Panasonic TC-P54VT20 manuel d'utilisation
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Tout d'abord, le manuel d’utilisation Panasonic TC-P54VT20 devrait contenir:
- informations sur les caractéristiques techniques du dispositif Panasonic TC-P54VT20
- nom du fabricant et année de fabrication Panasonic TC-P54VT20
- instructions d'utilisation, de réglage et d’entretien de l'équipement Panasonic TC-P54VT20
- signes de sécurité et attestations confirmant la conformité avec les normes pertinentes
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Habituellement, cela est dû au manque de temps et de certitude quant à la fonctionnalité spécifique de l'équipement acheté. Malheureusement, la connexion et le démarrage Panasonic TC-P54VT20 ne suffisent pas. Le manuel d’utilisation contient un certain nombre de lignes directrices concernant les fonctionnalités spécifiques, la sécurité, les méthodes d'entretien (même les moyens qui doivent être utilisés), les défauts possibles Panasonic TC-P54VT20 et les moyens de résoudre des problèmes communs lors de l'utilisation. Enfin, le manuel contient les coordonnées du service Panasonic en l'absence de l'efficacité des solutions proposées. Actuellement, les manuels d’utilisation sous la forme d'animations intéressantes et de vidéos pédagogiques qui sont meilleurs que la brochure, sont très populaires. Ce type de manuel permet à l'utilisateur de voir toute la vidéo d'instruction sans sauter les spécifications et les descriptions techniques compliquées Panasonic TC-P54VT20, comme c’est le cas pour la version papier.
Pourquoi lire le manuel d’utilisation?
Tout d'abord, il contient la réponse sur la structure, les possibilités du dispositif Panasonic TC-P54VT20, l'utilisation de divers accessoires et une gamme d'informations pour profiter pleinement de toutes les fonctionnalités et commodités.
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Table des matières du manuel d’utilisation
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Page 1
Panasonic Service and Technology Company National Training Technical Guide 2010 Panasonic 3D Plasma TV (13 th Generation) TC-P50VT20 TC-P54VT20 TC-P50VT25 TC-P54VT25 TC-P58VT25 TC-P65VT25 Applies to models: TTG090507CPREV090717 Image[...]
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Page 2
Slide 2 Prepared by Cesar Perdom o Panasonic Service and Technology Company National Training Warning This service information is designed for experienced repair technicians only and is not designed for use by the general public. It does not contain warnings or cautions to advise non-technical indiv iduals of potential dangers in attempting to serv[...]
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Slide 3 Introduction The Panasonic 3D Plasma TV uses what’s calle d “Frame Sequential Method”. By using this method, the TV outputs alternating imagery at 60 frames per second to each eye. The brain then combines the images and interprets them as 3D. The PDP high-speed light emission technology ut ilized to display high -picture quality full [...]
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Slide 4 Slide 4 Features/Specifications[...]
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Slide 5 Slide 5 Series Line up TC-P65VT25 TC-P58VT25 TC-P54VT25 TC-P50VT25 TC-P50VT20 VT SERIES (FHD Premium 3D) 65” 58” 54” 50” 46” 42” MODELS SERIES Differences between the VT20 and VT25 models 1. The VT25 Series models offer ISFccc (calibrated with an RS232C jack) and Studio reference mode, and Pro Setting. ISFccc is a protocol used [...]
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Slide 6 New Features Slide 6 Energy Saving (Louver F ilter) Mercury & Lead Free + 100,000 hrs + Eco Mode Environmentally Friendly Metallic Viera Cast IPTV Wi-Fi Ready (USB)x2 VIERA Image Viewer (Movie & Photo) Viera Link 4 HDMI Ports RS232 FHD 3D Dual Scan Short Stroke Phosphor THX Certified Moving Picture 1080 Lines 600Hz Sub-field Drive I[...]
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Slide 7 Features Full HD 3D Technology For a true Full 1080p 3D image, P anasonic’s VT25 Series feature s new, faster screen phosphors (short-stroke) which, when coupled with the VIERA VT25’s 600Hz sub- field drive, outputs alternating imagery at 60 frames per second to each eye. Working in unison with the required Active Shutter Eyewear, the h[...]
