RT60SZ31
User Manual: RT60SZ31
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LCD Projection TV SERVICE MANUAL CHASSIS : MB-03CB MODEL : RT-52/60SZ31RB/RP CAUTION BEFORE SERVICING THE CHASSIS, READ THE SAFETY PRECAUTIONS IN THIS MANUAL. P/NO : 3828VD0133Z Oct.,2003 Printed in Korea TV/AV MENU OK VOL PR ON/OFF CONTENTS CONTENTS ..................................................................................................................... 2 SAFETY PRECAUTIONS ................................................................................................3 SERVICING PRECAUTIONS .......................................................................................... 4 CONTROL DESCRIPTIONS ............................................................................................6 SPECIFICATIONS ..........................................................................................................10 ADJUSTMENT INSTRUCTIONS ....................................................................................14 BLOCK DIAGRAM..........................................................................................................20 PRINTED CIRCUIT BOARD ...........................................................................................25 EXPLODED VIEW .................................................................................................... 34,36 EXPLODED VIEW PARTS LIST ................................................................................35,37 REPLACEMENT PARTS LIST .......................................................................................38 SVC. SHEET ...................................................................................................................... - 2 - SAFETY PRECAUTIONS I M P O RTANT SAFETY NOTICE Many electrical and mechanical parts in this chassis have special safety-related characteristics. These parts are identified by in the Schematic Diagram and Replacement Parts List. It is essential that these special safety parts should be replaced with the same components as recommended in this manual to prevent X-RADIATION, Shock, Fire, or other Hazards. Do not modify the original design without permission of manufacturer. Leakage Current Cold Check(Antenna Cold Check) General Guidance An lsolation Transformer should always be used during the servicing of a receiver whose chassis is not isolated from the AC power line. Use a transformer of adequate power rating as this protects the technician from accidents resulting in personal injury from electrical shocks. It will also protect the receiver and it’s components from being damaged by accidental shorts of the circuitry that may be inadvertently introduced during the service operation. If any fuse (or Fusible Resistor) in this TV receiver is blown, replace it with the specified. With the instrument AC plug removed from AC source, connect an electrical jumper across the two AC plug prongs. Place the AC switch in the on position, connect one lead of ohm-meter to the AC plug prongs tied together and touch other ohm-meter lead in turn to each exposed metallic parts such as antenna terminals, phone jacks, etc. If the exposed metallic part has a return path to the chassis, the measured resistance should be between 1M‰ and 5.2M‰. When the exposed metal has no return path to the chassis the reading must be infinite. An other abnormality exists that must be corrected before the receiver is returned to the customer. Leakage Current Hot Check (See below Figure) When replacing a high wattage resistor (Oxide Metal Film Resistor, over 1W), keep the resistor 10mm away from PCB. Keep wires away from high voltage or high temperature parts. Due to high vacuum and large surface area of picture tube, extreme care should be used in handling the Picture Tube. Do not lift the Picture tube by it’s Neck. Before returning the receiver to the customer, always perform an AC leakage current check on the exposed metallic parts of the cabinet, such as antennas, terminals, etc., to be sure the set is safe to operate without damage of electrical shock. Plug the AC cord directly into the AC outlet. Do not use a line Isolation Transformer during this check. Connect 1.5K/10watt resistor in parallel with a 0.15uF capacitor between a known good earth ground (Water Pipe, Conduit, etc.) and the exposed metallic parts. Measure the AC voltage across the resistor using AC voltmeter with 1000 ohm/volt or more sensitivity. Reverse plug the AC cord into the AC outlet and repeat AC voltage measurements for each exposed metallic part. Any voltage measured must not exceed 0.75 volt RMS which is corresponds to 0.5mA. In case any measurement is out of the limits specified, there is possibility of shock hazard and the set must be checked and repaired before it is returned to the customer. Leakage Current Hot Check circuit AC Volt-meter To Instrument's exposed METALLIC PARTS 0.15uF 1.5 Kohm/10W - 3 - Good Earth Ground such as WATER PIPE, CONDUIT etc. S E RVICING PRECAUTIONS CAUTION: Before servicing receivers covered by this service manual and its supplements and addenda, read and follow the SAFETY PRECAUTIONS on page 3 of this publication. NOTE: If unforeseen circumstances create conflict between the following servicing precautions and any of the safety precautions on page 3 of this publication, always follow the safety precautions. Remember: Safety First. General Servicing Precautions 1 . Always unplug the receiver AC power cord from the AC power source before; a. Removing or reinstalling any component, circuit board module or any other receiver assembly. b. Disconnecting or reconnecting any receiver electrical plug or other electrical connection. c. Connecting a test substitute in parallel with an electrolytic capacitor in the receiver. CAUTION: A wrong part substitution or incorrect polarity installation of electrolytic capacitors may result in an explosion hazard. d. Discharging the picture tube anode. 2. Test high voltage only by measuring it with an appropriate high voltage meter or other voltage measuring device (DVM, FETVOM, etc) equipped with a suitable high voltage probe. Do not test high voltage by "drawing an arc". 3. Discharge the picture tube anode only by (a) first connecting one end of an insulated clip lead to the degaussing or kine aquadag grounding system shield at the point where the picture tube socket ground lead is connected, and then (b) touch the other end of the insulated clip lead to the picture tube anode button, using an insulating handle to avoid personal contact with high voltage. 4. Do not spray chemicals on or near this receiver or any of its assemblies. 5. Unless specified otherwise in this service manual, clean electrical contacts only by applying the following mixture to the contacts with a pipe cleaner, cotton-tipped stick or comparable nonabrasive applicator; 10% (by volume) Acetone and 90% (by volume) isopropyl alcohol (90%-99% strength) CAUTION: This is a flammable mixture. Unless specified otherwise in this service manual, lubrication of contacts in not required. 6. Do not defeat any plug/socket B+ voltage interlocks with which receivers covered by this service manual might be equipped. 7. Do not apply AC power to this instrument and/or any of its electrical assemblies unless all solid-state device heat sinks are correctly installed. 8. Always connect the test receiver ground lead to the receiver chassis ground before connecting the test receiver positive lead. Always remove the test receiver ground lead last. 9. Use with this receiver only the test fixtures specified in this service manual. CAUTION: Do not connect the test fixture ground strap to any heatsink in this receiver. Electrostatically Sensitive (ES) Devices 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 fieldeffect transistors and semiconductor "chip" components. The following techniques should be used to help reduce the incidence of component damage caused by static by static electricity. 1 . Immediately before handling any semiconductor component or semiconductor-equipped assembly, drain off any electrostatic charge on your body by touching a known earth ground. Alternatively, obtain and wear a commercially available discharging wrist strap device, which should be removed to prevent 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 type solder removal device. Some solder removal devices not classified as "anti-static" can generate electrical charges 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 ieads 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 foot from a carpeted floor can generate static electricity sufficient to damage an ES device.) General Soldering Guidelines 1 . Use a grounded-tip, low-wattage soldering iron and appropriate tip size and shape that will maintain tip temperature within the range or 500¡£ F to 600¡£ F. 2. Use an appropriate gauge of RMA resin-core solder composed of 60 parts tin/40 parts lead. 3. Keep the soldering iron tip clean and well tinned. 4. Thorohly clean the surfaces to be soldered. Use a mall wirebristle (0.5 inch, or 1.25cm) brush with a metal handle. Do not use freon-propelled spray-on cleaners. 5. Use the following unsoldering technique a. Allow the soldering iron tip to reach normal temperature. (500¡£ F to 600¡£ F) b. Heat the component lead until the solder melts. c. Quickly draw the melted solder with an anti-static, suction-type solder removal device or with solder braid. CAUTION: Work quickly to avoid overheating the circuit board printed foil. 6. Use the following soldering technique. a. Allow the soldering iron tip to reach a normal temperature (500¡£ F to 600¡£ F) b. First, hold the soldering iron tip and solder the strand against the component lead until the solder melts. - 4 - c. Quickly move the soldering iron tip to the junction of the component lead and the printed circuit foil, and hold it there only until the solder flows onto and around both the component lead and the foil. CAUTION: Work quickly to avoid overheating the circuit board printed foil. d. Closely inspect the solder area and remove any excess or splashed solder with a small wire-bristle brush. IC Remove/Replacement Some chassis circuit boards have slotted holes (oblong) through which the IC leads are inserted and then bent flat against the circuit foil. When holes are the slotted type, the following technique should be used to remove and replace the IC. When working with boards using the familiar round hole, use the standard technique as outlined in paragraphs 5 and 6 above. Removal 1 . Desolder and straighten each IC lead in one operation by gently prying up on the lead with the soldering iron tip as the solder melts. 2. Draw away the melted solder with an anti-static suctiontype solder removal device (or with solder braid) before removing the IC. Replacement 1 . Carefully insert the replacement IC in the circuit board. 2. Carefully bend each IC lead against the circuit foil pad and solder it. 3. Clean the soldered areas with a small wire-bristle brush. (It is not necessary to reapply acrylic coating to the areas). "Small-Signal" Discrete Transistor Removal/Replacement 1 . Remove the defective transistor by clipping its leads as close as possible to the component body. 2. Bend into a "U" shape the end of each of three leads remaining on the circuit board. 3. Bend into a "U" shape the replacement transistor leads. 4. Connect the replacement transistor leads to the corresponding leads extending from the circuit board and crimp the "U" with long nose pliers to insure metal to metal contact then solder each connection. Power Output, Transistor Device Removal/Replacement 1 . Heat and remove all solder from around the transistor leads. 2. Remove the heatsink mounting screw (if so equipped). 3. Carefully remove the transistor from the heat sink of the circuit board. 4. Insert new transistor in the circuit board. 5. Solder each transistor lead, and clip off excess lead. 6. Replace heatsink. Diode Removal/Replacement 1 . Remove defective diode by clipping its leads as close as possible to diode body. 2. Bend the two remaining leads perpendicular y to the circuit board. 3. Observing diode polarity, wrap each lead of the new diode around the corresponding lead on the circuit board. 