR5 PM wa k e up a dc s ar 0 ~ +3V 3_S P o wer_s av ing R 11 10K +3 V 3_S R 7_R XO0R 6_R XO0+ R 5_R XO1R 4_R XO1+ R 3_R XO2R 2_R XO2+ R 1_R XOC R 0_R XOC + G 7_R XO3G 6_R XO3+ M20 M19 N 20 N 19 P 20 P 19 R 20 R 19 T20 T19 U 20 U 19 V 20 V 19 W 20 Y 20 Y 19 W 19 Y 18 W 18 Y 17 W 17 Y 16 W 16 R ESET F D S P _ID O R 589 F D S P _ID I R 590 F D S P _IC LK R 591 F D S P _IMS R 592 TS _C LK TS _S Y N C TS _V ALID R 60 TS _D 7 100 J TS _D 6 TS _D 5 TS _D 4 TS _D 3 TS _D 2 TS _D 1 TS _D 0 L E D _R E D N 18 P 18 L17 M17 Y7 W5 V6 V5 T8 T7 R8 R7 U6 U5 V4 R 604 100 J IR E E _W P G P IO14 H D MI2_C AB S P D IF _OU T H P - D E TE C T H D MI0_C AB R 585 100 J A V D D _OTG V G A_C AB U S B _OC D _N AU S D _IN AMP _S TB AU W S _IN W 14 Y 14 W 13 Y 13 R 583 NC _0 J c h a n g e t o I R i nput M18 L18 E9 F 15 E 14 E 10 E 11 E 12 F 16 E 16 G 15 G 16 H 16 W7 F8 OTG _C ID E7 B1 B2 E8 C 423 100N F K C 424 1000P K AV D D _D D R R 577 1K F A _ MD D R _V R E F K e e p i t f l oa t i ng P C M_P W R _C TL TE S TP IN D P _P 0 D M_P 0 R 722 1K F F3 F7 A1 A2 MA IN 3V 3 S AR 3 MODE s ar s ar 4 R 606 100 D 55 LL4148 R 603 0 S P I_C Z 1 S P I_D O1 S P I_D I1 S P I_C K 1 R _OD D 7/LB 0N R _OD D 6/LB 0P R _OD D 5/LB 1N R _OD D 4/LB 1P R _OD D 3/LB 2N R _OD D 2/LB 2P R _OD D 1/LB C K N R _OD D 0/LB C K P G _OD D 7/LB 3N G _OD D 6/LB 3P G _OD D 5/LB 4N G _OD D 4/LB 4P G _OD D 3/LA0N G _OD D 2/LA0P G _OD D 1/LA1N G _OD D 0/LA1P B _OD D 7/LA2N B _OD D 6/LA2P B _OD D 5/LAC K N B _OD D 4/LAC K P B _OD D 3/LA3N B _OD D 2/LA4N B _OD D 1/LA4N B _OD D 0/LA4P TS 1_C LK /F D S P _ID O TS 1_S Y N C /F D S P _ID I TS 1_V LD /F D S P _IC LK TS 1_D 0/F D S P _IMS TS 0_C LK TS 0_S Y N C TS 0_V LD TS 0_D [7] TS 0_D [6] TS 0_D [5] TS 0_D [4] TS 0_D [3] TS 0_D [2] TS 0_D [1] TS 0_D [0] IR IN 2 IN T2 G P IO14/U AR T_TX1 S P D IF _IN S P D IF _OU T I2S _OU T_MU TE I2S _OU T_S D I2S _OU T_B C K I2S _OU T_W S I2S _OU T_MC K I2S _IN _S D I2S _IN _B C K /G P IO24 I2S _IN _W S /G P IO23 P MC E C AV D D _OTG C ID _P 1 D P _P 1 D M_P 1 V B U S _P 1 TC ON _E XT0 TE S TP IN D P _P 0 D M_P 0 +3V 3_S B TN _AD C 2 B TN _AD C 1 B TN _AD C 0 GP I O TP 352 U AR T -T X U AR T -R X S AR 0 S AR 1 S AR 2 S AR 3 S C 1-HS YNC S AR 5 P W M0 P W M1 B R I_AD J -P W M P W M3 P W M4 V G A _H S Y N C 1 V G A _V S Y N C 1 S C 1-H S Y N C S C 1-V S Y N C N C _ 10K J S c al ar Diag ram & C .B .A U AR T -T X IN T I2C -S D A I2C -S C L P C M_A0/C I_A0 P C M_A1/C I_A1 P C M_A2/C I_A2 P C M_A3/C I_A3 P C M_A4/C I_A4 P C M_A5/C I_A5 P C M_A6/C I_A6 P C M_A7/C I_A7 P C M_A8/C I_A8 P C M_A9/C I_A9 P C M_A10/C I_A10 P C M_A11/C I_A11 P C M_A12/C I_A12 P C M_A13/C I_A13 P C M_A14/C I_A14 P C M_D 0/C I_D 0 P C M_D 1/C I_D 1 P C M_D 2/C I_D 2 P C M_D 3/C I_D 3 P C M_D 4/C I_D 4 P C M_D 5/C I_D 5 P C M_D 6/C I_D 6 P C M_D 7/C I_D 7 P C M_IOR D _N /C I_R D P C M_IOW R _N /C I_W R P C M_OE _N P C M_W E _N P C M_R E G _N /C I_C LK P C M_C E _N /C I_C S P C M_IR QA_N /C I_IN T P C M_W AIT _N /C I_W AC K P C M_R E S E T P C M_C D _N D D C D C _C K D D C D C _D A C _R XC N C _R XC P C _R X0N C _R X0P C _R X1N C _R X1P C _R X2N C _R X2P H OT P LU G C V 13 U 13 T 13 R 13 V 12 U 12 T 12 R 12 U 11 V9 T 11 T 10 U 10 V8 V7 R 11 R 10 P9 R9 T9 U9 U8 U7 U 18 T 18 V 18 V 17 U 17 T 17 R 17 R 18 P 17 N 17 R 14 T 14 W8 Y8 W9 Y9 W 10 Y 10 W 11 Y 11 N 15 P C M_A0 P C M_A1 P C M_A2 P C M_A3 P C M_A4 P C M_A5 P C M_A6 P C M_A7 P C M_A8 P C M_A9 P C M_A10 P C M_A11 P C M_A12 P C M_A13 P C M_A14 P C M_D 0 P C M_D 1 P C M_D 2 P C M_D 3 P C M_D 4 P C M_D 5 P C M_D 6 P C M_D 7 P C M_IOR D _N P C M_IOW R _N P C M_OE _N P C M_W E _N P C M_R E G _N P C M_C E _N P C M_IR QA_N P C M_W AIT _N P C M_R E S E T P C M_C D _N H D MI2-S C L H D MI2-S D A H D MI2-C LK N H D MI2-C LK P H D MI2-R X0N H D MI2-R X0P H D MI2-R X1N H D MI2-R X1P H D MI2-R X2N H D MI2-R X2P H D MI2-H P D IN 1 0 B i t LVDS IR IN IN T U AR T _T X(D D C A_D AT ) U AR T _R X(D D C A_C LK ) S AR 0/F D S P _IMS /MC U _T MS S AR 1/F D S P _IC LK /MC U _T C K S AR 2/F D S P _ID I/MC U _T D I S AR 3/F D S P _ID O/MC U _T D O S AR 4 S AR 5 P W M0 P W M1 P W M2 P W M3 P W M4 P W M5 D D C R _D AT D D C R _C LK R ESET V 10 V 11 P 15 P 14 W 12 Y 12 V 14 U 15 V 15 V 16 R 16 P 16 T 16 U 16 T 15 R 15 Y 15 W 15 U 14 S y s tem-R S T D 10K J R 616 10K J N C _ 10K J R 636 R 617 N C _ 10K J R 420 R 618 N C _ 10K J R 637 10K J R 13 N C _ 10K J R 620 N C _ 10K J R 639 R 621 10K J R 640 R 622 10K J R 641 A_B A2 A_MC LK Z A_MC LK A_MD AT A5 A_MD AT A2 A_MD AT A0 A_MD AT A7 A_MD AT A13 A_MD AT A10 A_MD AT A8 A_MD AT A15 A_D QS 1M A_D QS 1P A_D QS 0M A_D QS 0P A_D QM0 A_D QM1 A_MD AT A14 A_MD AT A9 A_MD AT A12 A_MD AT A11 A_MD AT A6 A_MD AT A1 A_MD AT A3 A_MD AT A4 A_MAD R 3 A_MAD R 7 A_MAD R 12 A_MAD R 9 A_MAD R 5 A_MAD R 10 A_MAD R 1 A_B A0 A_B A1 A_C K E A_W E Z A_MAD R 11 A_MAD R 8 A_MAD R 6 A_MAD R 4 A_MAD R 2 A_MAD R 0 A_C AS Z A_R AS Z A_OD T A_MD D R _V R E F B _MAD R 3 B _MAD R 7 B _MAD R 12 B _MAD R 9 B _MAD R 5 B _MAD R 10 B _MAD R 1 B _B A0 B _B A1 B _C K E B _W E Z B _MAD R 11 B _MAD R 8 B _MAD R 6 B _MAD R 4 B _MAD R 2 B _MAD R 0 B _C AS Z B _R AS Z B _OD T B _MC LK Z B _MC LK B _MD D R _V R E F B _MD AT A5 B _MD AT A2 B _MD AT A0 B _MD AT A7 B _MD AT A13 B _MD AT A10 B _MD AT A8 B _MD AT A15 B _D QS 1M B _D QS 1P B _B A2 B _D QS 0M B _D QS 0P B _D QM0 B _D QM1 B _MD AT A14 B _MD AT A9 B _MD AT A12 B _MD AT A11 B _MD AT A6 B _MD AT A1 B _MD AT A3 B _MD AT A4 F 14 A5 B5 C5 A6 B6 C6 A7 B7 C7 A8 B8 C8 A9 B9 C9 A10 B 10 C 10 A11 B 11 C 11 A12 B 12 C 12 A13 B 13 C 13 A14 B 14 C 14 A15 D9 D 10 D 11 D3 D4 D5 D6 A3 B3 C3 A4 B4 C4 E 13 G 17 J 17 K 20 K 19 H 17 J 20 F 17 J 19 E 17 J 18 D 17 C 15 A16 D 15 B 16 D 16 C 16 A17 B 17 C 17 A18 A19 E 15 A20 B 18 B 19 B 20 C 18 C 19 C 20 D 18 D 19 D 20 K 17 E 18 E 19 E 20 F 18 F 19 F 20 G 18 G 19 G 20 H 18 H 19 H 20 A_B A[2] A_C K _N A_C K A_D Q[5] A_D Q[2] A_D Q[0] A_D Q[7] A_D Q[13] A_D Q[10] A_D Q[8] A_D Q[15] A_LD QS _M A_LD QS _P A_U D QS _M A_U D QS _P A_D QM[0] A_D QM[1] A_D Q[14] A_D Q[9] A_D Q[12] A_D Q[11] A_D Q[6] A_D Q[1] A_D Q[3] A_D Q[4] A_AD [3] A_AD [7] A_AD [12] A_AD [9] A_AD [5] A_AD [10] A_AD [1] A_B A[0] A_B A[1] A_C K E A_W E _N A_AD [11] A_AD [8] A_AD [6] A_AD [4] A_AD [2] A_AD [0] A_C AS _N A_R AS _N A_OD T A_MV R E F B _A[3] B _A[7] B _A[12] B _A[9] B _A[5] B _A[10] B _A[1] B _B A[0] B _B A[1] B _C K E B _W E _N B _A[11] B _A[8] B _A[6] B _A[4] B _A[2] B _A[0] B _C AS _N B _R AS _N B _OD T B _C K _N B _C K B _V R E F B _D Q[5] B _D Q[2] B _D Q[0] B _D Q[7] B _D Q[13] B _D Q[10] B _D Q[8] B _D Q[15] B _LD QS _M B _LD QS _P B _B A[2] B _U D QS _M B _U D QS _P B _D QM[0] B _D QM[1] B _D Q[14] B _D Q[9] B _D Q[12] B _D Q[11] B _D Q[6] B _D Q[1] B _D Q[3] B _D Q[4] K A 3 VC C 49 A B C D A B C 5 S C 1 _ A UIN_ L S C 1 _ A UIN_ R 7 7 C 247 C 246 1K J R 334 modi f y bom- R3 3 2 - >1K R3 3 7 - >220K C2 4 6 - >220P 1K J R 332 220P K 7 S C 1 _ R O UT 220P K 7 S C 1 _ L O UT R 338 R 337 C 245 C 242 S G 20 S G 21 1 1 2 2 1 5 V 150P F . . 100P J 15K 4 15K 4 C 258 12K 12K J J 560P J560P J C 259 C 255 2 . 2 U 6 . 3V R 344R 345 C 254 2 . 2 U 6 . 3V C 257 R 328 10K J S C 1 - R in 7 7 100 J R 326 R 330 R 331 3 V AR 7 1 5 V 1 50P F del et e 100K 100K C 243 C 244 100P J 100P J 100 J R 324 S C 1 -Lin R 341 1 0 0 0P K 10K J C 253 10K C 251 1 0 0 U 2 5V 1 0 0 0P K 10K 330P J 330P J C 256 + R 329 100 C 241 R 343 R 339 33K R 336 33K +5V 3 S G 18 V AR 6 1 5 V 1 50P F S c al ar Diag ram & C .B .A R 342 C 250 10U Z 1/ 27 U40 L M8 33D C 252 1 0 0 P J V AR 9 1 5 V 150P F . . C 240 R 340 V AR 8 10K J 10K J 1/ 27 1000P K 1000P K C 249 R 335 2 . 2 U 6 . 3V C 248 R 333 2 . 2 U 6 . 3V Ne a r MS T . I C DAC out put Pa d Gr ound i n t he mi ddl e of t he L / R 220K R 323 5 5 220K 4 -V C C 3 6 I-2 221TE2L LCD 7 I+2 I+1 2 I-1 S2 1 S1 +V C C 8 D 50 1 2 1 . . 2 1 . . 2 S G 19 S C 1 _ A UO UT _ R 2 7 7 S C 1 _ A UO UT _L 2 1 1 e vC ode > A B C D A B C D S02 J 21 HDMI S HE L L 4 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 ZD3 T ZM C 6 V 2 ZD5 NC _ T ZM C 6 V 2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 C ONN D2+ D2 S hield D2D1+ D1 S hield D1D0+ D0 S hield Hole2 D0CK + C K S hield Hole1 CK C E R emote NC DDC C L K S HE L LDDC 3 DA T A G ND +5V S HE L L 1 HP DE T NC _ 2B C 0023011 S HE L L 2 J21 AT 1 9 1 0 P S S S D2+ D2 S hield D2D1+ D1 S hield HE L L 1 D1D0+ D0 S hield D0HE L L 2 CK + C K S hield CK C E R emote HE L L 3 NC DDC C L K DDC DA T A G ND +5V INB HP DE T 2B C0053021 P INA F L ANGE G1 G3 G5 G6 G4 G2 G2 G5 G4 G3 G1 J8 ZD4 5 H D M I0 _ C E C H D M I2 _ C E C F r o m HDMI V1 S02 ZD6 NC _ T ZM C 6 V 2 V 12 r e mo v e V 11 c o n n e c t or R 319 0 N C _0 R 739 V9 r e mo v e V 13 R 133 H DM I0 _ C L K N H D M I0 _ C E C CE C a nd N C _10 N C _10 N C _10 N C _10 N C _10 N C _10 N C _10 f or E MI 5V To H D M I -C E C H D M I -C E C 4 t ol e r a nc e ? ? ? ? R 322 200 J 7 I C H D M I 2 -C L K N H D M I 2 -C L K P H D M I 2 -R X 0 N H D M I 2 -R X 0 P H D M I 2 -R X 1 N H D M I 2 -R X 1 P H D M I 2 -R X 2 N H D M I 2 -R X 2 P 7 7 7 7 7 7 7 HDMI H D M I 0 -C L K N H D M I 0 -C L K P H D M I 0 -R X 0 N H D M I 0 -R X 0 P H D M I 0 -R X 1 N H D M I 0 -R X 1 P H D M I 0 -R X 2 N H D M I 0 -R X 2 P MS T NC _ 1 0 0 0 P K C549 onl y 3 . 3 V t ol e r a nc e not ne e d pul l h i g h - - - - OK d e l e t e - - OK E MI N C _10 f or 1000P K C166 H DM I2 _ 5 V IN R 316 H DM I2 _ C L K N H D M I2 _ C E C H DM I2 _ S C L H DM I2 _ S DA R 738 R 734 H DM I2 _ R X 0 P H DM I2 _ C L K P R 733 H DM I2 _ R X 1 N R 311 R 731 H DM I2 _ R X 0 N R 730 1/ 25 H DM I2 _ R X 1 P ) R 300 H DM I2 _ R X 2 N c h o k e ( E MI H DM I2 _ R X 2 P R e mo v e d e l e t e - - OK H P _ DE T _ H DM I0 10 10 10 10 10 10 10 H DM I1 _ 5 V IN R 134 R 136 H DM I0 _ R X 0 P R 135 R 137 H DM I0 _ R X 1 N H DM I0 _ C L K P R 138 H DM I0 _ R X 1 P H DM I0 _ S C L H DM I0 _ S DA 10 1/ 25 R 139 ) R 140 H DM I0 _ R X 2 N c h o k e ( E MI H DM I0 _ R X 2 P H DM I0 _ R X 0 N c o mmo n H P _ DE T _ H DM I2 c o mmo n S03 V2 S02 T ZM C 6 V 2 F or C E C L eakage P r otect No T P 68 T 96 K A AT 1 9 1 0 K A 7 7 7 7 7 7 7 7 7 T P 66 N C _100 ZD1 4 C547 NC _ T ZM C 6 V 2 NC _ 0 .1 U 5 0 V mo d i R 724 3 R 276 1 00 ZD1 3 T ZM C 6 V 2 T P 52 De t e c t U2 7 1 1 Ca bl e C546 0.1U 50V H DM I2 _ W P HDMI H DM I0 _ W P 3 De t e c t U2 7 1 1 Ca bl e K A HDMI 0 5V 1PF 2 1 .. N C _5V 1PF 2 1 .. S02 K A K A 5V 1PF 2 1 .. N C _5V 1PF 2 1 .. 5V 1PF 2 1 .. N C _5V 1PF 2 1 .. K f y 7 7 16 7 7 H DM I2 _ S DA 3 J R 314 R 737 R 736 R 237 R 294 R 723 R 240 J H DM I2 _ R X 0 N H DM I2 _ R X 0 P S DA S CL NC _ R C L A M P 0524P U15 A1 A2 A1 G ND +5V 4 3 2 +5V AT 1 9 1 0 E DI D Da t a H DM I0 _ C L K P H DM I0 _ C L K N S t or a ge R CLAMP 0524P U19 G ND S DA 4 3 2 H DM I2 _ 5 V IN A2 S CL A2 A1 WP U17 N C _ A T 2 4 C 0 2 N -1 0 S U -1 . 8 1 VCC A0 WP A1 A2 2 H DM I2 _ C L K P H DM I2 _ C L K N U16 H DM I2 _ R X 2 N H DM I2 _ R X 2 P R CLAMP 0524P U20 H DM I0 _ R X 2 N H DM I0 _ R X 2 P R 488 N C _1K H P _ DE T _ H DM I2 NC _ R C L A M P 0 5 2 4 P R 484 N C _10K U2 7 1 1 4. 7k t o 1 k - - OK Pr ot e c t pul l - hi gh H D M I 0 -H P D I N7 1 k - - OK pul l - hi gh P r ot e c t ESD P r ot e c t H DM I2 _ R X 1 P H DM I2 _ R X 1 N ESD H DM I0 _ R X 1 P H DM I0 _ R X 1 N 1 R 487 B H D M I 2 -H P D I N7 Q 34 N C _4. 7K J NC _ 2N3904S U2 7 1 1 c ha nge J H DM I2 _ W P E E P R OM Wr i t e N C _22K t o R 238 4. 7K J HDMI - CAB R 485 J H DM I2 _ 5 V IN HDMI B R 486 N C _10K H 2 _ E DID_ V C C 4. 7k Pr ot e c t H DM I0 _ W P U2 7 1 1 B Q 12 2N3904S c ha nge H DM I1 _ 5 V IN H P _ DE T _ H DM I0 Q 35 NC _ 2 N3 9 0 4 S 2 2K R 483 E E P R OM Wr i t e R 233 1K HDMI B R 482 10K J HDMI - CAB U2 7 1 1 R 481 10K J 1 221TE2L LCD H 1 _ E DID_ V C C Q 33 2N3904S W P _ H DM I0 W P _ H DM I2 H DM I1 _ 5 V IN U18 A T 2 4 C 0 2 N -1 0 S U -1 . 8 1 VCC A0 A1 A2 2 DDC ( HDMI 2 ) 5 6 7 8 A1 A2 5 6 7 8 B AT 54C J DN6 NC _ B A T 54 C J H DM I0 _ R X 0 N H DM I0 _ R X 0 P NC _0 J NC _0 J N C _150 N C _150 W P _ H DM I2 J DN7 0 J 0 J 1 50 1 50 W P _ H DM I0 C165 0.1U K 50V J J H 1 _ E D ID_ V C C H 2 _ E D ID_ V C C J R 235 OK 1 0 K C548 N C _ 0.1U K 50V R 735 R 304 N C _10K b o m- - OK R 234 10K b o m- - R 732 N C _10K H DM I0 _ S DA H DM I0 _ S C L R235 H D M I 0 -S C L H D M I 0 -S D A H DM I2 _ S C L H D M I 2 -S C L H D M I 2 -S D A R234, 16 R234, R235 mo d i f y H DM I0 _ C A B H DM I2 _ C A B 3 E DI D wr i t e pr ot e c t e d: p o we r of f : l ow ( wr i t e _ e na bl e d) s t a ndby / powe r on: hi gh ( wr i t e _ pr ot e c t e d) A C E HDMI 5 4A 4 2 C E 5 3 G ND C E S c alar Diagram & C .B .A 4 3A 3Y 7 4Y 6 5 4A 4 3A 4Y 6 3Y 7 3 G ND G ND 8 3 G ND 1 1A 2A 9 1A 10 G ND 8 2A 2Y 9 1Y 10 C E 2Y 2 5 4A 1Y 1 4 3A 3Y 7 4Y 6 5 4A 4 3A 4Y 6 3Y 7 2 9 G ND 8 3 G ND 2 9 G ND 8 2A 2Y 1 1A 1Y 10 2A 2Y 1 1A 1Y 10 de > A B C D 51 A B C D L66 DM _3V 3 DM _3V 3 Z120 L71 Z120 L67 3 V IN C 354 1 0 0 NF K 5 V OUT C 374 1 0 0 NF K C 364 1 0 0 NF K C 362 1 0 0 0P 50V T S _ MIC LK RP6 RP5 T S _ MIC LK R 7 4 3 22 J 4 R 417 T S _ MIV ALD T S _ MD I0 T S _ MD I1 T S _ MD I2 T S _ MD I3 T S _ MD I4 T S _ MD I5 T S _ MD I6 T S _ MD I7 R 416 T S _ MIS YNC DM _3V 3 T S _ MIC LK P R 7 4 2 22 J T S _ MDI0 T S _ MD I[1 . . 