Proper service and repair is important to the safe, reliable operation of all
Funai Equipment. The service procedures recommended by Funai and
described in this service manual are effective methods of performing
service operations. Some of these service special tools should be used
when and as recommended.
It is important to note that this service manual contains various CAUTIONS
and NOTICES which should be carefully read in order to minimize the risk
of personal injury to service personnel. The possibility exists that improper
service methods may damage the equipment. It also is important to
understand that these CAUTIONS and NOTICES ARE NOT EXHAUSTIVE.
Funai could not possibly know, evaluate and advice the service trade of all
conceivable ways in which service might be done or of the possible
hazardous consequences of each way. Consequently, Funai has not
undertaken any such broad evaluation. Accordingly, a servicer who uses a
service procedure or tool which is not recommended by Funai must first
use all precautions thoroughly so that neither his safety nor the safe
operation of the equipment will be jeopardized by the service method
selected.
The LCD panel is manufactured to provide many years of useful life.
Occasionally a few non active pixels may appear as a tiny spec of color.
This is not to be considered a defect in the LCD screen.
Page 3
SPECIFICATIONS
< TUNER >
ANT. Input ---------------------- 75 ohm Unbal., F type
Reference Level--------------- 20 Vp-p (LCD Green Cathode)
Test Input Signal -------------- 400 Hz 30% modulation
DescriptionConditionUnitNominalLimit
1. Intermediate Freq.
2. Color Killer Sens.
3. AFT Pull In Range (10 mV input)---MHz±2.1±0.7
Picture
Sound
CH-2
CH-10
CH-55
MHz
MHz
dBµV
dBµV
dBµV
45.75
41.25
15
15
15
---
--20
20
20
< LCD PANEL >
DescriptionConditionUnitNominalLimit
1. Number of Pixels
2. Brightnesscd/m
3. Response Time---msec16---
4. Support Color----26 mil. (6 bit)---
5. Viewing Angle
Horizontal
Vert ical
Horizontal
Vert ical
pixels
pixels
°
°
640 × 3
480
2
500---
-80 to 80
-65 to 70
---
---
---
---
< VIDEO >
DescriptionConditionUnitNominalLimit
1. Over Scan
2. Color Temperature
3. Resolution
Horizontal
Vert ical
--x
y
Horizontal
Vert ical
%
%
°K
line
line
7
7
11000
0.276
0.282
400
350
---
---
--±0.005
±0.005
---
---
< AUDIO >
All items are measured across 8 Ω load at speaker output terminal with L.P.F.
Note: Nominal specifications represent the design specifications. All units should be able to approximate these.
Some will exceed and some may drop slightly below these specifications. Limit specifications represent
the absolute worst condition that still might be considered acceptable. In no case should a unit fail to meet
limit specifications.
3dB: Lch
-
3dB: Rch
Hz
Hz
50 to 12 k
50 to 12 k
---
---
1-1L2500SP
Page 4
IMPORTANT SAFETY PRECAUTIONS
Prior to shipment from the factory, our products are strictly inspected for recognized product safety and electrical
codes of the countries in which they are to be sold. However, in order to maintain such compliance, it is equally
important to implement the following precautions when a set is being serviced.
Safety Precautions for LCD TV
Circuit
1. Before returning an instrument to the
customer, always make a safety check of the
entire instrument, including, but not limited to, the
following items:
a. Be sure that no built-in protective devices are
defective and have been defeated during
servicing. (1) Protective shields are provided
on this chassis to protect both the technician
and the customer. Correctly replace all missing
protective shields, including any removed for
servicing convenience. (2) When reinstalling
the chassis and/or other assembly in the
cabinet, be sure to put back in place all
protective devices, including but not limited to,
nonmetallic control knobs, insulating
fishpapers, adjustment and compartment
covers/shields, and isolation resistor/capacitor
networks. Do not operate this instrument or
permit it to be operated without all
protective devices correctly installed and
functioning. Servicers who defeat safety
features or fail to perform safety checks
may be liable for any resulting damage.
b. Be sure that there are no cabinet openings
through which an adult or child might be able to
insert their fingers and contact a hazardous
voltage. Such openings include, but are not
limited to, (1) spacing between the Liquid
Crystal Panel and the cabinet mask, (2)
excessively wide cabinet ventilation slots, and
(3) an improperly fitted and/or incorrectly
secured cabinet back cover.
c. Antenna Cold Check - With the instrument AC
plug removed from any AC source, connect an
electrical jumper across the two AC plug
prongs. Place the instrument AC switch in the
on position. Connect one lead of an ohmmeter
to the AC plug prongs tied together and touch
the other ohmmeter lead in turn to each tuner
antenna input exposed terminal screw and, if
applicable, to the coaxial connector. If the
measured resistance is less than 1.0 megohm
or greater than 5.2 megohm, an abnormality
exists that must be corrected before the
instrument is returned to the customer. Repeat
this test with the instrument AC switch in the off
position.
d. Leakage Current Hot Check - With the
instrument completely reassembled, plug the
AC line cord directly into a 120 V AC outlet. (Do
not use an isolation transformer during this
test.) Use a leakage current tester or a
metering system that complies with American
National Standards Institute (ANSI) C101.1
Leakage Current for Appliances and
Underwriters Laboratories (UL) 1410, (50.7).
With the instrument AC switch first in the on
position and then in the off position, measure
from a known earth ground (metal water pipe,
conduit, etc.) to all exposed metal parts of the
instrument (antennas, handle brackets, metal
cabinet, screw heads, metallic overlays, control
shafts, etc.), especially any exposed metal
parts that offer an electrical return path to the
chassis. Any current measured must not
exceed 0.5 milli-ampere. Reverse the
instrument power cord plug in the outlet and
repeat the test.
READING SHOULD
NOT BE ABOVE 0.5 mA
LEAKAGE
DEVICE
BEING
TESTED
TEST ALL EXPOSED
METAL SURFACES
ALSO TEST WITH
PLUG REVERSED
USING AC
ADAPTER PLUG
AS REQUIRED
ANY MEASUREMENTS NOT WITHIN THE
LIMITS SPECIFIED HEREIN INDICATE A
POTENTIAL SHOCK HAZARD THAT MUST
BE ELIMINATED BEFORE RETURNING THE
INSTRUMENT TO THE CUSTOMER OR
BEFORE CONNECTING THE ANTENNA OR
ACCESSORIES.
2. Read and comply with all caution and safety-
related notes on or inside the receiver cabinet, on
the receiver chassis, or on the Liquid Crystal
Panel.
CURRENT
TESTER
+
EARTH
GROUND
_
2-1LTVN_ISP
Page 5
3. Design Alteration Warning - Do not alter or add
to the mechanical or electrical design of this TV
receiver. Design alterations and additions,
including, but not limited to circuit modifications
and the addition of items such as auxiliary audio
and/or video output connections, might alter the
safety characteristics of this receiver and create a
hazard to the user. Any design alterations or
additions will void the manufacturer's warranty and
may make you, the servicer, responsible for
personal injury or property damage resulting
therefrom.
4. Hot Chassis Warning a. Some TV receiver chassis are electrically
connected directly to one conductor of the AC
power cord and maybe safety-serviced without
an isolation transformer only if the AC power
plug is inserted so that the chassis is
connected to the ground side of the AC power
source. To confirm that the AC power plug is
inserted correctly, with an AC voltmeter,
measure between the chassis and a known
earth ground. If a voltage reading in excess of
1.0V is obtained, remove and reinsert the AC
power plug in the opposite polarity and again
measure the voltage potential between the
chassis and a known earth ground.
b. Some TV receiver chassis normally have 85V
AC(RMS) between chassis and earth ground
regardless of the AC plug polarity. This chassis
can be safety-serviced only with an isolation
transformer inserted in the power line between
the receiver and the AC power source, for both
personnel and test equipment protection.
c. Some TV receiver chassis have a secondary
ground system in addition to the main chassis
ground. This secondary ground system is not
isolated from the AC power line. The two
ground systems are electrically separated by
insulation material that must not be defeated or
altered.
