a /A"
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£
ELECTROHOME ELECTRONICS
54-7294-01
THIS INFORMATION IS UP TO DATE AS OF MAY 1980
SERVICE AND OPERATION MANUAL
G07-19" R.G.B. COLOUR MONITOR
ELECTROHOME ELECTRONICS
A DIVISION OF CENTRAL ONTARIO TELEVISION LIMITED
A WHOLLY OWNED SUBSIDIARY OF ELECTROHOME LIMITED, KITCHENER, ONTARIO CANADA N2G 4J6
TABLE OF CONTENTS
Description
19" Models
Notes:
Service Data Reference
Warnings
Operating Instructions
Performance and Operating Data . .
Product Safety and Guidelines —
Service Set-Up Procedure
Page
. 3
• 4
. 5
. 5
. 6
. 6
. 7
. 8
Color Service Generator for G07 Monitor 10
CRT PCB Component Layout 11
Main PCB Component Layout 12
Schematic 13
Service Replacement Parts List 14
Purity Shield Parts List 15
CRT Socket PCB Parts List .^ 15
Main PCB Parts List 16
Notes: 18
Notes:
19
■■'%
^ v> S^ j!^ '-^ ■^j^ j-^^
FRONT
G07-904
REAR
FRONT
REAR
G07-907
Service Data Reference
When writing for Service Information, please quote chassis type number and model code: See
chassis type number and model code located on the right hand side panel.
This information is correct as of June 1980.
File Supplementary Model Data with this G07 Manual.
Warnings
1. Power Up Warning
Caution: If the monitor is to be powered up outside of the games console, an isolation
transformer must be used for the AC power source.
2. X-Radiation
This chassis has been designed for minimal x-radiation hazard. However, to avoid possible
exposure to soft x-radiation it is IMPERATIVE that the EHT circuitry IS NOT modified.
3. High Voltage
The colour monitor contains HIGH VOLTAGES derived from power supplies capable of
delivering LETHAL quantities of energy. To avoid DANGER TO LIFE, do not attempt to
service the chassis until all precautions necessary for working on HIGH VOLTAGE
equipment have been observed.
4. CRT Handling
The picture tube encloses a high vacuum and due to the large surface area is subject to
extreme force. Care must be taken not to bump or scratch the picture tube as this may
cause the tube to implode resulting in personal injury and property damage. Shatter-proof
goggles must be worn by individuals while handling the QRT or installing it in the monitor.
Do not handle the CRT by the neck.
5. To prevent fire or shock hazard DO NOT EXPOSE THIS MONITOR TO RAIN OR
MOISTURE.
Operating Instructions
1 . Apply a suitable power source to the monitor through an isolation transformer by means of P901 .
2. Apply a suitable signal source to the monitor PCB by mean of J201.
3. For negative input pulses use J202 D2 for vertical LJ , D3 for Horizontal LJ" .
4. Set up Controls «
All controls are preset at the factory, but may be adjusted to suit program material. Refer to pages
7 and 9 (WHITE BALANCE AND GRAY SCALE TRACKING).
Performance and Operating Data
1.0 Supply
4. Service Set-Up Controls
4.1 81 adjustment, R909 - Set for 81 = 120V DC
4.2 Vertical Linearity, R406
4.3 Vertical hold control, R422
4.4 Horizontal Frequency control, R504
4.5 Vertical Hight control, R408
4.6 Vertical centering tabs, 3 positions
4.7 Horizontal centering tabs, 3 positions
4.8 CRT cut off controls (See fig. 3)
- Red cut off, R114
- Green cut off, R115
- Blue cut off, R113
4.9 Video drive controls (See fig. 3)
- Red drive, R105
- Green drive, R106
4.10 Horizontal width coil, L503
4.11 Focus control R11
4.12 Screen Control
6
MIn, — Max.
Voltage 1 08 VAC - 1 32 VAC
Frequency 44 Hz - 63 Hz
Note: Apply supply voltage through an isolation
transformer with 1 Amp. capability.
2.0 High Voltage (EHT)
For 19"V models 22.5KV -25.5 KV
Note: Condition for above I (beam) =
Bi = 120V
3.0 Input Signal and Pin Assignments for J201
Pin No.