7 ] T S _ MIV A LID T S _ MIS YNC C 317 22U M T S _ MIC LK P T S _ MD I[1 . . 7 ] C 370 1 0 0 NF K C 363 1 0 0 NF K C 318 1 0 0 NF K 2 L D 1 1 1 7 A L -33-AA3-A-R C 355 1 0 0 NF K C 357 10U Z 3 V 3 D_P LL C 360 10U Z 3 V 3 D _ADC C 373 1 0 0 NF K C 356 1 0 0 NF K S OT - 223 ( 1A) C 361 1 0 0 NF K 3 V 3 D_DE Z120 DM_1V 2 C 365 10U Z Z120 DM _3V 3 L10 DM1V 2 3 / 31 DE MO_5V U12 G ND 4 3 / 31 4 1 2 3 4 1 2 3 4 22 J 22 J V IN U1 8 22 7 6 5 8 7 22 6 5 V OUT L72 I2 C _ S C L I2 C _ S DA C 358 NC _ 4 7 P J 0 3 S03 37 38 39 40 41 42 43 44 45 46 47 48 IF _ A G C IF _AG C 3 / 31 R 87 R 89 T S _V LD T S _DAT A[0] T S _DAT A[1] T S _DAT A[2] T S _DAT A[3] T S _DAT A[4] V DDP T S _DAT A[5] T S _DAT A[6] T S _DAT A[7] T S _C LK T S _E R R U13 R M2 1 01B 0LA 3 V 3 D_DE S02 GND 1 DM _3V 3 G ND G ND 2 4 5 DM_ 1V 2 1 4 DM_1V 2 TP 64 C 59 1 0 0 NF K MS B 1 220-LF 100 100 3 TP 39 AV DD X OUT X IN GND VRE FP VRE FM AV DD ZIF _IM ZIF _IP ZIF _QP ZIF _QM GND R 16 10K J DM_3V 3 C 58 22U M D M1V 2 3 24 23 22 21 20 19 18 17 16 15 14 13 E X T R S TN T U NE R _ S C L T U NE R _ S D A R 100 4. 7K J R 102 0J R 378 0J 22 J Z IF _ IM C 61 N C _ 10U Z 2 22 J Z IF _ IP R 408 2K J R 98 NC _10K J Y1 2 4 MHZ C 62 C 60 C 74 C 69 R 414 10K J R 413 NC _10K J G P IO _ 3 G P IO _ 2 DM _3V 3 D - IF - D - IF + C 346 1 0 0 NF K C 345 1 0 0 NF K R 415 10K J R 412 NC _10K J 1 0 0 NF K 1 0 0 NF K VRE FM VRE FP C l os e t o MS B1220 R 113 R 110 I F BPF 33P J 33P J C 41 1 0 0 0P K D M_1V 2 Di gi t a l R 129 NC _10K J X IN R 407 2K J DM_3V 3 D M_ R E S E T R 101 NC _0 J D6 NC _ L L 4148 X OUT 2 Cr y s t a l C 40 1 0 0 0P K MAIN3V3 C 350 1 0 0 NF K C 351 1 0 0 NF K 3 V 3 D _ ADC 3 V 3 D_P LL Z IF _ IM Z IF _ IP ZIF _QP ZIF _QM VRE FP VRE FM X OUT X IN R 99 4. 7K J 5 V? ? ? C 28 1 0 0 0P K MAIN5V S03 E MI D E MO_5V C 27 1 0 0 0P K D M_1V 2 S c alar Diagram & C .B .A 3 V 3 D_ DE 221TE2L LCD T U N E R _ S DA T UNE R _ S C L X T AL_MODS E L_M 36 35 34 33 32 31 30 29 28 27 26 25 T S _S Y NC V DDP G ND IF _AG C R F _AG C G ND V DDC G ND V DDC I2C M_S DA I2C M_S C L X T AL_MODE S E L V DDC G ND V DDP I2C S _S C L I2C S _S DA G P IO[1] V DDC G ND RE S E TZ G P IO[2] G P IO[3] P LL_T E S T 1 2 3 4 5 6 7 8 9 10 11 12 E XTRS TN G P IO _2 G P IO _3 52 K A D - IF - D - IF + C 347 1 0 0 NF K 1 1 A B C D 221TE2L LCD S c alar Diagram & C .B .A 53 A B C SG4 N1 SG5 N3 2 1 SG3 SG7 1 . . V AR 1 470V 1 C N601 1 SG8 1 F 601 2 5 0 V 2A 3 1 SG2 C 603 2200P F 2 2 1 L N R 603 2M S G 10 C 617 2200P F 2 2 1 T P 601 T P 603 T P 602 1 N. C . 2 R 602 2M C 601 0.33U H4 C N602 2K 61007103 C 604 2200P F 2 1 20MH L 601 SG9 2 C 618 2200P F R 601 2M 2 2 2 2 SG1 L1 L5 L2 SG6 L3 NT C 8O HM 1 - P 01 R721 R722 B3: C615 C708 I C602 I C701 R60 D602 L604 D5: C602 C617 C 618 TR601 D4: BD601 C605 C607 L 603 R604 R609 R 606 10 F B /O LP R 609 47 N. C . 6 K C 607 100P J A C 612 100P J D602 U F 4 0 0 7 -L F R 610 47 E5 D601 U F 4 0 0 7 -L F E4 I C6 0 1 HS 1 3D0W 801002 HSi nk GC1 3D05402001 HSi nk C 708 4.7U K 6 7 8 9 10 HSi nk SCR1 3 D 0 0H 40M30 H1 C 702 1 0 0 0P K A2 A1 C 712 1 0 0 0P K A2 A1 A R 706 2 0K F R 701 27 D701 F MX-12S L R 715 27 N. C . D703 F MX-12S L + Q 701 N. C . N. C . G R 710 3 6K F C 703 3 3 0 U 35V AP M2307AC -T R L HSi nk HS 3 3 D L 2A01001 D7 0 1 D7 0 3 R 707 1 0K F C 707 0.1U K J J K D702 U G 4 D -E 3 /7 3 R 709 10K R 708 1K C 701 1 0 0 0P K C 711 1 0 0 0P K LM431B C Z IC 7 0 1 R IC 7 0 2 _ K R 705 470 E R -2 8 2 8 6 0 0U H IC 6 0 1 _ 6 5 4 2 IC 6 0 2 L T V -817M-L GND P AD C 615 1000P M R 607 8 2K F L 604 Z 45/100MH Z T P 606 3 1 T601 3 Power Diagram & C.B .A C 606 0 . 0 01U J C 611 1 0 0 0P 50V R710 R711 R713 R714 D702 R610 T601 R715 R716 D3: C606 C711 C712 D601 D2: C713 D703 Q703 D1: R717 ZD701 C5: C601 L601 R601 R60 2 R603 VAR1 C4: C608 C609 C614 I C 601 R606 R608 C3: C612 C701 C702 + E3 R 604 6 8 K 2W T P 605 C 608 2 2 U 5 0V T P 604 7 R705 R708 R709 C2: C703 C704 C705 D70 1 L701 R701 C1: C705 CN701 B5: C603 C604 F 601 CN602 B4: C610 C611 IC 6 0 1 -V c c L 603 Z 45/100MH Z C 605 1 2 0 U 450V S T R -W 6262 IC 6 0 1 C 609 0.1U K + B2: C707 C709 Q701 Q702 R706 R707 B1: C717 CN702 E6 1 + E2 B D 6 01 2K B P 06M-L F 6 0 0 V 2A N4 E1 F M/S S /Latch ~ ~ C 610 0 . 01U K 7 C 614 100P K R 608 0. 47 2W 4 t A5: CN6 01 T R 601 2 2 3 4 K A D 1 1 2 2 1 1 1 1 2 2 1 1 2 2 1 1 4 C 602 0.33U 2 D/S T 1 1 S /OC P 1 2 2 3 4 VCC G ND 5 3 3 N 1 L 2 G 1 1 2 1 2 2 4 3 5 1 G1 1 G1 1 A K 2 2 G2 1 1 2 2 3 3 4 4 G1 G1 1 2 S + + HSi nk SCR2 3 D 0 0H 40M30 N. C . C 709 0.1U K G N. C . Q 702 2 N 7 002K N. C . R 711 1 00K C 704 3 3 0 U 35V D701_J C 713 3 3 0 U 35V 2 H1 R 717 330 + C 705 3 3 0 U 35V R 722 10K N. C . N. C . S hor t R 721 330 18V 7.5V B R T _ A DJ B L T _O N 7.5V 18V N. C . C 717 2.2U K BRT _ A DJ P W R _S AV Z D701 B Z V 5 5 C 15 BL T _ ON R 714 10K N. C . R 713 330 L 701 2. 7U Q 703 K T C 2 0 0 -Y /P B R 716 100 2W PWR_ S AV C 706 0.1U K C E 221TE2L LCD 1 1 54 2 2 D G2 G2 1 2 1 2 D 3 3 S 4 4 K A 1 2 18V 1 T P 709 T P 708 T P 706 T P 705 T P 704 T P 701 T P 702 T P 703 C N701 2K 61185112 C N702 5 K . 0 W 210.001 1 2 3 4 5 6 7 1 2 3 4 5 6 7 8 9 10 11 12 v. e A B C D A B C D B L T _O N B R T _ A DJ 7.5V C 811 1000P J R 825 1K J R 803 30 S IG N C 803 2 2 U 5 0V S IG N + +5 V D D A S R 820 1 00K J R 804 18K J IC 8 0 1 -1 3 Z D803 T ZMC 6V 2 S IG N C 817 0 . 01U K Q 805_G R 808 1K J S IG N R 826 1 00K S IG N Z D804 T ZMC 6V 2 R 827 511 F C 2 N 3 904S Q 810 E B K A 1 2 S IG N C 814 0.033U K E NA R 828 2 0K F C 813 0.1U K OZ9 9 33 OVPT IS E N PWM T IME R V DDA P DR 1 NDR 1 IC 8 0 1 R 809 1 00K 16 15 14 13 12 IC 8 0 1 -1 4 C 807 2 . 2U K Q 805 2N7002K -T 1-E 3 D R 805 10K S IG N C 804 1U K 11 10 9 NDR 2 CT R T1 G NDA P DR 2 G NDP VS E N S S T /C MP C 805 0.047U K IC 8 0 1 _ 3 0.047U K C 806 R 802 5 . 1K S IG N C 808 0 . 01U K C 826 2.2U K C 809 220P J + D811 L L 4148 Z D801 T ZMC 6V 2 R 829 90. 9K F R 806 90. 9K F R 801 5 . 1K IC 8 0 1 -1 S IG N C 810 0.047U K R 807 3 01K S IG N R 810 1M 1 2 3 4 5 6 7 8 Z D802 T ZMC 6V 2 K A 4 K A 1 2 18V K A P _A C 801 3 3 0 U 35V R 811 10K N _D R 830 1K R 812 10K C 812 1U 50V K P _C N _B D810 L L 4148 3 2 4 2 4 1 3 1 5 G K A 3 5 6 8 7 Q 802 5 6 8 7 Q 801 Q D2 Q D1 Power Diagram & C.B .A K A C 816 4.7U M T2 C 815 4.7U M T1 5 . . 2 T 801 7 8 F1 F2 C 824 1000P J C 820 10P F J 2 R 824 2 0K F C 823 10P F J C 822 1000P J D 8 0 1_A1 A1 R 823 90. 9K F R 822 2 0K F C 821 10P F J C 825 0 . 22U K G xxxxx 2N7002K -T 1-E 3 Q 806 D806 B AV 70 A2 D 8 0 6_A2 R 821 90. 9K F J D S D801 L L 4148 R 819 1M K A R 818 511 F K R 816 365 F K T P 802 1 D803 B AV 99 A D 8 0 5 _J R 817 2K T P 804 T P 803 A D802 B AV 99 R 815 2K T P 801 2 1 2K 62272102 2 1 C N801 XXXXX 2K 62272102 2 1 C N802 2 1 221TE2L LCD J J 84. 008M3. 0 30 84. 008M3. 0 30 55 v. e A B C D 56 221TE2L LCD Power Diagram & C.B .A 221TE2L LCD Power Diagram & C.B .A 57 A B C C 801 2 2 0 U 25V V in R 801 0 C 802 220U + C 822 220U + R 814 1 00K R 813 1K V in T P 853 T P 852 T P 851 T P 854 R866 OVP L 801 47U M C 811 C 812 0 . 0 1U J 100P J R 812 1 40K R 810 1 5K F B L_ON B L_ADJ C 804 0.1U 50V V in R874 D5: C804 CN851 NC IS W E NA RT IS E T OVP 5 R 804 0. 2 F G Q 801 A P 9 9 9 7 G H -H F R 803 10 F C 807 2.2U K S S T C MP S T AT US PWM IS E N1 IS E N2 IS E N3 P AD 4 R 805 0. 2 F C 808 0.1U 50V V in_IC R 815 1K 19 20 21 22 23 24 25 R803 R804 R805 R807 R822 R 802 100 F 5 R816 R817 R818 R812 R813 R814 R863 R870 CN852 D2: C855 C856 R861 D1: CN8 65 C5: C811 C812 R810 R811 C4: C807 C808 C809 I C801 R81 C3: C810 R819 R 820 R821 C2: R865 R867 C1: CN861 CN862 CN86 3 R868 R869 B5: C801 C802 C803 C82 2 L 801 R801 12 11 10 9 8 7 IC 8 0 1 B4: C805 C806 C813 C814 C815 D801 Q801 R802 C862 R808 R809 C 803 0.1U 50V R 811 0 B L_ON B L_ADJ B3: C851 C852 C853 C854 B2: R862 R864 B1: CN864 R87 1 R872 + V in_IC B L_ON 2K 62095106 C N 8 5 2 (O pen) 6 5 4 3 2 1 2K 61185106 5 6 IS E N8 4 IS E N7 LDR 13 C N851 6 5 4 3 2 1 3 IS E N6 VR E F 14 D 1 2 2 IS E N5 G NDP 15 1 IS E N4 SEL G NDA V IN 16 D S 17 C OMP 18 C 806 220P J C 809 0.47U K 0 K C 814 330P J C 815 100P J O V P R 807 A D801 E S 1D R 817 1 00K C 813 330P J C 805 220P J R 822 10 J R 816 0 R 818 100 F R 809 4 7K F R 808 1M F R 819 1 00K R 820 1 00K C 853 0 . 22U K + C 854 0 . 22U K R 821 1K 3 C 852 2 2 U 1 00V C 851 2 2 U 1 00V C 810 0 . 0 1 U 2 5V LE D1 LE D2 LE D3 LE D4 LE D5 LE D6 LE D7 LE D8 + C 862 2 2 U 1 00V B L_ADJ + V out LE D1 LE D2 LE D3 LE D4 LE D7 LE D8 LE D5 LE D6 V out LED Diagram & C.B .A 1 2 221TE2L LCD 1 2 58 1 2 1 2 1 2 R 867 0 R 865 0 R 863 0 R 861 0 V in R 862 0 R 874 10 J R 870 10 J R 864 0 R 866 0 2 C 856 0 . 22U K C 855 0 . 22U K LE D2 V out LE D7 R 872 0 T P 869 T P 868 T P 867 T P 866 LE D8 R 871 0 LE D4 R 869 0 LE D8 1 2 3 4 1 2 3 4 5 6 12 11 10 9 8 7 6 5 4 3 2 1 T P 870 10 9 8 7 6 5 4 3 2 T P 871 1 V out V out 2K 62285106 C N861 LE D5 1 2 3 4 5 6 R 868 0 T P 863 T P 864 T P 865 T P 861 T P 862 LE D4 LE D5 LE D6 LE D7 V out V out LE D8 LE D1 LE D2 LE D3 10 9 8 7 6 5 4 3 2 1 1 2 3 4 1 2 3 4 5 6 12 11 10 9 8 7 6 5 4 3 2 1 G2 G2 G1 G1 G1 G1 G2 G2 G1 G1 G2 G2 G2 G2 G1 G1 OZ9998A 1 C N864 C N863 2K K 2241004 C N862 2K K 2231006 C N865 A B C D 221TE2L LCD LED Diagram & C.B .A 59 A B C S E N S O R _P OW E R S E N S O R _INP UT S E N S OR _ME NU S E N S O R _ C HDOW N 5 R8 0 R6 0 R4 0 Ci r c ui t R3 0 4 P o we r S uppl y 3 . 0V~5. 5V C 10 C 11 1 0 U Z 0 . 1 U 50V Vol t a ge V C C _ 3 V3 V C C _ 3V3 R 18 10K C9 1U K C 12 1U K 1 2 3 4 5 6 7 8 4 T P 13 T P 12 R es _N Int DAC 2 DAC 1 VDDH VDDL VLDO G ND C1 C2 C3 C4 C5 C6 C7 N C _ 3 0 P JN C _ 3 0P JN C _ 3 0 P JN C _ 3 0P JN C _ 3 0P JN C _ 3 0 P JN C _ 3 0P J R9 0 R7 0 S E N S O R _ VOLDOW N S E N S O R _C HUP R 13 0 Ca nc e l S E N S O R _VOLUP T o u c h P AD wi t h Noi s e 5 221TE2L LCD 24 23 22 21 20 19 18 17 P ower TM CF1 CF0 0 CF1 R 16 NC _ 0 TM API S1 API S2 S04 S ens i CF0 0 0 1 1 3 V olume_Down C ha nnel_Up C hannel_Down Menu Input V olume_Up E x pos ed Pad = NC GPI O GND R 15 CF0 R 10 R 11 NC _ 0 0 V C C _ 3V3 3 t i vi t y Set i ng CF1 0 IIC 1 Mi ddl e 0 Low 1 Hi ght C ontrol Diagram & C .B .A. S _IN7 T mode C onfig1 C onfig0 U2 G P IO_S W AT A5 088DA-32N NC G P IO7 G P IO6 32 31 30 29 28 27 26 25 S _IN0 S _IN1 S _IN2 S _IN3 S _IN4 S _IN5 S _IN6 NC S DA SCL G P IO0 G P IO1 G P IO2 G P IO3 G P IO4 G P IO5 9 10 11 12 13 14 15 16 D 60 P ower R 14 R5 2 V olume_Up V olume_Down C hannel_Up R1 V C C _ 3 V3 R 22 R 21 R 20 C hannel_Down R 19 Menu Input 2 33K F 10.5K F 2.55K F 10.5K F 2.55K F 33K F 0 F IR _ S IG N TP1 OP 1 OP 1 V AR 1 1 5 V 150P F W H IT E /R E D LE D1 TP8 LE D_B LUE 8 7 6 5 4 3 2 1 J2 1 2 3 4 5 6 2K K 1020006 1 2 3 4 5 6 J1 OP 3 OP C 14 0 . 1 U 50V 2K K 1020008 8 7 TP7 5 ADC 0 TP5 LE D_AMB E R 4 ADC 1 TP4 6 3 ADC 2 2 1 OP 2 OP TP3 V C C _ 3V3 1 TP6 TP2 1 . . 2 A C1 C2 A B C D 221TE2L LCD C ontrol Diagram & C .B .A. 61 A B C D 62 5 5 221TE2L LCD 2K K 2085006 1 2 3 4 5 6 J1 1 2 3 4 5 6 4 +3 . 5V S 4 . . 1 IR R3 10K 1 5 V 150P F R2 22 2 Z D2 Z D1 1 5 V 150P F 3 U1 F M-8 1 3 8 S M-5D N 3 OP 1 OP IR Diagram & C.B .A C1 1 0U Z +3 . 5V S I R S ens or 1 . . 