Text preview for : DPTV305.pdf part of Philips DPTV305 1848 page service manual # 7621 for Philips color TV model #'s DPTV305, DPTV305F, DPTV310, DPTV315, DPTV330, DPTV330F, DPTV335, DPTV340, DPTV345. MAG01 Chassis
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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 described in this service manual are effective methods of performing service operations. Some of these service operations require the use of tools specially designed for the purpose. The special tools should be used when and as recommended. It is important to note that this manual contains various CAUTIONS and NOTICES which should be carefully read in order to minimize the risk of personal injury to service personnel. The possibility exists that improper service methods may damage the equipment. It also is important to understand that these CAUTIONS and NOTICES ARE NOT EXHAUSTIVE. Philips could not possibly know, evaluate and advise the service trade of all conceivable ways in which service might be done, or of the possible hazardous consequences of each way. Consequently, Philips has not undertaken any such broad evaluation. Accordingly, a servicer who uses a service procedure or tool which is not 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.
WARNING
Critical components having special safety characteristics are identified with a or "S" by the Ref. No. in the parts list and enclosed within a broken line* (where several critical components are grouped in one area) along with the safety symbol on the schematics or exploded views. Use of substitute replacement parts which do not have the same specified safety characteristics may create shock, fire, or other hazards. Under no circumstances should the original design be modified or altered without written permission from Philips. Philips assumes no liability, express or implied, arising out of any unauthorized modification of design. Servicer assumes all liability. * Broken Line ____ _ ____ _ ____ _ ____
FIRE AND SHOCK HAZARD
1. Be sure all components are positioned in such a way as to avoid the possibility of adjacent component shorts. This is especially important on those chassis which are transported to and from the service shop. 2. Never release a repaired unit unless all protective devices such as insulators, barriers, covers, strain reliefs, and other hardware have been installed in accordance with the original design. 3. Soldering and wiring must be inspected to locate possible cold solder joints, solder splashes, sharp solder points, frayed leads, pinched leads, or damaged insulation (including the ac cord). Be certain to remove loose solder balls and all other loose foreign particles. 4. Check across-the-line components and other components for physical evidence of damage or deterioration and replace if necessary. Follow original layout, lead length, and dress. 5. No lead or component should touch a receiving tube or a resistor rated at 1 watt or more. Lead tension around protruding metal surfaces or edges must be avoided. 6. Critical components having special safety characteristics are identified with an 'S' by the Ref. No. in the parts list and enclosed within a broken line* (where several critical components are grouped in one area) along with the safety symbol on the schematic diagrams and /or exploded views.
7. When servicing any unit, always use a separate isolation transformer for the chassis. Failure to use a separate isolation transformer may expose you to possible shock hazard, and may cause damage to servicing instruments. 8. Many electronic products use a polarized ac line cord (one wide pin on the plug). Defeating this safety feature may create a potential hazard to the servicer and the user. Extension cords which do not incorporate the polarizing feature should never be used. 9. After reassembly of the unit, always perform an ac leakage test or resistance test from the line cord to all exposed metal parts of the cabinet. Also, check all metal control shafts (with knobs removed), antenna terminals, handles, screws, etc., to be sure the unit may be safely operated without danger of electrical shock. * Broken line ____ _ ____ _ ____ _ ____
LEAKAGE CURRENT COLD CHECK
1. Unplug the ac line cord and connect a jumper between the two prongs of the plug. 2. Turn on the power switch. 3. Measure the resistance value between the jumpered ac plug and all exposed cabinet parts of the receiver, such as screw heads, antennas, and control shafts. When the exposed metallic part has a return path to the chassis, the reading should be between 1 megohm and 5.2 megohms. When the exposed metal does not have a return path to the chassis, the reading must be infinity. Remove the jumper from the ac line cord.
LEAKAGE CURRENT HOT CHECK
1. Do not use an isolation transformer for this test. Plug the completely reassembled receiver directly into the ac outlet. 2. Connect a 1.5k, 10W resistor paralleled by a 0.15uF. capacitor between each exposed metallic cabinet part and a good earth ground such as a water pipe, as shown below. 3. Use an ac voltmeter with at least 5000 ohms/volt sensitivity to measure the potential across the resistor. 4. The potential at any point should not exceed 0.75 volts. A leakage current tester may be used to make this test; leakage current must not exceed 0.5mA. If a measurement is outside of the specified limits, there is a possibility of shock hazard. The receiver should be repaired and rechecked before returning it to the customer. 5. Repeat the above procedure with the ac plug reversed. (Note: An ac adapter is necessary when a polarized plug is used. Do not defeat the polarizing feature of the plug.)
OR
With the instrument completely reassembled, plug the ac line cord directly into a 120Vac outlet. (Do not use an isolation transformer during this test.) Use a leakage current tester or a metering system that complies with American National Standards Institute (ANSI) C101.1 Leakage Current for Appliances and Underwriters Laboratories (UL) 1410, (50.7). With the instrument ac switch first in the on position and then in the off position, measure from a known earth ground (metal water pipe, conduit, etc.) to all exposed metal parts of the instrument (antennas, handle brackets, metal cabinet, screw heads, metallic overlays, control shafts, etc.), especially any exposed metal parts that offer an electrical return path to the chassis. Any current measured must not exceed 0.5mA. Reverse the instrument power cord plug in the outlet and repeat the test. See the graphic below.
TV SAFETY NOTES
SAFETY CHECKS
After the original service problem has been corrected, a complete safety check should be made. Be sure to check over the entire set, not just the areas where you have worked. Some previous servicer may have left an unsafe condition, which could be unknowingly passed on to your customer. Be sure to check all of the following: Fire and Shock Hazard Implosion X-Radiation Leakage Current Cold Check Leakage Current Hot Check Picture Tube Replacement Parts Replacement WARNING: Before removing the CRT anode cap, turn the unit OFF and short the HIGH VOLTAGE to the CRT DAG ground. SERVICE NOTE: The CRT DAG is not at chassis ground.
IMPLOSION
1. All picture tubes used in current model receivers are equipped with an integral implosion system. Care should always be used, and safety glasses worn, whenever handling any picture tube. Avoid scratching or otherwise damaging the picture tube during installation. 2. Use only replacement tubes specified by the manufacturer.
X-RADIATION
1. Be sure procedures and instructions to all your service personnel cover the subject of X-radiation. Potential sources of X-rays in TV receivers are the picture tube and the high voltage circuits. The basic precaution which must be exercised is to keep the high voltage at the factory recommended level. 2. To avoid possible exposure to X-radiation and electrical shock, only the manufacturer's specified anode connectors must be used. 3. It is essential that the service technician has an accurate HV meter available at all times. The calibration of this meter should be checked periodically against a reference standard. 4. When the HV circuitry is operating properly there is no possibility of an X-radiation problem. High voltage should always be kept at the manufacturer's rated value - no higher - for optimum performance. Every time a color set is serviced, the brightness should be run up and down while monitoring the HV with a meter to be certain that the HV is regulated correctly and does not exceed the specified value. We suggest that you and your technicians review test procedures so that HV and HV regulation are always checked as a standard servicing procedure, and the reason for this prudent routine is clearly understood by everyone. It is important to use an accurate and reliable HV meter. It is recommended that the HV reading be recorded on each customer's invoice, which will demonstrate a proper concern for the customer's safety.
5. When troubleshooting and making test measurements in a receiver with a problem of excessive high voltage, reduce the line voltage by means of a Variac to bring the HV into acceptable limits while troubleshooting. Do not operate the chassis longer than necessary to locate the cause of the excessive HV. 6. New picture tubes are specifically designed to withstand higher operating voltages without creating undesirable X-radiation. It is strongly recommended that any shop test fixture which is to be used with the new higher voltage chassis be equipped with one of the new type tubes designed for this service. Addition of a permanently connected HV meter to the shop test fixture is advisable. The CRT types used in these new sets should never be replaced with any other types, as this may result in excessive X-radiation. 7. It is essential to use the specified picture tube to avoid a possible X-radiation problem. 8. Most TV receivers contain some type of emergency "Hold Down" circuit to prevent HV from rising to excessive levels in the presence of a failure mode. These various circuits should be understood by all technicians servicing them, especially since many hold down circuits are inoperative as long as the receiver performs normally.