5. Observe original lead dress. Take extra care to
assure correct lead dress in the following areas: a.
near sharp edges, b. near thermally hot parts-be
sure that leads and components do not touch
thermally hot parts, c. the AC supply, d. high
voltage, and, e. antenna wiring. Always inspect in
all areas for pinched, out of place, or frayed wiring.
Check AC power cord for damage.
6. Components, parts, and/or wiring that appear to
have overheated or are otherwise damaged
should be replaced with components, parts, or
wiring that meet original specifications.
Additionally, determine the cause of overheating
and/or damage and, if necessary, take corrective
action to remove any potential safety hazard.
7. Product Safety Notice - Some electrical and
mechanical parts have special safety-related
characteristics which are often not evident from
visual inspection, nor can the protection they give
necessarily be obtained by replacing them with
components rated for higher voltage, wattage, etc.
Parts that have special safety characteristics are
identified by a # on schematics and in parts lists.
Use of a substitute replacement that does not
have the same safety characteristics as the
recommended replacement part might create
shock, fire, and/or other hazards. The product's
safety is under review continuously and new
instructions are issued whenever appropriate.
Prior to shipment from the factory, our products
are strictly inspected to confirm they comply with
the recognized product safety and electrical codes
of the countries in which they are to be sold.
However, in order to maintain such compliance, it
is equally important to implement the following
precautions when a set is being serviced.
2-2LTVN_ISP
Page 6
Precautions during Servicing
A. Parts identified by the # symbol are critical for
safety.
Replace only with part number specified.
B. In addition to safety, other parts and assemblies
are specified for conformance with regulations
applying to spurious radiation. These must also be
replaced only with specified replacements.
Examples: RF converters, RF cables, noise
blocking capacitors, and noise blocking filters, etc.
C. Use specified internal wiring. Note especially:
1) Wires covered with PVC tubing
2) Double insulated wires
3) High voltage leads
D. Use specified insulating materials for hazardous
live parts. Note especially:
1) Insulation Tape
2) PVC tubing
3) Spacers
4) Insulators for transistors.
E. When replacing AC primary side components
(transformers, power cord, etc.), wrap ends of
wires securely about the terminals before
soldering.
F.Observe that the wires do not contact heat
producing parts (heat sinks, oxide metal film
resistors, fusible resistors, etc.)
G. Check that replaced wires do not contact sharp
edged or pointed parts.
H. When a power cord has been replaced, check that
5~6 kg of force in any direction will not loosen it.
I.Also check areas surrounding repaired locations.
J. Use care that foreign objects (screws, solder
droplets, etc.) do not remain inside the set.
K. Crimp type wire connector
The power transformer uses crimp type
connectors which connect the power cord and the
primary side of the transformer. When replacing
the transformer, follow these steps carefully and
precisely to prevent shock hazards.
Replacement procedure
1) Remove the old connector by cutting the wires
at a point close to the connector.
Important: Do not re-use a connector (discard
it).
2) Strip about 15 mm of the insulation from the
ends of the wires. If the wires are stranded,
twist the strands to avoid frayed conductors.
3) Align the lengths of the wires to be connected.
Insert the wires fully into the connector.
4) Use the crimping tool to crimp the metal sleeve
at the center position. Be sure to crimp fully to
the complete closure of the tool.
L. When connecting or disconnecting the internal
connectors, first, disconnect the AC plug from the
AC supply outlet.
M. When installing parts or assembling the cabinet
parts, be sure to use the proper screws and
tighten certainly.
2-3LTVN_ISP
Page 7
Safety Check after Servicing
Examine the area surrounding the repaired location for damage or deterioration. Observe that screws, parts and
wires have been returned to original positions. Afterwards, perform the following tests and confirm the specified
values in order to verify compliance with safety standards.
1. Clearance Distance
When replacing primary circuit components, confirm
specified clearance distance (d) and (d') between
soldered terminals, and between terminals and
surrounding metallic parts. (See Fig. 1)
Table 1: Ratings for selected area
Chassis or Secondary Conductor
Primary Circuit
AC Line VoltageRegion
110 to 130 V
Note: This table is unofficial and for reference only. Be
sure to confirm the precise values.
U.S.A. or
Canada
Clearance
Distance (d), (d’)
≥ 3.2 mm
(0.126 inches)
2. Leakage Current Test
Confirm the specified (or lower) leakage current
between B (earth ground, power cord plug prongs) and
externally exposed accessible parts (RF terminals,
antenna terminals, video and audio input and output
terminals, microphone jacks, earphone jacks, etc.) is
lower than or equal to the specified value in the table
below.
Measuring Method: (Power ON)
Insert load Z between B (earth ground, power cord plug
prongs) and exposed accessible parts. Use an AC
voltmeter to measure across both terminals of load Z.
See Fig. 2 and following table.
d'd
Fig. 1
Exposed Accessible Part
Z
AC Voltmeter
(High Impedance)
Earth Ground
B
Power Cord Plug Prongs
Fig. 2
Table 2: Leakage current ratings for selected areas
AC Line VoltageRegionLoad ZLeakage Current (i)Earth Ground (B) to:
110 to 130 V
Note: This table is unofficial and for reference only. Be sure to confirm the precise values.
U.S.A. or
Canada
0.15 µF CAP. & 1.5 kΩ
RES. Connected in parallel
2-4LTVN_ISP
i ≤ 0.5 mA rms
Exposed accessible
parts
Page 8
STANDARD NOTES FOR SERVICING
Circuit Board Indications
1. The output pin of the 3 pin Regulator ICs is
indicated as shown.
Top View
Out
2. For other ICs, pin 1 and every fifth pin are
indicated as shown.
Pin 1
3. The 1st pin of every male connector is indicated as
shown.
Pin 1
Input
In
Bottom View
5
10
Pb (Lead) Free Solder
Pb free mark will be found on PCBs which use Pb
free solder. (Refer to figure.) For PCBs with Pb free
mark, be sure to use Pb free solder. For PCBs
without Pb free mark, use standard solder.
Pb free mark
How to Remove / Install Flat Pack-IC
1. Removal
With Hot-Air Flat Pack-IC Desoldering Machine:
1. Prepare the hot-air flat pack-IC desoldering
machine, then apply hot air to the Flat Pack-IC
(about 5 to 6 seconds). (Fig. S-1-1)
Fig. S-1-1
2. Remove the flat pack-IC with tweezers while
applying the hot air.
3. Bottom of the flat pack-IC is fixed with glue to the
CBA; when removing entire flat pack-IC, first apply
soldering iron to center of the flat pack-IC and heat
up. Then remove (glue will be melted). (Fig. S-1-6)
4. Release the flat pack-IC from the CBA using
tweezers. (Fig. S-1-6)
CAUTION:
1. The Flat Pack-IC shape may differ by models. Use
an appropriate hot-air flat pack-IC desoldering
machine, whose shape matches that of the Flat
Pack-IC.
2. Do not supply hot air to the chip parts around the
flat pack-IC for over 6 seconds because damage
to the chip parts may occur. Put masking tape
around the flat pack-IC to protect other parts from
damage. (Fig. S-1-2)
3-1TVN_SN
Page 9
3. The flat pack-IC on the CBA is affixed with glue, so
be careful not to break or damage the foil of each
pin or the solder lands under the IC when
removing it.