2 G2 G2 G1 G1 V cc G ND V out 2 3 1 OP 2 OP 2 2 1 1 A B C D 221TE2L LCD IR Diagram & C.B .A 63 64 221TE2L LCD General Product Specification M2- 221TE2L GENERAL PRODUCT SPECIFICATION Issued by: Argent Chan/Paul Tsai Revision History Ver. 0.1 0.2 Date (yy.mm.dd) 2008.08.01 2010/11/01 Author Brief Description UC Paul Initiate version, TV-M models To update 221TE2L data Blue: Changes than last version Red: TBD © MMD 2010 Page 1 of 45 221TE2L LCD 65 General Product Specification TABLE OF CONTENTS Document change history 1 1.1 1.2 1.3 1.4 2 2.1 2.2 2.3 3 ᙑᎄ! ࡸ‫ࡳآ‬ᆠ஼᧘Ζ Introduction Purpose scope Definitions, acronyms & abbreviations References General description 5 5 5 5 Product perspective Product Range Dispplay Panel 5 6 6 FUNCtion requirements 7 3.1 POWER 3.1.1 POWER SUPPLY FEATURES 3.1.2 POWER CONSUMPTION & MEASURE THE FOLLOWING VOLTAGE 3.1.3 POWER MODE 3.1.4 MONITOR DPM / TV STANDBY 3.2 Reception 3.2.1 RF SIGNAL REQUIREMENTS 3.2.2 TELETEXT 3.3 EXTERNAL INTERFACE 3.3.1 VIDEO SIGNAL REQUIREMENTS 3.3.2 AUDIO SIGNAL REQUIREMENTS 3.3.3 PC SIGNAL REQUIREMENTS 3.3.4 I/O CONNECTORS 3.3.5 MISCELLANEOUS 3.4 VISUAL PERFORMANCE 3.4.1 FRONT OF SCREEN PERFORMANCE 3.4.2 PICTURE QUALITY 3.5 AUDIO PERFORMANCE 3.5.1 DTV AUDIO CODEC 3.5.2 SOUND MODE 3.5.3 INCREDIBLE SURROUND EFFECTS 3.5.4 SOUND RELATED REQUIREMENTS 8 9 9 9 11 13 13 15 15 16 17 19 19 20 21 22 22 23 23 4 23 User Interface Specification 4.1 Side CONtrols 4.2 front controls 4.3 OSD MENU 4.4 INSTALLATION (DIGITAL) 4.4.1 OSD LANGUAGE (TBC) 4.4.2 AUTOSTORE 4.4.3 PROGRAM LIST 4.4.4 INITIAL INSTALL 4.4.5 FINDING A MULTIPLEX 4.4.6 STORING ALL FOUND SERVICES IN THE MSL © MMD 2010 8 8 8 24 24 25 25 25 26 26 26 27 27 Page 2 of 45 66 221TE2L LCD General Product Specification 4.4.7 STORING SERVICES IN THE PSL 4.4.8 User Selectable Service Lists 4.4.9 Sorting the Found Services 4.4.10 Reinstall 4.4.11 Maintaining Service Lists 4.4.12 Automatic Maintenance Of Service Lists 4.5 InstallATION (ATV) 4.5.1 OSD LANGUAGE 4.5.2 TUNNING MODE 4.5.3 COUNTRY 4.5.4 AUTOSTORE 4.5.5 PROGRAM LIST 28 29 30 32 32 32 32 5 34 Non functional requirements 33 33 33 33 5.1 DEFAULT AND INITIAL CONTROL VALUES 5.2 TIME-OUT 5.3 LAST STATUS 5.3.1 AUDIO LAST STATUS 5.3.2 VIDEO LAST STATUS 5.3.3 CHANNEL TABLES 5.3.4 CUSTOMER SERVICE MENU (CSM) 34 35 35 35 35 35 36 6 36 6.1 6.2 6.3 6.4 6.5 7 ACCESSORIES Cables Remote Control DFU Quick User Guide Warranty card MECHANICAL 7.1 Cosmetic 7.2 Mechanical Data Files 7.3 Location of Philips Logo 7.4 Location of Icons 7.5 Color for Resin / Paint 7.6 Resins 7.7 Paint Used 7.8 Plastic Mold Tooling 7.9 Plastics Flammability 7.10 Texture/Glossing of Housing 7.11 Base Tilt / Swivel Range 7.12 Movement of Unit with Base 7.13 Wall Mount Method 7.14 Label 7.15 Product Dimension / Weight 7.16 Transportation 7.16.1 Transportation packages 7.16.2 Transportation test procedures 7.17 Pallet / Container Loading © MMD 2010 36 36 36 36 37 38 38 38 38 38 38 38 39 39 39 39 39 40 40 40 40 40 40 41 41 Page 3 of 45 221TE2L LCD General Product Specification 8 8.1 8.2 8.3 8.4 8.5 8.6 8.7 9 9.1 9.2 9.3 9.4 9.5 RELIABILITY / ENVIRONMENT MTBF prediction Demonstration MTBF Temperature Humidity Altitude Air pressure Environmental test REGULATORY COMPLIANCE Worldwide Regulatory EMC Requirements RoHS WEEE Ongoing Regulatory Distribution list © MMD 2010 42 42 42 42 42 42 42 42 43 43 43 43 43 44 45 Page 4 of 45 67 68 221TE2L LCD General Product Specification 1 Introduction 1.1 Purpose The purpose of the PID is to get a common understanding between the supplier and the MMD team on the product requirements of LCD TV-Monitor. The document serves as a basis for the product design of LCD TV-Monitor. 1.2 scope This specification describes the feature and performance of the LCD TV-Monitor set, which includes PC video connector for monitor applications and a hybrid RF tuner receiving digital DVB-T and analog PAL/SECAM of the air or from the cable and AV connectors for multiple video format inputs 1.2.1 EDID info, Data for EDID & .inf file 1 2 3 User visible strings on .inf file Manufacturer ID ( EDID data) Product ID, "xxxx" 4 codes 4 5 6 7 maximum resolution Horizontal Frequency Range Vertical Frequency Range Monitor Name (13 characters max.) Philips 221TE (22inch WIDE LCD MONITOR 221TE2) PHL MSB(byte 12): C0 LSB (byte 11): 62 1920x1080 30~83 KHz 56~76Hz Philips 221TE 2 General description 2.1 Product perspective Reception: x DVB-T H.264 (MPEG-4) and analog hybrid TV platform. x DVB-T compliance with DVB D-Book(UK), E-Book(Pan-EU), Italian DGTVi, Scandivia NorDig. x Supports the European conditional access system “Common Interface”. This allows for the controlled descrambling of scrambled digital services (DTV only). x Supports MHEG-5 UK Profile 1.06 for UK D-Tick logo (DTV only x Fulfill “Boxer TV” for NorDig and DTG for Sweden and UK market (DTV only) – Applied by Philips. x SmartDTV for Italy. © MMD 2010 Page 5 of 45 221TE2L LCD General Product Specification x PAL B/G D/K I, SECAM B/G D/K L/L’ TV tuning system for EU/UK Features: x Wide screen of 16:9 aspect ratio, 1920 x 1080 display pixels 21.5”W” FHD LCD color TV x Universal power supply, stand-by power < 0.5 W and DC off power <0.5W. x DPM power management for PC mode(VGA Only) x VESA standard wall mount Connectivity: x Support components video, S-Video, composite video and audio input. x Full SCART input(R/G/B, CVBS,S-video, Current Source out) x Support HDMI Ver.1.3a. with HDCP, audio included (meet EIA-861B standard) x Support PC modes via VGA D-sub and HDMI connector x Multi-system PAL, NTSC playback x x Match the EICTA HD interoperability requirements for “HD ready” logo YPbPr can support up to 1080p and HDMI can support up to 1080p. (Both should also support down to and including 480i/576i) Easy of use x User-friendly OSD menu x User-friendly remote controller x Software upgrade should be done through OAD, USB port. 2.2 Product Range CTV 2.3 Destination Eastern/Western Europe , UK Mains Cord Follow Philips’s SKU DISPLAY PANEL Standard 221TE2L AUO M215HW01 V7 CPT CLAA215FA03S © MMD 2010 CCFL, 250nits CCFL, 250nits Page 6 of 45 69 70 221TE2L LCD General Product Specification For AUO M215HW01 V7 Active Area Outline Dimension Pixel Pitch Pixel Format Color Depth Luminance Backlight Response Time Viewing Angle Contrast Ratio Life Time For : : : : : : : : : : 21.53 inches [476.64(H)x268.11(V)]diagonal 495.6mm (H) x 292.2mm (V) x 11mm (D) 0.24825(H) x 0.24825(V) 1920 X 1080 (WXGA), pixels RGB strip arrangement 6-bit+Hi-FRC, 16.7M colors 250 cd/m2 2 CCFL 5msec. (typ. on/off) 170 (H) / 160 (V) (CR Њ 10) TN Technology(Typ) 1000:1 (Typ.) , 600:1(min) :50,000 hrs (Typ) CPT CLAA215FA 03S Active Area Outline Dimension Pixel Pitch Pixel Format Color Depth Luminance Backlight Response Time Viewing Angle Contrast Ratio Life Time : : : : : : : : : : 21.53 inches [476.64(H)x268.11(V)]diagonal 495.6mm (H) x 292.2mm (V) x 11.4mm (D) 0.24825(H) x 0.24825(V) 1920 X 1080 (WXGA), pixels RGB strip arrangement 6-bit+Hi-FRC, 16.7M colors 250 cd/m2 2 CCFL 5msec. (typ. on/off) 170 (H) / 160 (V) (CR Њ 10) TN Technology(Typ) 1000:1 (Typ.) , 800:1(min) :50,000 hrs 3 FUNCtion requirements All performance requirements are defined under “STANDARD TESTING CONDITIONS”, unless otherwise specified. Standard Testing Conditions: x Warm up time t 30 min. x Ambient temperature 0qC ~40 qC. x Ambient light 400-600 lux. x Relative humidity 25% ~ 75%. x Barometric pressure 860 mbar ~ 1013 mbar. x Dark room conditions < 1 lux for optical measurements The RF tuning system and video performance should fulfil Philips torture room test and field test requirements. © MMD 2010 Page 7 of 45 221TE2L LCD 71 General Product Specification 3.1 POWER 3.1.1 POWER SUPPLY FEATURES x x x x x x 3.1.2 AC line voltage range AC line frequency range DC tact switch Inrush current Leakage current Power factor correction - 90Vac ~ 264Vac. 50/60 Hz r 3 Hz. Minimal power consumption when switch off. < 40A at 240Vac when cold start. < 0.5mA at 240Vac. According to EN61000-3-2 POWER CONSUMPTION & MEASURE THE FOLLOWING VOLTAGE x Normal on(2 lamp) – x x x x On mode (MAX): w/audio 1Khz,Volume=100 , 40Watt On mode (Typ.) w/o audio , 32Watt Normal on (4lamp)On mode (MAX): w/audio 1Khz,Volume=100 , 55Watt On mode (Typ.) w/o audio , 45Watt Power Saving (VGA only)-< 0.5W, RC standby mode + RED LED Standby (DC off, Press RC Power Key)- < 0.5W, RC standby mode + RED LED Power off (Press Key BD Power key)< 0.5W, RC standby mode + LED Off ˣ̂̊˸̅ʳ˶̂́̆̈̀̃̇˼̂́ʳ ˴́˷ʳ˘˿˸˶̇̅˼˶˴˿ʳ̇˸̆̇ʳ˹̂̅ʳˣ 3.1.3 POWER MODE Power Off mode: Standby mode: TV mode: PC mode: Power Saving mode: Wake Up keys: © MMD 2010 The mains plug is not connected or, the power supply is switched off. The system has no power available. The TV signal processing hardware is switched off. The micro-controller is operating and waiting for a command The LCD display is switched on. The TV set is tuned to a channel or external source. The micro-controller is processing all incoming signals and commands and also controls the TV hardware. The system is displaying PC video input. The system is the same as Standby mode as there is no PC video when system is in PC mode. Key: CH+, CH-, Power RC: CH+, CH-, Power Page 8 of 45 72 221TE2L LCD General Product Specification 3.1.4 MONITOR DPM / TV STANDBY x DPM - x Recovery from DPM x Standby - The monitor enters DPM off (sleep) mode when no H&V sync or one of H-sync / V-sync input is absent. “No Video Input” message appears before entering DPM mode. A delay of 30 seconds before entering the power saving state is required to avoid misunderstanding of display resolution and timing mode changes. Power & function recover when both H & V syncs are detected. The TV enters “TV standby mode” when it’s turned off by RC “Standby/Power” key or SLEEP TIMER function is activated or no TV signal input for 30 minutes. 3.2 Reception 3.2.1 RF SIGNAL REQUIREMENTS z z DTV RF input system - (DTV only) 9 Frequency range 9 Modulation 9 Input impedance 9 Constellation 9 Tuner bandwidth 9 FFT Mode 9 Guard Interval 9 FEC code rate VHF: 174 to 230MHz, UHF: 470 to 862 MHz COFDM 75 Ohm QPSK, 16-QAM, 64-QAM, Hierarchical modulation 7MHz and 8MHz 2K/8K 1/4, 1/8, 1/16 or 1/32 1/2, 2/3, 3/4, 5/6 or 7/8 The iDTV shall be able to find all DVB-T modulated multiplexes whose center frequencies, F,are located +/-500Khz on a grid:(for Europe) 9 for 7 and 8 Mhz bandwitdh: F=7*N+2.5 Mhz, where N: 15<=N<=32 9 for 8Mhz bandwidth: F=8*M+2Mhz , where M: 13<=M<=28 and 59<=M<=107. And on the grid: (for Italy) 9 Frequency Plan FRANCE_VHF ITALY_VHF* * Not Arithmetic #define ITALY_VHF © MMD 2010 Start Frequenc y [kHz.] 178750 177500 Start End 1 1 Bandwitdth 6 7 8000 7000 { 7, 7, {{ 1, 177500, 7000, 'D' }, \ { 2, 186000, 7000, 'E' }, \ { 3, 194500, 7000, 'F' }, \ { 4, 203500, 7000, 'G' }, \ { 5, 212500, 7000, 'H' }, \ { 6, 219500, 7000, 'H1'}, \ { 7, 226500, 7000, 'H2'}} } Page 9 of 45 221TE2L LCD 73 General Product Specification And on the grid: (for Australia) In the DVB-T profile, the iDTV supports, besides the European Grid, Australian grid. There, the center frequency F is located +/- 500Khz on a grid: For VHF : F = N*7 + 2.5 ; for 25<=N<=32 For UHF : F = N*7 + 4.5; for 72<=N<=114 x ATV RF input system - Aerial or cable via RF connector supports PAL B/G, D/K, I and SECAM B/G, D/K, L/ L’. Channel Coverage: Band Low Band Mid Band High Band Analog Channels, Picture Carrier ( MHz ) 45.25 – 154.25 161.25 – 439.25 447.25 – 858.25 Digital Channels, Center Frequency ( MHz ) 51.00-156.500 162.00-442.00 450.00-858.00 Intermediate Frequencies: For Europe set: System B, G L L’ D, K I Picture (MHz ) 39.875 39.875 33.625 39.875 39.875 x TV RF input level - x DTV input system x DTV Middleware x Parental Control x Install © MMD 2010 Chroma (MHz) 35.445 35.445 38.055 35.445 35.445 Sound 1 (MHz) 34.375 33.375 40.125 33.375 33.875 Sound 2 (MHz) 34.135 - NICAM (MHz) 34.025 34.025 39.525 34.025 33.323 10mV (80dBuV) typical, terminated with input impedance of 75:. ¾ Transient response: < 250 nS. ¾ Sound (5.5MHz) suppression: > 55dB. ¾ Chroma (4.43MHz) suppression: > 25dB. ¾ Y/C separation: > 20dB. Tuner sensitivityЊ25 dBuV, no skipping of channels & signals. DVB-T (EN 300 744 V1.5.1) supports MPEG-2 ISO/IEC 13818 MP@ML transport stream up to 25Mbps (DTV Only) MHEG5 profile 1.06 (optional for target market) (DTV only) Respect the age stetting sent in the transmission. If the parental rating is higher than the current setting, then the channel is blocked until a pin code is entered. How to search through the services. Order them, and update over time: See 4.4 Page 10 of 45 74 221TE2L LCD General Product Specification x Zapping - x x x x x Ɣ 3.2.2 Let the user to step through the available services and select the required service. Zapping also includes the actual steps for tuning to another channel. It performs activities such as blanking audio and video, setting the right frequency, retrieving the actual channel content from the PSI/SI tables (if a digital channel is selected). It also enables selection of the right virtual channel to be decoded (depending on the language setting, for example) and also unblanking of video/audio. The selector has to dynamically react to any changes in the active transport stream – such as a change in the rating of the currently running virtual channel from the transport stream or even the actual disappearance of the selected virtual channel. The underlying software therefore notifies it of any such changes. (DTV only) EPG - 8 days Have an EPG covering at least 8 days of data, extracted from DVB-EIT. The TV shall allow the user to set a reminder on a certain program. This will cause the TV to warn the user when the program starts. (DTV only) EPG – Now/Next EPG should cover the Now and Next data, extracted from DVB-EIT. (DTV only) Over-the-Air Download Shall be capable of automatically detecting any new relevant software release in any transmitted multiplexes through OAD. Shall be capable of processing software releases carried by transport streams complied with ISO / IEC 13818-1 in accordance with ETSI TS 101 154, D-Book for UK and DVB SSU simple profile. Any software upgrade (over the air ) requires authentication: to make sure that it will only load an image approved by Philips. (for example using SHA-2) (DTV only) DVB Subtitles Supports to display subtitles which broadcasted via DVB or reinserted TXT. ETSI EN 300 743 V1.3.1 (2006-11) (DTV only) Auto-assign Channel Numbers (LCN) Support Logical Channel Number (LCN) for automatic assignment of preset numbers. (DTV only, country dependent), specifically including D-Book, E-Book, Nordig and DGTVi variants.) Audio Descriptor Supports Audio Descriptor for UK (DTV only) TELETEXT x x x x x x x 100 pages Teletext system with Favorite page list. Teletext level 1.5 FLOF TOP and TOP overview menu 16:9 format 3 types of Text display mode - Text Page, Hold, Mix, Reveal. Text time x Wide Screen Signalling Bit (WSSB) x Supports DVB Teletext (DTV only) x AFD support as specified in ETSI TS 101 154 V1.7.1 (2005-06), implemented in line with D-Book and E-Book. (DTV only) © MMD 2010 Page 11 of 45 221TE2L LCD 75 General Product Specification ˗ˍ˯˃˄˲ˁʳˣ̅̂˽˸˶̇̆˯ˆˁʳ ˟˖˗ʳ˧˩˯˅˃˃ˋ˧˩˯˚˸́ 3.2.2.1 RC function keys ˥˖ʳˈ˄ʳ˞˸̌ˁ̋˿̆ 3.2.2.2 Status indicator The Status Indicator is a sign to show the status of Text mode. There are 4 status are identified: Normal page display, Page Number Entry by Digit, Subcode Entry by Digit, and Page Hold. 3.2.2.3 Status line The Status Line is defined as: Command FLOF TOP Defined by Previous page in transmission Red broadcaster. cycle Green Next group page in transmission cycle in current block Yellow Next block page in transmission cycle Cyan © MMD 2010 PLUT - Title of next group defined by broadcaster. If it is not defined, a page number is displayed. Title of next block defined by broadcaster. If it is not defined, a page number is displayed. Next page in transmission + cycle Page 12 of 45 76 221TE2L LCD General Product Specification 3.2.2.4 Table of page (TOP) A type of teletext transmission in which special pages are transmitted that give information about other pages in the transmission. 