Description
Impedance
Signal Range
1
2
3
4
5
6
Red input
Green input
8 ue input
Ground
Vertica sync pulse
Horizonta sync pu se
5K nom.
5K nom.
5K nom.
35K nom.
35K nom.
to 4V
to 4V
to4V
+2V to +4V
+2V to +4V
D3 D2 D1
H V 1
NEG. SYNC.
J202
J201
WIDTH
COIL L503
P901
FOCUS
^CONTROL
SCREEN
CONTROL
VERTICAL
B+, ADJ. HOLD
R909 R422
ONLY ON 19" MODELS
VERTICAL VERTICAL
LIN. HIGHT
R406 R408
HOR. FREQ,
R504
HORIZ. VERTICAL
CENTERING CENTERING
TABS TABS
Figure 1
Product Safety and Servicing Guidelines
Safety Checks
Subject: Fire and Shock Hazard
1 . No modification of any circuit should be attempted. Service work should be performed only after
you are thoroughly familiar with all of the following safety checks and service guidelines. To do
otherwise increases the risk of potential hazards and injury to the user.
2. When service is required, observe the original lead dress. Extra precaution should be given to
assure correct lead dress in the high voltage circuitry area. Where a short circuit has occurred,
replace those components that indicate evidence of overheating. Always use the manufacturer's
specified replacement component. See parts list in the back of this manual.
3. Periodically check the high voltage for proper value using a meter of known accuracy and
calibration.
4. Check for frayed insulation on wires.
Notes
Service Set-Up Procedure
NOTE: All monitors are equipped with automatic degaus-
sing coils which effectively demagnetize the picture tube
each time the monitor is turned on. The degaussing coils will
operate any time the set is turned on after having been off for
at least five minutes.
The degaussing effect is confined to the picture tube since
the coils are mounted on the ferrous tube shield. Should any
part of the chassis or cabinet become magnetized, it will be
necessary to degauss the affected area by means of a manual
degaussing coil. Move the coil slowly around the CRT face
area, then slowly withdraw for a distance of six feet before
disconnecting the coil from the AC power supply.
Normally little, if any adjustment should be necessary.
However, when a picture tube, yoke or similar component is
replaced, preliminary static convergence should be done
before attempting purity adjustment, and so on.
Set up should be done in a north/south direction. Horizontal
and vertical centering taps should be set to the centre
position if a major component has been changed.
1.0 Purity
1.1 Loosen yoke retaining clamp (figure 2), remove
adhesive material fixing wedges to CRT. Remove
wedges completely and clean off dried adhesive from
picture tube and wedges.
1.2 A small quantity of "nail polish" has been used to lock
the purity convergence rings in place. This seal must
be broken with a sharp tipped instrument before any
adjustments are attempted. Some models also use a
locking ring at either end of the purity and
convergence rings. This must be loosened before
adjustments are made. It goes without saying that
upon completion of all adjustments, the lock must be
reset and/or a dab of paint or nail polish must be re-
applied to edge of rings to prevent movement.
1.3 Connect an appropriate signal source, eg: Electro-
home RGB generator producting a white field plus
individual red, green and blue fields.
1.4 Bring the long and short purity tab protrusions in line
with each other to obtain near-zero magnetic field
(figure 4) (In some cases bring the flat and indented
tabs together to obtain zero field). Protrusions can
then be vertical, horizontal or at any convenient angle
to start.
1.5 Turn off the green and blue fields and adjust setup
controls to produce a red field. (See fig. 3)
1.6 Pull the deflection yoke back so that a red band
appears in the centre of the screen.
1.7 Spread the tabs apart as little as necessary and rotate
both rings together to centerthe red band horizontally
on the face of the CRT (approximate). (See Fig. 5)
1.8 Slide the yoke towards the bell of the picture tube
slowly to obtain a uniform red field (pure in color)
across the entire tube face. Juggle back and forth
slightly as necessary. Lightly tighten yoke retaining
clamp.
1 .9 Momentarily switch on a cross-hatch signal and rotate
yoke to level the pattern on the face of CRT.
