flat panel display pfm-42x1 pfm-42x1n - … panel display pfm-42x1 pfm-42x1n component/rgb active...
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FLAT PANEL DISPLAY
PFM-42X1PFM-42X1NCOMPONENT/RGB ACTIVE THROUGH ADAPTORBKM-V12
SPEAKER SYSTEMSS-SP20BSS-SP20S
REMOTE COMMANDERRM-971
SERVICE MANUAL1st Edition
PFM-42X1/42X1N
! WARNINGThis manual is intended for qualified service personnel only.To reduce the risk of electric shock, fire or injury, do not perform any servicing other than thatcontained in the operating instructions unless you are qualified to do so. Refer all servicing toqualified service personnel.
! WARNUNGDie Anleitung ist nur für qualifiziertes Fachpersonal bestimmt.Alle Wartungsarbeiten dürfen nur von qualifiziertem Fachpersonal ausgeführt werden. Um dieGefahr eines elektrischen Schlages, Feuergefahr und Verletzungen zu vermeiden, sind beiWartungsarbeiten strikt die Angaben in der Anleitung zu befolgen. Andere als die angegebenWartungsarbeiten dürfen nur von Personen ausgeführt werden, die eine spezielle Befähigungdazu besitzen.
! AVERTISSEMENTCe manual est destiné uniquement aux personnes compétentes en charge de l’entretien. Afinde réduire les risques de décharge électrique, d’incendie ou de blessure n’effectuer que lesréparations indiquées dans le mode d’emploi à moins d’être qualifié pour en effectuer d’autres.Pour toute réparation faire appel à une personne compétente uniquement.
PFM-42X1/42X1N
CAUTION
Danger of explosion if battery is incorrectly replaced.
Replace only with the same or equivalent typerecommended by the manufacturer.Dispose of used batteries according to themanufacturer’s instructions.
Vorsicht!
Explosionsgefahr bei unsachgemäßem Austauschder Batterie.
Ersatz nur durch denselben oder einen vomHersteller empfohlenen ähnlichen Typ. Entsorgung
gebrauchter Batterien nach Angaben desHerstellers.
ATTENTION
Il y a danger d’explosion s’il y a remplacementincorrect de la batterie.
Remplacer uniquement avec une batterie du mêmetype ou d’un type équivalent recommandé par le
constructeur.Mettre au rebut les batteries usagées conformément
aux instructions du fabricant.
ADVARSEL!
Lithiumbatteri-Eksplosionsfare ved fejlagtighåndtering.
Udskiftning må kun ske med batteriaf samme fabrikat og type.
Levér det brugte batteri tilbage til leverandøren.
ADVARSEL
Lithiumbatteri - Eksplosjonsfare.Ved utskifting benyttes kun batteri som
anbefalt av apparatfabrikanten.Brukt batteri returneresapparatleverandøren.
VARNING
Explosionsfara vid felaktigt batteribyte.Använd samma batterityp eller en likvärdig typsom rekommenderas av apparattillverkaren.
Kassera använt batteri enligt gällandeföreskrifter.
VAROITUS
Paristo voi räjähtää jos se on virheellisestiasennettu.
Vaihda paristo ainoastaan laitevalmistajansuosittelemaan tyyppiin.
Hävitä käytetty paristo valmistajan ohjeidenmukaisesti.
1 (P)
PFM-42X1/42X1N2 (P)
For the customers in the NetherlandsVoor de klanten in Nederland
Hoe u de batterijen moet verwijderen, leest u in de tekstvan deze handleiding.
Gooi de batterij niet weg maar lever deze in als kleinchemisch afval (KCA).
Für Kunden in Deutschland
Entsorgungshinweis: Bitte werfen Sie nur entladeneBatterien in die Sammelboxen beim Handel oder denKommunen. Entladen sind Batterien in der Regel dann,wenn das Gerät abschaltet und signalisiert “Batterieleer” oder nach längerer Gebrauchsdauer der Batterien“nicht mehr einwandfrei funktioniert”. Umsicherzugehen, kleben Sie die Batteriepole z.B. miteinem Klebestreifen ab oder geben Sie die Batterieneinzeln in einen Plastikbeutel.
1PFM-42X1/42X1N
Table of Contents
1. Service Overview
1-1. Appearance Figure ...................................................................................... 1-1
1-2. Board Locations .......................................................................................... 1-1
1-3. Disassembly ................................................................................................ 1-21-3-1. BKM-V10 .................................................................................. 1-41-3-2. Rear Cover Assembly ................................................................ 1-41-3-3. Bezel Assembly 1 ....................................................................... 1-51-3-4. Bezel Assembly 2 ....................................................................... 1-61-3-5. Plasma Display Panel 1 .............................................................. 1-71-3-6. Plasma Display Panel 2 .............................................................. 1-81-3-7. Litium Battery ............................................................................ 1-91-3-8. A Board ...................................................................................... 1-91-3-9. CTRL Board ............................................................................. 1-101-3-10. XRB Board and XLB Board .................................................... 1-101-3-11. XRT Board and XLT Board ..................................................... 1-111-3-12. YDB Board and YDT Board .................................................... 1-121-3-13. Z-SUS Board ............................................................................ 1-121-3-14. Y-SUS Board ........................................................................... 1-13
1-4. Warning on Power Connection ................................................................. 1-13
2. Electrical Adjustment
2-1. Setup Adjustment ........................................................................................ 2-1
2-2. White Balance Adjustment ......................................................................... 2-12-2-1. Initialization ............................................................................... 2-12-2-2. AD Calibration ........................................................................... 2-12-2-3. White Balance Adjustment ........................................................ 2-22-2-4. Shipment Condition Setting ....................................................... 2-2
2-3. Panel Adjustment ........................................................................................ 2-32-3-1. Application Object ..................................................................... 2-32-3-2. Notes .......................................................................................... 2-32-3-3. Adjustment Items ....................................................................... 2-32-3-4. Adjusting the Board Group (Applying the Tools) ..................... 2-32-3-5. Adjustment after Assembling (PDP Module Adjustment) ......... 2-4
2-4. Troubleshooting .......................................................................................... 2-72-4-1. Checking for No Picture ............................................................. 2-72-4-2. Hitch Diagnosis Based on the Display Condition ...................... 2-92-4-3. Checking for Component Damage ........................................... 2-12
2 PFM-42X1/42X1N
3. Troubleshooting Guide
3-1. Out of Order on Power ................................................................................ 3-1
3-2. No Raster State ............................................................................................ 3-3
3-3. Sound Troubleshooting ............................................................................... 3-7
4. Spare Parts
4-1. Notes on Repair Parts .................................................................................. 4-1
4-2. Exploded Views .......................................................................................... 4-2
1-1PFM-42X1/42X1N
Section 1Service Overview
1-1. Appearance Figure
1-2. Board Locations
Z-SUS
G (Power)
A (Main)
L (Audio)
T (R) (SP)
DDC CI
H2 (User control)
T (L) (SP)
XLB
XLT
CTRL
TEMP
Y-SUS
H1 (SW)
XRB
XRT
BKM-V10
YDB
YDT
1-2 PFM-42X1/42X1N
1-3. Disassembly
1-3-5. Plasma Display Panel 1
1-3-6. Plasma Display Panel 2
1-3-1. BKM-V10 1-3-2. Rear Cover Assembly
1-3-3. Bezel Assembly 1
1-3-4. Bezel Assembly 2
A
Upper Side
Upper Side
Upper Side
Upper Side
Upper Side
Upper Side
Upper Side
Upper Side
Upper Side
1-3PFM-42X1/42X1N
A
1-3-10. XRB Board and XLB Board
1-3-9. CTRL Board
1-3-11. XRT Board and XLT Board
1-3-7. Lithium Battery
1-3-8. A Board
1-3-12. YDB Board and YDT Board
1-3-14. Y-SUS Board
1-3-13. Z -SUS BoardFor removal procedure, refer to "Plasma Display Panel 1.2".
