There is one switch board in the POWER WAVE
355M/405M. This board incorporates two pairs of
input capacitors, two insulated gate bipolar transistor
(IGBT) switching circuits, a fan motor drive circuit, and
a voltage/frequency capacitor feedback circuit. The
two capacitors in a pair are always in series with each
other. When the reconnect switch is in the lower volt-
age position the capacitor pairs are in parallel - that is,
two series capacitors in parallel with two series capac-
itors. When the reconnect switch is in the high voltage
position the two capacitor pairs are in series or, four
capacitors in series. This is required to accommodate
the higher input voltages.

When the input capacitors are fully charged they act
as power supplies for the IGBT switching circuits.
When welding output is required the Insulated Gate
Bipolar Transistors switch the DC power from the input
capacitors, "on and off" thus supplying a pulsed DC
current to the main transformer primary windings. See
IGBT Operation Discussion and Diagrams in this
section. Each IGBT switching circuit feeds current to
a separate, oppositely wound primary winding in the
main transformer. The reverse directions of current
flow through the main transformer primaries and the
offset timing of the IGBT switching circuits induce an

AC square wave output signal at the secondary of the
main transformer. The two current transformers (CT)
located on the switch board monitor these primary
currents. If the primary currents become abnormally
high the control board will shut off the IGBTs, thus dis-
abling the machine output. The DC current flow
through each primary winding is clamped back to
each respective input capacitor when the IGBTs are
turned off. This is needed due to the inductance of the
transformer primary winding. The firing of the two
switch boards occurs during halves of a 50 microsec-
ond interval, creating a constant 20 KHZ output. In
some low open circuit Tig modes the firing frequency
is reduced to 5KHZ.

The POWER WAVE 355M/405M has a F.A.N. (fan as
needed) circuit. The fan operates when the welding
output terminals are energized or when a thermal over
temperature condition exists. Once the fan is activat-
ed it will remain on for a minimum of five minutes. The
fan driver circuit is housed on the switch board but it
is activated by a signal from the control board.

FIGURE E.3 – SWITCH BOARD & MAIN TRANSFORMER

Control Board

Choke

Positive

Output

Terminal

Negative

Output

Terminal

To Control

Board

C
u

Reconnect

Switch

Input switch

Input

Rectifier

Auxiliary

Transformer

Fan

Power

Board

220

Receptacle

RS232 Supply +5VDC

Machine Control Supply

+15VDC, -15VDC, +5VDC

40VDC

42VAC

220 VAC

Main Switch Board

115VAC Fan Supply

V/F Capacitor Feedback (2)

Soft Start Control

Input Relay Control

Primary Current Feedback(2)

riv

Primary

Current

Sensor

Primary

Current

Sensor

{

a
v
e

4
0
5

o
n

Bus

Board

Wire

Feeder

Recp.

40VDC

Can Supply +5VDC

Arc

Link

Electrode

Sense

21 Lead

Voltage

Sense

Recp.

R232

Connector

Yellow

Thermal

LED

Status

Red/Green

LED

Thermostats

Feeder

NOTE: Unshaded areas of Block Logic

Diagram are the subject of discussion

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