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Visit our website at
www.MillerWelds.com
TM-2247A October 2004
Eff w/Serial Number LE073174
XMT 350 CC/CV
Auto-Line
Arc Welding Power Source
Processes
Description
Multiprocess Welding
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TABLE OF CONTENTS
SECTION 1 SAFETY PRECAUTIONS FOR SERVICING 1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1-1. Symbol Usage 1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1-2. Servicing Hazards 1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1-3. California Proposition 65 Warnings 2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1-4. EMF Information 2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
SECTION 2 INTRODUCTION 3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2-1. Specifications 3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2-2. Volt-Ampere Curves 3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2-3. Duty Cycle And Overheating 4. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
SECTION 3 INSTALLATION 5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3-1. Selecting a Location 5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3-2. Connecting 1-Phase Input Power 6. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3-3. Connecting 3-Phase Input Power 7. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3-4. Electrical Service Guide 8. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3-5. Weld Output Receptacles And Selecting Cable Sizes 8. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3-6. Remote 14 Receptacle Information 9. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3-7. Optional 115 Volts AC Duplex Receptacle And Circuit Breakers 9. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3-8. Optional Gas Valve Operation And Shielding Gas Connection 10. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3-9. Enabling Low Open Circuit Voltage Stick Mode (Optional) 11. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
SECTION 4 OPERATION 12. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4-1. Front Panel Controls 12. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4-2. Meter Functions 13. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4-3. Mode Switch Settings 13. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4-4. Lift-Arc TIG Procedure 14. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4-5. Stick Start Procedure 14. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
SECTION 5 EXPLANATION OF ELECTRICAL PARTS 15. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
SECTION 6 THEORY OF OPERATION 22. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
SECTION 7 TROUBLESHOOTING 25. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
7-1. Checking Unit Before Applying Power 25. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
7-2. Pre-Power Flowchart 26. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7-3. Measuring Input Capacitor Voltage 27. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
7-4. Input Pre-Regulator Module (MOD1) 28. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
7-5. Input Pre-Regulator Module (MOD1) Test Point Values 28. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
7-6. Inverter Module (MOD2) 29. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
7-7. Inverter Module (MOD2) Test Point Values 29. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
7-8. Power Switch (S1) 30. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
7-9. Output Diodes D1, D2 31. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
7-10. Output Diodes D1, D2 Test Point Values 31. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
7-11. Stick Boost Rectifier (SR1) 32. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
7-12. Stick Boost Rectifier (SR1) Test Point Values 32. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
7-13. Control/Auxiliary Power Board PC1 Auxiliary Power Circuit 34. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
7-14. Control/Auxiliary Power Board PC1 Auxiliary Power Circuit Test Point Values 35. . . . . . . . . . . . . . . . . .
7-15. Control/Auxiliary Power Board PC1 Pre-Regulator Control Circuit 36. . . . . . . . . . . . . . . . . . . . . . . . . . .
7-16. Control/Auxiliary Power Board PC1 Pre-Regulator Control Circuit Test Point Values 37. . . . . . . . . . . .
7-17. Control/Auxiliary Power Board PC1 Inverter Control Circuit 38. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
7-18. Control/Auxiliary Power Board PC1 Inverter Control Circuit Test Point Values 39. . . . . . . . . . . . . . . . . .
7-19. Power Interconnect Board (PC2) 40. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
7-20. Power Interconnect Board (PC2) Test Point Values 41. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
7-21. Troubleshooting Table 42. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
7-22. Voltmeter/Ammeter Diagnostics 44. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
7-23. Troubleshooting Circuit Diagram 46. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
7-24. Control/Auxiliary Power Board PC1 Testing Information (Use with Section 7-25) 48. . . . . . . . . . . . . . . . .
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TABLE OF CONTENTS
7-25. Control/Auxiliary Power Board PC1 Test Point Values 49. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
7-26. Power Interconnect Board PC2 Testing Information (Use with Section 7-27) 52. . . . . . . . . . . . . . . . . . . .
7-27. Power Interconnect Board PC2 Test Point Values 53. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
7-28. Front Panel/Display Board PC3 Testing Information (Use with Section 7-29) 55. . . . . . . . . . . . . . . . . . . .
7-29. Front Panel/Display Board PC3 Test Point Values 56. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
7-30. Checking Unit Output After Servicing 57. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
SECTION 8 MAINTENANCE 58. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
8-1. Routine Maintenance 58. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
8-2. Blowing Out Inside Of Unit 58. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
SECTION 9 ELECTRICAL DIAGRAMS 59. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
SECTION 10 PARTS LIST FOR LE073174 AND FOLLOWING 68. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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TM-2247 Page 1XMT 350 Auto Line
SECTION 1 SAFETY PRECAUTIONS FOR SERVICING
1-1. Symbol UsageOM-2247-A, safety_stm 8/03
Means Warning! Watch Out! There are possible hazardswith this procedure! The possible hazards are shown inthe adjoining symbols.
Marks a special safety message.
Means Note; not safety related.