For removal procedure, refer to "Plasma Display Panel 2".
Upper Side
Upper Side
Upper Side
Upper Side
Upper Side
Upper Side
Upper Side
Upper Side
1-4 PFM-42X1/42X1N
1 Loosen the two screws.
2 BKM-V10
A (Main) board
CN7
1-3-1. BKM-V10
Conductive cushion
5 Rear cover assembly
3 Ten screws
1 Four screws2 Four hooks
4 Fourteen screws
Upper Side
1-3-2. Rear Cover Assembly
1-5PFM-42X1/42X1N
Conductive cushion
Conductive cushion
2 Peel off the four tapes.
1 Peel off the four tapes.
3 Two screws7 Four screws
9 Two screws
0 Temp board
!- Multi button, H2 board, Bracket
4 T board (L), Two brackets
8 Two brackets
6 T board (R), Two brackets
5 Three screws
P501
CN1101
CN1304
CN1302
Upper Side
Upper Side
1-3-3. Bezel Assembly 1
1-6 PFM-42X1/42X1N
Conductive cushion
Conductive cushion
Bezel assembly, etc.
Note : When removing the main chassis, be sure that the two persons or more must work together for removal. Place the removed main chassis on the conductive cushion.
3 Four screws
2 Screw
1 Four screws
H1 board
4 Connector
5 Main chassisCN201
Conductive cushion
![ Bezel assembly
6 Nine screws
7 Frame front assembly
0 Screw
8 Two screws
!- Power button
9 H1 board
!= Filter glass
Upper Side
Upper Side
Upper Side
1-3-4. Bezel Assembly 2
1-7PFM-42X1/42X1N
Conductive cushion
3 Screw
4 Temp board
P501
CN800
1 Two screws
7 Two screws
2 D.C. fan, Bracket
8 D.C. fan, Bracket
5 Three screws 6 AC inlet, AC socket cover
Conductive cushion
0 DDC CI board
CN301
CN901
CN302CN303
!- Four screws
!= L (Audio) board9 Two screws
Upper Side
Upper Side
1-3-5. Plasma Display Panel 1
1-8 PFM-42X1/42X1N
Conductive cushion
Conductive cushion
1 Eight screws2 Holder
5 Four screws6 Four screws
7 A board, Two frame module metal assemblies, etc.
8 Plasma display panel
4 Two screws
3 G board
CN808
CN801
CN802CN803
CN806CN807
P9
Upper Side
Upper Side
1-3-6. Plasma Display Panel 2
1-9PFM-42X1/42X1N
Conductive cushion
Remove the lithium battery in the direction of arrow.
Lithium battery(CR2032)
Battery holder
Lithium battery removal
1 Four screws
3 Four screws
5 Lithium battery
2 Two fans and brackets
4 Shield
Upper Side
1-3-7. Litium Battery
1-3-8. A Board
Conductive cushion
1 Seven screws
2 Six hexagon screws
3 A board
3 ShieldCN22
CN501
CN3CN19
CN23CN8
CN9
CN5CN2 CN1
Upper Side
1-10 PFM-42X1/42X1N
P105
P106
P103P102
2 A board, Two frame module metal assemblies, etc.
1 G board
3 Five screws
4 CTRL board
Conductive cushion
For removal procedure, refer to "Plasma Display Panel 2".
Upper Side
P300 P201P2
P200
1-3-9. CTRL Board
P540P530
P520
P510
P710
P740P700
P730
P720
3 A board, Two frame module metal assemblies, etc.
6 Three screws
4 Three screws
5 XRB board
7 XLB board
Conductive cushion
2 G board
For removal procedure, refer to "Plasma Display Panel 1.2".
1 AC inlet, AC socket cover
Upper Side
P750
P550
1-3-10. XRB Board and XLB Board
1-11PFM-42X1/42X1N
1 Nine screws
3 Three screws
4 Remove the XRT board in the direction of the arrow B.
0 Remove the XLT board in the direction of the arrow B.
2 Open the G board in the direction of the arrow A.
Conductive cushion
P340P330
P320
P350
P310P300
P110
P120P130
P140P100
P150
AB
G board
8 Open the G board in the direction of the arrow A.
Conductive cushion
A
B
9 Three screws
Conductive cushion
XRT Board
XLT Board
5 Two screws
6 Temp board
7 Multi button, H2 board, Bracket
Upper Side
Upper Side
Upper Side
1-3-11. XRT Board and XLT Board
1-12 PFM-42X1/42X1N
Conductive cushion
5 Five screws
6 Z-SUS board
P1
P2
P3P4
P5
P6
4 T board (R), Two brackets
2 Bracket
3 Three screws
1 Two screws
Upper Side
Conductive cushion
1 Two screws
2 T board (L), Two brackets
8 Bracket
7 Two screws
5 Screw
9 Two screws
4 D.C. fan, Fan Bracket
6 Remove the YDB board in the direction of the arrow A.
0 Remove the YDT board in the direction of the arrow B.
3 Two screws
P18
P19
P20 P22P21
P15
P5
P4
P24P23
P25P26
P27P28
A
B
Upper Side
1-3-12. YDB Board and YDT Board
1-3-13. Z-SUS Board
1-13PFM-42X1/42X1N
1-4. Warning on Power Connection
Use the proper power cord for your local power supply.
PFM-42X1 series
United State, Canada Continental Europe United Kingdom, Ireland, Austria, JapanNew Zealand
Plug type VM0233 COX-07 636 _ a) VM1296
Female end VM0089 COX-02 VM0310B VM0303B VM1313
Cord type SVT H05VV-F CEE (13) 53rd (O, C) HVCTF
Minimum cord set rating 10A/125V 10A/250V 10A/250V 10A/125V
Safety approval UL/CSA VDE VDE DENAN-HO
a) Note : Use an appropriate rating plug which complies with local regulations.
1-3-14. Y-SUS Board
1 Five screws
2 Y-SUS board
P5
P3
P1
P2
Conductive cushion
Upper Side
2-1PFM-42X1/42X1N
Section 2Electrical Adjustment
3) Place the luminance meter (e.g. CA-110) 50 cm awayfrom the monitor. Align it with the vertical center ofthe display, and adjust the focus to the optimum levelby using an eyepiece.
4) Place the monitor and the luminance meter (e.g. CA-110) in a light-shielded room for adjustment.