4. Securely crimp each connection and solder it. 5. Inspect (on the circuit board copper side) the solder joints of the two "original" leads. If they are not shiny, reheat them and if necessary, apply additional solder. Fuse and Conventional Resistor Removal/Replacement 1 . Clip each fuse or resistor lead at top of the circuit board hollow stake. 2. Securely crimp the leads of replacement component around notch at stake top. 3. Solder the connections. CAUTION: Maintain original spacing between the replaced component and adjacent components and the circuit board to prevent excessive component temperatures. Circuit Board Foil Repair Excessive heat applied to the copper foil of any printed circuit board will weaken the adhesive that bonds the foil to the circuit board causing the foil to separate from or "lift-off" the board. The following guidelines and procedures should be followed whenever this condition is encountered. At IC Connections To repair a defective copper pattern at IC connections use the following procedure to install a jumper wire on the copper pattern side of the circuit board. (Use this technique only on IC connections). 1 . Carefully remove the damaged copper pattern with a sharp knife. (Remove only as much copper as absolutely necessary). 2. carefully scratch away the solder resist and acrylic coating (if used) from the end of the remaining copper pattern. 3. Bend a small "U" in one end of a small gauge jumper wire and carefully crimp it around the IC pin. Solder the IC connection. 4. Route the jumper wire along the path of the out-away copper pattern and let it overlap the previously scraped end of the good copper pattern. Solder the overlapped area and clip off any excess jumper wire. At Other Connections Use the following technique to repair the defective copper pattern at connections other than IC Pins. This technique involves the installation of a jumper wire on the component side of the circuit board. 1 . Remove the defective copper pattern with a sharp knife. Remove at least 1/4 inch of copper, to ensure that a hazardous condition will not exist if the jumper wire opens. 2. Trace along the copper pattern from both sides of the pattern break and locate the nearest component that is directly connected to the affected copper pattern. 3. Connect insulated 20-gauge jumper wire from the lead of the nearest component on one side of the pattern break to the lead of the nearest component on the other side. Carefully crimp and solder the connections. CAUTION: Be sure the insulated jumper wire is dressed so the it does not touch components or sharp edges. - 5 - CONTROL DESCRIPTIONS All the functions can be controlled with the remote control handset. Some functions can also be adjusted with the buttons on the front panel of the set. Remote control handset Before you use the remote control handset, please install the batteries. See the next page. POWER 1 2 MULTIMEDIA TV/AV MUTE SLEEP PIP TEXT 3 4 PR - 5 6 1. POWER switches the set on from standby or off to standby. 2. MULTIMEDIA selects Component 1/2, RGB-DTV or RGB-PC modes. PR + SWAP MENU VOL INPUT PR CANCEL/EXIT OK VOL 7 PR 1 2 3 4 5 6 7 8 9 PSM 0 SSM POSITION SIZE STILL INDEX TIME REVEAL MIX MODE 8 10 I/II STOP 11 REW L IST ARC P/STILL PLAY REC FF 4. PIP BUTTONS PIP switches the sub picture on or off. PR +/selects a programme for the sub picture. SWAP alternates between main and sub picture. INPUT selects the input mode for the sub picture. SIZE adjusts the sub picture size. STILL freezes motion of the sub picture. POSITION relocates the sub picture in clockwise direction. 5. SWAP returns to the previously viewed programme. 6. MENU selects a menu. 9 M 3. MUTE switches the sound on or off. ? 7. D / E (Programme Up/Down) selects a programme or a menu item. switches the set on from standby. F / G (Volume Up/Down) adjusts the volume. adjusts menu settings. OK accepts your selection or displays the current mode. 8. NUMBER BUTTONS switches the set on from standby or directly select a number. 9. PSM (Picture Status Memory) recalls your preferred picture setting. 10. I/II selects the language during dual language broadcast. selects the sound output. 11. VCR BUTTONS control a LG video cassette recorder. - 6 - 12. TV/AV selects the remote operating mode. switches the set on from standby. 13. SLEEP sets the sleep timer. POWER 14. TELETEXT BUTTONS These buttons are used for teletext. For further details, see the ‘Teletext’ section. 15. CANCEL/EXIT Clears all on-screen displays and returns to TV viewing from any menu. MULTIMEDIA TV/AV MUTE SLEEP PIP TEXT PR - 13 14 PR + SWAP 16. SSM (Sound Status Memory) recalls your preferred sound setting. 12 MENU INPUT PR CANCEL/EXIT 15 17. LIST displays the programme table. VOL OK VOL 18. ARC (Aspect Ratio Control) changes the picture format. Note : In teletext mode, the PR +/-, SWAP and INPUT buttons are used for teletext function. PR 1 2 3 4 5 6 7 8 9 PSM 0 SSM POSITION SIZE STILL INDEX TIME REVEAL MIX MODE I/II STOP REW - 7 - M LI S T ARC P/STILL PLAY 16 ? 17 18 REC FF Front panel Lamp indicator, operation indicator, and temperature indicator, located below the front panel controls reveal the operating status of the LCD projection TV. ON/OFF TV/AV TV/AV 10 2 MENU 3 MENU OK VOL ON/OFF PR OK VOL PR 4 5 6 1. MAIN POWER (ON/OFF) switches the set on or off. 7 8 9 1 7. OPERATION INDICATOR (Refer to p.7) 8. LAMP INDICATOR (Refer to p.7) 2. TV/AV selects the remote operating mode. switches the set on from standby. 9. TEMPERATURE INDICATOR (Refer to p.7) 10. REMOTE CONTROL SENSOR 3. MENU selects a menu. 4. OK accepts your selection or displays the current mode. 5. F / G (Volume Down/Up) adjusts the volume. adjusts menu settings. 6. D / E (Programme Up/Down) selects a programme or a menu item. switches the set on from standby. Note : There might be a faint white trace on the center of the screen according to the position. This is normal and is a characteristic of the screen. - 8 - Rear panel A/V 3 S-VIDEO INPUT SOCKET AV3 INPUT SOCKET AUDIO L/MONO VIDEO S-VIDEO INPUT A/V 3 R AUDIO L/MONO R VIDEO S-VIDEO INPUT SIDE A/V SIDE A/V ANT L IN 75Ω L RGB1 PC/DTV (XGA /480p /720p /1080i) U RGB1,2 P G Y R P A O D R E T PB PR PC/DTV (XGA /480p /720p /1080i) DTV/DVD (480i/480p/720p/1080i) RGB2 ANT L IN L PC/DTV INPUT SOCKETS UPGRADE PORT This port is used to upgrade the software version and debug without changing the hardware. Be careful not to use this port. Just contact your dealer or service centre. 75Ω AERIAL SOCKET PC/DTV INPUT U P G R A D E P O R T RGB (XGA/ 576p/ 480p/ 720p/ 1080i) COMPONENT COMPONENT INPUT 1 INPUT 2 576i/480i 576p/480p 720p/ 1080i DTV/DVD INPUT SOCKETS 576i/480i 576p/480p 720p/ 1080i Y (L) AUDIO S-VIDEO PB (R) A/V 1 INPUT PR A/V 2 INPUT MONITOR OUT AV1/2 / MONITOR OUT(AUDIO/VIDEO), S-VIDEO INPUT SOCKETS AUDIO CENTER MODE IN VA A U (L) RD I I AUDIO AO B O (R) LU ET (L) AUDIO (R) (L) AUDIO MONO (R) DTV/DVD INPUT VARIABLE AUDIO OUT SOCKETS CENTER SPEAKER MODE IN SOCKETS •Status Indicators Operation Indicator Off Red Green Orange (flashing) Orange Lamp Indicator Temperature Indicator Green (flashing) Orange Red Red (flashing) Power cord is not connected. Power Cord is connected, unit is on standby. On Preparing operation in standby. Projection lamp is reaching the end of its life and needs to be replaced with a new lamp. The lamp cover is not closed. The set is overheating. The set has shut down due to overheating. The set has shut down, check the cooling fan. - 9 - SPECIFICATIONS NOTE : Specifications and others are subject to change without notice for improvement. V Scope This specification can be applied to the LCD Projection(RT-52/60SZ31RB/RP) V Model Name Market Place Remark RT-52/60SZ31RB/RP Australia - RB :Teletext China - RP :W/O Teletext Morocco option Test and Inspection Method 1) performance:Follow the Standard of LG TV test 2) Standards of Etc requirement Safety: Follow the standard of CB EMC : Follow the standard of CE V Test Condition 1) Temperature :25¡ 5°C 2) Relative Humidity:65¡ 10% 3) Power Voltage:Standard input voltage(110-240~, 50/60Hz) But Standard input voltage mark value is marked by model. 4) Use the parts only designated in B.O.M.,PARTS SPEC.,or drawings. 5) Follow each drawing or spec for spec and performance of parts,based upon P/N of B.O.M 6) Warm up TV set for more than 30min. before the measurement. V General Specification Specification No 1 Item Min Typ Max Unit Video input applicable PAL – B/G, D/K, I, M, N Only AV input signal system SECAM B/G, D/K for NTSC - 4.43 NTSC - M, 4.43 2 Remark Available Channel (1) VHF : E02 ~ E12 UHF : E21 ~ E69 CATV : S01 ~ S20 HYPER : S21 ~ S41 3 Input Voltage 110-240V~, 50H/60Hz 4 Market Non-EU 5 Screen size 52, 60 inch 6 Aspect ratio 16:9 (wide) 7 Operating Temperature 8 Operating Humidity 9 Storage Temperature 10 Storage Humidity 0 -20 - 10 - 40 deg 85 % 60 deg 85 % V Feature and Function Specification No Item Min Typ Max 1. REMOCON LG Code 2. RGB Input 1 3. RGB Audio (L, R) Input 1 4. Center Speaker Mode Input 1 5. Component Audio (R, L) Input 2 L/R 6. Component Input 2 Y, PB, PR 7. AV Input 3 (1 Side / 2Rear) 8. S-Video Input 2 (1 Side / 1Rear) 9. Monitor out 1 1Rear 10. Variable Audio out 1 11. Serial Port 1 12. Local key Power, Menu, ok, Volume (F, G) Remark Unit Separate D-Sub 15 Pin RS-232C Channel (D, E) 13. Picture, EZ Video mode Dynamic/ Standard/ Mild/ Game/ User 14. Picture, User Control Contrast/ Brightness/ Colour/ Sharpness/ Tint 15. Display mode DTV & PC : 16:9/ 4:3/ Zoom/ Auto CVBS : 4:3/ 16:9/ Zoom/ Auto V 16. Sound, EZ Sound mode Dolby Virtual/ Flat/ Music/ Movie/ Speech 17 Sound Stereo/ Dual A2 : B/ G, D/ K, NICAM : B/ G, D/ K, I, L/ L’ 18 PIP/ POP Mode O 19 SSC (Split Screen) Mode O 20 Teletext FLOP, LIST 128Page 21 Timer Sleep Timer/ Auto Sleep 22 OSD Language Difference by PR Power Specification No Remark Item Min 1 Power ON/OFF operation 2 Typ Max Unit 10000 times Staring Voltage (AC INPUT) -20 % At Room Temperature 3 Staring Voltage (AC INPUT) -15 % At -10 °C 4 DC Voltage, Ballast 360 380 400 V 5 DC Voltage, Audio AMP 28 32 36 V 6 DC Voltage, 3.3V, stand-by 3.15 3.3 3.45 V 7 DC Voltage, Analog 3.3V 3.15 3.3 3.45 V 8 DC Voltage, Analog 2.5V 2.438 2.5 2.600 V - 11 - Specification No Remark Item Min V Typ Max Unit 9 DC Voltage, Digital, 5V 2.4 2.5 2.6 V 10 DC Voltage, Turning voltage 3.2 3.3 3.4 V 11 DC Voltage, LCD Driver, 5V 4.8 5.0 5.2 V 12 DC Voltage, LCD Driver, 17.5V 11.5 12 12.5 V 13 DC Voltage 3.3, SUB MICOM 30 32 33 V 14 DC Voltage 2.5V, SUB MICOM 4.8 5 5.2 V 15 DC Voltage, FAN 11.5 12 12.5 V External Interface Specification No Remark Item Min Typ Max Unit 0.85 1 1.15 Vpp 1. Video Input Level 2. Video Input Frequency Response 3 MHz 3. Video output S/N 40 dB 4. S-Video Input Level (Y) 0.85 1 1.15 Vpp 5. S-Video Input Level (C-Burst) 0.256 0.286 0.316 Vpp 6. Component Video Input Level 0.6 0.7 0.8 Vpp (480I/P, 576I, 720P, 1080I) (Y, CB / PB, CR / PR) V 75 ohm 7. R/G/B Video Input Level 0.6 8. Audio Input S/N 40 9. Audio Input Distortion 10. Audio Input Dynamic Range 11. Audio Input Level 0.47 12. Audio Input Frequency Response 0.05 0.7 0.8 Vpp 75 ohm dB % 2 V 2 0.5 0.6 Vrms 10 kHz PAL Component Video Input (Y, PB, PR) Specification Proposed No Resolution H-freq(kHz) V-freq(Hz) Pixel clock 1. 640x480 15.75 60 SDTV, DVD 480I 2. 640x480 15.73 59.94 SDTV, DVD 480I 3. 704x480 31.47 59.94 EDTV 480P 4. 720x576 15.625 50 SDTV, DVD 576I 5. 720x576 31.250 50 EDRV 576P 6. 1280x720 45.00 60.00 HDTV 720P (60Hz) 7. 1280x720 37.50 50 HDTV 720P (50Hz) 8. 1920x1080 33.75 60.00 HDTV 1080I (60Hz) 9. 