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Slide 8 Slide 8 Specifications 1 Ethernet Network Y Digital Audi o Out Terminal Output RCA/S (Rear) AV1 Type (Position) Terminal Input RCA (Side) AV2 Type (Position) RCA (Rear) Component1 Type (Position) RCA (Rear) Component2 Type (Position) Rear HDMI1 Position Rear HDMI2 Position Rear HDMI3 Position Side HDMI4 Position 1 PC Input Y BBE Y Surround [...]
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Slide 9 FHD 3D Panasonic Consumer Products TC-P65VT25 TC-P58VT25 DMP-BDT100PP TC-P54VT25 DMP-BDT350PP TC-P50VT25 SC-ZT2 DMP-BDT300PP TC-P40VT20 Home Theater BD Player 3D Plasma TV[...]
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Slide 10 New Plasma Display Panel 1 - Enlarged Discharge Area (improves brig htness and contrast with less power consumption) The new cell structure, materia ls, and phosphors made it possibl e to enlarge the discharge area of each cell. This i ncreases both brightness and cont rast, so you enjoy a bright, vibrant pi cture w hile using less ene rgy[...]
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Slide 11 New Plasma Display Panel 2 - A New Filter (It blocks ambient light to increase contrast and brig htness) A newly developed film mi nimizes reflection from am bient lighting and increases contrast. It also imp roves light transmittance, which boosts brightness. The result is reproduc tion of images that look breathtakingly beautiful in any [...]
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Page 12
Slide 12 THX THX reproduces film images exactly as the film's creato rs intended them. The aim is to recreate the audio and vi sual ambience that filmmakers intended. To receive THX certification, TVs unde rgo stringent tests to determin e: •If the exact same brightness and colo r are displayed at all screen locations. •If black levels sat[...]
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Page 13
Slide 13 Contrast Ratio Note: Native Contrast is expressed as a rati o of the minimum of luminance levels of blacks and the maximum of luminance le vels of whites that are displayed and measured at the same time on the same screen in a dark room on a plasma panel module. Panasonic's Native Contrast measurement expresses the maximum contrast ra[...]
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Page 14
Slide 14 Precautions ■ View the screen at a distance at least 3 times the height of the screen. Recommended distance: For a 50-inch TV : 1.9 m (6.23359‘) or more For a 54-inch TV : 2.0 m (6.56167’) or more ■ When watching 3D movies, take an appropriate length break after watching a movie. ■ When watching 3D con tent on in teractive de vic[...]
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Slide 15 Slide 15 3D Technology Can Everybody See 3D? No. There’s a small percent age of human (5%~10% of Americans) that lack the ability to properly see different images for each eye. This condit ion is called “S tereo Blindness”.[...]
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Slide 16 3D Display Formats (Methods) Frame Sequential In the frame sequential method, im ages for each eye are alternately reproduc ed in its full resolution. This means a separate 1920 x 1080 Full HD image is sent to each of eye, enabling the viewers to fully immerse themselves in the 3D landscape presented. Frame sequential is what the Blu-ray s[...]
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Slide 17 BD-recorder cannot accept this T&B format. User manual setting ○ Under HDMI Ver.1.3 Top & Bottom (T&B) HDMI Ver1.4 : Auto Other: User manual setting HDMI Ver1.4 : Auto Setting method × × ○ ○ Support Situation HDMI Ver.1.4 Digital signal from PC etc. HDMI Ver/1.4/ HDMI Ver.1.3 under HDMI Ver. 1.4 Input Format used fo[...]
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Page 18
Slide 18 3D Display Formats (Methods) Auto-Stereoscopic TV is the future. The 3D im age is created without th e need for glasses, but this is 10 to 15 years away. Line By Line, Checker Pattern (F ield Sequential), Frame Sequential A sequential 3D TV can display sequential 3D, this means the TV converts it. Blu-ray outputs the video at 1080p 24 fram[...]
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Page 19
Slide 19 Frame Sequential Method Frame Sequential Method Panasonic uses full-HD sequential playba ck to achieve a level of reality that far exceeds conventional 3D systems. Called the Frame Sequential Method, it's the same method that is used in Hollywood's 3D films. It reflects our commitment to 3D imaging detail. Separate images recorde[...]