5) Set up [SERVICE MODE] of the monitor.
3. OperationFor quick setup, set the data manually. Set Brightness,Contrast, and Backlight to 50, 70, and 100 respectively.Then, set the color temperature by adjusting its defaultvalue.
4. Warm up timeWarm up for 30 minutes or more before performing anyadjustment.
2-2. White Balance Adjustment
2-2-1. Initialization
1) Input Enter → 1 → 8 → 2 from the remote controllerin this order to display SERVICE MODE OSD.
2) Select INITIALIZATION menu and, execute FILL0xFF. (When the initialization is completed, the powerturns off and restarts automatically.)
2-2-2. AD Calibration
Execute Auto Calibration as follows by using a PC (1024x 768 60 Hz) signal.
1. PC signal1) Display SERVICE MODE OSD and select the AD
CALIBRATION menu.2) Input Full Black (no video) pattern.3) Execute PC. CUTOFF.4) Input Full White pattern.5) Execute PC.GAIN.
2-1. Setup Adjustment
. Required equipmentsRemote commander (RM-971)Digital voltmeterLuminance meter :Minolta CA-110 or equivalent
If Minolta CA-110 or equivalent isnot available, make adjustment bycomparing the monitor with thereference LCD monitor that hasalready been calibrated correctly.
Signal generator : VG-854 or equivalent
. Preparation of the luminance meterPlace the light receptor block of the luminance meterabout 50 cm away from the monitor screen as shown.
1. How to enter the service mode
1) Turn on the power.2) Input Enter → 1 → 8 → 2 from the remote controller
in this order to display SERVICE MODE OSD.3) Select INITIALIZATION menu, and execute FILL
0xFF.(When the initialization is completed, the power turnsoff and restarts automatically.)
nW/B readjustment is required after the panel, board ormicroprocessor is replaced. However, before W/B adjust-ment, be sure to perform aging for more than 30 minutesafter RGB reset.
2. Setup1) Set the timing and pattern data for the signal generator
according to the Sony timing specifications.2) Connect the monitor video cable to the signal genera-
tor.
about 50 cmLuminance meter Monitor
2-2 PFM-42X1/42X1N
2-2-3. White Balance Adjustment
After aging the unit about 30 minutes, adjust the colormatrix of each one of the color temperatures of 11000 K,9300 K, and 6500 K as follows.
1. Preparation of adjustment1) Equipment : Signal generator (e.g. : VG-854), lumi-
nance meter (e.g. : CA-110)2) Signals type : If a detailed timing is needed, refer to
Sony Timing Specifications.PC XGA (1024 x 768 60 Hz)1080I (Y/Pb/Pr)480P (Y/Pb/Pr)NTSC CompositePAL Composite480I (NTSC Composite)575I (PAL Composite)
3) Signal level : 700 mVpp4) Signal pattern : Full White, 16-step gray pattern
2. Color matrix adjustmentExecute the following programs in the following sequence: PC → 1080i → 480p → 480i → 575i → NTSC Compos-ite → PAL Composite.1) After inputting each signal, adjust Sub-Offset.
. Input 16-step gray pattern.
. Display SERVICE MODE OSD and select theWHITE BALANCE menu.
. Change Sub-Offset, and adjust the brightness of thesecond step of the 16 steps of gray to be 0.5 cm/m2
or less.(Sub-Offset : ±0.1)
2) Input Full White pattern.3) Set the values of R-GAIN and R/G/B-OFFSET in the
WHITE BALANCE menu as shown in the followingfigure.
PC 1080I 480P 480I 575I NTSC PAL
R-GAIN 33 34 34 34 34 34 34
R-OFFSET 61 51 51 52 51 57 53
G-OFFSET 60 53 52 52 52 62 57
B-OFFSET 63 52 51 52 51 60 55
4) Adjust the color matrix by changing the values of G-GAIN and B-GAIN. (Refer to SONY Color MatrixSpecifications)11000 K : x=276 (±15), y=282 (±15)9300 K : x=283 (±15), y=298 (±15)6500 K : x=313 (±15), y=329 (±15)
5) Adjust each of the color temperatures of 11000 K,9300 K, and 6500 K by repeating steps 3) and 4).
2-2-4. Shipment Condition Setting
Set the shipment condition (Refer to SONY Color MatrixSpecifications.).
1) Display the SERVICE MODE OSD menu.2) Select the FOR TEST menu, and execute INIT
GOODS.(When INIT GOODS is completed, the power turnsoff and restarts automatically.)
2-3PFM-42X1/42X1N
2-3. Panel Adjustment
2-3-1. Application Object
This standard is applied to the PDP42X1##7# PDPModule, which is manufactured by the manufacturing teamof PDP promotion department or elsewhere.
2-3-2. Notes
1) Without any special indication, the module should beat the preliminary condition more than 10 minutesbefore adjustment.. Service signal : 100% Full White signal. Service DC voltage : Vcc : 5 V, Va : 65 V, Vs : 190 V. DC/DC Pack voltage : V1st : 115 V, Vscw : 110 V,
_Vy : _175 V, Vzb=105 V. Preliminary environment : Temperature (25 ±5dC),
relative humidity (65 ±10%)2) After assembling the module, perform aging under the
following conditions for stabilizing its operation beforestarting the adjustment.. Service signal : 100% Full White, Red, Green, Blue
pattern signals (Service time of each pattern : within5 minutes/cycle)
. Service DC voltage : Match the voltage with thesetup voltage at the first adjustment.
. Aging period : 4 hours or more
. Aging environment : Temperature (60 ±2dC),relative humidity 75% or less
3) Module adjustment should be performed in thefollowing sequence.. Set the initial voltage and adjust the voltage wave-
form of Vsetup.. Measure the margin of the Vs voltage and determine
the voltage.. Adjust and check the voltage of DC/DC pack (V1st,
Vsc, _Vy, _Vzb).. Adjust the voltage waveform of Vset-down.. Measure the margin of the Vset-up voltage and
determine the voltage.. Adjust the waveform of the final voltage. The
adjustment value above may vary depending onindividual units.
4) Without any special indication, adjust the moduleunder the ambient temperature of 25 ±5dC and therelative humidity of 65 ±10%.
cIf you leave the still image displayed for more than 10minutes (especially the digital pattern or cross hatchpattern, which has a clear gradation), afterimage mayremain in the black level part of screen.
2-3-3. Adjustment Items
1. Adjusting the board group1) Adjusting the voltage waveform of Vset-up2) Adjusting the voltage waveform of Vset-down3) Adjusting the voltage waveform of Vzb
2. Adjustment after assembling (PDP moduleadjustment)
1) Set the initial voltage and adjust the voltage waveformof Vsetup.
2) Measure the margin of Vs voltage and determine thevoltage.
3) Adjust and check the voltage of DC/DC pack (V1st,Vsc, _Vy, _Vzb).
4) Adjust the voltage waveform of Vset-down.5) Measure the margin of the Vset-up voltage and
determine the voltage.6) Adjust the waveform of the final voltage.
