Ultra-cut 400 xt – Tweco 400 XT Ultra-Cut Plasma Cutting System With Automated Gas Control User Manual

ULTRA-CUT 400 XT

Manual 0-5306

APPENDIX

A-57

202-204 Not used. Reserved codes from the earlier product.

205

DC Output Low

DC output (voltage) low means one or more inverter sections are enabled but the output voltage is below a preset voltage.

Shortly after receiving the Start signal from the CNC, but before the end of preflow, both sections of IM#1 are enabled and

CCM measures the power supply output voltage between negative (Torch) to positive (Work) at the output terminals. If

this is less than a set value during preflow or if at any time during piloting or cutting it drops to below that value for a short

time, the inverters are shut off and code 205 is set. 205 will almost always be indicated as an “L”, not an “E” fault because

as soon as it’s detected the inverters are shut off and so no longer have the fault of low output voltage. Currently the low

voltage value is -60VDC.

Causes of 205 code can include shorts outside the plasma power supply, shorts inside the plasma power supply and mea-

surement errors.

a. Short external to the plasma power supply:

• The negative lead goes from the rear of the power supply to the remote arc starter or to the GCM 1000 XT in the case

of the AC 3000 XT.

o Cable pinched in or exiting the power track
o Short inside the Arc Starter such as a wire coming loose and grounding to the chassis.
o Short inside the torch mounting tube.

• Trouble shoot for external negative lead shorts by removing the lead from the rear of the power supply and try to start.

It won’t start but if you get the same 205 code the problem is inside the unit.

b. Short inside the supply:

• All the inverters outputs except that of IM1A are in parallel. If any inverter’s output is shorted it will appear as a short

across the power supply output.

Troubleshoot by removing all (or one at a time) of the inverter output connectors except those on IM1A. Then apply

Start to the unit. If it starts now one of the other inverters had shorted output. To find the defective one reconnect

one at a time until the fault reappears.

206

Not used. Reserved codes from the earlier product.

207

Unexpected Current in the Work Lead.

HCT1, a Hall Effect current sensor on the positive (work buss bar) measures the work lead current. Inverter section 1A is

enabled during preflow time but there should be no current in the work lead before the pilot is ignited and before the arc is

transferred to the work. If current greater than 8A is detected before or during preflow something is wrong.

1. 207 code before START applied:

• Defective work current sensor, HCT1.
• Defective Relay PCB
• Defective CCM

Defective Sensor

• The work current sensor, HCT1, receives power, +15VDC and -15VDC from the Relay PCB. Both must be present for

the sensor to work properly. Measure between Relay PCB TP1 (or J1-4) to J1-1 for +15VDC and to J1-2 for -15VDC.

• If either + or – 15VDC not present remove the J1 connector and repeat the measurement at J1-1 & 2 on the Relay

board. If the voltage is now present the sensor is defective or shorted (the harness may be shorted). If voltages still

not present, the Relay board is defective.

Relay PCB

• Relay board LED D12, Work Current Detected, will light if the current sensor signal exceeds 0.05V. If D12 is on, mea-

sure the sensor output signal at J1-3 with signal common on J1-1. This signal should be 0V +/- 0.04VDC. If greater

than +/- 0.04VDC with no work lead current, the sensor is defective. If the signal voltage is within the limits and D12

is on, then the Relay board is defective.

• If D12 is not on and the 207 code is still active, either the Relay board or the CCM is defective.