This group of symbols means Warning! Watch Out! possible
ELECTRIC SHOCK, MOVING PARTS, and HOT PARTS hazards.Consult symbols and related instructions below for necessary actionsto avoid the hazards.
1-2. Servicing Hazards
The symbols shown below are used throughout this manual tocall attention to and identify possible hazards. When you seethe symbol, watch out, and follow the related instructions toavoid the hazard.
Only qualified persons should service, test, maintain, and re-pair this unit.
During servicing, keep everybody, especially children, away.
ELECTRIC SHOCK can kill.
Do not touch live electrical parts.
Turn Off welding power source and wire feederand disconnect and lockout input power using
line disconnect switch, circuit breakers, or by removing plug from re-ceptacle, or stop engine before servicing unless the procedure spe-cifically requires an energized unit.
Insulate yourself from ground by standing or working on dry insulat-ing mats big enough to prevent contact with the ground.
Do not leave live unit unattended.
If this procedure requires an energized unit, have only personnelfamiliar with and following standard safety practices do the job.
When testing a live unit, use the one-hand method. Do not put bothhands inside unit. Keep one hand free.
Disconnect input power conductors from deenergized supply lineBEFORE moving a welding power source.
SIGNIFICANT DC VOLTAGE exists after removal ofinput power on inverters.
Turn Off inverter, disconnect input power, and discharge inputcapacitors according to instructions in Maintenance Section beforetouching any parts.
STATIC (ESD) can damage PC boards.
Put on grounded wrist strap BEFORE handlingboards or parts.
Use proper static-proof bags and boxes tostore, move, or ship PC boards.
FIRE OR EXPLOSION hazard.
Do not place unit on, over, or near combustiblesurfaces.
Do not service unit near flammables.
FLYING METAL can injure eyes.
Wear safety glasses with side shields or faceshield during servicing.
Be careful not to short metal tools, parts, orwires together during testing and servicing.
HOT PARTS can cause severe burns.
Do not touch hot parts bare handed.
Allow cooling period before working on weldinggun or torch.
EXPLODING PARTS can cause injury.
Failed parts can explode or cause other parts toexplode when power is applied to inverters.
Always wear a face shield and long sleeveswhen servicing inverters.
SHOCK HAZARD from testing.
Turn Off welding power source and wire feederor stop engine before making or changing me-ter lead connections.
Use at least one meter lead that has a self-retaining spring clip such as an alligator clip.
Read instructions for test equipment.
FALLING UNIT can cause injury.
Use lifting eye to lift unit only, NOT runninggear, gas cylinders, or any other accessories.
Use equipment of adequate capacity to lift andsupport unit.
If using lift forks to move unit, be sure forks arelong enough to extend beyond opposite side ofunit.
MOVING PARTS can cause injury.
Keep away from moving parts such as fans.
Keep all doors, panels, covers, and guardsclosed and securely in place.
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TM-2247 Page 2 XMT 350 Auto Line
MOVING PARTS can cause injury.
Keep away from moving parts.
Keep away from pinch points such as driverolls.
MAGNETIC FIELDS can affect pacemakers.
Pacemaker wearers keep away from servicingareas until consulting your doctor.
OVERUSE can cause OVERHEATING.
Allow cooling period; follow rated duty cycle.
Reduce current or reduce duty cycle beforestarting to weld again.
Do not block or filter airflow to unit.
H.F. RADIATION can cause interference.
High-frequency (H.F.) can interfere with radionavigation, safety services, computers, andcommunications equipment.
Have only qualified persons familiar withelectronic equipment install, test, and serviceH.F. producing units.
The user is responsible for having a qualified electrician prompt-ly correct any interference problem resulting from the installa-tion.
If notified by the FCC about interference, stop using theequipment at once.
Have the installation regularly checked and maintained.
Keep high-frequency source doors and panels tightly shut, keepspark gaps at correct setting, and use grounding and shielding tominimize the possibility of interference.
READ INSTRUCTIONS.
Use Testing Booklet (Part No. 150 853) whenservicing this unit.
Consult the Owners Manual for welding safetyprecautions.
Use only genuine replacement parts.
1-3. California Proposition 65 Warnings
Welding or cutting equipment produces fumes or gases whichcontain chemicals known to the State of California to causebirth defects and, in some cases, cancer. (California Health &Safety Code Section 25249.5 et seq.)
Battery posts, terminals and related accessories contain leadand lead compounds, chemicals known to the State ofCalifornia to cause cancer and birth defects or otherreproductive harm. Wash hands after handling.
For Gasoline Engines:
Engine exhaust contains chemicals known to the State ofCalifornia to cause cancer, birth defects, or other reproductiveharm.
For Diesel Engines:
Diesel engine exhaust and some of its constituents are knownto the State of California to cause cancer, birth defects, andother reproductive harm.