With Soldering Iron:
1. Using desoldering braid, remove the solder from
all pins of the flat pack-IC. When you use solder
flux which is applied to all pins of the flat pack-IC,
you can remove it easily. (Fig. S-1-3)
CBA
Masking
Tape
Tweezers
Hot-air
Flat Pack-IC
Desoldering
Machine
Flat Pack-IC
Fig. S-1-2
Flat Pack-IC
Desoldering Braid
Soldering Iron
Fig. S-1-3
2. Lift each lead of the flat pack-IC upward one by
one, using a sharp pin or wire to which solder will
not adhere (iron wire). When heating the pins, use
a fine tip soldering iron or a hot air desoldering
machine. (Fig. S-1-4)
Sharp
Pin
Fine Tip
Soldering Iron
3. Bottom of the flat pack-IC is fixed with glue to the
CBA; when removing entire flat pack-IC, first apply
soldering iron to center of the flat pack-IC and heat
up. Then remove (glue will be melted). (Fig. S-1-6)
4. Release the flat pack-IC from the CBA using
tweezers. (Fig. S-1-6)
Fig. S-1-4
3-2TVN_SN
Page 10
With Iron Wire:
1. Using desoldering braid, remove the solder from
all pins of the flat pack-IC. When you use solder
flux which is applied to all pins of the flat pack-IC,
you can remove it easily. (Fig. S-1-3)
2. Affix the wire to a workbench or solid mounting
point, as shown in Fig. S-1-5.
3. While heating the pins using a fine tip soldering
iron or hot air blower, pull up the wire as the solder
melts so as to lift the IC leads from the CBA
contact pads as shown in Fig. S-1-5.
4. Bottom of the flat pack-IC is fixed with glue to the
CBA; when removing entire flat pack-IC, first apply
soldering iron to center of the flat pack-IC and heat
up. Then remove (glue will be melted). (Fig. S-1-6)
5. Release the flat pack-IC from the CBA using
tweezers. (Fig. S-1-6)
Note: When using a soldering iron, care must be
taken to ensure that the flat pack-IC is not
being held by glue. When the flat pack-IC is
removed from the CBA, handle it gently
because it may be damaged if force is applied.
Hot Air Blower
2. Installation
1. Using desoldering braid, remove the solder from
the foil of each pin of the flat pack-IC on the CBA
so you can install a replacement flat pack-IC more
easily.
2. The “●” mark on the flat pack-IC indicates pin 1.
(See Fig. S-1-7.) Be sure this mark matches the 1
on the PCB when positioning for installation. Then
presolder the four corners of the flat pack-IC. (See
Fig. S-1-8.)
3. Solder all pins of the flat pack-IC. Be sure that
none of the pins have solder bridges.
Example :
Pin 1 of the Flat Pack-IC
is indicated by a " " mark.
Fig. S-1-7
To Solid
Mounting Point
CBA
Tweezers
Iron Wire
Soldering Iron
Fig. S-1-5
Fine Tip
Soldering Iron
Flat Pack-IC
or
Presolder
Flat Pack-IC
CBA
Fig. S-1-8
Fig. S-1-6
3-3TVN_SN
Page 11
Instructions for Handling Semiconductors
Electrostatic breakdown of the semi-conductors may
occur due to a potential difference caused by
electrostatic charge during unpacking or repair work.
1. Ground for Human Body
Be sure to wear a grounding band (1 MΩ) that is
properly grounded to remove any static electricity that
may be charged on the body.
2. Ground for Workbench
Be sure to place a conductive sheet or copper plate
with proper grounding (1 MΩ) on the workbench or
other surface, where the semi-conductors are to be
placed. Because the static electricity charge on
clothing will not escape through the body grounding
band, be careful to avoid contacting semi-conductors
with your clothing.
<Incorrect>
<Correct>
1MΩ
CBA
Grounding Band
1MΩ
CBA
Conductive Sheet or
Copper Plate
3-4TVN_SN
Page 12
CABINET DISASSEMBLY INSTRUCTIONS
1. Disassembly Flowchart
This flowchart indicates the disassembly steps for the
cabinet parts, and the CBA in order to gain access to
item(s) to be serviced. When reassembling, follow the
steps in reverse order. Bend, route and dress the
cables as they were.
[9] IR Sensor
CBA
[8] Speaker (s)
[4] Inverter CBA
[1] Tilt Stand
Assembly
[2] Rear Cabinet
[3] Jack Holder
[5] Main CBA
[6] LCD Module
[7] Function CBA
[10] Front Cabinet
[11] Stand Cover
[12] Arm Holder
[13] Sheet L, R
[14] Arm
Assembly
2. Disassembly Method
Removal
Step/
Loc.
Part
No.
Tilt Stand
[1]
Assembly
Rear
[2]
Cabinet
[3]Jack Holder D2 4(S-4)---
Remove/*Unhook/
Fig.
No.
Unlock/Release/
Unplug/Unclamp/
Note
Desolder
D1 4(S-1)---
D1 10(S-2), (S-3) ---
Removal
Step/
Loc.
No.
Part
Remove/*Unhook/
Fig.
No.
Unlock/Release/
Unplug/Unclamp/
Note
Desolder
IR Sensor
[9]
[10]
[11]
CBA
Front
Cabinet
Stand
Cover
D2 (S-10)---
D2 ------------------
D3 6(S-11)---
[12] Arm HolderD3 2(S-12)---
[13] Sheet L, RD3 ------------------
Arm
[14]
↓
(1)
Assembly
↓
(2)
D3 ------------------
↓
(3)
↓
(4)
↓
(5)
Note:
(1) Order of steps in procedure. When reassembling,
follow the steps in reverse order. These numbers
are also used as the Identification (location) No. of
parts in figures.
(2) Parts to be removed or installed.
(3) Fig. No. showing procedure of part location
(4) Identification of parts to be removed, unhooked,
unlocked, released, unplugged, unclamped, or
desoldered.
P = Spring, L = Locking Tab, S = Screw,
CN = Connector
* = Unhook, Unlock, Release, Unplug, or Desolder
e.g. 2(S-2) = two Screws (S-2),
2(L-2) = two Locking Tabs (L-2)
(5) Refer to the following "Reference Notes in the
General Note: “CBA” is abbreviation for
“Circuit Board Assembly.”
Note: Electrical adjustments are required after
replacing circuit components and certain
mechanical parts. It is important to perform
these adjustments only after all repairs and
replacements have been completed.
Also, do not attempt these adjustments unless
the proper equipment is available.
Test Equipment Required
1. DC Voltmeter
2. NTSC Pattern Generator (Color Bar W/White
Window, Red Color, Dot Pattern, Gray Scale,
Monoscope, Multi-Burst)
3. Remote control unit: Part No. N0105UD or
N0127UD
4. Color Analyzer
How to make Service remote
control unit:
1. Prepare normal remote control unit.
(Part No. N0105UD or N0127UD)
Remove 3 Screws from the back lid. (Fig. 1-1)
Screws
How to set up the service mode:
Service mode:
1. Use the service remote control unit.
2. Turn the power on. (Use main power on the TV
unit.)
3. Press [SLEEP] button on the service remote
control unit. Version of micro computer will be
displayed on the LCD or display. (Ex: 0008GP-
0.08)
1. Initial Setting
General: Enter the Service mode. (See page 5-1.)
Set the each initial data as shown on table 1 below.
Table 1: Initial Data
Button
Item
BRT
CNT124
CLR-R64
CLR-B64
TNT128
(on the service
remote control)
[MENU] → [1]
Data
Value
128
Remote control unit (bottom)
2. Added J1 (Jumper Wire) to the remote control
CBA. (Fig. 1-2)
4. Press [CH o / p] buttons on the remote control
unit so that flash stops.
2. Flicker Adjustment
1. Enter the Service mode. (See page 5-1.)
2. Press [2] button on the remote control unit.
The following screen appears.
VCOM
110
5-2L2600EA
Page 18
The following adjustment normally are not
attempted in the field. Only when replacing the
LCD Panel then adjust as a preparation.
3. White Balance Adjustment
Purpose: To mix red, green and blue beams correctly
for pure white.
Symptom of Misadjustment: White becomes bluish
or reddish.
Test Point Adj. PointModeInput
[RF/VIDEO1]
Screen
VOL. p
buttons
M. EQ.Spec.
C/D1
[VIDEO2]
C/D2
White Purity
(APL 80%)
or
(APL 20%)
5. [RF/VIDEO1]
When “x” value and “y” value are not within
specification, adjust “DB (C/D1)” or “DR (C/D1)”.
