Electrical diagrams, A rc - a r c, V300-i – Lincoln Electric INVERTEC SVM101-B User Manual
Page 97
ELECTRICAL DIAGRAMS
G-5
V300-I
WIRING DIAGRAM - ENTIRE MACHINE CODE 10037 (L9300)
G-5
NOTE: This diagram is for reference only. It may not be accurate for all machines covered by this manual. The wiring diagram specific to your code is pasted inside one of the enclosure panels of your machine.
E L E C T R IC AL S Y MB OL SP E R E 15 3 7
}
BO A R D
+
{
H 1
18 V
T1
FA N
MOTO R
75
76
77B
G ND
G
F
E
J
A
I
K
C
D
M
L
B
N
H
7 5
76
77
31
32
41
42
2
4
81
82
2 1
GN D
SPARE
42
VA C
N. C .
WI R E
FEEDER
RE M O TE
CONTROL
RECE P TACLE
MIN
12
C1
R 4
R5
25
25W
25
25W
9
5
8
T3
CURRENT
TRANSFORMER
+
1 2
25
25W
25
25W
9
C2
R6
R 7
4
1
1
4
T2
MAIN
TR A N SFOR ME R
R3
R1
7500
25W
9A
OFF ON
H1
T P1
TP3
TP2
I
I
CHOKE
THE R MO STAT
5
8
D 1
D 2
D 3
C H O K E
TP 5
229
B W
T P4
C6
L3
C5
220
2 04 A
76
2 03
2 0 6
227
213
214
22 5
22 6
275D
302
3 0 5
3 0 3
30 4
CO N TR O L
B O A R D
W
B
229
228
2 07
208
276
21 8
7 5
77A
206
2 0 4 A
20 4B
2 1 3
218
1
2
3
77B
77A
27 6
275C
2 7 5B
275A
2 2 8
20 4B
204C
LOC AL
REMOTE
10K
2W
R11
207
208
10K
2W
R12
307
308
309
310
302
303
304
275D
P OWE R
BOARD
2 1 4
2 7 5B
2 2 5
226
2 2 7
27 5C
+5
G N D
D PC
D P 1
IN (+)
IN(-)
M ETER
204C
220
J 3
J4
C O NNEC T OR C A V ITY N UM BE RIN G SEQ U E NCE
( VIEW ED FROM CO M PONENT SI DE OF B OARD)
N O TES:
REMOTE
OU TP UT
C ON TR O L
TR I GG ER
}
INPUT
PE R
N .A .
4 02 , 40 4
401, 403
1, 8
W
R
W
R
R
W
R
W
401, 403
1, 8
4 ,5
P O W ER
S 1
1
}
}
}
}
}
J 3
J5
J4
J1
J 2
2
3
1
7
8
}
}
J7
J 6
285
229
402, 404
42
21
212
285
2 29
+
-
CB1
SW IT C H
+
-
+
-
S W IT C H
4 2 A
W IR EF E E D E R
WE L DING
P OL A R I TY
SW I TCH
AU XI LIARY
TRANSFORMER
2
4
5
6
1
3
N.E.
CW (MA X )
C W( M A X )
9
10
S6
42A
N. C . WI R EF E E D ER SR E Q U I R I N G 24 V A C , U S EP I N S" N " & " C" .
F
F
S
S
S
TO P
OUTSI D E
B O TTOM
IN S I D E
S
S
S
S
F
F
F
T OP
TO P
IN SID E
BO TT OM
O U TSIDE
F
S
7
6
8
4
5
400A
S H U N T
R8
C O NT RO L PA N E L
L AYOUT
CC SO FT
CC CRI S P
C VF C A W
C V G MA W
R 11
O U TPU T
C ON T RO L
S2
M O D E
S W I TCH
S2
MODE SWITCH
R 1 1
O U TPUT C O NTROL
V
A
S3
LOCA L/ R E M O TE
SWI T C H
2
1
211A
3
7
229
2 86
211B
L2
R I G H T
L1
LEFT
203
215
5
CC G TAW
4
B OAR D
1
2
3
4
52
1 4
51
53
14
14
313
J8
P RO T E CT I O N
52
51
53
22 0 0F
450V
N.G.
N. F.
N.G.
2200 F
450V
2 2 4
TP 6
212A
212B
RE MOTE
O N
S4
O UTP U T
TE R MINAL
S WITCH
212
223B
21 2C
150 5 W
FA N
THERM O S TA T
H 2
H 3
H 4
F
B O T TOM
A UX
S
F
B O T TO M
F
S
T O P
AU X
F
223A
212D
501
504
212A
W
V
U
(LE F T )
J 9, J1 0 , J 12
212C
H1
J13
J 12
B O A R D
(R IG H T )
212D
50 3
501
504
0V
24 V
42 V
1
4
5
3
2
1
4
2
3
.0 0 1 /4 00
C 8
R10
.001/400
10
2 W
R 13
C 7
CO LO R CODE:
R=R E D
2 50
25W
6
H5
1
10
12
5
3
4
11
2
9
6
8
8
1 3
12
7
6
14
4
11
10
275F
2
3
301
6
4
7
8
5
210
275A
1
3
4
2
1
2
502
215
306
5
9
223B
50 2
Y
301
D6
D4
D5
J 6
D11
D 12
D10
D9
D8
D 7
N.E.