PICTURE TUBE REPLACEMENT
The primary source of X-radiation in this television receiver is the picture tube. The picture tube utilized in this chassis is specially constructed to limit X-radiation emissions. For continued Xradiation protection, the replacement tube must be the same type as the original, including suffix letter, or a Philips approved type.
PARTS REPLACEMENT
Many electrical and mechanical parts in Philips television sets have special safety related characteristics. These characteristics are often not evident from visual inspection nor can the protection afforded by them necessarily be obtained by using replacement components rated for higher voltage, wattage, etc. The use of a substitute part which does not have the same safety characteristics as the Philips recommended replacement part shown in this service manual may create shock, fire, or other hazards.
PRODUCT SAFETY GUIDELINES FOR ALL PRODUCTS
CAUTION: Do not modify any circuit. Service work should be performed only after you are thoroughly familiar with all of the following safety checks. Risk of potential hazards and injury to the user increases if safety checks are not adhered to. USE A SEPARATE ISOLATION TRANSFORMER FOR THIS UNIT WHEN SERVICING.
PREVENTION OF ELECTROSTATIC DISCHARGE (ESD)
Some semiconductor solid state devices can be damaged easily by static electricity. Such components commonly are called Electrostatically Sensitive (ES) Devices, Examples of typical ES devices are integrated circuits and some field-effect transistors and semiconductor "chip" components. The following techniques should be used to help reduce the incidence of component damage caused by electrostatic discharge (ESD). 1. Immediately before handling any semiconductor component or semiconductor-equipped assembly, drain off any ESD on your body by touching a known earth ground. Alternatively, obtain and wear a commercially available discharging ESD wrist strap, which should be removed for potential shock reasons prior to applying power to the unit under test. 2. After removing an electrical assembly equipped with ES devices, place the assembly on a conductive surface such as aluminum foil, to prevent electrostatic charge buildup or exposure of the assembly. 3. Use only a grounded-tip soldering iron to solder or unsolder ES devices. 4. Use only an anti-static solder removal device. Some solder removal devices not classified as "antistatic (ESD protected)" can generate an electrical charge sufficient to damage ES devices. 5. Do not use Freon propelled chemicals. These can generate electrical charges sufficient to damage ES devices. 6. Do not remove a replacement ES device from its protective package until immediately before you are ready to install it (most replacement ES devices are packaged with leads electrically shorted together by conductive foam, aluminum foil or comparable conductive material). 7. Immediately before removing the protective material from the leads of a replacement ES device, touch the protective material to the chassis or circuit assembly into which the device will be installed. CAUTION: Be sure no power is applied to the chassis or circuit and observe all other safety precautions. 8. Minimize bodily motions when handling unpackaged replacement ES devices. (Otherwise harmless motion such as the brushing together of your clothes fabric or the lifting of your feet from a carpeted floor can generate static electricity (ESD) sufficient to damage an ES device.)
NOTE to CATV system Installer: This reminder is provided to call the CATV system installer's attention to article 820-22 of the NEC that provides guidelines for proper grounding and, in particular, specifies that the cable ground shall be connected to the grounding system of the building, as close to the point of cable entry as practical.
PRACTICAL SERVICE PRECAUTIONS
IT MAKES SENSE TO AVOID EXPOSURE TO ELECTRICAL SHOCK. While some sources are expected to have a possible dangerous impact, others of quite high potential are of limited current and are sometimes held in less regard. ALWAYS RESPECT VOLTAGES. While some may not be dangerous in themselves, they can cause unexpected reactions reactions that are best avoided. Before reaching into the powered color TV set, it is best to test the high voltage insulation. It is easy to do, and is just a good service precaution. BEFORE POWERING UP THE TV WITH THE BACK OFF (or on a test fixture), attach a clip lead to the CRT DAG ground and to a screwdriver blade that has a well insulated handle. After the TV is powered on and high voltage has developed, probe the anode lead with the blade, starting at the bottom of the High Voltage Transformer (flyback IFT). Move the blade to within two inches of the connector of the CRT. IF THERE IS AN ARC, YOU FOUND IT THE EASY WAY, WITHOUT GETTING A SHOCK! If there is an arc to the screwdriver blade, replace the High Voltage Transformer or the lead, (if removable) whichever is causing the problem.
PICTURE TUBE REPLACEMENT PROCEDURE
Note: a. b. c. Two (2) people are required to handle this picture tube. Safety Glasses must be worn during this procedure or whenever directly handling a picture tube. Take care in each step not to damage the CRT or the cabinet.
1. Remove the Chassis and the CRT Socket Board Module from the cabinet. 2. A furniture pad or blanket should be positioned on the floor to support only the CRT Face. This pad or blanket should be high enough to keep the CRT Face approximately 12 to 14 inches off the floor. 3. Using two people, place the cabinet in a front down position with the CRT Face on the pad or blanket. 4. Place padded blocks under each corner of the cabinet to keep it from rocking. 5. Remove the four screws, at the corners of the CRT. 6. With two people lowering the cabinet to the floor, leave the CRT elevated by the pad or blanket. Note: Take care not to grasp the neck of the CRT during this procedure, as it is extremely fragile. 7. Two (2) people may then lift the CRT from the cabinet. 8. Remove the degaussing coil from the defective CRT and mount on the replacement. Take care to maintain the exact shape and fit. To install the new CRT, reverse steps 1 to 7.
GENERAL INFORMATION
The following Product highlights while specific to the 43PP92 model, are typical of the features found on many of the HDR2002, DPT300 Series Models.
Product highlights
Multipoint digital convergence Designed to meet the demands of curved CRT faceplates and short focal length lenses, our expansive 35-point convergence brings with it the accuracy of digital technology for flawless convergence of red, green, and blue guns and a superb picture with no colored haloes. Automatic Phosphor Aging Compensation -- APAC Non-moving images can be bad for a television screen. If a video image remains stationary, it can eventually leave a permanent after-image on the screen. Video games and the stationary black bars which outline standard 4:3 programming on a widescreen TV compound this problem. Now, Philips has found a way to combat this problem through APAC technology. Periodically, APAC automatically shifts your television picture in very small increments, but increments large enough to blur image retention.
Coupled with the Philips Auto Format feature, you have excellent protection from the dreaded screen burn. Think of it as a screen saver for your TV. Active ControlTM Continuous picture analysis and control of Automatic Digital Noise Reduction and Auto Sharpness. Automatically offers the best picture settings. The demo menu shows real-time adjustments of two parameters based on picture content. Eye Fidelity -- Progressive Scan/Interlaced Eye Fidelity gives the consumer a choice between two different scanning techniques -- Progressive Scan and Interlaced. Progressive Scan doubles the number of visible picture lines per field by displaying all picture frame lines at once -- also eliminating line flicker. The Interlaced mode provides for a double vertical display (interlaced) of Progressive Scan, which reduces annoying motion artifacts. The Interlaced mode also helps smooth out jagged lines sometimes seen on curved and angled surfaces. Protective screen filter This filter has been specifically formulated by Philips for HD displays to give the best possible picture and still protect your investment. The protective screen filter helps prevent accidental damage to the delicate front Lenticular screen. High definition component Supports HD video input for superb color purity, crisp color detail, and reduced color noise - Includes separate inputs for Y, Pb, Pr, horizontal sync and vertical sync. 3 line digital comb filter Improved chroma/luminance separation over standard two-line glass comb filters for a difference you can really see. Offering vertical edge enhancement and virtually no "dot crawl," it easily supports the demands of DVD video players, Web browsers, and other advanced, high resolution video media programming information for all television program listings, plot (through A/V inputs). Picture-In-Picture Used in conjunction with a second video source such as a DVD, VCR, or cable tuner, picture-in-picture allows you to monitor one TV channel while watching another; monitor a DVD or tape playback while watching another program, or monitor a TV channel while viewing an external source. Plus the main and secondary pictures may be swapped. In all cases, the main picture is provided with its corresponding audio. Virtual Dolby ® Surround -- 20 Watt RMS Dolby ® processing circuitry for enhanced surround sound effect creates the sensation of Dolby ® Pro Logic without the hassle of additional rear speakers.