1-4. EMF InformationConsiderations About Welding And The Effects Of Low FrequencyElectric And Magnetic Fields
Welding current, as it flows through welding cables, will cause electro-magnetic fields. There has been and still is some concern about suchfields. However, after examining more than 500 studies spanning 17years of research, a special blue ribbon committee of the NationalResearch Council concluded that: The body of evidence, in thecommittees judgment, has not demonstrated that exposure to power-frequency electric and magnetic fields is a human-health hazard.However, studies are still going forth and evidence continues to beexamined. Until the final conclusions of the research are reached, youmay wish to minimize your exposure to electromagnetic fields whenwelding or cutting.
To reduce magnetic fields in the workplace, use the followingprocedures:
1. Keep cables close together by twisting or taping them.
2. Arrange cables to one side and away from the operator.
3. Do not coil or drape cables around your body.
4. Keep welding power source and cables as far away from opera-tor as practical.
5. Connect work clamp to workpiece as close to the weld as possi-ble.
About Pacemakers:
Pacemaker wearers consult your doctor first. If cleared by your doctor,then following the above procedures is recommended.
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TM-2247 Page 3XMT 350 Auto Line
SECTION 2 INTRODUCTION
2-1. Specifications
In ut Volta eAmperageRan e in
Max.Open-Circuit
RMS Amps Input at Rated Load Output,60 Hz 3-Phase at NEMA Load Voltages
and Class I Ratingnpu
Power Rated Outputo age
Range in CV Modeange n
CC Modercu
Voltage 208 V 230 V 400 V 460 V 575 V KVA KW
3-Phase 350 A at 34VDC, 60%Duty Cycle
1038 V 5425 A 75 VDC 40.4 36.1 20.6 17.8 14.1 14.2 13.6
1-Phase 300 A at 32VDC, 60%
Duty Cycle*
60.8 54.6 29.7 25.4 19.9 11.7 11.2
*See Section 2-3 for Duty Cycle Rating.
2-2. Volt-Ampere Curves
217 836-A / 217 837-B
Volt-ampere curves show minimumand maximum voltage and amper-age output capabilities of weldingpower source. Curves of other set-tings fall between curves shown.
0
10
20
30
40
50
60
70
80
90
100
0 100 200 300 400 500
50%
75%100%
25%0%
AMPERAGE
VOLTS
A. CC Mode
GTAWMAX
SMAWMAX
SMAW80A
ARCCONTROL
GTAWMN
0
10
20
30
40
50
60
70
80
90
100
0 100 200 300 400 500
VOLTS
B. CV Mode
AMPERAGE
MAX
MIN
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TM-2247 Page 4 XMT 350 Auto Line
6 Minutes Welding 4 Minutes Resting
2-3. Duty Cycle And Overheating
Duty Cycle is percentage of 10 min-utes that unit can weld at rated loadwithout overheating.
If unit overheats, output stops, aHelp message is displayed andcooling fan runs. Wait fifteen min-utes for unit to cool. Reduce amper-age or voltage, or duty cycle beforewelding.
Single Phase Operation: Theunit is supplied with a 8 AWG
power cord. The rated outputwith 8 AWG is 300 amps, 32volts at 40% duty cycle. To
achieve 60% duty cyclechange cord to 6 AWG.
Exceeding duty cycle candamage unit and voidwarranty.
60% Duty Cycle
Overheating0
15
A or V
ORReduce Duty CycleMinutes
Ref. 216 568-A
Notes
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TM-2247 Page 5XMT 350 Auto Line
SECTION 3 INSTALLATION
3-1. Selecting a Location
loc_2 3/96 - Ref. ST-151 556 / Ref. 803 691-A
1 Lifting Handles
Use handles to lift unit.
2 Hand Cart
Use cart or similar device to moveunit.
3 Rating Information
Use rating information on rear panelto determine input power needs.
4 Line Disconnect Device
Locate unit near correct inputpower supply.
Special installation may berequired where gasoline orvolatile liquids are present see NEC Article 511 or CECSection 20.
24 in
(610 mm)
17 in(432 mm)
12-1/2 in(318 mm)
Movement
1
2
Do not move or operate unitwhere it could tip.
Location4
3
Dimensions And Weight
18 in(460 mm)
18 in(460 mm)
80 lb (36.3 kg)93.5lb (42.4kg) w/optional 115 VAC
1
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TM-2247 Page 6 XMT 350 Auto Line
3-2. Connecting 1-Phase Input Power
2/04 - Ref. 802 136-A
Installation must meet all Na-tional and Local Codes haveonly qualified persons makethis installation.
Disconnect and lockout/tag-out input power before con-necting input conductors fromunit.
Always connect green orgreen/yellow conductor tosupply grounding terminalfirst, and never to a line termi-nal.
The Auto-Line circuitry in this unitautomatically adapts the powersource to the primary voltage be-ing applied. Check input voltageavailable at site. This unit can beconnected to any input power be-tween 208 and 575 VAC without
removing cover to relink the pow-er source.
1 Black And White InputConductor (L1 And L2)
2 Red Input Conductor
3 Green Or Green/YellowGrounding Conductor
4 Insulation Sleeving
5 Electrical Tape
Insulate and isolate red conductor asshown.