Refer to “1. Initial Setting.”
Note: “DB(C/D1)” or “DR(C/D1)” must be adjusted
within ±0.01.
[VIDEO2]
When “x” value and “y” value are not within
specification, adjust “DB(C/D2)” or “DR(C/D2)”.
Refer to “1. Initial Setting.”
Note: “DB(C/D2)” or “DR(C/D2)” must be adjusted
within ±0.01.
6. Turn the power off and on again. (Main power
button on the TV unit.)
Pattern Generator,
Color analyzer
x: 0.271 to 0.281,
y: 0.277 to 0.287
Figure
It carries out in a darkroom.
Perpendicularity
L = 3 cm
INPUT: WHITE 80%
Note: Use service remote control unit
1. Operate the unit for more than 20 minutes.
2. Input the White Purity (APL 80% or APL 20%).
3. Set the color analyzer to the CHROMA mode and
bring the optical receptor to the center on the
LCD-Panel surface after zero point calibration as
shown above.
Note: The optical receptor must be set
perpendicularly to the LCD Panel surface.
4. [RF/VIDEO1]
Enter the Service mode. Press “VOL p” button on
the remote control unit and select “C/D-1” mode.
[VIDEO2]
Enter the Service mode. Press “VOL p” button on
the remote control unit and select “C/D-2” mode.
Color Analyzer
5-3L2600EA
Page 19
HOW TO INITIALIZE THE LCD TELEVISION
How to initialize the LCD television:
1. Turn the power on. (Use main power on the TV
unit.)
2. To enter the service mode, press [SLEEP] button
on the service remote control unit.
- To cancel the service mode, press [POWER]
button on the remote control.
3. To initialize the LCD television, press [DISPLAY]
button on the remote control unit.
4. Confirm "FF" indication on the upper right of the
screen.
6-1L3103INT
Page 20
BLOCK DIAGRAMS
System Control Block Diagram
SENSOR
REMOTE
RCV102
CLN105
REMOTE33
CN1202
IR SENSOR CBA
KEY SWITCH
KEY SWITCH
CLN104
KEY-IN-122
KEY-IN-211
CN1201
FUNCTION CBA
TO POWER SUPPLY
BACKLIGHT-ADJ
BLOCK DIAGRAM
P-ON-H
P-25V-ON
TO IF/VIDEO
BLOCK DIAGRAM
SCL
SDA
S-SW
INPUT-0
AFT-IN
INPUT-1
FSC
VOLUME
AUDIO-MUTE
TO AUDIO
SCL
BLOCK DIAGRAM
SDA
TO
LCD BLOCK
DIAGRAM
V-COM
28
VCOM
5KEY-IN-2
4
KEY-IN-1
MAIN CBA
X1201
27MHz
RESETAL+3.3V(D)
IC1201,IC1211
3.3V<-->5V
CONVERTER
Q1204
S-SW
SCL
6AFT-IN
32
11
44
SDA
VOLUME
TUNERCLK
AUDIO-MUTE
34
REMOTE
21
RESET
37
XIN
38
XOUT
30
33
BUS-OPEN
BACKLIGHT-ADJ
29
27
P-ON-H
P-25V-ON
1335121436
INPUT-0
INPUT-1
IC1202 (TV MICRO CONTROLLER)
7-1
IC1205
(MEMORY)
7
WP
CN1209
6
5
SCL
SDA
SDA2
SCL1
BUS-OPEN 4
NO PART
(NO CONNECTION)
MOUNTED
FOR CN1209
L2607BLS
Page 21
IF/Video Block Diagram
AUDIO SIGNAL
MAIN CBA
VIDEO SIGNAL
TO AUDIO BLOCK
DIAGRAM
SIF
8
SIF
AMP
7
TO
LCD BLOCK
DIAGRAM
TO SYSTEM CONTROL
BLOCK DIAGRAM
CVBS
AFT-IN
4
IC781 (INPUT SELECT)
3
13
18
S-VIDEO-C
14
5
13
S-VIDEO-Y
15
SW
CONTROL
1
12
2
TO AUDIO
BLOCK DIAGRAM
INPUT-0(INV)
INPUT-1(INV)
11
10
9
Q707
Q708
TO
LCD BLOCK
VIDEO-Y
VIDEO-Pr/Cr
VIDEO-Pb/Cb
DIAGRAM
4.5MHz
CF31
4
VIDEO
VIF
IC31 (IF SIGNAL PROCESS)
16
SAW
FILTER
SF11
IF
TU1
(TUNER UNIT)
FILTER
DET
AMP
17
VCO
SIF
TRAP
IF AGC DET
RF
AGC
14
5
173
AGC
XTAL-IN
EQ
2
SCL
AMP
AFT
SDA
AMP
11
INPUT-0
1
2
DEFEAT
SDA
TO
FSC
SCL
SYSTEM
CONTROL
BLOCK
S-SW
DIAGRAM
JK703
VIDEO1
CY
-IN
JK701
S-VIDEO
IN
INPUT-1
TO SYSTEM CONTROL
BLOCK DIAGRAM
JK706
VIDEO-YINJK707
VIDEO-Pb/CbINJK708
VIDEO-Pr/Cr
IN
7- 2L2607BLIF
Page 22
Audio Block Diagram
29
R-CH
MATRIXAGC
OFFSET
CANCEL
AUDIO SIGNAL
30
L-CH
OFFSET
CANCEL
SP802
SPEAKER
L-CH
CLN802
SP-L 1
CN310
SP-GND 2
INVERTER CBA
CN304
SP-L22
JK801
HEADPHONE
JACK
SP801
SPEAKER
R-CH
CLN801
SP-R 1
CN801
GND 2
TO IF/VIDEO
DIAGRAM
BLOCK DIAGRAM
TO SYSTEM
CONTROL BLOCK
75uS
DE-EMPH
L+R
FILTER
OFFSET
STEREO
FILTER
SIF/BB
SW
L-R
FILTER
CANCEL
WIDE BAND
EXPAND
WIDE BAND
RMS DET
WIDE BAND
FILTER
(L-R)/SAP
SW
SAP OUT
FILTER
SAP
DEMOD
SAP
FILTER
SPECTRAL
EXPAND
dBX
DE-EMPH
SPECTRAL
RMS DET
SPECTRAL
FILTER
CN404
IC801 (AUDIO AMP)
IC852 (INPUT SELECT)
(L-CH)
TUNER
11
AMP
(L-CH)
6
13
AUDIO2
AUDIO1
111512
VOLUME
MUTE
/STANDBY
CONTROL
(R-CH)
TUNER
(R-CH)
AUDIO1
4
14
AMP
1
3
AUDIO2
2
VOLUME
SCL
SDA
INPUT-0(INV)
AUDIO-MUTE
WF6
Q802
7
2
P-ON+5V
9 10
SW CTL
1
INPUT-1(INV)
IC851 (MTS/SAP AUDIO SIGNAL PROCESS)
MAIN CBA
INPUT
VCA
SIF
DEMOD
21
SIF
TO
IF/VIDEO BLOCK
DIAGRAM
I2C
DECORDER
27
24
7-3
AUDIO1(L)
JK704
-IN
JK705
AUDIO1(R)
-IN
JK709
AUDIO2(L)
-IN
JK710
AUDIO2(R)
-IN
L2607BLA
Page 23
LCD Block Diagram
LCD MODULE
OR(0)24
OR(2)22
OR(3)21
OG(0)17
OR(1)23
OG(1)16
OR(4)20
OR(5)19
OG(2)15
OG(3)14
OG(4)13
OG(5)12
OB(0)10
OB(1)9
OB(2)8
OB(3)7
OB(4)6
OB(5)5
ER(0)28
ER(1)27
ER(2)26
ER(3)25
ER(4)24
ER(5)23
EG(0)21
EG(1)20
EG(2)19
EG(3)18
EG(4)17
EG(5)16
EB(0)14
EB(1)13
EB(2)12
EB(3)11
EB(4)10
EB(5)9
OFFEV5
STV16
CLKV7
STH126
POL27
LP28
CLKH2
ODDINV3
EVENINV1
VCOM18
VCOM19
CN1206
VIDEO SIGNAL
MAIN CBA
151
150
146
145
R(ODD)
R
144
143
142
141
140
136
G(ODD)
G
135
134
133
132
131
B(ODD)
B
130
129
128
LCD RGB
CN1205
SIGNAL
PROCESS
118
117
116
115
R(EVEN)
Y
114
113
112
111
110
109
G(EVEN)
Pb/Cb
108
105
95949392869091
104
103
Pr/CrB(EVEN)
WF2
STV1
OFFEV
R1344
CLKV
CN1206
WF1
124
EVENINV
R1323
126
CLKH
R1301
R1302
127
153
STH1
ODDINV
154
POL
R1303
155
LP
WF4
WF3
WF5
CN1207
IC1202 (LCD DRIVE / SIGNAL PROCESS)
WF7
A/D
R
CVBS
70
CVBS
S-VIDEO-C
TO
IF/VIDEO
S-VIDEO-Y
BLOCK
DIAGRAM
WF9
A/D
G
VIDEO
SIGNAL
C
52
PROCESS
WF8
A/D
B
Y
75
WF10
A/D
77
7-4
WF11
A/D
57
WF12
VIDEO-Y
VIDEO-Pb/Cb
TO
IF/VIDEO
BLOCK
A/D
62
VIDEO-Pr/Cr
DIAGRAM
DRIVE
Q1024
7
IC1207 (OP AMP)
5
V-COM
TO
SYSTEM
CONTROL
BLOCK
DIAGRAM
L2607BLLCD
Page 24
Power Supply Block Diagram
NOTE:
The voltage for parts in hot circuit is measured using
hot GND as a common terminal.
