21T01F2
Toshiba 21T01F2, 21R01F2, 21T01B2, 14R01F2, 14T01B2 Service Manual
...
SERVICE MANUAL
FILE NO. 050-200126
21T01F2, 21R01F2
21T01B2, 14R01F2
14T01B2, 14R01B2
21T01N2, 21T01I2
21T01D2, 14T01N2
14T01I2, 14T01D2
PRINTED IN U. K
COLOUR TELEVISION
1. Precautions
1-1 Safety Precautions
1. Be sure that all of the built-in protective
devices are replaced. Restore any missing
protective shields.
2. When reinstalling the chassis and its
assemblies, be sure to restore all protective
devices, including: nonmetallic control knobs
and compartment covers.
3. Make sure that there are no cabinet openings
through which people—particularly
children—might insert fingers and contact
dangerous voltages. Such openings include
the spacing between the picture tube and the
cabinet mask, excessively wide cabinet
ventilation slots, and improperly fitted back
covers.
If the measured resistance is less than 1.0
megohm or greater than 5.2 megohms, an
abnormality exists that must be corrected
before the unit is returned to the customer.
4. Leakage Current Hot Check (Figure 1-1):
Warning: Do not use an isolation
transformer during this test. Use a leakagecurrent tester or a metering system that
complies with American National Standards
Institute (ANIS C101.1, Leakage Current for
Appliances), and Underwriters Laboratories
(UL Publication UL1410, 59.7).
5. With the unit completely reassembled, plug
the AC line cord directly into the power
outlet. With the unit’s AC switch first in the
ON position and then OFF, measure the
current between a known earth ground (metal
water pipe, conduit, etc.) and all exposed
metal parts, including: antennas, handle
brackets, metal cabinets, screwheads and
control shafts. The current measured should
not exceed 0.5 milliamp. Reverse the powerplug prongs in the AC outlet and repeat the
test.
Fig. 1-1 AC Leakage Test
6. Antenna Cold Check:
With the unit’s AC plug disconnected from the
AC source, connect an electrical jumper across
the two AC prongs. Connect one lead of the
ohmmeter to an AC prong. Connect the other
lead to the coaxial connector.
7. X-ray Limits:
The picture tube is especially designed to prohibit X-ray emissions. To ensure continued
X-ray protection, replace the picture tube only
with one that is the same type as the original.
Carefully reinstall the picture tube shields and
mounting hardware; these also provide X-ray
protection.
8. High Voltage Limits:
High voltage must be measured each time servicing is done on the B+, horizontal deflection
or high voltage circuits. Correct operation of
the X-ray protection circuits must be
reconfirmed whenever they are serviced.
(X-ray protection circuits also may be called
“horizontal disable” or “hold-down”.)
Heed the high voltage limits. These include
the X–ray Protection Specifications Label, and
the Product Safety and X-ray Warning Note on
the service data schematic.
Precautions
1-1
LEAKAGE
CURRENT
TESTER
DEVICE
UNDER
TEST
TEST ALL
EXPOSED METAL
SURFACES
2-WIRE CORD
ALSO TEST WITH
PLUG REVERSED
(USING AC ADAPTER
PLUG AS REQUIRED)
EARTH
GROUND
(READING SHOULD
NOT BE ABOVE
0.5mA)
Follow these safety, servicing and ESD precautions to prevent damage and protect against potential
hazards such as electrical shock and X-rays.
1-1 Safety Precautions (Continued)
9. High voltage is maintained within specified
limits by close-tolerance, safety-related
components and adjustments. If the high
voltage exceeds the specified limits, check
each of the special components.
10. Design Alteration Warning:
Never alter or add to the mechanical or
electrical design of this unit. Example: Do not
add auxiliary audio or video connectors. Such
alterations might create a safety hazard. Also,
any design changes or additions will void the
manufacturer’s warranty.
11. Hot Chassis Warning:
Some TV receiver chassis are electrically
connected directly to one conductor of the AC
power cord. If an isolation transformer is not
used, these units may be safely serviced only
if the AC power plug is inserted so that the
chassis is connected to the ground side of the
AC source.