Universal remote control - RC2018/1
Universal RC managing TV and peripherals.
Supporting features
· Digital Color Transient Improvement (CTI) · Digital Histogram · Picture Freeze · Auto Aspect Ratio Adaptation · Incredible SurroundTM · Automatic Volume Leveler (AVL) · Independent headphone volume control · EasyTuneTM (Auto Search, Auto Tune, Auto Install) · Alternate Channel · AutoSurfTM · Low power standby (<1W)
DISASSEMBLY PROCEDURES
Disassembly Procedures (46, 50, 55, & 60 Inch Models)
All numbers found in the following text refer to the CABINET DISASSEMBLY EXPLODED VIEW drawing and apply to 46", 50", 55", and 60" models. NOTE: If you are servicing a PCB or speaker, you do not have to remove the plastic upper Back cover.
Upper Back Cover (AC02)
1. Remove 12 screws (A). 2. Remove 3 screws (B). 3. Lift cover up to dislodge from pegs (J) and remove cover.
Lower Center Back Cover (AC04)
1. Remove 3 screws (B). 2. Remove 8 screws (C). Lower Back Cover Removal
Service Position
(Note: Unplug the AC Line Cord)
This Service Position exposes the entire bottom side of the Power Supply Panel, Large Signal Panel (LSB), & the Small Signal Panel (SSM). A major portion troubleshooting can be accomplished after completing this procedure. Display Service Position
1. Remove Lower Back Cover. Remove 12 screws "B & C" required for Lower Back Cover Removal. Lower Back Cover Removal.
2. Loosen the Chassis Frame. Remove 5 screws "D" that fasten the Chassis Frame to the Cabinet Bottom. Service Pos. Detail - A.
3. Remove Light Barrier (AC07) Service Detail - B
4. Remove 2 screws "E" from the Left Side - Light Barrier Guide and remove this Guide. 5. Grasp the corners of the Chassis Frame and slide in towards you about a inch. This is required in order that 3 metal cleats (AC36) holding the front edge of the Chassis Frame are released. 6. While holding the back edge of the Chassis Frame down, grasp the Panel Mounting Bracket (AC21) and slightly lift the front of the Chassis Frame. Service Detail - C
7. With the rear of the Chassis slightly raised, slide the entire Chassis forward (toward the Cabinet Front), just far enough that the Rear Jack Panel (AC08) clears the Left Side Mounting Block (for the Lower Back Cover). Service Position Detail - D
8. Now, lift the back edge of the Chassis Frame (nearest you), up while also lifting (slightly), the front edge to slide forward in to the Service Position shown. Service Position Detail - E
Mirror Mounting Board (AC18)
1. Remove 6 screws located in the mirror mounting board brackets and remove the board. Note: Care should be taken NOT to place fingerprints or smudges on the mirror.
Side Back Covers
1. Remove 4 screws (F) from each of the Side Back Covers. (Some prying may be necessary to dislodge covers. Note: This allows access to the Side Jack Panel and Left and Right Speakers.
Large Signal Panel
1. Remove 3 screws from center of the CBA and pull 3 tabs on right of bracket. 2. Lift right side of LSP and slide panel up and out.
Power Supply Panel
1. Remove 4 screws from CBA. 2. Lift PFC Filter Panel up and out.
Rear Jack Panel Cover (AC08 & AC27)
1. Complete steps 1 through 7 of the Service Position Procedure (see above). Note: Steps 3 & 4 may be omitted as removal of the Light Barrier and its Mounting Guide is not required. 2. With the Chassis loose from the cabinet bottom, and the entire chassis repositioned back towards the Cabinet Front, lift the left end of the Chassis Assembly in order to remove the previously hidden screw shown in the following detail. Note: This screw may be removed using a ¼ " nut driver or a T20 Torx Driver. In either case, an extension may be required in order to achieve the proper angle to the head of the screw. Jack Panel Hidden Screw.
3. Remove 2 screws from the left edge and upper left corner of the Rear Jack Panel Cover. These 2 screws may be removed using a ¼ " nut driver or a T20 Torx Driver and be seen in the following display on the left edge and upper left corner. 4. Remove the nut around the 75 Ohm Antenna Input 5. Remove 10 more screws shown in the following using a Torx 10 Driver.
Jack Panel Screw Removals
6. Disconnect 2 Connectors from the top of the Rear Switch Panel. This Panel fastens to the Jack Panel Cover and may easily be removed or reconnected once the Jack Panel Cover is completely free of the Chassis Assembly. 7. Although all screws should now have be removed, care must taken on Core Models featuring the HD Input. The Jack Panel Cover has a plastic hook that clips in to a hole on the DVI Panel. Gently lift this hook while removing the Jack Panel Cover. Jack Panel Hook to DVI Module.
Small Signal Panel (SSM)
1. 2. 3. 4. Remove rear Jack Panel cover (AC08). Remove 2 screws from the center of the SSP CBA. Pull 3 tabs on right of panel bracket. Lift right side of SSP, then move to the right to remove.
Side Jack Panel
1. Remove Left Side Back Cover. (See procedure above.) 2. Remove 2 screws from panel. 3. Slide Side Jack Panel CBA out of bracket.
PIP Panel Removal
1. Remove rear Jack Panel cover (AC08). 2. Remove 3 screws from PIP panel.
Small Signal Board (SSB)
1. Remove panel support bracket (AC23). 2. Remove panel support bracket (AC21). 3. Tilt SSB to the right and then up.
Convergence (ACS) Panel Removal
1. Remove panel support bracket (AC21). 2. Release stay tabs on Left side of each board connector and carefully separate ACS from SSP connectors.
Wide Band Video (HOP) Panel
1. Remove panel support bracket (AC21). 2. Disconnect ribbon cable connectors. 3. Release stay tabs on Left side of each board connector and carefully separate from SSP connectors.
Front Control Panel and Left or Right Speaker
1. 2. 3. 4. 5. Remove front speaker baffle (AC30) by removing Left and Right Side Back Covers. Release 2 tabs on either side of the speaker baffle. Loosen ribbon cable and grounding wire to allow working space. Remove 2 screws to remove Front Control panel. Remove 4 screws each to remove speakers.
Plastic Light Barrier (Optical Assembly)
1. Remove 2 screws (E) located at either end of the plastic light barrier.
Complete Optical Assembly or Individual Light Box Assemblies
1. Remove the Plastic Light Barrier. 2. Disconnect the CRT panels, 2nd anode leads (at HVT), and yoke connectors from assemblies to be removed. 3. To remove the complete Optical Assembly, remove 4 screws (G), and lift assembly up and out. 4. To remove individual CRT assemblies, remove 4 screws (H), from the assembly you wish to remove, and lift assembly up and out. DO NOT disturb the focus assembly wing nuts.
Disassembly Procedures (43 Inch)
All numbers found in the following text refer to the CABINET DISASSEMBLY EXPLODED VIEW drawing for 43" models. NOTE: If you are servicing a PCB or speaker, you do not have to remove the plastic upper Back cover.
Lower Back Cover (AC04)
1. Remove 8 screws (A). 2. Remove 4 screws (B).
Upper Back Cover (AC02)
Note: The upper back is a part of the MAIN unit and holds the Mirror. Removal is only necessary for optical assembly maintenance. 1. Remove 9 screws (C). 2. Perform Lens frame removal procedure. 3. Remove 10 screws (D).