6 Input Power Cord.
7 Disconnect Device (switchshown in the OFF position)
8 Disconnect Device GroundingTerminal
9 Disconnect Device LineTerminals
Connect green or green/yellow
grounding conductor to disconnectdevice grounding terminal first.
Connect input conductors L1 and L2to disconnect device line terminals.
10 Overcurrent Protection
Select type and size of overcurrentprotection using Section 3-4(fuseddisconnect switch shown).
Close and secure door on disconnectdevice. Remove lockout/tagout de-vice, and place switch in the On posi-tion.
7
6
L1L2
1
=GND/PEEarth
Ground
3
1
8
9
10
Tools Needed:
1
6
54
2
3
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TM-2247 Page 7XMT 350 Auto Line
3-3. Connecting 3-Phase Input Power
2/04 - Ref. 802 136-A
Installation must meet all Nationaland Local Codes have only quali-fied persons make this installation.
Disconnect and lockout/tagout in-put power before connecting inputconductors from unit.
Always connect green or green/yellow conductor to supplygrounding terminal first, and neverto a line terminal.
The Auto-Line circuitry in this unit au-tomatically adapts the power sourceto the primary voltage being applied.Check input voltage available at site.This unit can be connected to any in-
put power between 208 and 575 VACwithout removing cover to relink the
power source.
For Three-Phase Operation
1 Input Power Cord.
2 Disconnect Device (switch shown inthe OFF position)
3 Green Or Green/Yellow GroundingConductor
4 Disconnect Device GroundingTerminal
5 Input Conductors (L1, L2 And L3)
6 Disconnect Device Line Terminals
Connect green or green/yellow groundingconductor to disconnect device groundingterminal first.
Connect input conductors L1, L2, and L3to disconnect device line terminals.
7 Overcurrent Protection
Select type and size of overcurrent protec-tion using Section 3-4(fused disconnectswitch shown).
Close and secure door on disconnectdevice. Remove lockout/tagout device,and place switch in the On position.
= GND/PE Earth Ground
L1
2
1
L2
L3
3
3
4
5
6
7
Tools Needed:
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TM-2247 Page 8 XMT 350 Auto Line
3-4. Electrical Service Guide
Single-Phase
Input Voltage 208 230 400 460 575
Input Amperes At Rated Output 60.8 54.6 29.7 25.4 19.9
Max Recommended Standard Fuse Rating In Amperes1
Time-Delay 2 70 60 35 30 25
Normal Operating 3 80 80 45 40 30
Min Input Conductor Size In AWG/Kcmil 4 8 8 10 12 12
Max Recommended Input Conductor Length In Feet (Meters)72
(22)89
(27)176(54)
140(43)
219(67)
Min Grounding Conductor Size In AWG/Kcmil4 8 8 10 12 12
Three-Phase
Input Voltage 208 230 400 460 575
Input Amperes At Rated Output 40.4 36.1 20.6 17.8 14.1
Max Recommended Standard Fuse Rating In Amperes1
Time-Delay 2 45 40 25 20 15
Normal Operating 3 60 50 30 25 20
Min Input Conductor Size In AWG/Kcmil4 8 10 12 14 14
Max Recommended Input Conductor Length In Feet (Meters)119(36)
96(29)
175(53)
150(46)
234(71)
Min Grounding Conductor Size In AWG/Kcmil 4 10 10 12 14 14
Reference: 2003 National Electrical Code (NEC)
1 Consult factory for circuit breaker applications.
2 Time-Delay fuses are UL class RK5 .3 Normal Operating (general purpose - no intentional delay) fuses are UL class K5 (up to and including 60 amp), and UL class H (65 amp and
above).4 Conductor data in this section specifies conductor size (excluding flexible cord or cable) between the panelboard and the equipment per NEC Table
310.16. If a flexible cord or cable is used, minimum conductor size may increase. See NEC Table 400.5(A) for flexible cord and cable requirements.
3-5. Weld Output Receptacles And Selecting Cable Sizes
Total Cable (Copper) Length In Weld Circuit Not Exceeding
100 ft (30 m) Or Less150 ft(45 m)
200 ft(60 m)
250 ft(70 m)
300 ft(90 m)
350 ft(105 m)
400 ft(120 m)
Weld OutputTerminals
WeldingAmperes
10 60%DutyCycle
60 100%DutyCycle
10 100% Duty Cycle
100 4 4 4 3 2 1 1/0 1/0
150 3 3 2 1 1/0 2/0 3/0 3/0
+ 200 3 2 1 1/0 2/0 3/0 4/0 4/0
250 2 1 1/0 2/0 3/0 4/0 2-2/0 2-2/0
300 1 1/0 2/0 3/0 4/0 2-2/0 2-3/0 2-3/0
350 1/0 2/0 3/0 4/0 2-2/0 2-3/0 2-3/0 2-4/0
400 1/0 2/0 3/0 4/0 2-2/0 2-3/0 2-4/0 2-4/0
Output Receptacles 500 2/0 3/0 4/0 2-2/0 2-3/0 2-4/0 3-3/0 3-3/0
600 3/0 4/0 2-2/0 2-3/0 2-4/0 3-3/0 3-4/0 3-4/0
Weld cable size (AWG) is based on either a 4 volts or less drop or a current density of at least 300 circular mils per ampere. S-0007-D
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3-6. Remote 14 Receptacle Information
Socket* Socket Information
24 VOLTS ACA 24 volts ac. Protected by circuit breaker CB2.
A JK I
B Contact closure to A completes 24 volts accontactor control circuit.