2-3-4. Adjusting the Board Group (Applyingthe Tools)
1. Required tools1) Digital oscilloscope : 200 MHz or more2) DVM (Digital Multimeter) : Fluke 87 or equivalent3) Signal generator : VG-854 or equivalent4) DC power supply
. DC power supply for Vs (1) : Should be changeablemore than 0-200 V/ more than 10 A.
. DC power supply for Va (1) : Should be changeablemore than 0-100 V/ more than 5 A.
. DC power supply for 5 V (1) : Should be changeablemore than 0-10 V/ more than 10 A.
. DC-DC converter tool (1) : The tool that can outputthe voltage equivalent to that of the PDF42x1##7#module by using the Vs, Va, or 5 V voltage.
. Voltage stability of the power supply : Within ±1%for Vs/Va, within ±3% for 5 V
2. Connection diagram of the measuringinstrument and setting up the initial voltage
1) Connection diagram of measuring instrumentRefer to Fig. 1 (Connection diagram of measuringinstrument that adjusts the voltage waveform).
2) Setting up the initial voltageInitial-setup voltage : Vcc : 5 V, Va : 65 V, Vs : 190 VAdjust, the initial-setup voltage within the setup rangeaccording to the module’s characteristics.
2-4 PFM-42X1/42X1N
3. How to adjust1) Adjusting the voltage waveform of Vsetup
1 Connect the measuring instrument as shown in theconnection diagram Fig. 1.
2 Turn on the power of the measuring instrument asdescribed in c under Fig. 1.
3 Connect the oscilloscope probe to the P4 connect-er (80-pin) of Y-SUS PCB and GND.
4 Turn the VR1 of Y-SUS PCB to adjust thewaveform “A” in the following figure to be 10 ±5µs.
2) Adjusting the Vset-down voltage waveform1 Turn the VR2 of Y-SUS PCB to adjust the
waveform “B” in the following figure to be 120±5 µs.
3) Adjusting the Vzb voltage waveform1 Turn the VR2 of Z-SUS PCB to adjust the wave-
form “C” in the following figure to be 33 ±5 µs.
Y, Z set-up waveform
A 10 ±5 us
VSC: 110 ±1 V
B 120 ±5 us
_Vy: 175 ±1 V
Vzb: 105 ±1 V
140 us
C 33 ±5c us
Vs
Vset-up = Vs
Z B/D waveform
2-3-5. Adjustment after Assembling (PDPModule Adjustment)
1. Required Tools1) Digital oscilloscope : 200 MHz or more2) DVM (Digital multimeter) : Fluke 87 or equivalent3) Signal generator : VG-854 or equivalent4) DC power supply
. DC power supply for Vs (1) : Should be changeablemore than 0-200 V/ more than 10 A.
. DC power supply for Va (1) : Should be changeablemore than 0-100 V/ more than 5 A.
. DC power supply for 5 V (1) : Should be changeablemore than 0-10 V/ more than 10 A.
. DC-DC converter tool (1) : The tool that can outputthe voltage equivalent to that of the PDF42x1##7#module by using the Vs, Va, or 5 V voltage.
. Voltage stability of the power supply : Within ±1%for Vs/Va, within ±3% for 5 V.
2. Connection diagram of the measuringinstrument and setting up the initial voltage
1) Refer to fig 1. (Connection diagram of measuringinstrument that adjusts the voltage waveform).
2) Initial-setup Voltage : Vcc : 5 V, Va : 65 V, Vs : 190 VAdjust the initial-setup voltage within the setup rangeaccording to the module’s characteristics.
3. How to adjust1) Adjusting the initial voltage waveform
Check the voltage waveform by following the steps in2-3-4 (3. How to adjust), and readjust the waveformwhen it is out of range.
2) Checking the DC/DC pack voltage1 Switch the signal of the signal generator to the
100% Full White signal.2 Connect the GND probe of DVM to the R16’s
right leg of the Y B/D, and connect the positiveprobe to the left leg of R30 to check the V1stvoltage (115 ±1 V). When there is abnormality inthe voltage, turn the variable resistor PS1 of DC/DC Pack (V1st) on Y B/D to adjust it.
3 Connect the GND probe of DVM to P4 of the YB/D, and connect the positive probe to the lowerleg of R37 (or R50) to check the Vsc voltage (115±1 V). When there is abnormality in the voltage,turn the variable resistor (PS3) of DC/DC Pack(Vsc) on Y B/D to adjust it.
2-5PFM-42X1/42X1N
4 Connect the GND probe of DMV to the GND ofthe Y B/D, and connect the positive probe to thelower leg of R44 to check the _Vy voltage (_175±1 V). When there is abnormality in the voltage,turn the variable resistor (PS2) of DC/DC Pack(_Vy) on Y B/D to adjust it.
5 Connect the GND probe of DVM to the GND ofthe Z B/D, and connect the positive probe to theupper leg of B34 to check the Vzb voltage (_105±1 V). When there is abnormality in the voltageturn the variable resistor (A2) of DC/DC Pack(_Vzb) on Z B/D to adjust it.
3) Measuring the Vs voltage margin and determining thevoltage1 Switch the signal of the signal generator to the
100% Full Red signal.2 Turn the voltage adjusting knob of the Vs DC
power supply in the voltage-down direction, andturn off the cells of the screen.
3 Turn the voltage adjusting knob of the Vs DCpower supply in the voltage-up direction until thecells of the screen turn on. The first voltage, whichturns on the cells of the entire screen, is named asVsmin1. Record the value of Vsmin.
4 Turn the voltage adjusting knob of the Vs DCpower supply in the voltage-up direction slowlyuntil the cells of the screen turn off or until over-electric discharge happens. The first voltage,which turns off the cells of the screen or causesover-electric discharge, is named as Vsmax1.Record the value of Vsmax1. (Note that the Vsvoltage variable should exceed the maximum of195 V.)
5 Switch the signal of the signal generator to the100% Full Green signal.
6 Repeat the previous adjustment step (2), andrecord each voltage as Vsmin2/Vsmax2.
7 Switch the signal of the signal generator to 100%Full Blue signal.
8 Repeat the previous adjustment step (2), andrecord each voltage as Vsmin3/Vsmax3.
9 Switch the signal of the signal generator to 100%Full White signal.
0 Repeat the previous adjustment step (2), andrecord each voltage as Vsmin4/Vsmax4.
!- Switch the signal of the signal generator to 100%Full Black signal.
!= Repeat the previous adjustment step (2), and
record each voltage as Vsmin5/Vsmax5.![ At this time, the maximum voltage is set by
adding 6 V to the Vs voltage (Vsmin1 to Vsmin5).Set the voltage within the setting range (180 V <Vs < 195 V) while considering other characteris-tics as well.
!] Turn the voltage adjusting knob of the Vs DCpower supply, and determine the Vs voltage.
!\ Adjust the Vset-down waveform by setting the Vsvoltage as described in 2-3-4.
4) Adjusting the final voltage waveform1 Check the voltage waveform as described in 2-3-4
(3. How to adjust), and readjust the waveformwhen it is out of range.