1920x1080 28.125 50 HDTV 1080I (50Hz) - 12 - V Option Specification No Item Remark Min Typ 1. Volume Curve 1 2. Text Top 1 3. I_II SVC 1 4. Lamp_Type 1 5. C_Mute 1 6. system 2 7 Osd Language 8. Text Language Max Unit 0 : Standard 1 : Non-Standard (Southeast Asia,Central America) 0 : Support FLOP 1 : Support All (FLOP + TOP) 0 : Do not save DUAL When converting Channel 1 : Save DUAL when Converting Channel 0 : OSRAM 1 : PHILIPS 0 : Not Ready to Over-Modulation in DK Mono 1 : Ready to Over-Modulation in DK Mono 0 : BG / I /D 1 : BG / La 2 : BG / I DK / M 0 : west EU 1 : East EU 1 2 : East EU 2 3 : Turkey EU 4 : Cyrillic 1 0 : west EU 1 : East EU 1 2 : East EU 2 3 : Turkey EU 4 : Cyrillic 1 5 : Cyrillic 2 6 : Cyrillic 3 7 : Turk GRE 1 8 : Turk GRE 2 9 : Turk GRE 3 10 : Arab FRA 11 : Arab ENG 12 : Arab HEB 1 13 : Arab HEB 2 14 : FARS ENG 15 : FARS FRA 16 : FARS All 0(ENG ONLY) - 13 - ADJUSTMENT INSTRUCTIONS 1. Application Object 4. LCD adjustment This instruction is for the application to the LCD Projection 4-1. NRS adjustment [When the LCD panel load data on regular pixel using high speed charge/ discharge with sample & holder, the drain width of TFT gradually decreases and the non-resistance increases, and comes out regular noise on screen (shows vertical line by 12 pixel] 2. Notes (1) The power source insulation of this LCD Projection is not charging type and you may not use the transformer for insulation. But you’d better adjust the set after operating it with insulation transformer between power supply cable and input part of the set for protecting the adjusting equipment. (2) The adjustment must be performed under the correct sequence. (3) The adjustment must be performed in the circumstance of 25+/-5°C of temperature and 65¡ 10% of relative humidity if there is no specific designation. (4) The input voltage of the receiver must keep 230V, 50Hz in adjusting. (5) The set must be operated for 5 minutes preliminarily before adjustment if there is no specific designation. The preliminary operation must be performed after receiving 100% white pattern,but reception of the moving picture may also be possible in unavoidable case. 3. Composition of Adjustment Mode (1) All adjustment mode are entered by pressing the ADJ key on the remote control,after adjustment press the ADJ key to come out. (2) Below picture is screen composition when press the first ADJ key. (3) Select menu to adjust with using (CH+(D),CH-(E)) key above screen and press Volume+(G)key to adjust on the wanting menu. RT52SZ30RB [V*.*] RGB Alignment 62352 Uniformity Adj Gamma Adjust AD9883 Adjust (1) Required Test Equipment 1) PC Pattern generator; 16 Gray Pattern 2) Fixation stand 3) Remote control of adjustment 4) Circuit thing Jig for adjustment (Except Driver Board Assy) (2) Equipment composition : Refer to(3) Preparation for Adjustment 1) Connect PC PATTERN GENERATOR to JIG SET as shown .(Except drive part of a circuit block) 2) Select 16 Gray pattern of PC PATTERN GENERATOR (4) Adjustment Sequence 1) Turn on power supply in the JIG for adjustment. 2) Press the INPUT key to select RGB_PC mode. 3) Press the ADJ key on remote control for adjustment to enter the adjustment mode. 4) Select the ‘62352’ and press the G key. Then select 6. RNRSH, 9.GNRSH, 11.BNRSH of ADJUST MODE to adjust. 5) Let’s decrease vertical line Noise by using Volume button. (Input a R, G, B input signal, then adjust it individually) 6) When finishing the adjustment, get out of adjustment mode by pressing Adjust key. 4-2. VCOM ADJUSTMENT (1) Required Test Equipment 1) PC PATTERN GENERATOR ; Pattern Generator which can generator each R, G, B signal and can observe the FLICKER best (ex : me Character Pattern) 2) Equipment composition 3) Remote control 4) Circuit thing Jig for Adjustment (Except Driver Board Assy of adjustment model) Sub Micom Ver. ** Main Micom Ver. ** (4) Adjust the value of adjustment with using the volume +(F),volume -(G) key. (5) Press the ADJ key to come out after adjustment. (6) ex.) Composition of each adjustment mode. (2) Equipment Composition Optical measuring equipment RGB Alignment 9.DXOUTB 10.H_position Adjustment Jig D F Screen 0 G Optical box E Circuit for Adjustment PC 1). RGB Alignment:This is the sub adjustment item by selected Adjust key. 2) F, G (Vol +/ -): This is the key to change the data. 3) D, E (CH +/ -):This is the key to change the sub menu. - 14 - Set stand PC Pattern Generator Optical measuring equipment TV Set Adjustment Jig Connector for Adjustment RS-232C Cable PC PC Pattern Generator (3)Preparation for Adjustment 1) Connect the PC PATTERN GENERATOR, circuit for adjustment and adjustment JIG as shown . 2) Adjust output pattern of PC PATTERN GENERATOR to possible display and then turn on the power. (4) Adjustment Sequence 1) Turn on the adjustment Jig 2) Select RGB_PC by pressing input Select Key on Remote control. 3) Enter to adjustment mode by pressing Adjust key on Remote control. 4) Select the ‘62352’, then ready to adjust 4. RVCOM, 7. GVCOM, 10.BVCOM 5) Let’s decrease flicker by using Volume key (Input a R, G, B input signal, then adjust it individually) 6) When finishing the adjustment, get out of adjustment mode by pressing Adjust key. 5. CPLD Download Work (1) Required Test Equipment & Preparation for Adjustment 1) Connect the PC and memory JIG as shown . 2) Turn on JIG MAIN POWER SW. 3) After turn on the PC and monitor, operate the device programming. 6.Assembling Adjustment 6-1. Screen Tilt & Keystone Adjustment (1) Required Test Equipment 1) Six angles wrench and spanner for knob adjustment or fixation 2) Remote control (2) Preparation for Adjustment 1) Do not assemble the front panel equipment so that you can adjust the adjustment knob of 2) Turn on TV and press EYE key on remote control. 3) 11th screen - Select the pattern of small white squares, diagonal and a big red square. (3) Adjustment Sequence 1) Stick the Engine of to the knob poll for adjustment and check the key stone & tilt watching TV screen. 2) Rotate left/right adjustment knob bellow and adjust engine angle. 3) Adjust the adjustment knob of both sides so that the tilt and keystone are to be under the spec.(The gap between max and min : under 4mm) 4) After adjusting like 3), fix the engine with the screw for (2) Adjustment Sequence 1) After program running, displayed [OPTION MODE SELECTION] window. Check the “Load configuration File(.cdf, .pdr)” in this window and click the finish button 2) When the screen displays the open window, select the suitable file(*.cdf) according to model. 3) IC figure is change to green by clicking it. 4) Select the program of operations. 5) Check the [Erase before programming] and [Verify] menu as shown and press the OK button. f) At this time, the download starts. The download finished after 10 seconds. - 15 - fixation.(2EA. adjustment knob and engine fixing screw) 6-2. Screen Position Adjustment (1) Required Test Equipment A remote control of adjustment (2) Preparation for Adjustment 1) Turn on TV and press the EYE key on service remote. 2) Display pattern as same as screen tilt & keystone adjustment. (3) Adjustment Sequence 1) Adjust the horizontal position as change the data to symmetrized Left/Right of above pattern using the VOL+(G) VOL-(F) key on the service remote. 2) Adjust the horizontal position as change the data to symmetrized Up/Down of above pattern using the CH+(D) CH-(E) key on the service remote. 3) After finishing the adjustment, receive the PAL-B/G Digital pattern (EU-05CH) to check the status of adjustment. (3) Offset Adjustment 1) Press Adjust key on the remote control to enter the adjustment mode after more than 10 seconds of receiving the signals. 2) Press “4.AD9883 Adjust” to adjust. 3) When the OSD of “AD9883 Adjust End” appeared and disappears,The adjustment is completed (4) Component & RGB Mode White Balance passivity adjustment 1) After inputting the 16 Gray pattern (RGB or Component), check the White Balance status of Low Level (2-6 Gray Level). 2) After Pressing the IN-START key of remote control, select the AD9883 and press the G key. - Red Offset, Blue Offset is able to adjust. 3) After selecting the adjustment mode with the channel key, adjust Red Offset, Blue Offset value with the volume key to adjust passively white Balance in Low Level. adjustment limit : Red Offset - +/-2 step Blue Offset - +/-4step 6-4. White Balance & Gamma Adjustment (1) Required Test Equipment 1) CA100 : 1EA -> Measure colour of projecting screen center [CA-110(name of model) is possible to measure White Balance and Gamma - leave it 20Cm from screen center Follow a measurement machine manual to set CA -100 and CA - 110 measurement machine.] 2) pattern Generator : 1EA -> 16 step Gray Pattern, 64 step Gray Pattern 3) SET Fixation Stand : 1EA 4) Remote control : 1EA 5) Circuit thing Jig for adjustment (Except Drive Board Assy of adjustment model) --- Programmed Digital Board so that the VDP Test Pattern can output white signal by 1 level from 0 to 255 level. (2) Equipment composition : Follow Adjust at same condition of equipment composition diagram. [EU 05 CH] (3) Preparation for Adjustment Compose the equipment follow Fig.2 and place the set on the fixation stand. 1) Select the VDP Test Pattern signal to R1, G1, B1. 2) Press the Adjust key to select 62352 and then select RVREF, GVREF, BVREF in adjust mode 3) Adjust the luminance of CA100 to be below 0.75Cd by volume key.(Range : 196~ 202) 4) Exit adjustment mode by pressing Adjust key. 5) Press the IN-START key on the remote control and select the 7050 RGB Set of adjustment mode and then press the G key. 6) Check the data value of R contrast, G contrast, B contrast is 515, Otherwise set the data 515 by using volume key. 6-3. Component Offset Adjustment (1) Required Test Equipment : A remote control for adjustment, 801GF (2) Preparation for Adjustment 1) Connect a power source with TV Set and turn TV set on. 2) Do Heat-Run for 15 minutes and over before adjustment. 3) Receive the Component 1 or 2. 4) Receive the 720P, HozTVBar Pattern of 801GF(Fig 7). (4) Adjustment Sequence 1) Output 255,255,255 signal of VDP TEST PATTERN, then display maximum WHITE PATTERN on screen. 2) Gamma Adjust Mode is display as below when select Gamma adjust by pressing ADJ key on remote control. - 16 - 4) Circuit thing Jig for Adjustment (Except Driver Board Assy of adjustment model) --- Programmed Digital Board so that the VDP Test Pattern can output white signal by 1level form 0 to 255 level. Gamma Adjust R:1 G:2 B:3 80 100 100 234 216 216 453 411 387 --------------------------------------------------724 690 780 * First column : R adjustment data display * Second column : G adjustment data display (2) Equipment composition Compose the equipment as Fig.2 * Third column : B adjustment data display 3) Change the 16 Step RGB data to select white balance x:283, y:294. * When white balance x:283, y:294 in VDP PATTERN, picture signal is set to x:283, y:297, in as a matter of fact. 4) Measure the luminance with changed data. 5) Set the every Gamma data of 16 step to 2.5 on the basis of measured luminance data in 3). (Max luminance *(n1/16)**2.5 --- Max luminance : measured luminance data n1= every step unit when separating signal level to 16 step) 6) Output the 240, 240, 240 (15th data in max white output signal level) in the VDP Test Pattern, change the 15th RGB data value to come out white valance x=283, y=294 and measured step luminance in 5). 7) Output the 240, 240, 240 (14th data in max white output signal level) in the VDP Test Pattern, change the 14th RGB data value to come out white valance x=283, y=294 and measured step luminance in 5). 8) As shown above, output the VDP Test Pattern signal (208/192/176/160/144/128/112/96/80/64/48/32/16) and change the RGB data value of each step to come out white balance x=283, y=294 and measured luminance in 3). (3) Preparation for Adjustment 1) Composite the equipment as shown Fig.2, and place the set on fixation stand. 2) After inputting company channel 13, adjust colour uniformity like Horizontal/ Vertical position adjustment of input signal part adjustment by using remote control for adjustment. 3) After pressing IN_START key on remote control for adjustment, select the adjustment mode 7050 Uniformity. 1. RamCtrl : s/w saving uniformity write order (Do not adjust) 2. CSHP : Horizontal start point designation --- adjustable 3. CSVP : Vertical start point designation --- adjustable 4. CEHP : Horizontal END point designation --- adjustable 5. CEVP : Vertical END point 6.designation --- adjustable 6. Mode : uniformity mode select --- adjustable if need *** 0 : 221point & 3level ---- default value *** 1 : 221point & 4level *** 2 : 825point & 3level *** 3 : 825point & 4level 7. KHH : Upper 2byte of horizontal line correction coefficient -Change according to CSHP, CEHP value. 