TO LCD
BACKLIGHT
BLOCK
DIAGRAM
INV+22V
Q401
For continued protection against risk of fire,
replace only with same type 4 A, 125V fuse.
CAUTION ! :
ATTENTION : Utiliser un fusible de rechange de même type de 4A, 125V.
Q402
Q403
Q506
SW-6V
+1.5V
+1.5V REG.
IC603
D+3.3V
+3.3V REG.
IC602
AL+3.3V
AL+13V
P-ON-5V
+40V
Q503
VT+33V
+10.8V REG.
D505 SHUNT
REG.
Q501
PANEL+25V26PANEL-6V21PANEL+3.3V1
CN1207
SW+25V
TO
LCD MODULE
PANEL+3.3V23
PANEL+3.3V24
Q502
PANEL+10.8V4
PANEL+10.8V5
TO SYSTEM
CONTROL
BLOCK
P-25V-ON
BACKLIGHT-ADJ
DIAGRAM
P-ON-H
4A/125V
TP401
INV+22V
T601
HOTCOLD
10
4
BRIDGE
RECTIFIER
D605 - D608
L601
LINE
FILTER
+5V REG.
IC605
16
14
11
2
+5V REG.
IC606
9
13
6
SWITCHING
Q601
Q504
12
7
CONTROL
Q603
SWITCHING
Q505
Q632
REG.
MAIN CBA
SHUNT
D647
1
4
IC601
ERROR
2
3
VOLTAGE DET
CAUTION !
Fixed voltage (or Auto voltage selectable) power supply circuit is used in this unit.
If Main Fuse (F601) is blown , check to see that all components in the power supply
circuit are not defective before you connect the AC plug to the AC power supply.
Otherwise it may cause some components in the power supply circuit to fail.
F601
HOT CIRCUIT. BE CAREFUL.
4A/125V
4A/125V
AC601
AC CORD
7-5
L2607BLP
Page 25
LCD Backlight Block Diagram
BACK
LIGHT
1
2
CN301
OVER VOLTAGE
PROTECTOR
Q322,323
BACK
1
CN302
LIGHT
2
OVER VOLTAGE
Q342,343
BACK
LIGHT
LCD MODULEINVERTER CBA
1
2
CN303
PROTECTOR
OVER VOLTAGE
PROTECTOR
Q362,363
Q305
OVER VOLTAGE
Q304
+10V REG.
Q306
9
10
T301
3
614
CURRENT
Q321
PROTECTOR
CONTROL
SWITCH
8
5
Q324
7
2
T302
9
3
10
614
CURRENT
CONTROL
Q341
8
5
SWITCH
Q344
7
2
T303
9
3
10
614
CURRENT
CONTROL
Q361
8
5
SWITCH
Q364
7
2
OVER CURERENT
PROTECTOR
Q325
AL+21V77
AL+21V66
AL+21V55
AL+21V44
AL+21V88
AL+21V99
CN404CN304
INV+22V
MAIN CBA
TO
POWER
SUPPLY
BLOCK
DIAGRAM
7-6
L2607BLLB
Page 26
SCHEMATIC DIAGRAMS / CBA'S AND TEST POINTS
Standard Notes
Many electrical and mechanical parts in this chassis have special characteristics. These characteristics often
pass unnoticed and the protection afforded by them cannot necessarily be obtained by using replacement
components rated for higher voltage, wattage, etc. Replacement parts that have these special safety
characteristics are identified in this manual and its supplements; electrical components having such features are
identified by the mark “#” in the schematic diagram and the parts list. Before replacing any of these components,
read the parts list in this manual carefully. The use of substitute replacement parts that do not have the same
safety characteristics as specified in the parts list may create shock, fire, or other hazards.
Notes:
1. Do not use the part number shown on these drawings for ordering. The correct part number is shown in the
parts list, and may be slightly different or amended since these drawings were prepared.
2. All resistance values are indicated in ohms (K = 10
3. Resistor wattages are 1/4W or 1/6W unless otherwise specified.
4. All capacitance values are indicated in µF (P = 10
5. All voltages are DC voltages unless otherwise specified.
Note of Capacitors:
ML --- Mylar Cap. PP --- Metallized Film Cap. SC --- Semiconductor Cap. L --- Low Leakage type
Temperature Characteristics of Capacitors are noted with the following:
Tolerance of Capacitors are noted with the following:
Z --- +80~-20%
Note of Resistors:
CEM --- Cement Res. MTL --- Metal Res. F --- Fuse Res.
Capacitors and transistors are represented by the following symbols.
CBA Symbols
(Top View)(Bottom View)
+
Electrolytic Capacitor
(Bottom View)
Transistor or Digital Transistor
E C B
(Top View)
NPN Transistor
E C B
(Top View)
(Top View)
PNP Transistor
E C B
(Top View)
Schematic Diagram Symbols
Digital Transistor
E C B
NPN Digital Transistor
PNP Digital Transistor
E C B
8-1LC4N_SC
Page 27
LIST OF CAUTION, NOTES, AND SYMBOLS USED IN THE SCHEMATIC DIAGRAMS ON
THE FOLLOWING PAGES:
1. CAUTION:
CAUTION: FOR CONTINUED PROTECTION AGAINST RISK OF FIRE, REPLACE ONLY WITH SAME
TYPE_A,_V FUSE.
ATTENTION: UTILISER UN FUSIBLE DE RECHANGE DE MÊME TYPE DE_A,_V.
2. CAUTION:
Fixed Voltage (or Auto voltage selectable) power supply circuit is used in this unit.
If Main Fuse (F601) is blown, first check to see that all components in the power supply circuit are not
defective before you connect the AC plug to the AC power supply. Otherwise it may cause some components
in the power supply circuit to fail.
3. Note:
1. Do not use the part number shown on the drawings for ordering. The correct part number is shown in the
parts list, and may be slightly different or amended since the drawings were prepared.
2. To maintain original function and reliability of repaired units, use only original replacement parts which are
listed with their part numbers in the parts list section of the service manual.