3.2.2.5 Link control byte (LCB) It is contained in a packet 27 to validate the links for the color keys. 3.2.2.6 Video programming system (VPS) A mechanism by which the broadcast ID is transmitted using Teletext transmission. 3.3 EXTERNAL INTERFACE 3.3.1 VIDEO SIGNAL REQUIREMENTS x CVBS input x S-Video input x Component video input - x HD ready - © MMD 2010 1000mVpp (including 300 mV sync level), terminated with input impedance of 75:. Y: 1000mVpp, C: 300mVpp, terminated with input impedance of 75:. Y: 1000mVpp, PbPr: ±350mVpp, terminated with input impedance of 75:. 480i/p, 576i/p, 720p, 1080iʿ 1080̃ʳsignal handling capability. HD ready logo required. Display engine: ¾ The minimum native resolution of the display (e.g. LCD, PDP) or display engine (e.g. DLP) is 720 physical lines in wide aspect ratio. Video Interfaces: ¾ The display device accepts HD input via: ‹ Analog YPbPr. “HD ready” displays support analog YPbPr as a HD input format to allow full compatibility with today's HD video sources in the market. Support of the YPbPr signal should be through common industry standard connectors directly on the HD ready display or through an adaptor easily accessible to the consumer; and: ¾ DVI or HDMI HD capable inputs accept the following HD video formats: ‹ 1280x720 @ 50 and 60Hz progressive scan (“720p”) ‹ 1920x1080 @ 50 and 60Hz interlaced (“1080i”) ¾ The DVI or HDMI input supports copy protection (HDCP). Page 13 of 45 221TE2L LCD 77 General Product Specification x SCART - Full SCART, includes CVBS in/out, RGB/Sync, audio L/R in/out. Pin 8, the function-switching pin, carries a signal from the source that indicates the type of video present, 0V means no signal, or internal bypass +6V means a widescreen (16:9) signal +12V means a normal (4:3) signal Define SCART behavior: ˣ˻˼˿˼̃̆˲ˠˡ˧˲˦˶˴̅̇˲ ˵˸˻˴̉˼̂̅ˁ˷̂˶ x HDMI input - x Common Interface x No signal input 3.3.1.1 Compliance with HDMI Specification 1.3a. 480i/p, 576i/p, 720p, 1080i/p signal handling capability. TMDS channel: ¾ Carries audio, video and auxiliary data. ¾ Signaling method: According to HDMI Ver.1.3a specification. (Type A HDMI). ¾ Video pixel rate: 25 MHz to 165 MHz (Type A) ¾ Pixel encodings: RGB 4:4:4, YCbCr 4:2:2, YCbCr 4:4:4. ¾ Audio sample rates: 32 kHz, 44.1 kHz, 48 kHz, Audio channels: up to 2 DDC channel: ¾ Allows source to interrogate capabilities of sink. ¾ I²C signaling with 100 kHz clock. ¾ E-EDID data structure according to EIA/CEA-861B and VESA Enhanced EDID. Content protection: ¾ According to High-Definition Content Protection (HDCP) Specification 1.10. Complies with version 1: EN50221 ETSI TS 101 699, V1.1.1 (1999-11) and [R206-001F] (DTV only) While no signal at external inputs, screen goes blue before entering standby mode. HDMI CEC (Easy Link) Compliant with HDMI Ver.1.3a CEC x One-Touch-Play: device can switch on the television (when in standby) and switch to the relevant HDMI source. Allows a device to be played and become the active source with a single button press. x Routing Control This feature is used to control the routing of the HDMI network, by controlling CEC Switches. In general whenever a device starts being streamed to the TV x System Standby Enables the user to switch all devices to standby with one button press x Lip-sync Match the delay in sound reproduction to the delay in the TV screen to ensure that picture any sound are kept in synchronization. x Video-format selection The system will automatically select a video transfer mode that does not degrade the performance of viewing content. (HDMI PC mode / Video mode) © MMD 2010 Page 14 of 45 78 221TE2L LCD General Product Specification x System Information allows devices to automatically use the same OSD and Menu language settings as the TV and also for a TV to discover the current language when it is being installed. x Give Device Power Status The message is used to determine the current power status of a target device. The target device responds with a message containing the Power Status operand. 3.3.2 AUDIO SIGNAL REQUIREMENTS x Audio input - x Headphone output x Amplifier output x SPDIF output 3.3.3 Sensitivity 500mVrms, the amplifier outputs full power when the input level reaches 500mVrms, terminated with input impedance of >10k:. N/A 2 x 3Wrms(<=21.5”), 2 x 5Wrms(>21.5”) with T.H.D. < 10%. carrying stereo or multi-channel output. (DTV tuner digital audio or HDMI digital audio loop through) PC SIGNAL REQUIREMENTS x Pixel rate capability x Sync input x Horizontal frequency x Vertical frequency x PC analog RGB level x I²C DDC signal - x Preset video timings - x Audio input - x No signal input - 160 MHz for ATV, 160 MHz for DTV. TTL level, separate H/V sync only, “+” or “-” polarity, terminated with t 2.2k: impedance. 30 ~ 83 kHz 56 ~ 76 Hz 0 ~ 700mV linear, positive polarity, terminated with 75: impedance. DDC serial Data & Clock, DDC components are connected to both monitor Vcc and DDC +5V (from PC via video cable), that the PC can read the DDC data also when the monitor is powered off. To prevent current feedback into PC, blocking diodes are required at monitor side. Follow VESA timing mode up to panel native resolution. Preset video timings, size and centering have been pre-aligned in factory according to specifications. Sensitivity 500mVrms, the amplifier outputs full power when the input level reaches 500mVrms, terminated with impedance >10k:. While no signal at external inputs or signal cable not connected, screen goes black with message “No Video Input” for 30 seconds before going to DPM mode. x PC timing - ˗ˍ˯˔ˢ˖ʻ˅˃˄˃˃˄˄ˊʼ˯ ˠˠ˗ʳ˗˩˕ˀ˧˯ˣ̅̂˷̈˶ © MMD 2010 Page 15 of 45 221TE2L LCD 79 General Product Specification EDID- 221: ˗ˍ˯˔ˢ˖ʻ˅˃˄˃˃˄˄ˊʼ˯ ๻ૠᇷற˯ᖲጟ˯ˠˠ˗ 3.3.3.1 x x x 3.3.4 DDC channel E-EDID data structure according to VESA Enhanced EDID 1.3 (and EIA/CEA-861B for HDMI). Allows source to interrogate capabilities of the Monitor & TV. Separate EDID for VGA input and HDMI input. I/O CONNECTORS I/O at rear: I/O at Side: © MMD 2010 Page 16 of 45 80 221TE2L LCD General Product Specification 3.3.4.1 Rear connectors: x x x x x x x x x x 3.3.4.2 Side connectors on main board: x x x x x 3.3.5 Component Video(YPbPr) & Audio L/R In AV / SC Video & Audio L/R In SCART input / output (CVBS in/out, RGB in,S-Video in, Audio L/R in/out) SPDIF (digital audio) output Coaxial aerial I/P (TV input)– Europe type ( 75 : ) PC VGA In (D-SUB) & PC Audio In HDMI In (support HDCP) with digital audio or with PC audio jack. 3 pin wafer connector (for Key service) 3 pin wafer connector (for Debug service) Video OUTΚTV output with audio line out. CVBS In (Cinch) Audio L/R In (Cinch) CI slot input : PCMCIA card ( 5V ) USB 4-pin Type-A connector for SW update.(Only ues flash drive). Earphone MISCELLANEOUS VGA Pin assignment PIN No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 © MMD 2010 SIGNAL Red Green Blue NC GND Red GND Green GND Blue GND +5V (Supply from PC) Sync GND NC Bi-directional data(SDA) H-sync V-sync Data clock(SCL) Page 17 of 45 221TE2L LCD General Product Specification HDMI Pin assignment PIN No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 SIGNAL TMDS Data2+ TMDS Data2 shield TDMS Data2TMDS Data1+ TMDS Data1 shield TMDS Data1TMDS Data0+ TMDS Data0 shield TMDS Data0TMDS Clock+ TMDS Clock Shield TMDS ClockCEC Reserved (N.C. on device) SCL SDA DDC/CEC Ground +5V Power Hot Plug Detect Full SCART Pin assignment PIN No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 © MMD 2010 SIGNAL Audio output right Audio input right Audio output left GND(audio) GND(blue) Audio input left Blue input Switch signal input (Fast Blanking) GND(green) N.C. Green input N.C. GND(red) GND(blanking) Red input RGB switching control GND(video input & output) GND(RGB switching control) Video output(composite) Video input(composite) Common ground Page 18 of 45 81 82 221TE2L LCD General Product Specification 3.4 VISUAL PERFORMANC PQ setting: ˗ˍ˯˔ˢ˖ʻ˅˃˄˃˃ˆ˄ˇʼ˯ ˠˠ˗ʳ˗˩˕ˀ˧˯ˣ̅̂˷̈˶ 3.4.1 x x x x x FRONT OF SCREEN PERFORMANCE Peak brightness Luminance uniformity Chromatic uniformity Luminance variation TV video color - Per panel spec, brightness & contrast controls are at 100%. Per panel spec. Per panel spec. Per panel spec. Smart picture at ϘStandardϙ with 75% video level full white pattern, brightness at 45 %, and contrast at 50%. The color temperature at the screen center should be: x 2K10 CCT X Y Warm 6500º K 0.313 ± .02 0.329 ± .02 Normal 8000º K 0.296 ± .02 0.299 ± .02 Cool 9300º K 0.283 ± .02 0.297 ± .02 Note: 1. Use Minolta CA-210 for color coordinates and luminance check. 2. Luminance > 200 cd/m2 in the center of the screen when Brightness control at 100; Contrast control at 100 and “ Normal “ color teamperture in PC source. 3. About PC Source color teamperture Normal only is panel original default , not 8000 º K. x Picture centering - © MMD 2010 H & V ” 0.5 %. (for TV, 480i/p, 576i/p, 720p, 1080i/p) Page 19 of 45 221TE2L LCD 83 General Product Specification x Over scan - x Residual image x Contouring x Dimming backlight 3.4.2 3 % vertically and horizontally for TV & AV. 0% (fit to screen) for PC mode vertically and horizontally. Recover < 2 min. after burn in the checkerboard image for 2 hours. Minimum contouring visible. range from 11 to 100% for DCR setting, DCR=15000(min.) , DCR=30000:1(max.) in Dimming current <2mA PICTURE QUALITY Picture control handles the initialization of the video parameters and the recall of the video personal preferences. Some video parameters can also be changed via the picture sub menu. All video inputs must have independent picture settings for fine tuning their PQ. PQ should be fine even at 50dB RF signal. Per video input source has itself own pre-setting values included Smart Picture, Smart Sound and Picture Format. Pre-setting values must follow the input source change. x x x x x x x De-interlace Y/C separation Film mode supports Skin tone correction Blue stretch Green enhance Black extension - 3.4.2.1 3D for ATV, 3D MA (motion adaptive) for DTV 3D comb filter for ATV, 3D comb filter for DTV Automatic 3:2/2:2 detect and 3:2/2:2 pull down Yes Yes Yes Yes Smart setting in TV / AV modes There are 5 sets of pre-setting: Personal, Vivid, Standard, Movie, and Power saver. Personal settings can be altered by users. 