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ELECTRICAL DIAGRAMS
G-10
SCHEMATIC - IDLER/CONTROL PC BOARD
50V
0.1
C16
10.0K
R74
16482
M
COM
+ DIODES
PROTECTION
+10V
+10V +10V
COM
+12V
+10V
COM
COM
COM
C11
LM224
X3
4
11
4536B
X4
16
8
5W
10V
DZ6
C19
X2
1
3
LM2901
X1
3
12
NOTES :
75
S15128-11
NUMBER.
ON ALL ANGLES IS + .5 OF A DEGREE
ON 3 PLACE DECIMALS IS + .OO2
MATERIAL TOLERANCE ("t") TO AGREE
ON 2 PLACE DECIMALS IS + .O2
ON HOLES SIZES PER E-2056
Ch’ge.Sht.No.
11-22-96
UNLESS OTHERWISE SPECIFIED TOLERANCE
DR.
I.E.B.
DATE
NOT SHOW THE EXACT COMPONENTS OR CIRCUITRY OF CONTROLS HAVING A COMMON CODE
POWER SUPPLY SOURCE POINT
EARTH GROUND CONNECTION
CHK.
10/13/92
NO.
SCHEMATIC
SHT.
SUP’S’D’G.
M
G8000/RANGER 8 IDLER/FIELD CONTROL
M
16482
COMMON CONNECTION
VOLTAGE NET
SUBJECT
CLEVELAND, OHIO U.S.A.
NONE
THE LINCOLN ELECTRIC CO.
TYPE
EQUIP.
SCALE
N.A. SINCE COMPONENTS OR CIRCUITRY ON A PRINTED CIRCUIT BOARD MAY CHANGE
C-
GENERAL INFORMATION
DIODES =
UNLESS OTHERWISE SPECIFIED)
.022/50V
(
MFD
CAPACITORS =
RESISTORS = Ohms (
1/4W
1A, 400V
WITHOUT AFFECTING THE INTERCHANGEABILITY OF A COMPLETE BOARD, THIS DIAGRAM MAY
(UNLESS OTHERWISE SPECIFIED)
UNLESS OTHERWISE SPECIFIED)
ELECTRICAL SYMBOLS PER E1537
16
74
LABELS
D-
LAST NO. USED
30
FRAME CONNECTION
SUPPLY
R-
PROTECTION
OVERCURRENT
-D
C24
WITH PUBLISHED STANDARDS
C12
1400V
.0047
C8
C10
1N4936
D11
18
15V
C7
22.1K
R42
475
R51
2.94K
R52
FILENAME: M16482_3G
TP-D
J1
11
332
R23
J1
3
J1
9
3A
600V
D9
50V
0.1
C15
500mA
300V
Q6
475
R
47
100
50V
C27
15A
200V
D3
5W
20
R4
5W
20V
DZ7
5W
390
R58
TP-B
5W
20
R5
D15
3A
600V
D13
+
t
60V
.13
R62
J1
4
J1
5
+12V
case
case
COM
+FIELD
#200B
1
7
-FIELD
SOLENOID
MOLEX
IDLE
TO
SWITCH
6
12
#216
#224
TP-A
#215
TO
FLASH
475
R
48
475
R
61
.1
7W
R41
COM
case
+10V
COM
CURRENT AMP.
120
2.5W
R9
J1
2
475
R44
10K
R
45
SWITCH
4.75K
R8
26.7K
R31
681K
R40
4.75K
R34
4.75K
R54
X3
8
9
10
50V
820p
C30
100K
R32
X1
8
14
9
15.0K
R33
475
R50
X1
4
2
5
52.3K
R46
X3
14
13
12
J1
7
C23
10K
R11
10K
R10
-C
J1
1
D12
120
2.5W
R6
1400V
.0047
C9
3A
600V
D10
D7
1400V
.0047
C21
D8
681K
R60
50V
0.1
C13
50V
0.1
C14
4.75K
R7
J1
8
X3
7
6
5
1.8
20V
C22
475
R43
X3
1
2
3
HYSTERESIS
COMCOM
case
case
case
COM
+10V
COM
+10V
+10V
COM
+10V
COM
1.00K
R39
22.1K
R53
50V
0.1
C26
-D
475
R49
3.32K
R20
D1
X5
TL431
REF
8
1
6
5W
.5
R21
COM
3 TURNS
#18 WIRE
- DIODES
-A
SNUBBER
SENSOR
HOLE IN
OVERCURRENT
3.32K
R65
10.0K
R67
13.7K
R13
100V
.047
C3
33.2K
R14
X1
10
13
11
133K
R17
1N4936
D4
X1
1
6
7
47.5K
R18
5W
27V
DZ8
+10V
-C
10K
R16
100
15V
C2
50V
0.1
C29
10.0K
R66
18
15V
C4
68.1
R64
600V
.05
C1
38J
130V
TP1
10.0K
R73
10.0K
R71
10.0K
R72
10.0K
R69
68.1
R63
+
t
56
R3
10.0K
R70
10.0K
R68
J1
6
1N4007
D16
J1
12
SS
4536B
V
V
8
DD
16
A
X4
SET
RESET
IN 1
OUT 1
OUT 2
8 BY-PASS
CLOCK INH
MONO IN
OSC INH
DECODE
D
C
B
1
6
3
11
10
2
13
14
5
12
7
9
4
15
1W
15V
DZ2
X2
10K
R
12
10K
R
15
D
G
S
15A
60V
Q4
26.7K
R19
#201A
1W
15V
DZ3
IRFP250
HEAT SINK
-A
-B
GND
76
REMOTE INPUT
77
5E
-B
S18104-3
39.2K
R29
G
D
S
33A
200V
Q1
50V
0.1
C28
J1
10
1W
27V
DZ5
1.00K
R
56
1W
15V
DZ4
1N4936
D14
600mA
40V
Q3
6.81K
R57
COM
COM
COM
195mA
60V
Q5
9-25-92A
4-16-93H
2-18-94M
8-2-96E
7-18-97E
12-4-97K
7-14-2000D
G-10
NOTE: This diagram is for reference only. It may not be accurate for all machines covered by this manual.
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