5) DC-DC Pack voltage setup rangeV1st : 100V to 160 VVsc : 100 V to 160 V_Vy : _160 V to _200 V_Vzb : 100 V to 160 V
2-6 PFM-42X1/42X1N
Signal generator (VG-854 )
Power
Controller
Y SUS
5VVsVa
5V, Va
5V, Va, Vs
5V, Va
5V, Va5V, Va
Z_SUS
+5 V power supply (Vcc)
Va power supply
Vs power supply
External power supply (5V, Va, Vs)
5V
Rigid right topRigid left top
Rigid left bot Rigid right bot
Fig. 1 Connection diagram of the measuring instrument
c1) The power of the signal generator should be turned on before turning on the power of the DC power
supply.2) The voltage of the DC power supply should be preset as below in the same way as the standard
module input voltage.Vcc : 5 V, Va : 65 V, Vs : 190 V
3) The power supply must be turned on in the following sequence. Reverse the sequence when turningoff the power.* Module on : 5 V → Va → Vs, Module off : Vs → Va → 5 V
4) Select the 1024 x 768 mode for the signal generator.
2-7PFM-42X1/42X1N
2-4. Troubleshooting
2-4-1. Checking for No Picture
Check the following points if the monitor shows the Full Black pattern or the power is off and no pictureappears on screen.
1) Check whether the CTRL B/D LED (D10, D11, D12, D13, D17) is turned on or not.2) Check the power and signal cable of the CTRL B/D.3) Check whether the X B/D, Y B/D, and Z B/D are plugged securely.4) Check the connection of the X B/D, Y B/D and Z B/D to the CTRL B/D.5) Measure the output wave of the X, Y, and Z B/D with the oscilloscope (200 MHz or more) and check
if there is any problem on the boards by comparing the output wave with the following figure.. Measurement point for the Y B/D : TP (Bead B50). Measurement point for the Z B/D : TP (Bead B35). Measurement point for the X B/D : COF TP
6) Check the SCAN (Y side) IC.7) Check the DATA (X side) COF IC.8) Replace the CTRL B/D.
<A: Y B/D Output wave - 1 FRAME>
<B: Y B/D Output wave - 1 SF>
<A: Y B/D Output wave - 1 FRAME>
<B: Y B/D Output wave - 2,4 to 12 SF>
2-8 PFM-42X1/42X1N
< A: Y B/D Output wave - 1 FRAME >
< A: Y B/D Output wave - 1 FRAME >
< B: Z B/D Output wave - 1 FRAME >
< B: Y B/D Output wave - 3 SF >
< C: Z B/D Output wave – 1 to 12 SF>
< X B/D Output wave - 1 FRAME >
< X B/D Output wave - 1 SF >
< X B/D Output wave - Enlarged >
2-9PFM-42X1/42X1N
2-4-2. Hitch Diagnosis Based on the DisplayCondition
1. 4/7 or 3/7 of the screen is not displayed1) Check if the power connector of the X B/D that
corresponds to the screen portion with no picture issecurely connected.
2) Check whether the connector that connects the CTRLB/D and the X B/D that correspond to the screenportion with no picture is securely connected.
3) Replace the corresponding X B/D.
Relationship between the screen and X B/DScreen X B/D
Left 4/7 portion of the screen ↔ Right X B/DRight 3/7 portion of the screen ↔ Left X B/D
Screen display forms
2. Data COF is not shown on screen (Includingthe case where a part of Data COF is notshown)
1) When Data COF is not shown, in many cases aproblem resides between Data COF and the X B/D.
2) Check if the Data COF and the X B/D that correspondto the screen portion with no picture are securelyconnected.
3) Check if the Data COF is not damaged, and replace theX B/D.
Examples of the screen display form(Any one of the 7 Data COF can be seen next to the belowpictures.)
Left of the screen (4/7) Right of the screen (3/7)
Displayed
Not displayed
: All : Partial : Not at all
How to examine Data COF IC
. Change “1 GND” into ANODE, “2 Resistance” intoCATHODE, and then examine the diode in the forwardor backward direction.
. Measure the resistance value (10 Ω).
3. An unusual pattern corresponding to the DataCOF IC unit is shown
1) If an unusual pattern corresponding to the Data COFIC unit is displayed as shown below, the input to theData COF IC has a problem.
2) In the case of <Case 1, 2, 3>. Check the connection of the Data COF connector.. Replace the corresponding X B/D.
3) In the case of <Case 4, 5>. Check the connector that connects the CTRL to the
X B/D.. Replace the corresponding XB/D or CTRL B/D.
Screen display forms
2 Resistance
1 GND
<Case 1>
<Case 2>
<Case 3>
<Case 4>
<Case 5>
An unusual screen that corresponds to one IC appears in one COF.
An unusual screen that corresponds to two ICs appears in one COF.
An unusual screen that corresponds to four ICs appears in one COF.
An unusual screen that corresponds to one Data COF IC unit appears in an entire X B/D.
An unusual screen that corresponds to one Data COF IC unit appears in the entire upper or lower part of the screen.
2-10 PFM-42X1/42X1N
4. Regular stripes that correspond to the area ofone or more DATA COF ICs are displayed
1) If the stripes that correspond to the area of one DataCOF IC are displayed regularly, the output from theoutput platform of the X B/D has a problem.If the stripes that correspond to the area of two DataCOF ICs are displayed regularly, the data from theCTRL B/D is not transmitted correctly.
2) Check if the connection connector of the X B/D thatcorresponds to the unusual screen is connectedsecurely.
3) Replace the corresponding XB/D or CTRL B/D.
Relationship between the screen and X B/DScreen X B/D
Left 4/7 portion of the screen ↔ Right X B/DRight 3/7 portion of the screen ↔ Left X B/D
Screen display form
5. The scan FPC has a problem for screendisplay.
1) There may be a problem between the Scan FPC and YB/D.
2) Check the connection between the Y B/D and ScanFPC.
3) If the Scan IC has a failure, replace the Y DRV B/D.
Screen display forms
A str ipe that corresponds to one IC may split, or a group of s t r i p e s m a y b e b u n d l e d together and d isp layed on another part of the screen.
One eighth of screen
The screen display is very good
The screen display is poor
Checking method of SCAN IC
Change the Vpp pin into ANODE and GND pin intoCATHODE, and then test the diode in the forward orbackward direction.
6. The screen has vertical lines with a regulargap. (A vertical stripe flashes in a specificcolor)
1) The control B/D has a problem.2) Replace the control B/D.
Screen display form
7. A data copy occurs in the vertical direction.1) This is due to the incorrect marking of a scan wave.2) Replace the Y DRV B/D or Y SUS B/D.
Screen display forms
The screen shows verticallines with a regular gap
Case 1 : Entire CopyDisplay Pattern
Case 2 : Top Copy Case 3 : Bottom Copy Case 4 : Entire Copy
2-11PFM-42X1/42X1N
8. The screen shows one or several vertical lines1) This is not the problem of the controller B/D or XB/D.2) It may be due to following reasons.
. The panel has a failure.
. The DATA COF FPC that is attached to the panel isopen or shorted.
. The DATA COF that is attached to the panel has afailure.
3) Replace the module.
Screen display form
9. The screen has one or several horizontal lines1) This is not the problem of the controller B/D or XB/D.2) It may be due to one of the following reasons.
. The panel has a failure.