8. KHL : Upper 2byte of vertical line correction coefficient -Change according to CSHP, CEHP value. (5) Sequence of Gamma manually adjustment This is adjustment (after finish the 3-4) to check whether Gamma/ White balance adjustment are well adjusted and make correction manually. 1) Prepare the PC Pattern Generator which is possible to output R/G/B of 16 step Gray Pattern. 2) Equipment composition : Follow . 3) Turn on the Jig for adjustment. 4) Select the RGB_PC by pressing the input select button on Remote Control. 5) Output the 16 Gray Pattern in PC Pattern Generator. Check it with the naked eye whether Screen Gamma and White balance is right about each Gray. If it’s not, press the ADJ button on Remote Control and then adjust the level data of each step manually.in “Gamma adjust”. 6) Output the 64 Gray Pattern in PC Pattern Generator. Check it with the naked eye whether Screen Gamma and White balance is right about each Gray or whether there is Gamma noise. If there’s any problem, adjust in 5) 7) After finishing adjustment, exit adjustment mode by using ADJ button on Remote Control. ** How to calculate KHH, KHL value LCD panel size = 1280 x 720 Correction Point = 221 point --> 17 horizontal points x 13 vertical points (16 horizontal segments x 12 vertical points) O H Coefficient(KHH, KHL) --> Calculation method (CEHP-CSHP=1280, Horizontal segment value =16) H coefficient = 1/(number of pixel intervals between setting in the horizontal direction) Hcoeff = 1/((1280/16)-1) = 0.012658227 hex (0.012658227 x 216) = 0 x 033D, Hcoeff (hex) = 0 x 033D + 1 = 0 x 33E 9. KVH : Upper 2byte of vertical line correction coefficient -- Change according to CSVP, CEVP value. 10. KVL : Upper 2byte of vertical line correction coefficient -- Change according to CSVP, CEVP value. O V Coefficient(KVH, KVL) Calculation method (CEVP-CSVP=720, Vertical segment value =12) V coefficient = 1/(number of pixel intervals between setting in the vertical direction) 6-5. White Uniformity Adjustment (1) Required Test Equipment Vcoeff = 1/((720/12)-1) = 0.016949152 1) Uniformity measuring equipment : Equipment which can measure chromaticity in the whole screen 2) Set stand : 1EA 3) Remote controller for adjustment : 1EA - 17 - hex (0.016949152 x 216) = 0 x 0456, Vcoeff (hex) = 0 x 0456 + 1 = 0 x 0457 11. RL1H : Upper 9bit of MID2 brightness correction coefficient in R MIN. --- Change according to RMIN and RMID2 value. 12. RL1L : Lower 9bit of MID2 brightness correction coefficient in R MIN. --- Change according to RMIN and RMID2 value. 13. RL2H : Upper 9bit of MID1 brightness correction coefficient in R MID2. --- Change according to RMID2 and RMID1 value. 14. RL2L : Lower 9bit of MID1 brightness correction coefficient in R MID2. --- Change according to RMID2 and RMID1 value. 15. RL3H : Upper 9bit of MAX brightness correction coefficient in R MID1. --- Change according to RMID1 and RMAX value. (use it while adjusting 4 coefficient) 16. RL3L : Lower 9bit of MAX brightness correction coefficient in R MID1. --- Change according to RMID1 and RMAX value. (use it while adjusting 4 coefficient) --- Change according to BMIN and BMID2 value. 25. BL2H : Upper 9bit of MID1 brightness correction coefficient in B MID2. --- Change according to BMID2 and BMID1 value. 26. BL2L : Lower 9bit of MID1 brightness correction coefficient in B MID2. --- Change according to BMID2 and BMID1 value. 27. BL3H : Upper 9bit of MAX brightness correction coefficient in B MID1. --- Change according to BMID1 and BMAX value. (use it while adjusting 4 coefficient) 28. BL3L : Lower 9bit of MAX brightness correction coefficient in B MID1. --- Change according to BMID1 and BMAX value. (use it while adjusting 4 coefficient) 29. RLMIN : Setting up the MINIUM Level of R --- Set under 200 30. RLMID2 : Setting up the MIDDLE 2nd Level of R ---Middle level when 3coefficient 31. RLMID1 : Setting up the MIDDLE 1st Level of R --- Max level when 3coefficient 32. RLMAX : Setting up the MAX Level of R 33. GLMIN : Setting up the MINIUM Level of G --- Set under 200 34. GLMID2 : Setting up the MIDDLE 2nd Level of G ---Middle level when 3coefficient 35. GLMID1 : Setting up the MIDDLE 1st Level of G --- Max level when 3coefficient 36. GLMAX : Setting up the MAX Level of G 37. BLMIN : Setting up the MINIUM Level of B --- Set under 200 38. BLMID2 : Setting up the MIDDLE 2nd Level of B --- Middle level when 3coefficient 39. BLMID1 : Setting up the MIDDLE 1st Level of B --- Max level when 3coefficient 40. BLMAX : Setting up the MAX Level of B 41. HVSCAN : Setting up the scan direction while adjusting uniformity - Do not adjust 42. Test Mode : uniformity adjustment test - Do not adjust Using 3coefficient Level Assume that the value of R/G/B MIN, MID2,MID1 is 192, 448, 704. R/G/B MIN = 192 R/G/B MID2 = 448 R/G/B MID1 = 704 O L Coefficient(RL1H~BL3L) --> Calculation method (L1) L1 coefficient = 1/(brightness level(MID2) - brightness level(MIN)) L1 coeff = 1/(448 - 192) = 1 / 256 =0.00390625 L1 coeff(hex) =hex(0.00393625 x 218) =0 x 0400 -> L1H(high 9bit) = b’000000010 L1L(low 9bit) = b’000000000 - calculate L2, L3 same with L1 L2 coefficient =1/(brightness level(MID1) - brightness level(MID2) L3 coefficient = 1/(brightness level(MAX) - brightness level(MID1) : case of 4 brightness Level 17. GL1H : Upper 9bit of MID2 brightness correction coefficient in G MIN. --- Change according to GMIN and GMID2 value. 18. GL1L : Lower 9bit of MID2 brightness correction coefficient in G MIN. --- Change according to GMIN and GMID2 value. 19. GL2H : Upper 9bit of MID1 brightness correction coefficient in G MID2. --- Change according to GMID2 and GMID1 value. 20. GL2L : Lower 9bit of MID1 brightness correction coefficient in G MID2. --- Change according to GMID2 and GMID1 value. 21. GL3H : Upper 9bit of MAX brightness correction coefficient in G MID1. --- Change according to GMID1 and GMAX value. (use it while adjusting 4 coefficient) 22. GL3L : Lower 9bit of MAX brightness correction coefficient in G MID1. --- Change according to GMID1 and GMAX value. (use it while adjusting 4 coefficient) 23. BL1H : Upper 9bit of MID2 brightness correction coefficient in B MIN. --- Change according to BMIN and BMID2 value. 24. BL1L : Lower 9bit of MID2 brightness correction coefficient in B MIN. (4) Adjustment Sequence 1) Adjust the screen coordinates as shown below. - 18 - 0 1 2 3 ............xx..........15 16 1 . yy . 11 12 2) Output the VDP TEST PATTERN signal correspond to the Max value. Read the white coordinates and communicate 3 line with ET7050 IC through measurement equipment of optics. Adjust screen coordinates data to adjust the color uniformity of max point. At this time, make sure that deviation is +5~-5% and standard is color coordinate of center. 3) Output the VDP TEST PATTERN signal correspond to the MID value. Read the white coordinates and communicate 3 line with ET7050 IC through measurement equipment of optics. Adjust screen coordinates data to adjust the color uniformity of mid point. At this time, make sure that deviation is +5~-5% and standard is color coordinate of center. 4) Output the VDP TEST PATTERN signal correspond to the MIN value. Read the white coordinate and communicate with ET7050 IC through measurement equipment of optics. Adjust screen coordinates data to adjust the color uniformity of miner point. At this time, make sure that deviation is +5~-5% and standard is color coordinate of center. 5) Write the miner, middle, maximum data for each point to confront to each MICOM address. 6-6. Brightness Adjustment of Main/Sub screen Operate this adjustment when the brightness of Main/Sub screen is different. (1) Receive RF 06Ch. to Main/Sub screen in twin picture. (2) Let the screen clearly. (3) Check the “US06CH” with naked eyes in 06Ch. pattern and if there is difference, adjust like this. - The field and the letters are distinguished. 1) Adjusting Main screen ¤ Press the “IN Start” key on service remote to select VPC3230_Main. ¤Ł Adjust to Luma Contrast of adjustment item with Volume key. 2) Adjusting Sub screen ¤ Press the “IN Start” key on service remote to select 2. VPC3230_Sub. ¤Ł Adjust to Luma Contrast of adjustment item with Volume key. 6-7. Lamp Replace Use it when the Lamp time is ‘0’. At the same time press the ‘OK’ key and ‘Mute’ key during 5 seconds. Displaying the OSD as , press the Volume +(G) Displaying the OSD as , press the ‘OK’ key to reset the lamp use time. Press the IN-START key on service remote to select Lamp replace and adjust with volume key. - 19 - - 20 - TV_S(V) S_V/Y,C SDA5550 Tuner/AV CXA2151 CX2069 Tuner(Sub) MNT_OUT(V) AV3 (V,Y,C)) AV2(V,Y,C) AV1(V) 3 3 R/G/B DTV_HS/VS Tuner(Main) COMP2 COMP1 5 RGB_PC RGB_DTV Component Board TXT_R,G,B M_V,Y,C 3 SC-R,G,B TXT_Y, Cb,Cr SC-R,G,B Switching LPF * H : 30MHz, L: 6MHz LPF_CTL2 CXA2119 TXT_FB 3 YCbCr(HD) Main Board VPC3230_M (IC104) VPC3230_S (IC102) AD9883A (ADC) Digital Board D_Y,Cb,Cr 16 D_Y,Cb,Cr CH-B ReaeyII CH_A BLOCK DIAGRAM 1. Video Input Path Comp_Y S-V RGB_HS/VS(DTV) RGB_HS/VS(PC) AV -VS AV -HS - 21 Tuner/AV SDA5550 CXA2151 Comp/RGB-DTV HS/VS 74HC4053 * H:Comp/RGB-DTV CTL -A L: RGB-PC Component Board TXT-HS/VS Main Board S-V/Y M-Y M-V 74VHC123 V_sync R,C LPF VPC3230_M (IC104) VPC3230_S (IC102) ADC9883 HS/VS_ADC XC95144XL (CPLD) Digital Board HS/VS_VDP_S CH-B FID_VDP_S ReaeyII CH_A HS/VS_VDP_M FID_VDP_M 2. Syns I/O Path - 22 - CTR(Center)-IN L/R -PC L/R -COM1 L/R -COM2 L /R3 L/R2 L/R1 L/R -out CXA2069 Tuner & AV Component Main -L/R L/R-TV KA4558D MSP3411G SIF Tuner(M) L/R -Var Main-R/Lout Audio Mute LA4282 MAIN 2003.04.30 3. Audio Input Path - 23 - IIC1-3.3 L/S IIC0-5 IIC3-5 IIC0-5 COM/PC IIC3-3.3 CXA2151 CXA2069 MSP3411G Tuner(ºÎ ) Tuner(ÁÖ) ATC24C16 SDA5550 IIC3-3.3 Tuner & AV IIC0-3.3 IIC1-3.3 L/S 2.5 ; 2.5V 3.3 ; 3.3V In IICn-M, What is M IIC1-5 5; 5V Voltage Level IIC2-5 IIC1-5 IIC0-3.3 IIC0 : General Control (Signal & Control) IIC1 : Communication Btwn V3 and SDA550 IIC2 :Communication Btwn V3 and M37272 IIC3 : Key Board & LED Control IICX: Driver Control & Driving Bias Generator & Line for adjustment ( SCLK/SDATA) PURPOSE OF IIC Main IIC3-5 L/S IIC0-5 Digital M62320 M360V3 24LC256 THC63D164 LGDT1502 VPC3230(S) VPC3230(M) AD9883A M62320 SCLK SDATA IIC2 -5 Key & IR M62352 L3E07050 M37272 IIC2-5 ATC24C256 Driver 4. Control Signal Connection Diagram- IIC 5. General Control Signal - 24 - PRINTED CIRCUIT BOARD MAIN (TOP) - 25 - MAIN (BOTTOM) - 26 - COMPONENT (TOP) COMPONENT (BOTTOM) SIDE A/V PRE-AMP AC INPUT LED - 27 - LCD DRIVER (TOP) CONTROL - 28 - LCD DRIVER (BOTTOM) - 29 - DIGITAL (TOP) DIGITAL (BOTTOM) - 30 - TUNER (TOP) TUNER (BOTTOM) - 31 - SMPS POWER S/W INTERFACE BALLAST - 32 - MEMO - 33 - 305 - 34 - 306 301 121 660 302 650 640 120 304 310 122 630 300 308 123 590 600 670 430 124 612 680 620 611 610 621 125 303 580 570 174 520 501 540 307 690 530 560 550 502 503 410 420 401 EXPLODED VIEW(52”) EXPLODED VIEW PARTS LIST No. Part No. Description 120 120-D38E SPEAKER,MID-RANGE LG FOSTER 8 OHM 15/25W 87DB 128X77MM 121 6400VG0001B SPEAKER,TWEETER NO FOSTER 8 OHM 20W/30W XX D77 122 3110V00123A CASE, SPEAKER BOX LEFT 123 3550V00159A COVER, SPEAKER BOX LEFT 124 3110V00124A CASE, SPEAKER BOX RIGHT 125 3550V00160A COVER, SPEAKER BOX RIGHT 174 174-322E POWER CORD, POWER W/FILTER L=400(179B) 300 3091V00B46B CABINET ASSEMBLY, RT-52SZ30RP STEREO MB03CA . 301 4980V00591A SUPPORTER, SCREEN SBHG ,BOTTOM 302 4980V00592B SUPPORTER, SCREEN SECC RN-52SZ30H 303 3211V00080A FRAME ASSEMBLY, FRONT RN-52SZ10H 3210V00104 304 3211V00081N FRAME ASSEMBLY, ASSY RL-52SZ30RB BASE LOWER 305 3350V00019B SCREEN, TOPPAN NON RN-52SZ30H 1178*670 SAME 19A PITCH 306 4811V00035A BRACKET ASSEMBLY, GRILLE . NB02QA . 