Cable Inductance, And Its Effects On Pulse Welding; Negative Electrode Polarity; Voltage Sensing - Lincoln Electric POWER WAVE IM924 Operator's Manual

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CABLE INDUCTANCE, AND ITS EFFECTS
ON PULSE WELDING
For Pulse Welding processes, cable inductance will cause the
welding performance to degrade. For the total welding loop
15.24m (50 ft.)
length less than
may be used without any effects on welding performance. For
the total welding loop length greater than
K1796 Coaxial Welding Cables are recommended. The weld-
ing loop length is defined as the total of electrode cable length
(A) + work cable length (B) + work length (C) (See Figure A.3).
FIGURE A.3
POWER
WAVE
B
For long work piece lengths, a sliding work connection should
be considered to keep the total welding loop length less than
50 feet. (See Figure A.4.)
FIGURE A.4
FIGURE A.4
POWER
WAVE
K1796 COAXIAL CABLE
MEASURE FROM END
OF OUTER JACKET OF
CABLE
Output connections on some Power Waves are made via 1/2-
13 threaded output studs located beneath the spring loaded
output cover at the bottom of the case front.
Most welding applications run with the electrode being posi-
tive (+). For those applications, connect the electrode cable
between the wire feeder and the positive (+) output stud on
the power source (located beneath the spring loaded output
cover near the bottom of the case front). Connect the other
end of the electrode cable to the wire drive feed plate. The
electrode cable lug must be against the feed plate. Be sure
the connection to the feed plate makes tight metal-to-metal
electrical contact. The electrode cable should be sized
according to the specifications given in the work cable con-
nections section. Connect a work lead from the negative (-)
power source output stud to the work piece. The work piece
connection must be firm and secure, especially if pulse weld-
ing is planned.
When welding with the STT process, use the positive output
connection labeled "STT" for STT welding. (If desired ,other
welding modes can be used on this stud; however, the aver-
age output current will be limited to 325 amps.) For non-STT
processes, use the positive output connection labeled "Power
Wave", so that the full output range of the machine is avail-
able.
Do Not connect the STT and Power Wave stud together.
Paralleling the connection will bypass the STT circuitry and
severely deteriorate STT welding performance.
INSTALLATION
, traditional welding cables
15.24m (50 ft.)
, the
A
C
WORK
A A
C WORK C
B B
SLIDING WORK CONNECTION
POWER WAVE 455M/STT (CE)
For additional Safety information regarding the electrode and
work cable set-up, See the standard "SAFETY INFORMA-
TION" located in the front of the Instruction Manuals.
CAUTION
Excessive voltage drops caused by poor work piece con-
nections often result in unsatisfactory welding perform-
ance.
------------------------------------------------------------------------

NEGATIVE ELECTRODE POLARITY

When negative electrode polarity is required, such as in some
Innershield applications, reverse the output connections at
the power source (electrode cable to the negative (-) stud,
and work cable to the positive (+) stud).
When operating with electrode polarity negative the
"Electrode Sense Polarity" DIP switch must be set to the
"Negative" position on the Wire Drive Feed Head PC Board.
The default setting of the switch is positive electrode polarity.
Consult the Power Feed instruction manual for further details.

VOLTAGE SENSING

The best arc performance occurs when the Power Waves
have accurate data about the arc conditions. Depending
upon the process, inductance within the electrode and
work lead cables can influence the voltage apparent at the
studs of the welder. Voltage sense leads improve the
accuracy of the arc conditions and can have a dramatic
effect on performance. Sense Lead Kits (K940-10, -25 or
-50) are available for this purpose.
CAUTION
If the voltage sensing is enabled but the sense leads are
missing, improperly connected, or if the electrode polar-
ity switch is improperly configured, extremely high weld-
ing outputs may occur.
------------------------------------------------------------------------
The ELECTRODE sense lead (67) is built into the control
cable, and is automatically enabled for all semi-automatic
processes. The WORK sense lead (21) connects to the
Power Wave 455M/STT (CE) at the four pin connector locat-
ed underneath the output stud cover. By default the WORK
voltage is monitored at the output stud in the Power Wave
455M/STT (CE). For more information on the WORK sense
lead (21), see "Work Voltage Sensing" in the following para-
graph.
All constant current processes sense the voltage at the out-
put studs of the POWER WAVE 455M/STT (CE) by default.
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