kdsr50xbr1 lcd panel replacement factory
Native Resolution:The KDS-R50XBR1 has three high-definition SXRD image panels, each with 1920 x 1080 pixels. Each panel has 2 million pixels, so there is no loss of detail. SXRD preserves every pixel of the source, and brings the full 1080 lines to the screen without interlacing, displaying the signal at 1080p. The resulting picture has incredible clarity and a smooth, filmlike quality.
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Just ordered my replacement 65″ Panasonic plasma to replace my yellow KDS-R60XBR1. My friend’s XBR2 also went yellow a month or so before mine. I’m not interested in “deal”on a discount on a smaller set I never wanted and we knew nothing of the class action lawsuit. People tried to warn me that Sony is a company that treats its customers callously and doesn’t know how to do the right thing. Lesson learned. Never by Sony anything again. Tell a friend.
I just hung up with Sony on trying to get information about a green hue I have on my SXRD TV. The support tech actually lied to me 6 times before I was able to get ‘Dennis’ to admit the truth. Dennis stated that Sony has never had an ‘Optical block’ problem, that there had never been a class action suit on this issue, that they have never offered any kind of replacement, and the the internet had lied about all of this. I asked to be moved to a higher level and he stated that when he would transfer me that it would go to someone else of his level with the same information. How can you trust a company that lies to you right from the beginning?
I contacted sony about my KDS55A2000 with green tint. I purchased it 2006 and paid 2500.00.I am now offered a 55” priced on their web site 1100.00 for 575.00 + tax. I have a 20 yr. old magnavox 300.00 still working. Sony represented this TV to last a very long time with an occasional bulb replacement.They by there standards say this TV is worth 600.00 today.I GOT 5 YRS SERVICE or 500.00 per year.I was told if I didn”t agree to the deal!!!!! within 7 days I would lose this option.Yesturday morning I agreed with a very sinking feeling.I own 2 newer sony 46” TVs cameras play stations mp3s hell all of our electronics are sony.I am now of the belief that SONY has gone cheap with the manufacturing of there products.I took there deal but I won”t forget.I have a lot of friends and a bit of persuasion.Help from sony or I quit!!!!!!!!!
I just worked with Sony on my 55″ SXRD tv issue that included a yellow tint to the picture. The offer I got was for a 55KDL500 for $300 or a 46″ model for $25. I took the $300 55″. Shame though that the picture on the new LCD is not as clear as the SXRD when working well.
Have a KDS-R60XBR1 with optical block problem. Called Sony about two weeks ago. They provided an event # and asked that I provide a pic of the TV with the event number and the seriel number tag from the back of the tv. You must carefully remove it and tape it on the paper. I took a pic of the tv during a Ford commercial which has lots of white screen space which clearly shows the green halo. I’m now waiting for the 60EX700 LCD HDTV to be shipped ($325+tx). Thanks everyone for your posts.
I have owned a 60″ A2000 for approx. 3 1/2 years and have just recently had the optics replaced for the sixth time. I finally got fed up enough to contact Sony right before the fifth replacement and was told at the time that they would do nothing for me other than replace it again. After finding that the fifth optical block was bad right from the get go, I contacted them again. I expressed that aside from the incredible inconvenience and work time lost from having to constantly be home for the repairman, I was concerned that I would soon be out of any kind of warranty and be stuck with a tv that had never consistently worked right. They stated that they would get back to me within 72 hours. After a week had passed, I called again and was told that I would receive a call back in one business day. Four business days later, I called again. I was then told that they would contact me at an undetermined future time. When they finally did get back to me they wanted me to fax my original receipt to them so that they could then offer me some “great deals” on a new tv.
**The 2005 3LCD models are unique in that they are the only models between 2003 and 2007 that have not had a Sony warranty extension.***The expiration date of the extended warranty was originally 10/31/2008, but, based in part on the settlement of a class action lawsuit, on 11/12/2007, Sony extended the expiration date to 6/30/2009.
Most likely, all of the green discolorations occurred due to the presence of improperly polarized light in the green channel, arising from defective green polarizers and/or SXRD panels. There is more recent evidence from a subsequent SXRD class action lawsuit that green haze can be caused by skin oil or debris introduced during the manufacturing process (presumably, optical block assemblers touching the parts with their bare fingers). However, Sony claims that they cleaned such optical block parts in a clean room prior to releasing them.