. The SCAN FPC that is attached to the panel is openor shorted.
. The SCAN IC that is attached to the panel has afailure.
3) Replace the Y DRV B/D
Screen display form
10. The screen displays an input signal patternbut the brightness is low
1) In this case, the Z B/D operation has a failure.2) Check the power cable of the Z B/D.3) Check the connector that connects the Z B/D and
controller B/D.4) Replace the controller B/D or Z B/D.
Several vertical lines appear in the quar ter or another portion of the screen as the case shown on the left.
Several horizontal lines may appear as the case shown on the left.
11. Another color may appear partially in the fullwhite screen, or a signal appears on the fullblack screen
1) Check the inclination of the waveform at the Y B/Dsetup, and reduce the waveform.
2) Check the inclination of the Z B/D ramp wave.3) Measure each output waveform with the oscilloscope
(200 MHz or more) and compare the data with the datashown in the following figure.Adjust the Y B/D setup (Test-up : B/C[µs/µs]),setdown (Test-down : D[µs]) and Z B/D ramp (Tramp: F/G[µs/µs]) inclination by changing VR1/VR2/VR3.. Measuring point of the Y B/D : B50 (SUS_UP). Measuring point of the Z B/D : B35 (SUS_OUT)
12. A center of the screen is darker than theedges at full white pattern
1) The Z B/D has a failure.2) Check the connection cable between the Z B/D and
CTRL B/D.3) Replace the Z B/D.
Screen display form
13. A specific color does not have a specificbrightness.
1) Check the connector of the CTRL B/D input signal.2) Replace the CTRL B/D.
10 ±5 us
120 ±5 us_Vy: 175 ±1 V
Vzb: 105 ±1 V
140 us33 ±5 us
Vset-up = Vs
Vsc: 110 ±1 V
Vs
2-12 PFM-42X1/42X1N
2-4-3. Checking for Component Damage
1. Y IPM (IC100, 101) or Z IPM (IC4, 5) damage
1) When the internal Sustain_FET of Y IPM or ZIPM isdamaged, the screen is not displayed or electricdischarge occurs.. Test point : GND to B50 (Y B/D), GND to B35 (Z B/D).. Waveform : B50 (Y B/D) or B35 (Z B/D) has no
wave output.2) When the internal ER_FET of Y IPM or Z IPM is
damaged, Y IPM or Z IPM emission increases.. Test point : GND to B50 (Y B/D), GND to B35 (Z B/D).. Waveform : As shown in Fig. 2.
Crushed pulse ocurrance
Fig. 2 When the ER_FET is damaged
<IPM normal output wave>
. Measuring position : Sustain the enlarged picture aftermeasuring the B50 waveform ofthe Y B/D and the B35 waveformof the Z B/D (Full White pattern).
2. FET ass’y (Y B/D : HS1) damage1) When Set_Up FET is damaged, screen is not dis-
played.. Test point : Enlarged after measuring GND through
B50 (YB/D).. Waveform : As shown in Fig. 3.
Fig. 3 When the Set_Up FET is damaged
2) When Set_Down FET is damaged, electric dischargeoccurs over the entire screen.. Test point : Enlarged after measuring GND through
B50 (YB/D).. Waveform : As shown in Fig. 4.
Fig. 4 When the Set_Down FET is damaged
<FET Ass’y normal output wave>
. Measuring position : Enlarged wave of the reset sectionof TP B50 (Y B/D) (Full Whitepattern).
Set-up wave does not occur.
Set-down wave does not occur.
Set-down
Set-up
2-13PFM-42X1/42X1N
3. SCAN IC (Y drv B/D : IC1 to 12) damage1) If the SCAN IC has a failure, one horizontal line may
not be display on the screen.. Test point : ICT measurement of GND through Y
drive B/D output.. Waveform : As shown in Fig. 5.
Fig. 5 When SCAN IC is poor
2) The screen may not be displayed when the SCAN IC isdamaged due to the SCAN IC failure, external electric-ity or spark.. Test point : ICT measurement of GND through Y
drive B/D output.. Waveform : Output waveform is not output (The
damage can be seen in the SCAN IC onthe top or bottom of the Y drive B/D).
3) The screen may fluctuate horizontally when the cableon the top or bottom of the Y B/D is damaged.. Test point : ICT measurement of GND through Y
drive B/D output.. Waveform : As shown in Fig. 6.
Fig. 6 When the Y drv B/D top or bottom cable is damaged
SCAN pulse does not occur When the internal output FETof IC is damaged
Normal scan pulse
Noise occurance at scan section
4) If the SCAN IC output is shorted by a dust or a foreignsubstance, two horizontal lines may overlap on screen.. Test point : ICT measurement of GND through Y
drive B/D.. Output waveform : As shown in Fig. 7.
Enlarge the scan pulse Decrease voltage of the scan pulse
Widen the pulse width
SCAN section
SCAN PULSE
<SCAN IC normal output wave>
. Measuring position : The enlarged SCAN section aftermeasuring the output ICT of the Ydrive B/D. (Full White pattern).