C L N H 115 VOLTS ACI 115 volts ac. Protected by circuit breaker CB1.
D M G
E F
J Contact closure to I completes 115 volts accontactor control circuit.
C Output to remote control; 0 to +10 volts dc, +10volts dc in MIG mode.
REMOTE D Remote control circuit common.
OUTPUTCONTROL E 0 to +10 volts dc input command signal from
remote control.
M CC/CV select
A/VF Current feedback; +1 volt dc per 100 amperes.
AMPERAGE
VOLTAGE
H Voltage feedback; +1 volt dc per 10 output recep-
tacle volts.
G Circuit common for 24 and 115 volts ac circuits.
GNDK Chassis common.
*The remaining sockets are not used.
803 691-A
1 115 V 10 Amp AC Receptacle
Power is shared between duplexreceptacle and Remote 14 recep-tacle (see Section 3-6).
2 Circuit Breaker CB1
3 Circuit Breaker CB2
CB1 protects duplex receptacleand 115 volts ac portion of Remote14 receptacle from overload.
CB2 protects 24 volts ac portion ofRemote 14 receptacle fromoverload.
Press button to reset breaker.
2 3
1
3-7. Optional 115 Volts AC Duplex Receptacle And Circuit Breakers
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3-8. Optional Gas Valve Operation And Shielding Gas Connection
Ref. 803 705-A / Ref. 803 692-A
Obtain gas cylinder and chain torunning gear, wall, or other station-ary support so cylinder cannot falland break off valve.
1 Cylinder
2 Regulator/Flowmeter
Install so face is vertical.
3 Gas Hose Connection
Fitting has 5/8-18 right-handthreads. Obtain and install gashose.
4 Gas In Fitting
5 Gas Out Fitting
The Gas In and Gas Out fittingshave 5/8-18 right-hand threads.Obtain proper size, type, and lengthhose and make connections as fol-lows:
Connect hose from shielding gassupply regulator/flowmeter to GasIn fitting.
Connect hose coupler to torch.Connect one end of gas hose to
hose coupler. Connect remainingend of gas hose to Gas Out fitting.
Operation
The gas solenoid controls gas flowduring the TIG process as follows:
Remote TIG
Gas flow starts with remote contac-tor on.
Gas flow stops at end of postflowif current was detected, or with re-mote contactor off if no current wasdetected.
LiftArc TIG
Gas flow starts when tungsten
touches work (touch sensed).
Gas flow stops at end of postflow.
Scratch Start TIG
Gas flow starts when current is de-tected.
Gas flow stops at end of postflow.
Postflowtime is factory set to 5seconds per 100 amps of weld cur-rent. The minimum postflow timeis 5 seconds. The maximum postflow is 20 seconds (post flow set-tings are not adjustable by the enduser).
4
3
1
2
GAS IN
GAS OUT
5
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3-9. Enabling Low Open Circuit Voltage Stick Mode (Optional)
907 161 / 217 181
Disconnect and lockout/tag-out input power before re-moving cover.
Follow this procedure to modify theunit for low open circuit voltage(OCV) when Stick welding. OCV isreduced to about 15 volts dc.
1 Front Panel And DisplayBoard PC3
2 Switch SW1Remove wrapper.
Place switch position 1 in theClosed position by pressing actua-tor toward board.
Reinstall wrapper.
Follow the same arc starting proce-dures as described in Section 4-5.
1 2
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SECTION 4 OPERATION
V/A ADJUST
ARC CONTROL
ARC CONTROLREMOTE ELECTRODE HOT
4-1. Front Panel Controls
1 Power Switch
The fan motor is thermostaticallycontrolled and only runs when cooling is
needed.
2 Voltmeter
3 Ammeter
4 V/A (Voltage/Amperage) AdjustmentControl
5 Mode Switch
The Mode switch setting determines both theprocess and output On/Off control (see Sec-tion 4-3). Source of control (panel or remote)for the amount of output is selected on the V/AControl switch.
For Air Carbon Arc (CAC-A) cutting and goug-
ing, place switch in Stick position. For best re-sults, place Arc Control in the maximum posi-
tion.6 Remote 14 Receptacle
For remote control, make connections to Re-mote 14 receptacle. In TIG modes and theREMOTE STICK mode, remote control is apercent of V/A Adjust control setting (valueselected on V/A Adjust is maximum availableon remote). In ELECTRODE HOT STICKmode the remote control is not used. In theMIG mode, remote control provides full rangeof unit output regardless of V/A Adjust controlsetting.