To confirm that the AC power plug is inserted
correctly, do the following: Using an AC
voltmeter, measure the voltage between the
chassis and a known earth ground. If the
reading is greater than 1.0V, remove the AC
power plug, reverse its polarity and reinsert.
Re-measure the voltage between the chassis
and ground.
12. Some TV chassis are designed to operate with
85 volts AC between chassis and ground,
regardless of the AC plug polarity. These units
can be safely serviced only if an isolation
transformer inserted between the receiver and
the power source.
13. Some TV 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
insulating material that must not be defeated
or altered.
14. Components, parts and wiring that appear to
have overheated or that are otherwise
damaged should be replaced with parts that
meet the original specifications. Always
determine the cause of damage or overheating, and correct any potential hazards.
15. Observe the original lead dress, especially
near the following areas: Antenna wiring,
sharp edges, and especially the AC and high
voltage power supplies. Always inspect for
pinched, out-of-place, or frayed wiring. Do
not change the spacing between components
and the printed circuit board. Check the AC
power cord for damage. Make sure that leads
and components do not touch thermally hot
parts.
16. Picture Tube Implosion Warning:
The picture tube in this receiver employs
“integral implosion” protection. To ensure
continued implosion protection, make sure
that the replacement picture tube is the same
as the original.
17. Do not remove, install or handle the picture
tube without first putting on shatterproof
goggles equipped with side shields. Never
handle the picture tube by its neck. Some
“in-line” picture tubes are equipped with a
permanently attached deflection yoke; do not
try to remove such “permanently attached”
yokes from the picture tube.
18. Product Safety Notice:
Some electrical and mechanical parts have
special safety-related characteristics which
might not be obvious from visual inspection.
These safety features and the protection they
give might be lost if the replacement component differs from the original—even if the
replacement is rated for higher voltage,
wattage, etc.
Components that are critical for safety are
indicated in the circuit diagram by shading,
( ) or ( ).
Use replacement components that have the
same ratings, especially for flame resistance
and dielectric strength specifications.
A replacement part that does not have the
same safety characteristics as the original
might create shock, fire or other hazards.
Precautions
1-2
!
1-2 Servicing Precautions
1. Servicing precautions are printed on the
cabinet. Follow them.
2. Always unplug the unit’s AC power cord from
the AC power source before attempting to: (a)
Remove or reinstall any component or
assembly, (b) Disconnect an electrical plug or
connector, (c) Connect a test component in
parallel with an electrolytic capacitor.
3. Some components are raised above the printed
circuit board for safety. An insulation tube or
tape is sometimes used. The internal wiring is
sometimes clamped to prevent contact with
thermally hot components. Reinstall all such
elements to their original position.
4. After servicing, always check that the screws,
components and wiring have been correctly
reinstalled. Make sure that the portion around
the serviced part has not been damaged.
5. Check the insulation between the blades of the
AC plug and accessible conductive parts
(examples: metal panels, input terminals and
earphone jacks).
6. Insulation Checking Procedure: Disconnect the
power cord from the AC source and turn the
power switch ON. Connect an insulation
resistance meter (500V) to the blades of the AC
plug.
The insulation resistance between each blade
of the AC plug and accessible conductive parts
(see above) should be greater than 1 megohm.
7. Never defeat any of the B+ voltage interlocks.
Do not apply AC power to the unit (or any of
its assemblies) unless all solid-state heat sinks
are correctly installed.
8. Always connect a test instrument’s ground
lead to the instrument chassis ground before
connecting the positive lead; always remove
the instrument’s ground lead last.
Precautions
1-3
Warning1: First read the “Safety Precautions” section of this manual. If some unforeseen circumstance creates a conflict between
the servicing and safety precautions, always follow the safety precautions.
Warning2: An electrolytic capacitor installed with the wrong polarity might explode.
1. Some semiconductor (“solid state”) devices
are easily damaged by static electricity. Such
components are called Electrostatically
Sensitive Devices (ESDs); examples include
integrated circuits and some field-effect
transistors. The following techniques will
reduce the occurrence of component damage
caused by static electricity.
2. Immediately before handling any semicon
ductor components or assemblies, drain the
electrostatic charge from your body by
touching a known earth ground. Alternatively,
wear a discharging wrist-strap device. (Be
sure to remove it prior to applying power—
this is an electric shock precaution.)