4. Voltage indications on the schematics are as shown below:
Plug the TV power cord into a standard AC outlet.:
2
(Unit: Volt)
1
5.05.0
3
Power on mode
5. How to read converged lines
1-D3
Distinction Area
Line Number
(1 to 3 digits)
Examples:
1. "1-D3" means that line number "1" goes to the line number
"1" of the area "D3".
2. "1-B1" means that line number "1" goes to the line number
"1" of the area "B1".
6. Test Point Information
: Indicates a test point with a jumper wire across a hole in the PCB.
: Used to indicate a test point with a component lead on foil side.
: Used to indicate a test point with no test pin.
: Used to indicate a test point with a test pin.
Voltage
Indicates that the voltage
is not consistent here.
3
2
1
AREA D3
1-B1
AREA B1
1-D3
ABCD
8-2LC4N_SC
Page 28
Main 1/5 Schematic Diagram
8-3
L2607SCM1
Page 29
Main 2/5 Schematic Diagram
8-4
L2607SCM2
Page 30
Main 3/5 Schematic Diagram
8-5
L2607SCM3
Page 31
Main 4/5 Schematic Diagram
8-6
L2607SCM4
Page 32
Main 5/5 Schematic Diagram
CAUTION !
Fixed voltage (or Auto voltage selectable) power supply circuit is used in this unit.
If Main Fuse (F601) is blown , check to see that all components in the power supply
circuit are not defective before you connect the AC plug to the AC power supply.
Otherwise it may cause some components in the power supply circuit to fail.
4A/125V
CAUTION ! :
ATTENTION : Utiliser un fusible de rechange de même type de 4A, 125V.
For continued protection against risk of fire,
replace only with same type 4 A, 125V fuse.
NOTE:
The voltage for parts in hot circuit is measured using
hot GND as a common terminal.
8-7
L2607SCM5
Page 33
Function Schematic Diagram
8-8
L2607SCF
Page 34
IR Sensor Schematic Diagram
8-9
L2607SCIR
Page 35
Inverter Schematic Diagram
8-10
L2607SCI
Page 36
Main CBA Top View
NOTE:
The voltage for parts in hot circuit is measured using
hot GND as a common terminal.
Because a hot chassis ground is present in the power
supply circuit, an isolation transformer must be used.
Also, in order to have the ability to increase the input
slowly,when troubleshooting this type power supply
circuit, a variable isolation transformer is required.
CAUTION !
Fixed voltage (or Auto voltage selectable) power supply circuit is used in this unit.
If Main Fuse (F601) is blown , check to see that all components in the power supply
circuit are not defective before you connect the AC plug to the AC power supply.
Otherwise it may cause some components in the power supply circuit to fail.
4A/125V
CAUTION ! :
ATTENTION : Utiliser un fusible de rechange de même type de 4A, 125V.
For continued protection against risk of fire,
replace only with same type 4 A, 125V fuse.
WF11
PIN 57 OF
IC1202
WF9
PIN52 OF
IC1202
WF12
PIN 62 OF
IC1202
WF7
PIN 70 OF
IC1202
WF8
PIN 75 OF
IC1202
WF10
PIN 77 OF
IC1202
8-11
BL2500F01013-1
Page 37
Main CBA Bottom View
For continued protection against risk of fire,
replace only with same type 4 A, 125V fuse.
CAUTION ! :
ATTENTION : Utiliser un fusible de rechange de même type de 4A, 125V.
4A/125V
NOTE:
The voltage for parts in hot circuit is measured using
hot GND as a common terminal.
Because a hot chassis ground is present in the power
supply circuit, an isolation transformer must be used.
Also, in order to have the ability to increase the input
slowly,when troubleshooting this type power supply
circuit, a variable isolation transformer is required.
CAUTION !
Fixed voltage (or Auto voltage selectable) power supply circuit is used in this unit.
If Main Fuse (F601) is blown , check to see that all components in the power supply
circuit are not defective before you connect the AC plug to the AC power supply.
Otherwise it may cause some components in the power supply circuit to fail.
WF4
PIN 28 OF
CN1206
WF3
PIN 27 OF
CN1206
WF5
PIN 26 OF
CN1206
WF1
PIN 2 OF
CN1206
WF2
PIN 7 OF
CN1205
8-12
WF6
PIN 14 OF
IC801
BL2500F01013-1
Page 38
Function CBA Top View
IR Sensor CBA
IR Sensor CBA
Top View
Bottom View
BL2500F01013-3
Function CBA Bottom View
BL2500F01013-2
8-13
Page 39
Inverter CBA Top View
Inverter CBA Bottom View
8-14
BL2500F01021
Page 40
WAVEFORMS
WF1 ~ WF12 = Waveforms to be observed at
Waveform check points.
(Shown in Schematic Diagram.)
Input: NTSC Color Bar Signal (with 1kHz Audio Signal)
CLKH
WF11DIV: 1.0V 10
1DIV: 1.0V 10 s
Pin 2 of CN1206
CLKV
WF2
1DIV: 1.0V 20ns
Pin 7 of CN1205
STH1
WF5
AUDIO
WF6
Pin 26 of CN1206
1DIV: 100mV 400
Pin 14 of IC801
S-VIDEO-C
s
WF9
1DIV: 200mV 20 s
Pin 52 of IC1202
VIDEO-Y
s
WF10
1DIV: 200mV 20
s
Pin 77 of IC1202
POL
WF31DIV: 200mV 20
1DIV: 1.0V 20
s
Pin 27 of CN1206
LP
WF4
1DIV: 1.0V 10
s
Pin 28 of CN1206
CVBS
WF7
S-VIDEO-Y
WF8
Pin 70 of IC1202
1DIV: 200mV 20
Pin 75 of IC1202
VIDEO-Pb/Cb
s
WF11
1DIV: 200mV 20
s
Pin 57 of IC1202
VIDEO-Pr/Cr
s
WF12
1DIV: 200mV 20
s
Pin 62 of IC1202
L2500WF9-1
Page 41
NU
PANEL+10.8V
PANEL+10.8V
NU
XA0
PANEL+3.3V
132547689
CN1207
STV1
OFFEV
GND
GND
GND
GND
132547689
CN1205
WIRING DIAGRAM
VREF(4)
VREF(3)
VREF(2)
VREF(1)
VREF(0)
CLKV
VREF(5)
VREF(6)
VREF(7)
VREF(8)
VREF(9)NUVCOM
VCOMNUPANEL-6VNUPANEL+3.3V
10131211141517161918212022232427262528
EB(3)
EB(4)
EB(5)
GND
EB(2)
EB(1)
EB(0)
GND
EG(5)
EG(4)
EG(3)
EG(2)
EG(1)
EG(0)
GND
ER(5)
10131211141517161918212022232427262528
PANEL+3.3V
GND
PANEL+25VNUGND
ER(4)
ER(3)
ER(2)
ER(1)
ER(0)
LCD MODULE
MAIN CBA
CL1206CL1205CL1207
CN1206
CN404CN304
TU1 TUNER UNIT
OB(2)
OB(3)
OB(4)
OB(5)
GND
ODDINV
CLKH
EVENINV
132547689
BACK
1
CN301
132547689
+22V
+22V
+22V
+22V
+22V
PROTECT-1
SP-L
SP-GND
132547689
GND
OB(0)
OB(1)
OG(5)
OG(4)
OG(3)
OG(2)
OG(1)
OG(0)
GND
OR(5)
OR(4)
OR(3)
OR(2)
OR(1)
OR(0)
10131211141517161918212022232427262528
LIGHT
2
1013121114
GND
+22V
1013121114
GND
GND
GND
GND
BACK
1
CN302
15
GND
15
LIGHT
2
BACK
1
CN303
LIGHT
2
GND
STH1
POL
LP
SP802
SPEAKER
L-CH
CLN802
1
2
CN310
SP-L
SP-GND
SP801
SPEAKER
R-CH
INVERTER
CBA
CLN801
1
2
CN801
SP-R
SP-GND
AC CORD
AC601
S-VIDEO
IN
VIDEO1
-IN
VIDEO
-Y IN
VIDEO
-Pb/Cb IN
VIDEO
-Pr/Cr IN
AUDIO1(R)
-IN
AUDIO1(L)
-IN
AUDIO2(R)
-IN
AUDIO2(L)
-IN
132
CN1201
KEY-IN-2
132
CLN104
4
AL+3.3V(D)
KEY-IN-1
GND
4
FUNCTION
CBA
CN1202
AL+3.3V(D)
134
CLN105
51342
NU
REMOTE
GND
P-ON-H
5
2
IR SENSOR
CBA
L2607WI10-1
Page 42
Cabinet
EXPLODED VIEWS
B18
B54
SP801
B18
A1
B5
B14
A18
B5
L4
B18
IR Sensor CBA
B18
L25
CLN801
L22
B18
B54
SP802
B5
B5
CLN802
B14
CLN320
B14
L4
L4
A3
A7
Function CBA
L1
L22
CL1205
CL1206
L14
B3
L14
L14
B21
CL1207
B34
B21
B5
L9
L9
L14
Inverter CBA
B21
L23
L9
A9
B5
B21
L27
L9
A6
A4
L9
L9
B46
A10
S5
A9-1
LCD1
See Electrical Parts List
for parts with this mark.