7 Arc Control
Control adjusts Dig when Stick or CC mode isselected on mode switch. When set towards
minimum, short-circuit amperage at low arcvoltage is the same as normal welding
amperage.When set towards maximum, short-circuitamperage is increased at low arc voltage toassist with arc starts as well as reduce stick-ing while welding.
Select setting best suited for application.
Control adjusts inductance when MIG orV-Sense Feeder position is selected on themode switch. Inductance determines thewetness of the weld puddle. When set to-wards maximum, wetness (puddle fluidity)increases.
When Pulsed MIG or one of the TIG modes isselected, this control is not functional.
2 3 4
5 76
Ref. 803 692-A / Ref. 212 064
1
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4-2. Meter Functions
The meters display the actual weld output values for approximately three secondsafter the arc is broken.
NOTE
Mode Meter Reading At Idle Meter Reading While Welding
Scratch
Start TIG
V A
Actual Volts (OCV) Preset Amps71.7 85 Actual Volts Actual Amps
V A
10.3 85
Lift-Arc TIG
Actual Volts Preset Amps
V A
14.1 85Actual Volts Actual Amps
V A
10.3 85
TIG
Blank Preset Amps
V A
85Actual Volts Actual Amps
V A
10.3 85
MIG
Preset Volts Blank
V A
24.5Actual Volts Actual Amps
V A
24.5 250
PulsedMIG
Pulse Display Pulse Display
V A
PPP PPPActual Volts Actual Amps
V A
24.5 250
CC
Blank Preset Amps
V A
85Actual Volts Actual Amps
V A
24.5 85
Stick
Actual Volts (OCV) Preset Amps
V A
71.7 85Actual Volts Actual Amps
V A
24.5 85
V-SenseFeeder
Flashes OCV And Preset Blank
V A
71.7Actual Volts Actual Amps
V A
24.5 250
4-3. Mode Switch Settings
o e w tc ett ng rocess utput n ontro
Scratch Start TIG GTAW Electrode Hot
Lift-Arc TIG GTAW See Section 4-4 Electrode Hot
TIG GTAW With HF Unit, Pulsing Device, Or Remote Control At Remote 14
MIG GMAW At Remote 14
Pulsed MIG GMAW-P (Requires an external pulsing device.) At Remote 14
CC Stick (SMAW) With Remote On/Off At Remote 14
Stick SMAW Electrode Hot
V-Sense Feeder MIG (GMAW) With Voltage Sensing Wire Feeder Electrode Hot
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4-4. Lift-Arc TIG Procedure
With Process Switch in the Lift-ArcTIG position, start an arc as follows:
1 TIG Electrode
2 Workpiece
Touch tungsten electrode to work-piece at weld start point, holdelectrode to workpiece for 1-2seconds, and slowly lift electrode.An arc will form when electrode is
lifted.Normal open-circuit voltage is notpresent before tungsten electrodetouches workpiece; only a lowsensing voltage is present betweenelectrode and workpiece. Thesolid-state output contactor doesnot energize until after electrode istouching workpiece. This allowselectrode to touch workpiece with-out overheating, sticking, or gettingcontaminated.
1
1 2SecondsTouch
Do NOT Strike Like A Match!
2
Ref. S-156 279
4-5. Stick Start Procedure
The Stick and CC modes provide the Adaptive Hot Start feature, whichautomatically increases the output amperage at the start of a weld should the startrequire it. This eliminates electrode sticking at arc start.
NOTE
With Stick selected, start arc as fol-lows:
1 Electrode
2 Workpiece
3 Arc
Drag electrode across workpiecelike striking a match; lift electrodeslightly after touching work. If arcgoes out electrode was lifted to high.If electrode sticks to workpiece, usea quick twist to free it.
Low OCV Stick
The unit can be optionally config-ured for low open circuit voltage(OCV) operation (see Section 3-9).When the unit is configured for lowOCV, only a low sensing voltage
(approximately 15 volts dc) is pres-ent between the electrode and theworkpiece prior to the electrodetouching the workpiece.
Follow the same arc starting proce-dures as described above.
In low OCV mode, it may benecessary to remove the slagfrom the end of some elec-trodes prior to arc starting.
1
2
3
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SECTION 5 EXPLANATION OF ELECTRICAL PARTSelect_parts 7/04
5-1. Safety Precautions Read Before Using This Guide
WARNING: ELECTRIC SHOCK can kill. Disconnect input power or stop engine before servicing.
Do not touch live electrical parts.
Do not operate machines with covers removed.
Have only qualified persons install, use, or service equipment.
PART NAME FUNCTION PICTURE CIRCUIT SYMBOL
BATTERY A source of DC voltage. Typically used inEngine Driven equipment.
+
BRUSHES/SLIPRINGS
Components that allow electrical connectionsbetween stationary and rotating contacts.