Speaker Baffle (AC30) and Speakers (AC25)
1. Perform Lower Back cover removal procedure. (AC04) 2. Remove 4 screws (E) 3. Carefully pull on Baffle to release guide tabs. (Note: Unit may have to be tilted backward to remove Baffle.) 4. Remove 4 screws each to remove speakers. (AC25)
Lens Frame Assembly (AC09) and Convergence Sensors
1. 2. 3. 4. 5. Perform Lower Back cover removal procedure. (AC04) Perform Speaker Baffle removal procedure. (AC30) Remove 9 screws (C). (Upper Back) Remove 4 screws (F). Tilt frame forward from top and disconnect cables to Side Jack Panel and Front Control Panel. NOTE: Before performing the next procedure, note the proper location of each of the 4 Convergence Sensors. (Not in all models.) 6. Snap out the 4 Convergence Sensors and slip connecting wires through slits in the Lens mounting rails. Note: Be sure to note proper wire routing for later replacement. Wires CANNOT be left so as to obstruct the mirror reflection.
Front Control Panel
1. Perform Lens Frame removal procedure. 2. Remove 2 screws (G).
Side Jack Panel
1. Perform Lens Frame removal procedure. 2. Remove 2 screws (H) 3. Slide Side Jack Panel CBA out of bracket.
Mirror (AC18) Removal
1. Perform Lens Frame removal procedure. 2. Remove 4 screws located in the mirror mounting brackets and remove the mirror. Note: Care should be taken NOT to place fingerprints or smudges on the mirror.
Large Signal Panel (LSB)
1. Remove 3 screws from center of the CBA and pull 3 tabs on right of bracket. 2. Lift right side of LSP and slide board up and out.
Power Supply Panel
1. Remove 4 screws from CBA. 2. Lift PFC Filter Panel up and out.
Small Signal Panel (SSM)
1. Remove 2 screws from the center of the CBA. 2. Pull 3 tabs on right of bracket. 3. Lift right side of Small Signal Board up, then to the right to remove.
PIP Panel Removal
1. Remove 3 screws from panel.
Removal of SSB Panel
1. Remove panel support clip (AC04). 2. Tilt top of SSB to the right and then up.
Complete Optical Assembly or Individual Light Box Assemblies
1. 2. 3. 4. 5. 6. 7. Perform Lower Back Cover removal procedure. Perform Speaker Baffle removal procedure. Perform Lens Frame removal procedure. Perform Upper Back Cover removal procedure. Disconnect the CRT Panels, 2nd anode leads (at HVT), and yoke connectors from all CRT assemblies. Remove 4 screws located at front of Optical assembly and lift assembly up and out. To remove individual CRT assemblies, loosen 4 screws located in the assembly you wish to remove and lift assembly up and out.
Service Position
(Note: 1. 2. 3. 4. Side Jack and Front Control Panels may have to be removed to allow cable slack.) Perform Back Cover removal procedure. Remove 7 screws (I). Pull Chassis Frame back and up. Tilt Chassis Frame upward on bottom of PTV.
Picture Tube Replacement
Refer to CRT Assembly Exploded View Replacement of the cathode ray tube (CRT) and/or optical system components of a Projection TV (PTV) can be easily accomplished by following general guidelines. Use care when working around the CRT and optical systems of the PTV. The PTV light path encompasses a number of precision optical components. These include lenses, mirrors, the lenticular screen, and fresnel lens. The PTV incorporates three separate CRTs, representing green, red, and blue outputs. Each CRT uses an independent deflection/convergence yoke, magnetic centering ring, coupler, C-element lens, and output lens (A/B lens). Each tube is mechanically fastened to a coupler which houses fluid (a glycol-type substance) used to cool the high temperatures generated by the small (7") CRTs. The fluid also provides an optical characteristic supporting the optical system of the PTV. When replacement of a CRT or optical component is required, caution must be exercised in preventing fluid spillage. The technician must carefully reassemble the CRT/optical components, ensuring a proper seal of the coupling fluid. Use only factory original coupling fluid. Caution: Do not use or add water as an alternative to the prescribed coupling fluid. The following procedure should be used when performing repairs on the CRT/optical assemblies of the Projection TV. Note: Upon completion of CRT/optical assembly repair, the centering, convergence, gray scale, mechanical and electrical focus adjustments are required. If more than one assembly requires repair, it is recommended the service technician fully complete one assembly at a time, using the existing assemblies as a reference for the alignment of the centering and convergence.
A. Single CRT/Lens Assembly from the Light Rack
Remove AC power from the PTV. Remove the upper and lower back covers (1/4" screws). Remove the barrier board and the shield cover from around the lens assemblies (1/4" screws). Carefully remove the CRT Socket Board from the CRT of the CRT/optical assembly being serviced. Remove the yoke and convergence plugs, of the CRT/optical assembly being serviced, from the Large Signal Module. 6a) Remove the high voltage anode lead from the HV splitter block on the Large Signal Module of the CRT/optical assembly being serviced. Remove ground lug connectors from the coupler frame. 7a) Remove the four 1/4" screws that secure the CRT/lens assembly to the light rack. These four screws are located in each corner, on the top of the coupler assembly. Caution: Do not remove the bolts with pressure springs or the inverted Torx screws of the CRT/lens assembly. The removal of these components could result in fluid spillage into the PTV cabinet. 8a) Carefully remove the CRT/lens assembly from the PTV cabinet. 1a) 2a) 3a) 4a) 5a)
Servicing the CRT/Optical Assembly
Caution: Do not attempt any repairs on the CRT/optical block assembly without first removing the CRT coupling fluid. Removal of the delta output lens will result in spillage of the coupling fluid. Caution: Coupling fluid is a poisonous solution containing a high concentration of ethylene glycol. Do not leave exposed fluid unattended. Prevent children or pets from coming into contact with the fluid. Clean up spills immediately.
B. Removing the PTV Coupling Fluid
All repairs made to the CRT/optical block assembly require the removal of the coupling fluid. The following procedure describes how to remove the PTV coupling fluid. 1b) Lay the CRT assembly on its side with the plug pointing up. 2b) Remove the plug (X8). 3b) Remove some of the fluid from the coupler to prevent spillage when the CRT is removed. An empty coupling fluid bottle with a cone top is recommended to lower the fluid level within the coupler. Squeeze and hold the bottle and insert the tip of the cap into the drain hole of the coupler. Loosen the grip on the bottle, allowing the fluid to be pulled up into the bottle. Save the fluid. 4b) Reinstall the plug (X8). 5b) Stand the CRT assembly up with the neck of the CRT pointing up. 6b) With an awl or marking pen, outline the edges of the CRT onto the coupler. Note: The correct positioning of the CRT to the coupler is critical to the optimum performance of the optical system. 7b) Remove the four CRT mounting bolts (A) (with springs and spacers) and remove the mounting bracket (D). 8b) Remove the four CRT mounting ear screws. Note: The CRT mounting ear screws are not used on some assemblies. 9b) Gently remove any metal shavings from around the screw holes. Do not allow the metal shavings to get into the fluid. 10b) Note the position of the high voltage anode cap with respect to the coupler. 11b) Carefully remove the CRT from the coupler. Wipe any excess fluid from the faceplate of the CRT. Set the CRT aside. 12b) Use an empty coupling fluid bottle to extract the remainder of the fluid from the coupler. Note: Complete removal of the coupling fluid is not necessary when only replacing the CRT. 13b) Clean any remaining fluid from the coupler and the CRT gasket channel using absorbent tissue. Refer to "C". Cleaning the Coupler, C-element Lens and CRT Faceplate procedure if the fluid is discolored or contaminated. 14b) Make all necessary repairs.