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Slide 20 FULL HD 3D Video Picture Format Note: FULL HD 3D Video signal have double the in formation data of 2D video signal. FULL HD 2D Video Picture FULL HD 3D Video Picture Full HD picture quality 1920 lines 1080lines × 60 frames/second Full HD picture quality 1920 lines 1080 lines Full HD picture quality 1920 lines 1080lines For left eye For ri[...]
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Slide 21 Eyewear (EW3D10U) EW3D10 Full HD 3D Eye-ware High Precisi on shutter control sends clear images to each eye. Highly precise control completely closes the sh utters for both eyes at the instant that the images change for the left and right eyes. T his masks unwanted afterimages to enabl e clear and comfortable 3D viewing. Features: Adjustab[...]
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Slide 22 3D Eyewear Specification Specifications Lens T ype Liquid Crystal Shutter; Fram e sequentia l t ype Batter ies/ (durati on) Coin-sh aped lithium batter y CR2032 / (Appr ox. 75 hour s in a ro w) Dim ensions ( W x H x D) 177 x 46 x 17 4 mm (7.0" x 1.9" x 6.9 ") Power Suppl y DC 3 V Materials Main bod y: Resin; Lens sect ion: L[...]
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Slide 23 Vision principle wi th 3D glasses Image for left eye Image for right eye Composite image Brain recognizes the 3D (stereopsis) vision according to parallaxes of right and left eyes. Vision principle with 3D glasses[...]
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Slide 24 Difference Between the Passive Plastic Glasses With Polarized Lenses Used at the Movies and The Active Shutter System Glasses Used with 3D TVs With active shutter glasses, crosstalk is eliminated easier than passive glasses. Crosstalk is a phenomenon where an image intended for one eye is seen by the other, causing ghost images to appear. [...]
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Slide 25 Procedures To Check The 3D Eyewear Slide 25 Determining if a the 3D eyewear is working or not can be easily done if another set of working eyewear is available. When another set of eyewear is no t available, perform the following tests to determine if the glasses are OK: 1. Battery voltag e check 2. Shutter operation check 1 - Battery volt[...]
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Slide 26 IR 1. Change the switch to 3D an d 2D, repeatedly. 2. Glass color is changed to dark and bright by detecting a Shutter On/Off signal from TV if they are working propely . TV outputs IR signal from 2 positions. Even if one IR signal is bl ocked, t he 3D eyewea r will receiv e th e other IR signal. The liqui d crystal shutter open/close timi[...]
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Slide 27 There are total six IR output LED. 2D → 3D 2D : IR Output OFF 3D : IR Output ON 3D Auto 3D 2D LED are indicated if TV is working propery . Set the 3D/2D select switch on th e user menu to 3D to confirm the IR output signal from the TV by using Mobile Phone’s Camera. 2D : IR Output OFF 3D : IR Output ON Cell Phone’s camera 10/12 Note:[...]
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Slide 28 Slide 28 3D Source and 3D Format Settings[...]
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Slide 29 Basic Components Source – 3D Eyewear – Display – High Speed HDMI Cable (1.4) HDMI Cable (1.4) Display 3D Glasses Source Only the HDMI in puts are co mpatible with th e 3D mode.[...]
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Page 30
Slide 30 3D Sources Digital or HD service subscrip tion and a direct cable connecti on or an HD STB (Set-Top-Box) are required. • If a STB is used, an HDMI connection be twee n the cable box and th e TV is requi r ed. • The TV or STB needs to be tuned to the channel with the 3D broadcast. • Stereoscopic 3D glasses are required. Customers shou[...]
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Page 31
Slide 31 OSD images (Menu) 3D Settings Menu There are two ways to enter the 3D me nu to adjust the 3D settings: 1) By pressing the “ VI ERA Tools” on the remote control Press remote “VIERA Tools” bu tton, then select “3D” 2) By pressing the “Menu ” button on the remote control Press remote “MENU” button, then select “Setup” [...]
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Page 32
Slide 32 3D settings 3D input format Side by side 3D Eyew ea r On Diagonal line fi lter On Left/right swap Normal Safety pre cautions OSD images (Menu) Select w hen Ey ewear (Glasses) is no t used, including even when 3D signal is received. (Because customer cannot wa tch 3D images without the glasses) Off Default option. Se lect when Eyewear (Glas[...]