Fig. 7 When SCAN ID output is shorted
3-1PFM-42X1/42X1N
Section 3Troubleshooting Guide
3-1. Out of Order on Power
Check Ctrl signal
CN9 Pin#2
‘RLY’
NO POWER
Replace
the Power Board
Replace
the Power Board
Check 5V-STCN (Pin#3)
Check Connector or5V-ST Output
On Power Board
Check IC8 Pin #6
Fail
Fail
FailCheck Ctrl signal
CN9 Pin#1
‘ACD ’
Check IC2 Pin #3
Fail Fail
Fail
Replace
the Power Board
Fail
Replace
the Power Board
Fail
Check IC8 Pin #9
Check the Power
Cable connection
Pass Pass
Pass
Pass
Pass
Pass
Pass
Check Ctrl signalCN9 (Pin#5)
‘VS07’
3-2 PFM-42X1/42X1N
NO RASTER ON DIGITAL
SIGNAL (DV1)
Rewrite EDID
Data
Repeat‘A ’ Process
Check The EDID Data
Fail
Pass
3-3PFM-42X1/42X1N
Check
U12(AD9888)
.HSYNC-ADC
.VSYNC-ADC
.DCLK-ADC
.DATA
NO RASTER ON ANALOG
SIGNAL
CheckPower LineIC21, IC45,IC20, IC22,IC23, IC24
Check LEDStatus on
Display Head
CheckCtrl signal
IC44 Pin#32(LVDS583)
Green
3.3 V
2.5 V Fail
Fail
Find a
Soldering Error
or check the
oscillator (X5)
. Check the D-sub Connection
- Y/Pb/Pr Jack check
. Check the other Device
- IC26, IC27 (SD RAM)
- IC44 (LVDS83) Pin#32
CheckScaler (IC14)
Output. PCLOCK. PVSYNC. PHSYNC. PVALID
.DATA
Fail
Fail
Pass
Check Control Signal
‘ DISPEN ’ CN501 Pin #27
Fail
Fail
Fail
Amber
Pass
Pass
Pass
‘A ’ Process
Replace
the Main Board
Replace DeviceIC21, IC30, IC4
Replace
the Power Board
Replace
the Main Board
Replace
the Main Board
Replace
the Main Board
3-2. No Raster State
3-4 PFM-42X1/42X1N
NO RASTER ON Y, Pb, Pr/Y,Cb Cr SIGNAL
Power S/W off and on after removing the Inputsignal cable
Repeat‘A ’ Process
Input SelectInput 1, Option
CheckMicrovision Copy
Protection & Input SelectIC43(CXA2171)
CheckAnalog Switch DTV
IC4(BA7657)
CheckIC12(AD9888)
. In/Out H/V Sync. Output Data
CheckIC10(FLI2310)
. S2310-RESET. In/Out H/V Sync
. Output Data
Fail
Fail
Fail
Pass
PassPassPass
Pass 480P
480i
720P
1080i
Pass
Pass
Replace
the Main BoardReplace Device
Q53, 54, 55, 50, 51, 52
Replace
the Main Board
Replace
the Main Board
3-5PFM-42X1/42X1N
NO RASTER ON AV SIGNAL
(CVBS, S-VIDEO)
Repeat‘A ’ Process
CheckInput Select for AV
IC41(CXA2069)
Pass
Check3D Comb Filter
IC31(uPD64083)
Pass
CheckU601(VPC3230D). In/Out H/V Sync
. Output Data
. Input Signal
CheckU302(FLI2310). VPC-RESET
. In/Out H/V Sync. Output Data
Pass
Pass
Pass
Fail
Fail
Check the Input jack and cable
Fail
Fail
Replace
the Main Board
Replace
the Main Board
Replace
the Main Board
Replace
the Main Board
3-6 PFM-42X1/42X1N
A Process
CheckCN207(44Pin Wafer)
B12,B13,B14,B15,B16
CheckCN2
R/G/B/H/V
VS-BoardInput
Option #2Input
No Raster On analog Signal
Fail
Fail
Pass
A ProcessCheck
CN207(44Pin Wafer)B12,B13,B14
CheckCN2
Pb/Y/Pr
VS-BoardInput
Option #2Input
No Raster On Y, Pb, Pr/Y, Cb, Cr
Fail
Fail
Pass
Replacethe Main Board
Connector Line
Connector Line
Connector Line
3-7PFM-42X1/42X1N
NO SOUND OUTPUT
Check ConnectorMain Board:CN12, CN14
Video Board:CN103Option Board:CN206
CheckAudio Process
IC301(TA1343N)
CheckAudio Amp.
IC351(TPA3002D2)
n
Pass Pass
Pass
Pass
CheckAudio Input SelectIC41 (CXA2069)
Check ConnectorSound Board:CN301
Pin#1,3
Fail
Fail
Sound B,d Check
Pass
Replace the Audio board
Replace the Main board
Replace the Audio board
nSound output device (IC351) has over lod protection circuit.If speaker terminal is shorted in a moment.Sound function is stopped until the power switch off and on.
3-3. Sound Troubleshooting
4-1PFM-42X1/42X1N
Section 4Spare Parts
4-1. Notes on Repair Parts
1. Safety Related Components WarningwComponents marked ! are critical to safe operation.Therefore, specified parts should be used in the case ofreplacement.
[WARNHINWEIS][WARNHINWEIS][WARNHINWEIS][WARNHINWEIS][WARNHINWEIS]Les composants identifiés par la marque ! sontcritiques pour la sécurité.Ne les remplacer que par une pièce portant le numérospécifié.
2. Standardization of PartsSome repair parts supplied by Sony differ from thoseused for the unit. These are because of parts common-ality and improvement.Parts List has the present standardized repair parts.
3. Stock of PartsParts marked with “o” at SP (Supply Code) column ofthe Spare Parts list may not be stocked. Therefore, thedelivery date will be delayed.Items with no part number and no description are notstocked because they are seldom required for routineservice.
4. Units for Capacitors, Inductors and ResistorsThe following units are assumed in Schematic Dia-grams, Electrical Parts List and Exploded Viewsunless otherwise specified.
Capacitors : µFInductors : µHResistors : Ω
4-2 PFM-42X1/42X1N
Screw Kit
4-2. Exploded Views
19
18
22 22 2
2
2
2
2
2
1257
296 10
8
7 a b2 252
14 1
1
6
2
2
2
5
6
4
13
13
13
612
12
12
11
7
7
6
4
6
6
6
66 6
313
12 11
4
6
6
6
46
6
6
11 7 5
6
15 15 15 15
14 14 14
14
14
14
14141414
14
14
14
4-3PFM-42X1/42X1N
Screw Kit
No. Part No. SP Description
18 X-2022-846-1 s SCREW KIT, INSIDE
No. Part No. SP Description
19 X-2022-848-1 s SCREW KIT, OUTSIDE
No. Part No. SP Description
20 X-2022-847-1 s SCREW KIT, WALL MOUNT
1 1SZZTMP007C2 332-102C3 339-006B4 339-009C5 1SZZTMP007A
6 339-008H7 339-008K8 339-008L9 1SZZTMF012A0 332-113E
!- 332-113D!= 339-008F![ 1SZZTMB005Ba 1NHB0302118b 1WZZTKK005A
INSIDE SCREW KIT
!] 332-102R!\ 339-008K
OUTSIDE SCREW KIT
!; 1WZZTKK004B!' 1SZZTMH003B
WALL MOUNT SCREW KIT
20
16 17
• The numbers encircled by round corresponds to numbers in illustrations.