C. Cleaning the Coupler, C-element Lens and CRT Faceplate
1c) 2c) Remove CRT coupling fluid as described in steps 1b through 13b. Using denatured alcohol on a cloth made of 100% cotton or a lens cleaning tissue, gently clean the Celement (fisheye) lens, coupler and the CRT faceplate. Thoroughly clean the coupler assembly, including the expansion chamber bladder, and allow to fully dry. Caution: Do not use soap or detergent type substances to clean the coupler and its related assemblies. Water can be used as an alternative to denatured alcohol, but the assemblies must be completely dry prior to reassembly of the coupler and the addition of the coupling fluid. A hair dryer may be used to dry the coupler and its assemblies prior to reassembly. If contaminated fluid is discovered, the coupler and its related assemblies must be completely disassembled and cleaned to prevent a reoccurrence. 3c) Replace the CRT and C-element lens gaskets. 4c) Reassemble the C-element lens and the output lens to the coupler. 5c) Refer to "Replacing the CRT Coupling Fluid" upon completion of necessary repairs and cleaning of the optical/coupler assemblies.
D. Replacement of the CRT
1d) 2d) 3d) Remove CRT coupling fluid as described in steps 1b through 13b. Remove the plastic protective coating (if present) from the faceplate of the replacement CRT. Refer to "Replacing the CRT Coupling Fluid" to complete the CRT replacement.
E.
1e) 2e) 3e) 4e)
Repair or Replacement of the Optical/Coupler Assembly
Remove CRT coupling fluid as described in steps 1b through 13b. Remove the four inverted-type Torx screws which secure the Delta output lens to the coupler. An inverted-type Torx socket can be purchased using part number 483539517303. Removal of the Delta output lens will allow access to the C-element lens, C-element gasket, coupler, and its assemblies. Refer to "Replacing the CRT Coupling Fluid" upon completion of necessary repairs to the optical/coupler assemblies.
F.
Replacing the PTV Coupling Fluid
Note: Prior to replacing the CRT coupling fluid, ensure the expansion chamber bladder is fully collapsed. This can be easily inspected by viewing the bladder through the small hole on the expansion chamber assembly. If the rubber of the bladder is not easily visible through the small hole, then the bladder may be considered collapsed and fluid can be added. If the rubber of the expansion chamber bladder is visible at the hole of the expansion chamber, then replacement of the expansion chamber bladder is required. Note: The CRT coupling fluid is critical to the optical performance of the PTV. Use only part number 483531057233 (3 bottle kit) or 483531067004 (1 bottle) to ensure the optical integrity and performance reliability of the PTV when replacing the CRT coupling fluid. 1f) Reinstall the CRT gasket into the gasket channel of the coupler. Confirm the placement of the CRT, Celement lens, and vent plug gaskets. 2f) Place the CRT onto the coupler with the high voltage anode lead positioned as marked in step 10b of procedure B. 3f) Carefully position the CRT onto the coupler, using the outline defined in step 6b of procedure B as a reference. 4f) Start the CRT mounting ear screws but do not tighten them. 5f) Tighten the CRT mounting ear screws in a star pattern (like tightening lug nuts on the wheel of a car). Make sure the CRT does not shift position from the outline defined in step 6b. Caution: Do not over tighten the CRT ear screws. Note: The CRT mounting ear screws are not used on some assemblies. 6f) Install the CRT mounting bracket and start the four CRT mounting bracket bolts with springs. 7f) Tighten the bolts in a star pattern. 8f) Lay the CRT assembly on its side with the plug pointing up. 9f) Remove the plug. 10f) Using the PTV coupling fluid bottle with the cone top, refill the coupler with fluid through the drain access hole. Completely fill the coupler chamber so the fluid is level with the top of the coupler at the plug. Wipe any excess fluid from around the coupler. 11f) Reinstall the plug and check for any fluid leaks. 12f) Install the repaired CRT/optical block assembly into the PTV and perform any necessary adjustments.
HDR2002 Service Adjustments
Manual 7621 DPTV300 Series Chassis Adjustments
The following topics are covered: · Service Modes · Error code buffer and error codes · The "blinking LED" procedure · Trouble shooting tips · Customer Service Mode Measurements should be performed under the following conditions: Video: color bar signal Audio: 3kHz left, 1kHz right
Panel Location Guide
Voltage Checks
Display DPTV300 Series Voltage Diagram
Service Default Mode (SDM)
Introduction
The Service Default Mode (SDM) is a technical aid for the service technician. The Service Default Mode (SDM) establishes fixed, repeatable settings of customer controls, which allow consistent measurements to be made. The SDM also initiates the blinking LED procedure and, if necessary, overrides the 5V protection. The SDM places the set in the following pre-defined conditions: · Tuning frequency set to channel 3. · Volume level set to 25% (of the maximum volume level). · Other picture and sound settings set to 50% (mid-range). The following functions are turned OFF while in SDM: · Timer · Sleep timer The following functions are disabled during SDM (and enabled after leaving SDM): · Parental lock · Blue mute · Hospitality Mode · No-ident Timer (normally the set is automatically switched off when no video signal (IDENT) is received for 15 minutes). All other controls operate normally.
Entering Service Default Mode
To enter the Service Default Mode, press the following key sequence on the remote control transmitter: 0-6-2-5-9-6-MENU Do not allow the display to time out between entries while keying the sequence. Upon entry into the Service Default Mode, the letters "SDM" will be displayed at the upper right corner of the screen.
Display SDM Screen
Special SDM functions
Access to normal user menu Pressing the "MENU" button on the remote control switches between the SDM and the normal user menus (with the SDM mode still active in the background) Run timer, software identification, and error buffer Press the Status button on the remote control to toggle the OSD (except "SDM") ON and OFF to prevent the OSD from interfering with measurements and oscilloscope waveforms. Access to SAM To access the Service Alignment Mode while in the SDM press the "VOLUME +" and "VOLUME " buttons on the local keyboard simultaneously for at least 4 seconds. Exiting Service Default Mode To exit the Service Default Mode, press the Power button. Note: To save the error codes, unplug the AC power cord without turning off the set. When the power is turned back on, the Service Default Mode will still be active.
Service Alignment Mode (SAM)
Introduction
The Service Alignment Mode (SAM) is used to align the set and/or adjust the option settings and to display/clear the error code buffer values.
Entering Service Alignment Mode
To enter the Service Alignment Mode (SAM), press the following key sequence on the remote control transmitter: 0-6-2-5-9-6-STATUS Do not allow the display to time out between entries while keying the sequence It is also possible to enter the Service Alignment Mode by pressing the "VOLUME +" and "VOLUME -" key on the local keyboard simultaneously for at least 4 seconds when the set is in SDM.
Exiting SAM:
To exit the Service Alignment Mode, press the Power button. Note: To save the error codes, unplug the AC power cord without turning off the set. When the power is turned back on, the Service Alignment Mode will still be active. In SAM the following information is displayed on the screen:
Display SAM Menu
Explanation of SAM Menu:
1 2 · · · · 3 4 5 Operation Hours (Run Timer): This display indicates the accumulated total of operational hours. (Shown in hexadecimal format) Software identification of the main micro controller (2US1-2.045) LCHDR is the engineering chassis name for the HDR2002-PTV chassis. US1 is 2 letter and 1 digit combination to indicate the software type and the supported languages: US = NAFTA 1 = Main Software language version number 2.045 = sub-version number Error buffer (7 errors possible): Displays the 7 most recent errors. The most recent error is displayed at the upper left. Option bytes (8 codes possible): Summary of options is explained below. Sub menus are listed in a scroll menu.
SAM Menu Control
Menu items may be selected using the cursor UP/DOWN keys. · the selected item will be highlighted. · when not all menu items will fit on the screen, pressing the cursor UP/DOWN keys on the remote transmitter will display the next/previous menu items. With the cursor LEFT/RIGHT keys, it is possible to: · activate/deactivate the selected menu item (e.g. GEOMETRY) · change the value of the selected menu item (e.g. VER-SLOPE ) · activate the selected submenu (e.g. SERV-BLK) Access to normal user menu Pressing the "MENU" button on the remote control switches between the SAM and the normal user menus (with the SAM mode still active in the background). Pressing the "MENU" key in a submenu will return the screen to the previous menu.