3.4.2.2 ʳ ʳ ʳ ʳ ˄ʳ ˅ʳ ˆʳ ˇʳ ˈʳ ˉʳ ˊʳ ˋʳ Picture format ˣ˼˶̇̈̅˸ʳ˹̂̅̀˴̇ʳ ˣ˶ʳ̀̂˷˸ʳ ̊˼˷˸ʳ̆˶̅˸˸̀ʳ ˇˁˆʳ ̈́̆˶˴˿˸˷ʳ ʳ ʳ ʳ ʳ ʳ ʳ ʳ ʳ ʳ ʳ © MMD 2010 ˩˼˷˸̂ʳ̀̂˷˸ʳ wide screen auto format super zoom ˇˁˆʳ subtitle zoom movie expand 14:9 movie expand 16:9 ˄˃ˋ˃˼ʳˣ˼˶̇̈̅˸ʳ˹̂̅̀˴̇ʳ ˣ˶ʳ̀̂˷˸ ˫˫ʳ ˫˫ʳ ˫˫ʳ ʳ ʳ ʳ ʳ ʳ ʳ ʳ ʳ ʳ ʳ ˩˼˷˸̂ʳ̀̂˷˸ʳ ̊˼˷˸ʳ̆˶̅˸˸̀ʳ ˇˁˆʳ ̈́̆˶˴˿˸˷ʳ ˴̈̇̂ʳ˹̂̅̀˴̇ʳ ʳ ʳ ʳ ʳ ʳ ʳ ʳ ʳ ˄˃ˋ˃̃ʳˣ˼˶̇̈̅˸ʳ˹̂̅̀˴̇ʳ ˣ˶ʳ̀̂˷˸ʳ ̊˼˷˸ʳ̆˶̅˸˸̀ʳ ˇˁˆʳ ̈́̆˶˴˿˸˷ʳ ʳ ʳ ʳ ʳ ʳ ʳ ʳ ʳ ʳ ʳ ˩˼˷˸̂ʳ̀̂˷˸ ̊˼˷˸ʳ̆˶̅˸˸̀ ˇˁˆʳ ̈́̆˶˴˿˸˷ʳ ˴̈̇̂ʳ˹̂̅̀˴̇ʳ ʳ ʳ ʳ ʳ ʳ ʳ ʳ ʳ Page 20 of 45 84 221TE2L LCD General Product Specification Super Zoom Zoom2(Movie Expand 16:9) 3.5 Normal(4:3) Subtitle Zoom Zoom1(Movie Expand 14:9) Wide AUDIO PERFORMANCE Audio setting: ˖ˍ˯˗̂˶̈̀˸́̇̆ʳ˴́˷ʳ ˦˸̇̇˼́˺̆˯˔̀̂̆ʳˬ̈˯ோ૿ Audio should be audible even no video signal is presented for all sources except PC. For the sake of stereo, proper segment of R/L speakers is needed to make sure correct R/L channel separation. Audio control handles the initialization of the audio parameters and the recall of the audio last status. Some audio parameters can be also changed via the sound submenu. Treble, bass are used for tone control. © MMD 2010 Page 21 of 45 221TE2L LCD 85 General Product Specification 3.5.1 DTV AUDIO CODEC 3.5.1.1 Required Decoders (Reference ETSI TS 101 154 V1.7.1 (2005-06). Section 6.1) Supports ISO/IEC 11172-3 Layer I and Layer II Single channel: Joint stereo Stereo Supports ISO/IEC 13818-3 Multi-channel audio : decode the part ISO/IEC 11172-3 Layer I and Layer II Stereo 3.5.2 SOUND MODE Sound Mode selections: Press DUAL I / II key to set up bilingual program/MTS system. The function is to provide multichannel TV sound. MTS can receive Dual, Stereo, SAP (Secondary Audio Program), or Mono sound. SAP feature permits the TV station to broadcast other information, such as audio in another language. With Dual sound, you can enjoy the main sound (normal program soundtrack) and the second language at the same time. **Choose the available sound mode for channels that is preset by TV broadcasting station. Source Frontend Detected Sound System 2CS Mono 2CS Stereo 2CS Dual NICAM Mono NICAM Stereo NICAM Dual Current/Display Sound Mode Mono Mono (forced) Stereo Dual I Dual II NICAM Mono FM/AM Mono NICAM Stereo FM/AM Mono (forced) NICAM Dual I NICAM Dual II FM/AM Mono(forced) (option) New/Next Sound Mode Mono Stereo Mono (forced) Dual II Dual I FM/AM Mono NICAM Mono FM/AM Mono (forced) NICAM Stereo NICAM Dual II FM/AM Mono (forced) NICAM Dual I The icon text “Mono” should show in red on screen when with mono (forced) is selected © MMD 2010 Page 22 of 45 86 221TE2L LCD General Product Specification 3.5.3 INCREDIBLE SURROUND EFFECTS TV front end incredible surround effects are defined as: Transmission received/selected 2CS Dual I 2CS Dual II NICAM Mono NICAM Stereo NICAM Dual I NICAM Dual II Effect off Mono Mono Mono Stereo Mono Mono Effect on Spatial Spatial Spatial Incredible Surround Spatial Spatial AV incredible surround effects are defined as: Sound Mode (AV) Stereo Mono 3.5.4 Effect off Stereo Mono Effect on Incredible Surround Spatial SOUND RELATED REQUIREMENTS x Volume control x Soft mute - x Lip Sync x AVL - Should be gradual change of sound level from zero to maximum output. A short and gradual increase of the sound to prevent the pop sound during AC plug in/out, standby on/off, channel change, mute on/off. To synchronise sound with video due to delay in video decoding. To stabilize the TV audio input level in the case of over/undermodulated signal from non-standard broadcast transmission. 4 User Interface Specification TV controls can be reached via top control keypads or remote control © MMD 2010 Page 23 of 45 221TE2L LCD General Product Specification 4.1 Side CONtrols Power Source Menu CH- CH+ Vol- Vol+ Key TV/video mode Source Menu “+” (Volume) “-” (Volume) Select Input Source Enter /Exit OSD menu Menu Navigate Right/Increase/Volume up Menu Navigate Left/Decrease/Volume down Menu Navigate Up/Channel up Menu Navigate Down/Channel Down Power ON /OFF “+“ (Channel) “-“ (Channel) Power x x x x x 4.2 x x x x x x x Access main menu by pressing “MENU” key. Access input source by pressing “INPUT” key. Navigate to and select function via Program “+ / - ” keys, and Volume “+ / - ” keys. Then adjust using up/down functionality. Any local keyboard press will wake-up the TV set from ‘Standby’ mode (ABO – any button ON) Power switch to switch off the set to minimal power consumption. front controls LED indicator - 4 State. Status Normal on DC Switch off RC Switch off / Standby RC receiving RC sensor – Operation Angle 0q (for H & V) 30q (for H & V) 45q (for H only) © MMD 2010 LED behavior White NC Red Blink White Receiver for TV control. RC operational distance t 8m t 6m t 4m Page 24 of 45 87 88 221TE2L LCD General Product Specification 4.3 OSD MENU x 25 languages - x OSD tree – Bulgarian, Croatian, Czech, Danish, Dutch, English, Finnish, French, Gaelic ,German, Greek, Hungarian, Italian, Norwegian, Polish, Portuguese, Rumanian, Russian, Serbian, Slovak, Slovenian, Spanish, Swedish, Turkish, Ukrianian. As defined. ˗ˍ˯˔ˢ˖ʻ˅˃˄˃˃˄˄ˊʼ˯ ๻ૠᇷற˯ᖲጟ˯ˠˠ˗ x EPG user interface x MHEG5 user interface 4.4 As defined. As defined. INSTALLATION (DIGITAL) The service installation is based on specifications and guidelines from both [E-Book] and [NORDIG]. Service installation must work properly in all supported countries. Nevertheless this specification does contain some requirements non-compliant to [E-Book] and [NORDIG]. The following list gives an overview: x There is no service list in the category 'Others', as specified by [NORDIG]. Instead of the 'Others' service list a service list labelled 'All Services' is introduced. This service list covers the [EBook] requirement to present all (user selectable) services in one service list. x Logical channel numbers above value 999 are not supported. Services with a logical channel number above value 999 are assigned to another preset number in the range 1..999. 4.4.1 Country list and default language Default language for Europe: Country Austria Belgium Bulgaria Croatia Czech Denmark Finland France Germany Greece Hungary Ireland Italy Luxembourg Netherlands Norway © MMD 2010 Language German Dutch Bulgarian Croatian Czech Danish Finnish French German Greek Hungarian English Italian French Dutch Norwegian Country Poland Portugal Rumania Russia Serbia Slovakia Slovenia Spain Sweden Switzerland Turkey UK Ukraine Language Polish Portuguese Rumanian Russian Serbian Slovakian Slovenian Spanish Swedish German Turkish English Russian Others English Page 25 of 45 221TE2L LCD 89 General Product Specification 4.4.2 AUTOSTORE All of the multiplexes are scanned. The services are administered according to their tuple [Original Network ID, Transport Stream ID, Service ID]. Between services with the same tuple, the one from the best reception is chosen. Only services of the proper service type shall be placed in the program list. It is desirable that during stand-by, the whole band will be scanned for changes and proper updates made 4.4.3 PROGRAM LIST A program list from Program 1 to Program 999 plus external sources can be invoked by “OK” key. The program list sequence can be altered by “channel edit” in OSD menu and should not be influenced by “channel skipped”. For each of these lists, the sorting is determined by the selected country. If an LCN list is available, it will be respected 4.4.4 INITIAL INSTALL (Updated) The end user shall be able to initiate a new service installation, meaning that any existing service lists and sorting will be overwritten. At the start of new service installation, the Primary Service List and the User Selectable Service List are considered to be uninitialized. When the iDTV is in the Virgin State, a new service installation shall be initiated by the iDTV. At the start of a new service installation, the end user shall select a country. After an installation has been completed or interrupted, the end user shall be able to bring the TV back to the Virgin State It shall be possible for the user to choose "General Country" in the country selection. In this state, the TV impelements, above the basic requirements, the "General European" requirements. The iDTV shall contain, in non-volatile memory, the latest version of the list that couples a country name to an ONID. For country’s that do not yet have an ONID registered at DVB, the ONID shall be derived by the formula: ONID = 0x2000 + 3-digit country code The result of a service installation shall be presented to the end user by means of one or more service lists. Country name Australia Denmark Finland France Germany Greece Italy Netherlands Norway Poland Portugal Spain Sweden United Kingdom © MMD 2010 original_ network_id 0x2024 and others 0x20D0 0x20F6 0x20FA 0x2114 (0xFF32) not fixed yet 0x217C and others 0x2210 0x2242 tbd (0x2268) tbd (0x226C) 0x22D4 0x22F1 0x233A Page 26 of 45 90 221TE2L LCD General Product Specification 4.4.5 FINDING A MULTIPLEX The iDTV shall initiate a multiplex search, and the user shall be able to enter any frequency manually and choose between 7Mhz and 8Mhz bandwidth. The iDTV shall then be able to find all DVB-T modulated multiplexes with center frequencies +/-Bandwidth around the manually entered frequency. If there are no multiplexes in the scanned spectrum, the user shall be told so via the UI. The iDTV shall automatically scan the grids as specificed. The iDTV shall be able to find both DVB-T multiplexes in an hierarchically modulated stream. The multiplexes are referred to as the high and low priority streams. The iDTV shall handle these streams as two independent multiplexes. For each of these multiplexes, a separate Transport Stream Service List (TSSL) shall be created. Service installation shall additionally locate analogue TV transmissions (PAL and SECAM) in the VHF and UHF frequency bands (both off-air and cable channels). Once a multiplex is found, the iDTV shall store the parameters needed to tune back to this multiplex in the TSSL. These parameters are, at least: 1. The Center Frequency 2. The Bandwidth 3. Whether this was hierarchical, and if so, whether the LP or HP was choosen 4. Constellation The multipex's reception quality is a function of the BEQ, QE and quality of the LP and HP if appliciable. Along with the tuning parameters of a multiplex, the iDTV shall also store the multipex's Reception Quality in the TSSL. This table shows that a algorithm to calculate the reception quality could be based on a combination of C/N and BER 4.4.6 STORING ALL FOUND SERVICES IN THE MSL The Master Service List is frequency oriented. It may be viewed as list of lists. The top level list, is a list of frequencies. At each frequency, there are either one or two TSSLs depending on the modulation. For a hierarchically modulated signal, there will be two TSSLs, one for HP and one for LP. For a not hierarchically modulated signal, there will be just a single TSSL. During initial install, when the MSL is empty, all of the TSSL's found during a complete scan are stored in the MSL. At an update installation, the MSL has already been filled with all of the TSSL's that were found after previous scans. In this case, the TSSL will be merged in the MSL. If the frequency in the new TSSL is not in the MSL, then the entire TSSL is added to the MSL If the frequency in the new TSSL is not new, and the modulation is the same, the new TSSL will replace the old one in the MSL. If the frequency in the new TSSL is not new and modulation scheme is different, then the old TSSL (2 if it was hierarchical) is deleted and replaced by the new one. If the modulation scheme changed to hierarchical, then two TSSL's will replace the single one that was there before. © MMD 2010 Page 27 of 45 221TE2L LCD 91 General Product Specification 4.4.7 STORING SERVICES IN THE PSL The mapping between the MSL and PSL is the same for an initial installation as for an update install. Two Services are identical if they have the same [ONID,SID,TSID] If there was no SID or an ONID, then two services are the same if the [network_id,TSID,Program_ID]. If two or more Service are selected that are considered identical, then only the Service with the best Reception Quality shall be selected for the PSL, the others shall not be selected. Services with a BER larger than the threshold 3.16E-03 (or with a BERQ smaller than the threshold 70) shall not be selected for the PSL All of the services whose service type corresponds to a “BasicServiceType” of TV, Radio and Data shall be selection for installation: Service_Type 0x01 0x04 0x05 Description SD SD NVOD SD Time Shift BasicServiceType TV TVVOD TVVOD 0x16 0x18 0x17 AVC SD AVC SD NVOD AV CSD Time Shift TV TVVOD TVVOD 0x11 HD MPEG2 TV 0x19 0x1B 0x1A HD AVC HD AVC NVOD HD AVC TimeShift TV TVVOD TVVOD 0x02 0x0A Radio Radio AVC RADIO RADIO 0x10 DVB MHP MHP 0x03 Teletext TV 0x06 0x0B Mosaic Service Mosaic Service AVC TV TV 0x0C Data Services DATA Others For unknown Types UNKNOWN If the iDTV supports the MHP, then it shall additionally select all services with the following service_type for installation: service type description [EN 300 468] DVB MHP Service © MMD 2010 Service_Type 0X10 Page 28 of 45 92 221TE2L LCD General Product Specification A Service that passes all the selection criteria shall be stored in the Primary Service List The primary service list shall be