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Slide 33 “3D input format” Matrix Between Menu and Actual : Correct 3D image (blue) Menu “ 3 D E yewear” 2D 3D Top and bottom 3D Side by side (DirecTV) 3D Frame Sequential (DIGA) On Off Auto Side by side Top and bottom Native Menu “3D Input format” Actual Input format Auto Side by side Top and bottom Native *1 *2 *1 Displays 3D image [...]
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Slide 34 If you see something like this yo u need to change the TV ’s “3D input format ” to “Side by Side” How to change from 2D to 3D[...]
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Slide 35 If you see something like this yo u need to change the TV ’s “3D input format” t o “Top and Bottom” How to change from 2D to 3D[...]
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Slide 36 The best way to do this is on the remote press the “VIERA TOOLS” button on the remote How to change from 2D to 3D[...]
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Slide 37 After you press the “VIERA TOOLS” button this screen will come up Press the “OK” when the “3D ” option is highlighted How to change from 2D to 3D[...]
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Slide 38 Scroll Down to the “3 D input format” option How to change from 2D to 3D[...]
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Slide 39 Change it from “Auto” to “Side by Side” How to change from 2D to 3D[...]
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Slide 40 The picture should like the figure below How to change from 2D to 3D[...]
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Slide 41 Change it from “Aut o” to “Top and bottom” How to change from 2D to 3D[...]
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Slide 42 How to change from 2D to 3D The picture should like the figure below[...]
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Slide 43 Then press the “EXIT” bu tton on the remote How to change from 2D to 3D[...]
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Page 44
Slide 44 Slide 44 Connections[...]
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Page 45
Slide 45 USB Ports 1 Ethernet Network Y Digit al A udio Out Terminal Output RCA/S (Rear) AV1 Type (Position) Terminal Input RCA (Side) AV2 Type (Position) RCA (Rear) Component1 Type (Position) RCA (Rear) Component2 Type (Position) Rear HDMI1 Position Rear HDMI2 Position Rear HDMI3 Position Side HDMI4 Position 1 PC Input USB Ports (2) It is not warr[...]
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Page 46
Slide 46 Internet Connection/Wireless LAN Internet Connection Make sure that t he connection speed ex ceeds the following: • At least 1.5 Mbps for SD (Standard Definition) • 6Mbps for HD picture quality. Note: Dial-up Internet service can not be used for VIER A CAST. Wireless LAN The DY-WL10PP-K Panasonic wireless LAN adapto r can connect with [...]
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Slide 47 Connection Connecting a BD player to a 3D Plasma TV Only a HDMI cable is needed. HDMI Cable There are two types of HDMI cables: "Standard HDMI Cable" and "High Speed HDMI Cable“. Use "High Speed HDMI Cable" corresponding to FULL HD 3D. 3D Plasma TV BD Player HDMI Video Audio HDMI TV Terminal #1 Video Video & [...]
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Slide 48 Slide 48 Boards Layout[...]
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Page 49
Slide 49 TC-P50VT20[...]
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Slide 50 3D Model TC-P50VT20 C Boards D Board Sub Woofer Slide 50[...]
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Slide 51 Connectors Location[...]
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Page 52
Slide 52 Slide 52 Start-up Operation Standby/Power On[...]
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Page 53
Slide 53 Upon connecting the Panasonic 3D Plasma Disp lay Television to th e AC line, the sound of relays being triggered ca n be heard from the Power S upply board. Also a red light from the Optical jack on the b ack of the TV can be observe d. Approximately 15 seconds later, the click sound from the re lay s can be heard again and the red LED ins[...]
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Page 54
Slide 54 TV Start-Up Procedure The power supply generates the voltages necessary for signal pro cess and panel drive operations. When the power is turned on, the power supply outputs F15V and P15V (Sound amp.) to the A board for signal processing. Then, Vsus, Vda, and P15V are output to the panel drive section. This is an illustration of the actual[...]
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Page 55
Slide 55 Standby Operation Slide 55 The STB5V from the Power Supply is connected to the A and the D boards. During standby, this voltage is not used by the D b oard. In the A board, the STB5 V is applied to a 3.3V regulator (IC5480) to generate the STB3.3V to power the MAIN MICON Genx8 (IC1100). The STB3.3V is al so connected to the K board for rem[...]