3. After removing an ESD-equipped assembly,
place it on a conductive surface such as
aluminum foil to prevent accumulation of
electrostatic charge.
4. Do not use freon-propelled chemicals. These
can generate electrical charges that damage
ESDs.
5. Use only a grounded-tip soldering iron when
soldering or unsoldering ESDs.
6. Use only an anti-static solder removal device.
Many solder removal devices are not rated as
“anti-static”; these can accumulate sufficient
electrical charge to damage ESDs.
7. Do not remove a replacement ESD from its
protective package until you are ready to
install it. Most replacement ESDs are
packaged with leads that are electrically
shorted together by conductive foam,
aluminum foil or other conductive materials.
8. Immediately before removing the protective
material from the leads of a replacement ESD,
touch the protective material to the chassis or
circuit assembly into which the device will be
installed.
9. Minimize body motions when handling
unpackaged replacement ESDs. Motions such
as brushing clothes together, or lifting a foot
from a carpeted floor can generate enough
static electricity to damage an ESD.
Precautions
1-4
1-3 Precautions for Electrostatically Sensitive Devices (ESDs)
2-1
Specifications and IC Data
2. Specifications and IC Data
2-1 Specifications
Television System:
Channels:
Intermediate Frequencies (MHz) :
MODEL
CB
CI
CF
CZ
System
Band
VHF
UHF
SYSTEM
IF Carrier Frequency
SYSTEM
PAL-B/G
PAL-I (VHF/UHF)
PAL-B/G, SECAM-L,L'
PAL-B/G, D/K, I, SECAM-B/G, D/K, NT4.43
PAL/SECAM-
B/G,I
2 - 12
21 - 69
PAL/
SECAM- B/G
PAL,
SECAM- D/K
1 - 13
21 - 69
PAL/SECAM-D/K,
SECAM-K1
SECAM-K1,
PAL-D
2 - 9
13 - 57
PAL - I
Power Requirements:
Antenna Input Impedance:
Speaker Impedance:
Picture IF Carrier
Sound IF Carrier
Color Sub Carrier
AC 230V, 50Hz
VHF, UHF : Telescopic dipole antenna (75 ohm unbalanced type )
16 ohm, 3W (Monitor Type & Dual Type)
38.90
33.40
34.47
38.90
32.40
34.47
38.90
32.90
34.47
2-2
2-2 IC Line Up
Specifications and IC Data
Table 2-1 IC Line-Up
Loc. No Specification Description Remark
HIC01 PAP103 IF PRE-AMP
LPM-802EE
LPM-802EW
IC201S
LPM-802EEW
LPM-802EWN
IC301
IC501 TDA6107Q RGB DRIVE AMP
IC602
IC801S
IC802 KA7632
IC902 24C08/KS28C040 EEPROM
LA7840
TDA8943SF
KA5Q0765R
TTX ( LPM-802EE : East Europe )
( LPM-802EW : West Europe )
W/O TTX ( LPM-802EEN : East Europe )
( LPM-802EWN : West Europe )
VERTICAL OUTPUT
SOUND-AMP (3W x 1CH or 3W x 2CH)
POWER IC (STR)
CUSTOM REGULATOR (5V, 8V, 3.3V)
Philips
Sanyo
Philips
Philips
2-3 Semiconductor Base Diagrams
Specifications and IC Data
2-3
Fig. 2-1 Semiconductor Base Diagrams
ELECTROLYTICCONDENSER
DIODE
IC
LPM-802XXX(Pin 64)
LPM-802XX(Pin 64)
X24CO8P(Pin 8)
KS24C080(Pin 8)
TRANSISTOR
B
C
E
IC
2SD1651
2SD1650
2SD2499
KSA614
TRANSISTOR
E B C
LA7840
TDA6107Q
KA7632
KSC815-Y
KSA539-Y
BC548
KTC9014
IC
UPC574J
or
KA33V
TRANSISTOR
SAW-FILTER
1
1
1
KSR1012
KSR1010
KSR2010
KTD863-Y
KSC2331-Y
K2971M
G1963M
E C B
2-4
MEMO
3-1
Disassembly and reassembly
3. Disassembly and Reassembly
3-1 Back Cover Removal
1. After removing the screws, press the tension rib and pull the cabinet backwards.
2. To reassemble, press the tension rib (see diagram).
3-2
3-2 Main Board Removal
Disassembly and reassembly
1. Separate the socket board from the CRT neck.
2. Remove the Anode Cap from the CRT.
3. Remove the main board by pulling it with both hands.
Warning: The FBT is charged with high voltage.
