Contents Chassis 445N 21” High Resolution Colour

Transcription

xx
Nokia Display Products Oy
P.O.Box 14
FIN---24101 Salo, Finland
Chassis 445N
21” High Resolution Colour Monitor
445PRO
Contents
Service
Monitor Dismantling
Part List
PCB Part List
PCB Layout pictures
Level
1
Main Board module . . . . . . SMA251H
CRT module . . . . . . . . . . . . . SMY055E
When re--- ordering manuals, please quote the model name and part number.
ZB1720
01.00
445N
Service Manual
Contents
1. Product Overview
1.1. Technical Specifications
1.2. Certifications
1.2.1. Safety
1.2.2. EMC
1.2.3. X---ray, emissions, environmental, ergonomics
1.3. Preset Display Modes
1.4. S--Capacitor Table
1.5. Monitor Connection
1.6. User Controls
1.7. Menu
2. Site Preparation
2.1. Location
2.2. Troubleshooting
2.3. Checking the Operation of Power Saver
3. Controlling the Memory for Picture Adjustments
3.1. Memory for User Adjustments
3.1.1. Adjustment
3.1.2. Resetting the User Memory
3.2. Memory for Factory Adjustments
3.2.1. Adjustment
4. Service Mode
4.1. Grouping of the Adjustments
4.2. Service Menu
4.2.1. Access to the Service Mode
4.2.2. Geometry
4.2.3. Grey Scale
4.2.4. Memory settings and Initializing the Replacement IC (IC402 on SMA)
4.2.5. Storing Adjustments
4.2.6. Exit from Service Menu
5. Workshop Maintenance
5.1. Important Safety Notice
5.2. ESD--Sensitive Parts
5.3. Test Equipment
5.4. Test Patterns
5.5. Disassembly
6. Image performance
6.1. Image stabilizing time
6.2. Colour temperature and tracking
6.3. White uniformity
6.4. Color purity
6.5. Luminance
6.6. Image size
6.7. Linearity
6.8. Geometrical distortion
6.9. Straightness of line segment
6.10.Jitter
6.11.Chromacity
6.12.Focus
6.13.Convergence
6.14.High voltage regulation
6.15.Blinking image
6.16.Extrenal magnetic field
6.17.Settling time
445N
1
7. Adjustment Procedure
7.1. Adjustment Flow Diagram
7.2. Preliminary Preparations
7.2.1. High Voltage
7.2.2. Coarse Width
7.3. Geometry
7.4. Grey Scale
7.4.1. The Most Dominant Colour
7.4.2. Low Light
7.4.3. High Light
7.5. Maximum/Minimum Contrast
7.6. Focus
7.7. Convergence
7.7.1. Measuring Conditions
7.7.2. Convergence Measuring Gauge
7.7.3. Static Convergence
7.7.4. Dynamic Convergence
7.7.5. Allowed Error Levels for Convergence
7.8. Installing serial number to processor
7.9. Magnet rings
7.10. Beamlanding
8. Screen and Faceplate Blemishes
8.1. Definitions of inspection conditions and terms
8.1.1. Standard observing condition
8.1.2. Zone division
8.1.3. Minimum distance beetween defects
8.1.4. Average diameter of defect
8.2. Face defect standard (black spot, stain)
8.3. Glass blemish
8.3.1. Scratch
8.3.2. Bubbles/foreign materials
Revision History
Rev
Date
01.00
14.01.00
2
Prepared by
Comments
445N
1. Product Overview
445N is a 21 inch monitor. The maximum resolution of 1800 x 1440 makes the monitor suitable for
PC, Macintosh and workstation applications in normally heated, ventialed and controlled office/home
environment. The monitor has an own power supply with nominal input voltage requirements from
90 V to 264 V.
1.1. Technical Specifications
Cathode Ray Tube . . . . . . . . . . 21” in diagonal 90˚ deflection angle
Antistatic, antireflex
Phosohor P22 medium short, Dot pitch 0.25 mm
Picture Size . . . . . . . . . . . . . . . . 393 mm x 293 mm with specified geometric distortion
Maximum Picture Size . . . . . . . 403 mm x 302 mm, diagonally 490.2 mm (19,85”)
Power Input Requirements . . . Voltage 90--264 V, 47/63 Hz
Current 2.0 A/100 V, 0.8 A/240 V
Power Dissipation . . . . . . . . . . . < 160 W Normal Operation
< 90 W Stand--by
< 10 W Suspend
< 3 W Power off
Memory Locations . . . . . . . . . . . 20 for factory preset display mode
20 for user adjusted display mode
Geometric Distortion . . . . . . . . . The distance between bezel and active screen edge shall not vary
more than 2 mm in both vertical and horizontal dimensions
Luminance . . . . . . . . . . . . . . . . . Min. 100 cd/m2 (Nits) at center, with full white field
Video Input . . . . . . . . . . . . . . . . . Input Signal: RGB, analog, max 0.7 V/ 75 τ
Horizontal addressability: 1800 dots maximum
Vertical addressability: 1440 dots maximum
Synchronization Range . . . . . . Horizontal: 29 kHz to 125 kHz automatic (051,059)
Horizontal: 29 kHz to 121 kHz automatic (055)
Vertical: 50 Hz to 180 Hz automatic
Synchronization Signal . . . . . . . Separate TTL , positive/negative
Composite TTL , positive/negative
Max. Dot Frequency . . . . . . . . . 300 MHz
Temperature . . . . . . . . . . . . . . . . Operating: +10˚C to +40˚C
Packed: --20˚C to +60˚C
Humidity . . . . . . . . . . . . . . . . . . . Operating: 10% to 80 %
Packed: 10% to 80 %
Weight . . . . . . . . . . . . . . . . . . . . . 30.9 kg net
36.4 kg gross
Size, Tilt and Swivel
W
D
H
15)
90)
90)
5)
Dimensions
Monitor . . . . . . . . . . . . . . . . . . . . (H) 502 mm, (W) 512 mm, (D) 513 mm
Package . . . . . . . . . . . . . . . . . . . (H) 660 mm, (W) 720 mm (D) 665 mm
445N
3
1.2. Certifications
The monitor has following agency approvals
1.2.1. Safety
FIMKO, DEMKO
NEMKO, SEMKO
UL / USA
CSA / Canada
TÜV ---GS / Germany
PCBC / Poland
GOST---R / Russia
1.2.2. EMC
FCC---D.O.C.
VCCI / Japan
CE / Europe
1.2.3. X ---ray, emissions, environmental, ergonomics
TÜV ---ERGO / Germany
DHHS / USA
TCO 99 / Sweden
4
445N
1.3. Preset Display Modes
Full
intensity
Right Border
Left Border
0.7 V
Video
Blanking
0V
H Blanking
H Active Video
H Back porch
H Front Porch
H Sync
H Sync.
Signal
Full
intensity
Bottom Border
Upper Border
0.7 V
Video
Blanking
0V
V Blanking
V Active Video
V Back Porch
V Front Porch
V Sync
V Sync.
Signal
445PRO (445N051, 445N059)
Display Mode no
00
01
02
03
04
05
06
07
08
09
10
11
NCE
N07A85
V
L91--- 85
W
L80--- 75
W
G69--- 85
W
E54--- 85
W
C43--- 85
W
B31--- 70
B
C31--- 60
W
G60--- 75
W
N94--- 75
W
N06A85
W
Q21A80V
V Frequency/Hz
85.0
85.0
75.0
85.0
85.06
85.0
69.9
59.9
75.0
75.0
85.0
80.0
H Frequency/kHz
107.10
91.146
79.976
68.677
53.674
43.269
31.469
31.472
60.023
93.755
106.25
120.56
H Period/us
9.336
10.971
12.504
14.561
18.631
23.111
31.778
31.774
16.660
10.666
9.41
8.29
Active Video/us
6.815
8.127
9.481
10.836
14.222
17.778
25.442
25.420
13.003
7.901
6.97
6.0
H Resolution
1600
1280
1286
1024
800
640
640
640
1024
1600
1600
1800
H Sync/us
0.750
1.016
1.06
1.02
1.14
1.56
3.813
3.81
1.219
0.948
0.83
0.67
H Back Porch/us
1.261
1.422
1.84
2.20
2.70
2.22
1.907
1.91
2.235
1.501
1.32
1.13
V Period/lines
1260
1072
1066
808
631
509
450
525
800
1250
1250
1507
V Resolution
1200
1024
1024
768
600
480
400
480
768
1200
1200
1440
V Sync/lines
3
3
3
3
3
3
2
2
3
3
3
3
V Back Porch/
lines
56
44
38
36
27
25
36
33
28
46
46
63
H Sync Polarity
---
+
+
+
+
---
---
---
+
+
+
---
V Sync Polarity
+
+
+
+
+
---
+
---
+
+
+
+
H Front Porch/us
0.51
0.41
0.12
0.51
0.57
1.56
0.64
0.64
0.20
0.32
0.27
0.47
V Front Porch/
lines
1
1
1
1
1
1
12
10
1
1
1
1
Dot Frequency/
MHz
234.780
157.500
135.640
94.500
56.250
36.000
25.175
25.177
78.750
202.510
229.490
299.000
Interlacing
no
no
no
no
no
no
no
no
no
no
no
445N
5
Quatographic (445N055)
Memory location
0
1
2
3
4
5
6
7
Display Mode
NO7A85V
NO6A85W
L91--85W
N94--75W
I69--75
F50--75
C35--67
C31--60W
H Frequency/kHz
107.101
106.245
91.146
93.755
68.681
49.718
35.000
31.472
H Period/μs
9.337
9.412
10.971
10.666
14.560
20.113
28.571
31.774
H Active Video/μs
6.815
6.972
8.127
7.901
11.520
14.527
21.164
25.420
H Resolution
1600
1600
1280
1600
1152
832
640
640
H Sync/μs
0.750
0.837
1.016
0.948
1.280
1.117
2.116
3.813
H Back Porch/μs
1.261
1.325
1.422
1.501
1.440
3.911
3.175
1.906
V Frequency/Hz
85.0
85.0
85.0
75.0
75.1
74.5
66.7
59.9
V Period/Lines
1260
1250
1072
1250
915
667
525
525
V Resolution
1200
1200
1024
1200
870
624
480
480
V Sync/Lines
3
3
3
3
3
3
3
2
V Back Porch/
Lines
56
46
44
46
39
39
39
33
H sync Polarity
+
+
+
+
--
--
n/a
--
V sync Polarity
--
+
+
+
--
--
n/a
--
H Front Porch/μs
0.51
0.28
0.41
0.32
0.32
0.56
2.12
0.64
V Front Porch/
Lines
1
1
1
1
3
1
3
10
Dot Frequency/
MHz
234.776
229.490
157.500
202.510
100.000
57.275
30.240
25.177
Interlacing
no
no
no
no
no
no
no
no
6
445N
1.4. S--Capacitor table
In software version 0.31 and later, S---Capacitor table will be loaded from processor (IC402).
f/kHz
S6
S5
S4
S3
S2
S1
S0
LIN1
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
LIN2
31.9
32.8
X
33.7
34.8
X
X
X
X
X
36.1
37.3
X
X
38.7
X
40.0
X
X
41.7
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
43.9
46.3
X
X
49.3
X
52.3
X
X
53.2
X
X
X
X
54.2
X
X
55.2
X
X
X
X
X
X
X
X
X
X
X
57.8
59.5
X
X
60.5
X
X
X
62.0
X
X
X
X
X
X
X
X
X
X
X
X
X
63.6
65.8
X
X
68.2
68.2
X
X
69.2
X
X
72.8
X
X
445N
X
X
X
7
76.7
X
X
X
X
X
X
X
X
X
X
79.5
X
80.5
X
81.4
X
X
X
X
X
X
83.9
X
86.0
X
X
X
88.2
X
X
91.2
X
X
X
X
X
X
94.5
X
97.6
X
X
X
101.0
X
X
106.1
X
X
X
111.7
X
X
116.7
X
X
122.3
X
8
445N
1.5. Monitor Connection
Make sure that the monitor is disconnected from mains and the power switches of the computer and all attached devices are turned off before connecting the monitor.
-- Connect the signal cable plug to the videocontroller connector at the back of the computer.
-- Tighten the screws on the plug by hand.
-- Connect the power cord first to the monitor and then to a grounded power outlet.
Do not use any adapter when connecting signal cable to your computer.
Do not extend the signal cable with extension lead. The DDC signals will not accept extended
cable.
--- Display controller must be compatible for External +5 V, In SMK001 E---version External +5 V is
not necessary but the monitor works also with it
---
Signal connector
Pin
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
Signal
RV
GV
BV
ID2
-->
-->
-->
<--
RG
GG
BG
-->
<-<--->
-->
<--
1
6 11
SDA
Hs
Vs
SCL
Red video
Green video
Blue video
ID 2 (tied to LG)
DDC return)
Red ground
Green ground
Blue ground
DDC +5V
Sync grounds
Ground)
DDC SDA
Horizontal synchronization, Composite synchronization
Vertical synchronization
DDC SCL
5
10 15
445N
9
1.6. User Controls
4
3
2
1
1. Power switch
2. Power on indicator
3. Menu button
4. Select and adjustment buttons
When the power is turned on, the power--on indicator will light. The colour of the the power--on
light indicates the operating state of the monitor.
Green: The monitor is in Normal, Stand---by or Suspend operation.
Blinking Green: The monitor is in Automatic Power off state.
Not illuminated: The monitor is turned off with power switch or disconnected from mains outlet.
The power switch does not disconnect the monitor from mains. In oder to make the monitor completely powerless, unplug the power cord from power outlet.
10
445N
1.7.Menu
1.7.1. Moving in the menu
Menu operations are controlled with button and
buttons.
a Call the menu to the screen by pushing the button.
b Select the header with the
buttons.
c Push to confirm the selection.
Adjustment and settings corresponding the header appear below the header field.
d Select the adjustment with the
buttons.
e Push to confirm the selection.
Menu disappears and a scale shows the position of the adjsutment. In addition to the bar, position
of the adjustment is shown as a percentage of the maximum value. The upper number shows the
current value and the lower one shows the value where the adjustent started.
f Adjust with the
buttons.
g When ready, push the button.
1.7.2. Exit Menu
Select EXIT MENU and push the
button.
445N
11
--- +
HORIZONTAL CENTERING
a
53%
50%
PREVIOUS VALUE:
ADJUST: --- /+
b
NAVI
c
d
NAVI
OK:
WIDTH
NOKIA 445PRO
SIZE & POSITION
SHAPE...
SHARPNESS
COLOR...
MISCELLANEOUS
EXIT MENU
AUTO SHAPE
WIDTH
VERTICAL CENTERING
HEIGHT
MOVE --- / +
NOKIA 445RO
SIZE & POSITION
SHAPE
SHARPNESS
COLOR...
MISCELLANEOUS
EXIT MENU
DEFAULT SHAPE
TILT
ORTHOGONALITY
TRAPEZOID
PINCUSHION
PINCUSHION BALANCE
MOVE --- / +
75Hz
NOKIA 446PRO
SIZE & POSITION
SHAPE...
COLOR...