Menu and Sub-menu Definitions
Clear Errors Erases the contents of the error buffer. Select the CLEAR ERRORS menu item and press the cursor LEFT or cursor RIGHT key. The contents of the error buffer are cleared. The functionality of the OPTIONS and ALIGNMENTS (TUNER, WHITE TONE, GEOMETRY, SOUND, and SMART SETTING) sub-menus are described in the service adjustments.
Error code buffer and error codes
Explanation of the Error code buffer The error code buffer contains all errors detected since the last time the buffer was erased. The buffer is written from left to right. When an error occurs that is not yet in the error code buffer, the error code will appear at the left side and all other errors shift one position to the right. The error code buffer will be cleared in the following cases: · by activating CLEAR ERRORS in SAM menu · exiting SDM or SAM with the "Standby" command on the remote control · upon automatic reset when content has not changed for 50 consecutive hours By leaving SDM or SAM via the power switch, the error buffer will not be reset. Examples: ERROR: 0 0 0 0 0 0 0 : No errors detected ERROR: 6 0 0 0 0 0 0 : Error code 6 is the last and only detected error ERROR: 9 6 0 0 0 0 0 : Error code 6 was first detected and error code 9 is the last detected (newest) error The contents of the error buffer can also be displayed by use of the "blinking LED" procedure, if no picture is available. See explanation of "The blinking LED procedure "below. Error code definition In case of non-intermittent faults, clear the error buffer before starting the repair. Make sure "old" error codes are not present. If possible check the entire content of the error buffers. In some situations an error code is only the result of another error code (and not the actual cause). Note: A fault in the protection detection circuitry can also lead to a protection. Error codes 1,2, 3, and 4 are protection codes, and in this case the supplies of some circuits will be switched off. Also in protection, the LED will blink the number of times equivalent to the most recent error code.
Error Code Table
Error number 0 1 2 3 Explanation No error FBX 3V3 protection No Horizontal Flyback protection X-Ray protection Valid for PEMG99 X X X X Addresses Remarks in HCS X X X GDE reported critical error HFB error Must have been supported by GDE. But it is not so. GDE reported critical error
4 5 6 7
Significance changed to: GDE critical error Vertical Output Failure +5V protection active (detected via MSP34xx & tuner) HOP POR not successful General I2C error main I2C bus Mains Dip error
X X X X
X X X Cannot be supported in HCS since the hardware supports. X GDE reported critical error GDE reported critical error HOP Initialization Failure
8 9
Significance changed to: GDE critical error DAC Initialization failure 3D Comb filter I2C communication error Bocma IC TDA888xx 8V failure (SUP bit) Significance changed to: HCS-GDE communication failure
X
X
X
GDE did not communicate with Initialization complete message.
10 11 12 13 14 15 16 17
NVM IC STM24xxx I2C communication failure New NVM IC error (NVM_ IDENTIFICATION_ERROR) Main uP (Painter) Internal RAM test failure Main tuner I2C failure UV13xx Sound IC MSP34xx I2C failure SRAM IC uPD431000A-B test failure PIP/DW Tuner (ETA50) I2C failure PIP IC M65669SP I2C failure or Double window IC SAB9081 I2C failure
X X X X X X X X
X X X X X X X X
18 19 20 21 22 23 27 30 31 32 33 34 35
I/O expander IC M62320P I2C failure (DW & PIP) Guide+ I2C failure
X X
X X X
V-chip for PIP, IC ZILOG 86130 I2C X failure (TBC) NV clock IC MK41T56 I2C failure Flash protection (detected via Bocma) Bocma IC TDA888xx (on DW panel) I2C communication Virtual Dolby error HIP l/O-video processing error Picnic HOP video control/geometry 8v6 Hikup protection HD interface I/O expander M62320 I2C failure
X X X X X X X X
X X X X
1. 101
New Error codes for LCHDR No Ack or response from GDE for the transmitted message even after maximum no. of retries HCS encountered errors on MAX RETRY consecutive received messages Sony A/V Switch I2C communication failure GDE non-critical error Change Display Config Exit did not occur X Unrecoverable error for transmissions Unrecoverable errors on reception I2C communication on interaction with Sony A/V switch GDE reported non-critical error on - 1 Am Alive message HCS did not receive the Display Config Exit command From GDE within 2s from Change Display Config Enter command sent.
102
X
103
X
104 105
X X
106 to 119
Reserved for future error codes
X
Table 1 LCHDR error codes for US cluster
The Blinking LED Procedure
The contents of the error buffer can also be made visible through the "blinking LED" procedure. This is especially useful when there is no picture.
·
When the SDM is entered, the LED will blink the number of times equal to the value of the error code. Error-codes equal to or greater10 are shown in the following manner: A long blink of 750 mSeconds indicating the decimal digit, followed by a pause of 1500 mSeconds. The LED will then blink the number equal to the error code. When all error-codes are displayed, the sequence is finished with an LED display of 3 seconds. At this point the sequence will begin again.
Example: Error code position Error buffer:
1 2 3 4 5 12 9 6 0 0
·
After entering SDM: The sequence will begin with 1 long blink of 750 mSeconds, then pause 1500 mSeconds, then blink twice (indicating error code 12), then the LED will pause for 3 seconds, then blink 9 times (indicating error code 9), then the LED will pause for 3 seconds, then blink 6 times (indicating error code 6), then pause 3 seconds and blink for 3 seconds again, ending the blinking sequence.
NOTE: If errors 1, 2, 3, or 4 occur the LED ALWAYS blinks indicating the last error which occurred, even if the set is NOT in service mode.
Option Codes - NAFTA