307 4980V00439B SUPPORTER, FRAME ET CENTER FIX RN-52SZ10H 308 3550V00225A COVER, LENS PC+ABS RN-52SZ10H 310 5020V00654C BUTTON, CONTROL RN-52SZ30H ABS, HF-380 7KEY BUTTON 401 3550V00232B COVER, LAMP RN-52SZ30H PC-ABS 410 3809V00A39E BACK COVER ASSEMBLY, RT-52SZ30RP NON UPPER 420 3809V00A41E BACK COVER ASSEMBLY, RU-52SZ30 NON LOWER 430 5018V00025B MIRROR, ASSY NONE NONE NONE RN-52SZ10H 501 3210V00127A FRAME, RN-52SZ10H CHASSIS DIGITAL 502 3210V00073B FRAME, RU-60SZ10 CHASSIS(SMPS) AB-00EA 503 4811V00021E BRACKET ASSEMBLY, REAR AV RT-52SZ30RP NB03JA 520 6871VMMP50D PWB(PCB) ASSEMBLY,MAIN MB-03CB RT-52SZ31RB 530 6871VPMA14C PWB(PCB) ASSEMBLY,POWER SMPS MB-03CB M/I 540 6871VSMU54E PWB(PCB) ASSEMBLY,SUB TUNER MB03CB M/I 550 6871VSMU56D PWB(PCB) ASSEMBLY,SUB DIGITAL MB03CB M/I FOR NON-EU 560 6871VSMU55C PWB(PCB) ASSEMBLY,SUB MB03CB M/I COMPO 570 6871VPMA15D PWB(PCB) ASSEMBLY,POWER SMPS MB-03CB M/I AC INPUT 580 6871VSMB13F PWB(PCB) ASSEMBLY,SUB INTER MB03CA BALLAST 590 6871VSN154E PWB(PCB) ASSEMBLY,MAIN SUB NB-03JA MAIN POWER SWITCH 600 3141VSNA61B CHASSIS ASSEMBLY SUB NB02QA BRACK OPTICAL 610 3110V00140A CASE, ASSY,LAMP RN-60SZ10 611 6912V00006A LAMP,HIGH PRESSURE MECURY UHP100W 1.3 PHILIPS 100V 1A RN60SZ10 612 4930V00230A HOLDER, DUCT BACK FAN PC+ABS RN-52SZ10H 620 5900V09002C FAN,DC G9225L12B2-FL DONGYANG 92MM 12V140MA 2000RPM 99GM MOTOR 621 3300V00156A PLATE, DUCT,FAN SECC 630 6871VSN156D PWB(PCB) ASSEMBLY,MAIN SUB NB03JA PRE-AMP RU-52SZ30 640 6871VSMD03E PWB(PCB) ASSEMBLY,SUB CONT NB03JA RN-52SZ30H 650 6871VSN194A PWB(PCB) ASSEMBLY,SUB INTER NB02QA 52 LCD PJTV 660 6871VSN187B PWB(PCB) ASSEMBLY,SUB LED NB-02QA RN-52SZ10H M/I 670 6871VSMV06A PWB(PCB) ASSEMBLY,SUB SUB MB03CA RT-52SZ30RP DRIVER M/I 680 6913V00002A BALLAST, EUC-100L/100V PHILIPS FOR LAMP(UHP100W) 690 6871VSN155B PWB(PCB) ASSEMBLY,MAIN SUB NB-02QA SIDE A/V - 35 - - 36 - 307 306 305 301 121 501 520 120 660 630 304 650 310 540 302 640 300 122 560 123 308 550 503 590 600 430 124 680 612 670 620 570 174 580 610 611 621 125 303 530 690 309 502 420 410 401 EXPLODED VIEW(60”) EXPLODED VIEW PARTS LIST No. Part No. Description 120 120-D38E SPEAKER,MID-RANGE LG FOSTER 8 OHM 15/25W 87DB 128X77MM 121 6400VG0001B SPEAKER,TWEETER NO FOSTER 8 OHM 20W/30W XX D77 122 3110V00123A CASE, SPEAKER BOX LEFT 123 3550V00159A COVER, SPEAKER BOX LEFT 124 3110V00124A CASE, SPEAKER BOX RIGHT 125 3550V00160A COVER, SPEAKER BOX RIGHT 174 174-322E POWER CORD, POWER W/FILTER L=400(179B) 300 3091V00468G CABINET ASSEMBLY, RT-60SZ31RB NON MB03CB (NON EU) 301 3210V00150A FRAME, FRONT UPPER AL ,RN-60SZ30H . 302 3210V00152A FRAME, FRONT SIDE AL ,RN-60SZ30H . 303 3211V00047B FRAME ASSEMBLY, FRONT RU-60SZ10 3210V00074B 304 3211V00048J FRAME ASSEMBLY, FRONT LOWER ,RN-60SZ30H . 305 3351V00001A SCREEN ASSEMBLY, TOPPAN NON RN-60SZ10H 1358*776*4.1 GAIN 4.7 306 3210V00186C FRAME, FRONT LOWER AL ,RU-60SZ30 ,LG 307 4811V00032F BRACKET ASSEMBLY, SPEAKER RT-60SZ31RB MB03CB 308 3550V00155B COVER, LENS RN-60SZ10H 309 4980V00257B SUPPORTER, FRAME SECC BASE CENTER RN-60SZ10H 310 5020V00654C BUTTON, CONTROL RN-52SZ30H ABS, HF-380 7KEY BUTTON 401 3550V00188C COVER, ASSY RN-60SZ30H PC-ABS ,7227V000056 410 3809V00246K BACK COVER ASSEMBLY, RT-60SZ31RB NON (NON EU) 420 3809V00247E BACK COVER ASSEMBLY, WLP-60M10DW NON . 430 5018V00025C MIRROR, ASSY NONE NONE NONE RT-60SZ10 501 3210V00127A FRAME, RN-52SZ10H CHASSIS DIGITAL . . 502 3210V00073B FRAME, RU-60SZ10 CHASSIS(SMPS) AB-00EA . 503 4811V00080A BRACKET ASSEMBLY, BOARD RT-60SZ30RP MB03CA REAL AV 520 6871VMMP50F PWB(PCB) ASSEMBLY,MAIN MB-03CB BOTTOM M/I 530 6871VPMA14D PWB(PCB) ASSEMBLY,POWER SMPS MB-03CB M/I RT-60SZ31RB 540 6871VSMU54G PWB(PCB) ASSEMBLY,SUB TUNER MB03CB M/I 550 6871VSMU56F PWB(PCB) ASSEMBLY,SUB DIGITAL MB03CB DIGITAL M/I 560 6871VSMU55D PWB(PCB) ASSEMBLY,SUB MB03CB COMPO M/I 570 6871VPMA15E PWB(PCB) ASSEMBLY,POWER SMPS MB-03CB AC INPUT 580 6871VSMB13F PWB(PCB) ASSEMBLY,SUB INTER MB03CA BALLAST 590 6871VSN154E PWB(PCB) ASSEMBLY,MAIN SUB NB-03JA MAIN POWER SWITCH 600 3141VSN180E CHASSIS ASSEMBLY SUB NB02QA BRACK OPTIC ENGINE RN-60SZ30H 610 3110V00140A CASE ASSY,LAMP RN-60SZ10 . . 611 6912V00006A LAMP,HIGH PRESSURE MECURY UHP100W 1.3 PHILIPS 100V 1A RN60SZ10 612 3110V00125A CASE, LAMP HEAT FLOW 620 5900V09002C FAN,DC G9225L12B2-FL DONGYANG 92MM 12V140MA 2000RPM 99GM MOTOR 621 3300V00156A PLATE, DUCT,FAN SECC 630 6871VSN156C PWB(PCB) ASSEMBLY,MAIN SUB NB-02QA PRE-AMP MD 60 640 6871VSMD03D PWB(PCB) ASSEMBLY,SUB CONT NB03JA RN-60SZ30H 650 6871VSN194A PWB(PCB) ASSEMBLY,SUB INTER NB02QA 52 LCD PJTV 660 6871VSN187C PWB(PCB) ASSEMBLY,SUB LED NB03JA RN-52SZ30H 670 6871VSMV06B PWB(PCB) ASSEMBLY,SUB MB03CB DRIVER M/I 680 6913V00002A BALLAST, EUC-100L/100V PHILIPS FOR LAMP(UHP100W) 690 6871VSN155B PWB(PCB) ASSEMBLY,MAIN SUB NB-02QA SIDE A/V - 37 - REPLACEMENT PARTS LIST LOCA. NO PART NO DESCRIPTION LOCA. NO IC PART NO DESCRIPTION IC303 0ITI740000Q IC304 0IMMRHY033A IC, SN74LVC00AD 14SOP R/TP LOGIC D-TV IC, HY57V643220C(L)T-6 HYNIX 86P IC, HY57V643220C(L)T-6 HYNIX 86P IC01 0IMI623200B IC, M62320FP,I/O EXPANDER 16P IC305 0IMMRHY033A IC02 0IMI623200B IC, M62320FP,I/O EXPANDER 16P IC306 0IIC271600A IC, MK2716STR 8P,SOP IC1 0ISM555000A IC, SDA5550 MQFP100 BK MICOM TXT MC006A IC320 0IPH741400E IC, 74HC14D 14SOP TP SHITTER TRIGGER IC101 0IMCRAD002A IC, AD9883A ANALOG DEVICE 80P IC4 0IMCRAL006A IC, AT24C16AN-10SI-2.7 ATMEL 8P IC102 0IIT323000E IC401 0ICTMMI038B IC, COPY M306V3FGFP MITSUBISHI 100P IC103 0IMCRXL003A IC401 0ISH052100C IC, PQ05RD21 4SIP ST REGULATOR - IC104 0IIT323000E IC, VPC3230D C5 80P QFP IC402 0IFA752700A IC, KA75270Z 3 TP RE-SET IC MC-007 IC105 0IFA741230A IC, DM74LS123MX 16SOP TP IC403 0IMCRSG010A IC1100 0IZZVA0072M IC, M37272E8A(OTP) DIP 42P IC403 0ISH302122A IC, PQ30RV21 TO-220 IC1100 0IMI372728A IC, M37272E8A(OTP) 42SD BK M-COM - IC404 0IMCRTI019A IC, TFP410 TEXAS INSTRUMENT 64P TQFP IC1101 0IMI623520B IC, M62352GP 20P IC404 0ISH052100C IC, PQ05RD21 4SIP ST REGULATOR IC1102 0IAL242561B IC, AT24C256W-10SI-2.7V 8P IC405 0IMP242560A IC, 24LC256-I/SM 8P,SOP IC1103 0IPRPTI001A IC, TFP401PZP TEXAS INSTRUMENT 100,TQFP IC406 0IKE780500Q IC, KIA7805API 3P TO-220 ST IC1104 0IKE704200J IC, KIA7042AF SOT-89 TP IC407 0IPRPFA007A IC, RC1117S25T FAIRCHILD SOT-223 IC1105 0IPRPFA006A IC, RC1117S33T FAIRCHILD SOT-223 IC407 0IPH741400E IC, 74HC14D 14SOP TP SHITTER TRIGGER IC1106 0IPRPFA006A IC, RC1117S33T FAIRCHILD SOT-223 IC408 0IMCRKE008A IC, KIA78D33F KEC 3P DPAK IC1107 0IPRPML001B IC, MIC29152 MICREL 5P TO-263 IC409 0IMCRFA015A IC, KA7805R FAIRCHILD 2P D-PAK IC120 0ISJ111733A IC410 0ISH052100C IC, PQ05RD21 4SIP ST REGULATOR IC1200 0IMCRSO008A IC, CXA2151Q SONY 48P QFP IC411 0IKE780800J IC, KIA7808API 3 ST REGULATOR IC1200 0IPRPML001A IC, MIC39100 MICREL 3P SOT223 IC412 0IKE780900M IC, KIA7809API TO220 ST 3P 9V REGULATOR IC1202 0IMCRSB010A IC, L3E07050K0A SEIKO EPSON 176QFP IC413 0IKE780900M IC, KIA7809API TO220 ST 3P 9V REGULATOR IC1202 0IMO744053B IC, MC74HC4053DW 16SOP 3*2CH.MUX IC414 0ISH302122A IC, PQ30RV21 TO-220 IC1203 0IPRPFA006A IC, RC1117S33T FAIRCHILD SOT-223 IC415 0ITK118100B IC, TK11840L 8P SOT23L IC1300 0IMO324000C IC, LM324D SO-14 TP OP AMP IC5 0IMX811000A IC, MAX811REUT-T 128QFP BK RESET DI-32Q82 IC1301 0IMCRET001A IC, EL2244CS ELANTEC 8P SO IC601 0IMCRMN001C IC, MSP3411G QA B8 V3 MICRONAS 80P IC1302 0IMCRSB009A IC, L3E06070D0A SEIKO EPSON 48QFP IC602 0IFA753307A IC, KA75330ZTA(KA7533ZTA) 3P,TO-92 IC1303 0IMCRSB009A IC, L3E06070D0A SEIKO EPSON 48QFP IC603 0ISS455880A IC, KA4558D 8SOP OP AMP IC1304 0IMCRSB008A IC, L3E01031F0A SEIKO EPSON 48QFP IC801B 0ISH817300B IC, PC817XF3 4D PHOTO COUPLER IC1305 0IPRPFA006A IC, RC1117S33T FAIRCHILD SOT-223 IC802B 0ISH817300B IC, PC817XF3 4D PHOTO COUPLER IC1400 0IMO324000C IC, LM324D SO-14 TP OP AMP IC811 0IMCRON002A IC1401 0IMCRET001A IC, EL2244CS ELANTEC 8P SO IC820 0ISK666813A IC, STR-F6668B(LF1352) 5PIN BK STR FD-60X3R IC1402 0IMCRSB009A IC, L3E06070D0A SEIKO EPSON 48QFP IC831 0ISK615311B IC, STR-G6153T(LF1101) 5PIN BK STR HN-61A40R IC1403 0IMCRSB009A IC, L3E06070D0A SEIKO EPSON 48QFP IC832 0ISH817300B IC, PC817XF3 4D PHOTO COUPLER IC1404 0IMCRSB008A IC, L3E01031F0A SEIKO EPSON 48QFP IC841 0ISH817300B IC, PC817XF3 4D PHOTO COUPLER IC1405 0IPRPFA006A IC, RC1117S33T FAIRCHILD SOT-223 IC845 0ISS781200H IC, KA78R12 4P,TO-220F BK LOW DROP 12V IC1500 0IMO324000C IC, LM324D SO-14 TP OP AMP IC851 0IMO257633A IC, LM2576TV-3.3 5PIN ST IC1501 0IMCRET001A IC, EL2244CS ELANTEC 8P SO Q111 0IFA270000A IC, 2N7000TA TO-92, 3P IC1502 0IMCRSB009A IC, L3E06070D0A SEIKO EPSON 48QFP Q112 0IFA270000A IC, 2N7000TA TO-92, 3P IC1503 0IMCRSB009A IC, L3E06070D0A SEIKO EPSON 48QFP IC1504 0IMCRSB008A IC, L3E01031F0A SEIKO EPSON 48QFP IC1505 0IPRPFA006A IC, RC1117S33T FAIRCHILD SOT-223 IC1601 0ISA428200A IC, LA4282 12S 2CHX10W AUDIO AMP IC1602 0IKE780500Q IC, KIA7805API 3P TO-220 ST IC2 0ISS610082A IC, K6T1008V2E-TB(F)70 [K6T1008BLT-7L] IC208 0ISO206900A IC, CXA2069Q QFP64 BK I2C BUS AV S/W IC301 0ICTMLG003C IC, LGDT1502M LG IC 304P QFP IC302 0ITI740000Q IC, VPC3230D C5 80P QFP IC, XC95144XL-10TQ100C 3.3V XILINX TQFP 100P IC, EZ1117CST-3.3 3P,SOT-223 TP 3.3V IC, ST3232CDR SGS-THOMSON SOP16 IC, MC33262P ON SEMI 8P TRANSISTOR IC, SN74LVC00AD 14SOP - 38 - IC202 0TR830009BA BSS83 TP PHILIPS NON N-CHANNEL S/W TR IC203 0TR830009BA BSS83 TP PHILIPS NON N-CHANNEL S/W TR Q01 0TR387500AA CHIP 2SC3875S(ALY) KEC Q02 0TR387500AA CHIP 2SC3875S(ALY) KEC Q03 0TR387500AA CHIP 2SC3875S(ALY) KEC Q04 0TR387500AA CHIP 2SC3875S(ALY) KEC Q05 0TR387500AA CHIP 2SC3875S(ALY) KEC For Capacitor & Resistors, the charactors at 2nd and 3rd digit in the P/No. means as follows; LOCA. NO PART NO Q06 0TR387500AA Q10 0TR387500AA Q101 DESCRIPTION CC, CX, CK, CN : Ceramic CQ : Polyestor CE : Electrolytic RD : Carbon Film RS : Metal Oxide Film RN : Metal Film RF : Fusible LOCA. NO PART NO DESCRIPTION CHIP 2SC3875S(ALY) KEC Q1601 0TR150400BA CHIP 2SA1504S(ASY) KEC CHIP 2SC3875S(ALY) KEC Q2 0TR150400BA CHIP 2SA1504S(ASY) KEC 0TR387500AA CHIP 2SC3875S(ALY) KEC Q201 0TR150400BA CHIP 2SA1504S(ASY) KEC Q102 0TR387500AA CHIP 2SC3875S(ALY) KEC Q202 0TR150400BA CHIP 2SA1504S(ASY) KEC Q102 0TR387500AA CHIP 2SC3875S(ALY) KEC Q203 0TR150400BA CHIP 2SA1504S(ASY) KEC Q103 0TR387500AA CHIP 2SC3875S(ALY) KEC Q204 0TR150400BA CHIP 2SA1504S(ASY) KEC Q103 0TR387500AA CHIP 2SC3875S(ALY) KEC Q205 0TR150400BA CHIP 2SA1504S(ASY) KEC Q106 0TR387500AA CHIP 2SC3875S(ALY) KEC Q206 0TR150400BA CHIP 2SA1504S(ASY) KEC Q106 0TR150400BA CHIP 2SA1504S(ASY) KEC Q207 0TR150400BA CHIP 2SA1504S(ASY) KEC Q107 0TR387500AA CHIP 2SC3875S(ALY) KEC Q208 0TR150400BA CHIP 2SA1504S(ASY) KEC Q108 0TR387500AA CHIP 2SC3875S(ALY) KEC Q209 0TR150400BA CHIP 2SA1504S(ASY) KEC Q108 0TR387500AA CHIP 2SC3875S(ALY) KEC Q210 0TR150400BA CHIP 2SA1504S(ASY) KEC Q109 0TR387500AA CHIP 2SC3875S(ALY) KEC Q213 0TR150400BA CHIP 2SA1504S(ASY) KEC Q110 0TR387500AA CHIP 2SC3875S(ALY) KEC Q3 0TR387500AA CHIP 2SC3875S(ALY) KEC Q110 0TR387500AA CHIP 2SC3875S(ALY) KEC Q301 0TR150400BA CHIP 2SA1504S(ASY) KEC Q111 0TR387500AA CHIP 2SC3875S(ALY) KEC Q302 0TR150400BA CHIP 2SA1504S(ASY) KEC Q112 0TR387500AA CHIP 2SC3875S(ALY) KEC Q304 0TR150400BA CHIP 2SA1504S(ASY) KEC Q113 0TR387500AA CHIP 2SC3875S(ALY) KEC Q400 0TRKE80038A KTC3552T-RTK KEC R/TP SOT-23F 50V 3A Q113 0TR387500AA CHIP 2SC3875S(ALY) KEC Q501 0TR102009AG CHIP KRC102S KEC TP SOT-23 NA NA Q114 0TR387500AA CHIP 2SC3875S(ALY) KEC Q510 0TR387500AA CHIP 2SC3875S(ALY) KEC Q114 0TR387500AA CHIP 2SC3875S(ALY) KEC Q511 0TR387500AA CHIP 2SC3875S(ALY) KEC Q115 0TR387500AA CHIP 2SC3875S(ALY) KEC Q601 0TR150400BA CHIP 2SA1504S(ASY) KEC Q115 0TR830009BA BSS83 TP PHILIPS NON N-CHANNEL S/W TR Q602 0TR150400BA CHIP 2SA1504S(ASY) KEC Q116 0TR387500AA CHIP 2SC3875S(ALY) KEC Q810 0TF283700AA 2SK2837 BK TOSHIBA 500V 20A TO3P Q116 0TR830009BA BSS83 TP PHILIPS NON N-CHANNEL S/W TR Q841 0TR945009AA KSC945C-Y TP TO92 50V 150MA Q1200 0TR387500AA CHIP 2SC3875S(ALY) KEC Q842 0TR322709AA KTC3227-Y,TP(KTC1627A),KEC Q1201 0TR387500AA CHIP 2SC3875S(ALY) KEC Q851 0TR945009AA KSC945C-Y TP TO92 50V 150MA Q1202 0TR387500AA CHIP 2SC3875S(ALY) KEC Q1203 0TR387500AA CHIP 2SC3875S(ALY) KEC Q1204 0TR387500AA CHIP 2SC3875S(ALY) KEC D01 0DL200000CA LED, SAM5670(DL-2LRG) BK Y-GREEN Q1205 0TR387500AA CHIP 2SC3875S(ALY) KEC D02 0DL200000CA LED, SAM5670(DL-2LRG) BK Y-GREEN Q1206 0TR387500AA CHIP 2SC3875S(ALY) KEC D03 0DL200000CA LED, SAM5670(DL-2LRG) BK Y-GREEN Q1207 0TR387500AA CHIP 2SC3875S(ALY) KEC D1 0DD184009AA KDS184S CHIP 85V 300MA KEC TP Q1208 0TR387500AA CHIP 2SC3875S(ALY) KEC D100 0DD184009AA KDS184S CHIP 85V 300MA KEC TP Q1209 0TR150400BA CHIP 2SA1504S(ASY) KEC D101 0DD184009AA KDS184S CHIP 85V 300MA KEC TP Q1210 0TR102009AG CHIP KRC102S KEC TP SOT-23 NA NA D102 0DD184009AA KDS184S CHIP 85V 300MA KEC TP Q1211 0TR127009AA KTA1270-Y(KTA562TM) TP TO92 50V 100MA D1200 0DD184009AA KDS184S CHIP 85V 300MA KEC TP Q1212 0TR387500AA CHIP 