Sony further claims that the yellow stains in the 2005 SXRDs, which tend to start in the upper or lower right corner, were caused by a "microscopic material" in the liquid crystal panels, disrupting their uniformity over time during prolonged exposure to UV light produced by the projection lamp. Sony claims that the extent of the discoloration depended on the amount of microscopic material present in the panel, which varied from TV to TV, and the frequency of usage by the consumer. They also claim that service records indicate that the issue always appeared within the first 3,000 hours of usage, if it was going to happen.
The blue discolorations seem to be the most common, particularly in the earlier (2003-2005) 3LCD models, although they are also observed in the more recent 3LCD models, as well as the SXRD models. These discolorations can take the form of blue blobs, haze, lines, bands, dots, star pattern, etc. In some cases, the discoloration is centered around an oval-shaped anomaly in the middle of the screen. In many cases, the discoloration (e.g., haze) is most visible on a gray background, but in other cases, the discoloration is visible on a black background (e.g., blobs). Once they become evident, the discolorations tend to accumulate and spread across the entire screen over the course of a few weeks to months.
The precise cause(s) of these discolorations have not been revealed by Sony, but the problem is well-known in the industry.Thediscolorations tend to be bluish in color,because the parts in the blue light path (particularly the blue polarizing filters and liquid crystalpanels) aresubject to the highest energy light (including UV) and heat. Photochemical and heat-based degradation of the blue polarizing filters can allow stray, improperly polarized blue light to pass through the blue LCD panel and onto the screen, leading to blue blobs on images that should be black. Photochemical and heat-based degradation of compounds in the blue LCD panel (e.g., the liquid crystal itself and/or alignment layers) can cause irregular distribution and/or alignment of the of the liquid crystal. This can lead to improper polarization of blue light as it passes through the damaged areas of the panel, resulting in the projection of stray blue light onto the screen.
There is a correlation between the appearance of the blue discolorations and the failure and/or replacement of the lamp. This may be a coincidence of the average life span of the lamp and the rate of degradation of the optical block parts, or changes in the lamps may accelerate the degradation or make it more evident. For example, the light spectrum emitted by older lamps may become more damaging, and/or the increased intensity of a brand new lamp may make the discolorations more visible or hasten the degradation of the already weakened parts.
images--typically called burn-in on older CRT and plasma displays. For example, this can occur in areas of black bars (e.g., letterboxes), in news ticker areas, or when pausing a program on a DVR.As the liquid crystal panels degrade over time, the
While the 2003-2004 3LCD models tend to have primarily blue discolorations, as described above, they can also suffer from stains in the yellow range, and this seems even more common in the newer 3LCD models (e.g., 2005-2006), particularly the A10s. These discolorations tend to start on the edges or appear within oval-shaped anomalies, and to spread over time. Similar to the yellow stains in the SXRDTM models, the yellow color arises due to light being completely blocked in the blue light pathdue to photochemical and heat-based damage (e.g., darkened areas on the orange-colored polarizing filter in the blue light path). The improper blockage of blue lightleaves the predominantly yellow light from the combined green and red light paths. TriState Module sells the orange-colored polarizing filter for the blue light path and reports that it can fix yellow discolorations.
On top of the high risk for blue discolorations described above, some2003-2004 3LCD modelsare also susceptible to developing an opaque, non-moving pattern on the screen, which is particularly evident on white or light backgrounds. This is referred to variously as stationary scribble, squiggly, random line, or road-mapping, and tends to be a solid color such as yellow, purple, or blue-green on a white background, but it varies somewhat depending on the specific color of the image on the screen.The problem tends to grow worse over time.
For the most part, this problem seems to have been caused by defective materials in a specific lot of LCD panels that were installed in the optical blocks, whichare particularly sensitive to damage arising from hot-cold (on-off) cycling. The color of the scribbles likely correlates with the light path with the damaged LCD panel. For example, damage to the blue panel may selectively block blue light in the damaged areas, leading to a yellow scribble (green plus red), damage to the green panel may lead to a purple scribble (blue plus red), or damage to the red panel may lead to a blue-green scribble. In some cases, different colored scribbles appear in different areas on the same TV, suggesting damage to multiple panels.
There is some evidence that leaving the TV on for an extended period (e.g., several days) can, at least temporarily, resolve or reduce this issue, perhaps by causing the defective panel to heat up, but this is not a complete or permanent fix.