stored in non-volatile memory and shall include all located analogue TV channels 4.4.8 User Selectable Service Lists All services in the PSL shall be given, per default, the Logical Channel Number (LCN) value of 1000 (maximum LCN +1). In the NIT there may be an LCN descriptor present, whose interpretation depends in the private_data_specifier preceding it. The LCN descriptor is given in the context of an ONID and TSID. Hence, it couples a service tuple {ONID,TSID,SID} to an LCN value. This value shall override the default LCN value of that service. Service installation shall derive 1 user selectable service list from the primary service list containing all services that are accessible for the end user Service installation shall derive 1 user selectable service lists from the primary service list containing all TV services that are accessible for the end user Service installation shall derive 1 user selectable service lists from the primary service list containing all radio services that are accessible for the end user All services in the PSL shall be selected to be placed in the USSL A service whose LCN is 0 shall not be selected for the USSL A selected service in the PSL shall be placed in the USSL if it passes all of the criteria. User Selectable Service Lists shall be stored in non-volatile memory Services in a user selectable service list with a visible_service_flag equal to 0 shall be marked as INVISIBLE. This mark can be used by the User Interface to hide the service in for instance EPG. The end user will still be able to select the invisible service, for instance via direct digit entry of the preset number. See also [E-Book] and [NORDIG] about usage of the visible_service_flag in the logical_channel_descriptor In the case of interpreting the private descriptors, with the private_data_specifier equal to 0x233A [DBook UK], an invisible service will not be placed in the SSL if the numeric_selection_flag, in descriptor_tag 0x86, is equal to 1 When a service in a USSL refers to a service which is no longer in the PSL, the end user can still select the service. When no components can be rendered the User Interface could notify the end user that this service is not available. Also when displaying the service list on the screen the “NOT ACCESSIBLE' services can for instance be greyed out. The User Interface, which is not specified here, will offer the end user a number of menu screens to modify a user selectable service list. Although these menu screens may vary among different receivers, the underlying processing will be the same (at least as much as possible). The next requirements will specify the commands the User Interface can call on a specific service in a user selectable service list. 4.4.8.1 DELETE A service can be deleted from a user selectable service list. Deleting means that the service is not selectable anymore in this user selectable service list. But the same service remains selectable in other user selectable service lists. Once a service is deleted from a list it must not reappear in that list after a service update installation. Only after a re-installation this service will reappear in the list. © MMD 2010 Page 29 of 45 221TE2L LCD 93 General Product Specification 4.4.8.2 UNDELETE A service that was deleted by the end user can be undeleted. The service shall be restored at the original preset number that was assigned at the time the service was deleted. When this original preset number is not free (assigned to another service) then a new preset number is assigned to the undeleted service as specified in the SSA 4.4.8.3 MOVE A service can be moved by assigning another preset number to the service. Two different situations occur: 1. The preset number the service must be moved to is free (not assigned to a service). In this case the service is moved to the new preset number and the original preset number is now free. 2. The preset number the service must be moved to is not free (assigned to another service). In this case the services are swapped. When a service is moved to another preset number and a service update installation wants to install a new service at this preset number (because this new service has an LCN equal to this preset number) then the service that was moved remains at this preset number. The new service is installed as if it has no LCN. Only after a re-installation or a SORT operation (see below) the manual move is undone and all services will be sorted on LCN. 4.4.8.4 SORT A user selectable service list can be automatically sorted. All services in the user selectable service list that are not deleted (see above) are reassigned to their initial preset number (as if it was a reinstallation) as specified in Deleted services are invisible to the end user and are not assigned to a preset number. It is still possible to undelete a deleted service as specified in [UNDELETE] 4.4.8.5 FAVORITE ON/OFF Each service in a user selectable service list can be tagged as 'favourite'. When the 'Favourites' option is enabled (a User Interface option) service navigation using the P+ and P- commands shall only select the services tagged as 'favourite'. Selection of services not tagged as 'favourite' remains possible by digit entry. A first time installation and a re-installation shall erase all 'favourite' tags. A service update installation shall keep the 'favourite' tags unchanged. Favourite tags are linked to the service and not to the preset number. 4.4.9 Sorting the Found Services Unified countries are counties that support multiple ONID’s. Unified countries are: x Austrialia x Italy x Ireland x Greece x Spain All other countries are not unified countries, meaning that they have just single ONID. © MMD 2010 Page 30 of 45 94 221TE2L LCD General Product Specification Each service in a user selectable service list shall be assigned to a unique preset number in the range of 1…MAX_LCN by applying the following rules: 1 In a not unified country, only the LCN’s of the services belonging to the select country will be considered for a direct one-to-one mapping to preset numbers. For all services belonging to the other ONIDs, the LCN’s shall be used for sorting only. In the other ONIDs, the services belonging to a USSL, shall first be sorted according to ONID, then to LCN and lastly to Service_Name. 2 In a unified country, the LCN’s of all services, regarless of the ONID, will be considered for direct one-to-one mapping to preset numbers. 3 All services with BasicServiceType DATA, shall be made “invisible” and shall be allocated to the highest preset numbers in the USSL. 4 Services considered for direct one-to-one mapping between LCN and Preset-Number within a USSL shall follow the following rules: 4.01 If two or more services have the same LCN (LCN<=MAX_LCN), then only one of these services shall be assigned to the preset number with this LCN value. The other services shall be assigned LCN value MAX_LCN+1. The selection process shall have the priority: first TV, then highest resolution, MPEG4 above MPEG2, then Radio, then multi-channel above single channel above mono. 4.02 Services whose LCN value larger than MAX_LCN, shall be sorted according to Service_Name. 5 Services which where not considered for a one-to-one mapping between LCN and Preset Number, shall be mapped, in their sorted order to the remaining, unused Preset Numbers. The following rules shall be followed: 5.01 In a not unified country, first all of the services belonging to the selected ONID shall be first placed in the largest segment of free preset numbers, in their sorted order. Thereafter, the next largest segment of free preset numbers shall be found to place the remaining services, in their sorted order. 5.02 In a unified country, the first largest gap of free numbers shall be used to place the remaining services, in their sorter order. 6 All analogue tv channels found are first sorted based on [PATS] and assigned to a preset number, after all digital services have been assigned to one. If no digital services are found at all during scanning, all analogue tv channels are assigned to presets according to [PATS]. © MMD 2010 Page 31 of 45 221TE2L LCD 95 General Product Specification To make it easier for the user to memorize where analogue TV channels are stored in the preset list, the analogue TV channels must be stored at a preset number as specified below: Ɣ Preferably the analogue TV channels should be stored contiguously at preset numbers below 100, starting at a multiple of 10 plus 1 (for instance 51). Ɣ If the above rule cannot be applied the analogue TV channels should be stored contiguously at preset numbers starting at a multiple of 100 plus 1 (for instance 201). 4.4.10 Reinstall The end user shall be able to initiate a manual service installation, meaning that tuning parameters of a multiplex must be entered manually and the service lists will be updated according to the SI data received via this multiplex. Sorting of the existing service lists will be maintained. The end user shall be able to initiate a service update installation, meaning that the existing service lists will be updated according to SI data received during a new scan. Sorting of the existing service lists will be maintained. A new country selection shall have no effect on the sorting of services in an existing service list. Only a service re-installation will sort the services based on the new country selection. The end user shall be able to move individual services in a user selectable service list. The end user shall be able to delete and undelete individual services from a user selectable service list. The end user shall be able to select a specific user selectable service list (for instance the user selectable service list containing all digital tv services or the user selectable service list containing all digital radio services). The end user can only select services from the selected user selectable service list. End user shall be able to tag and un-tag a service as ‘favourite’. 4.4.11 Maintaining Service Lists A service update installation shall update the MSL and PSL. The rules for upating the MSL are described in the MSL section and the mapping from teh MSL to PSL is independed of update install or initial install. 4.4.12 Automatic Maintenance Of Service Lists Over time networks will evolve, as more areas will be covered for reception of digital terrestrial television and more services will be provided. The receiver must be able to keep in sync with changes in the network. Main objective is to add new services, available for the end user, to the service list instantly without user interaction. When a specific transport stream is tuned to by the user, a new TSSL will be created and merged into the MSL Service installation shall initiate a service update installation on a regular basis which is not intrusive for the end user. This action is performed once per 24 hours maximum, when the tuner/demodulator hardware for the digital signal path is not in use by the end user (for instance just after switching to standby). The service update installation is aborted immediately when the end user selects a digital service. 4.5 InstallATION (ATV) Virgin mode install (wizard to select country, language…auto store): Virgin mode is invoked when the set is first time powered on or keep pressing “menu” key for 5 seconds. It will guide the user through the installation. Country selection is the first step, secondly language selection is guided accordingly. ATS is carried out according to selected country and ACI would refer to selected language. Language of virgin mode is default at English. © MMD 2010 Page 32 of 45 96 221TE2L LCD General Product Specification 4.5.1 Country list and default language Default language for Europe: Country Austria Belgium Bulgaria Croatia Czech Denmark Finland France Germany Greece Hungary Ireland Italy Luxembourg Netherlands Norway 4.5.2 Language German Dutch Bulgarian Croatian Czech Danish Finnish French German Greek Hungarian English Italian French Dutch Norwegian Country Poland Portugal Rumania Russia Serbia Slovakia Slovenia Spain Sweden Switzerland Turkey UK Ukraine Language Polish Portuguese Rumanian Russian Serbian Slovakian Slovenian Spanish Swedish German Turkish English Russian Others English TUNNING MODE The tuner should ensure that all channels of PAL B/G, D/K, I, SECAM B/G, D/K, L/L’ systems can be locked. x Europe system Auto store max. 100 channels for ATV. x Search time < 10 min. 4.5.3 COUNTRY The preferred country may be selected. This information is used for Teletext, Auto Store, ATS and for defining the details of the installation sequence. The TXT character sets, National option and Packet 8/30 must be displayed correctly depending on the selected country 4.5.4 AUTOSTORE Search all available channels automatically. ACI information (if available) can be used to store the channels in the right order. When ACI is not available, PATS (Philips Auto Tuning System) is used to store the found transmitters sequentially from Program 1 to Program 99. 