L22
B4
L9
L9
Main CBA
L14
B22
L16
L16
L14
B7
11-1L2607CEX
B22
AC601
A9-7
A9-2
A9-4
A9-5
A9-3
A9-5
A9-4
A9-6
A9-5
Page 43
Packing
Some Ref. Numbers are
not in sequence.
X5
X3
X2
Tape
Packing Tape
S2
X1
S4
Packing Tape
S3
FRONT
S1
Packing Tape
S5
Packing Tape
11-2L2607PEX
Page 44
MECHANICAL PARTS LIST
PRODUCT SAFETY NOTE: Products marked with a
# have special characteristics important to safety.
Before replacing any of these components, read
carefully the product safety notice in this service
manual. Don't degrade the safety of the product
through improper servicing.
NOTE: Parts that are not assigned part numbers
(---------) are not available.
# have special characteristics important to safety.
Before replacing any of these components, read
carefully the product safety notice in this service
manual. Don't degrade the safety of the product
through improper servicing.
NOTES:
1. Parts that are not assigned part numbers (---------)
are not available.
2. Tolerance of Capacitors and Resistors are noted
with the following symbols.
C753CHIP CERAMIC CAP.(1608) B K 3300pF/50VCHD1JK30B332
C754CHIP CERAMIC CAP.(1608) B K 3300pF/50VCHD1JK30B332
C781ELECTROLYTIC CAP. 10µF/50V MCE1JMASDL100
C782CHIP CERAMIC CAP.(1608) B K 0.1µF/50VCHD1JK30B104
C785ELECTROLYTIC CAP. 100µF/10V MCE1AMASDL101
C801ELECTROLYTIC CAP. 220µF/16V MCE1CMASDL221
C802ELECTROLYTIC CAP. 220µF/16V MCE1CMASDL221
C805ELECTROLYTIC CAP. 10µF/50V MCE1JMASDL100
2006071213-1L2607EL
Page 46
Ref. No.DescriptionPart No.
C806CHIP CERAMIC CAP. F Z 1µF/10VCHD1AZ30F105
C807CHIP CERAMIC CAP. F Z 1µF/10VCHD1AZ30F105
C809ELECTROLYTIC CAP. 10µF/50V MCE1JMASDL100
C810ELECTROLYTIC CAP. 2.2µF/50V MCE1JMASDL2R2
C811ELECTROLYTIC CAP. 100µF/16V MCE1CMASDL101
C812CHIP CERAMIC CAP. F Z 1µF/10VCHD1AZ30F105
C813CHIP CERAMIC CAP. F Z 1µF/10VCHD1AZ30F105
C818ELECTROLYTIC CAP. 470µF/16V MCE1CMASDL471
C819CHIP CERAMIC CAP. B K 2200pF/50VCHD1JK30B222
C820CHIP CERAMIC CAP. B K 2200pF/50VCHD1JK30B222
C853ELECTROLYTIC CAP. 2.2µF/50V M H7CE1JMASSL2R2
C854CHIP CERAMIC CAP.(1608) B K 0.1µF/50VCHD1JK30B104
C855CHIP CERAMIC CAP.(1608) B K 0.1µF/50VCHD1JK30B104
C856CHIP CERAMIC CAP.(1608) B K 0.33µF/10VCHD1AK30B334
C857ELECTROLYTIC CAP. 2.2µF/50V MCE1JMASDL2R2
C858ELECTROLYTIC CAP. 2.2µF/50V M H7CE1JMASSL2R2
C859ELECTROLYTIC CAP. 4.7µF/50V MCE1JMASDL4R7
C860ELECTROLYTIC CAP. 10µF/50V MCE1JMASDL100
C861ELECTROLYTIC CAP. 100µF/10V MCE1AMASDL101
C863ELECTROLYTIC CAP. 2.2µF/50V MCE1JMASDL2R2
C864CHIP CERAMIC CAP.(1608) B K 0.022µF/50VCHD1JK30B223
C865CHIP CERAMIC CAP.(1608) B K 0.1µF/50VCHD1JK30B104
C866CHIP CERAMIC CAP. F Z 2.2µF/10VCHD1AZ30F225
C867CHIP CERAMIC CAP. F Z 2.2µF/10VCHD1AZ30F225
C868CHIP CERAMIC CAP.(1608) B K 1µF/10VCHD1AK30B105
C869CHIP CERAMIC CAP.(1608) B K 0.022µF/50VCHD1JK30B223
C1202ELECTROLYTIC CAP. 47µF/16V M H7CE1CMASSL470
C1203ELECTROLYTIC CAP. 100µF/16V MCE1CMASDL101
C1204ELECTROLYTIC CAP. 47µF/16V M H7CE1CMASSL470
C1205ELECTROLYTIC CAP. 100µF/16V MCE1CMASDL101
C1206CHIP CERAMIC CAP.(1608) F Z 0.1µF/25VCHD1EZ30F104
C1207CHIP CERAMIC CAP.(1608) F Z 0.1µF/25VCHD1EZ30F104
C1208CHIP CERAMIC CAP.(1608) B K 0.01µF/50VCHD1JK30B103
C1209CHIP CERAMIC CAP.(1608) F Z 0.1µF/25VCHD1EZ30F104
C1210CHIP CERAMIC CAP.(1608) F Z 0.1µF/25VCHD1EZ30F104
C1211CHIP CERAMIC CAP.(1608) CH J 1000pF/50VCHD1JJ3CH102
C1212CHIP CERAMIC CAP.(1608) B K 0.01µF/50VCHD1JK30B103
C1213ELECTROLYTIC CAP. 10µF/50V M H7CE1JMASSL100
C1214CHIP CERAMIC CAP.(1608) B K 0.22µF/16VCHD1CK30B224
C1215CHIP CERAMIC CAP.(1608) B K 0.01µF/50VCHD1JK30B103
C1216CHIP CERAMIC CAP.(1608) F Z 0.1µF/25VCHD1EZ30F104
C1217CHIP CERAMIC CAP.(1608) B K 0.01µF/50VCHD1JK30B103
C1218CHIP CERAMIC CAP.(1608) B K 0.01µF/50VCHD1JK30B103
C1219CHIP CERAMIC CAP.(1608) CH J 47pF/50VCHD1JJ3CH470
C1220ELECTROLYTIC CAP. 330µF/16V MCE1CMASDL331
C1224CHIP CERAMIC CAP.(1608) CH J 47pF/50VCHD1JJ3CH470
C1226CHIP CERAMIC CAP.(1608) B K 0.1µF/50VCHD1JK30B104
C1227CHIP CERAMIC CAP.(1608) B K 0.1µF/50VCHD1JK30B104
C1228CHIP CERAMIC CAP.(1608) B K 0.1µF/50VCHD1JK30B104
C1229CHIP CERAMIC CAP.(1608) B K 0.1µF/50VCHD1JK30B104
C1230CHIP CERAMIC CAP.(1608) B K 0.1µF/50VCHD1JK30B104
C1231CHIP CERAMIC CAP.(1608) B K 0.1µF/50VCHD1JK30B104
C1232CHIP CERAMIC CAP.(1608) B K 0.1µF/50VCHD1JK30B104
C1233CHIP CERAMIC CAP.(1608) B K 0.1µF/50VCHD1JK30B104
C1234CHIP CERAMIC CAP.(1608) B K 0.1µF/50VCHD1JK30B104
C1235CHIP CERAMIC CAP.(1608) CH J 33pF/50VCHD1JJ3CH330
C1236CHIP CERAMIC CAP.(1608) CH J 33pF/50VCHD1JJ3CH330
C1237ELECTROLYTIC CAP. 47µF/16V M H7CE1CMASSL470
C1239CHIP CERAMIC CAP.(1608) B K 0.1µF/50VCHD1JK30B104
C1240CHIP CERAMIC CAP.(1608) B K 0.1µF/50VCHD1JK30B104
C1241CHIP CERAMIC CAP.(1608) B K 0.1µF/50VCHD1JK30B104
C1243CHIP CERAMIC CAP.(1608) B K 0.1µF/50VCHD1JK30B104
C1245CHIP CERAMIC CAP.(1608) B K 0.1µF/50VCHD1JK30B104
Ref. No.DescriptionPart No.