The optical blocks are not sealed, so they are subject to dust accumulation, and this problem seems to be particularly frequent when the TVs are used in dusty or smoky conditions. Also unlike the rest of the issues described above, there have been no warranty extensions or class-action lawsuits for this issue. It may be possible to reduce the appearance of the blotches by cleaning the optical block with compressed air. Unfortunately, cleaning will rarely eliminate the problem, the problem will likely return over time, and it appears that the dust can get burned into parts within the optical block during prolonged exposure to the heat of the projection lamp, making cleaning ineffective. See the Optical Block Replacement/Cleaning page on this site for additional information.
For reference,in addition to liquid crystal projection technology (3LCD andLCoS/SXRDTM), othernewer technologies at the time included digital light processing (DLP) projection,plasma flat-panel,and LCD flat-panel. In the large screen market, DLP and plasma were in direct competition with liquid crystal projection in its heyday, and LCD flat-panels have overtaken the market as prices have come down on larger panels.
An industry group of LCD projection manufacturers called the "3LCD Group" was formed in 2004 to help market the 3LCD microdisplay technology. Sony is a member of this marketing group, and, along with Epson, accounted for most of the production of the LCD microdisplay panels used in the projection models. Although the current 3LCD Group web site refers only to front projectors, it included rear-projection TVs when they were in production. For example, see this version of the 3LCD Group web site archived in January of 2005. Here is an excerpt from a 1/7/2005 3LCD Group press release:
“As the U.S. market leader in microdisplay televisions, Sony has always been committed to providing consumers with video products that exceed their expectations,” said Mike Fidler, senior vice president in Sony Electronics’ Home Products Division. “3LCD technology fulfills this role by offering an ideal balance between superior performance, overall reliability and manufacturing efficiency.”
Liquid crystal projection TV sales and marketing efforts attempted to steer customers away from competing plasma TVs by citing a short 10,000-20,000-hour lifespanof the plasma tubes (less than 10 years at 3-6 hours per day).In addition, the longevity of competing DLP projection TVs was questioned based on the use of moving parts (DLP technology uses a spinning color wheel with millions of hinged micromirrors). Consistent with this, Sony and its 3LCD Group have released marketing statements such as the following:
It is generally accepted that liquid crystal flat-panel displays have an expected life span of about 60,000 hours(about 27 years at 6 hours per day)(e.g., site 1, site 2, site 3). The liquid crystal microdisplay panels in Sony"s 3LCD and SXRDTM TVs are a bit different than flat-panels. However, Sony and the 3LCD Group do not differentiate LCD flat panels and microdisplays when speaking about reliability. For example, the following statement can be found on the 3LCD Group web site:
Reliable, Road-Tested Tecnology: LCD technology surrounds us – HDTVs, PDAs, mobile phones, monitors and more...this powerful and road-tested technology is an optimal way to achieve sharp, beautiful images. 3LCD systems are reliable and use a simple optical design: 3 chips and 1 prism.
Furthermore, the estimated 60,000-hour lifespan of an LCD flat panel is actually based more on the longevity of the fluorescent back-lighting than the liquid crystal components themselves. So, if the lighting systems were replaceable on these units, the lifespan could, theoretically, be much longer.In liquid crystal projection systems, the lamps are, in fact, user-replaceable, and Sony has exploited this to further promote the longevity of the technology. They strongly promoted that their TVs only needed a lamp change every several years to restore the TV to a like-new condition. Here are some quotes from some of Sony"s marketing:
Easy Replacement Of UHP (Ultra High Pressure) Lamp. Sony innovation once again takes the lead with its proprietary new UHP replacement approach. Now you don’t have to worry about time eroding your TV’s picture quality – with a few simple twists of the screw, you can replace the old lamp and restore your Grand WEGA’s performance to full, vivid glory. Thanks to this convenient feature, you’ll enjoy the same high level of quality and enjoyment for many years.