2SC3875S(ALY) KEC D1602 0DD184009AA KDS184S CHIP 85V 300MA KEC TP Q1213 0TR387500AA CHIP 2SC3875S(ALY) KEC D1603 0DD184009AA KDS184S CHIP 85V 300MA KEC TP Q1214 0TR387500AA CHIP 2SC3875S(ALY) KEC D1605 0DD184009AA KDS184S CHIP 85V 300MA KEC TP Q1215 0TR150400BA CHIP 2SA1504S(ASY) KEC D2 0DD184009AA KDS184S CHIP 85V 300MA KEC TP Q1216 0TR387500AA CHIP 2SC3875S(ALY) KEC D200 0DD184009AA KDS184S CHIP 85V 300MA KEC TP Q1217 0TR150400BA CHIP 2SA1504S(ASY) KEC D201 0DD184009AA KDS184S CHIP 85V 300MA KEC TP Q1218 0TR150400BA CHIP 2SA1504S(ASY) KEC D3 0DD226239AA CHIP KDS226 SOT-23 Q1219 0TR150400BA CHIP 2SA1504S(ASY) KEC D300 0DL112100AA LED, SR3411(DL-11S2RN1) BK RED Q1221 0TR102009AG CHIP KRC102S KEC TP SOT-23 NA NA D4 0DD184009AA KDS184S CHIP 85V 300MA KEC TP Q1222 0TR127009AA KTA1270-Y(KTA562TM) TP TO92 50V 100MA D400 0DD184009AA KDS184S CHIP 85V 300MA KEC TP Q1223 0TR387500AA CHIP 2SC3875S(ALY) KEC D402 0DR050008AA SD05.TC R/TP SEMTECH SOD323 5V 5A 15A Q1230 0TR387500AA CHIP 2SC3875S(ALY) KEC D402 0DD414809ED 1N4148 TP GRANDE Q1232 0TR102009AG CHIP KRC102S KEC TP SOT-23 NA NA D403 0DR050008AA SD05.TC R/TP SEMTECH SOD323 5V 5A 15A Q1235 0TR150400BA CHIP 2SA1504S(ASY) KEC D403 0DD414809ED 1N4148 TP GRANDE Q1236 0TR150400BA CHIP 2SA1504S(ASY) KEC D404 0DR050008AA SD05.TC R/TP SEMTECH SOD323 5V 5A 15A DIODE - 39 - For Capacitor & Resistors, the charactors at 2nd and 3rd digit in the P/No. means as follows; CC, CX, CK, CN : Ceramic CQ : Polyestor CE : Electrolytic LOCA. NO PART NO D404 0DD414809ED D404 0DD184009AA D405 RD : Carbon Film RS : Metal Oxide Film RN : Metal Film RF : Fusible DESCRIPTION LOCA. NO PART NO 1N4148 TP GRANDE C1 0CE476VF6DC 47UF MV 16V 20% R/TP(SMD) SMD KDS184S CHIP 85V 300MA KEC TP C10 0CE476VF6DC 47UF MV 16V 20% R/TP(SMD) SMD 0DR050008AA SD05.TC R/TP SEMTECH SOD323 5V 5A 15A C101 0CE476VF6DC 47UF MV 16V 20% R/TP(SMD) SMD D406 0DD184009AA KDS184S CHIP 85V 300MA KEC TP C104 0CE226SF6DC 22UF MVG 16V M SMD R/TP D410 0DRSE00038A SDC15 TVS DIODE ARRAY SEMTECH C105 0CE476VF6DC 47UF MV 16V 20% R/TP(SMD) SMD D411 0DRSE00038A SDC15 TVS DIODE ARRAY SEMTECH C106 0CE476VK6DC 47UF MV 50V 20% R/TP(SMD) SMD D431 0DD414809ED 1N4148 TP GRANDE C107 0CE476VF6DC 47UF MV 16V 20% R/TP(SMD) SMD D432 0DD414809ED 1N4148 TP GRANDE C108 0CE476VK6DC 47UF MV 50V 20% R/TP(SMD) SMD D433 0DD414809ED 1N4148 TP GRANDE C11 0CE226VF6DC 22UF MV 16V 20% R/TP(SMD) SMD D434 0DD414809ED 1N4148 TP GRANDE C1100 0CK103CK56A 0.01UF 1608 50V 10% R/TP X7R D435 0DD414809ED 1N4148 TP GRANDE C1101 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD D437 0DD414809ED 1N4148 TP GRANDE C1102 0CK103CK56A 0.01UF 1608 50V 10% R/TP X7R D5 0DD184009AA KDS184S CHIP 85V 300MA KEC TP C1103 0CK103CK56A 0.01UF 1608 50V 10% R/TP X7R D6 0DD184009AA KDS184S CHIP 85V 300MA KEC TP C1104 0CE105VK6DC 1UF MV 50V 20% R/TP(SMD) SMD D601 0DD226239AA CHIP KDS226 SOT-23 C1105 0CC180CKH1A 18PF 1608 50V 2% R/TP NP0 D602 0DD184009AA KDS184S CHIP 85V 300MA KEC TP C1106 0CC180CKH1A 18PF 1608 50V 2% R/TP NP0 D7 0DD184009AA KDS184S CHIP 85V 300MA KEC TP C1107 0CK103CK56A 0.01UF 1608 50V 10% R/TP X7R D8 0DD184009AA KDS184S CHIP 85V 300MA KEC TP C1108 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD D801 0DD606000AA RBV606 SANKEN BK NA 600V 6A 150A NA 10UA C1110 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD D810 0DD100009AM EU1ZV(1) TP SANKEN C1111 0CK103CK56A 0.01UF 1608 50V 10% R/TP X7R D820 0DD100009AM EU1ZV(1) TP SANKEN C1112 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD D821 0DD100009AM EU1ZV(1) TP SANKEN C1114 0CE107VH6DC 100UF MV 25V 20% R/TP(SMD) SMD D822 0DD100009AM EU1ZV(1) TP SANKEN C1116 0CE107SF6DC 100UF MVG 16V M SMD R/TP D832 0DR010009AA EG01C TP 1000V 0.5A 10A 100NSEC 50UA C1118 0CE107SF6DC 100UF MVG 16V M SMD R/TP D833 0DD100009AM EU1ZV(1) TP SANKEN C1122 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD D834 0DD260000BB BRIDGE D2SBA60(STK) SHINDENKEN C1125 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD D841 0DD120000BB FML-G12S C1133 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD D845 0DD414809ED 1N4148 TP GRANDE C1134 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD D851 0DD120000BB FML-G12S C1138 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD D852 0DR460009AA RK46 TP DO-214AC 60V 3.5A 70A 100SEC 3MA C1139 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD D861 0DD120000BB FML-G12S C114 0CK105DF64A 1UF 2012 16V 20% R/TP F(Y5V) D871 0DD120000BB FML-G12S C1143 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD D881 0DD100009AP EG1ZV(1) TP SANKEN TP SANKEN C119 0CE476VF6DC 47UF MV 16V 20% R/TP(SMD) SMD Q810 0DR260001AA FMG-26S ST SANKEN TO220 600V 6A 50A C120 0CE106SF6DC 10UF MVG 16V 20% R/TP(SMD) SMD ZD01 0DR050008AA SD05.TC R/TP SEMTECH SOD323 5V 5A 15A C1200 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD ZD1 0DZ620009BB MTZJ6.2B TP ROHM-K DO34 0.5W 6.2V 5UA C1201 0CE226VF6DC 22UF MV 16V 20% R/TP(SMD) SMD ZD10 0DZ620009BB MTZJ6.2B TP ROHM-K DO34 0.5W 6.2V 5UA C1202 0CE107SF6DC 100UF MVG 16V M SMD R/TP ZD11 0DR050008AA SD05.TC R/TP SEMTECH SOD323 5V 5A 15A C1204 0CE106VF6DC 10UF MV 16V 20% R/TP(SMD) SMD ZD12 0DR050008AA SD05.TC R/TP SEMTECH SOD323 5V 5A 15A C1205 0CE106VF6DC 10UF MV 16V 20% R/TP(SMD) SMD ZD2 0DZ620009BB MTZJ6.2B TP ROHM-K DO34 0.5W 6.2V 5UA C1206 0CE106VF6DC 10UF MV 16V 20% R/TP(SMD) SMD ZD3 0DZ620009BB MTZJ6.2B TP ROHM-K DO34 0.5W 6.2V 5UA C1207 0CE106VF6DC 10UF MV 16V 20% R/TP(SMD) SMD ZD4 0DZ620009BB MTZJ6.2B TP ROHM-K DO34 0.5W 6.2V 5UA C1208 0CE106VF6DC 10UF MV 16V 20% R/TP(SMD) SMD ZD5 0DZ620009BB MTZJ6.2B TP ROHM-K DO34 0.5W 6.2V 5UA C1209 0CE106VF6DC 10UF MV 16V 20% R/TP(SMD) SMD ZD6 0DZ620009BB MTZJ6.2B TP ROHM-K DO34 0.5W 6.2V 5UA C1210 0CE106VF6DC 10UF MV 16V 20% R/TP(SMD) SMD ZD841 0DZ620009BB MTZJ6.2B TP ROHM-K DO34 0.5W 6.2V 5UA C1216 0CE106VF6DC 10UF MV 16V 20% R/TP(SMD) SMD ZD851 0DZ620009BB MTZJ6.2B TP ROHM-K DO34 0.5W 6.2V 5UA C1217 0CE106VF6DC 10UF MV 16V 20% R/TP(SMD) SMD ZD9 0DZ620009BB MTZJ6.2B TP ROHM-K DO34 0.5W 6.2V 5UA C1218 0CE106VF6DC 10UF MV 16V 20% R/TP(SMD) SMD C1219 0CE226VF6DC 22UF MV 16V 20% R/TP(SMD) SMD C1226 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD CAPACITOR DESCRIPTION C01 0CE226VF6DC 22UF MV 16V 20% R/TP(SMD) SMD C1234 0CE476VF6DC 47UF MV 16V 20% R/TP(SMD) SMD C07 0CE476VF6DC 47UF MV 16V 20% R/TP(SMD) SMD C1237 0CE105VK6DC 1UF MV 50V 20% R/TP(SMD) SMD C1 0CE476DF618 47UF STD 16V M FL TP5 C124 0CK224DF56A 220000PF 2012 16V 10% R/TP X7R - 40 - For Capacitor & Resistors, the charactors at 2nd and 3rd digit in the P/No. means as follows; LOCA. NO PART NO C1246 0CE226VF6DC C125 0CK224DF56A C1250 DESCRIPTION CC, CX, CK, CN : Ceramic CQ : Polyestor CE : Electrolytic RD : Carbon Film RS : Metal Oxide Film RN : Metal Film RF : Fusible LOCA. NO PART NO 22UF MV 16V 20% R/TP(SMD) SMD C1511 0CK103CK56A 0.01UF 1608 50V 10% R/TP X7R 220000PF 2012 16V 10% R/TP X7R C1513 0CK103CK56A 0.01UF 1608 50V 10% R/TP X7R 0CE105VK6DC 1UF MV 50V 20% R/TP(SMD) SMD C1519 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C1251 0CE105VK6DC 1UF MV 50V 20% R/TP(SMD) SMD C1520 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C1252 0CE106VF6DC 10UF MV 16V 20% R/TP(SMD) SMD C1521 0CK103CK56A 0.01UF 1608 50V 10% R/TP X7R C126 0CK224DF56A 220000PF 2012 16V 10% R/TP X7R C1522 0CK103CK56A 0.01UF 1608 50V 10% R/TP X7R C1260 0CE106VF6DC 10UF MV 16V 20% R/TP(SMD) SMD C1524 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C127 0CK224DF56A 220000PF 2012 16V 10% R/TP X7R C1525 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C1301 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C1529 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C1305 0CK103CK56A 0.01UF 1608 50V 10% R/TP X7R C1535 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C1308 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C1536 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C1309 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C1541 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C1310 0CK103CK56A 0.01UF 1608 50V 10% R/TP X7R C158 0CK105DF64A 1UF 2012 16V 20% R/TP F(Y5V) C1311 0CK103CK56A 0.01UF 1608 50V 10% R/TP X7R C159 0CK105DF64A 1UF 2012 16V 20% R/TP F(Y5V) C1313 0CK103CK56A 0.01UF 1608 50V 10% R/TP X7R C1601 0CE107DH618 100UF STD 25V M FL TP5 C1319 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C1602 0CE106DK618 10UF STD 50V M FL TP5 C1320 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C1603 0CE107DH618 100UF STD 25V M FL TP5 C1321 0CK103CK56A 0.01UF 1608 50V 10% R/TP X7R C1604 0CE106DK618 10UF STD 50V M FL TP5 C1322 0CK103CK56A 0.01UF 1608 50V 10% R/TP X7R C1605 0CE107DH618 100UF STD 25V M FL TP5 C1324 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C1606 0CE106DF618 10UF STD 16V M FL TP5 C1325 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C1607 0CE108DK61A 1000UF STD 50V M FL TP7.5 C1330 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C1608 0CE106DF618 10UF STD 16V M FL TP5 C1335 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C1609 0CE106DF618 10UF STD 16V M FL TP5 C1336 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C1610 0CE108DJ618 1000UF STD 35V M FL TP5 C1340 0CK103CK56A 0.01UF 1608 50V 10% R/TP X7R C1611 0CE108DJ618 1000UF STD 35V M FL TP5 C1341 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C1612 0CQ6821N509 0.0068U 100V K POLY TP C136 0CK823DK56A 82000PF 2012 50V 10% R/TP X7R C1613 0CQ6821N509 0.0068U 100V K POLY TP C139 0CE476SF6DC 47UF MVG 16V M SMD R/TP C1614 0CE226DF618 22UF STD 16V M FL TP5 C1401 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C1615 0CE108DF618 1000UF STD 16V M FL TP5 C1405 0CK103CK56A 0.01UF 1608 50V 10% R/TP X7R C1616 0CQ1041N509 0.1U 100V K POLY TP C1408 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C1618 0CQ1041N509 0.1U 100V K POLY TP C1409 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C1620 0CE477VF6DC 470UF MV 16V 20% R/TP(SMD) SMD C1410 0CK103CK56A 0.01UF 1608 50V 10% R/TP X7R C1621 0CE107VF6DC 100UF MV 16V 20% R/TP(SMD) SMD C1411 0CK103CK56A 0.01UF 1608 50V 10% R/TP X7R C1630 0CE476VF6DC 47UF MV 16V 20% R/TP(SMD) SMD C1413 0CK103CK56A 0.01UF 1608 50V 10% R/TP X7R C1631 0CE476VF6DC 47UF MV 16V 20% R/TP(SMD) SMD C1419 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C168 0CE106SF6DC 10UF MVG 16V 20% R/TP(SMD) SMD C1420 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C172 0CK224DF56A 220000PF 2012 16V 10% R/TP X7R C1421 0CK103CK56A 0.01UF 1608 50V 10% R/TP X7R C173 0CE476SF6DC 47UF MVG 16V M SMD R/TP C1422 0CK103CK56A 0.01UF 1608 50V 10% R/TP X7R C175 0CE476SF6DC 47UF MVG 16V M SMD R/TP C1424 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C183 0CE106SF6DC 10UF MVG 16V 20% R/TP(SMD) SMD C1425 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C185 0CE106SF6DC 10UF MVG 16V 20% R/TP(SMD) SMD C1429 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C186 0CE106SF6DC 10UF MVG 16V 20% R/TP(SMD) SMD C1435 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C187 0CE106TH6DC 10UF MV-BP 25V 20% SMD R/TP C1436 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C188 0CE106SF6DC 10UF MVG 16V 20% R/TP(SMD) SMD C1441 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C190 0CE106SF6DC 10UF MVG 16V 20% R/TP(SMD) SMD C147 0CE226SF6DC 22UF MVG 16V M SMD R/TP C191 0CE106SF6DC 10UF MVG 16V 20% R/TP(SMD) SMD C148 0CE106SF6DC 10UF MVG 16V 20% R/TP(SMD) SMD C192 0CE106SF6DC 10UF MVG 16V 20% R/TP(SMD) SMD C1501 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C193 0CE106SF6DC 10UF MVG 16V 20% R/TP(SMD) SMD C1505 0CK103CK56A 0.01UF 1608 50V 10% R/TP X7R C194 0CE106SF6DC 10UF MVG 16V 20% R/TP(SMD) SMD C1508 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C195 0CE106SF6DC 10UF MVG 16V 20% R/TP(SMD) SMD C1509 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C198 0CE226SF6DC 22UF MVG 16V M SMD R/TP C1510 0CK103CK56A 0.01UF 1608 50V 10% R/TP X7R C2 0CN1030F679 10000P 16V M Y TA52 - 41 - DESCRIPTION For Capacitor & Resistors, the charactors at 2nd and 3rd digit in the P/No. means as follows; LOCA. NO PART NO CC, CX, CK, CN : Ceramic CQ : Polyestor CE : Electrolytic RD : Carbon Film RS : Metal Oxide Film RN : Metal Film RF : Fusible DESCRIPTION LOCA. NO PART NO DESCRIPTION C2 0CE476VF6DC 47UF MV 16V 20% R/TP(SMD) SMD C372 0CE226SF6DC 22UF MVG 16V M SMD R/TP C200 