MISCELLANEOUS
EXIT MENU
MONITOR DEFAULTS
DEMAGNETIZE
ABOUT MONITOR
MENU OPTIONS
MOVE --- / +
OK:
VERTICAL CENTERING
45%
50%
PREVIOUS VALUE:
ADJUST: --- /+
OK:
HEIGHT
30%
40%
PREVIOUS VALUE:
ADJUST: --- /+
SELECT:
OK:
f
75Hz
e
TILT
30%
40%
PREVIOUS VALUE:
ADJUST: --- /+
OK:
g
ORTHOGONALITY
PREVIOUS VALUE:
SELECT:
30%
40%
ADJUST: --- /+
NOKIA 445RO
75Hz
SIZE & POSITION
SHAPE
SHARPNESS
COLOR...
MISCELLANEOUS
EXIT MENU
DEFAULSHARPNESS
VERTICAL CONVERGENCE
HORIZONTAL CONVERGENCE
MOIRE
Color purity
MOVE --- / +
SELECT:
NOKIA 445PRO
SIZE & POSITION
SHAPE
SHARPNESS
COLOR...
MISCELLANEOUS
EXIT MENU
CONTRAST
BRIGHTNESS
DEFAULT COLOR
COLOR PRESETS
RED
GREEN
BLUE
SAVE CURRENT COLOR
MOVE --- / +
44%
50%
PREVIOUS VALUE:
ADJUST: --- /+
OK:
TRAPEDOIZ
PREVIOUS VALUE:
30%
40%
ADJUST: --- /+
OK:
PINCUSHION
PREVIOUS VALUE:
30%
40%
ADJUST: --- /+
OK:
PINCUSHION BALANCE
PREVIOUS VALUE:
30%
40%
ADJUST: --- /+
75Hz
OK:
MOIRE
PREVIOUS VALUE:
30%
40%
ADJUST: --- /+
OK:
COLOR PURITY
TOP AND BOTTOM EDGES
TOP RIGHT CORNER
BOTTOM RIGHT CORNER
TOP LEFT CORNER
BOTTOM LEFT CORNER
BACK
1600X1200
85HZ
9300 K
SELECT:
75Hz
6500K, 7000K, 8000K, 9300K, 10000K, 1, 2
MENU OPTIONS
LANGUAGE/SPRACHE/LANGUE
HORIZONTAL POSITION
VERTICAL POSITION
DISAPPEARANCE TIME
1:00
BACK
SELECT:
ADJUST: --- /+
OK:
LANGUAGE/SPRACHE/LANGUE
ENGLISH
DEUTSCH
SVENSKA
SUOMI
ITALIANO
FRANCAIS
ESPANOL
CANCEL
ADJUST: --- /+
12
445N
OK:
a
56%
38%
b
c
d
SIZE & POSITION
SHAPE
SHARPNESS
COLOR
MISCELLANEOUS
CONTRAST
BRIGHTNESS
WIDTH
VERTICAL CENTERING
HEIGHT
PRESET RECALL
EXIT
1600X1200
85HZ
WIDTH
56%
38%
VERTICAL CENTERING
56%
38%
HEIGHT
56%
38%
TILT
SIZE & POSITION
SHAPE
SHARPNESS
COLOR
MISCELLANEOUS
CONTRAST
BRIGHTNESS
TILT
ORTHOGONALITY
TRAPEDOIZ
PINCUSHION
PINCUSHION BALANCE
EXIT
1600X1200
85HZ
56%
38%
g
ORTHOGONALITY
56%
38%
TRAPEDOIZ
56%
38%
PINCUSHION
56%
38%
SIZE & POSITION
SHAPE
SHARPNESS
COLOR
MISCELLANEOUS
VERTICAL CONV
HORIZONTAL CONV
MOIRE
COLOR PURITY
DEFAULT SHARPNESS
EXIT
1600X1200
85HZ
SIZE & POSITION
SHAPE
SHARPNESS
COLOR
MISCELLANEOUS
CONTRAST
BRIGHTNESS
COLOR TEMP
RED
GREEN
BLUE
SAVE TO CUSTOM1
SAVE TO CUSTOM2
EXIT
1600X1200
85HZ
f
e
PINCUSHION BALANCE
56%
38%
VERTICAL CONV
56%
38%
HORIZONTAL CONV
56%
38%
MOIRE
56%
38%
COLOR PURITY
TOP RIGHT CORNER
BOTTOM RIGHT CORNER
TOP LEFT CORNER
BOTTOM LEFT CORNER
BACK
1600X1200
85HZ
9300K
5000K 6000K 6500K, 7000K, 8000K, 9300K,
10000K, SRGB, Custom1
SIZE & POSITION
SHAPE
SHARPNESS
COLOR
MISCELLANEOUS
Language / Sprache / Langue
ENGLISH
DEUTSCH
ESPANOL
FRANCAIS
ITALIANO
PORTUGUES
EXIT
CONTRAST
BRIGHTNESS
DEMAGNETIZE
LANGUAGE / SPRANCHE / LANGUE
ABOUT MONITOR
EXIT
1600X1200
85HZ
1600X1200
85HZ
ABOUT MONITOR
HP P1110
CURRENT MODE
RESOLUTION:
HOR. FREQ.
VERT. FREQ.
1600x1200
107.1 KHz
85.0 Hz
SYNCHRONIZATION
HOR. FREQ.
VERT. FREQ.
29 --- 121 kHz
50 --- 180 Hz
EXIT
1600X1200
445N
85HZ
13
2. Site Preparation
2.1. Location
This Monitor is designed for normal office conditions. It is equipped with own power supply. It is not
to be serviced or repaired on site
2.2. Troubleshooting
Local service facilities should perform simple maintenance such as trimming. More advanced maintenance and repair that requires replacement of components which in turn requires testing and retrimming should be carried out in a central workshop.
Symptom
Picture
screen is
blank
Measures
The indicator on
the front
panel is
not illuminated
Check that the power cord is correctly connected to the monitor and to the power
outlet. If the monitor is powered through the computer, check that the computer is
switched on with the mains switch. Use a desk light, for example, to verify that
current is connected to a power outlet. If no electricity is connected to the outlet,
call an electrician.
The indicator on
th ffrontt
the
panel is illuminated
Check that the signal cable connector is connected. If the connector is loose
tighten the connector’s screws.
Unplug the monitor from power outlet for about one minute.
The Monitor might be in stand--by position. Push one of the buttons or move the
mouse.
Unplug the monitor from outlet for about one minute
minute.
Switch off the monitor and the computer. Remove the signal cable from the
computer. Switch on the monitor using the power switch. If the Selftest error menu
appears on the screen, it is evident that the monitor functions correctly and
the problem is caused by an error in other parts of the system.
Check the signal cable’s connection pins. If the pins are slightly distorted,
use nose pliers to straighten them.
The computer may use a timing values which are
nization range.
out of the monitor’s synchro-
Picture has colour def t
fects
Demagnetize the monitor.
Picture has strong colour
defect,
Switch off the monitor and the computer. Remove the signal cable from the
computer. Switch on the monitor using the power switch.Check the colour of the
Red, Green and Blue bars. If they have pure colours, the fault is not in the monitor.
Check signal cable connectors and the computer. If the menu itself and the colour
bars are discoloured, the monitor is obviously damaged.
Picture is stable but distorted
Your computer may use a timing for which the corresponding picture characteris-tic adjustments have not been set at the factory. Adjust the picture characteristics
Picture is unstable
Check the proximity of other electrical devices that generate magnetic fields,
such as speakers,
other
electric
and
suc
spea e s, ot
e monitors,
o to s, e
ect c fans
a sa
d fluorescent
uo esce t light
g t fixtures.
tu es
Make sure your computer and video card are properly configured for your
monitor.
If colour defect is repeated without the monitor having been moved, it is possible
that the monitor is influenced by a strong magnetic interference field (near to
a high power cable, for example). Try to find a better location for the monitor or
the interference source. Note that another monitor placed too near (less than
30 cm.) may also generate interference in the picture.
The automatical appearance of the Error menu on the screen means that the signal is faulty or missing.
14
ERROR
Red
Green
Blue
ERROR
Red
Green
Blue
Signal: No valid
Signal: No signal
Cable connected OK
Cable not connected
445N
2.3. Checking the Operation of PowerSaver
The proper operation of the function requires a computer with VESA DPMS power management
capabilities. Note that the power saving feature must be activated in the computer when checking
the operation.
State
Colour of the power--on indicator
5V
Heater
12V
Video
Normal Operation
Green
Yes
Yes
Yes
Yes
Stand--by
Green
Yes
Yes
Yes
No
Suspend
Green
Yes
Yes
No
No
Power Off
Blinking Green
Yes
No
No
No
DPMS (Display Power Management Signaling) is a trade mark of Video Electronics Standard
Association (VESA)
445N
15
3. Controlling the Memory for Picture Adjustments
The picture adjustment values are stored in non-volatile memory. The memory has separated areas
for User Adjustments and for Factory Adjustments.
3.1. Memory for User Adjustments
3.1.1. Adjustment
1
2
If there are values available in the memory for user adjustments, corresponding to the present
timing signals, they are always used.
New user made adjustments are stored to the memory for user adjustments.
3.1.2. Resetting the User made settings for geometry or image
User memory can be emptied from user made settings. Resetting affects only the timing
which is currently active. The reset function is inhibited if no corresponding factory preset display mode exists.
After resetting all picture properties are coming from memory for factory adjustments.
3
3.2. Memory for Factory Adjustments
3.2.1. Adjustment
4
--
Factory adjustments can be updated with service menu in service mode. If there is no location in
factory adjustment memory for display mode currently in use, the adjustment affects the memory
for user adjustments.
If the memory location mentioned in case 1 is empty, the picture adjustment values are read
from memory for factory adjustments. Factory adjustments, corresponding to the current display
mode, are transferred to user memory if any picture property is adjusted. After that the operation
is as in case 1.
Refer to the chapter
”Service Mode”
The memory can be
updated with Service
menu in Service Mode
3
Storing
Initialization
Basic
Adjustments
16
Memory for
Factory
Adjustments
SMA IC402
4
Preset Recall
4
The memory can be
updated with User Menu
in User Mode
2
Memory for
User
Adjustments
SMA IC402
1
445N
4. Service Mode
Service Mode is needed for updating of the factory adjustments for display mode listed in the chapter Preset Display Modes. If there is no location in factory adjustment memory for display mode currently in use, the adjustment affects the memory for user adjustments.
4.1. Grouping of the adjustments
There are three groups of software adjustments in service mode:
-- Geometry set
-- Grey scale adjustment set
The following table shows how the adjustments act in relation to the display modes.
Adjustment
Common for
all Display
modes
Separate for
each Display
mode
Available in
User Mode
Available in
Service Mode
Horizontal centering
X
X
X
Vertical centering
X
X
X
Height
X
X
X
Width
X
X
X
Pincushion
X
X
X
Pincushion balance
X
X
X
Trapezoid
X
X
X
Orthogonality
X
X
X
S--correction
X
X
C--correction
X
X
E/W corner
X
X
Tilt
X
Moire
X
Raster
X
X
G2
X
X
Min contrast
X
X
Max contrast
X
X
R Black level
X
X
G Black level
X
X
B Black level
X
R Ampl
X
X
X
G Ampl
X
X
X
B Ampl
X
X
X
BCL adjust
X
Vertical conv
X
X
X
Horizontal conv
X
X
X
Top and bottom edges
X
X
X
Top right corner
X
X
X
Bottom right corner
X
X
X
Top left corner
X
X
X
Bottom right corner
X
X
X
X
X
X
X
X
Init burn in test *
X
Common adjustments need to be adjusted only once. Separate adjustment must be performed for
every display mode to be stored
* Init burn in test only for manufacturing purposes
445N
17
4.2. Service Menu
4.2.1. Access to Service Mode
Activate 9300K color temperature before you go to the service menu.
Activate the service mode always in 107.10 kHz/85 Hz (NCE791).
First switch OFF the monitor with power switch.
1) Push button down.
button down, switch ON the monitor.
2) While keeping
button when the power-- on indicator is illuminated.
3) Release
button.
4) Press
buttons.
5) Monitor ask password. Type the password (7711) with the
button.
6) Press
Select the items in the Menu with the or
buttons. Push the
button to open Geometry, Grey
buttons.
Scale, Product Information or Memory Settings. Adjust each property with the or
4.2.2. Geometry
Geometry submenu contains placement, size and shape adjustments.
GEOMETRY . . .
GREY SCALE . . .
SHARPNESS
PRODUCT INFORMATION . . .
MEMORY SETTINGS . . .
RASTER
WIDTH
HEIGHT
VERTICAL CENTERING
PINCUSHION
PINCUSHION BALANCE
TRAPEZOID
ORTHOGONALITY
S CORRECTION
C CORRECTION
E/W CORNER
TILT
EXIT
00: 1600x1200 85Hz
4.2.3. Grey Scale
This monitor has six preset tints. With tint numbers smaller than 3 the picture becomes reddish and
with tint numbers greater than 3 the picture turns blue.
Tint no
1
2
3
4
5
6
7
Colour Temperature
5000K
6000K
6500K
7000K
8000K
9300K
10000K
The grey scale adjustment affects directly tint number 6 (9300K) only. Other tints are derived automatically from 9300K colour temperature.
18
445N
GEOMETRY . . .
GREY SCALE . . .
SHARPNESS
CONTRAST
MIN CONTRAST
MAX CONTRAST
BRIGHTNESS
G2
RED BLACK LEVEL
GREEN BLACK LEVEL
BLUE BLACK LEVEL
RED AMP.
GREEN AMP.
BLUE AMP.
BCL ADJUST
EXIT
00: 1600x1200 85HZ
GEOMETRY . . .
GREY SCALE . . .
SHARPNESS
VERTICAL CONV
HORIZONTAL CONV
MOIRE
TOP RIGHT CORNER
BOTTOM RIGHT CORNER
TOP LEFT CORNER
BOTTOM LEFT CORNER
EXIT
00: 1600x1200 85HZ
GEOMETRY . . .
GREY SCALE . . .
SHARPNESS
MODEL:
HP P1110
SERIAL NUMBER FI92500061
POWER ON HOURS
23
STAND--- BY HOURS
0
SUSPEND HOURS
0
ACTIVE--- OFF HOURS
0
FIRMWARE
0.19
EXIT
00: 1600x1200 85HZ
GEOMETRY . . .
GREY SCALE . . .
SHARPNESS
TYPE :
O
CUSTOM COLOR: 1
DDC :
EXT (24LC21)
INITIALIZE EEPROM
INIT BURN IN TEST
EXIT
00: 1600x1200 85HZ
4.2.4. Memory settings and Initializing the Replacement IC402 on SMA board
If the memory for factory adjustments is replaced, it must be initialized. During initializing all memory
locations are written with approximate values. They must be updated in service mode as explained
in the chapter ’Adjustment Procedure’.
- INTIALIZE EEPROM always with using display mode no 00! (107.10 kHz/85 Hz (NCE791))
- Select INITIALIZE EEPROM.
- After initializing switch OFF the monitor.
- Activate service mode as explained before.
- Select Memory settings ---menu.
- Select Monitor type O, custom color 1 and DDC (EXT 24LC21)
Caution
Initializing of a programmed memory IC deletes all user and factory made adjustments.