The Fountain of Youth - User-Replaceable UHP Lamp. In the past, the gradual loss of picture quality was just part of owning a TV. Once the picture got to a point where it was unwatchable, the TV was replaced and the process started over. Sony recognizes the investment in time and money that a TV represents. That is the reason that Grand WEGA comes with an ingenious user-replaceable UHP lamp. After countless hours of enjoyment, simply replace the lamp and your Grand WEGA is as good as the day you bought it. In fact, with Sony"s renowned quality, Grand WEGA may be the last TV you ever own.The implication from these quotes is that liquid crystal rear-projection TVs could have an even longer life than a liquid crystal flat-panel display, and even CRT-based TVs, due to the user-replaceable lamps. In fact, a "white paper" from Sony on their projection systems directly suggests that liquid crystal microdisplay (fixed-pixel) projection panels offer "far longer life" than CRT-based TVs (e.g., see page 23):
CRTs have phosphors that are subject to burn-in when an image stays on the screen too long...Fixed-pixel projector display panels are immune to burn-in, offering far longer life. And the SXRD panel is particularly robust.However, unlike flat-panel liquid crystal displays with non-damaging fluorescent back-lighting, the UHP lamps in Sony"s rear-projection TVs create substantial direct heat, direct light (e.g., ultraviolet), and indirect heat (produced by conversion of reflected light). This damaging energy is focused on the small filters and liquid crystal panels within the optical block, significantly reducing lifespan.
The approximately 6,000-10,000 hour life spans seen with many of Sony"s optical blocks, thus, does not compare favorably with the marketing claims of superior reliability and longevity over plasma and DLP, let alone with the language in Sony’s marketing material that the TVs should last for “countless hours” (far into the future), and that, with lamp replacement, it could be the last TV you ever need to buy.
SpecificationsProjection System 3 SXRD Panel, 1 lens projection systemSXRD Panel 0.61 inch SXRD panel 6,220,800 pixels (2,073,600 3)Projection Lens High Performance, large diameter hybrid lens F2.5Antenna 75 ohm external terminal for VHF/UHFLamp UHP lamp, 120W, XL-5100Television System NTSC American TV Standard ATSC (8VSB terrestrial) ATSC compliant 8VSB QAM on cable ANSI/SCTE 07 2000Visible Screen Size KDS-R50XBR1: 50 inches(picture measured diagonally) KDS-R60XBR1: 60 inchesChannel Coverage Terrestrial (analog) 2-69 Cable TV (analog) 1-125 Terrestrial (digital) 2-69 Cable TV (digital) 1-135Power Requirements 120V, 60 HzInputs/Outputs HDMI IN 2 total Video: 1080i, 720p, 480p, 480i Audio: Two channel linear PCM 32, 44.1 and 48 kHz, 16, 20 and 24 bit Video (IN) 3 total (1 on front panel) 1 Vp-p, 75 ohms unbalanced, sync negative S Video (IN) 3 total (1 on front panel) Y: 1 Vp-p, 75 ohms unbalanced, sync negative C: 0.286 Vp-p (Burst signal), 75 ohms Audio (IN) 6 total (1 on front panel) 500 mVrms (100% modulation) Impedance: 47 kilohms Component Video Input 2 (YPBPR) Y: 1 Vp-p, 75 ohms unbalanced, sync negative PB: 0.7 Vp-p, 75 ohms PR: 0.7 Vp-p, 75 ohms CONTROL S (IN) 1 Mini jack CONTROL S (OUT) 1 Mini jack AUDIO OUT (VAR/FIX) 1 500 mVrms at the maximum volume setting (Variable) 500 mVrms (Fixed) Impedance (output): 2 kilohms
PC IN D-sub 15-pin, analog RGB, 0.7 Vp-p, 75 ohms, positive i.LINK 3 total (1 on front panel) 4-pin S400 i.LINK terminal RF Inputs 2 Digital Audio Optical Output 1 Optical Rectangular (1) (PCM/Dolby Digital) CableCARD Slot PCMCIA Type I/IISpeaker Output 15 W (L), 15 W (R)Dimensions (W H D) KDS-R50XBR1 1,453 863 47 8 mm (57 1/4 34 18 7/8 inches) KDS-R60XBR1 1,674 1,009 514 mm (66 39 3/4 20 1/4 inches)Mass KDS-R50XBR1 43kg (94 lb. 13 oz.) KDS-R60XBR1 51kg (112 lb. 7 oz.)Power Consumption In Use 240 W In Standby 0.5 W In i.LINK/CableCARD Standby Less than 30 WSupplied Accessories Remote Control RM-Y914 AA (R6) Batteries 2 supplied for remote control Operating Instructions 1 Quick Setup Guide 1 Warranty 1 Product Registration Card 1Design and specifications are subject to change without notice.