1.10 Return generator to regain red raster.
1.11 Turn off red field and check for pure field for each of
the green and blue fields. Reposition yoke if necessary
to obtain optimum purity on all fields.
1.12 Tighten yoke retaining clamp to prevent yoke shift or
rotation. (Do not install wedges at this time.)
YOKE CLAMP SCREW
FROM' PUPITV MAGNETS
4- POLE CONVERGtNCE MAGNETS
_ REARb POLE CaNVEROFNCE MAf,MET-
LOCKING RING ON ?6 INCH WODElS
LOCKING RING ON SOME MODELS
Figure 2
GREEN DRIVE
RED DRIVE
CRT
SOCKET
p. C . B ■-
N
o
El
BLUE CUTOFF VR
U
d
GREEN CUTOFF VR
P
a.
RED CUTOFF VR
BE CAREFUL OF 'B' AND 'b' BOOST VOLTAGES PRESENT ON P. C. B .
Figure 3
[REAR VIEW]
Long and short
protrusions
Short and long
protrusions
Let the protrusions come in line.
Figure 4
[FRONT VIEW]
Red
Centre
Bring the green bar>d to the centre.
Figure 5
8
2.0 Static and Dynamic Convergence
NOTE: Static convergence is achieved by four
magnets located on the neck, nearest the base of the
picture tube, Fig. 2. The middle pair of magnetic rings
are adjusted to converge the blue and red Crosshatch
lines. The rear pair of convergence rings (closest to
the base of the picture tube) are adjusted to converge
the magenta (blue/red) to the green Crosshatch lines.
Dynamic convergence is achieved by tilting the
deflection yoke up-down and left-right.
2.1 Ensure that the controls misadjusted during purity
setup (screen, cut-off, etc.) are set to give white
balance. See 3.0 below.
2.2 Switch generator to the Crosshatch pattern.
2.3 Adjust convergence around the edges of the picture
tube by tilting the yoke up-down and left-right, and
temporarily install one wedge at the top of the yoke or
In a more optimum position. (Figures 8, 9, 10)
2.4 Turn off green input and turn on the red and blue
input.
2.5 Rotate the 4-pole (middle) pair of magnets as a unit to
minimize separation of the red and blue Crosshatch
lines around the center of the screen (Figure 6). Varia-
tion of the angle between the tabs adjusts convergence
of red and blue. (Tilt yoke as required to converge red
and blue at the edges as in 2.3 above.)
2.6 Turn on green input to obtain magenta (red/blue) and
green Crosshatch lines. Rotate the 6-pole (rear) pair of
magnets as a unit to minimize separation of the
magenta and green lines (figure 7). Vary angle
between ttie two tabs and further rotate as a unit to
finalize.
2.7 When converence of 3 colors is optimized (static in
center and dynamic around edges) apply stripe of
paint or nail polish to converence magnet rings to
prevent movement. If applicable, tighten locking ring
carefully.
2.8 Remove temporary wedge from yoke. Tilt yoke in up-
down and left-right direction for best circumference
convergence and install 3 wedges. (It is best to use 3
new wedges since they have adhesive backing. Simply
pull off tape, slide wedge in place and press outer flap
down firmly. For more permanency apply small
quantity of silastic or similar material at junction of
wedges and picture tube. Do not disturb while material
is setting. (Order wedges by part number 39-1 233-01).
3.0 White Balance (Grey Scale Tracking)
Refer to figure 3. Do the following in subdued light:
3.1 Note this adjustment can be accomplished with no
signal connected; eg: input connector open or if a
signal generator is connected, switch off all 3 inputs at
the generator.
3.2 Set red and green drive controls to their mechanical
center and turn the common G2 screen control and 3
cut-off controls to minimum (fully counterclockwise).
3.3 Slowly turn up G2 screen control until the first faint
color appears, then back off to edge of visibility. Do
not touch the associated cut-off control - It should stay
fully COW for the remaining set-up.
3.4 Slowly turn up the other two color cut-off controls in
turn to match the first. This should result in the faintest
grey.
3.5 Turn on the signal generator with all 3 inputs on. (a
Crosshatch pattern would be appropriate).
[FRONT VIEW]
Around
centre
Red
Blue
Let the red and blue lines conne in line by
turning two 4-pole magnets.