4.2.5. Storing the Adjustments
When the adjustment is ready, return to the menu by pushing the
stored automatically.
button. Adjustement will be
4.2.6. Exit from Service Mode
Switch off the monitor.
445N
19
5. Workshop Maintenance
5.1. Important Safety Notice
The components, which are important for safety, are marked with special mark ! on the circuit diagram. It is essential that these critical parts should be replaced with manufacture’s specified parts to
prevent X--radiation, shock, fire or other hazards.
For your own safety, use always safety isolating transformer when repairing the monitor.
5.1.1. Discharging the CRT
High voltage circuitry includes bleeder resistor which normally discharges the tube in about 5 seconds after the power is switched off. If you -- for safety reasons -- want to be sure about the discharging, do as follows:
Wear safety goggles. A cracked CRT may implode when discharged.
The signal cable must be disconnected from the computer.
To discharge the CRT, a flat--head screwdriver with grounding cable is required.
-- Disconnect the signal cable.
-- Connect the metal chassis of the monitor to reliable earth.
-- Connect the grounding wire to the screwdriver.
-- Connect the other end of the grounding wire to the chassis (earth).
-- Insert the screwdriver under the rubber cap of the EHT connector to discharge the tube.
5.2. ESD--Sensitive Parts
To prevent damage, when working with electrostatic discharge (ESD) sensitive parts, observe the
following instructions:
-- Keep the ESD--sensitive part in its original shipping container until you are ready to install the
part into the component card.
-- Just before touching the ESD--sensitive part, discharge to the monitor any static electricity in
your body; do this by touching the metal frame or cover of the machine. If possible, keep one
hand on the frame when inserting or removing a logic card, for example.
-- Hold the ESD--sensitive part by its edge; do not touch its pins.
5.3. Test Equipment
The following test equipment are required to adjustment procedure.
-- Safety isolating transformer
-- Digital multimeter: Fluke 87 or equivalent true RMS multimeter
-- High voltage probe: e.g. Fluke 80--40k
-- Signal generator: VTG220 + PC or programmable video generator
-- Colour analyzer: e.g. Minolta TV Colour Analyzer CA100
-- Convergence Gauge (CM7AR or equivalent)
-- Oscilloscope 40--100 MHz band width
-- Hi--Pot tester (Flash tester with insulation measurement / Leakage current / Break down voltage)
-- ESD protection necessary
5.4. Test Patterns
1
2
3
Active
vertical
video time
Active horizontal video time
1
-2
-3
--4
5
20
4
A--- area
B--- area
Black Picture
Signal level = 0 V at each RGB input
Highlight grey scale tracking
Signal level = 700 mV in the window at each RGB input
Crosshatch Picture
Squares e.g. 20 mm x 20 mm
Outmost lines correspond the active vertical/horizontal video time
Convergence test pattern
Focus test pattern
445N
5
pixelpixelpi
pixelpixelpi
pixelpixelpi
pixelpixelpi
5.5. Disassembly
5.5.1. Cabinet
Set the monitor on cushion picture tube facing down
1. Loosen and remove two screws.
2. Open the plastic pawls with a screwdriver or special tool (for instance 860006)
Screw
Push open
Do not
twist
on both sides
445N
21
6. Image performance
Measurement to verify this specification shall be made with equipment that measures the displayed
image as if it were projected forward onto a flat plane tangent to the center of the CRT faceplate surface and perpendicular to the Z---axis of the CRT.
Image performance specifications are applicable over specified input power conditions, specified
environmental operating conditions and after being subjected to the specified non---operating environmental conditions. Before performance measurements the monitor must have been in room
temperature (20 8 C) for at least 2 hours. After that the monitor must have been warmed up with
power on at least 60 minutes.
The monitor shall be positioned to a magnetic field which is specified as 0 G horizontal field and
0.45 G vertical field (northern hemisphere) when ever the image performance is measured.
If there is no standardized magnetic field available, the monitor should be positioned face to east.
All image performance specifications will be met in diffuse ambient 500 lux.
All the performance specifications are met when using factory adjusted timing modes within line frequencies 60 kHz --- 121 kHz. The timings below 60 kHz line frequency are usable, but not specified.
Performance is optimized for 1280 x 1024, 95 Hz and 1600 x 1200, 85 Hz (VESA) resolution
6.1. Image stabilizing time
The image shall begin to be visible in a 500 lux environment within 15 seconds of application of power and input signals.
The image shall be stabilized within 30 seconds of application of power and input signals. ”Stabilized” means that no significant changes shall occur in the image quality specifications, such as
image brightness, size, linearity and so on.
The image shall reach performance stability within 20 minutes of the application of power and input
signals. ”Performance Stability” means that the display monitor shall meet all of its image quality
specifications.
6.2 Colour temperature and tracking
The default colour temperature is 9300 ˚K
Measurement conditions:
--- test pattern 50*50 mm white field at the screen centre
--- brightness control adjusted for a background raster luminance level of 1 nit
--- input signals R, G, B with maximum amplitude
When contrast ---control is adjusted for 70 nits luminance level, the factory adjusted colour coordinates measured at the screen centre will be:
x = 0.283 0.015 = x ref
y = 0.297 0.015 = y ref
When contrast ---control is adjusted from a luminance level of 100 cd/m2 to 35 cd/m2 or its adjust
stop, the colour coordinates measured at the screen centre will be:
x = x ref 0.015
y = y ref 0.015
22
445N
6.3 White Uniformity
Measurement conditions:
--- Full screen picture size, Brightness in middle 100 nit
--- Magnetic field
horizontal
0
Gauss
vertical
0.45 Gauss
--- Warming up time 1 hour
Maximum variation between colour coordinates between any measurement points shall not vary
more than d(x),d(y) below.
d(x) = ± 0.015
d(y) = ± 0.015
6.4 Colour Purity
There should not be visual discoloration with each of the red, green and blue beams after the tube is
moved to any directions.
Measurement conditions: same as spec. 6.3
6.5 Luminance
Definition:
The following methodology and definition of luminance shall be applicable throughout this specification
Luminance shall be measured on 1600 x 1280@85 Hz pixel format at five areas, using two different
pictures:
--- 1. In the center of the screen white field 50*50 mm
--- 2. Full white field.
The five areas are defined as:
L0 Center of the screen
L1 Upper left of the screen
L2 Upper right of the screen
L3 Lower left of the screen
L4 Lower right of the screen
L1
L2
L0
L3
L4
Requirements:
Maximum contrast luminance:
With the brightness control set so that background brightness is 1 nit and the contrast control set to
maximum.
L0 = 140 30 nits (40.9Ft ---L) 50*50 mm white field
L0 = 110 10 nits (29.4 Ft ---L) Full white field
Minimum luminance:
Using full white picture, with the brightness and contrast controls in minimum, the foreground full
white field (L0) < 5 nits.
Background luminance:
The luminance of the background, measured at center of the screen without active video and in the
absence of significant ambient illumination, brightness at maximum must be:
1 nit.± L0 ± 10 nits
The background shall be extinguished before brightness control reaches its end.
Luminance uniformity:
With the brightness control set so that the background raster is just extinguished the contrast control set for L0 = 100 nits, ( 29.2 Ft ---L), luminance on areas L1, L2, L3 and L4 shall be greater than
(80 %) of L0.(80 nits, 23 Ft ---L)
445N
23
6.6 Image size
Display size is defined as the width and height of the display using the active raster, not including
the border.
Measurement:
Full white field brightness set to 100 nits (29.2 Ft ---L).
Cross---hatch test pattern.
The width and the height are measured at the center of the screen.
Requirements:
Nominal size:
Width = 393 ± 6 mm
Height = 293 ± 3 mm
Over the full range of operating temperature, the size shall not change more than one percent.
6.7 Linearity
Cross---hatch test pattern (16 x 12 cells). Brightness control set so that the background raster is just
extinguished and the contrast control is set to maximum.
The limits for vertical or horizontal non---linearities are 5 % for adjacent cells and 8 % for overall linearity. The method of calculating linearity is:
[ (max---min)/max ]*100 < 8 %
The measurements are done along the vertical and horizontal center lines of the screen.
6.8 Geometrical distortion
The distance between bezel and active screen edge shall not vary more than
1.5 mm on vertical lines and not more than 2.0 mm on horizontal lines (excluding the tilt adjustment).
6.9 Straightness of line segment
Definition:
For any segment of an edge of the active picture the deviation from being straight is defined as the distance from the straight line formed by
connecting the end points of the segment under test to the point on the
line segment furthest from that construction.
Measurement:
The deviation is to be measured perpendicular to the constructed line.
deviation = a---b
% deviation = (a---b/l) x 100 %
Requirements:
For line segments less than 50 mm the maximum allowed deviation is 0.8mm.
0 --- 50 :max. dev. 0.5 mm
50 --- 200 :max. dev. 1.0 --- 2.0 mm
200 --- :max dev. 2.0 mm
This must be valid for vertical and horizontal lines.
24
445N
6.10 Jitter
Image motion in terms of dynamic pixel displacement shall be defined as jitter.
(MPR 1990:10, 1.07)
The horizontal and vertical displacement of any pixel using the ”convergence” dot and cross hatch
pattern measured using microscope with appropriate magnification.
The maximum displacements in both the horizontal and vertical directions must be less than 0.1
mm.
6.11 Chromaticity
Factors affecting chromaticity include colour set up, temperature and tracking, colour purity and
uniformity, adequate degaussing, and registration.
With a fully driven flat field of the active raster size, with the brightness control set so the background
raster is just extinguished, the contrast control set to maximum, check first each of the primary
colours, and then white. Visually observe the display from a distance of 0.5 m for no longer than 3
seconds with an ambient illumination of approximately 500 lux.
The screen must appear uniform for each of the primary coloured rasters and for a white raster, with
no observed impurity in colour.
6.12 Focus
Definition: Focus is defined as the sharpness of displayed characters.
Measurements:
Set the brightness control so that the background raster just disappears and set with the contrast control a screen centre brightness of
100 cd/m2 at a white 50 mm x 50 mm square at the centre of the
screen. Single pixel wide cross---hatch test pattern (red, green and
blue).
Requirements: The test pattern must be sharp in vertical and horizontal directions.
The test pattern must be sharp in vertical and horizontal directions. Optimised within line frequency
range 60 kHz to 121 kHz
6.13 Convergence
Definition:
Misconvergence is defined as the distance between centers of the red,
blue and green beams at the screen using rectangular coordinates.
The center is defined as the midpoint of the brightest portion of the
beams.
Measurements:
Using a crosshatch test pattern adjust each gun to produce white dim
lines. Adjust brightness control so that background will just disappear.
Set contrast control to give a luminance level of 50 cd/m2 on a white 50
mm x 50 mm square at the screen center.
Requirements:
For horizontal sync frequencies above 58 kHz:
Inside a circle with a diameter equal to the height of the active screen £
0.3 mm. Elsewhere inside the active screen area £ 0.35 mm.
For horizontal sync frequencies below 58 kHz:
Inside a circle with a diameter equal to the height of the active screen £
0.4 mm. Elsewhere inside the active screen area £ 0.45 mm.
445N
25
6.14 High voltage regulation
With a full load white field, at nominal input power supply voltage, brightness at minimum, from the
minimum to maximum contrast settings, the size shall not change more than 0,5 % .
6.15 Blinking image
Image motion shall be defined as the displacement of the active display when changed from a no
load pattern to a full load pattern at a 1.0 Hertz rate.
The change in position between full load and no load displays is measured at the edge along the
center points on the top, bottom, left --- and right ---hand edges.
The maximum change in position at any of the measurement points must be less than 0,5 mm /
edge.
Character distortion (tilting, bending, etc) shall not be noticeable for any text or graphic combination.
6.16 External magnetic field
When this colour monitor is placed at a distance of 30 cm, from another monitor with equal or lower
magnetic leakage fields, the colour monitor will fulfill all the requirements stated under clause 8
(image performance) even if the monitors are working with different timings.
6.17 Settling time
When a new timing mode has been initiated, the monitor will automatically adjust the image performance to meet the requirements of this specification with a settling time < 2 s.
During the settling time the display will be blank, showing no distorted or zooming picture.
26
445N
7. Adjustment Procedure
The following procedure must be carried out in case of large service operations e.g. when a circuit
board or nonvolatile memory ICA has been replaced by a new one.
The order of adjustments explained here has been found to produce the desired result with the minimum of effort. Adjustments can also be made in another order or completely separately.
7.1. Adjustment Flow Diagram
START
6.4 Gray scale
Assemblies
or components
replaced
YES
Perform Preliminary preparations
See 6.2
The Most Dominant colour
See 7.4.1
NO
Low light
See 7.4.2
High light
See 7.4.3
Memory
replaced
NO
Reset user
memory for display
modes to be adjusted
See 3.1.2
YES
Maximum/Minimum contrast
See 7.5
4.2.4 Initializing
Switch OFF the monitor and
activate service mode
Focus
See 7.6
Select display mode 00
Initializing
6.7 Convergence
Switch OFF the monitor
Adjust the convergence in the middle of
the tube with static adjustments
See 7.7.3
6.3 Geometry
Activate service mode and perform 7.3
para 1), 2) & 3) with 107.10kHz/85Hz (NCE791)
Adjust the convergence in the corners of
the tube with dynamic adjustments
See 7.7.4
The new settings are stored automatically.
(4.2.5)
Perform 6.3 para 4) and 5) for all display modes.
Exit from service mode
See 4.2.6
The new settings are stored automatically.
(4.2.5)
STOP
445N
27
7.2. Preliminary Preparations
Connect the signal cable to the PC. Switch on the monitor and the PC. Let the monitor warm up for
20 minutes before starting the adjustments.
7.2.1. High Voltage
----
Select 107.10 kHz/85Hz (NCE791) crosshatch test pattern.
Connect the high voltage meter to the anode of the picture tube.
Adjust the high voltage to 27.0 ±0.2 kV with RT301 on SMA--board.
Front
RT301
7.2.2. Coarse width
1) Select mode 00 (107.10 kHz/85Hz (NCE791))
2) Set width to the 80 % with menu adjustment..
3) Adjust picture width to nominal with width preset (RT201)
RT201
28
445N
7.3. Geometry
Magnetic fields for following adjustments: vertical 0.45G and horizontal 0.0G.
Activate Service Mode in 107.10 kHz/85.0Hz (NCE791).
Degaussing must be carried out before the picture adjustments. Degaussing shall be repeated if the
monitor is moved.
<1.5 mm
293 - /+ 5 mm
4) Adjust size, position and shape of the picture equal to the mask aperture. Adjust first the properties with largest deviation from the correct
value.
5) Adjust final width and height.
6) The distance between bezel and active screen edge shall not vary
more than 2.0 mm in vertical and horizontal direction.
=
=
<1.5mm
1) Select 107.10/85.0 (NCE791) crosshatch test pattern.
to maximum and adjust until the background is faintly visible.
Set
Reduce width until both vertical edges of the background are visible.
2) Straighten the picture if tilted.
This adjustment is common for all display modes.
3) Centre the background.
This adjustment is common for all display modes.
<1.5mm
<1.5mm
393 - /+ 5 mm
7) Repeat steps 4) and 5) for every display mode to be stored. Note that
the display mode can be changed without leaving the service mode.