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Page 56
Slide 56 Temporary Turn On at Plug-in When the A board receives the ST B5V at pin 1 of connec tor A7from the power supp ly, it outputs the “TV_SUB_ON” command for approximately 15 seconds. This command is applied to the power supply board to generate the F15V. The F_STB15V is applied to the A board. The A board has a DC-DC converter circuit tha[...]
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Slide 57 Illustration of The Boards Being Temporarily Energized At Plug-in. This is an illustration of the boards being temporarily energized when AC is applied to the TV. When the TV is plugged in for the first time, the P, A, and K boar ds are energized for approximately 15 seconds.[...]
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Slide 58 Power On Operation Slide 58[...]
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Slide 59 Power On Operation (3D Model TC-P50VT20) The power command from the p ower switch on the A board or the remote control receiver on the K board is provided to the CPU (IC1100) in the A board. The CPU on the A board outp uts 2 commands: 1. The “TV_SUB_ON” command. 2. The “PANEL_STB_ON” command. The “TV_SUB_ON” (3.2V) command is p[...]
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Slide 60 Power On Operation Slide 60[...]
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Page 61
Slide 61 Power On Operation When IC9400 is turned on, it outputs the ST B_D3.3V and the reset pulse to the Panel CPU (IC9003) on the D board. When the CPU on the D bo ard is energized, it ou tputs 2 c ommands: • The “PANEL_MAIN_ON” • The “POWER ON/OFF. The PANEL MAI N ON command turns on the power supply circuit that outputs the Vsus, Vda[...]
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Page 62
Slide 62 Method To Turn On the Panel Drive Circuit Only (A Board is Isolated) Note: Before following the procedure on the next slide, make sure that connect or P34 on the power supply has a jumper from pin 1 to pin 3. Some T Vs may not have a jumpe r on P34, instead, they have a jumper betw een pins 12 and 14 of connecto r P7. Power Supply P board [...]
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Page 63
Slide 63 Method To Turn On the Panel Drive Circuit Only (A Board is Isolated) It’s possible to have the “Panel Drive Section” running with the “S ignal Processing Section” (A board) disconnected. By separating the 2 sections, it could be determined if the symptom on the TV is created by the A board or one of the boards on the Panel Drive [...]
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Page 64
Slide 64 Relays Triggering Commands The AC relays in the power supply are trig gered when the TV-SUB-ON command (3.2V) is output from the A board . Note: The PANEL-MAIN-ON com mand (3.2V) fr om the D board can also trigger the relays, but since it’s preceded by TV-SUB-ON, it has not effect on the relays because by the time this command is output,[...]
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Page 65
Slide 65 Method To Turn On the Panel Drive Circuit Only (A Board is Isolated) Slide 65[...]
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Page 66
Slide 66 Slide 66 Signal Processing[...]
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Slide 67 Signal Process Block Diagram[...]
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Slide 68 Digital Signal Processor Explanation The main function of the A b oard is to select and process one of the i ncoming video signals. Analo g si gnal from Video inputs 1 and 2, Compone nt Inputs 1 and 2 , PC input, and the composite video output of th e tuner are all connected to IC3001 for selection. The video output signal, (Y, Pb, Pr) ent[...]
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Slide 69 Symptom Created By a Defective A Board This symptom is an example of a problem created by a defectiv e A board. The Right LVDS signal from the A board is missing. The A board on previous models neve r caused this type of problem. This is due to the right and le ft LVDS separation in the A board. The D board normally causes this type of pro[...]
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Page 70
Slide 70 Panel Drive Control Pulses R/L LVDS Data from the A board[...]
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Page 71
Slide 71 Circuit Explanation 71 The D board consists of a Video/Panel Control circuit, a Discharge Control circuit, and a Microprocessor Control circuit. The right LVDS (Low Voltage Differen tial Signaling) signal from t he A board is p rocessed by the Video/Panel Control circui t (IC9400) and the left LV DS is control by IC9300. IC9400 output the [...]
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Slide 72 Slide 72 Troubleshooting Tips[...]
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Page 73
Slide 73 Caution When Reconnecting Ribbon Cables Between C boards Warning: Before reconnecting the ribbon ca bles between the C boards, follow this procedure in order to prevent the pane l from becoming damaged 1. Disconnect the TV. 2. Remove P65(Vda) and P35(Vda) from the power Supply. 3. Reconnect the ribbon cables. 4. Reconnect P65 and P35. It?[...]