Figure 6
[FRONT VIEW]
Green
ArourxJ
centre
Magenta
Let the green and magenta lines come m Ime
by turning two 6-pole magnets.
Figure 7
[REAR VIEW]
Wedge
Def. yoke
Roughly adjust the circumferential con-
vergence and install one wedge temporarily
Figure 8
[FRONT VIEW]
Red Green plue
rN.-y
v/'y
-Red
-Green
-Blue
V
\
\
Blue Green Red
Tilting the yoke upward will move the lines
as shown with the arrows.
Figure 9
Green p.
[FRONT VIEW]
.Blue
-^^^- Green
Tilting the yoke to the right will move the
lines as shown with the arrows.
Figure 10
3.6 Adju'fet the red and green drive controls for "neutral
white" on high white picture areas. Generally these
controls will be left at mech. centre.
3.7 Note: When monitor is re-connected with the game
the screen control (G2) may require a slight
adjustment to obtain proper black level, (the black
portion of picture just extinguished).
[REAR VIEW]
Anode cap
Figure 11
4.0 Power Supply
The regulated +B1 control (R909) has been factory
adjusted and nornjigijly requires no adjustment.
However, if any repairs have been made to the chassis
it is recommended that this adjustment should be
made.
a) Allow 5 minutes to warm up.
b) No signal applied.
c) Connect an accurate D.C. voltmeter to TP-91 or
the emitter of X04 power regulator transistor.
Adjust R909 for 120V. (See fig. 1)
d)
Note:
Should +B1 control be set too high, it may cause
possible component damage. Use an accurate
D.C. voltmeter to set B1 (B+).
5.0 Focus
Adjust focus control for best overall definition and
picture detail an average signal applied. (Highlights
should be favoured.)
6.0 Color Service Generator for G07 Monitor
Electrohome has developed a color service generator that is
specifically designed for use with the G07 color data
monitor. It provides the monitor with both horizontal and
vertical sync, as well as the following test patterns:
1) Fine cross-hatch pattern
2) Broad bar cross-hatch pattern
3) Complete field
Three color selection switches, red, green and blue, provide
the ability to display the above patterns in the three primary
colors as well as the three secondary colors.
This product may be ordered from:
Contracts Marketing
ELECTROHOME Electronics
809 Wellington St. North
Kitchener, Ontario
Canada N2G 4J6
Telephone: (519) 744-7111, Ext. 567
7.0
7.1
7.2
7.3
X-Ray Emission Checic
Assure the power supply B1 is properly adjusted to
120V DC. See Item 4.0 (page 8)
Assure that the anode voltage does not exceed max.
as per Item 2.0 page 4.
Assure that the high voltage hold down circuit is
operating correctly. Use the following procedure.
a) Increase the B1 greater than 138.5V by shorting
collector/emitter of the power regulator, X04.
b) Observe that the anoele voltage (EHT) goes to 0. If
the EHT does not go to 0, a fault must be located
and repaired.
c) Remove short and set should return to normal
operation. (Note, after the short is removed some
monitors may not restart. In this case, remove
power from monitor momentarily and normal
operation will be restored.
Note:
The protector circuit consists of the components
shown below in Fig. 13 with a circuit description.
Bl
I R. 703
I 39 Kohm p 701
+ .-1'^ RD20LV2
\ 7(
2SCi5'.C
R 704
7.68 Kohm
+ .-U
i
C701 R701
100/16 '.. 7 Kohm
R,304
Figure 13
8.0 Circuit Diagram and Description of High Voltage Hold
Down or Safety Circuit
8.1 Circuit Diagram of High Voltage Hold Down Circuit.
8.2 Operation of High Voltage Hold Down Circuit.
The high voltage hold-down circuit protects the high
voltage circuit from dangerous voltage with short
circuiting between emitter and collector of power
regulating transistor.
The base voltage of X701 is increased when the Bl
voltage is increased more than 138.5 V DC.
When the base of X701 is increased, a short is
produced by X701 between pin 11 and ground of IC
501, shutting down the horizontal osc. and high
voltage.