224
210
6A M P
H 2
H3
H4
A
12B
9B
9B
R9
9A
53
12 A
H 5
311
275F
3 0 6
W
B
G
H 5
A
FOR T HREE P H A SE I N P U T: CONNEC T GREEN L E AD TO G ROUND PER N A TIONAL EL E C TR I C CODE.
C ONNEC T BLACK, R ED & WHITE L E ADS T O S U PPLY C IRCUIT.
WR A PR E D L E A DW I TH T A P E T O PR O V I DE 60 0V .I N S U LA T I ON.
FO R TH R E EP H A SE I N P U T :G R O U N DM A C H I N EP E RN A TIO N A LA N D L O C A L E LECTR I C A L C O D E S .
CONN E C TT E R MI N AL SU ,V&W T O SU P P L Y C I R C U I T .
C O NN E CT TERMI N AL SU& W T OS U P P LY C I R C U I T.
N . D . P L A C E" A " LEA DO N AP P R O P R I A T E C O N NEC T I O NF O R I N P U T VOLT A G E.
C O N N E C T I O N SHO WN I S F O R44 0 - 4 6 0V O P E R A TI O N .
CO N N E CT B L AC K & WH I T EL E AD ST OS U P P L Y C I R C U I T.
5 03A
FO RS I N G LE PHAS EI N P UT : CO NN ECT GR EE NL E A DT OG R O U N DP ER N AT I O N A LE L EC T R I CC O D E.
FOR SIN G LE P H A S E I NPUT: GROUN DM AC H I N EP E R NATIONAL A N DL O C AL E LE C TR I C A L CO D ES .
W =W H IT E
B= B LACK
G= G REE N
Y=Y E LLO W
H6
N .D .
7500
25W
N.H .
R
223A
TH ER MAL
O VE RLOAD
I N D I C ATOR
( V 300-I O N LY)
THE R M AL
OVERLO A D
I ND IC ATOR
(V300-I O NLY)
}
211B
2 .F O R M A C H I N E SN O T SUP P LI E DW I T HI N P U T C A B LE ( V 300 -I )
H1
+ A RC
- A R C
R 12
A RC FORCE
/I N DU C TA N C E
CONTROL
S5
M E TER
FUNCTION
S W I TCH
10
2W
C 4
. 0 0 1 / 4 00
52
H5
H1
H 3
H 3
23 0 V
4 15V
4 40-
4 60 V
200-
2 08 V
2 20 -
3 8 0-
503A
503
R 2
C 3
.0 0 1 /4 00
10
2W
1 0
2 W
YY
Y
Y
305
1
2
3
4
5
6
3 1 4
315
3 1 7
316
J15
1
2
3
4
}
J 14
311
313
N.F.
J2, J 8
A
A
3A M P
SLOW
B LOW
12A
12B
N . A.
1 .F O R M A C H I N E SS UP P L I ED WI T HI N P U T C A B LE ( V 300 -P RO)
N . B . S I N C EC O M P O N E N T S O R CI R CU I T R Y OF AP R I N T E DC I R C U I TB O A R D M A YC H A N G EW I T H O U T A FFE C TIN G
N . E .D 1 T HRU D5 OUTP U T D I O D E SA R E A M A TC H E DS ET .
N .F. R 1, R 9B L E ED E RR E SI S TORS A R EAM A TCH E DS E T .
N . G . C 1 ,C 2C A P A C IT O R SA RE A MA T C H E D SE T.
N . H .P L A C ES W I T C HI N A P P ROPRIATE P O S I T ION F O R INPU T V O LT AGE.
THE I N T ER C H A N G E A BILI T Y O FAC O MPL E TE BOARD, T HIS D IAG R A M MAY N O TS H O W TH EE XA C T
C O MPON E N T S OR CIRCUIT R YH A V I N GAC O M M O N CODE NUMB E R .
D 7 T H R UD 1 1 O U T P U T D IO D E SA R EAM A T C H ED S E T.
C O N N E C T I O NS H O WN I S FO R3 80 - 4 6 0 V O P E R AT I O N .
J 1, J7
51
5
308
30 7
4 , 5
D R IV E R
B OA RD
4
1
6
3
J1 0
25
N.H.
9C
12C
9B
12A
9B
12A
12A
9B
S 7
REC O NN E C T
3 09
3 10
4
1
3
2
}
J 1 1
7
3
2
1
8 1 2 13 14
}
J16
3 1 4
315
31 6
317
9 D
3
6
4
1
J9
2 5
52
12B
12D
9A
9D
12D
12B
310
3 09
CR1
CR2
J5, J 16
J13, J 15
212
212
3 2
J 11, J 1 4
211A
212B
R 1 2
AR C FO R C E / I N D U C TA NC E
C O N TR O L
S5
METE R FU N C TIO N
SWI T C H
S 4
OU TPU T TER MINA L
SW I TCH
S 3
LOC A L / REMOTE
SWI T CH
12 - 2-9 3L
L 93 0 0
A
B
C
12C
9C
9D
12D
D +
F-
9 D
1 2D