Note : The screws can be ordered in units of screw kit. (Sony part No. 20 to 22)
4-4 PFM-42X1/42X1N
Cover
UPPER SIDE
113
122
108
105
117
119
109
120
116
101
103
121110
106
107
124
118
123
102
114
115
104
112
111
4-5PFM-42X1/42X1N
Cover
No. Part No. SP Description
101 ! X-2022-844-1 s ASSY, BEZEL (BLACK) ! X-2022-849-1 s ASSY, BEZEL (SILVER)102 ! X-2022-845-1 s ASSY, REAR COVER (BLACK) ! X-2022-852-1 s ASSY, REAR COVER (SILVER)103 X-2024-229-1 s ASSY,FRONT FRAME104 ! 1-576-300-12 s FUSE H.B.C. (8A/250V)105 ! 1-417-398-11 s AC INLET
106 ! 1-761-969-11 s MOUNTED CIRCUIT BOARD, G107 1-761-970-11 s MOUNTED CIRCUIT BOARD, A 1-761-982-11 s MOUNTED CIRCUIT BOARD, A (PFM-42X1N)108 1-761-971-11 s MOUNTED CIRCUIT BOARD, L109 1-761-972-11 s MOUNTED CIRCUIT BOARD, H1110 1-761-973-11 s MOUNTED CIRCUIT BOARD, H2
111 1-761-974-11 s MOUNTED CIRCUIT BOARD, TEMP112 1-761-975-11 s MOUNTED CIRCUIT BOARD, T (L)113 1-761-976-11 s MOUNTED CIRCUIT BOARD, T (R)114 ! 1-787-207-11 s FAN,DC115 ! 1-787-254-11 s DC FAN
116 2-159-847-01 s GLASS, FILTER117 2-318-610-01 s AC SOCKET COVER (BLACK) 2-318-610-11 s AC SOCKET COVER (SILVER)118 2-318-611-01 s MAIN FLAME COVER (BLACK) 2-318-611-11 s MAIN FLAME COVER (SILVER) 2-318-611-21 s MAIN FLAME COVER (PFM-42X1N)119 2-990-241-01 s HOLDER (A), PLUG120 4-101-215-01 s BUTTON, POWER
121 4-101-217-01 s MULTI BUTTON (GRAY) 4-101-217-11 s MULTI BUTTON (BLACK)122 1-789-070-11 s MOUNTED CIRCUIT BOARD DDC CI123 ! 1-528-174-11 s BATTERY, LITHIUM (CR2032 TYPE)124 1-761-816-11 s MOUNTED CIRCUIT BOARD, OP-1
4-6 PFM-42X1/42X1N
Panel
205
207
203
204
208
210
206
209
201
202
211
211
UPPER SIDE
4-7PFM-42X1/42X1N
Panel
No. Part No. SP Description
201 1-761-977-11 s MOUNTED CIRCUIT BOARD, Y-SUS202 1-761-978-11 s MOUNTED CIRCUIT BOARD, Z-SUS203 1-761-979-11 s MOUNTED CIRCUIT BOARD, YDT204 1-761-980-11 s MOUNTED CIRCUIT BOARD, YDB205 1-761-988-11 s MOUNTED CIRCUIT BOARD, XLT
206 1-761-989-11 s MOUNTED CIRCUIT BOARD, XRB207 1-761-990-11 s MOUNTED CIRCUIT BOARD, XRT208 1-761-991-11 s MOUNTED CIRCUIT BOARD, XLB209 1-761-992-11 s MOUNTED CIRCUIT BOARD, CTRL
210 ! 1-805-659-11 s DISPLAY PANEL, PLASMA211 ! 1-576-233-12 s FUSE (H.B.C.) 6.3A/250V
4-8 PFM-42X1/42X1N
SS-SP20B/SP20S (Speaker)
No. Part No. SP Description
301 1-825-627-11 s LOUDSPEAKER L (BLACK) 1-825-628-11 s LOUDSPEAKER L (SILVER)302 1-825-627-21 s LOUDSPEAKER R (BLACK) 1-825-628-21 s LOUDSPEAKER R (SILVER)303 1-900-276-27 s CONNECTOR ASSY (SP)
Screws/Washers 7-682-962-09 s SCREW PSW 4X10
301
302
303
PSW 4X10
4-9PFM-42X1/42X1N
Packing
No. Part No. SP Description
401 1-477-278-12 s REMOTE COMMANDER (RM-971)402 1-827-782-11 s CABLE, DVI403 2-990-242—01 s HOLDER (B), PLUG404 3-613-640-01 o HOLDER (C), PLUG405 2-176-251-01 o INDIVIDUAL CARTON
406 2-149-020-01 s MANUAL, INSTRUCTION (JAPANESE,ENGLISH,FRENCH,GERMAN, SPANISH,ITALIAN,SIMPLIFIED CHINESE)407 4-101-220-01 o CUSHION, TOP& BOTTOM408 4-101-222-01 o CARTON, INSIDE409 4-101-224-01 o ACCESSORY BOX410 4-101-223-01 o BAG, PROTECTION
411 4-101-219-01 o TRAY, BOTTOM412 4-978-977-01 s LID, BATTERY (BLACK)413 4-101-214-01 s HOLDER, CABLE414 ! ------------ s CORD, SET POWER (See 1-4. Warning on Power Connection.)
412
401
414
406
402
411
409
410
407
405
408
407
403
404
413
4-10 PFM-42X1/42X1N
Board Connections
UPPER SIDE
AC inlet
CN807
CN1101
P501
CN201
CN1304
CN1302
P2
P501
P501
CN806
CN808CN802CN803
CN22CN3
CN19
CN8
CN808CN9
CN901CN303
CN302
P1
CN301
CN15
CN2CN1
CN801CN501
P9
P300
L (Audio)board
A (Main) board
BKM-V10
H2 (User control)board
G (Power) board
YDT board
Y-SUS board
XLBboard
XLTboard
XRTboard
XRBboard
TEMP board
TEMP board
CTRL board
TEMP board
Z-SUS board
YDB board
T (L) SPboard
T (R) SP board
H1 (SW) board
7
1
9
2345
86
0
!-
!=
![
DDC CI board
!]
!]
!]
!]
4-11PFM-42X1/42X1N
Board Connections
No. Part No. SP Description
1 1-910-002-73 o CONNECTOR ASSY, Y SUS 9P2 1-910-002-74 o CONNECTOR ASSY, X SUS 8P3 1-910-002-75 o CONNECTOR ASSY, MAIN 4P4 1-910-002-76 o CONNECTOR ASSY, MAIN 12P5 1-910-002-77 o CONNECTOR ASSY, MAIN 7P
6 1-910-002-78 o CONNECTOR ASSY, AU 12P7 1-910-002-79 o CONNECTOR ASSY, RMT 8P8 1-910-002-80 o CONNECTOR ASSY, DDC CI 11P9 1-910-002-81 o CONNECTOR ASSY, KEY 4P0 1-910-002-82 o CONNECTOR ASSY, SPKL 4P
!- 1-910-002-83 o CONNECTOR ASSY, Z-SUS 8P!= 1-910-002-84 o CONNECTOR ASSY, SPK R 4P![ 1-910-002-85 o CONNECTOR ASSY, LVDS!] 1-910-002-86 o CONNECTOR ASSY, SENS 9P
. The numbers encircled by round corresponds to those of the left illustration.
PFM-42X1/42X1N
SAFETY CHECK-OUT
After correcting the original service problem,perform the following safety checks beforereleasing the set to the customer :
Check the metal trim, “metallized” knobs,screws, and all other exposed metal parts for ACleakage. Check leakage as described below.
LEAKAGE TEST
The AC leakage from any exposed metal part toearth ground and from all exposed metal parts toany exposed metal part having a return tochassis, must not exceed 0.5 mA. Leakagecurrent can be measured by any one of threemethods.
1. A commercial leakage tester, such as theSimpson 229 or RCA WT-540A. Follow themanufacturers’ instructions to use theseinstruments.
2. A battery-operated AC milliammeter. TheData Precision 245 digital multimeter issuitable for this job.
3. Measuring the voltage drop across a resistorby means of a VOM or battery-operated ACvoltmeter. The “limit” indication is 0.75 V, soanalog meters must have an accurate low-voltage scale. The Simpson 250 and SanwaSH-63Trd are examples of a passive VOMthat is suitable. Nearly all battery operateddigital multimeters that have a 2 V AC rangeare suitable. (See Fig. A)
To Exposed MetalParts on Set
Fig A. Using an AC voltmeter to check AC leakage.
ACvoltmeter(0.75V)
Earth Ground
0.15 µF 1.5 kZ
Printed in Japan
Sony Corporation 2004. 8 16
B&P Company ©2004
PFM-42X1 (SY)
PFM-42X1N (SY) E
9-968-071-01