10
CRT. P.C.B. COMPONENT LAYOUT
t
RED ^ BLK E
fr^O 0[
HB
00-18025-06
11
o
>-
<
UJ
z
o
Q.
o
o
QQ
■
■
Q.
rt€«i
/.ith
H.SYNC
V.SYNC
£Ui«SREENffEO XI0I.XI03 ontt X
X04
2SCII06A,2SCI454 ■
POWER REGULATOR tp-e
HOI
220 sow:
UNF.H
X70I X-RAY PROTECTOR
2SC454C or 2SCI685
X50I H. DRIVE XOI H OUT
2SCI507 ®©, 2SC237iV 2SD898 or
2SC26I! or 2SC26I0BK 2SD869 or
2SD820
\ k ^,0 (u-
3CI32A
"tt
ACI20V 60HZ/50HZ
±10%
.XI03 ond XI05 VIDEO AMP. 2SC454C
:.Xt04and XI06 VIDEO AMR 2SA673C
CRT HEATER
00-4147-04
G07-CB0
Schematic Notes
Unless otherwise specified
Resistance: (O) (K— KO, M— M12), 1/4 (W) carbon resistor
Capacitance: 1 or higtier-t- (pF), less than 1-*- (^F)
working voltage-*- 50 (V)
ceramic capacitor
Inductance: (^H)
Electrolytic Cap: Capacitance Value (f'F)/working voltage (V),
NP "^non-polar (or bipolar) electrolytic cap.
Refer to the parts list for additional component information.
^ indicates test point connection
^ indicates chassis ground unless otherwise specified
Hz indicates cycles per second
For safety purposes (and continuing reliability)
A replace all components marked with safety symbol with
identical type.
NOTE: FR — fusible resistor
Parts identification on circuit boards:
e.g. SU1126A (R107 = R1107)
SU3030A (R113 = R3113)
13
REPLACEMENT PARTS LIST
Components identified by the A symbol in the PARTS LIST and on the Schematic have
special characteristics important to safety.
DO NOT degrade the safety of the set through improper servicing.
Abbreviations for Resistors and Capacitors
Resistor
Capacitor
C R
Carbon Resistor
C Cap.
Comp. R
Composition Resistor
M Cap
CM R
Oxide Meta Fi m Resistor
E Cap.
V R
Variab e Resistor
BP E Cap
MF R
Meta Fi m Resistor
CMF R
Coating Metal Fi m Resistor
MM Cap.
UNF R
Nonf ammab e Resistor
PP Cap.
F R
Fusibe Resistor
MPP Cap.
PS Cap
Tan. Cap.
Ceramic Capacitor
Mylar Capacitor •
Electrolytic Capacitor
Bi-Polar (or Non-Polar)
Electrolytic Capacitor
Metalized Mylar Capacitor
Polypropylene Capacitor
Metalized PP Capacitor
Polystyrol Capacitor
Tantal Capacitor
NOTE: When ordering replacement parts please specify the part number as shown inthislistincluding
part name, and model number. Complete information will help expedite the order.
Use of substitute replacement parts which do not have the same safety characteristics as specified,
may create shock, fire or other hazards. For maximum reliability and performance, all parts should be
replaced by those having identical specifications.
SERVICE REPLACEMENT PARTS LIST
Symbol
Description
Main P.C.B. Ass'y
CRT Socket P.C.B. Ass'y
Purity Shield Ass'y
Part Number
SU-1133A
SU-3032A
07-220083-03
14
Outside of the P.C.B. Ass'y
Symbol
A
A
A
R05
C04
X01
X02
SC
SC
WA
Description
Picture Tube 19"
ADeflection Yoke
PC Magnet
AFIyback Transf.
Ahvr
UNF Resistor 220^,25W K
C Capacitor 150pF. AC1.5KV
Si. Transistor
Si. Transistor
Screw #8-%
Screw y^ X % Pix Tube Mtg. (4)
Pyramidal Lock Washer (4)
Nut Retainer, Pix Tube Mtg. (4)
Clip — P.C.B. Support
Standoff
Wire Terminal (Gnd. Strap)
Terminal Lug (Gnd.)
Groundstrap Assy.