=
=
GEOMETRY
GREY SCALE
SHARPNESS
PRODUCT INFORMATION
MEMORY SETTINGS
Raster
Width
Horizontal centering
Height
Vertical centering
Pincushion
Pincushion balance
Trapezoid
Orthogonality
S Correction
C Correction
E/W Corner
Tilt
00: 1600x1200 85HZ
445N
29
7.4. Grey Scale
The grey scale is adjusted for 9300K colour temperature.
Activate Service Mode in 107.10 kHz/85Hz (NCE791).
7.4.1. The Most Dominant Colour
The most dominant colour has been marked in a label on the deflection yoke.
It may not be correct if tube or SMH card has been changed. In that case judge
the most dominant colour from the tone of the picture after you have made the
following adjustments.
1) Select 107.10/85.0 (NCE791) black test pattern.
to minimum.
2) Set to maximum and
3) Set Blacklevel adjustment RED/GREEN/BLUE Black Level to (step 25)
4) Set RED/GREEN/BLUE Amp menu and G2 menu adjustments to center
(step130).
5) Place the probe of the colour analyzer in the middle of the screen and
adjust with G2 trimmer until the picture illuminance is 3±1.0 cd/m2
7.4.2. Low Light
Select 107.10/85.0 (NCE791) black test pattern.
Adjust picture illuminance to 1.0 cd/m2 with potentiometer.
with potentiometer to the minimum.
Adjust the
Adjust the colour coordinates to (9300K)
x = 0.283±0.010
y = 0.297±0.010
with RED/GREEN/BLUE Black Level adjustments.
Do not adjust the most dominant colour.
During the adjustment check if brightness is chancing over tolerance, when
needed adjust it back. If Y--- and X---values are getting too far from ideal values, you have chosen wrong MOST DOMINANT COLOUR. Check the dominant colour again according to the instructions.
5) Set to the maximum and check that the illuminance is still 3±1.0 cdm--2.
If not, repeat 7.4.1. steps 5).
6) Adjust picture illuminance to 1.0 cd/m2 with potentiometer and check the
colour coordinates.
1)
2)
3)
4)
G2
FOCUS V
FOCUS H
Left side view
of the chassis
7.4.3. High Light
1)
2)
3)
4)
5)
Select 107.10/85.0 (NCE791) black test pattern.
Adjust with the picture illuminance to 1±0.1 cd/m2.
Select 107.10/85.0 (NCE791) window test pattern.
the picture illuminance in the window to 100±5 cd/m2
Adjust with
Adjust with RED/BLUE Amp the colour coordinates in the window to
x = 0.283±0.003
y = 0.297±0.003
Check after adjustment that the illuminance reading is in limits.
7.5. Maximum/Minimum Contrast
1) Set
to the maximum.
the picture illuminance outside window to 1.0 cd/m2 .
2) Adjust with
3) Adjust illuminance in the window to 140±5 cd/m2 with
MAX CONTRAST.
to the minimum.
4) Set
5) Adjust the minimum illuminance in the window to 5 ± 1 cd/m2 with
MIN CONTRAST.
6) Exit from service mode.
7.6. Focus
1)
2)
3)
4)
5)
30
Select 107.10/85.0 (NCE791) crosshatch test pattern
to the maximum and adjust to 70 % (background faintly visible).
Set
Adjust the sharpness with FOCUS H and FOCUS V to optimum
Adjust until the background is invisible
Select focus test pattern. Check that all letters are clearly visible.
445N
pixelpixelpi
pixelpixelpi
pixelpixelpi
pixelpixelpi
7.7. Convergence
Reduce first the convergence error in the middle of the screen to minimum using static adjustments.
After the convergence is faultless in the middle of the tube, use dynamic adjustments to eliminate
the error in the edges of the tube.
Static adjustments affects the whole picture area:
-- Magnet ring set on the tube neck (horizontal + vertical)
Dynamic adjustments affects a part of the picture area:
-- Deflection yoke trimmers.
7.7.1. Measuring Conditions
-----
Adjust convergence with 107.10/85.0 (NCE791) line frequency.
Make sure that focus is correctly set at the mid-point between the screen center and the edge of
the picture.
Use white crosshatch test pattern with circle.
Adjust
to near the maximum and reduce until the background disappears.
7.7.2. Convergence Measuring Gauge CM7AR
X
B
0.5
0
0.5
0.5
0
0.5
Blue
Y
Red
Green
0.5
0.5
0
0.5
A
0
Check that the adjusting knobs (A & B) are set to zero.
- Place the gauge on the line with marking Y up upwards when measuring horizontal line.
- Place the gauge on the line with marking X up upwards when measuring vertical line.
- If the line has convergence error, the line in the window seems to be broken.
- Use knobs A and B to adjust the line continuous.
- If the readings are on the opposite side of zero, the convergence error is A+B (e.g. 0.2 + 0.1
= 0.3).
- If the readings are on the same side of zero, the convergence error is equal to A if A > B or
B if B > A
0.5
The use of the Klein CM7AR Convergence Gauge has been explained here but other types of
gauges can be used as well.
7.7.3. Static Convergence
The magnet rings has been set to the optimum in the factory. Readjustment is necessary only in
case the adjusting magnets have been accidentally moved.
1 Adjust G vertically in the middle between R and B with 6 pole magnet rings.
2 Adjust G horizontally in the middle between R and B with 6 pole magnet rings.
3 Adjust R and B vertically to the same position with G line with 4 pole magnet rings.
4 Adjust R and B horizontally to the same position with G line with 4 pole magnet rings.
Lock the rings with paint.
Purity magnet rings.
Do not adjust !
3
4 pole magnet rings
B
1
6 pole magnet rings
G
3
4
1
2
R
4
2
SMH
Sliding two ring tobs toward
or away from each other
Rotating both rings together
1
3
2
445N
4
31
7.7.4. Dynamic Convergence
Deflection yoke trimmers
B R BR B R
R BR B RB
RGB RGB RGB
RB RB RB
RB RB
RB
BR BR B R
Do not adjust !
A--- area
B--- area
BR
BR
RGB
RB
RB
R
B
R
B
R
B
B
R
B
R
B
R
Do not adjust !
BR
32
445N
RB
RB
RB
RB
RB
RB
RGB
7.8. Installing serial number to processor
Parallel cable
Power cable
Signal cable
of monitor
You will find serial number on rating label behind of back cover. Use NDP repair software version
8.201 or newer to create the serial number.
7.9. Magnet rings
Do not move purity magnet rings. If the purity magnet rings are found to have moved during transportation or handling, set them just in the original position by tracing the locking paint put on purity
magnet rings and holder of beam bender and then readjust the static convergence.
7.10. Beamlanding
Test pattern:
Adjust first the color of Top and Bottom edges equal to that of the center. Adjust the color purity of
the corners.
Monitor software 0.31 (and futrher versions) adjusts the color purity automatically.
445N
33
8. Screen and Faceplate Blemishes
8.1. Definitions of inspection conditions and terms
8.1.1. Standard observing condition
Distance: 30 cm from screen face. Angle 45 from Z axis.
Cosmetic inspection without raster should be done under luminance: 500lx MIN.
302.2 mm
8.1.2. Zone division
A
B
302.2 mm
other screen area
8.1.3. Minimum distance beetween defects
8.1.4. Average diameter of defect
Average diameter
=
Long diameter + Short diameter
2
8.2. Face defect standard (black spot, stain)
Average diameter
Quantity allowed
Minimum
of defects
A
B
Total
distance
less than 0.5
4
4
6
30
less than 0.3
no limit
34
---
445N
8.3. Glass blemish
8.3.1. Scratch
Width
Length of single scratch
W< 0.05
No limit
0.05<W<0.10
30
0.10<W<0.15
30
W> 0.15
None allowed
8.3.2. Bubbles/Foreign materials
Bubbles
Average diameter of defects
Quantity allowed within any
circle 70
Minimum distance
0.3---0.45
2
12.7
Air blister
(Max. legth 6.0)
(Max. width 0.3)
2
12.7
Foreign material
Apply the face defect standard for blackish defects
Average of diameter Quantity allowed within Minimum distance
of defects
any circle 70
0.25---0.45
2
12.7
Note: No limit for the defects less than 0.25 mm average diameter
445N
35
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
13.
36
11.
12.
14.
15.
445N
16.
17.
18.
19.
20.
21.
22.
25.
23.
24.
26.
445N
37
Block diagram
38
445N
1
3
2
5
6
4
5
UC7112
RE101
QH0074
NTC101
5R
M102
FJ1841
D101
GBU4K
1
3
C105
330u
385V
C103
4n7
400VAC
T6.3A H 250V
3
2
1
4
5
6
15V
D115
LL4148
T111
BCR112W
D116
1N4148
C106
4n7
400VAC
C107
4n7
400VAC
C104
100n
250VAC
R101
1M0
2
1
4
3
2
Q101
4
-T
C101
470n
275V
R138
4M7
R137
4M7
Q102
R151
470R
DEMA
4
C151
10u
50V
R107
R108
470k
470k
9,8
13
POWER1
C111
10n
63V
T102
BC857B
4
R130
47k
VFB
ISENSE
VCC
OUTPUT
RT/CT
C117
C108
22n
630V
C113
1u0
C115
10u
50V
50V
100R
C136
100p
IRFIB6N60A
R119
2k2
R106
4R7
R121
0R47
R117
21
C110
100n
R153
4k7
D104
LL4148
R110
100k
R120
0R47
2
R123
220R
D120
15
L101
FJ0448
15V
DZ102
9V1
C126
1000u
25V
L103
FJ0448
BYW98-200
7
D113
T3.15A
BYW98-200
C125
2200u
16V
D108
D107
BYV26C P6KE200A
SMD
SMD
2W
ELECTROLYTIC
SMD 1W
3W etc.
POLYCARBONATE
POLYESTHER
0.25W
0.25W NF
POLYPROPYLENE
0.5W
CERAMIC
1W
0.5W NF
1
S
S
S(HVRTN)
S(HVRTN)
S(HVRTN)
T105
BC807
6
D109
8
T104
BCR141W
C121
10u
50V
BAV103
C124
10n
SUSPEND
4
Q103
1
2
7
1
10
5
R147
220R
C134
n.c.
D110
R131
220R
4R7
4
1
3
2
R136
2k2
IC103
PS2501-1L
R129
470k
470k
5V OUT
FJ0448
R133
10k0
C132
100n
R102
63V
10k
R105
2k2
5V
C133
100u
25V
ECN
T106
BC857B
445N28
D111
1N4148
RESET
4
IC105
TL431
R128
3
L105
BYV27-200
6
7
R145
2k61
MECH
C131
1000u
16V
9
R125
R144
33k
L107
n.c.
M105
FM2578
C120
10u
400V
5
2-4
D117
LL4148
2
1n0
IC107
TL431
3
1
C123
10u
50V
S
3
R140
1k0
H_FLY
R146
154k
E101
R132
10k0
2
2
IC104
TOP223P
CONTROLDRAIN
C122
680p
500V
IC106
PS2501-1L
4
1
R150
270R
C141
T110
BCR141W
2
3
UC7123
R141
1k5
C142
100n
63V
R143
10k
5V
IC102
PS2501-1L
1
4
R127
1k00
T112
BC847B
T113
BC847B
R142
1k0
16
3
R149
10k
L102
FJ0448
6V
20
T103
BCR191
L108
6u8
R156
10k
R155
1k5
-12V
F102
R111
12k1
3
4
C147
1u0
50V
UVLO
R122
0R47
R109
100k
4
POWER_OFF
12V
IN OUT
REF
2,4
D106
BAV103
R126
10R
T108
BCR141W
17
DZ101
18V
1
IC108
7812
GND
C145
1000u
25V
1k5
PGND
UC7111
C146
10u
50V
470R
D112
RHRD460S
UC7123
1
80V
C127
100u
100V
R112
1k6V
18
C116
100n
D102
LL4148
R154
2k2
L104
FJ0505
14
M104
FM3512
1
D105
1N5818
T109
BC369
1
R148
220R
T101
33R
5
UC7123
D121
RHRD460S
UC7123
1
6,5
R118
6
1
2
UC6879
500V
7
R134
330p
C114
100p
GND
1
8
D114
RHRD460S
19
5V
VREF
D124
1N4002
5V
3
D118
LL4148
R116
6k81
COMP
R152
470R
D103
BYV26C
160V
C128
47u
200V
C129
2n2
500V
15V
1
2
R114
10k
C109
2n2
IC101
UC3843A
C135
47p
1kV
3
1
C112
4n7
C137
22n
630V
R113
47k
D119
LL4148
2
R115
10k
R124
4k7
L106
FJ0505
1
C118
1n0
C119
10n
D122
RHRD460S
4
UC7123
R104
10k0
6V
4
R139
33k
5V
M101
FJ0801
2
1
+T
1
C102
4n7
400VAC
DEMA
Q104
PTC101
18R
+T
PTC102
18R
3
PFC
Safety components marked with
must be replaced with original
or approved components only.
All printed boards and the back
cover are also safety components.
4
NOTE!
R103
220k
R135
1k0
POWER2
4
SMA251H
445N
SB5249
01.00
1
Page 7
UVLO
R204
1k0
D201
1,4
R203
10k
WIDTH
R202
33k
N25
R249
680k
C202
1n0
1
2
4
4
3
R238
56k
WIDTH
4
C203
220p
COMP
8
VREF
VFB
C205
100n
5
GND
D205
1N5818
RT201
1k0
D203
n.c.
H_LOCK
C206
10u
50V
R207
10k
T201
R211
0R56
9
3
7
4
2
R264
4k7
1
STP7NB60FP
R210
1k0
R206
22k
C209
100u
250V
UC7111
R213
10R
R205
4k7
D202
LL4148
D233
BYV27-200
L207
FJ0505
160V
6
OUTPUT
RT/CT
D206
LL4148
7
VCC
ISENSE
C204
100n
2W
SMD 1W
3W etc.
POLYCARBONATE
POLYESTHER
0.25W
0.25W NF
POLYPROPYLENE
0.5W
0.5W NF
CERAMIC
1W
R214
100R
M201
FJ1837
D207
1N4148
IC201
UC3843A
4
T202
BC847B
SMD
ELECTROLYTIC
1
D228
1N5818
D208
RASTER
C248
1000u
16V
BYV98-200
C210
51n
400V
R215
0R22
T218
2N5401
R216
0R56
D209
UF4007
6
R226
470R
R225
1R0
4
C201
22n
R201
4k7
E/W
12V
LL4148
SMD
D229
LL4148
T217
MPSA42
T219
BD135
1k0
R227
R228
2k2
C211
2n2
1kV
R212
0R56
4
M203
FM2592
3
-160V
T220
BC857B
1
100n
100V
UC7123
GND
UC7111
R267
22R
C235
470n
250V
C236
42n
400V
3
8
10
12
14
R256
24k9
2
R258
100R
1
5
R259
100R
C241
100n
C240
100n
7
R260
100R
C242
100n
11
R262
100R
C244
100n
R263
100R
C245
100n
13
15
C246
100n
S1
C249
220p
S4
S3
SB5249
01.00
1
Page 8
1
3
2
5
4
7
6
8
4
Q201
100k
-12V
200V
V_DYN_FOC
R274
4k7
T208
BF420
DYN_FOCUS
100n
63V
2R2
R250
2M2
C257
470p
500V
8
7
C229
150p
C230
150p
5
500V
R271
100k
T209
BF420
R253
4k7
BAV21
D221
C217
RGP10G 33n
400V
T212
BF422
X6
D226
BAV103
C220
4n7
250V
R230
100k
BAV21
S
N
R243
100R
270k
D224
C251
100n
63V
D230
RGP10G
R229
C223
470p
500V
R231
n.c.