0CE106SF6DC 10UF MVG 16V 20% R/TP(SMD) SMD C401 0CE107VF6DC 100UF MV 16V 20% R/TP(SMD) SMD C201 0CE105VK6DC 1UF MV 50V 20% R/TP(SMD) SMD C402 0CE107VF6DC 100UF MV 16V 20% R/TP(SMD) SMD C202 0CE105VK6DC 1UF MV 50V 20% R/TP(SMD) SMD C403 0CE107SF6DC 100UF MVG 16V M SMD R/TP C203 0CE105VK6DC 1UF MV 50V 20% R/TP(SMD) SMD C403 0CE107VF6DC 100UF MV 16V 20% R/TP(SMD) SMD C204 0CE105VK6DC 1UF MV 50V 20% R/TP(SMD) SMD C404 0CE107VF6DC 100UF MV 16V 20% R/TP(SMD) SMD C205 0CE105VK6DC 1UF MV 50V 20% R/TP(SMD) SMD C405 0CE476VK6DC 47UF MV 50V 20% R/TP(SMD) SMD C206 0CE105VK6DC 1UF MV 50V 20% R/TP(SMD) SMD C406 0CE226SF6DC 22UF MVG 16V M SMD R/TP C207 0CE106SF6DC 10UF MVG 16V 20% R/TP(SMD) SMD C406 0CE476VH6DC 47UF MV 25V 20% R/TP(SMD) SMD C207 0CE105VK6DC 1UF MV 50V 20% R/TP(SMD) SMD C407 0CE227VF6DC 220UF MV 16V 20% R/TP(SMD) SMD C208 0CE105VK6DC 1UF MV 50V 20% R/TP(SMD) SMD C408 0CE227VF6DC 220UF MV 16V 20% R/TP(SMD) SMD C209 0CE226VF6DC 22UF MV 16V 20% R/TP(SMD) SMD C409 0CE107VF6DC 100UF MV 16V 20% R/TP(SMD) SMD C210 0CE105VK6DC 1UF MV 50V 20% R/TP(SMD) SMD C410 0CE227VF6DC 220UF MV 16V 20% R/TP(SMD) SMD C211 0CK224DF56A 220000PF 2012 16V 10% R/TP X7R C411 0CE106SF6DC 10UF MVG 16V 20% R/TP(SMD) SMD C211 0CE105VK6DC 1UF MV 50V 20% R/TP(SMD) SMD C411 0CE227VF6DC 220UF MV 16V 20% R/TP(SMD) SMD C212 0CK105DF64A 1UF 2012 16V 20% R/TP F(Y5V) C412 0CK105DF64A 1UF 2012 16V 20% R/TP F(Y5V) C212 0CK224DF56A 220000PF 2012 16V 10% R/TP X7R C412 0CE227VF6DC 220UF MV 16V 20% R/TP(SMD) SMD C213 0CK224DF56A 220000PF 2012 16V 10% R/TP X7R C417 0CE106SF6DC 10UF MVG 16V 20% R/TP(SMD) SMD C214 0CK224DF56A 220000PF 2012 16V 10% R/TP X7R C426 0CE477DD618 470UF STD 10V M FL TP5 C215 0CK224DF56A 220000PF 2012 16V 10% R/TP X7R C427 0CE227BF618 220UF KME 16V M FL TP5 C215 0CK105DF64A 1UF 2012 16V 20% R/TP F(Y5V) C428 0CE227DD618 220UF STD 10V M FL TP5 C216 0CK224DF56A 220000PF 2012 16V 10% R/TP X7R C429 0CE227BH618 220UF KME 25V M FL TP5 C216 0CK105DF64A 1UF 2012 16V 20% R/TP F(Y5V) C430 0CE477DF618 470UF STD 16V 20% FL TP 5 C217 0CK224DF56A 220000PF 2012 16V 10% R/TP X7R C433 0CE107DD618 100UF STD 10V M FL TP5 C219 0CK105DF64A 1UF 2012 16V 20% R/TP F(Y5V) C434 0CE107BF618 100UF KME 16V M FL TP5 C220 0CK105DF64A 1UF 2012 16V 20% R/TP F(Y5V) C435 0CE107DD618 100UF STD 10V M FL TP5 C224 0CE476SF6DC 47UF MVG 16V M SMD R/TP C436 0CE107DF618 100UF STD 16V M FL TP5 C224 0CK105DF64A 1UF 2012 16V 20% R/TP F(Y5V) C437 0CE107DD618 100UF STD 10V M FL TP5 C225 0CK105DF64A 1UF 2012 16V 20% R/TP F(Y5V) C450 0CE226SF6DC 22UF MVG 16V M SMD R/TP C226 0CK105DF64A 1UF 2012 16V 20% R/TP F(Y5V) C453 0CE107BF618 100UF KME 16V M FL TP5 C227 0CK105DF64A 1UF 2012 16V 20% R/TP F(Y5V) C456 0CE477DH618 470UF STD 25V M FL TP5 C232 0CK105DF64A 1UF 2012 16V 20% R/TP F(Y5V) C456 0CK105DF64A 1UF 2012 16V 20% R/TP F(Y5V) C232 0CE105VK6DC 1UF MV 50V 20% R/TP(SMD) SMD C456 0CE227VF6DC 220UF MV 16V 20% R/TP(SMD) SMD C234 0CE227VF6DC 220UF MV 16V 20% R/TP(SMD) SMD C5 0CE476VF6DC 47UF MV 16V 20% R/TP(SMD) SMD C235 0CE106VF6DC 10UF MV 16V 20% R/TP(SMD) SMD C507 0CE106TH6DC 10UF MV-BP 25V 20% SMD R/TP C236 0CE106VF6DC 10UF MV 16V 20% R/TP(SMD) SMD C508 0CE106TH6DC 10UF MV-BP 25V 20% SMD R/TP C237 0CK224DF56A 220000PF 2012 16V 10% R/TP X7R C509 0CE106TH6DC 10UF MV-BP 25V 20% SMD R/TP C238 0CE476SF6DC 47UF MVG 16V M SMD R/TP C510 0CE226SF6DC 22UF MVG 16V M SMD R/TP C240 0CE476SF6DC 47UF MVG 16V M SMD R/TP C515 0CK105DF64A 1UF 2012 16V 20% R/TP F(Y5V) C249 0CE106SF6DC 10UF MVG 16V 20% R/TP(SMD) SMD C6 0CE226VF6DC 22UF MV 16V 20% R/TP(SMD) SMD C260 0CE106SF6DC 10UF MVG 16V 20% R/TP(SMD) SMD C606 0CE107VF6DC 100UF MV 16V 20% R/TP(SMD) SMD C261 0CE106SF6DC 10UF MVG 16V 20% R/TP(SMD) SMD C607 0CE107VF6DC 100UF MV 16V 20% R/TP(SMD) SMD C262 0CE106SF6DC 10UF MVG 16V 20% R/TP(SMD) SMD C608 0CE106VF6DC 10UF MV 16V 20% R/TP(SMD) SMD C274 0CE105VK6DC 1UF MV 50V 20% R/TP(SMD) SMD C609 0CE106VF6DC 10UF MV 16V 20% R/TP(SMD) SMD C290 0CE107VF6DC 100UF MV 16V 20% R/TP(SMD) SMD C610 0CE335VK6DC 3.3UF MV 50V 20% R/TP(SMD) SMD C3 0CE476VF6DC 47UF MV 16V 20% R/TP(SMD) SMD C611 0CE106VF6DC 10UF MV 16V 20% R/TP(SMD) SMD C31 0CE226VF6DC 22UF MV 16V 20% R/TP(SMD) SMD C612 0CE476VF6DC 47UF MV 16V 20% R/TP(SMD) SMD C312 0CE226SF6DC 22UF MVG 16V M SMD R/TP C613 0CE105VK6DC 1UF MV 50V 20% R/TP(SMD) SMD C314 0CE226SF6DC 22UF MVG 16V M SMD R/TP C614 0CE105VK6DC 1UF MV 50V 20% R/TP(SMD) SMD C359 0CE106SF6DC 10UF MVG 16V 20% R/TP(SMD) SMD C615 0CE227VF6DC 220UF MV 16V 20% R/TP(SMD) SMD C362 0CE226SF6DC 22UF MVG 16V M SMD R/TP C653 0CE335VK6DC 3.3UF MV 50V 20% R/TP(SMD) SMD C371 0CE336SC6DC 33UF MVG 6.3V M SMD R/TP C7 0CE476VF6DC 47UF MV 16V 20% R/TP(SMD) SMD - 42 - For Capacitor & Resistors, the charactors at 2nd and 3rd digit in the P/No. means as follows; LOCA. NO PART NO DESCRIPTION LOCA. NO PART NO CC, CX, CK, CN : Ceramic CQ : Polyestor CE : Electrolytic RD : Carbon Film RS : Metal Oxide Film RN : Metal Film RF : Fusible DESCRIPTION C8 0CE476VF6DC 47UF MV 16V 20% R/TP(SMD) SMD JA204 380-404A C801 0CQZVBK002B A.C 275V 0.15UF K (S=22.5) P101B 6612VMH003A 36510-0032 MOLEX 48PIN PITCH2.54MM C801B 0CE106BK618 10UF KME 50V M FL TP5 P102B 6612VMH003A 36510-0032 MOLEX 48PIN PITCH2.54MM C802 0CQZVBK002A A.C 275V 0.1UF M (S=15) P103B 6612VMH003A 36510-0032 MOLEX 48PIN PITCH2.54MM C804 0CF1050W470 1UF 0 500V 5% BULK M/PP NI P1100 6612BBBHN6A 440062-1 AMP DVI INTERACED RIGHT ANGLE C805 0CK10202510 1000P 2KV K B S P401B 6612VMH003A 36510-0032 MOLEX 48PIN PITCH2.54MM C806 0CK10202510 1000P 2KV K B S P402B 6612VMH003A 36510-0032 MOLEX 48PIN PITCH2.54MM C806 0CQZVBK002C A.C 275V 0.22UF K (S=22.5) P403 6612BBBHN6A 440062-1 AMP DVI INTERACED RIGHT ANGLE C807 0CK1020K515 1000P 50V C808 0CQ1021N519 0.001U 100V K POLY NI TP KB TS PHSJ-9504 HOSIDEN . COIL & TRANSFORMER MPE ECQ-V1H564JL3(TR), 50V 0.56UF AT1301 0LCCE00018A INDUCTOR, HB-4M3216-301J 100MHZ 300OHM 100UF KME 50V M FL TP5 AT1302 0LCCE00018A INDUCTOR, HB-4M3216-301J 100MHZ 300OHM 181-091R R 1000PF 1KV 10%,-10% R/TP TP5 AT1303 0LCCE00018A INDUCTOR, HB-4M3216-301J 100MHZ 300OHM C820 181-001K CE 450V 220UF M LUG(105) AT1304 0LCCE00018A INDUCTOR, HB-4M3216-301J 100MHZ 300OHM C821 181-014Y MPP 1.6KV 0.0015UF J AT1305 0LCCE00018A INDUCTOR, HB-4M3216-301J 100MHZ 300OHM C822 181-091R R 1000PF 1KV 10%,-10% R/TP TP5 AT1306 0LCCE00018A INDUCTOR, HB-4M3216-301J 100MHZ 300OHM C823 181-091R R 1000PF 1KV 10%,-10% R/TP TP5 AT1307 0LCCE00018A INDUCTOR, HB-4M3216-301J 100MHZ 300OHM C825 0CE107BK618 100UF KME 50V M FL TP5 AT1401 0LCCE00018A INDUCTOR, HB-4M3216-301J 100MHZ 300OHM C829 181-120K 2200PF 4KV M E FMTW LEAD 4.5 AT1402 0LCCE00018A INDUCTOR, HB-4M3216-301J 100MHZ 300OHM C831 181-035N DE1010 B KD 471M AT1403 0LCCE00018A INDUCTOR, HB-4M3216-301J 100MHZ 300OHM C833 0CE476BK618 47UF KME 50V M FL TP5 AT1404 0LCCE00018A INDUCTOR, HB-4M3216-301J 100MHZ 300OHM C834 0CE476BK618 47UF KME 50V M FL TP5 AT1405 0LCCE00018A INDUCTOR, HB-4M3216-301J 100MHZ 300OHM C835 181-010K PP 0.01UF 630V 5% FM 7.5MM AT1406 0LCCE00018A INDUCTOR, HB-4M3216-301J 100MHZ 300OHM C836 0CE3366W650 33UF SMS,SG 500V 20% FM7.5 BULK AT1407 0LCCE00018A INDUCTOR, HB-4M3216-301J 100MHZ 300OHM C837 0CK1030K945 0.01UF 50V Z F TR AT1501 0LCCE00018A INDUCTOR, HB-4M3216-301J 100MHZ 300OHM C841 0CE108BF618 1000UF KME 16V M FL TP5 AT1502 0LCCE00018A INDUCTOR, HB-4M3216-301J 100MHZ 300OHM C842 0CE107BF618 100UF KME 16V M FL TP5 AT1503 0LCCE00018A INDUCTOR, HB-4M3216-301J 100MHZ 300OHM C843 0CK1040K945 0.1UF 50V Z F TR AT1504 0LCCE00018A INDUCTOR, HB-4M3216-301J 100MHZ 300OHM C845 0CE476BK618 47UF KME 50V M FL TP5 AT1505 0LCCE00018A INDUCTOR, HB-4M3216-301J 100MHZ 300OHM C852 0CE228BH61A 2200UF KME 25V M FL TP7.5 AT1506 0LCCE00018A INDUCTOR, HB-4M3216-301J 100MHZ 300OHM C853 0CE108BF618 1000UF KME 16V M FL TP5 AT1507 0LCCE00018A INDUCTOR, HB-4M3216-301J 100MHZ 300OHM C855 0CE228BF618 2200UF KME 16V M FL TP5 L01 0LC3332101A INDUCTOR, 33UH 10% 3216 C856 0CK1040K945 0.1UF 50V Z F TR L02 0LC3332101A INDUCTOR, 33UH 10% 3216 C857 0CE108BF618 1000UF KME 16V M FL TP5 L03 0LC3332101A INDUCTOR, 33UH 10% 3216 C859 181-091Q R 470PF 1KV 10%,-10% R/TP TP5 L1 0LA0102K119 INDUCTOR, 10UH K 2.3*3.4 TP C862 0CE228BH61A 2200UF KME 25V M FL TP7.5 L101 0LC0233002A INDUCTOR, 3.3UH C863 0CE108BF618 1000UF KME 16V M FL TP5 L101 0LC1032101A INDUCTOR, 10UH 10% 3216 C865 181-091Q R 470PF 1KV 10%,-10% R/TP TP5 L102 0LC1032101A INDUCTOR, 10UH 10% 3216 C866 0CE105CK636 1UF SHL,SD 50V M FM5 BP(D) TP L103 0LC0233002A INDUCTOR, 3.3UH R/TP C873 0CE228BK650 2200UF KME TYPE 50V 20% FM7.5 BULK L103 0LC1032101A INDUCTOR, 10UH 10% 3216 C876 0CE337DK618 330UF STD 50V M FL TP5 L104 0LC1032101A INDUCTOR, 10UH 10% 3216 C881 0CE477BJ618 470UF KME TYPE 35V 20% FL TP 5 L106 0LC0233002A INDUCTOR, 3.3UH R/TP C883 0CE227BH618 220UF KME 25V M FL TP5 L107 0LC2220101A INDUCTOR, 2.2UH 10% 2012 C884 181-091Q R 470PF 1KV 10%,-10% R/TP TP5 L108 0LC2220101A INDUCTOR, 2.2UH 10% 2012 C886 181-091Q R 470PF 1KV 10%,-10% R/TP TP5 L109 0LC2220101A INDUCTOR, 2.2UH 10% 2012 C9 0CE476VF6DC 47UF MV 16V 20% R/TP(SMD) SMD L110 0LC6832101A INDUCTOR, 6.8UH 10% 3216 L1100 6140VB0003A LQH31CN4R7M01L 4.7UH L1101 6140VB0003A LQH31CN4R7M01L 4.7UH C809 181-007J C814 0CE107BK618 C818 JACK JA1201 6613V00013D PMJ021D PARK ELEC A/V 9P L1102 6140VB0003A LQH31CN4R7M01L 4.7UH JA1202 6612VJH006B PJ6061D PARK ELEC. HORIZONTAL 2*3 6P L1103 6140VB0003A LQH31CN4R7M01L 4.7UH JA201 6613V00010B PMJ016B A/V 3P + S-VHS (RD WH YL) L1104 6140VB0003A LQH31CN4R7M01L 4.7UH JA202 6612JH003FA PPJ136A RN-52SZ10H,RE-44SZ20 L1105 6140VB0003A LQH31CN4R7M01L 4.7UH - 43 - LOCA. NO PART NO L1107 6140VB0003A L111 0LC6832101A L112 DESCRIPTION LOCA. NO PART NO DESCRIPTION LQH31CN4R7M01L 4.7UH T1302 0LCCE00017A INDUCTOR, HD-1M2012-301J 100MHZ 300OHM INDUCTOR, 6.8UH 10% 3216 T1303 0LCCE00017A INDUCTOR, HD-1M2012-301J 100MHZ 300OHM 0LC6832101A INDUCTOR, 6.8UH 10% 3216 T1304 0LCCE00017A INDUCTOR, HD-1M2012-301J 100MHZ 300OHM L113 0LC6832101A INDUCTOR, 6.8UH 10% 3216 T1401 0LCCE00017A INDUCTOR, HD-1M2012-301J 100MHZ 300OHM L114 0LC6832101A INDUCTOR, 6.8UH 10% 3216 T1402 0LCCE00017A INDUCTOR, HD-1M2012-301J 100MHZ 300OHM L117 0LC2220101A INDUCTOR, 2.2UH 10% 2012 T1403 0LCCE00017A INDUCTOR, HD-1M2012-301J 100MHZ 300OHM L120 0LC0233002A INDUCTOR, 3.3UH R/TP T1404 0LCCE00017A INDUCTOR, HD-1M2012-301J 100MHZ 300OHM L1200 6140VB0003A LQH31CN4R7M01L 4.7UH PHY TURN T1501 0LCCE00017A INDUCTOR, HD-1M2012-301J 100MHZ 300OHM L1200 0LC2232101A INDUCTOR, 22UH 10% 3216 T1502 0LCCE00017A INDUCTOR, HD-1M2012-301J 100MHZ 300OHM L1201 0LC2232101A INDUCTOR, 22UH 10% 3216 T1503 0LCCE00017A INDUCTOR, HD-1M2012-301J 100MHZ 300OHM L1203 0LC2232101A INDUCTOR, 22UH 10% 3216 T1504 0LCCE00017A INDUCTOR, HD-1M2012-301J 100MHZ 300OHM L1204 0LC2232101A INDUCTOR, 22UH 10% 3216 T801 6170VMCA03D TRANSFORMER,SMPS[COIL] EER4942 1200UH L1206 0LC2232101A INDUCTOR, 22UH 10% 3216 T810 6170VMCA37B TRANSFORMER,SMPS[COIL] PQ3535 310UH L1207 0LC2232101A INDUCTOR, 22UH 10% 3216 T830 6170VS0001B TRANSFORMER,STAND-BY EE1927 2200UH L1208 0LC3332101A INDUCTOR, 33UH 10% 3216 L121 0LC0233002A INDUCTOR, 3.3UH L122 0LC0233002A INDUCTOR, 3.3UH JA1200 6630VGA001B 68114-1522 MOLEX-KOR 15PIN 2.29MM L202 0LC1032101A INDUCTOR, 10UH 10% 3216 P001A 6602V12001D 1.25MM 10P 53261-1090 J-MOLEX SMD-TAPING L203 0LC1032101A INDUCTOR, 10UH 10% 3216 P001B 366-169J WAFER 2MM,10PIN,GIL-S L205 0LC1032101A INDUCTOR, 10UH 10% 3216 P001C 366-169J WAFER 2MM,10PIN,GIL-S L206 0LC1032101A INDUCTOR, 10UH 10% 3216 P002A 6602V12001B 1.25MM 3P 53261-0390 J-MOLEX SMD-TAPING L208 0LC1032101A INDUCTOR, 10UH 10% 3216 P003A 6602V12001G 1.25MM 8PINP 53261-0890 JPN-MOLEX LP-XG12 L209 0LC1032101A INDUCTOR, 10UH 10% 3216 P003B 366-169G L211 0LC1032101A INDUCTOR, 10UH 10% 3216 P003B 6602V12001G L212 0LC1032101A INDUCTOR, 10UH 10% 3216 P003C 366-169G L213 0LC1032101A INDUCTOR, 10UH 10% 3216 P1 6602V12001B L214 0LC1032101A INDUCTOR, 10UH 10% 3216 P100 366-009D L3 0LC1032101A INDUCTOR, 10UH 10% 3216 P101A 6932V25004A 36512-0098 MALE MOLEX 48 2.54 L301 0LCML00003B INDUCTOR, MLB-201209-0120P-N2 5A P102A 6932V25004A 36512-0098 MALE MOLEX 48 2.54 L302 0LCML00003B INDUCTOR, MLB-201209-0120P-N2 5A P103A 6932V25004A 36512-0098 MALE MOLEX 48 2.54 L303 0LCML00003B INDUCTOR, MLB-201209-0120P-N2 5A P110 366-043A L4 0LC1032101A INDUCTOR, 10UH 10% 3216 P1101 6602V12001D 1.25MM 10P 