Grounding Spring
Wire Hook (Gnd. Strap)
Purity Shield Holddown Clamp
Support Brkt. RH
Support Brkt. LH
Chassis Base
Yoke Wedge (3)
Purity Shield Ass'y- Parts List
Symboi
D911, D912
C911
R921
Description
Degaussing Coil
Rectifier 1 Amp 600V (2)
Pin Terminal (2)
Pin Terminal Housing
Purity Shield (2 pes.)
Purity Shield (2 pes.)
Capacitor lOOnF 10% 400V
Resistor, Wirewound 33 O, 4W
Fire Retardent Term. Strip 4 Lug
CRT Soclcet P.C.B. Ass'y (SU-3032A) Parts List
Resistors
Symboi
R3105
R3106
R3113
R3114
R3115
R3116
R3117
R3118
R3119
R3120
C3121
Capacitors
Symboi
C3107
C3108
Coiis
Symboi
L3101
Description
V
R
200
V
R
200
V
R
5K
V
R
5K
V
R
5K
CM
R
10KS22W J
CM
R
10Kn2W J
CM
R
10K^2W J
Cornp.
R
3.3K^y2W K
Cornp.
R
3.3Kny2W K
Cornp.
R
3.3Kny2W K
Description
E Cap. 10UF250V A
C Cap. lOOOpF DC1400V P
Description
Peaking Coil
Part Number
17-7198-03
A29779-D= 21-141-01
A75034-B = 29-32-01
A29951-B
A46600-A
QRF258K-221
QCZ0101-005
2SD870
^SCIIOSA
31-610818-06
31-601418-12
33-255-01
33-494-01
33-629-02
33-670-01 OR-02
34-228-03
34-33-04
34-574-02
35-212-03
35-3053-02
35-2348-01
35-3890-01
35-3890-02
38-449-02
39-1233-01
Part Number
21-1007-30
28-22-27
34-708-01
34-709-01
35-3847-01
35-3847-02
48-171544-62
42-113301-03
34-492-09
Part' Number
QVZ3234-022
QVZ3234-022
QVZ3234-053
QVZ3234-053
QVZ3234-053
QRG029J-103
QRG029J-103
QRG029J-103
QRZ0039-332
QRZ0039-332
QRZ0039-332
Part Number
QEW53EA-106
QCZ9001-102M
Part Number
QQL043K-101
15
Semiconductors
Symbol
X3101
X3102
X3103
Miscellaneous
Symbol
A
Description
Si. Transistor
Si. Transistor
Si. Transistor
Description
ACRT Socket
Part Numt>er
2SC1514VC
2SC1514VC
2SC1514VC
Part Number
A76068
Main PCB Ass'y (SU-1133A) Parts List
Resistors
Symbol
R1406
R1408
R1410
R1414
R1415
R1421
R1422
iJ^R1401
4JR1503
R1504
R1509
R1512
R1514
R1515
R1522
R1523
R1528
R1534
VR1501
^R1703
i\R1704
i^R1901
R1902
R1903
R1904
R1905
1^01908
i^1909
R1910
i^FR1901
Capacitors
Symbol
CI 301
C1402
CI 407
C1411
C1412
CI 508
i\C1512
i^C1513
^C1514
C1515
C1520
C1523
CI 524
i^C1531
i^C1532
CI 904
CI 905
Description
V R
V R
CMF R
OM R
OM R
OM R
V R
AF R
ACMF R
V R
OM R
OM R
OM R
CMF R
CMF R
OM R
OM R
ZN R
ZN R
ACMF R
ACMF R
APoslstor
UNF R
CMF R
OM R
OM R
ACMF R
V R
ACMF R
AF R
200 n
200^2
6.8f21W J
3.3KniW J
2.7Kr21W J
12Kn2W J
10K«
68^2W K
11.8K^y4W+1%
5Kn
10K^2W J
8.2K^2W J
820 n2W J
8.2niW J
4.7niW J
68 n2W J
390O1W J
39f2y2W+1%
7.68Kny4W+1%
2^7W K
4.7 ^3W J
10KS22W J
18KniW J
47ny2W+1%
2K^
2.74K^y4W+1%
220 ^y2W K
Description
BPE Cap. 3.3uF 50V A
Tan. Cap. 2.2uF 16V K
Cap. 4.7uF 6.3V A
Cap. lOOuF 160V A
Cap. 3.3uF 160V A
Cap. 5600uF 50V J
Cap. 2000pF DC1500V J
Cap. 2000pF DC1500V J
Cap. 2000pF DC1500V J
Cap. 0.53uF DC1200V J
BPE Cap. 3.3uF 50V A
E Cap. luF 160V A
Cap. 0.1 uF 200V K
Cap. 2000pF DC1500V J
Cap. 1500pF DC1500V J
Cap.