S L203
N FU0737
L202
FU0738
D232
n.c.
R246
n.c.
FR204
360R
F_LIMIT
D234
BYV26C
4
R244
5R6
6
C221
n.c.
10
9
8
9
FR203
360R
D214
RGP10G
D236
BAV103
R273
10k
R272
22k
R269
15k
D235
LL4148
R270
47k
R239
n.c.
R232
n.c.
R240
n.c.
DZ203
n.c.
R233
C259
47p
D215
RGP10G
R245
10k
C226 C227 C228
42n 42n 42n
400V 400V 400V
C225
100n
R237
2k2
445N
R235
n.c.
T210
BC857B
C258
1u0
250V
DEFLECTION
-12V
R234
n.c.
C224
2u2
50V
L205
n.c.
T216
n.c.
C222
n.c.
50V
R241
n.c.
ECN
445N28
H_RAMP
PULSE
T215
n.c.
DZ205
n.c.
T211
n.c.
n.c.
T224
BF423
T223
BF423
160V
R242
2R2
500V
T222
BF422
C231
2n2
500V
R251
220k
R252
10k0
4
R223
4k7
T206
BUH1215
12
7
R254
2k2
3
R268
47k
R276
27k4
R275
27k4
S6
S0
9
R261
100R
C243
100n
S2
S5
SMA251H
R247
100k
R222
10R
7
M202
FM2598
IC202
SLA5054
IRF640
R257
100R
C232
10n
400V
160V
T207
6
C239
100n
400V
C238
220n
400V
C237
22n
400V
R266
L201
6u8
R248
160V
C234
1u0
250V
C256
LIN2
HOR. YOKE
X5
D225
H_FLY
2
D219
BYV28-100
D212
BYW98-200
D213
RGP10G
D218
11DQ06
8
T221
FDT459N
10
4
M204
FM2594
C213
27n
400V
C233
10n
400V
15V
1
1
D211
RHRD460S
L206
6u8
D217
BYV26C
???
160V
C219
4n7
500V
4
C214
FR201
360R
BAV21
25V
T205
IRF9540
X4
4
R220
10R
R221
10R
C215
4u7
50V
FR202
360R
D223
D220
DTV110F
C218
2n2
2kV
4
DZ201
12V
T204
BC847B
4
63V
C255
4u7
50V
R224
100k
11
R265
4R7
C254
1000u
C216
2n2
2kV
1,3,4
H_DRIVE
X3
C253
100n
D216
1N4002
R219
2k2
63V
1
12V
12V
R218
15R4
C250
100n
5
C247
100n
BYV98-200
6V
R209
1k0
6
4
D227
C212
0u47
250V
C208
100p
D204
LL4148
R208
10k
2
-12V
C207
2n2
R217
100R
D210
UF4007
T203
BC857B
R236
464R
OVER_VOLT
D308
LL4148
R318
1k0
R319
8k25
C317
4n7
4
C316
10n
R320
24k9
R317
220R
2
HV.
ADJ.
L301
n.c.
15
9
R301
220R
R315
10k
R314
22R
C313
10n
250V
C314
47u
200V
T301
IRF9620
13
DZ302
12V
12V
GND
D307
BYM26C
UC7111
VCC
ISENSE
RT/CT
500V
C310
10n
DZ301
4V7
GND
1
2
3
R307
4k7
6
4
IC302
MC34152
NC
IN A
GND
IN B
14
NC
OUTA
VCC
OUT B
8
D303
LL4148
7
6
R308
22R
5
15
C307
330p
C308
2n2
R309
n.c.
SMD
2W
ELECTROLYTIC
SMD 1W
3W etc.
POLYCARBONATE
POLYESTHER
0.25W
0.25W NF
POLYPROPYLENE
0.5W
0.5W NF
CERAMIC
1W
T302
IRFIBE30G
D304
N.C.
R328
39k
5V
R310
n.c.
R326
10k0
DYN_FOCUS
R311
1k0
R305
n.c.
R324
47k
G2_ADJ
C320
47n
63V
C312
n.c.
D305
N.C.
SMD
R325
4k7
16
5
13
R304
1k0
C311
1n0
OUTPUT
7
T303
BF422
R323
2M2
4
R306
2k2
8
R322
10k
2
4
VFB
VREF
SG303
1200V
12
4
H_FLY
3
D301
LL4148
1,2,4
COMP
C319
2n2
500V
DYN. FOCUS
C305
100n
UC7111
C309
2n2
1
2
C304
100n
SG302
1200V
1
IC301
UC3843A
X7
11
10
C315
680p
1k5V
C306
10u
50V
C318
100p
1kV
SG301
95V
ST. FOCUS
G2
1
C303
220p
R321
100R
14
4
C301
47n
63V
HIGH VOLT
1
R316
1R0
R303
100k
M301
FM0646/FM0643
12V
RT301
22k
160V
C302
22u
50V
R302
46k4
R327
220R
BC
R312
1R0
ECN
445N28
R313
0R56
HV GENERATOR
SMA251H
445N
SB5249
01.00
1
Page 9
6
1
4
3
2
1,2
80V
-12V
5V
12V
160V
G1
6
5
9
8
7
11
10
BCL
13
12
H_BLANK
16
15
14
V_SYNC_TO_OSD
18
SCL
SDA
17
21
19
20
23
22
26
25
R402
2k7
R401
2k7
R403
470k
T403
BC847B
R469
2k2
R455
22R
R468
15k
4k7
2
4k7
LIN2
DEMA
C408
4u7
50V
C407
4u7
50V
C406
4u7
50V
1
2
3
4
1
2
3
4
A0
VCC
A1
WP
A2
SCL
VSS SDA
A0
VCC
A1
WP
A2
SCL
VSS SDA
C405
4u7
50V
4 DA4
2
1
SUSPEND
17
100n
UVLO
R424
1k0
1,2
6
5
R425
IC403
n.c.
10k
R426
18k
R491
220R
T405
BC847B
R407
4k7
39
R408
4k7
R409
4k7
R410
4k7
R411
4k7
R415 10k
37
R416 10k
36
R417 10k
35
R418 10k
34
X401
33
C403
31
24.0MHz
2
4
FR401
360R
C413
2200u
16V
R430
R492
3M3
1k0
5V
IC404-1
74HC86
3
29
3
SMA251H
SB5249
2W
SMD 1W
3W etc.
22
C415
100p
POLYCARBONATE
POLYESTHER
0.25W
0.25W NF
POLYPROPYLENE
0.5W
CERAMIC
1W
01.00
1
Page 10
0.5W NF
C416
n.c.
10
12
13
14
15
4k7
R442
10k
16
J61
31
SDA
HMOIRE
SCL
PLL2C
VCC
C0
30
29
27
GND
PLL1F
HPOS
VCAP
HFLY
VREF
HREF
VAGCCAP
COMP
VGND
REGIN
BREATH
ISENSE
R440
330R
3
4k7
C445
22n
24
21
18
C436
470n
63V
C443
n.c.
17
J50
20
19
B+GND
R443
4k7
23
OVER_VOLT
2
10k
25
22
C432
100n
R475
R457
23
VOUT
HGND
1k0
24
HFOCCAP EWOUT
2
R474
25
XRAY
FOC-OUT
H_DRIVE
26
HOUT
C430
100u
25V
C431
100n
28
BOUT
R0
R456
10R
R470
47k
D408
1N4148
C435
150n
63V
C433
100n
C434
47u
12V
C441
100n
2
N25
C440
47n
63V
23
C409
10u
50V
20
C410
100n
UVLO
C438
1n0
R464
1k0
C414
100n
R460
22k
D405
LL4148
D407
1N4148
R461
470R
D406
1N4148
T401
BF423
R458
22k
IC404-2
74HC86
5
6
4
C437
2n2
500V
R493
47R
IC404-4
74HC86
13
11
12
2
15V
R465
2k15
R480
22k1
445N
C451
100u
50V
R483
10k0
2
6
3
VCC OSS
FG
ECN
445N28
C454
1n0
C456
220u
35V
26
X1
OUT
GND
R484
6k19
IC406
TDA9309
5
1
R481 R482 C452 C453
4k64 100k 1n0 1n0
R463
215k
PULSE
D420
1N4002
R462
2k2
R459
10k
R435
n.c.
C450
220u
35V
R466
0R0
R467
5k62
C455
4n7
21
R434
4k7
C439
10u
50V
7
-160V
SMD
ELECTROLYTIC
47k
47u
R439
2k15
5V
SMD
R476
10k
7
10k
9
32
5V
VSYNCIN
C428
10u
50V
24
R433
8k2
BC
R444
1-3
R421
5V
R432
220R
C418 1n0
R441
H_FLY
27
5V
820p
C419
4k7
25
C421
11
C420
100n
L401
33u
28
D404
LL4148
8
22u
16V
R438
GND
D401
1N4148
10
9
1
2
6
7
C422
2u2 C444
50V n.c.
C446
R437 C417
4k7 100p
14
5
8
C442 100n
D409
LL4148
C404 15p
V_SYNC_OUT
R431
10k
R472
4k7
7
R420
4k7
26
560p
6k19
2
6
R436
100k
IC404-3
74HC86
47k
V_DYN_FOC
5
R446
3
4
C423
22n
C425
10n
10k
C424
50V
R445
LL4148
3
H_SYNC_OUT
R494
6M8
D402
1
8
15p
R419
10M
32
30
Q405
S3
S4
S1
S2
S5
S6
S0
R448
R447
6R8
2
R450
1k0
R414 10k
38
F_LIMIT
5V
R412
4k7
R413
10k
19
R428
10k
R429
6M8
40
18
C412
10u
50V
T404
BC857B
PA6
41
5V
5V
12V
R490
4k7
R427
470k
PA5
9 GNDA
PA7/BLANKOUT
10 VDDA
OSCIN
11 AIN3/PB7
OSCOUT
12 AIN2/PB2
PC6
13 AIN1/PB1
PC5/SDAI
14 VFBACK/AIN0/PB0
PC4/SCLI
15 VSYNCI
PC3/SDAD
16 CLAMPOUT/PD6
PC2/RX/SCLD
17 ITA/PD5
PC0/OCMP/HFBACK
18 ITB/PD4
VDD
19 ITC/PD3
HSYNCI
20 VSYNCO/PD2
GND
21 HSYNCO/PD1
PD0/CSYNCI
5
C411
PA5
8 DA8
1
6
7
PA3
7 DA7
1
7
8
PA1
5 DA5
POWER_OFF
R423 R422
4k7 4k7
8
RESET#
6 DA6
5V
IC402
24C64
TEST/VPP
3 DA3
42
1
2
IC405
TDA9111
H/HVIN
C429
100n
4
R485
2R15
R487
274R
C458
220n
250V
X2
R486
2R15
C457
n.c.
R488
1R5
VERT. YOKE
R473
DA0
2 DA2
470R
D403 C426 R449
LL4148 1u0 1k8
R451
2k2
1,2
R471
2
RASTER
R452
R406
10k
5V
1 DA1
3
WIDTH
R453
470R
22
C427
1n0
C402
10n
IC401
ST72T752J6B1
G2_ADJ
RESET
1
R405
680R
5V
C401
10n
R454
562R
12V
5
5V
2
12V
4
R404
47k
R489
47R
T402
BCR191
H_LOCK
CLAMP
5V
3
Q401
6V
KEYPAD
V_RAMP
2
H_RAMP
2
Q404
1
24
SDA1
SCL1
SELF_TEST
H_SYNC
V_SYNC
8
6
7
3
TO VIDEO
5V
15V
-12V
4
4
POWER2
3
5
1
Q402
5V
2
POWER1
SDA
SCL
KEYPAD
1
1
1
2
TO SMK001
Q403
X24
-12V
SMA251H
SB5249
445N
01.00
1
Page 11
SMA251H
SB5249
01.00
1
Page 12
445N
Part
NO
Description
PG
SMA251
AA0715
AG3365
AJ2463
AJ2523
AJ2763
AJ2923
AJ3403
AQ2214
AQ2218
AW0079
AW0111
CA0322
CB0658
CC0240
CE0085
CE0126
MAIN BOARD
445N
CF RES 0W25 56K J 2.5--7
MF RES 0W5 464R F TC50 2.5
MO RES 2W0 5R6 J 6--17
MO RES 2W0 10R J 6--17
MO RES 2W0 100R J 6--17
MO RES 2W0 470R J 6--17
MO RES 2W0 47K J 6--17
TPMET.AA H10 1K0 RM 5X10 6--H
TPMET.AA H10 22K RM 5X10 6--H
PTC--THERMISTOR 18R/25’C RM5
NTC--THERMISTOR 5R0/25’C RM5+
CERCAP Y5P 2N2 K 1KV Y5: D
CERCAP N750 82P J 500V Y5: D
CERCAP Y5P 2N2 K 500V Y5: D
X2--CAP 470N M 275VAC Y22.5 PLA
Y--CAP 4N7 M 400VAC Y12.5 SDP
55
01
01
02
02
02
02
02
03
03
07
07
02
01
01
07
04
CE0210
CE2004
CE2074
CE2196
CE2360
CE2540
CE2592
CE2671
CE2751
X2--CAP 100N M 250VAC Y15
IMPCAP 100P K 1K6V Y15 051
IMPCAP 680P K 1K5V Y15 051
IMPCAP 2N2 J 2KV Y22.5 081
IMPCAP 10N J 400V Y15 051
05
03
04
04
04
03
05
04
04
CE2802
CE2933
CE3020
CE3024
CE3113
CE3202
CK0102
CK0165
CK0282
CK1388
CK2626
CK2626
CN0095
CN0372
CN2046
CN2546
CN2581
CN2712
CN2715
CN2749
CN3248
CN3312
FJ0448
FJ0801
FJ1837
FJ1841
FM0646
FM2598
FM2578
FM2592
FM2594
FM3512
JB0044
JB0100
JF0096
JF0107
JF0166
JF0168
JF1005
IMPCAP 100N K 400V Y15 091
IMPCAP 220N J 250V Y15 081
IMPCAP 220N J 400V Y22.5 111
IMPCAP 470N J 250V Y22.5 112
IMPCAP 1U0 J 250V Y22.5 SING.