Projection Lamp Your TV uses a projection lamp as its light source. As with any lamp, it has limited life and needs to be replaced when the Lamp indicator flashes or the screen becomes darker. Note the following: After turning on your TV, it may take a while (1 minute or less) before the picture appears. When the projection lamp wears out, the screen goes dark. Replace the lamp with a new Sony XL-5100 replacement lamp (not supplied).
Use a Sony XL-5100 replacement lamp (not supplied) for replacement. Use of any other lamp may damage the TV. Do not remove the lamp for any purpose other than replacement. Doing so may cause injury or fire. Do not put flammable materials and metal objects inside the lamp receptacle of the TV after removing the lamp. Doing so may cause fire or electrical shock. Do not touch the lamp receptable once the lamp has been removed. When the lamp eventually burns out, you may hear a noticeable pop sound. This is normal and it is inherent to this type of lamp. In rare instances, the bulb may pop inside the lamp unit, but the lamp unit is designed to contain all of the broken glass pieces inside the lamp unit. The lamps contain mercury. For proper disposal of the used lamps, follow and observe the local ordinances. See page 107.
The lamp is very hot after use. Never touch the glass portion of the lamp or the non-designated surrounding parts (shown in gray). After the used lamp has cooled, place it into the empty box of the replacement lamp. Never put the used lamp into a plastic bag.
Consult your Sony dealer for a Sony XL-5100 replacement lamp. Take great care when replacing the lamp or plugging in/unplugging the connecting cords. Rough handling may cause the TV t o fall, damaging the TV, the TV s tand and the floor.
After correcting the original service problem, perfom the follow- LEAKAGE TESTing safety checks before releasing the set to the customer: l. Check the area of your repair for unsoldered or poorly-sol- The AC leakage from any exposed metal part to earth ground and dered connections. Check the entire board surface for solder from all exposed metal parts to any exposed metal part having a splashes and bridges. return to chassis, must not exceed 0.5mA (500 microampers) . Leak- 2. Check the interboard wiring to ensure that no wires are age current can be measured by any one of three methods. pinched or contact high-wattage resistors. 1. A commercial leakage tester, such as the Simpson 229 or 3. Check that all control knobs, shields, covers, ground straps, RCA WT-540A. Follow the manufacturers instructions to and mounting hardware have been replaced. Be absolutely usc these instruments. certain that you have replaced all the insulators. 2. A battery-operated AC milliammeter. The Data Precision 245 4. Look for unauthorized replacement parts, particularly tran- digital multimeter is suitable for this job. sistors, that were installed during a previous repair. Point them 3. Measuring the voltage drop across a resistor by means of a out to the customer and recommend their replacement. VOM or battery-operated AC voltmeter. The limit indica- 5. Look for parts which, through functioning, show obvious tion is 0.75V, so analog meters must have an accurate low- signs of deterioration. Point them out to the customer and voltage scale. The Simpson 250 and Sanwa SH-63Trd are recom mend their replacement. examples of a passive VOM that is suitable. NearIy all bat- 6. Check the line cords for cracks and abrasion. Recommend tery operated digital multimeters that have a 2V AC range the replacement of any such line cord to the customer. are suitable. (See Fig. A) 7. Check the condition of the monopole antenna (if any). Make sure the end is not broken off, and has the plastic cap on it. HOW TO FIND A GOOD EARTH GROUND Point out the danger of impalement on a broken antenna to the customer, and recommend the antennas replacement. A cold-water pipe is guaranteed earth ground;the cover-plate re- 8. Check the B+ and HV to see they are at the values specified. taining screw on most AC outlet boxes is also at earth ground. If Make sure your instruments are accurate;be suspicious of the retaining screw is to be used as your earth-ground, verify that it your HV meter if sets always have low HV. is at ground by measuring the resistance between it and a cold- 9. Check the antenna temminals, metal trim, metallized knobs, water pipe with an ohmmeter. The reading should be zero ohms. If screws, and all other exposed metal parts for AC leakage. a cold-water pipe is not accessible, connect a 60-l00 watts trouble Check leakage as described below. light (not a neon lamp) between the hot side of the receptacle and the retaining screw. Try both slots, if necessary, to locate the hot side of the line, the lamp should light at normal brilliance if the screw is at ground potential. (See Fig. B)