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Page 74
Slide 74 SU and SD Boards Isolation Procedure The 2008, 2009, and 2010 plasma models are designed not to turn-on if either the SU or SD board is disconnected. Disconnecting either causes the unit to shutdown and the power LED to blink 7 times. Unplugging any of the connecto rs SC41/SU41, SU11/SD11, and SC42/SD42, opens the interlocked connec tion b[...]
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Page 75
Slide 75 Slide 75 SU and SD Boards Isolation Procedure This procedure is useful when troubleshooting 7 blinks problems. If the power LED continue s to blink even after the TV is unplugged, pres s and hold the power switch on the TV for a few seconds until the LED turns off. Remove the 4 VF_GND screws on the SU and SD boards. Unplug connecto[...]
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Page 76
Slide 76 Slide 76 SOS Detect (Shutdown) When an abnormality occ urs in the unit, the “SOS Detect” circuit is trigger ed and the TV shuts down. The power LED on the front panel will fl ash a pattern indicating t he circuit that has failed. Cautions: If the power LED continues to blin k even after the TV is unplugged, press and ho ld the power sw[...]
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Page 77
Slide 77 Slide 77 SOS Detect Circuit Protection circuits are incorporated in the unit to prevent the failure of a single circuit or component from creating ca tastrophic damage. A shutdown condition occurs when a there is an over volt age, a short or a drop in any of the voltage lines. Also when the f ans are drawing more curren t than normal the s[...]
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Page 78
Slide 78 Slide 78 Power LED Error Code Definition (1 of 2) POWER L ED ERROR CODE CIRCUIT MONITORE D CONDITIONS TRIGG ERING THE S HUTDOWN 1 BLINLK Panel Information SOS Panel Alarm SOS Communication problem betwe en the System CPU (IC1100) and th e Panel CPU (IC90 03) 2 BLIN KS P15V form th e P board Missing P15V P15V is not been generate d by t[...]
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Slide 79 Slide 79 Power LED Error Code Definition (2 of 2) POWER LE D ERROR CODE CIRCUIT MONITORED CONDITIONS TRIGGERI NG THE SHUTDOWN 7 BLINKS Scan Drive Circuit and Connection between the SC board and the SM board. Missing Vsus. Abnormality of the scan circuit outpu t, the 15V_F, the scn_pro, and Vscn circu it. Loose or open Connection betwe en t[...]
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Page 80
Slide 80 Slide 80 SOS Detect Circuit 1 Blink SOS: Communication error between System CPU (IC1100) and Pa nel CPU (IC9003). 2 Blinks SOS : Pin 62 of the CPU IC9003 mo nitors the 15V line. During n ormal operation, the pin 62 is high. If the 15V line is missing or s horted, a low is provided to pin 62 . As a result, the unit shuts down and the power [...]
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Page 81
Slide 81 Slide 81 D Board SOS Detect Block Diagram[...]
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Page 82
Slide 82 8 Blinks Error Code[...]
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Page 83
Slide 83 8 Blinks Error Code[...]
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Page 84
Slide 84 Slide 84 9 Blinks Error Code 1. No communication betwee n IC9300, IC9004 and IC9003 Since these ICs are locat ed on the D board, only th e D board can cause the TV to shutdown with 9 blinks of the power LED. This condition can cause the TV to shutdow n and the power LED to blink 9 times[...]
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Page 85
Slide 85 Slide 85 D Board SOS Detect Circuit Explanation One of the multiple func tions of IC701 (Power MICOM) is to detects abnormalities on the Power Supply. Abnormalities in th e P board are reported to IC9003 via the SOS4 input: The SOS2_15V, SOS3_3V and SOS5_5V detect input lines of IC9003, monitor for missing voltage or short circuit of the 1[...]
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Page 86
Slide 86 11 Blinks Error Code (Fans)[...]
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Page 87
Slide 87 Slide 87 11 Blinks Error Code Explanation The internal temperature of the unit is monitored by the digi tal temperature se nsor (IC9002). Variations in temperat ure are sensed by the IC and reported to the D board MPU (IC9003) via the SDA02 bus line. IC9003 then co nveys the information to the A board MPU (IC1100) via the SDA1 bus line. Fa[...]