PESCAP MKT 10N K 250V Y10 051
PESCAP MKT 10N K 250V Y7.5 040
PESCAP MKT 100N K 63V Y5: 030
ELCAP 330U M 385V RM10 30 X 45
ELCAP 22U M 50V RM5 : 7
ELCAP 10U M 400V RM5 105’ 13X
ELCAP 100UF M 100V RM5 105’ 14
ELCAP 220U M 35V RM5 105 11X1
ELCAP 1000U M 16V RM5: 105’11X
ELCAP 1000U M 25V RM5 105’ 10
ELCAP 2200U M 16V RM5 105 14X
ELCAP. 47U M 200V RM5 105’13X2
ELCAP 100U M 250V RM7.5 105’18
CHOKE 13UH FERRITE 2X15
COMMON MODE CHOKE 3A 60UH 0.03
DEFL.INPUT CHOKE E25/6 445N
INPUT CHOKE 12MH 1.8A 0.27OHM
FLYBACK TRAFO 30..121KH MAT. 4
DYNAMIC FOCUS TRAFO E20/6 4
ADD. SMT E20 HOR
446C
CENTERING COIL E30 2.6MH 4
DRIVER TRANSFORMER EE19
4
SMPS--TRAFO ETD49 SLOT
DI DTV110F 1500V 10A
TO22
DI GBU4K BRIDGE 800V 4A
DI BYV28--100 100V 3.5A 30N
DI BYV26C 600V 1A 30N
DIODE BYM26C 600V 2.3A SOD--64
DIODE BYW98--200 200V 3A DO--27
DI P6KE200A TRANSIENT SUPPR
03
04
03
06
05
06
02
02
02
02
02
02
19
03
04
05
03
05
03
04
04
09
02
05
07
09
32
09
15
12
08
17
14
08
04
02
06
04
05
Item Number
foil
RA244
RA221 RA222
RA243
RA112 RA152
RA113
RT201
RT301
PTC101 PTC102
NTC101
CA211
FOIL
CA309
CA101
CA106 CA107 CA102
CA103
CA104
CA136
CA315
CA216 CA218
CA232 CA233
CA237
CA213
CA217
CA226 CA227 CA228
CA236
CA210
CA239
CA458
CA238
CA235
CA234
CA220
CA108 CA137
CA214
CA313
FOIL
CA256
CA105
CA302
CA120
CA127
CA450 CA456
CA131
CA126 CA145
CA413 CA125
CA128 CA314
CA209
L101 L102 L103 L105
M101
M201
MA102
M301
M202
M105
M203
M204
M104
D220
D101
DA219
DAFOL
D307
D113 D120 D208 D227
DA107
SMA251H
445N
SB5249
1
01.00
Page 1
Part
NO
Description
PG
Item Number
JL0069
JM0334
JM0341
JS0019
JS0078
JS0051
JS0058
JS0063
JS0081
JS2002
LM0256
LM0945
LM0956
LM0972
LM1007
LM1025
QA0098
QH0074
QK1285
QK1701
QK1702
QM1071
QK1754
QM0202
QM1050
QM1072
QT0002
QT0207
QT0733
QT0775
SE2747
UJ0252
UG1050
WC0036
WC0446
WC0530
QK1599
SE2782
AJ2361
AJ2441
CN0727
CN3401
FU0737
FU0738
UG0814
SE2601
OPTOCOUPLER VRMS 5KV
TR BD135 NPN 45V 1A5 250MHZ TO
TR BUH1215(435B) N 1500V 19ATO
FET IRF640 N 200V 18A TO22
FET STP7NB60FP N 600V 3.5A 1R2
FET IRF9540 P 100V 19A 0.2R TO
FET IRF9620 P 200V 1R5 3A TO22
FET IRFIBE30G N 800V 2.1A 3R0
FET 600V 5.2A 0.75OHM TO220FI
FETARRAY SLA5054 6X150V 5A. 7A
IC 7812 +12V REGULATOR TO--220
IC 24C64 SERIAL EEPROM 8X8K DI
IC TDA9309 VERT.DEFL.BOOSTER H
IC TOP223P PWM SWITCH 15W DI
IC ST72T752J6B1 MCU 32ROM SDI
*NEW* TDA9111/N
CRYSTAL 24.000MHZ FUNDAM. HC--4
RELAY PCB--MOUNTING 12V 5A/250V
ROW CONN 1X05 5.08/7.62 VERT/L
PICOFLEX HEADER 1X04 1.27MM
PICOFLEX ASSY BI--IDT 26--POS 35
FUSEFIT AC INLET FOR PCB VERT.
DY--COIL CABLE
10--POS 445
PICOFLEX ASSY BI--IDC 8--POS 450
PICOFLEX ASSY BI--BI 8--POS 300M
SPARK GAP 1.2KV +--500V R=5.0MM
GLIMM LAMP 95V 6*12.5MM
FUSE R=5.0MM T 3.15A 250V IEC
FUSE 5*20MM T 6.3A 250V 1500A
GROUNDING WIRE 446B/447U
TIES/CABLE BAND DN30191
SUPPORT FRAME DN10259
HEXAGON TORX SCREW UNI6950
HEXAGON.--DULL 2,9X8 FE/ZN
SCREW 2,9X10 FE/ZN
COOLING & SUPP.PART FOR RES L1
GROUNDING WIRE 445N VERSION 2
MO RES 1W0 2R2 J 4--14
MO RES 1W0 4R7 J 4--14
ELCAP 1000U M 25V RM5
14
ELCAP 1000U M 16V RM5 105’ 11
FIXED LIN.COIL N--S 8A 121KHZ 4
FIXED LIN.COIL S--N 8A 121KHZ 4
INSULATOR DN30084 447K
GROUNDING WIRE
445N
04
04
16
10
09
07
07
10
12
19
04
09
08
13
25
16
06
11
03
03
03
14
07
16
08
09
03
04
04
03
03
01
09
01
01
01
01
05
01
01
04
03
08
08
01
03
IC102 IC103 IC106
T219
T206
T207
T201
T205
T301
T302
T101
IC202
IC108
IC402
IC406
IC104
IC401
IC405
X401
RE101
Q102
Q403
Q404
Q401
Q101
X
Q402
Q201 Q405
SG302 SG303
SG301
F102
Q101
QA101
AA0633
AA0637
AA0641
AA0649
AA0657
CF RES
CF RES
CF RES
CF RES
CF RES
0W25 22R J 2.5--7
0W25 33R J 2.5--7
0W25 47R J 2.5--7
0W25 100R J 2.5--7
0W25 220R J 2.5--7
01
01
01
01
01
AA0665
AA0669
AA0673
AA0677
AA0681
AA0689
CF RES
CF RES
CF RES
CF RES
CF RES
CF RES
0W25 470R J 2.5--7
0W25 680R J 2.5--7
0W25 1K0 J 2.5--7
0W25 1K5 J 2.5--7
0W25 2K2 J 2.5--7
0W25 4K7 J 2.5--7
01
01
01
01
01
01
AA0697
AA0703
AA0713
CF RES 0W25 10K J 2.5--7
CF RES 0W25 18K J 2.5--7
CF RES 0W25 47K J 2.5--7
01
01
01
AA0721
CF RES 0W25 100K J 2.5--7
01
SMA251H
SB5249
SB249
MA301
NTCA101
MEC
RA242
RA265
CA254
CA248
LA203
LA202
MEC400
XA7
RA455 RA308
RA118
RA489
RA134 RA257
RA148 RA432 RA301
RA147
RA226
RA405
RA209 RA424
RA117
RA151
RA264 RA472 RA438
RA205
RA208 RA425
RA426
RA130 RA324 RA444
RA470
RA230 RA248 RA303
RA436 RA247
1
01.00
Page 2
445N
Part
NO
Description
PG
Item Number
AA0729
AA0731
AA0737
CF RES 0W25 220K J 2.5--7
CF RES 0W25 270K J 2.5--7
CF RES 0W25 470K J 2.5--7
01
01
01
AA0741
AA0754
AB0601
AB0605
AB0609
AB0617
AB0785
AB0793
AB0795
4F RES
CF RES
NF RES
NF RES
NF RES
NF RES
NF RES
NF RES
NF RES
01
01
01
01
01
01
02
01
01
AB0801
AC3332
AC3364
AC3369
AC3372
AC3388
AC3421
AC4400
NF RES 0W5 1R0 J 4--11 CF
CHIPRES 0W1 2K61 1% 0805 201
CHIPRES 0W1 5K62 1% 0805 201
CHIPRES 6K19 0W1 1%
0
CHIPRES 0W1 6K81 1% 0805 201
CHIPRES 0W1 10K0 1% 0805 201
CHIPRES 22K1 OW1 1% 0805
CHIPRES 0W1 0R0 5% 0805 20
02
01
01
01
01
01
01
01
AC4400
AC4425
CHIPRES 0W1 0R0 5% 0805 20
CHIPRES 0W1 10R 5% 0805 20
01
01
AC4433
AC4449
CHIPRES 0W1 22R 5% 0805 20
CHIPRES 0W1 100R 5% 0805 2
01
01
AC4457
CHIPRES 0W1 220R 5% 0805 2
01
AC4459
AC4461
AC4465
AC4473
CHIPRES
CHIPRES
CHIPRES
CHIPRES
270R 5% 0805 2
330R 5% 0805 2
470R 5% 0805 2
1K0 5% 0805 20
01
01
01
01
AC4477
AC4479
AC4481
CHIPRES 0W1 1K5 5% 0805 20
CHIPRES 0W1 1K8 5% 0805 20
CHIPRES 0W1 2K2 5% 0805 20
01
01
01
AC4483
AC4489
CHIPRES 0W1 2K7 5% 0805 20
CHIPRES 0W1 4K7 5% 0805 20
01
01
AC4495
AC4497
CHIPRES 0W1 8K2 5% 0805 20
CHIPRES 0W1 10K 5% 0805 20
01
01
AC4501
AC4505
CHIPRES 0W1 15K 5% 0805 20
CHIPRES 0W1 22K 5% 0805 20
01
01
RA463
RA229
RA107 RA108 RA128
RA129
RA249
RA323
RA316
RA488
RA266
RA106 RA125
RA215
RA120 RA121 RA122
RA211 RA212 RA312
RA313 RA216 RA218
RA225
RA145
RA481
RA446
RA116
RA132 RA133 RA326
RA480
JA5 JA42 JA87 JA94
JA105 JA114 JA118
JA119
RA466
RA126 RA213 RA220
RA447 RA456
RA314
RA214 RA217 RA258
RA259 RA260 RA261
RA262 RA263
RA131 RA123 RA317
RA327 RA491
RA150
RA440
RA452 RA453 RA461
RA135 RA140 RA142
RA204 RA210 RA227
RA304 RA311 RA318
RA450 RA464
RA141 RA155
RA449
RA105 RA119 RA136
RA219 RA228 RA306
RA451 RA154 RA462
RA469
RA401 RA402
RA124 RA223 RA253
RA307 RA407 RA408
RA409 RA410 RA411
RA412 RA420 RA422
RA423 RA434 RA437
RA441 RA443 RA153
RA490 RA471
RA433
RA102 RA114 RA115
RA203 RA207 RA245
RA315 RA406 RA413
RA414 RA415 RA416
RA417 RA418 RA421
RA428 RA430 RA442
RA457 RA459 RA143
RA201 RA448 RA468
RA149
RA252
RA206 RA460 RA202
RA458
0W25 680K J 2.5--7
0W25 2M2 J 2.5--7
0W25 1R0 J 2.5--7 CF
0W25 1R5 J 2.5--7 CF
0W25 2R2 J 2.5--7 CF
0W25 4R7 J 2.5--7 CF
0W5 0R22 J 4--11 CF
0W5 0R47 J 4--11 CF
0W5 0R56 J 4--11 CF
0W1
0W1
0W1
0W1
SMA251H
445N
SB5249
1
01.00
Page 3
Part
NO
Description
PG
Item Number
AC4509
AC4513
AC4511
AC4519
AC4521
AC4529
AC4537
AA0755
AC4557
AC4569
AD0349
AD0388
AD0397
AD0445
AD0461
AG3133
AG3343
AG3373
AG3401
AG3433
AG3465
AG3473
AG3481
AG3489
AG3501
AG3509
AG3539
AG3565
AG3601
AG3619
CA0324
CA0417
CB3129
CB3151
CB3155
CB3159
CB3163
CB3173
CB3175
CHIPRES 0W1 33K 5% 0805 20
CHIPRES 0W1 47K 5% 0805 20
CHIPRES 0W1 39K 5% 0805 20
CHIPRES 0W1 82K 5% 0805 20
CHIPRES 0W1 100K 5% 0805 2
CHIPRES 0W1 220K 5% 0805 2
CHIPRES 0W1 470K 5% 0805 2
CF RES 0W25 2M7 J 2.5--7
CHIPRES 0W1 3M3 5% 0805 20
CHIPRES 0W1 10M 5% 0805 20
COMPRES 0W5 100R K 4--11
COMPRES 0W5 4K7 K 4--11
COMPRES 0W5 10K K 4--11
COMPRES 0W5 1M0 K 4--11
COMPRES 0W5 4M7 K 4--11
MF RES 0W5 2R15 F TC200 2.5
MF RES 0W5 274R F TC50 2.5
MF RES 0W5 562R F TC50 2.5
MF RES 0W5 1K00 F TC50 2.5
MF RES 0W5 2K15 F TC50 2.5
MF RES 0W5 4K64 F TC50 2.5
MF RES 0W5 5K62 F TC50 2.5
MF RES 0W5 6K81 F TC50 2.5
MF RES 0W5 8K25 F TC50 2.5
MF RES 0W5 10K0 F TC50 2.5
MF RES 0W5 12K1 F TC50 2.5
MF RES 0W5 24K9 F TC50 2.5
MF RES 0W5 46K4 F TC50 2.5
MF RES 0W5 100K F TC50 2.5
MF RES 0W5 154K F TC50 2.5
CERCAP Y5P 100P K 1KV Y5 D8
CERCAP X6R 470P K 500V Y5:+1
CHIPCERCAP NP0 15P 50V J 0
CHIPCERCAP NP0 1N0 50V J 08
01
01
01
01
01
01
01
01
01
01
01
02
01
01
01
01
01
01
01
01
01
01
01
01
01
03
01
01
01
01
01
01
03
01
01
01
01
02
03
CB3651
CC0130
CC0190
CC0530
CC3240
CC3280
CC3320
CHIPCERCAP
CERCAP Y5P
CERCAP Y5P
CERCAP Z5U
CHIPCERCAP
CHIPCERCAP
CHIPCERCAP
NPO 100P 100V J 0
220P K 500V Y5: D
680P K 500V Y5: D
4N7 S 500V Y5: D
X7R 2N2 10% 50V 0
X7R 4N7 10% 50V 0
X7R 10N 10% 50V 0
01
01
01
01
01
01
01
CC3480
CC3565
CC3580
CHIP CERCAP X7R 10% 100N 25V 0
CHIP CERCAP Y5V 22N Z 50V 0
CHIP CERCAP Y5V 100N Z 50V 0
01
01
01
CG2717
CK2545
CK2626
PPRCAP KP 10N H 63V Y5: 060
PESCAP
47N K 63V Y5: 030
03
02
02
CK2664