4.5.5 PROGRAM LIST A program list from Program 0 to Program 99 plus external sources can be invoked by “OK” key. The program list sequence can be altered by “channel edit” in OSD menu and should not be influenced by “channel skipped” © MMD 2010 Page 33 of 45 221TE2L LCD General Product Specification 5 Non functional requirements 5.1 DEFAULT AND INITIAL CONTROL VALUES Initial value: Settings when the set turns on from standby. Default value: Out of box settings. Factory reset to default: Settings when “Factory Reset” in menu is selected. Control Initial Value Default Value Factory Reset to Default Smart settings Last status Home: Standard Last status Last status Last status 20 Off Off Yes (Personal settings back to default too) Yes Yes Yes Last status per channel Last status per channel Last status Last status Last status Last status Stereo Off 100 50 Cool Yes Yes Yes Yes Last status Full Screen Yes Last status TBD Yes Last status 4:3 : user setting. Wide screen : WSS or user setting. Last status On 4:3 : for 4:3 sets Widescreen : for 16:9 sets TV Yes Yes Audio Video Volume AVL Incredible Surround Dual I/II (EU) Forced Mono (EU) User mute PC Brightness PC Contrast PC Color Temp. PC picture format PC Picture Manual adj. Phase Clock Horizontal Vertical DNR/NR TV/AV Picture format Off Source selection Program Selected source Program Last status Lowest program Lock Lock Last status Off © MMD 2010 Page 34 of 45 97 98 221TE2L LCD General Product Specification 5.2 TIME-OUT Summary of Time-out values: Description Value Menu Install menu and its subsequent submenus Menu to restore last viewed item highlighted All OSD AV source display (without AV source input) Digit entry for change channel Digit entry (General) No sync display in PC mode 5.3 20s. No Timeout 20s. 5s 5s. 1.5s for ATV, 2s for DTV 5s 30s LAST STATUS A variable can be classified as “last status” variable. This means if the variable is changed it may take up to 3 seconds before the variable is stored in NVM. This automatic storage mechanism is not operational when the TV set is in Factory mode. 5.3.1 AUDIO LAST STATUS Region 5.3.2 Audio Last Status Volume, Balance, Equalizer, Virtual Surround, AVL, Mute, Smart Sound. EU VIDEO LAST STATUS Region ALL 5.3.3 Video Last Status Last tuned Channel, Alternate Channel, Brightness, Color, Contrast, Sharpness, Tint, Color Temperature, NR, and Smart Picture. CHANNEL TABLES See PATS document. © MMD 2010 Page 35 of 45 221TE2L LCD 99 General Product Specification 5.3.4 CUSTOMER SERVICE MENU (CSM) Based on generic service requirements for OEM (D04.1) + study of data-sheets Hot Key is defined : MENU+062596 Customer service menu 1 1: Set Type ( e.g. 221T1SB/93 ) to be retrieved out of production-data 2: Production code Æ 14 digit production-code to be retrieved per set to be written in NVM./EEPROM 3: Key (HDCP) – HDMIÆ information whether HDCP-key is valid 4: NVM-naming; panel type 5: Code 1” Æ Logging I2C error codes in NVM/EEPROM (5 last logged errors) 6: Code 2” Æ Logging I2C error codes in NVM/EEPROM (5 first logged errors 7: Key (HDCP) – HDMIÆ information whether HDCP-key is valid 8: NVM-naming; If there are different NVM-contents per display-type 6 ACCESSORIES 6.1 Cables Ɣ Power cord (3 choice 1) Ɣ Ɣ Ɣ Ɣ Ɣ Ɣ Ɣ Ɣ SCART cable (option) DVI-I cable VGA Interface Cable (option) RCA R/L audio cable (option) S-video cable (option) AV cable (option) Mini Jack stereo cable (option) YPbPr cable (option) - 6.2 EU, L Type, Length: 1.8 M +/- 50 mm UK, L Type, Length: 1.8 M +/- 50 mm AU, L Type, Length: 1.8 M +/- 50 mm N.A. N.A. YES, Length: 1.8 M +/- 50 mm N.A. N.A. N.A. N.A. N.A. Remote Control Batteries included. 6.3 DFU Paper DFU / Czech, Danish, Dutch, English, Finnish, French, German, Greek, Hungarian, Italian, Norwegian, Polish, Portugese, Russian, Slovak, Spanish, Swedish, Turkish. 6.4 Quick User Guide Paper QUG Czech, Danish, Dutch, English, Finnish, French, German, Greek, Hungarian, Italian, Norwegian, Polish, Portugese, Russian, Slovak, Spanish, Swedish, Turkish. © MMD 2010 Page 36 of 45 100 221TE2L LCD General Product Specification 6.5 Warranty card Philips warranty card © MMD 2010 Page 37 of 45 221TE2L LCD General Product Specification 7 MECHANICAL 7.1 Cosmetic Philips ID 7.2 Mechanical Data Files ProE files required, with architecture in part and assembly from vendor. 7.3 Location of Philips Logo Per Philips make-up sheet 7.4 Location of Icons Per Philips make-up sheet Color for Resin / Paint 7.5 Per Philips make-up sheet Gap between panel and front bezel 7.6 < 1.2(typ.) mm Slant on front bezel 7.7 Љ4.0MM 7.8 Fire enclosure request -Shielding Cover should fulfill international standard 7.9 x x x Resins RoHS requirements. WEEE requirements. Resin type/selection refer to “Plastic-Philips Pool monitor”. © MMD 2010 Page 38 of 45 101 102 221TE2L LCD General Product Specification 7.10 Paint Used x x x RoHS requirements. WEEE requirements. If new painting type need to implement, refer to UN-D 1235 7.11 Plastic Mold Tooling x x x x Tooling to be designed to minimize cosmetic defects induced by molding process (sink, blush, weld lines, gate marks, ejector marks, etc.), Reference to “TYV61-90007”. Painting to cover up cosmetic defects due to molding is strongly discouraged. China RoHS mark requested. Design of a separated room on front cabinet by using wall, rib, sponge...etc. for ensuing both speaker enclosure (RH/LH) is segregated 7.12 Plastics Flammability x x All Plastics to be Flame Retardant UL 94- HB or Better. All major plastic parts (bezel, back cover, base) is better to be molded from same resin. 7.13 Texture/Glossing of Housing x x x x x The texture area and texture no should follow Philips make-up sheet. The exterior surfaces shall have a uniform texture. Philips must approve the mold texturing. Detail document for texture refer to UAN-D249 and UN-D 600. Glossy surface > = 80 gloss units 7.14 Base Tilt / Swivel Range x Tilt angle x Swivel angle : x Base detach - x Tip over - © MMD 2010 : -5 q +2/-0 q (forward) +20 q +0°/-2°(backward) nil Should be directly disassembled from main body, so as for easy install the set to wall mount. 10° minimum in worst case, base dimension designed so that ID and tip over requirements can be met. Page 39 of 45 221TE2L LCD General Product Specification 7.15 Movement of Unit with Base x x x Base must have non-marring, non-staining feet. Unit must tilt up and down with no “Stick / Slip”. Base must provide sufficient friction to hold unit in desired position after adjusting tilt. 7.16 Kensington Lock x x Must meet Kensington_slot.spec “TYE-M0004”. MMD request metal plate in Kinsington hole. 7.17 Wall Mount Method x VESA standard 100mm x 100mm 7.18 Label x x x Regulatory label / Carton label should follow Philips requirement. China RoHS label. Detail document refer to Philips Engineering Reference Book. 7.19 Product Dimension / Weight Refer to Philips approved SHT 191/SHT560 x Unit dimension (with stand) x Packed unit dimension (carton) x Net weight x Gross weight - 7.20 Transportation x Transportation standards refer to UAN-D1534/00/01/02. 7.20.1.1 x x x x Transportation packages Packaging and wrapping shall be sufficient to protect the product against damage or loss during shipment from the supplier to the destination specified in the purchase order. All packaging materials are subject to test and evaluation per UAN-D1534/00/01, UAN-D636 and UN-D1400. General pallet requirement refer to wood packaging reqs SBMT-ISBM15-16-03-06.pdf. The cushion material shall be constructed using EPS material. The doggy hole is requested. © MMD 2010 Page 40 of 45 103 104 221TE2L LCD General Product Specification 7.20.1.2 x x The overall test refer to UAN-D1534/00/01. Vibration, drop test should be performed at ambient temperature(20°C to 23oC) and relative humidity (40% to 65% ). 7.20.1.3 x x x Transportation test Transportation test procedures The overall test refer to UAN-D1534/00/01/02. Package test 1. Random Vibration test 2. Drop test 3. Cold Drop test (for design reference) Un-package test 1. Half sine shock test (non operation) 7.21 Pallet / Container Loading Refer to Philips approved SHT191/SHT560 . Transportation standards refer to TYE-M0002 ,UAN-D1534 and UAW-0309. x x x x x x x Request by transportation items: Air shipment Sea container 20'(pallet/slip sheet) Sea container 40'(pallet/slip sheet Sea container 40' High Cube (pallet/slip sheet) Land 45‘ Truck and Trailer (800X1200mm pallet) for EU Land 45‘ Truck and Trailer (1000X1200mm pallet) for UK Truck shipmentStacking request in different transportation for all regions except EU/UK(SHT560) A. Air shipment B. 20’/40’/40’HQ Container loading C. Truck shipment- Stacking request in different transportation forr EU/UK(SHT560) A. Land 45‘ Truck and Trailer (800X1200mm pallet) for EU B. Land 45‘ Truck and Trailer (1000X1200mm pallet) for UK © MMD 2010 Page 41 of 45 221TE2L LCD General Product Specification 8 RELIABILITY / ENVIRONMENT 8.1 MTBF prediction >100k hours (excluding Panel) 8.2 Demonstration MTBF >75k hours with 90% confidence level at CR (excluding Panel) 8.3 x x x 8.4 x x x 8.5 x x x 8.6 x x x 8.7 x x x Temperature Operating (guaranteed performance according to spec requirements): 0 to 40 degree Storage -20 to 60 ºC Shipping -40 to 65 ºC Humidity Operating (non-condensing) Storage (non-condensing) Shipping (non-condensing) - 20 to 70% 5 to 95% 5 to 95% Altitude Operating Storage Shipping - 0 to 2000m 0 to 9000m 0 to 9000m Air pressure Operating Storage Shipping - 795 to 1013 mbar 300 to 1013 mbar 300 to 1013 mbar Environmental test Cold test (-25 degree,96 hours) Damp heat steady state (40 degree, 95% RH, 96 hours) Dry heat test (70 degree, 96 hours) © MMD 2010 Page 42 of 45 105 106 221TE2L LCD General Product Specification 9 REGULATORY COMPLIANCE 9.1 Worldwide Regulatory Per requirements. ˣ˛˟ʳ˧˩ʳ̀̂́˼̇̂̅ʳ ̆˴˹˸̇̌ 9.2 EMC Requirements Supplier DVT EMI test result must be submitted prior to DVT samples delivery, and PVT EMI test result must be submitted again prior to PVT samples delivery. Which also has to meet Philips' immunity testing specification. 9.3 RoHS Restriction on the use of certain hazardous substances. Lead, Cadmium, Mercury, Hexavalent Chromium, Polybrominated Polybrominated Bipheny1 Ether (PBDE)(flame retardant). 9.4 Bipheny1 (PBB) WEEE Producer (Philips) responsible for retailer take back schemes and recycling. --System implemented. --Collection and recycle targets. © MMD 2010 Page 43 of 45 and 221TE2L LCD 107 General Product Specification 9.5 Ongoing Regulatory There's a possibility that other regulatory certificates will be required during the life of the product. It is the responsibility of the supplier to provide related documentation. © MMD 2010 Page 44 of 45 108 221TE2L LCD General Product Specification Distribution list Name © MMD 2010 Department Location Page 45 of 45 Exploded View 221TE2L LCD 109 110 221TE2L LCD Spare / Recommended Parts List Model:221TE2L Ϩ Spare parts change rule: !!Gray color: old parts can be ALT to new parts Gray color with delete line: old parts can not be used to this model Ϩ Spare parts upgrade rule: last number +1 --> Latest version parts number Model Model PCM code 4J.1BB01.001 5B.1BB01.001 2G.00921.001 5K.L2H06.511 5K.L1S11.511 Model location SF1 SF2 TF1 U118 U13 U36 U24 PCM code 2D.20075.001 2D.20075.051 5D.14EA8.001 7A.00237.00U 7A.01220.00E 7B.25644.002 7B.55162.A0U 22 1T Critical components Description FILTER 33.90/38.90MHZ K 3953 M FILTER 33.90/38.90MHZ K 9656 M TUNER A/D TDTC-G321D IC CTRL MSD237HFG-LF-SW LFBGA IC DVBT/VIF MSB1220-LF LQFP48 IC FLASH MX25L6445EMI-10G SOW #IC SDRAM H5PS5162FFR-S6C FBGA /0 1 E2 LB 22 1T Philips 12NC CPT AUO CPT AUO V V V V V V V V V V V V V V V V V V V V /0 0 Description QSG PHILIPS 221TE2L CD MANUAL PHILIPS 221TE2L CORD H05VV-F 10A250V EUR 1.8M CABLE SIGNAL/C H+V OD_5.5 1.8M CABLE AUDIO E2 LB location 200 210 31 32 33 /0 1 22 1T 22 1T Philips 12NC CPT AUO CPT AUO V V V V V V V V V V V V 22 1T Accessory Styling PCM code 4G.17C01.001 4G.17C02.001 /0 0 Description CUSHION TOP CUSHION BUTTON CARTON 4D.1BB01.001 E2 LB location 100 110 120 22 1T 22 1T Packing Styling Philips 12NC CPT AUO CPT AUO V V V V V V V V V V V V V V V V /0 1 REAR COVER ASS'Y PCM code 6K.17C20.001 6K.17C18.001 6K.17C01.001 6K.17C09.001 6K.17C08.001 /0 0 4 Description BSAE ASS'Y COLUMN ASS'Y FRONT BEZEL ASS'Y (Black) E2 LB location 6 5 1 E2 LB Model 22 1T Mechanical Styling /0 1 30 E2 LB 2 /0 1 8 E2 LB 11 22 1T 9 7 /0 0 10 9J.1BB72.