Before removing the Anode Cap, discharge the voltage
through one of the heat sinks on the main board.
3-3 Speaker Removal
Disassembly and reassembly
3-3
1. Remove the speaker by
pressing the tension rib.
1. Remove the screws.
2. Remove the speaker by
pressing the tension rib.
3-4
Disassembly and reassembly
3-4 CRT Removal
1. Spread a soft mat on the floor. Place the TV set face
down.
2. Remove the 4 nuts mounting the CRT to the front cabinet. Lift the CRT.
3. Caution: Because of the high vacuum and large surface
area of the picture tube, be careful while handling it: (1)
Always lift the picture tube by grasping it firmly around
the faceplate, (2) Never lift the tube by its neck. (3) Do
not scratch the picture tube or apply excessive pressure.
Fractures of the glass may cause an implosion.
Alignment and Adjustments
4-1
4. Alignment and Adjustments
4-1 Preadjustment
4-1-1 Factory Mode
1. Do not attempt these adjustments in the Video
Mode.
2. The Factory Mode adjustments are necessary
when either the EEPROM (IC902) or the CRT
is replaced.
3. Do not tamper with the “Adjustment” screen
of the Factory Mode menu. This screen is
intended only for factory use.
4-1-2 When EEPROM (IC902) Is Replaced
1. When IC902 is replaced all adjustment data
revert to initial values. It is necessary to
re-program this data.
2. After IC902 is replaced, warm up the TV for
10 seconds.
4-1-3 When CRT Is Replaced
1. Make the following adjustments AFTER setting up after setting up purity and convergence :
White Balance
Sub-Brightness
Vertical Center
Vertical Size
Horizontal Size
Fail Safe (This adjustment must be the last
step).
2. If the EEPROM or CRT is replaced, set PVA to
40 (factory mode) and set SC as follows.
14 inch : 18
21 inch : 24
4-2 Factory/Service Mode
4-2-1 Procedure for the “Adjustment” Mode
1. This mode uses the standard remote control.
The Service Mode is activated by entering the
following remote-control sequence :
(1) DISPLAY→FACTORY.
(2) STAND-BY→ DISPLAY→ MENU→ MUTE
→POWER ON.
2. The “SERVICE (FACTORY)” message will be
displayed. The Service Mode has three components: ADJUST, OPTION and Reset.
3. Access the Adjustment Mode by pressing the
“VOLUME” keys ( Up or Down). The adjustment parameters are listed in the accompanying table, and selected by pressing the CHANNEL keys (▲ ,▼).
4. Selection sequences for the all system:
DOWN or UP key:
AGC>SCT>SBT>BLR>BLB>RG>GG>BG>
VSL>VS>VA>HS>SC>CDL>STT>AKB>
PDL>NDL>PSR>NSR>VOL>LCO>TXP>
MVOL>FMWS>AGCS>OMD>SCL>PWL>
AGN>PEK>ACL>FCO>SCBT>TSC
5. The VOLUME keys increase or decrease the
adjustment values (stored in the
non-volatile memory) when Adjustment Mode
is cancelled.
6. Cancel the Adjustment Mode by re-pressing
the “FACTORY” or “Power OFF” keys.
4-2-2 Main Adjustment Parameter
NOTE : PVS,PVA, PHS, parameters must be aligned using the 50Hz vertical-field rates.