CK2784
02
03
RA139 RA144 RA482
RA404 RA445
RA328
RA251
RA431
RA103
RA403 RA427
RA250
RA429 RA492
RA419
RA321
RA325
RA322
RA
RA137 RA138
RA486 RA485
RA487
RA454
RA127
RA465 RA439
RA254 RA255
RA467
RA484
RA319
RA483
RA111
RA256 RA320
RA302
RA109 RA110 RA224
RA146
CA318 CA230
CA223
CA403 CA404
CA208 CA415
CA114
CA203 CA303
CA117 CA307
CA421
CA118 CA141 CA311
CA418 CA438 CA452
CA453 CA454 CA427
CA202
CA417
CA229
CA122
CA219 CA231
CA207 CA308
CA317 CA455 CA112
CA119 CA124 CA310
CA316 CA401 CA402
CA425
CA432 CA204
CA424
CA116 CA205 CA240
CA241 CA242 CA243
CA244 CA245 CA246
CA304 CA305 CA410
CA411 CA414 CA420
CA429 CA431 CA433
CA110 CA250 CA441
CA442
CA111
CA301 CA320 CA440
CA247 CA132 CA142
CA251 CA253
CA435
CA436
SMA251H
SB5249
1
01.00
Page 4
445N
Part
NO
Description
PG
Item Number
CK2880
CC3360
CN0130
CN2017
PESCAP 4U7 K 50V Y5 081308
CHIPCERCAP X7R 22N 10% 50V 0
ELCAP 0U47 M 250V RM5 : 7
ELCAP 1U0 M 50V RM5: 105’ 6
02
01
03
02
CN2032
ELCAP 10U M 50V RM5: 105’ 6
01
CN2435
CN2521
CN2523
CN2543
CN2563
CN2566
ELCAP 47U M 35V RM5: 105’ 9X
ELCAP 100U M 25V RM5 : 9
ELCAP 100U M 25V RM5 :105’ 9
ELCAP 100U M 50V RM5 105 11X1
ELCAP 2U2F M 50V RM5: 105’5X1
ELCAP 4U7F M 50V RM5: 105’6X1
02
02
03
02
02
02
CN3206
FJ0517
FJ0429
FJ0505
FJ0725
ELCAP 10U M 50V RM5 105’ 8X14
CHOKE 6.8UH 10% TAPED AXIAL
CHOKE 33UH 10% TAPED AXIAL
BEAD INDUCTOR MIN IMP360HM
03
02
04
02
02
JF0025
DI 1N4148 75V 200MA
01
JF0032
JF0060
JF0072
JF0073
DI UF4007 1000V 1A 75N DO41/SO
DI 1N4002 100V 1A
DI BAV21 200V 250MA 50N
DI RGP10G 400V 1A 150N
04
01
01
02
JF0104
DI BYV27--200 200V 2A 25N SOD
03
JF0107
JF0206
JF4003
JF4005
DI BYV26C 600V 1A 30N
SCHOTTKY RECTIFIER 30V 1A 1N5
DI BAV103 200V 250MA 50NS SOD
DI LL4148 75V 150MA 4N (JF400
02
04
02
01
JF4101
DI RHRD460S 600V 4A 30NS TO--
08
JH0054
JH0086
JH4120
JM0203
JM0205
JM0206
JM0244
JM0280
JM0282
JM4105
ZDI BZX83C12 12V 0.5W
ZDI BZX83C4V7 4.7V 0.5W
ZDI BZX84C18V 0.225W 5% SOT
TR MPSA42 N 300V 500MA
TO
TR BF423 P 250V 25MA 6
TR BF420 N 300V 100MA 60M TO-TR BF422 N 250V 25MA 60M: T
TR 2N5401 P 150V 0.6A 10
TR BC369 P 20V 1A 6
TR BC847B N 45V 0.1A SOT23
01
01
02
03
03
12
02
02
06
01
JM4114
TR BC857B P 45V 100MA 150M
02
JM4401
JM4402
LM0942
LM4208
LM4467
LM4469
JH0090
CB3169
CB0539
CC0240
TR BCR141W 50V 0.1A (2X22K)SOT
TR BCR191W 50V 0.1A PNP 2X22KO
IC TL431 VOLTAGE REFERENCE TO-IC 74HC86 2--INPUT EXCL. OR SO-IC MC34152D MOSFET DRIVER SO--8
IC UC3843 PWM CONTROLLER SO--8
ZDI BZX79B9V1 9.1V 0.5W
CERCAP SL 47P K 1KV Y5: D6
02
01
04
04
09
05
03
01
03
01
CA255 CA215
CA201
C212
CA113 CA147 CA151
CA426
CA115 CA123 CA206
CA306 CA409 CA428
CA412 CA439
CA419 CA434
CA430
CA133
CA451
CA422 CA224 CA225
CA405 CA406 CA407
CA408
CA121 CA146
LA201 LA206 JA9
L401
L104 L106 L207
FR201 FR401 FR202
FR203 FR204
D111 D116 D207 D401
D406 D407 D408
D209 D210
D124 D216 D420
D223 D224 D225
D213 D214 D215 D221
D230
DA212 DA110 DA233
DA218
D103 D108 D217
D105 D205 D228
D106 D226 D109
D104 D115 D117 D118
D119 D201 D202 D204
D206 D229 D301 D303
D308 D402 D403 D102
D404 D405
D112 D121 D211 D114
D122
DZ201 DZ302
DZ301
DZ101
T217
T401
T209
T212 T303
T218
T109
T112 T202 T208 T204
T403 T405 T113
T102 T105 T106 T203
T210 T404 T220
T104 T108 T110 T111
T103 T402
IC105 IC107
IC404
IC302
IC101 IC201 IC301
DZA102
CA423
CA135
CA109 CA319 CA437
4N
SMA251H
445N
SB5249
1
01.00
Page 5
Part
NO
Description
SMA251H
SB5249
PG
Item Number
1
01.00
Page 6
445N
15V
R59
22k
R57
10k
DZ1
3V9
R68
4k7
5V
15V
Q1
1
2
R64
100R
SDA
SCL
R65
3
4
5
6
7
5V
15V
-12V
2
3
100R
5V
4
R66
10R
5
V_RAMP
6
C10 C2
10u 100n
50V
8
7
8
A0
DAC8
SDA
DAC7
SCL
DAC6
VCC
DAC5
GND
DAC4
BG
DAC3
A1
DAC2
A2
DAC1
16
R70 2k2
15
R71 2k2
T7
TR DUAL P/N
14
R72 2k2
4
3
13
R73 2k2
5
2
12
R74 2k2
6
1
11
R75 2k2
10
R76 2k2
9
R77 2k2
R20
154R
R15
2k2
Q5
R16
1k0
1
5V
T8
BCX54
R17
820R
R18
2k2
R21
154R
4
3
5
2
6
1
R3
820R
4
3
5
2
6
1
2
T2
BCX54
R4
2k2
C1
1u0
50V
1
TOP-RIGHT
4
3
5
2
6
1
R23
1k0
R10
820R
R12
1k0
R11
2k2
C5
1u0
50V
1
TOP-LEFT
R28
100R
R42
100R
4
3
5
2
C3
1u0
50V
2
BOTTOM-RIGHT
R14
100R
-12V
1
6
R31
820R
R33
1k0
1
T14
BCX54
R32
2k2
R35
100R
-12V
D2
BAV99
IC2-2
LM358D
5
6
7
R58
22k
R48
100R
R43
2k2
4
3
5
2
6
1
T21
BCX51
RBH
RBV
R44
1k0
5V
T20
BCX54
R46
2k2
C8
1u0
50V
TILT
Q2
1
2
3
4
5
6
R49
100R
-12V
C6
1u0
50V
2
BOTTOM-LEFT
R55
100R
R50
2k2
T22
TR DUAL P/N
Q7
5V
R67
1k0
RT2
2k2
15V
T15
BCX51
R30
1k0
C7
150n
63V
-12V
R47
1k0
R34
100R
R29
2k2
RT1
2k2
R61
10k
5V
R39
2k2
1
4
R60
10k
T17
BCX54
R45
820R
-12V
1
T5
BCX54
R37
1k0
T19
TR DUAL P/N
2
5V
R25
2k2
T13
TR DUAL P/N
Q4
5V
1
15V
T6
BCX51
R9
1k0
6
8
C11
100n
D1
BAV99
15V
Q6
15V
R13
100R
R8
2k2
2
T18
BCX51
R40
1k0
T12
BCX51
R26
1k0
-12V
T4
TR DUAL P/N
R62
154R
T11
BCX54
R24
820R
R7
100R
R5
1k0
5
R38
820R
R27
100R
R22
2k2
T10
TR DUAL P/N
Q3
5V
3
15V
T3
BCX51
R2
1k0
TOP-BOTTOM
-12V
15V
R6
100R
R1
2k2
C4
1u0
50V
2
4
R69
4k7
R41
100R
R36
2k2
T16
TR DUAL P/N
T9
BCX51
R19
1k0
T1
TR DUAL P/N
R63
154R
C12
10u
50V
-12V
IC1
TDA8447
1
15V
IC2-1
LM358D
3
2
4
3
5
2
6
1
T24
BCX51
R51
1k0
R52
820R
R53
2k2
R54
1k0
5V
T23
BCX54
C9
1u0
50V
R56
100R
-12V
ECN
-
BEAM LANDING COILS
445N
SMK001D
SB5244
01.00
1
Page 3
SMK001D
SB5244
06.99
1
Page 2
445N
PG
Part
NO
Description
SMK001
AQ2435
LM0968
QK1463
BLC BOARD 445N
TPMET. V10 2K2 RM 5X2.5
IC TDA8447 12C BUS 8BIT DAC DI
ROW CONN ’JST’ 1X02 2.5 VERT
QK1703
QK1736
03
SHROUDED HEADER 6POS 2.5 JST V 01
AC4449
AA0673
CHIPRES 0W1 100R 5% 0805 2
CF RES 0W25 1K0 J 2.5--7
01
01
AC4489
AA0705
AC4400
AC4425
AC4497
AC4471
CHIPRES 0W1 4K7 5% 0805 20
CF RES 0W25 22K J 2.5--7
CHIPRES 0W1 0R0 5% 0805 20
CHIPRES 0W1 10R 5% 0805 20
CHIPRES 0W1 10K 5% 0805 20
CHIPRES 0W1 820R 5% 0805 2
01
01
01
01
01
01
AC4473
CHIPRES 0W1 1K0 5% 0805 20
01
AC4481
CHIPRES 0W1 2K2 5% 0805 20
01
AC4505
AG3301
CHIPRES 0W1 22K 5% 0805 20
MF RES 0W5 100R F TC50 2.5
01
01
AG3319
CC3480
CK2664
CK2864
MF RES 0W5 154R F TC50 2.5
PESCAP MKT 1U0 K 50V Y5:0611
01
01
02
05
CN2032
JH0081
JM4123
ELCAP 10U M 50V RM5: 105’ 6
ZDI ZPY 3.9 3.9V 1.3W
TR BCX51 P 45V 1A 1W SOT--89
01
01
04
JM4124
TR BCX54 N 45V 1A 1W SOT--89
04
JM4125
TR DUAL P/N 50V 150MA 300MW SM
02
JF4010
LM4428
DI BAV99 70V 200MA 0.33W SOT--2
IC LM358D DUAL OP AMP
S
02
05
PG Item Number
26
03
12
02
RTK1 RTK2
ICK1
QK3 QK4 QK5 QK6
QK7
QK1
QK2
RK64 RK65
RK2 RK9 RK30 RK37
RK44 RK51 RK67
RK68 RK69
RK59
JK2 JK3 JK22
RK66
RK57 RK60 RK61
RK3 RK10 RK17 RK24
RK31 RK38 RK45 RK52
RK5 RK12 RK16 RK19
RK23 RK26 RK33 RK40
RK47 RK54
RK1 RK4 RK8 RK11
RK15 RK18 RK22 RK25
RK29 RK32 RK36 RK39
RK43 RK46 RK50 RK53
RK70 RK71 RK72 RK73
RK74 RK75 RK76 RK77
RK58
RK6 RK7 RK13 RK14
RK27 RK28 RK34 RK35
RK41 RK42 RK48 RK49
RK55 RK56
RK20 RK21 RK62 RK63
CK2 CK11
CK7
CK1 CK3 CK4 CK5 CK6
CK8 CK9
CK10 CK12
DZK1
TK3 TK6 TK9 TK12
TK15 TK18 TK21 TK24
TK2 TK5 TK8 TK11
TK14 TK17 TK20 TK23
TK1 TK4 TK7 TK10
TK13 TK16 TK19 TK22
DK1 DK2
ICK2
SMK001D
445N
SB5244
1
01.00
Page 1
D/A OUT2
22
21
SDA
SCL
SSOUT
C109
n.c.
20
CLAMPP IN
R117
n.c.
19
C108
n.c.
R6
5R6
R444
100R
R445
100R
C104
n.c.
C106
n.c.
C105
33p
5
4
R320
470k
D305
D307
G
5
6
R323
10k
7
8
R
2
6
10
UC7072
9
R216
470k
R116
560k
C207
10p
R230
22R
C210
1u0
R70
2k2
R60
39k
12
C7
1n0
250V
C211
100n
R222
46k4
C212
1n0
500V
R68
56k
R71
2k7
R67
56k
R66
56k
R57
56k
R59
56k
R58
56k
R69
2k2
12V
C107
10p
11
HEAT
G1
R325
2k7
1
250V
T6
BF423
R221
1k0
T7
BF422
7
9
BAV21
160V
R321
1k0
Q3
3
10
DZ2
8V2
8
1
2
T4
BF423
11
C57
10n
75R0
R102
ST
6
75R0
5
R202
3
75R0
2
R223
10k
R61
39k
EXT 5V
10
11
R62
39k
R225
2k7
5V
VSS SDA
3
4
5
C68
22p
6
7
8
C64
100n
IC1
TC75S57F
GND
9
10
C62
22p
Z1
8MHz
C61
22p
11
12
IREF
AGND ADCREF
SDA
RCI
SCL
GCI
HS
BCI
VS
AVDD
HFLY
OVDD
AV
FBLK
DVDD
BOUT
DVSS
GOUT
XTI
ROUT
XTO
OVSS
160V
80V
R65
39k
R64
39k
R407
22k
24
R130
22R
23
D105
FILTER
22
C110
1u0
250V
C111
100n
21
R122
46k4
20
19
R406 C66
10R 100n
18
C112
1n0
500V
R121
1k0
250V
T8
BF423
17
T9
BF422
16
R123
10k
ECN
445N06
15
14
13
R125
2k7
1N4007
D27
R404
220k
R403
R405
220k
C52
10u
250V
5V
100R
FJ0505
L8
C53
1n0
500V
L5
FJ0505
C58
1n0
500V
L6
FJ0505
2W
SMD 1W
3W etc.
POLYCARBONATE
POLYESTHER
0.25W
0.25W NF
POLYPROPYLENE
0.5W
0.5W NF
CERAMIC
1W
G1
D28
BAV103
1
2
5
4
3
-12V
5V
12V
G1
80V
CLAMP
HEAT
160V
6
9
8
7
HFLY
BCL
11
10
VFLY
13
12
16
14
15
SCL
SDA
18
17
21
19
20
SMD
ELECTROLYTIC
-8V
100R
22
80V
SMD
HEAT
FJ0448
R401
23
160V
12V
C59
1n0
L7
R402
33R
SDA1
SCL1
SELF TEST
HS
VS
4k7
VCC
Q
IN-
26
C3
100n
IN+
R4
R411
100R
R412
100R
C2
100n
24
R1
100k
R3
47k
1
R409
100R
R410
100R
5
C67
22p
R2
220k
R408
2k2
2
6
10u
C63
50V
R12
470R
C65
10n
7
470k
WP# SCL
8
BAV103
VCC
NC VCLK
R120
3
4
2
NC
D107
n.c.
