Attached Table 2 TIG operation mode code function
34
Code
Operation stipulation
Code
Operation stipulation
0X
Immediate executive code:
Execute order X immediately.
5X
Transfer code in torch trigger operation
condition:
Wait for the torch trigger operation. Stop arc if
triple or quartic operation, turn to next step if
single operation, and if double operation:
X
=
0: Turn to next step
X
≠
0: Turn to Step X (X=0~9)
1X
Executive code in torch trigger
operation condition:
Wait for the torch trigger operation,
and execute order X when pushing
the torch trigger.
6X
Timing executive code:
Wait for the operation time, and during this
period, no influence if single or double
operation, stop arc if triple or quartic operation.
If no operation of the torch trigger and time is
up, execute order X.
2X
Executive code in torch trigger
operation condition:
Wait for the torch trigger operation,
a n d e x e c u t e o r d e r X w h e n
releasing the torch trigger.
7X
Timing transfer code:
Wait for the operation time, and during this
period, turn to next step if single or double
operation, stop arc if triple or quartic operation.
If no operation of the torch trigger:
X
=
0: Turn to next step
X
≠
0: Turn to Step X (X=0~9)
3X
Executive code in torch trigger
operation condition:
Wait for the torch trigger operation.
If single operation, execute order
X. Otherwise, stop arc.
8X
Transfer code with torch trigger state:
X
=
0: Turn to next step immediately
X
≠
0: Turn to Step X if the torch trigger is
pushed. Otherwise, turn to next step. (X=0~9)
4X
Executive code in torch trigger
operation condition:
Wait for the torch trigger operation.
If single operation, no influence; if
double operation, execute order X;
if triple or quartic operation, stop
arc.
9X
Immediate transfer code:
X
=
0: Turn to next step
X
≠
0: Turn to Step X (X=0~9)
The definition of order X:
The definition of order X:
The definition of order X:
The definition of order X:
X
=
0: Turn to next step
X
=
0: Turn to next step
X
=
0: Turn to next step
X
=
0: Turn to next step
X
=
1: Go to the initial current and turn to next step
X
=
1: Go to the initial current and turn to next step
X
=
1: Go to the initial current and turn to next step
X
=
1: Go to the initial current and turn to next step
X
=
2: Go to the preset current and turn to next step
X
=
2: Go to the preset current and turn to next step
X
=
2: Go to the preset current and turn to next step
X
=
2: Go to the preset current and turn to next step
X
=
3: Go to the pilot arc current and turn to next step
X
=
3: Go to the pilot arc current and turn to next step
X
=
3: Go to the pilot arc current and turn to next step
X
=
3: Go to the pilot arc current and turn to next step
X
=
4: Upslope and turn to next step
X
=
4: Upslope and turn to next step
X
=
4: Upslope and turn to next step
X
=
4: Upslope and turn to next step
X
=
5: Stop upslope and turn to next step
X
=
5: Stop upslope and turn to next step
X
=
5: Stop upslope and turn to next step
X
=
5: Stop upslope and turn to next step
X
=
6: Downslope to the pilot arc and turn to next step
X
=
6: Downslope to the pilot arc and turn to next step
X
=
6: Downslope to the pilot arc and turn to next step
X
=
6: Downslope to the pilot arc and turn to next step
X
=
7: Downslope till arc stops and turn to next step
X
=
7: Downslope till arc stops and turn to next step
X
=
7: Downslope till arc stops and turn to next step
X
=
7: Downslope till arc stops and turn to next step
X
=
8: Stop downslope and turn to next step
X
=
8: Stop downslope and turn to next step
X
=
8: Stop downslope and turn to next step
X
=
8: Stop downslope and turn to next step
X
=
9: Stop arc
X
=
9: Stop arc
X
=
9: Stop arc
X
=
9: Stop arc
Содержание JT-200D
Страница 26: ...Electrical schematic 7 25 ...
Страница 27: ...Parts list 8 JT 200D 26 ...
Страница 29: ...JT 315D 28 ...