Alignment and Adjustments
4-2
OSD FUNCTION RANGE INITIAL DATA REMARK
AGC
SCT
SBT
BLR
BLB
RG
GG
BG
VSL
VS
VA
HS
SC
CDL
STT
AKB
PDL
NDL
PSR
NSR
VOL
LCD
TXP
MVOL
FMWS
AGCS
OMD
SCL
PWL
AGN
PEK
ACL
FCO
SCBT
TSC
Automatic Gain Control
Sub Contrast
Sub Brightness
Black Level offset Red
Black Level offset Blue
Red Gain
Green Gain
Blue Gain
Vertical Slope
Vertical Shift
Vertical Amplitude
Horizontal Shift
S-Correction
Cathode Drive Level
Sub Tint
Black Current Stabilisation
PAL Delay
NTSC Delay
PAL Sub Color
NTSC Sub color
Volume pre setting
SECAM-L Vision IF
TTX Position
Melody Volume Levle
Window Selection of Narrow SoundPLL
IF AGC Speed
Off-set IF Demodulator
Soft Clipping Levle
Peak White Limiting
Gain FM Demodulator
Peaking Centre Frequency
Automatic Color Limiting
Forced Color On
Screen Adjust Bright Value
TTX Mix Mode Sub Contrast
0 ~ 63
0 ~ 23
0 ~ 23
0 ~ 63
0 ~ 63
0 ~ 63
0 ~ 63
0 ~ 63
0 ~ 63
0 ~ 63
0 ~ 63
0 ~ 63
0 ~ 63
0 ~ 15
0 ~ 7
0 ~ 1
0 ~ 15
0 ~ 15
0 ~ 23
0 ~ 23
0 ~ 63
0 ~ 1
0 ~ 15
0 ~ 50
0 ~ 1
0 ~ 3
0 ~ 63
0 ~ 3
0 ~ 15
0 ~ 1
0 ~ 3
0 ~ 1
0 ~ 1
0 ~ 63
0 ~ 63
33
13
9
9
7
32
25(Fix)
32
19
38
40(Fix)
30
Option
Option
3(Fix)
0(Fix)
1(Fix)
10(Fix)
10(Fix)
5(Fix)
10(Fix)
Option
9(Fix)
10(Fix)
0(Fix)
Option
26(Fix)
3(Fix)
12(Fix)
1(Fix)
2(Fix)
1(Fix)
0(Fix)
45(Fix)
20(Fix)
14inch : 18, 21inch : 24
14inch : 1, 21inch : 3
CF MODEL : 1, others : 0
CF MODEL : 0, others : 1
TTX Option
Alignment and Adjustments
4-3
4-2-3 Option Bytes
In the Service Mode, various can be selected via the Option Table. Example:
OPTION TALBE : LPM-802EW/EWN, LPM-802EE/EEN
LPM-802EW/EWN REMARK LPM-802EE/EEN REMARK
1
LNA
--
OFF
10
11
12
13
14
15
16
2
3
4
5
6
7
8
9
SYSTEM
AUDIO
JACK
ZOOM
AUTO POWER
SBL
2ND SIF
HOTEL MODE
BKS
HIGH DEVIA
HELP MENU
NICAM
LIST/FLOF
TIME
V-GUARD
MONO
SCART
NOR/ZOOM/16"9
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
FLOF
OFF
OFF
CZ
MONO
SCART
NOR/ZOOM/16"9
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
TTX OPTION TTX OPTION
FLOF
OFF
OFF
Alignment and Adjustments
4-4
4-3 Other Adjustments
4-3-1 General
1. Usually, a color TV needs only slight touchup adjustment upon installation. Check the
basic characteristics such as height, horizontal
and vertical sync and focus.
2. The picture should have good black and white
details. There should be no objectionable
color shading; if color shading is present, perform the purity and convergence adjustments
described below.
3. Use the specified test equipment or its equivalent.
4. Correct impedance matching is essential.
5. Avoid overload. Excessive signal from a sweep
generator might overload the front-end of the
TV. When inserting signal markers, do not
allow the marker generator to distort test
results.
6. Connect the TV only to an AC power source
with voltage and frequency as specified on the
backcover nameplate.
7. Do not attempt to connect or disconnect any
wires while the TV is turned on. Make sure
that the power cord is disconnected before
replacing any parts.
8. To protect against shock hazard, use an isolation transformer.
4-3-2 Automatic Degaussing
A degaussing coil is mounted around the picture tube, so that external degaussing after
moving the TV should be unnecessary. But
the receiver must be properly degaussed upon
installation.