C1246CHIP CERAMIC CAP.(1608) B K 0.1µF/50VCHD1JK30B104
C1248ELECTROLYTIC CAP. 47µF/16V M H7CE1CMASSL470
C1249ELECTROLYTIC CAP. 47µF/16V M H7CE1CMASSL470
C1250CHIP CERAMIC CAP.(1608) B K 0.01µF/50VCHD1JK30B103
C1251CHIP CERAMIC CAP.(1608) B K 0.01µF/50VCHD1JK30B103
C1253CHIP CERAMIC CAP.(1608) B K 0.22µF/16VCHD1CK30B224
C1254CHIP CERAMIC CAP.(1608) B K 0.22µF/16VCHD1CK30B224
C1255CHIP CERAMIC CAP.(1608) B K 0.22µF/16VCHD1CK30B224
C1256CHIP CERAMIC CAP.(1608) B K 0.22µF/16VCHD1CK30B224
C1257CHIP CERAMIC CAP.(1608) B K 0.22µF/16VCHD1CK30B224
C1258CHIP CERAMIC CAP.(1608) B K 0.22µF/16VCHD1CK30B224
C1259CHIP CERAMIC CAP.(1608) B K 0.22µF/16VCHD1CK30B224
C1260CHIP CERAMIC CAP.(1608) B K 0.22µF/16VCHD1CK30B224
C1261CHIP CERAMIC CAP.(1608) B K 0.22µF/16VCHD1CK30B224
C1262CHIP CERAMIC CAP.(2125) B K 4.7µF/16VCHE1CK30B475
C1263ELECTROLYTIC CAP. 47µF/16V M H7CE1CMASSL470
C1264ELECTROLYTIC CAP. 47µF/16V M H7CE1CMASSL470
C1265CHIP CERAMIC CAP.(1608) F Z 0.1µF/25VCHD1EZ30F104
C1266CHIP CERAMIC CAP.(1608) B K 1µF/10VCHD1AK30B105
C1268CHIP CERAMIC CAP.(1608) B K 0.1µF/50VCHD1JK30B104
C1269ELECTROLYTIC CAP. 4.7µF/50V MCE1JMASDL4R7
C1270CHIP CERAMIC CAP.(1608) B K 1µF/10VCHD1AK30B105
C1271CHIP CERAMIC CAP.(1608) B K 1µF/10VCHD1AK30B105
C1302CHIP CERAMIC CAP.(1608) B K 0.1µF/50VCHD1JK30B104
C1345CHIP CERAMIC CAP.(1608) CH J 100pF/50VCHD1JJ3CH101
C1346CHIP CERAMIC CAP.(1608) CH J 100pF/50VCHD1JJ3CH101
C1347CHIP CERAMIC CAP.(1608) B K 0.01µF/50VCHD1JK30B103
C1348CHIP CERAMIC CAP.(1608) B K 0.1µF/50VCHD1JK30B104
C1352ELECTROLYTIC CAP. 47µF/10V MCE1AMASDL470
CONNECTORS
CN404TWG CONNECTOR 15P TWG-P15P-A1J3TWA15TG001
CN801CONNECTOR PRINT OSU
CLN105WIRE ASSEMBLY 5PIN SENSOR 5PIN/200MM WX1L2600-008
RCV102REMOCON RECEIVE UNIT KSM-602SR2E-2USESJRSKK045
INVERTER CBA
Ref. No.DescriptionPart No.
INVERTER CBA
Consists of the following:
CAPACITORS
C301ELECTROLYTIC CAP. 47µF/16V MCE1CMASDL470
C302CHIP CERAMIC CAP.(1608) B K 5600pF/50VCHD1JK30B562
C303ELECTROLYTIC CAP. 220µF/16V MCE1CMASDL221
C321CAP CHIP 5pF 3KV C XCCA3F5R05M016
C322CHIP CERAMIC CAP.(1608) B K 0.01µF/50VCHD1JK30B103
C323CAP CHIP 5pF 3KV C XCCA3F5R05M016
C325CHIP CERAMIC CAP.(1608) B K 0.01µF/50VCHD1JK30B103
C326ELECTROLYTIC CAP. 10µF/50V MCE1JMASDL100
C327CHIP CERAMIC CAP.(1608) B K 0.01µF/50VCHD1JK30B103
C328ELECTROLYTIC CAP. 10µF/50V MCE1JMASDL100
C329CHIP CERAMIC CAP.(1608) B K 0.01µF/50VCHD1JK30B103
C330CAP METALIZED FILM 0.068µF/250V/JCT2E683MS041
C331ELECTROLYTIC CAP. 22µF/50V MCE1JMASDL220
C332CHIP CERAMIC CAP.(1608) B K 0.01µF/50VCHD1JK30B103
C341CAP CHIP 5pF 3KV C XCCA3F5R05M016
C342CHIP CERAMIC CAP.(1608) B K 0.01µF/50VCHD1JK30B103
C343CAP CHIP 5pF 3KV C XCCA3F5R05M016
C345CHIP CERAMIC CAP.(1608) B K 0.01µF/50VCHD1JK30B103
C346ELECTROLYTIC CAP. 10µF/50V MCE1JMASDL100
C347CHIP CERAMIC CAP.(1608) B K 0.01µF/50VCHD1JK30B103
C348ELECTROLYTIC CAP. 10µF/50V MCE1JMASDL100
C349CHIP CERAMIC CAP.(1608) B K 0.01µF/50VCHD1JK30B103
C350CAP METALIZED FILM 0.068µF/250V/JCT2E683MS041
C351ELECTROLYTIC CAP. 22µF/50V MCE1JMASDL220
C361CAP CHIP 5pF 3KV C XCCA3F5R05M016
C362CHIP CERAMIC CAP.(1608) B K 0.01µF/50VCHD1JK30B103
C363CAP CHIP 5pF 3KV C XCCA3F5R05M016
C365CHIP CERAMIC CAP.(1608) B K 0.01µF/50VCHD1JK30B103
C366ELECTROLYTIC CAP. 10µF/50V MCE1JMASDL100
1ESA12650
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Ref. No.DescriptionPart No.
C367CHIP CERAMIC CAP.(1608) B K 0.01µF/50VCHD1JK30B103
C368ELECTROLYTIC CAP. 10µF/50V MCE1JMASDL100
C369CHIP CERAMIC CAP.(1608) B K 0.01µF/50VCHD1JK30B103
C370CAP METALIZED FILM 0.068µF/250V/JCT2E683MS041
C371ELECTROLYTIC CAP. 22µF/50V MCE1JMASDL220