Bits Basic 2US1 7 SBNP 6 CVI 5 C169 4 E149 3 SMCK 2 AV3 1 CBFL 0 IPIX OB1= 7 IPMU 6 VDBY 5 PLST 4 SOSD 3 PIPC 2 PIPT 1 PIPF 0 VSLC OB2= 7 SURF 6 CCAP 5 TIME 4 AAVL 3 FUNN 2 SPKC 1 VCBK 0 VBNR Basic W 1 SBNP 1 CVI 1 C169 1 E149 1 SMCK 1 AV3 1 CBFL 0 IPIX 254 0 IPMU 1 VDBY 1 PLST 1 SOSD 1 PIPC 0 PIPT 1 PIPF 0 VSLC 122 1 SURF 1 CCAP 1 TIME 1 AAVL 0 FUNN 1 SPKC 1 VCBK 1 VBNR Basic+ 2US2 1SBNP 1CVI 1SMCK 1AV3 1CBFL 1IPIX 1IPMU 0VDBY 254 0PLST 1SOSD 1PIPC 1PIPT 1PIPF 0VSLC 1SURF 0CCAP 122 1TIME 1AAVL 1FUNN 1SPKC 0VCBK 1VBNR 1BNUM 1TMWIN Core 2US3 1 SBNP 1 CVI 1 C169 1 E149 1 SMCK 0 AV3 0 CBFL 1 IPIX 249 1 IPMU 1 VDBY 1 PLST 1 SOSD 1 PIPC 0 PIPT 1 PIPF 1 W4X3 251 1 VSLC 1 SURF 0 CCAP 1 TIME 1 AAVL 1 FUNN 1 SPKC 0 VCBK Basic+ 2US4 1 SBNP 1 CVI 0 SMCK 0 AV3 1 CBFL 1 IPIX 1 IPMU 0 VDBY 206 0 PLST 1 SOSD 1 PIPC 1 PIPT 1 PIPF 1 VSLC 1 SURF 1 CCAP 127 0 TIME 1 AAVL 1 FUNN 1 SPKC 1 VCBK 0 VBNR 1 BNUM 1 TMWIN 1 1 1 1 1 0 0 1 249 1 1 1 1 1 0 1 1 251 1 1 0 1 1 1 1 0
OB3= 7 BNUM 6 TMWIN 5 AOUT 4 INCF 3 APC 2 PAGC 1 WSCR 0 INIT TIME OUT OB4= 7 I AM ALIVE 6 ACS 5 MCS 4 AV5 3 WDT 2 1 0 OB5= OB6= OB7= OB8=
247 1 BNUM 0 TMWIN 1 AOUT 0 INCF 1 APC 1 PAGC 0 WSCR 1 INIT TIME OUT 173 0 I AM ALIVE 0 ACS 1 MCS 0 AV5 1 WDT 0 0 0 40 0 0 0
247 1AOUT 0INCF 1APC 0PAGC 1INIT TIME OUT 1I AM ALIVE 1ACS 1MCS 175 0AV5 0DVI 1WDT 1CFMU 1 0 0 0 56 0 0 0
222 1 VBNR 0 BNUM 1 TMWIN 1 AOUT 1 INCF 0 APC 0 PAGC 1 WSCR 185 1 INIT TIME OUT 0 I AM ALIVE 1 ACS 1 MCS 0 AV5 0 DVI 0 WDT 0 CFMU 176 0 0 0
123 1 AOUT 1 INCF 0 APC 1 PAGC 0 INIT TIME OUT 1 I AM ALIVE 1 ACS 1 MCS 215 1 AV5 0 DVI 1 WDT 1 CFMU 1 1 1 1 191 0 0 0
222 1 0 1 1 1 0 0 1 185 1 0 1 1 0 0 0 0 176 0 0 0
Basic Basic Basic+ Core Basic+ 2US1 W 2US2 2US3 2US4 1 1 1 1 1 Auto Volume Level via Sound Menu 0 0 0 1 0 Auto Convergence 1 1 1 1 1 Audio Out 1 1 1 1 1 Auto Picture Control 1 1 1 1 1 Side AV Source 0 1 1 1 1 1 1 1 1 1 Numerics Displayed in Menus 1 1 NA 0 NA Compress 16:9 mode available 1 1 1 1 1 Comb Filter Present 1 1 1 1 1 Closed Caption NA NA 1 1 1 Comb Filter Menu Item 1 1 1 1 1 Component Video Input NA 0 0 1 0 Digital Video Input 1 1 NA 0 NA Expand 14:9 mode available 0 0 0 0 0 Fine Tuning Menu Item 0 0 0 0 0 I am Alive Message ( on Time-Out take set to Protection) INCF 0 0 0 0 0 Internal Comb Filter Present INIT TIME OUT 1 1 1 1 1 Initialization Time Out ( on Time-Out take set to Protection) IPIX 0 0 0 0 0 Incredible Picture Feature IPMU 0 0 0 0 0 Incredible Picture Menu Item MCS 1 1 1 1 1 "Manual Convergence" Feature in Customer Mode PAGC 1 1 1 1 1 Painter AGC PIPC 1 1 1 1 1 PIP Control (PIP is present)
Option Setting AAVL ACS AOUT APC AV3 AV5 BNUM C169 CBFL CCAP CFMU CVI DVI E149 FUNN I AM ALIVE
PIPF PIPT PLST SBNP SMCK SOSD SPKC SURF TIME TMWIN VBNR VCBK VDBY VSLC W4X3 W169 WDT WSCR
1 0 1 1 1 1 1 1 1 0 1 1 1 0 NA NA 1 0
1 0 1 1 1 1 1 1 1 0 1 1 1 0 NA NA 1 1
1 1 1 1 1 1 1 1 1 0 1 1 1 0 NA NA 1 NA
1 1 1 1 1 1 1 1 1 0 1 1 1 0 1 NA 1 1
1 1 1 1 1 1 1 1 1 0 1 1 1 0 NA NA 1 NA
PIP Function PIP Tuner Program List Auto Standby with No Picture Smart Clock Smart OSD Speaker Control Surf Feature available Time Feature available via Features menu Time Window V-Chip Block No Rated Menu V-Chip Block Un Rated Menu Virtual Dolby Enabled (MSP3451 required) Vertical Slicing Enabled Double Window 4x3 format Double Window 16x9 format Watch Dog Timer Wide Screen Set (16:9)
Tuner Options
Enter the Service Alignment Mode (SAM) by pressing the following key sequence on the remote control transmitter: 0-6-2-5-9-6-STATUS Do not allow the display to time out between entries while keying the sequence It is also possible to enter the Service Alignment Mode by pressing the "VOLUME +" and "VOLUME -" key on the local keyboard simultaneously for at least 4 seconds when the set is in SDM. The option menu below shows the option bytes for different clusters. It shows the default values as set by the PEMG for US clusters: Item
IF-PLL OFFSET AGC AFA AFB
2US1, 2, 3, 4
P P P P
Remarks
Range 0->127 (Typically 87) Range 0->63 (Typically 22) 0 or 1 (Read Only) 0 or 1 (Ready Only)
Smart Settings
Enter the Service Alignment Mode (SAM) by pressing the following key sequence on the remote control transmitter: 0-6-2-5-9-6-STATUS Do not allow the display to time out between entries while keying the sequence in. It is also possible to enter the Service Alignment Mode by pressing the "VOLUME +" and "VOLUME -" key on the local keyboard simultaneously for at least 4 seconds when the set is in SDM.
Item
MOVIE BGT MOVIE COL MOVIE PIC MOVIE SHP MOVIE HUE MOVIE 2FH SHP SPORT BGT SPORT COL SPORT PIC SPORT SHP SPORT HUE SPORT 2FH SHP WEAK BGT WEAK COL WEAK PIC WEAK SHP WEAK HUE WEAK 2FH SHP MULTI BGT MULTI COL MULTI PIC MULTI SHP MULTI HUE MULTI 2FH SHP
2US1, 2, 3, 4
P P P P P P P P P P P P P P P P P P P P P P P P
Remarks
Movie Brightness 0-99 Movie Color 0-99 Movie Picture 0-99 Movie Sharpness 0-99 Movie Hue 0-99 Movie Sharpness 0-99 for 2fh source Sport Brightness 0-99 Sport Color 0-99 Sport Picture 0-99 Sport Sharpness 0-99 Sport Hue 0-99 Sport Sharpness 0-99 for 2fh source Weak Brightness 0-99 Weak Color 0-99 Weak Picture 0-99 Weak Sharpness 0-99 Weak Hue 0-99 Weak Sharpness 0-99 for 2fh source Multimedia Brightness 0-99 Multimedia Color 0-99 Multimedia Picture 0-99 Multimedia Sharpness 0-99 Multimedia Hue 0-99 Multimedia Sharpness 0-99 for 2fh source
Typical Settings
50 50 50 84 0 84 50 59 54 70 0 70 50 40 40 28 0 28 50 40 40 70 0 70
GDE SAM MODE DEFAULTS TABLES
GDE SAM DISPLAY MODE SERV BLANK GEOMETRY WIDE BLANK HOR SHIFT HOR. PARALLEL EW. WIDTH EW. PARA EW. TRAP HOR. BOW VER. SLOPE VER. AMPL S CORR VER. SHIFT FAST BLANK BRIGHTNESS PICTURE COLOR TINT SHARPNESS SUB-BRIGHT NORMAL CUTOFF RED NORMAL CUTOFF GREEN NORMAL CUTOFF BLUE NORMAL DRIVE RED NORMAL DRIVE GREEN NORMAL DRIVE BLUE COOL CUTOFF RED COOL CUTOFF GREEN COOL CUTOFF BLUE COOL DRIVE RED COOL DRIVE GREEN COOL DRIVE BLUE WARM CUTOFF RED WARM CUTOFF GREEN WARM CUTOFF BLUE WARM DRIVE RED WARM DRIVE GREEN WARM DRIVE BLUE REGISTER NAME DEFAULT VALUE 480p OFF 7 23 8 29 36 31 7 40 38 31 31 0 31 31 31 31 31 31 35 34 31 20 43 31 0 0 0 -7 -6 0 0 0 0 +7 +4 -6 NORMAL ENABLED DEFAULT VALUE 1080i FULL OFF 7 21 8 42 36 31 7 36 37 31 31 0 31 31 31 31 31 31 35 34 31 20 43 31 0 0 0 -7 -6 0 0 0 0 +7 +4 -6 HDTV ENABLED DEFAULT VALUE 1080i COMP OFF 7 21 8 42 31 31 7 38 11 31 31 0 31 31 31 31 31 31 35 34 31 20 43 31 0 0 0 -7 -6 0 0 0 0 +7 +4 -6 HDTV ENABLED
PICTURE
WHITE TONE
CLAMP PULSE CONV. PROC.