53261-1090 J-MOLEX SMD-TAPING L400 0LC6461201A INDUCTOR, TOKO R/TP P1102 6630V800208 794636-8 AMP 8P 3.0MM L401 0LC2220101A INDUCTOR, 2.2UH 10% 2012 P111 366-043A L402 0LCML00003B INDUCTOR, MLB-201209-0120P-N2 5A P1300 6630VZS001C 54104-3692 MOLEX 36PIN .MM ANGLE L403 0LCML00003B INDUCTOR, MLB-201209-0120P-N2 5A P1400 6630VZS001C 54104-3692 MOLEX 36PIN .MM ANGLE L405 0LCML00003B INDUCTOR, MLB-201209-0120P-N2 5A P1500 6630VZS001C 54104-3692 MOLEX 36PIN .MM ANGLE L5 0LC1032101A INDUCTOR, 10UH 10% 3216 P1600 366-932C 2.5MM 4P GIL-G LG CABLE S (STICK) L6 0LC1032101A INDUCTOR, 10UH 10% 3216 P1601 366-932B 2.5MM 3P GIL-G LG CABLE S (STICK) L602 0LC1032101A INDUCTOR, 10UH 10% 3216 P2 6602V12001B 1.25MM 3P 53261-0390 J-MOLEX SMD-TAPING L603 0LC1032101A INDUCTOR, 10UH 10% 3216 P201A 6932V25004A 36512-0098 MALE MOLEX 48 2.54 L604 0LC1032101A INDUCTOR, 10UH 10% 3216 P202A 6932V25004A 36512-0098 MALE MOLEX 48 2.54 L7 0LC1032101A INDUCTOR, 10UH 10% 3216 P204B 366-922L 2.5MM 12P GIL-G LG CABLE R/A (B TO C) L8 0LC1032101A INDUCTOR, 10UH 10% 3216 P301 366-921F 2.5MM 7P GIL-G LG CABLE . L841 150-C02F 82UH PHY TURN P4 6602V12001B 1.25MM 3P 53261-0390 J-MOLEX SMD-TAPING L851 150-C02F 82UH PHY TURN P400 6630V800108 794680-8 AMP 8P 3.0MM L853 150-C02F 82UH PHY TURN P401 366-922E 2.5MM 6P GIL-G LG CABLE R/A (B TO C) L861 150-C02F 82UH PHY TURN P402 366-921L 2.5MM 12P GIL-G LG CABLE . L871 150-C02F 82UH PHY TURN P403 366-932D 2.5MM 5P GIL-G LG CABLE S (STICK) L881 150-C02F 82UH PHY TURN P404 6630VGA004A 68107-0922 MOLEX 9PIN 2.77MM ANGLE GOLD L9 0LC1032101A INDUCTOR, 10UH 10% 3216 P5 6602V12001A 1.25MM 2P 53261-0290 J-MOLEX SMD-TAPING T1301 0LCCE00017A INDUCTOR, HD-1M2012-301J 100MHZ 300OHM P500 366-043A CONNECTOR - 44 - 2.0MM 8P GIL-S LG CABLE S 1.25MM 8PINP 53261-0890 JPN-MOLEX LP-XG12 2.0MM 8P GIL-S LG CABLE S 1.25MM 3P 53261-0390 J-MOLEX SMD-TAPING 2.36PAI 1P . K/M AUTO ASSY,PLUG(1P) ASSY,PLUG(1P) ASSY,PLUG(1P) LOCA. NO PART NO DESCRIPTION LOCA. NO PART NO DESCRIPTION 1.25MM 10P 53261-1090 J-MOLEX SMD-TAPING AR1204 0RRZVTA001D 22 OHM 1 / 16 W 1608 5% 2.5MM 12P GIL-G LG CABLE S (STICK) AR1205 0RRZVTA001D 22 OHM 1 / 16 W 1608 5% 1.25MM 2P 53261-0290 J-MOLEX SMD-TAPING AR1206 0RRZVTA001D 22 OHM 1 / 16 W 1608 5% P5B 6602V12001D P601A 366-932L P8 6602V12001A P801B 366-932C 2.5MM 4P GIL-G LG CABLE S (STICK) AR1207 0RRZVTA001D 22 OHM 1 / 16 W 1608 5% P801B 366-009D 2.36PAI 1P . K/M AUTO AR1208 0RRZVTA001D 22 OHM 1 / 16 W 1608 5% P801C 366-009D 2.36PAI 1P . K/M AUTO AR1209 0RRZVTA001D 22 OHM 1 / 16 W 1608 5% P802A 366-009D 2.36PAI 1P . K/M AUTO AR1210 0RRZVTA001D 22 OHM 1 / 16 W 1608 5% P802B 366-009D 2.36PAI 1P . K/M AUTO AR1211 0RRZVTA001D 22 OHM 1 / 16 W 1608 5% P802C 366-009D 2.36PAI 1P . K/M AUTO AR1212 0RRZVTA001D 22 OHM 1 / 16 W 1608 5% P803A 366-009D 2.36PAI 1P . K/M AUTO AR1213 0RRZVTA001D 22 OHM 1 / 16 W 1608 5% P803B 366-009D 2.36PAI 1P . K/M AUTO AR1214 0RRZVTA001D 22 OHM 1 / 16 W 1608 5% P804A 366-009D 2.36PAI 1P . K/M AUTO AR1215 0RRZVTA001D 22 OHM 1 / 16 W 1608 5% P804B 366-169B WAFER 2MM,3PIN,GIL-S AR1216 0RRZVTA001D 22 OHM 1 / 16 W 1608 5% P804B 366-009D 2.36PAI 1P . K/M AUTO AR1217 0RRZVTA001D 22 OHM 1 / 16 W 1608 5% P805 6631V23001J 2P 10.0MM 250MM H-H UL AR301 0RRZVTA001D 22 OHM 1 / 16 W 1608 5% P805A 366-009D 2.36PAI 1P . K/M AUTO AR302 0RRZVTA001D 22 OHM 1 / 16 W 1608 5% P805A 366-009D 2.36PAI 1P . K/M AUTO AR303 0RRZVTA001D 22 OHM 1 / 16 W 1608 5% P805B 366-169B WAFER 2MM,3PIN,GIL-S AR304 0RRZVTA001D 22 OHM 1 / 16 W 1608 5% P805B 366-009D 2.36PAI 1P . K/M AUTO AR305 0RRZVTA001D 22 OHM 1 / 16 W 1608 5% P805B 366-009D 2.36PAI 1P . K/M AUTO AR306 0RRZVTA001D 22 OHM 1 / 16 W 1608 5% P805C 366-009D 2.36PAI 1P . K/M AUTO D812 0RD0302F609 30 OHM 1/6 W 5.00% TA52 P805C 366-009D 2.36PAI 1P . K/M AUTO R1 0RD0752F609 75 OHM 1/6 W 5.00% TA52 P806A 366-009D 2.36PAI 1P . K/M AUTO R104 0RD1000H609 100 OHM 1/2 W 5.00% TA52 P806A 366-009D 2.36PAI 1P . K/M AUTO R106 0RD1000H609 100 OHM 1/2 W 5.00% TA52 P806B 366-009D 2.36PAI 1P . K/M AUTO R1253 0RN1002F409 10K OHM 1/6 W 1.00% TA52 P806B 366-009D 2.36PAI 1P . K/M AUTO R1606 0RF0331H609 3.3 OHM 1/2 W 5.00% TA52 P810 6602V39002A 3.96MM 2P YW396-03AV YEONHO STRAIGHT R1609 0RF0331H609 3.3 OHM 1/2 W 5.00% TA52 P815 366-932C 2.5MM 4P GIL-G LG CABLE S (STICK) R1615 0RS2201K607 2.2K OHM 2 W 5.00% TA62 P821 366-009D 2.36PAI 1P . K/M AUTO R1616 0RS2201K607 2.2K OHM 2 W 5.00% TA62 P821A 366-921L 2.5MM 12P GIL-G LG CABLE . R2 0RD4703F609 470K OHM 1/6 W 5.00% TA52 P822 366-009D 2.36PAI 1P . K/M AUTO R3 0RD4703F609 470K OHM 1/6 W 5.00% TA52 P822A 366-932D 2.5MM 5P GIL-G LG CABLE S (STICK) R4 0RD0752F609 75 OHM 1/6 W 5.00% TA52 P841 366-932E 2.5MM 6P GIL-G LG CABLE S (STICK) R402 0RN1201F409 1.2K OHM 1/6 W 1.00% TA52 R409 0RN2001F409 2K OHM 1/6 W 1.00% TA52 R425 0RN1201F409 1.2K OHM 1/6 W 1.00% TA52 RESISTOR AR100 0RRZVTA001A MNR-14-E0A-J-101 R OHM 100 OHM 5% R426 0RN1201F409 1.2K OHM 1/6 W 1.00% TA52 AR101 0RRZVTA001A MNR-14-E0A-J-101 R OHM 100 OHM 5% R5 0RD0752F609 75 OHM 1/6 W 5.00% TA52 AR102 0RRZVTA001A MNR-14-E0A-J-101 R OHM 100 OHM 5% R801 0RKZVTA001K 0.47M OHM 1/2 W 5% TA52 PILKOR AR103 0RRZVTA001A MNR-14-E0A-J-101 R OHM 100 OHM 5% R801B 0RD1801F609 1.8K OHM 1/6 W 5.00% TA52 AR104 0RRZVTA001A MNR-14-E0A-J-101 R OHM 100 OHM 5% R802B 0RD3301F609 3.3K OHM 1/6 W 5.00% TA52 AR105 0RRZVTA001A MNR-14-E0A-J-101 R OHM 100 OHM 5% R803 0RN3903F409 390K 1/6W 1% TA52 AR106 0RRZVTA001A MNR-14-E0A-J-101 R OHM 100 OHM 5% R803 0RN3903G409 390K OHM 1/4 W 1% TA52 AR1100 0RRZVTA001D 22 OHM 1 / 16 W 1608 5% R803B 0RD0562H609 56 OHM 1/2 W 5.00% TA52 AR1101 0RRZVTA001D 22 OHM 1 / 16 W 1608 5% R805 0RN3303G409 330K OHM 1/4 W 1.00% TA52 AR1102 0RRZVTA001D 22 OHM 1 / 16 W 1608 5% R805B 0RD3300F609 330 OHM 1/6 W 5.00% TA52 AR1103 0RRZVTA001D 22 OHM 1 / 16 W 1608 5% R806 0RN3903F409 390K 1/6W 1% TA52 AR1104 0RRZVTA001D 22 OHM 1 / 16 W 1608 5% R806 0RN3903G409 390K OHM 1/4 W 1% TA52 AR1105 0RRZVTA001D 22 OHM 1 / 16 W 1608 5% R807 0RN3903F409 390K 1/6W 1% TA52 AR1200 0RRZVTA001D 22 OHM 1 / 16 W 1608 5% R807 0RN3903G409 390K OHM 1/4 W 1% TA52 AR1201 0RRZVTA001D 22 OHM 1 / 16 W 1608 5% R808 0RD8201H609 8.2K OHM 1/2 W 5.00% TA52 AR1202 0RRZVTA001D 22 OHM 1 / 16 W 1608 5% R809 0RD0302F609 30 OHM 1/6 W 5.00% TA52 AR1203 0RRZVTA001D 22 OHM 1 / 16 W 1608 5% R811 180-A01B - 45 - RW ROUND G 2W 0.11 K TA31(63) LOCA. NO PART NO R812 0RN3903F409 R813 0RN3903F409 R814 DESCRIPTION LOCA. NO PART NO DESCRIPTION 390K 1/6W 1% TA52 FB861 125-123A FERRITE BFD3565R2F(TAPING) 390K 1/6W 1% TA52 FB871 125-123A FERRITE BFD3565R2F(TAPING) 0RN3903F409 390K 1/6W 1% TA52 FB872 125-123A FERRITE BFD3565R2F(TAPING) R815 0RD1203F609 120K OHM 1/6 W 5.00% TA52 L801 150-F06T SQE3535 20MH PHY TURN R816 0RD2202F609 22K OHM 1/6 W 5% TA52 L802 150-F06T SQE3535 20MH PHY TURN R817 0RD1202F609 12K OHM 1/6 W 5% TA52 L803 150-F06T SQE3535 20MH PHY TURN R818 0RD2200F609 220 OHM 1/6 W 5.00% TA52 L804 150-F06T SQE3535 20MH PHY TURN R819 0RN1002F409 10K OHM 1/6 W 1.00% TA52 T110 0IZZVF0022B AMF730F6M00X2(AF-9397) 15P R820 0RN1002F409 10K OHM 1/6 W 1.00% TA52 T1102 6200JB8009Q SCR470R220 NIIGATA R/TP RN52NZ10H R821 180-A01M 0.22 OHM 2 W 5% TA62 RW T1110 6200VJT006A STC222D NIIGATA 50VOLT 4A 2200PF R822 0RD1001F609 1K OHM 1/6 W 5% TA52 T1111 6200VJT006A STC222D NIIGATA 50VOLT 4A 2200PF R823 0RD2701F609 2.7K OHM 1/6 W 5% TA52 T1112 6200VJT006A STC222D NIIGATA 50VOLT 4A 2200PF R824 0RD0332H609 33 OHM 1/2 W 5.00% TA52 T250 6200C000012 TH355LSK-K5218 KOREA TOKO BK 4FW TYPE R825 0RD4701F609 4.7K OHM 1/6 W 5% TA52 T251 6200C000012 TH355LSK-K5218 KOREA TOKO BK 4FW TYPE R826 0RS2202K607 22K OHM 2 W 5.00% TA62 T400 6200QJ3001A EMI REEL/TAPING BMS400 NIGATA 25V 200MA R827 0RS1202K607 12K OHM 2 W 5.00% TA62 T401 6200VJT006A STC222D NIIGATA 50VOLT 4A 2200PF R829 0RKZVTA001D 10M OHM 1/2 W 5% TA52 T401 6200QJ3001A EMI REEL/TAPING BMS400 NIGATA 25V 200MA R831 0RS4702K607 47K OHM 2 W 5.00% TA62 T402 6200VJT006A STC222D NIIGATA 50VOLT 4A 2200PF R833 0RS0161K607 1.6 OHM 2 W 5.00% TA62 T402 6200QJ3001A EMI REEL/TAPING BMS400 NIGATA 25V 200MA R834 0RS1203K607 120K OHM 2 W 5.00% TA62 T403 6200VJT006A STC222D NIIGATA 50VOLT 4A 2200PF R835 0RF0221H609 2.2 OHM 1/2 W 5.00% TA52 T406 6200QJ3001A EMI REEL/TAPING BMS400 NIGATA 25V 200MA R840 0RD1601F609 1.6K OHM 1/6 W 5.00% TA52 T407 6200QJ3001A EMI REEL/TAPING BMS400 NIGATA 25V 200MA R841 0RD1501F609 1.5K OHM 1/6 W 5% TA52 T408 6200QJ3001A EMI REEL/TAPING BMS400 NIGATA 25V 200MA R842 0RD3001F609 3K OHM 1/6 W 5.00% TA52 T409 6200QJ3001A EMI REEL/TAPING BMS400 NIGATA 25V 200MA R843 0RD2701F609 2.7K OHM 1/6 W 5% TA52 T410 6200QJ3001A EMI REEL/TAPING BMS400 NIGATA 25V 200MA R844 0RD3601F609 3.6K OHM 1/6 W 5.00% TA52 T414 6200QJ3001A EMI REEL/TAPING BMS400 NIGATA 25V 200MA R845 0RD4701F609 4.7K OHM 1/6 W 5% TA52 T415 6200QJ3001A EMI REEL/TAPING BMS400 NIGATA 25V 200MA R851 0RD2401F609 2.4K OHM 1/6 W 5.00% TA52 T416 6200QJ3001A EMI REEL/TAPING BMS400 NIGATA 25V 200MA R852 0RD1501F609 1.5K OHM 1/6 W 5% TA52 T417 6200QJ3001A EMI REEL/TAPING BMS400 NIGATA 25V 200MA R853 0RD3601F609 3.6K OHM 1/6 W 5.00% TA52 T418 6200QJ3001A EMI REEL/TAPING BMS400 NIGATA 25V 200MA R854 0RD2701F609 2.7K OHM 1/6 W 5% TA52 T419 6200QJ3001A EMI REEL/TAPING BMS400 NIGATA 25V 200MA R855 0RD1601F609 1.6K OHM 1/6 W 5.00% TA52 T420 6200QJ3001A EMI REEL/TAPING BMS400 NIGATA 25V 200MA R857 0RD1201F609 1.2K OHM 1/6 W 5% TA52 T421 6200QJ3001A EMI REEL/TAPING BMS400 NIGATA 25V 200MA R871 0RD1002H609 10K OHM 1/2 W 5.00% TA52 T422 6200QJ3001A EMI REEL/TAPING BMS400 NIGATA 25V 200MA R90 0RN4701F409 4.7K OHM 1/6 W 1.00% TA52 T423 6200QJ3001A EMI REEL/TAPING BMS400 NIGATA 25V 200MA SWITCH T424 6200VJT006A STC222D NIIGATA 50VOLT 4A 2200PF T425 6200VJT006A STC222D NIIGATA 50VOLT 4A 2200PF SW01 140-315A TACT SKHV17910B LG C&D NON 12V T426 6200QJ3001A EMI REEL/TAPING BMS400 NIGATA 25V 200MA SW02 140-315A TACT SKHV17910B LG C&D NON 12V T427 6200QJ3001A EMI REEL/TAPING BMS400 NIGATA 25V 200MA SW03 140-315A TACT SKHV17910B LG C&D NON 12V T430 6200QJ3001A EMI REEL/TAPING BMS400 NIGATA 25V 200MA SW04 140-315A TACT SKHV17910B LG C&D NON 12V T431 6200QJ3001A EMI REEL/TAPING BMS400 NIGATA 25V 200MA SW05 140-315A TACT SKHV17910B LG C&D NON 12V T432 6200QJ3001A EMI REEL/TAPING BMS400 NIGATA 25V 200MA SW06 140-315A TACT SKHV17910B LG C&D NON 12V T438 6200QJ3001A EMI REEL/TAPING BMS400 NIGATA 25V 200MA SW07 140-315A TACT SKHV17910B LG C&D NON 12V T440 6200VJT006A STC222D NIIGATA 50VOLT 4A 2200PF SW2 140-313A TACT 2LEAD 100G(TA) LG C&D NON 5V T444 6200QJ3001A EMI REEL/TAPING BMS400 NIGATA 25V 200MA SW801 140-289A POWER SDDF3PASP013 LG C&D UL/C T446 6200QJ3001A EMI REEL/TAPING BMS400 NIGATA 25V 200MA X1 156-A01L RESONATOR,CRYSTAL HC49U 6.000MHZ 30PPM X101 6202VDT002E RESONATOR,CRYSTAL SX-1SMD 20250000HZ 30PPM CRYSTAL & FILTER FB819 125-123A FERRITE BFD3565R2F(TAPING) X102 6202VDT002E RESONATOR,CRYSTAL SX-1SMD 20250000HZ 30PPM FB820 125-022K FERRITE 1UH TAPING X1100 6202VDT002D RESONATOR,CRYSTAL SX-1SMD 8.0MHZ 30PPM FB821 125-022K FERRITE 1UH TAPING X1201 156-A01B RESONATOR,CRYSTAL HC49U 3.579545MHZ 30PPM FB822 125-022K FERRITE 1UH TAPING X1202 156-A01E RESONATOR,CRYSTAL HC49U 4.000MHZ 30PPM - 46 - LOCA. NO PART NO DESCRIPTION LOCA. NO X401 6212AB2015D RESONATOR,CRYSTAL HC-49/SM 16MHZ +/- 50 PPM X601 156-A02M RESONATOR,CRYSTAL HC49U 18.432MHZ 30PPM ACCESSORIES A1 3828VA0401A MANUAL,OWNERS MB03CA NEU LG EN 100E TX A2 6710V00100E REMOTE CONTROLLER, NB03JA MONO MISCELLANEOUS F800 0FS5001B51D FUSE,SLOW BLOW5000MA 250 V 5.2X20 IC3 6620VF3201A SOCKET(CIRC),IC822473-3 AMP 32PIN 2.54MM L852 6170VZ0005A TRANSFORMER,IRON-15 120UH NTC801 163-048D THERMISTOR, KL15L2R5 SSANSHIN +/- 15% 125V NTC802 163-048D THERMISTOR,KL15L2R5 SSANSHIN +/- 15% 125V PA1 6726VH0001A REMOTE CONTROLLER RECEIVER, TSOP1238RF1 TU101 6700MF0001C TUNER, TAUD-Z240D LG MULTI FS 4SYS,2IN1,MAIN TU102 6700MF0001D TUNER, TAFD-Z241P LG MULTI FS 4SYS,2 IN 1,SUB VA800 164-003K X300 6204B60001B VARISTOR,SVC621D-14A ILJIN 620V 0% OSCILLATOR,VCXO 27MHZ +/- 100 PPM 3.3V - 47 - PART NO DESCRIPTION P/No : 3854VA0117C-S1(1/2) 2003.10.8 P/No : 3854VA0117C-S1(2/2) 2003.10.8 P/No : 3854VA0117C-S2(1/2) 2003.10.8 P/No : 3854VA0117C-S2(2/2) 2003.10.8 S VC. SHEET : 3854VA0117C-S1 S VC. SHEET : 3854VA0117C-S2 S VC. SHEET :
Source Exif Data:
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