2-12. Mirror Cover Block Assembly ........................... 22 4-4. Schematic Diagrams ........................................... 39 (1) Schematic Diagram of AK Board ...................... 40 2-13. H1 Block Assembly ........................................... 22 (2) Schematic Diagram of F Board ......................... 41 (3) Schematic Diagram of G (1/3) Board ............... 423. ELECTRICAL ADJUSTMENTS (4) Schematic Diagram of G (2/3) Board ............... 43 3-1. Electrical Adjustment by Remote Commander .... 23 (5) Schematic Diagram of G (3/3) Board ............... 44 3-1-1. Method of Setting the Service Adjustment (6) Schematic Diagram of HM Board ..................... 45 Mode ............................................................... 23 (7) Schematic Diagram of H1 Board ...................... 46 3-1-2. Service Mode Adjustment ............................ 23 (8) Schematic Diagram of H2 Board ...................... 47 3-1-3. Memory Write Confirmation Method .......... 23 (9) Schematic Diagram of H3 Board ...................... 48 3-1-4. Adjusting Buttons and Indicator ................... 24 (10) Schematic Diagram of QU Board ..................... 49 3-2. To read Lamp and Panel time ............................ 24 (11) Schematic Diagram of S1, S2 Boards ................ 50 3-3. Test Reset ........................................................... 24 (12) Schematic Diagram of T1, T3 Boards ............... 51 3-4. H/V Center Confirmation and Adjustment ........ 24 4-5. Printed Wiring Boards ........................................ 52 (1) AK Board ............................................................ 52 (2) F Board ............................................................... 53 (3) G Board (Side A) ................................................ 54 (4) G Board (Side B) ................................................ 55 (5) HM, H1 Boards .................................................. 56 (6) H2, H3 Boards .................................................... 57 (7) QU, S1, S2, T1, T3 Boards ................................ 58 4-6. Semiconductors .................................................. 59
5. Self-Diagnosis function operation 2 : Temp When the temperature sensor (for Ambient) on the S1 board detects high temperature or the temperature sensor (for Lamp) on the S2 board detects high temperature or the temperature sensor (for Panel) on the C board detects high temperature, the DE-micro (IC5) turns off the lamp.
9 : Panel error When there is not ack from the temperature sensor on the S1, S2 and C board or IIC line connector (CN2303: ASU board, CN7956: DSU board, CN6901: C board) is not seated securely. it is monitored by DE-micro.
D9671-1 0 0 G I2CSCAL MSPSEL CC_M 96H 28DEG Item Name 9CH 24DEG CC_S MSPFNC LCD PJ ENGINE VER.10.00B 03/10/07 732B
3-1-4. Adjusting Buttons and Indicator MUTING This screen reads POWER Total lamp time is 14 hours and DISPLAY Total lamp ON/OFF cycle is 71 timesAdjustment itemup To reset lamp time, Adjustment categoryAdjustment item up press 3 , MUTE and ENTER keys in sequence.down Data up WRI-EXE(Red Character) is momentarily displayed and LampTM Data down will be reset to 0 .Initialize data 4. Press 1 key [7 times].(Not stored) Adjustment category down ExampleUser control goes ENTER PANEL NVM OK 9 OPTION_Eto the standerd state 7 SH SFT1 10 Diff 1(Shipping Conditions) PanelTM 14h Read data from NVM
This screen reads Total Panel time is 14 hours VOL + You cant reset the Panel time with the Service menu .
3-2. To read Lamp and Panel time CXD9713 DFD 16 (for H center) DFD 17 (for V center)The lamp and panel time of the set are displayed as follows .