ELECTRICAL FOCUS ADJUSTMENT
Note: Before beginning the following adjustment procedures set the customer picture, sharpness, brightness, and tint controls to midrange and the customer color control to minimum. Electrical Focus Adjustment 1. Remove the back cover of the set and the light shield, then turn the set on and inject an NTSC crosshatch pattern signal into the antenna terminal. Note: The crosshatch pattern will appear clearer if the front of the screen is covered with a dark cloth. 2. Cover two of the CRT output lenses with cardboard pieces (or other non-conductive opaque material) to observe the magnified reflection of the other picture tube on the back side of the viewing screen. 3. Adjust the CRT's focus control (located on the Screen/Focus Control Block) for the sharpest raster image. 4. Confirm correct focus by viewing the screen from the front of the set. 5. Repeat steps two through four to adjust the focus of the two remaining CRT's. Note: Before beginning the following adjustment procedures, set the customer picture, sharpness, brightness, and tint controls to midrange and the customer color control to minimum.
OPTICAL FOCUS
1. Remove the back cover of the set and the light shield, then turn these on and inject an NTSC crosshatch pattern signal into the antenna terminal. Note: The crosshatch pattern will appear clearer if the front of the screen is covered with a dark cloth. 2. Cover tow of the CRT output lenses with cardboard pieces (or other non-conductive, opaque material) and observe the magnified reflection of the other picture tube on the back side of the viewing screen. 3. Loosen the lens retaining wing nuts on the CRT Focus Assembly. 4. Move the wing nut in the slot of the uncovered lens to locate the optimum optical focus (viewing the picture from the back side of the screen), then re-tighten the wing nut. 5. Confirm correct focus by viewing the screen from the front of the set. 6. Repeat steps two through five to adjust the focus of the two remaining CRT's.
Picture Tube Replacement
Replacement of the cathode ray tube (CRT) and/or optical system components of a Projection TV (PTV) can be easily accomplished by following general guidelines. Use care when working around the CRT and optical systems of the PTV. The PTV light path encompasses a number of precision optical components. These include lenses, mirrors, the lenticular screen, and fresnel lens. The PTV incorporates three separate CRTs, representing green, red, and blue outputs. Each CRT uses an independent deflection/convergence yoke, magnetic centering ring, coupler, C-element lens, and output lens (A/B lens). Each tube is mechanically fastened to a coupler which houses fluid (a glycol-type substance) used to cool the high temperatures generated by the small (7") CRTs. The fluid also provides an optical characteristic supporting the optical system of the PTV. When replacement of a CRT or optical component is required, caution must be exercised in preventing fluid spillage. The technician must carefully reassemble the CRT/optical components, ensuring a proper seal of the coupling fluid. Use only factory original coupling fluid. Caution: Do not use or add water as an alternative to the prescribed coupling fluid. The following procedure should be used when performing repairs on the CRT/optical assemblies of the Projection TV.
Note:
Upon completion of CRT/optical assembly repair, the centering, convergence, gray scale, mechanical and electrical focus adjustments are required. If more than one assembly requires repair, it is recommended the service technician fully complete one assembly at a time, using the existing assemblies as a reference for the alignment of the centering and convergence.
Disassembly Procedures
A. Removal of a single CRT/Lens Assembly from the light rack 1a) Remove AC power from the PTV. 2a) Remove the upper and lower back covers (1/4" screws). 3a) Remove the barrier board and the shield cover from around the lens assemblies (1/4" screws). 4a) Carefully remove the CRT Socket Board from the CRT of the CRT/optical assembly being serviced. 5a) Remove the yoke and convergence plugs, of the CRT/optical assembly being serviced, from the Large Signal Module. 6a) Remove the high voltage anode lead from the HV splitter block on the Large Signal Module of the CRT/optical assembly being serviced. Remove ground lug connectors from the coupler frame. 7a) Remove the four 1/4" screws that secure the CRT/lens assembly to the light rack. These four screws are located in each corner, on the top of the coupler assembly. Caution: Do not remove the bolts with pressure springs or the inverted Torx screws of the CRT/lens assembly. The removal of these components could result in fluid spillage into the PTV cabinet. 8a) Carefully remove the CRT/lens assembly from the PTV cabinet.
Servicing the CRT/Optical Assembly
Caution: Do not attempt any repairs on the CRT/optical block assembly without first removing the CRT coupling fluid. Removal of the delta output lens will result in spillage of the coupling fluid. Caution: Coupling fluid is a poisonous solution containing a high concentration of ethylene glycol. Do not leave exposed fluid unattended. Prevent children or pets from coming into contact with the fluid. Clean up spills immediately. B. Removing the PTV Coupling Fluid All repairs made to the CRT/optical block assembly require the removal of the coupling fluid. The following procedure describes how to remove the PTV coupling fluid. 1b) 2b) 3b) Lay the CRT assembly on its side with the plug pointing up. Remove the plug (X8). Remove some of the fluid from the coupler to prevent spillage when the CRT is removed. An empty coupling fluid bottle with a cone top is recommended to lower the fluid level within the coupler. Squeeze and hold the bottle and insert the tip of the cap into the drain hole of the coupler. Loosen the grip on the bottle, allowing the fluid to be pulled up into the bottle. Save the fluid. Reinstall the plug (X8). Stand the CRT assembly up with the neck of the CRT pointing up. With an awl or marking pen, outline the edges of the CRT onto the coupler. The correct positioning of the CRT to the coupler is critical to the optimum performance of the optical system.
4b) 5b) 6b) Note:
7b) 8b) Note: 9b)
Remove the four CRT mounting bolts (A) (with springs and spacers) and remove the mounting bracket (D). Remove the four CRT mounting ear screws. The CRT mounting ear screws are not used on some assemblies.
Gently remove any metal shavings from around the screw holes. Do not allow the metal shavings to get into the fluid. 10b) Note the position of the high voltage anode cap with respect to the coupler. 11b) Carefully remove the CRT from the coupler. Wipe any excess fluid from the faceplate of the CRT. Set the CRT aside. 12b) Use an empty coupling fluid bottle to extract the remainder of the fluid from the coupler. Note: Complete removal of the coupling fluid is not necessary when only replacing the CRT.
13b) Clean any remaining fluid from the coupler and the CRT gasket channel using absorbent tissue. Refer to "C". Cleaning the Coupler, C-element Lens and CRT Faceplate procedure if the fluid is discolored or contaminated. 14b) Make all necessary repairs. C. Cleaning the Coupler, C-element Lens and CRT Faceplate 1c) Remove CRT coupling fluid as described in steps 1b through 13b. 2c) Using denatured alcohol on a cloth made of 100% cotton or a lens cleaning tissue, gently clean the Celement (fisheye) lens, coupler and the CRT faceplate. Thoroughly clean the coupler assembly, including the expansion chamber bladder, and allow to fully dry. Caution: Do not use soap or detergent type substances to clean the coupler and its related assemblies. Water can be used as an alternative to denatured alcohol, but the assemblies must be completely dry prior to reassembly of the coupler and the addition of the coupling fluid. A hair dryer may be used to dry the coupler and its assemblies prior to reassembly. If contaminated fluid is discovered, the coupler and its related assemblies must be completely disassembled and cleaned to prevent a reoccurrence. 3c) 4c) 5c) Replace the CRT and C-element lens gaskets. Reassemble the C-element lens and the output lens to the coupler. Refer to "Replacing the CRT Coupling Fluid" upon completion of necessary repairs and cleaning of the optical/coupler assemblies.
D. Replacement of the CRT 1d) Remove CRT coupling fluid as described in steps 1b through 13b. 2d) Remove the plastic protective coating (if present) from the faceplat