SLIPRINGS
BRUSHES
CAPACITOR A device that stores electrical energy. Largecapacitors or a bank of capacitors can be
used to smooth out the DC welding arc in aMIG welding power source. Smaller diskcapacitors can be used for HF protection.
C1 C1
POLARIZED NON-POL.
+
CHASSIS The green ground wire of a primary cord isconnected to the machine frame (chassis) forsafety. Also, you may find many HF bypasscapacitors connected to chassis to reduceHigh Frequency interference. Expect to seethis symbol used numerous times in circuitdiagrams. The picture shown here is from anEngine Drive where several wires includingthe battery are connected to the chassis.
CIRCUIT BREAKER A protection device that breaks a circuit whencurrent levels exceed its rating. Unlike a fusethat needs to be replaced when blown, acircuit breaker can be reset.
CB1
CIRCUIT COMMON When many wires are connected together,rather than showing all the lines and dots,this symbol may appear on the circuit. Lookfor other Circuit Common symbols on acircuit diagram. For instance, say 10 symbolsare found on a circuit, this means all tenpoints are electrically tied together.
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PART NAME CIRCUIT SYMBOLPICTUREFUNCTION
CLAMP A spring-loaded connection device. A goodexample would be the work clamp used toconnect the weld cable from a power sourceto the workpiece that will be welded.
CONTACTOR A heavy duty relay. Usually used to makeand break the welding arc or primary power. W COIL
NRM OPENPOINTS
W
CURRENTTRANSFORMER
A transformer that produces an AC voltageused for measuring purposes. The primarywinding is in series with the circuit carryingthe current to be measured. Its main use inengine-driven equipment is to activate theAutomatic Idle circuit by sensing weldingcurrent or auxiliary power current.
CT1
OR
CT1
DASHED LINE A dashed line between parts means there isa mechanical connection between theseparts. When a dashed line boxes in parts,this means the parts make up an option orare combined into one part. In all cases,dashed lines do not conduct electricity. Thepicture shown is a combination fan motor andtransformer in one part.
FM
DIODE A device that allows current to flow in onedirection only. Most common use is tochange AC to DC.
D1
FAN MOTOR This device provides cooling of the internal
parts of a welding power source.
FM
FUSE A protection device, usually an enclosedpiece of wire that melts and breaks the circuitwhen the current exceeds the fuse rating.
F1
GAS OR WATERSOLENOID(VALVE)
These are electromechanical devices used tostart or stop the flow of shielding gas orwater. GS1
OR
WS1
HALL DEVICE Produces a small DC voltage proportional tothe current it is sensing (usually weldingcurrent). This feedback signal can be used toregulate the welding output (line voltagecompensation). It may even be used to drivean ammeter.
HD1
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PART NAME CIRCUIT SYMBOLPICTUREFUNCTION
IGBT A device that is used as an electronicswitch. When a signal is applied to the gate(G), current is allowed to flow from the emitter(E) to the collector (C). This device is typicallyused in Inverter designed welding machinesto control the welding output.
C1
G1 (B1)
E1
INTEGRATED
BRIDGERECTIFIER
An arrangement of four diodes used to
change AC to DC. AC
AC
+AC AC
+
_
INTEGRATEDCIRCUIT
ICs often called chips provide a completecircuit function with inputs and outputs. Agood example would be the Pulse WidthModulation chip used in many wire feederdesigns.
U1
JUMPER LINK Usually, the jumper link is a piece of brassthat connects two terminals together. Dashed
lines indicate possible locations for otherjumper links.
TE1
LIGHT EMITTINGDIODE
This device usually referred to by its initialsLED is used to tell you when a particularcircuit is activated. This function is veryhelpful for troubleshooting.
D1
MAGNETICAMPLIFIER
This device usually referred to as aMag-Amp is made up of coil windings andan iron core similar to a transformer. Itcontrols a large welding current by varying asmall control current.
MA1
METER A measuring device. A voltmeter is a goodexample.
VV = voltmeter
A = ammeter
HM = hourmeter
MOSFET A device that is used as an electronicswitch. When a signal is applied to the gate(G), current is allowed to flow from the source(S) to the drain (D). This device can be used
to control a relay, the speed of a motor, oreven the output of a welding machine.
D
G
ASS
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PART NAME CIRCUIT SYMBOLPICTUREFUNCTION
MOTOR A device that converts electrical energy intomechanical energy. Typically used to feedwire in a MIG welding system, or pumpcoolant in a recirculating liquid-coolingsystem.
M1
M1 = DC
= AC
OPERATIONALAMPLIFIER
Usually referred to as an Op-Amp, this ICchip is very versatile and widely used on PC
boards. A typical use might be as acomparator, comparing the commandsignal to the feedback signal allowing thewelding output to be kept constant.
A1+
_
OPTICALCOUPLER
A device that uses light to get electricalseparation (isolation). This eliminates noisethat might be in one circuit from affectinganother circuit.
OC1
PILOT LIGHT A light located on the front panel whichindicates if the machine is on or off.