*** 35PCS PN1 QN1 PCM code Philips 12NC CPT AUO CPT AUO 5E.1BB01.011 V V MAIN (I/F) BOARD ASS'Y 5E.1BB01.001 V V POWER BOARD ASS'Y 5E.1BB02.001 V V V V CTRL BD ASS'Y 5E.1BB03.001 V V V V 5E.1BB33.011 V V LED DRIVER BD ASS'Y 5E.1BB33.001 V V IR BD ASS'Y 5E.1BA22.001 V V V V LCD21.5W CLAA215FA04 (CPT) 5F.LTAPP.011 V V ASSY LCDM21.5W M215Q01 V0 Z (QISDA)6P.QUAV0.001 V V FFC CABLE 30P 5K.1BB01.001 V V V V Description E2 LB location E2 LB Model 22 1T Panel+PCBA Styling /0 0 old : 6K.0QC01.011 / new : 6K.0QC01.012 E2 LB Example Philips 12NC CPT AUO CPT AUO V V V V Atv video filter V V V V Atv audio filter V V V V Tuner that receive RF signal V V V V Scaler IC V V V V Demodulator IC V V V V Firmware storage IC V V V V DDR IC 221TE2L LCD 111 Panel & PCBA photos ITEM PCM Description 1 5F.LTAPP.011 LCD21.5W CLAA215FA04 (CPT) 2 6P.QUAV0.001 ASSY LCDM21.5W M215Q01 V0 Z (QISDA) 3 5E.1BB01.011 MAIN (I/F) BOARD ASS'Y 4 5E.1BB01.001 MAIN (I/F) BOARD ASS'Y 5 5E.1BB02.001 POWER BOARD ASS'Y 6 5E.1BB03.001 ASSY CTRL BD+FFC CABLE 7 5E.1BB33.011 LED DRIVER BD 8 5E.1BB33.001 LED DRIVER BD 9 5E.1BA22.001 IR BD 112 221TE2L LCD 5HSDLU7LSV  0. Warning All ICs and many other semi -conductors are susceptible to electrostatic discharges (ESD). Careless handling during repair can reduce life drastically . When repairing, make sure that you are connected with the same potential as the mass of the unit via a wrist wrap with resistance. Keep components and tools also at the same potential! 1.4 Attachment of SMDs - Locate the SMD on the solder lands by means of tweezers and solder the component on one side. Ensure that the component is positioned correctly on the solder lands (see Fig.2A). - Next complete the soldering of the terminals of the component (see Fiq. 2B). 1. Servicing of SMDs (Surface Mounted Devices) 1.1 General cautions on handling and storage - Oxidation on the terminals of SMDs results in poor soldering. Do not handle SMDs with bare hands. - Avoid using storage places that are sensitive to oxidation such as places with sulphur or chlorine gas, direct sunlight, high temperatures or a high degree of humidity. The capacitance or resistance value of the SMDs may be affected by this. - Rough handling of circuit boards containing SMDs may cause damage to the components as well as the circuit boards. Circuit boards containing SMDs should never be bent or flexed. Different circuit board materials expand and contract at different rates when heated or cooled and the components and/or solder connections may be damaged due to the stress. Never rub or scrape chip components as this may cause the value of the component to change. Similarly, do not slide the circuit board across any surface. 1.2 Removal of SMDs - Heat the solde r (for 2-3 seconds) at each terminal of the chip. By means of litz wire and a slight horizontal force, small components can be removed with the soldering iron. They can also be removed with a solder sucker (see Fig. 1A) While holding the SMD with a pair of tweezers, take it off gently using the soldering iron's heat applied to each terminal (see Fig. 1 B). - Remove the excess solder on the solder lands by means of litz wire or a solder sucker (see Fig. 1C). While holding the SMD with a pair of tweezers, take it off gently using the soldering iron's heat applied to each terminal (see Fig. 1 B). - Remove the excess solder on the solder lands by means of litz wire or a solder sucker (see Fig. 1C). 1.3 Caution on removal - When handling the soldering.iron. use suitable pressur e and be careful. - When removing the chip, do not use undue force with the pair of tweezers. - The soldering iron to be used (approx. 30 W) should preferably be equipped with a thermal control (soldering temperature: 225 to 250 C). 7KHFKLSRQFHUHPRYHGPXVWQHYHUEHUHXVHG 2. Caution when attaching SMDs - When soldering the SMD terminals, do not touch them directly with the soldering iron. The soldering should be done as quickly as possible, care must be taken to avoid damage to the terminals of the SMDs themselves. - Keep the SMD's body in contact with the printed board when soldering. - The soldering iron to be used (approx. 30 W ) should preferably be equipped with a thermal control (soldering temperature: 225 to 250 C). - Soldering should not be done outside the solder land. - Soldering flux (of rosin) may be used, but should not be acidic. - After soldering, let the SMD cool down gradually at room temperature. - The quantity of solder must be proportional to the size of the solder land. If the quantity is too great, the SMD might crack or the solder lands might be torn loose from the printed board (see Fig. 3). 221TE2L LCD 113 5HSDLU7LSV 3. Lead-free product identification You can identify lead-free product by Philips-lead-free logo on PCB. 4. Lead-free product repair instruction 4.1 Use only lead-free Solder Alloy 0622 149 00106(1.2mm SAC305) or 0622 14900108(1.0mm SAC305). Remark: For lead free soldering material, please visit www.alphametals.com website for details. This is recommended by Philips. 4.2 Use only adequate solder tools applicable for lead-free soldering-tin. The solder tool must be able to reach at least a solder-temperature of 400, to stabilize the adjusted temperature at the solder-tip and to exchange solder-tips for different applications. Small Passives/Actives to be removed with thermal tweezers Automated system for IC and BGA repair (Microscope, Camera, Beam split optics, Computer, Programmer, Heat controllers, Vacuum system, Laser pointer) Solder Hand-Tool (Adjustable in temperature height, Temperature shall be held constant, Flexible tips) 4.3 Adjust your solder tool so that a temperature around 360 -380 is reached and stabilized at the solder joint. Heating-time of the solder-joint should not exceed ~ 4 sec. Avoid temperatures above 400 otherwise wear-out of tips will rise drastically and flux-fluid will be destroyed. Corrosion of Tool-Spikes can be avoided when using SAC305 and a temperature of less than 400. 4.4 Mix of lead-free solder-tin/parts with leaded soldering-tin/parts is possible but not recommended. If not to avoid clean carefully the solder-joint from old tin and re-solder with new tin. 4.5 Use only original spare-parts listed in the Service-Manuals. Standard-material (consumables) can also be purchased at external companies. 4.6 Special information for lead-free BGA-ICs: this ICs will be delivered in so-called dry-packaging to protect the IC against moisture and with lead-free logo on it. This packaging may only be opened shortly before it is used (soldered). Otherwise the body of the IC gets wet inside and during the heating time the structure of the IC will be destroyed due to high (steam-) pressure. If the packaging was opened before usage the IC has to be heated up for some hours (around 90 ) for drying (Take attention for ESD-protection!) 5. Rework on BGA (Ball Grid Array) ICs General Although (LF)BGA assembly yields are very high, there may still be a requirement for component rework. By rework, we mean the process of removing the component from the PWB and replacing it with a new component. If an (LF) BGA is removed from a P WB, the solder balls of the component are deformed drastically so the removed (LF)BGA has to be discarded. Device Removal As is the case with any component that, it is essential when removing an (LF) BGA, the board, tracks, solder lands, or surrounding components are not damaged. To remove an (LF)BGA, the board must be uniformly heated to a temperature close to the reflow soldering temperature. A uniform temperature reduces the chance of warping the PWB. To do this, we recommend that the board is heated until it is certain that all the joints are molten. Then carefully pull the component off the board with a vacuum nozzle. For the appropriate temperature profiles, see the IC data sheet. Area Preparation When the component has been removed, the vacant IC area must be cleaned before replacing the (LF) BGA. Removing an IC often leaves varying amounts of solder on the mounting lands. This excessive solder can be removed with either a solder sucker or solder wick. The remaining flux can be removed with a brush and cleaning agent. After the board is properly cleaned and inspected, apply flux on the solder lands and on the connection balls of the (LF)BGA Note: Do not apply solder paste, as this has shown to result in problems during re-soldering. Device Replacement The last step in the repair process is to solder the new component on the board. Ideally, the (LF) BGA should be aligned under a microscope or magnifying glass. If this is not possible, try to align the (LF)BGA with any board markers. To reflow the solder , apply a temperature profile according to the IC data sheet. So as not to damage neighbouring components, it may be necessary to reduce some temperatures and times. More Information For more information on how to handle BGA devices, visit this URL: http://www.atyourservice.ce.philips.com (needs subscription). After login, select Magazine, then go to Workshop Information. Here you will find Information on how to deal with BGA-ICs. ʳ 114 221TE2L LCD Repair Flow Chart No Display: ʳ 221TE2L LCD 115 Repair Flow Chart Control board related: (Symptoms: particular key not responding.) N All buttons are no response 1. Check FFC cable connectivity. 2. Check PCB P/N to ensure correct board is used. Y Board level analysis: Check ADC0/1/2 voltage level. Y Replace a new CTRL BD and test all keys again. Either white LED or red LED do not work Y Ensure FFC cable is well inserted and check again Y Replace a new CTRL BD and test all LED again. N Assembly issue ʳ 116 221TE2L LCD Repair Flow Chart IR board does not work. (Symptoms: remote control not working.) All keys of remote control are not responding Y Ensure IR FFC cable and CTRL FFC is well inserted. Y N Try another remote control Remote control issue check if IR responding Y May be IR BD issue , try another N IR BD issue IR BD and check if IR responding Y May be control BD issue , try another control BD and check if IR responding N control BD issue ʳ 221TE2L LCD 117 Repair Flow Chart Power no work Start Y Y Check 7.5V existed ? Check 18V N Y Check F601 OK ? Power BD is OK N Replace F601 N Replace D701, D702 N Replace IC602, Y Check D701, D702 OK ? Y Check IC602,IC701 OK ? IC701 Y Check Q601,R615 OK ? Y N Replace Q601,R615 N Check & Replace D602, R609, ZD601 Y Check IC601 whether the Vcc OK ? Y Replace IC601 Y ʳ 118 221TE2L LCD Repair Flow Chart LED Driver no work Start Y N Check Power BD Check Vin 18V existed ? Y Check ENA & PWM signal is OK? N Check I/F BD Y Check D801, L801 & Q801 OK ? Y Replace IC601 N Replace D801, L801 ,Q801 221TE2L LCD 119 Safety Test Requirements All units that are returned for service or repair must pass the original manufactures safety tests. Safety testing requires both Hipot and Ground Continuity testing. 3. Equipments and Connection 3.1. Equipments For example : - Zentech 9032 PROGRAMMABLE AUT O SAFETY TESTER HI-POT TEST INSTRUCTION 1.Application requirements 1.1 All mains operated products must pass the Hi-Pot test as described in this instruction. 1.2 This test must be performed again after the covers have been refitted following the repair , inspection or modification of the product. 3.2. Connection * Turn on the power switch of monitor before Hipot and Ground Continuity testing. 2. Test method 2.1 Connecting conditions 2.1.1 The test specified must be applied between the parallel blade plug of the main scord and all accessible metal parts of the product. 2.1.2 Before carrying out the test, reliable conductive connections must be ensured and thereafter be maintained throughout the test period. 2.1.3 The mains switch(es) must be in the "ON" position. 2.2 Test Requirements All products should be HiPot and Ground Continuity tested as follows: Hi-Pot Test for products where Condition the mains input is 220V AC Hi-Pot Test for products where the mains input is 110V AC Test voltage 1700VDC (1200VAC) 2820VDC (2000VAC) Test time 3 seconds 1 seconds Trip current (Tester) Set at 100uA for Max limit; 5mA Set at 0.1uA for Min limit. Ramp time (Tester) Set at 2 seconds 刈 Ground Continuity Test requirement Test current: 25A, AC Test time: 3 seconds Resistance required: <=0.09+Rohm, R is the resistance of the mains cord. 91 220CW9 LCD 2.2.1 The minimum test duration for Quality Control Inspector must be 1 minute. 2.2.2 The test voltage must be maintained within the specified voltage + 5%. 2.2.3 There must be no breakdown during the test. 2.2.4 The grounding blade or pin of mains plug must be conducted with accessible metal parts. 4. Recording Hipot and Ground Continuity testing records have to be kept for a period of 10 years.