IC8 34 SIO_SCK3 AU/_MUTE 101 8 A_MUTE SENB_D OF_FLAG_MAIN 8 9 OVF 32 SIO_SDT3 K3.3V_SW 6 10 3.3V_SW FPC_DET TO 96 AC_OFF_DET AK BOARD IC2306 IRIS_GAIN 117 IRIS_GAIN CN2603 FAN PRPT 92 FAN ERR M_RST 100 13 M_RST CN7050 CN7051 CN004 2 A5V LAMP_ON +5V 86 LAMP_ON LATCH_MAIN 9 14 SCLTCH 1 S_SW2 S_SW2 1 SUB6.5V 1 3 IRIS_CTRL REG 69 IRIS_PPG 15 AMP_RST 2 S2_2 S2_2 2 IRIS_FB Y C D2-C 41 IRIS_FB 3 4 4 C2 C2 4 PANEL_ON D2-Y SUB-TV-V 93 PANEL_ON SIO_SDT1 19 17 SCDT 6 Y2 Y2 6 5V (D-D) S VIDEO 1 2 D2-V A-TU-V TU2100 PANEL_PD 8 V2 V2 8 5V (TU) 55 PANEL_PD SIO_SCK1 20 18 SCSHIFT D2-L SUB-TU-L SUB TUNER SDA_E 10 L2 L2 10 5V (IF) SCL_E D2-R SUB-TU-R 12 R2 R2 12 DE-EM AU_RESET_AMP 103 Q305 SYNC DETECT IC7
IC9102 IC9101 IC9000 PAWN TEMP. LDVS RECEIVER SENSOR CN9000 38P IFQE[0-29] RRIN0-9 RA1- RA1+ 2 3 RA1+/- IFQE[0-29] GRIN0-9 BRIN0-9 RB1- RB1+5 6 RB1+/- LRL0-9,LGL0-9,LBL0-9 DIDOUT RLIN0-9 RC1- RC1+8 9 RC1+/- IFQO[0-29] GLIN0-9 LRR0-9,LGR0-9,LBR0-9 LRL0-9 IC9401 BLIN0-9 LCD DRIVER L RCLK1- RCLK1+ 11 12 RCLK1+/- CN9400 RD1- RD1+ 14 15 RD1+/- IC 9103 LRR0-9 IC9403 RE1- RE1+ 17 18 RE1+/- LCD DRIVER R VID_R0-R23 24 VID_R0-R23 29 SIG (0) IFCLK HS_R CLKOUT DOTCLK IFHSYNC RC4 IFVSYNC HSIN HS_G RRL0-9 IC9402 6 SIG (23) HS_B 43 HCK RC5 VSIN LCD DRIVER L HCK,VCK, 42 VCK R HST,VST RRR0-9 IC9404 41 HST LCD DRIVER R 40 VST SDAT, 34 VPC SCLK DIDOUT 39 RST IC9100 IC9150 LGL0-9 IC9500 NVM DDR SDRAM LCD DRIVER L SET3.3V IC9407 RESET CN9500 LGR0-9 IC9502 LCD DRIVER R VID_G0-G23 24 VID_G0-G23 29 SIG (0) RGL0-9 IC9501 6 SIG (23) LCD DRIVER L 43 HCKTO 42 VCK G LCDDSU BOARD RGR0-9CN4202 IC9503 41 HST UNIT LCD DRIVER R 40 VST SDAT, 34 PID SCLK DIDOUT 39 RST LBL0-9 IC9600 LCD DRIVER L SET3.3V IC9505 RESET CN9600 IC9001 IC9253 LBR0-9R IC9602 PAWN PAWN LCD DRIVER R VID_B0-B23 24 VID_B0-B23 29 SIG (0) RA2- RA2+ 21 22 RA1+/- IFQE[0-29] RRIN0-9 GRIN0-9 RBL0-9 IC9601 6 SIG (23) RB2- RB2+ 24 25 RB1+/- BRIN0-9 LCD DRIVER L 43 HCK RRL0-9,RGL0-9,RBL0-9 42 VCK B RC2- RC2+ 27 28 RC1+/- RLIN0-9 RRR0-9,RGR0-9,RBR0-9 48 RBR0-9 IFQO[0-29] IFQO[0-29] GLIN0-9 IC9603 41 HST RCLK2- RCLK2+ 30 31 RCLK1+/- BLIN0-9 IC9252 LCD DRIVER R 40 VST RD2- RD2+ 33 34 RD1+/- VS_B SDAT, 34 PID RE2- RE2+ 36 37 RE1+/- VSOUT VS_G SCLK 39 RST
IC6901 CN6901 20P EEPROM SENS_SCL 3 SENS_SDA 5 WP2 7 SDA_E 8 SDADE_400K SCLDE_400K SCL_E 10 SENB 13 SDAT A16.5V CN6900 10P TO SCLK 14 DSU BOARD SET5V IC6900,6902 1 A16.5V TO CN7956 SDA1 16 SCLK SET3.3V 4 D6.5V IC6904,6905 DSU BOARD IRIS_CTRL 17 SET9V 5 D6.5V CN7954 D1 5V 6 IRIS_GAIN 18 REGULATOR D6.5V D2 5V IRIS_FB 19
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