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Page 88
Slide 88 12 Blinks Error Code (Sound) The transistor Q2300 monitors the speaker amplifiers ICs (IC2301 and IC2302). Pin 3 of both ICs is normally high. If any of these ICs or one of the speakers develops a short circuit, pin 3 goes low causing Q2300 to go into conduction and output a low to the base of Q2300 . As a result, Q2300 comes on and output[...]
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Page 89
Slide 89 Slide 89 Service Notes[...]
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Page 90
Slide 90 Slide 90 Service Mode While pressing the “VOLUME - ” button of the main unit, press the “INFO” button of the remote control thr ee times within 2 seconds. How to exit: Switch off the power with the “POWER” button on the main unit or the “POWER” button on the remote control. Key command [1] butto n...Main items Sel ection in[...]
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Slide 91 Slide 91 Self Check/Reset 1. Checks the communica tion IIC bus lines 2. Provides a SOS History To Access the Self-Check Mode , turn the TV on and while pressing “VOLUM E ( - )” button on the main unit, press t he “OK” button on the remote co ntrol for more than 3 seconds. To Access the Self-Check Mode , turn the TV on and while pre[...]
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Slide 92 Slide 92 Mirror Function New This feature allows the picture to be rotated 180° horizonta lly or 180° vertically. When servicing plasma TVs with horizontal lines, this feature can help to det ermine if the A board is causing the problem or not. For ve rtical lines problems, th is feature can help to determine if the problem is the A boar[...]
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Slide 93 Slide 93 Mirror Function Normal View Picture flipped Vertically (Defective A board) Normal View Picture flipped Horizontally (Defective A board)[...]
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Slide 94 TV’s Behavior After Connectors Removal TC-P50VT20[...]
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Slide 95 TV’s Behavior After Connectors Removal MODEL N0. TC-P50 VT20 (Co nnectors Removal on the D Board) Conn ecto rs Result D31 TV stays ON with black botto m right quadrant D32 SOS 6 Blinks D33 SOS 6 Blinks D34 TV stays ON with black top right quadrant D20 SOS 6 Blinks D5 Whi te screen wh en pow ered on . D3 TV tu rns on b y itsel f at plug-i[...]
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Slide 96 TV’s Behavior After Connectors Removal MODEL N0. TC-P5 0VT20 (Connecto rs Removal Combination on the P, A, and D Board) Connec tors Result P6/ A6 10 Blinks at plug -in P7/ A7 No pow er (Rel ays cli ck on an d off con tin uously) P25/ D25 SOS 1 Blink P35 C35 TV stays ON with black upper half of the screen P65 C65 TV stay s ON wi th bl ack[...]
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Slide 97 TV’s Behavior After Connectors Removal MODEL N0. TC-P5 0VT20 (Connecto rs Removal on the SC Board) Con nect or Connector Connect or on C1 Boa r d Resu lt SC2 SO S 7 B lin k s SC20 SO S 6 B lin k s SC2 SC20 SO S 6 B link s SC2 C10 SO S 6 B lin k s SC20 C10 SO S 8 B lin k s SC2 SC20 C10 SO S 8 B lin k s MODEL N0 . TC-P 50V T20 (C onn e cto[...]
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Slide 98 Slide 98 Glossary Resolution Resolution is a combination of values that express the quality of displayed images. A display's resolution is indicated by the number of dots in the horizontal and vertical direct ions of the screen, such as 1024 x 768 do ts. Higher values indicate clearer, s harper image reproductio n. The larger the scre[...]
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Slide 99 Slide 99 Glossary THX THX is a trade name of a high-fide lity sound reproduction st andard for movie theat ers, screening rooms, home theaters, computer speake rs, gaming consoles, and car aud io systems. THX stands for T omlinson H olman's e X periment . The THX system is not a recording technology, and it does not specify a sound re[...]
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Slide 100 Slide 100 Glossary YUV Is The color encoding system us ed for analog television worldwid e (NTSC, PAL and SECAM). T he YUV color space differs from RGB, which is what the camera capt ures and what humans view. Composite Video and S-video The original TV standard combined luma (Y) and both color signals (B-Y, R- Y) into one channel, which [...]
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Slide 101 The End[...]