Operation, V300 settings, Mig pulser controls and settings – Lincoln Electric MIG PULSER IM555 User Manual

B-3

OPERATION

B-3

V300 SETTINGS

Read and understand the V300 Instruction Manual
before attempting to use the V300/MIG Pulser system.
Also refer to figure A.2 in the Installation chapter.

The V300 must be set to the TIG Mode when using the
MIG Pulser. This is because pulse welding is a current
controlled process, not a constant voltage process like
straight GMAW.

By using the GTAW position, the

V300 is placed in a current control mode, and the Arc
Force/Inductance control is made inactive.

The Wire Feeder Voltmeter Switch on the back of the
V300 must be set to the “-” position (normally called the
“electrode negative” position) although the MIG Pulser
is used for electrode positive welding.

The setting

allows the MIG Pulser to sense arc voltage.

The V300 Local/Remote Switch must be set to Remote
Control. This allows the MIG Pulser to control the V300
output. The Output Control on the V300 is not func-
tional in the Remote Control mode.

Other V300 settings should be made according to the
installation conditions and the wire feeders used.

MIG PULSER CONTROLS AND
SETTINGS

The MIG Pulser has three adjustments, consisting of
two switches (Peak Current and Background Current)
and one knob (Arc Length). See figure B.1.

OPERATION GUIDELINES

The suggested steps for initially establishing a welding
procedure are as follows:

1. Set the Peak Current to Low, Background Current to

Normal, and Arc Length to minimum.

2. Set the desired wire feed speed on the feeder

3. Pull the gun trigger to establish an arc. Increase the

Arc Length setting until a stable arc is present. (If
the arc will not start with the Arc Length set to min-
imum, raise the Arc Length until a good start
occurs.)

4. Once a stable arc is established, the Peak Current

level can be increased, resulting in a broader, soft-
er arc. This might be useful for out of position work,
or for low travel speeds. Conversely, for faster trav-
el speeds, lower Peak Current settings are recom-
mended.

5. The Background Current affects the overall heat

input to the weld. It also can affect arc stability. Too
low of a Background Current can lead to a “pop-
ping” arc.

Adjusting the Peak Current, Background Current or
Arc Length will lead to changes that can be both seen
and heard in the arc. It is best to experiment with var-
ious settings to familiarize yourself with their effects.

If the wire feed speed is changed at the wire feeder, it
is typical to need to raise the Arc length setting also. If
the wire feed speed is increased a great deal, it may be
necessary to increase the Peak Current setting as well.

Changes in wire size require similar procedural
changes. Larger wire sizes require higher Arc Length
settings, and possibly higher Peak Currents.

Note that a sound weld with good operator appeal can
be achieved with more than one combination of set-
tings. For instance, raising the Peak Current one posi-
tion typically raises the arc length, causing a definite
change in the sound of the weld.

The MIG Pulser is based on “adaptive” principles.

In

an adaptive pulser, many variables can affect the arc
length: Stick-out, gun position, weld position, gas mix-
ture, electrode composition, electrode surface condi-
tion, the switch settings and the Arc Length control. All
of these conditions feed back into the circuitry allowing
the MIG Pulser to adapt the arc length to the welding
conditions.

MIG PULSER

Figure B.1 MIG PULSER Controls

LOW MED. HIGH

PEAK AMPS

BACKGROUND
AMPS

NORMAL HIGH

ARC LENGTH