Cap. lOuF 250V A
E
E
E
PP
App
App
App
PP
M
APP
App
E
E
Part Number
QVZ3230-002
QVZ3230-002
QRX019J-6R8
QRG019J-332
QRG019J-272
QRG026J-123Z
QVZ3230-014
QRH024K-680M
QRV142F-1182
QVZ3230-053
QRG026J-103Z
QRG026J-822Z
QRG026J-821Z
QRX019J-8R2
QRX019J-4R7
QRG026J-680Z
QRG019J-391
ERZ-C05ZK471
ERZ-C05DK271
QRV122F-3902
QRV142F-7681
A75414
QRF076K-2R0
QRX039J-4R7
QRG026J-103Z
QRG019J-183
QRV122F-470Z
QVP5A0B-023E
QRV142F-274I
QRH124K-221M
Part Number
QEN61HA-335Z
QEE51CK-225B
QEW51JA-475
QEW52CA-107
QEW52CA-335
QFP31HJ-562
QFZ0082-202
QFZ0082-202
QFZ0082-202
QFZ0067-534
QEN61HA-335Z
QEW62CA-105Z
QFM720K-104M
QFZ0082-202
QFZ0082-152
QEY0034-001
QEW52EA-106
16
Coils
Symbol
LI 502
LI 503
LI 504
Transformers
Symbol
T1501
T1503
Semiconductors
Symbol
1C1501
X1 101
X1 102
X1 103
X1 104
X1 105
X1 106
XI 301
X1302
XI 303
XI 304
XI 305
XI 401
XI 402
X1501
X1901
XI 902
D1101
D1102
D1103
D1301
D1401
D1402
D1503
D1504
D1505
D1506
D1507
D1508
^D1701
AD1901
AD1902
AD1903
Ad 1904
AD 1905
Miscellaneous
Symbol
AF1901
AF1902
Description
Linarity Coil
Width Coil
Heater Choke
Description
Hor. Drive Transf.
Side Pin Transf.
Description
IC
Si. Transistor
Si. Transistor
Si. Transistor
Si. Transistor
Si. Transistor
Si. Transistor
Si. Transistor
Si. Transistor
Si. Transistor
Si. Transistor
Si. Transistor
Si. Transistor
Si. Transistor
Si. Transistor
Si. Transistor
Si. Transistor
Si. Diode
Si. Diode
Si. Diode
Si. Diode
Si. Diode
Zener Diode
Si. Diode
Si. Diode
Zener Diode
Si. Diode
Si. Diode
Si. Diode
AZener Diode
ASi. Diode
ASi. Diode
ASi. Diode
ASi. Diode
AZener Diode
Description
APuse 1.25A
AUL Fuse 3A
Part Number
A39835
C30380-A
C30445-A
Part Number
A46022-BM
C39050-A
Part Number
HA11244
2SC1685(R)
2SA673(C)
2SC1685(R)
2SA673(C)
2SC1685(R)
2SA673(C)
2SC1685(R)
2SC1685(R)
2SA673(C)
2SC1685(R)
2SC1685(R)
2SD478
2SD478
2SC2610BK
2SC2688 (K.L.M.)
2SC1890A (E.F.)
W06A
W06A
W06A
1 SZ473H
1 SZ473H
RD10F(C)
HF-1
V09E
RDIIE(B)
W06A
1SS81
1SZ473H
RD20EV2
1 SI 887 A
1 SI 887 A
1S1887A
1 SI 887 A
RD6.8EV3
Part Number
QMF53U1-1R25S
QMF66U1-3R0S
17