1
2
BAV21
C75
100n
160V
R9
D2
BAT54C
D33
LL4148
IC5
STV9432
D106
R11
100R
R7
2k2
R430
47k
BAV103
1
IC7
24LCS21A
R428
100R
R429
100R
R63
39k
5V1
FR1
R431
100R
R13
5V
25
BLM21P221SG
R5
470R
15
DZ1
14
D3
BAV99
13
5V
SDA1
HS
VS
SCL1
12
D1
BAV99
Q1
B
250V
T5
BF422
IC3
CR6929A/2
R
G
B
R302
1
BAV103
D306
C312
1n0
500V
7
9
C311
100n
R322
46k4
3
C56
1000u
16V
-8V
160V
80V
T15
BFQ131
R115
n.c.
R114
47R
R113
330R
R111
681R
BAV103
R307
1k0
80V
R109
10R
23
GND
VCC
C204
n.c.
24
GND1(R) D/A OUT4
N.C.
R210
1k00
C208
47p
25
OSDIN(R) D/A OUT3
ABL IN
R217
10k
26
5V
R443
100R
18
VCC1(R)
C17
10n
27 1u0
250V
160V
17
D/A OUT1
C206
n.c.
C205
33p
C310
1u0
470k
16
15
IN(R)
T14
BFQ131
8
1
R215
n.c.
R214
68R
R213
330R
R211
681R
R330
22R
R220
C15
100n
GND1(G) RETRBLKIN
28
C1
4
C307
10p
D207
14
OSDIN(G) M.CONTR.C
29
C209
n.c.
R108
22R
R446
10k
R316
C8 470k
n.c.
C9
n.c.
BAV21
C14
100n
OUT(R)
VCC1(G)
30
R209
10R
C306
n.c.
C305
33p
160V
C102
1u0
50V
D101
BAV99
13
M.BRIGHT
C308
n.c.
R8
470R
C202
1u0
50V
12
R442
470R
IN(SOG)
C5
10n
31
R315
n.c.
R314
56R
R313
330R
R311
681R
C304
n.c.
80V
11
32
M.CONTR.R
R310
1k00
R317
n.c.
R208
22R
D205
10
C13
100n
IN(G)
R447
27k
33
BAV103
9
R104
47R
C302
1u0
50V
8
R441
470R
OUT(G)
GND1(B)
34
D206
7
C12
100n
N.C.
GND2
OSDIN(B)
BAV103
6
OUT(B)
VCC1(B)
10n
C6
100V
T13
BFQ131
R308
22R
35
C19
10n
C18
47u
R110
1k00
5
R204
47R
IN(B)
36
R207
1k0
4
VCC2
R107
1k0
3
R440
470R
OSD BLK IN
C44
10n
1
2
C11
100n
R309
10R
C55
10n
C309
n.c.
L1
FJ0505
C43
10n
IC2
M52743BSP
R470
47R
D201
BAV99
R448
100R
C45
10n
16V
R304
47R
12V
12V
5V
C4
100n
D301
BAV99
C54
10u
50V
C16
1000u
Q5
SMY055E
445N
SB5252
01.00
1
Page 5
445N
SMY055E
SB5252
01.00
1
Page 3
Part
NO
Description
PG
Item Number
39
01
04
04
05
02
25
14
15
04
09
03
05
01
01
02
03
01
11
15
04
02
04
RY402
CY110 CY210 CY310
CY52
CY16 CY56
LY7
ICY3
ICY5
ICY2
ZY1
QY3
XH4 XH5
QY5
ICY3
ICY3
CH2
CH3
FOIL
QY1
QH4
QH2
QH3
SGH1 SGH2 SGH3
04
SGH4
QT0217
VIDEO BOARD
445N
MORES 1W0 33R J 4--14
PESCAP MKT 1U0 K 250V Y15 091
ELCAP 10U M 250V RM5 105’ 10
ELCAP 1000U M 16V RM5: 105’11X
CHOKE 13UH FERRITE 2X15
IC CR6929A/2 3--CH CRT DRIVER
IC STV9432/N OSD NOKIA CHAR.
IC M52743BSP 3--CH PREAMPL.SDIP
CRYSTAL 8.00
MHZ HC--49
PCB BLADE CONNECTOR
HEXAGON TORX SCREW UNI6950
SCREW 2,9X10 FE/ZN
CERCAP Y5T 220P M 2KV Y7.5 D
CERCAP 3N3 K 2KV Y7.5
HIGH DENSITY D--14 CONN. FEM VE
CRT SOCKET FOR 19” SONY TRINIT
BASE PIN COPPER 2.35X0.25X13.2
SURGE PROTECTOR 300V R=5.0MM
R
SURGE PROTECTOR 200V R=5.0MM
R
GLIMM LAMP 65V 6*16MM
03
SGH5
AA0649
AA0737
AG1284
AC4419
AC4425
CF RES 0W25 100R J 2.5--7
CF RES 0W25 470K J 2.5--7
MF RES 0W16 75R0 1% TC50
CHIPRES 0W1 5R6 5% 0805 20
CHIPRES 0W1 10R 5% 0805 20
01
01
01
01
01
AC4433
CHIPRES 0W1 22R 5% 0805 20
01
AC4441
CHIPRES 0W1 47R 5% 0805 20
01
AC4443
AC4445
AC4449
CHIPRES 0W1 56R 5% 0805 20
CHIPRES 0W1 68R 5% 0805 20
CHIPRES 0W1 100R 5% 0805 2
01
01
01
AC4461
AC4465
CHIPRES 0W1 330R 5% 0805 2
CHIPRES 0W1 470R 5% 0805 2
01
01
AC4473
CHIPRES 0W1 1K0 5% 0805 20
01
AC4481
AC4483
CHIPRES 0W1 2K2 5% 0805 20
CHIPRES 0W1 2K7 5% 0805 20
01
01
AC4489
AC4497
CHIPRES 0W1 4K7 5% 0805 20
CHIPRES 0W1 10K 5% 0805 20
01
01
AC4505
AC4507
AC4511
CHIPRES 0W1 22K 5% 0805 20
CHIPRES 0W1 27K 5% 0805 20
CHIPRES 0W1 39K 5% 0805 20
01
01
01
AC4513
AC4515
CHIPRES 0W1 47K 5% 0805 20
CHIPRES 0W1 56K 5% 0805 20
01
01
AC4521
AC4529
AC4539
AC4537
AG3401
AG3381
CHIPRES 0W1 100K 5% 0805 2
CHIPRES 0W1 220K 5% 0805 2
CHIPRES 0W1 560K 5% 0805 2
CHIPRES 0W1 470K 5% 0805 2
MF RES 0W5 1K00 F TC50 2.5
MF RES 0W5 681R F TC50 2.5
01
01
01
01
01
01
RY401 RY403 RY448
RY120 RY220 RY320
RY102 RY202 RY302
RY6
RY109 RY209 RY309
RY406
RY108 RY208 RY308
RY130 RY230 RY330
RY104 RY204 RY304
RY114 RY470
RY314
RY214
RY409 RY410 RY411
RY412 RY443 RY444
RY445 RY428 RY429
RY431 RY13
RY113 RY213 RY313
RY440 RY441 RY442
RY8 RY5 RY12
RY107 RY121 RY207
RY221 RY307 RY321
RY7 RY69 RY408 RY70
RY71 RY125 RY225
RY325
RY4
RY123 RY223 RY323
RY446 RY217
RY407
RY447
RY60 RY61 RY62 RY63
RY64 RY65
RY3 RY430
RY57 RY58 RY59 RY66
RY67 RY68
RY1
RY2 RY404 RY405
RY116
RY216 RY316
RY110 RY210 RY310
RY111 RY211 RY311
SMY055
AJ2641
CK0465
CN2040
CN2712
FJ0448
LM1012
LM1021
LM1027
QA0095
QM1008
QK0337
QK1710
WC0036
WC0530
CA0306
CA0350
CC0200
QK1524
QK1607
QK1705
QK1715
QT0051
QT0052
SMY055E
445N
SB5252
1
01.00
Page 1
Part
NO
Description
PG
AG3565
CB3133
CB3137
CB3141
CB3175
CB3639
CC0200
MF RES 0W5 46K4 F TC50 2.5
CHIPCERCAP NP0 1N0 50V J 08
CHIPCERCAP NPO 10P 100V J 0
01
01
01
01
03
01
01
CC3320
CHIPCERCAP X7R 10N 10% 50V 0
01
CC3480
01
CC4898
CK0283
CN2017
CN2032
CN2461
FJ0505
JF0067
JF0072
JF4003
CHIPCERCAP Y5V 1UF Z 25V 1206
ELCAP 1U0 M 50V RM5: 105’ 6
ELCAP 10U M 50V RM5: 105’ 6
ELCAP-- 47U M 100V RM5 105. 10
DI 1N4007 1000V 1A
DI BAV21 200V 250MA 50N
DI BAV103 200V 250MA 50NS SOD
02
02
02
01
04
02
01
01
02
JF4005
JF4010
DI LL4148 75V 150MA 4N (JF400
DI BAV99 70V 200MA 0.33W SOT--2
01
02
JH0103
JH4109
JM0205
JM0244
JM0354
LM4420
LM4471
AB0793
AD0341
AD0349
AD0397
CC0200
CC4917
FA4003
ZDI BZX85B8V2 8.2V 1.3W
ZDI BZX84C5V1 0.225W 5% SOT
TR BF423 P 250V 25MA 6
TR BF422 N 250V 25MA 60M: T
TR BFQ131 N 18V 150MA 4GHZ SO
IC DUAL MODE EEPROM FOR DDC 2.
IC TS75S57F SINGLE COMPAR. SSO
NF RES 0W5 0R47 J 4--11 CF
COMPRES 0W5 10K K 4--11
CHIPCAP X7R 10N 10% 200V 1
CHIP INDUCTOR 200OHM 2A
0
02
03
03
02
04
07
07
01
03
01
01
01
01
01
SMY055E
SB5252
Item Number
RY122 RY222 RY322
CY61 CY62 CY67 CY68
CY105 CY205 CY305
CY208
CY59 CY7
CY107 CY307 CY207
CY53 CY58 CY112
CY212 CY312
CY17 CY43 CY44 CY45
CY55 CY57 CY65 CY5
CY2 CY3 CY4 CY11
CY12 CY13 CY14 CY15
CY64 CY66 CY75
CY1
CY111 CY211 CY311
CY102 CY202 CY302
CY54 CY63
CY18
LY1 LY5 LY6 LY8
DY27
DY107 DY207 DY307
DY28 DY105 DY106
DY205 DY206 DY305
DY306
DY33
DY1 DY3 DY101 DY201
DY301
DZY2
DZY1
TY4 TY6 TY8
TY5 TY7 TY9
TY13 TY14 TY15
ICY7
ICY1
RH5
RH1 RH2 RH3
RH4 RH6
RH7
CH1 CH4
CY6 CY19
FRY1
1
01.00
Page 2
445N
SW1
QG0326
6
5
4
1
2
POWER
3
Q2
1
2
3
4
445N
R1
39k
+
Q1
1
2
SW2
QG0327
R4
8k2
R3
6k8
MENU
3
4
LED1
JL0059
5
6
SW3
QG0327
R2
15k
-
SW4
QG0327
ECN
-
SMZ096B
SB5261
01.00
1
Page 2
X1
Part
NO
Description
PG
Item Number
20
02
03
LEDZ1
SWZ2,SWZ3,SWZ4
QG0326
QM1074
QM1058
KEY BOARD
445N
LED GREEN TLHG6205
5MM
PUSH--BUTTON SWITCH 12V 50MA
42
PUSH--BUTTON SWITCH 30VDC/0.1A
PICOFLEX ASSY BI--IDT 6--POS 300
10
09
06
SWZ1
QZ1
QZ2
AC4493
AC4495
AC4501
AC4511
CHIPRES
CHIPRES
CHIPRES
CHIPRES
01
01
01
01
RZ3
RZ4
RZ2
RZ1
SMZ096
JL0059
QG0327
0W1
0W1
0W1
0W1
6K8
8K2
15K
39K
5%
5%
5%
5%
0805 20
0805 20
0805 20
0805 20
SMZ096B
445N
SB5261
1
01.00
Page 1
Spare Parts
P/N
Production
P/N
Description
445PRO
445N051
21” Nokia 445PRO, 125 Khz (EU)
445PRO
445N059
21” Nokia 445PRO, 125 Khz (US)
445N055
21” Quatographic, 121Khz
445N
Spare Parts
1
Item no
Description
Code
PG
100
Front cover
UM8280A
26
051,059
100
Front cover
UM8280B
26
055
102
Keypad
UT1890
5
103
Power button
UT1877
3
104
Light pipe
UA5706
3
106
Control module
SMZ096
20
107
Demaign coil
FD0217
22
111
Purity coil
FD1000
11
112
Purity coil
FD0103
10
200
Picture tube
NM1057
70
203
Grounding wire
SE2781
4
204
Grounding wire
SE2612
4
205
Grounding wire
UC3016
*
206
Demagn. coil holder
UG1022
3
820
Picture tube screw
WC0543
3
821
Washer
WJ0171
1
822
Friction plate
UL0090
1
Badge NOKIA
UA1243
8
Spare Parts
2
445N
051,059
Item no
Description
Code
PG
300
Frame assmebly
UC7137
21
305
Grounding spring
UC6973
2
306
Insulator
UG1064
7
307
Beam---landing PCB
SMK001
26
308
Slide bar
UG1076
1
400
Main board
SMA251
55
401
Brace
UC7135
*
403
Cooling plate, right
UC7140
*
404
Cooling plate, left
UC7139
*
405
Support frame
UG1050
*
406
Connector panel assembly
UC7141
*
410
Cover video
UC7142
*
411
Video PCB
SMY055
39
413
Base module
SMH163
23
500
Cover shield assembly
UC7138
21
850
Screw
WC0354
*
445N
Spare Parts
3
Item no
Description
Code
PG
600
Back cover
UD0595
32
051,059
600
Back cover
UD0677
31
055
601
Type label
ZZ2889
7
601
Type label
ZZ2902
5
860
Pt screw K40x20 WN 1447
WC0354
*
700
Stand assembly
US0137
19
701
Stand plate
US0137
19
703
Foot pad
UL0702
*
Packing box
ZA2580
16
Side top cushion
ZA6029
18
Side bottom cushion
ZA6028
18
LDPE---Plasticbag
ZA0478
6
Packing box
ZA2604
13
Side top cushion
ZA6035
18
Side bottom cushion
ZA6036
18
LDPE---Plasticbag
ZA0478
6
Power cord
QM0028
14
Signal cable
QM0317
17
Plastic bag
ZA0453
2
Installation guide
ZF5834
4
Owners CD Nokia
ZK0031
11
Power cord
QM0028
14
Signal cable
QM0317
17
Plastic bag
ZA0453
2
Installation guide
ZF5845
7
Owners CD Quatographic
ZK0036
9
Packing materials (Nokia):
Packing materials (Quatographic):
Accessories (Nokia):
Accessories (Quatographic):
Spare Parts
4
445N
* = Not normally supplied as spare part
445N
Spare Parts
5
Spare Parts
6
445N

Contents Chassis 445N 21” High Resolution Colour

Transcription

Similar documents