The degaussing coil operates for about 1 second after the power is switched ON. If the set
has been moved or turned in a different direction, disconnect its AC power for at least 30
minutes.
If the chassis or parts of the cabinet become
magnetized, poor color purity will result. If
this happens, use an external degaussing coil.
Slowly move the degaussing coil around the
faceplate of the picture tube and the sides and
front of the receiver. Slowly withdraw the coil
to a distance of about 6 feet before removing
power.
4-2-4 RESET
The Reset Mode is used during factory inspection.
Function Reset:
1. Picture Custom
2. Auto Volume Off
3. Color System Auto (option)
4. Blue Screen Off
5. Volume 10
6. CH. Skip Erased
7. CH. Lock Off
Alignment and Adjustments
4-5
4-3-3 High Voltage Check
CAUTION: There is no high voltage adjustment on this chassis.
The B+ power supply must be set to +125 volts (Full color bar input
and normal picture level).
1. Connect a digital voltmeter to the second
anode of the picture tube.
2. Turn on the TV. Set the Brightness and
Contrast controls to minimum (zero beam current).
3. The high voltage should not exceed 27.5KV.
4. Adjust the Brightness and contrast controls to
both extremes. Ensure that the high voltage
does not exceed 27.5KV under any conditions.
4-3-4 FOCUS Adjustment
1. Input a black and white signal.
2. Adjust the tuning control for the clearest pic-
ture.
3. Adjust the FOCUS control for well defined
scanning lines in the center area of the screen.
4-3-5 Cathode Voltage Adjustment
(Screen Adjustment)
1. Enter the FACTORY mode.
2. Select the G2-ADJUST.
3. Adjust the screen VR(on the FBT)
so that ‘SCREEN ADJUST : NG(Red or Blue)’
becomes ‘SCREEN ADJUST : OK’.
When the color of ‘SCREEN ADJUST’ is
red, the cathode voltage is low and when blue,
it is high.
4-3-6 Purity Adjustment
1. Warm up the receiver for at least 20 minutes.
2. Plug in the CRT deflection yoke and tighten
the clamp screw.
3. Plug the convergence yoke into the CRT and
set in as shown in Fig. 4-1.
4. Input a black and white signal.
5. Fully demagnetize the receiver by applying an
external degaussing coil.
6. Turn the CONTRAST and BRIGHTNESS controls to maximum.
7. Loosen the clamp screw holding the yoke.
Slide the yoke backward or forward to provide vertical green belt. (Fig. 4-2).
8. Tighten the convergence yoke.
9. Slowly move the deflection yoke forward,
and adjust for the best overall green screen.
10. Temporarily tighten the deflection yoke.
11. Produce blue and red rasters by adjusting the
low-light controls. Check for good purity in
each field.
12. Tighten the deflection yoke.
Alignment and Adjustments
4-6
4-3-7 White Balance Adjustment
Fig. 4-1 Convergence Magnet Assembly
Fig. 4-2 Center Convergence Adjustment
Fig. 4-3
(a) Set up
1. Warm up the TV for at least 30 minutes in the
Aging Mode (OSD White). This mode is
entered by entering the following sequence:
(Displaying AGING on the screen)
DISPLAY
→FACTORY → FACTORY
2. Input a Toshiba pattern.
(b) Low-Light Adjustment
1. Set SBT to 3.5 ± 0.5 fL in the Factory Service
Mode with using CA100. See Fig. 4-3
➁.
(14inch : 2.5 ± 0.5fL, 21inch : 1.5 ± 0.5fL)
2. Adjust RG,BG so that the levels are suitable to
each local area.
(c) High-Light Adjustment
1. Set SCT to 35 FL (20”. 21”), 60 FL(14”) in the
Factory Service Mode with using CA100. See
Fig. 4-3
①.
6 Pole Magnet
Clamper
Screw
4 Pole Magnet
2 Pole Magnet
2 POLE
PURITY
YOKE
CLAMP
SCREW
6 POLE
CONVERGENCE
4 POLE
CONVERGENCE
ADJUST THE ANGLE
(VERTICAL LINES)
31m/m
1
Vertical Green Belt
2
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