PL1
POTENTIOMETEROR
RHEOSTAT
Both devices have a moveable brush thatmakes contact along a resistor, allowing you
to easily change the resistance measured atthe brush (sometimes referred to as a wiper).Their primary purpose is to give the operatora way to adjust welding parameters such aswire speed, preflow time, voltage,inductance, etc.
CW = CLOCKWISE
R1
CCW =COUNTER-CLOCKWISE
PLUG A connection device that hangs loose withwires coming out the back of it. Please notethat the plug terminals can be either male orfemale.
PLG1PLG =
LOOSE
MALE
FEMALE
RECEPTACLE A connection device that is mounted or fixed.Just like a plug, the terminals can be eithermale or female.
RC1RC =
MOUNTED
MALE
FEMALE
RELAYCOIL ANDCONTACTS,NORMALLY OPENAND NORMALLYCLOSED
This is an electromechanical device whosecontacts change state (the normally openpoints close and the normally closed pointsopen) when proper voltage is applied to thecoil. These contact points in turn may controla fan motor, gas solenoid, contactor, etc.Circuit diagrams (schematics) always showthe contact points in the power off state.
CR1 CR1
IL
NRM OPENPOINTS
NRM CLOSEDPOINTS
CR1
RESISTOR A device which resists the flow of electric
current. Uses include limiting the current for amotor brake circuit in a wire feeder and fordischarging a capacitor.
FIXED
FIXED TAPPED
R1
R1
RIBBON CABLE A connection device where the wires are laidout flat. Usually to connect circuits from onePC board to another PC board.
26-CONDUCTORCABLE
RC54 RC44
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PART NAME CIRCUIT SYMBOLPICTUREFUNCTION
PRESSURESWITCH
A change in the pressure of a gas or liquidwill actuate this switch.
OPENSON
INCREASE
CLOSESON
INCREASE
S1 S1
TEMPERATURESWITCH
Typically used to protect engines, this switchis actuated by heat.
OPENSON
INCREASE
S1
CLOSESON
INCREASE
S1
WATER FLOWSWITCH
A switch that is actuated by the flow of aliquid. Typically used to protectwater-cooled torches.
OPENSON
INCREASE
S1
CLOSESON
INCREASE
S1
TERMINALASSEMBLY
A connection point for primary power and thejumper links that are used to match the inputvoltage to the machine. Usually, the terminalassembly is marked with the letters TE, butthe electrical symbol looks identical to astandard terminal strip.
TE1
TE1
TERMINAL STRIP An insulated connection point for wires. They
are used for the ease of making multipleconnections and can be a convenient pointfor making electrical checks whentroubleshooting. (Notice the jumper linkconnecting terminals A and B together.)
A B C D E1T 42 42 104 105 74
104 105
THERMISTOR A thermally sensitive resistor. There are twotypes of thermistor, PTC (PositiveTemperature Coefficient) and NTC (NegativeTemperature Coefficient). A PTC thermistorsresistance will increase as the temperaturegoes up, where as an NTC thermistorsresistance will decrease as the temperaturegoes up. Primarily used for Fan on Demandand Thermal Shutdown circuits.
RT1
TH1
OR
THERMOSTAT,NORMALLY OPENAND NORMALLYCLOSED
This is a switch that closes its normally opencontacts (or opens its normally closedcontacts) when a preset temperature isreached. When the temperature goes backdown, it will reset itself. Uses of thesedevices include turning on a fan motor whenneeded and shutting off the output of awelding power source if it is overheating.
NRM OPEN NRM CLOSED
TP1TP1
TRANSISTOR Most commonly used as an electronic switch.There are two basic types, PNP and NPN.This refers to their internal design, whichdetermines current flow direction.
Q1 Q1
B
C
E
B
C
ENPN PNP
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PART NAME CIRCUIT SYMBOLPICTUREFUNCTION
TRANSFORMER A device that changes AC voltage from onemagnitude to another. Typically used toreduce high primary voltages to lowerwelding voltages.
T1
T1
T1
IRONCORE
AIRCORE
FERRITECORE
TRIAC An electronic AC switch. It is turned on by agate signal similar to an SCR. Q1
TWISTED WIRE Wires are twisted to prevent electrical noisefrom interfering with the circuit. A goodexample is the red and white gate leadsgoing to an SCR. Typically, these wires aretwisted together to help prevent the SCR
from misfiring.
RED
WHT
VARISTOR A protection device whose resistance isdependent on the voltage applied to it. Innormal operation it has a high resistance;however, a surge of voltage (voltage spike)will cause its resistance to go way down andabsorb the spike. These devices are mostoften found in rectifying circuits, where theyare used to protect the diodes.
VR1
WIRES WITHCONNECTION
When lines (wires) cross on a circuit diagramand there is a black dot, this means that thetwo wires are electrically connected together.The method of connection (bolted, friction
lugs, etc.) is not indicated with this symbol.However, a white dot indicates that themethod of connection is a terminal strip. Ofcourse, no dot means no connection.
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SECTION 6 THEORY OF OPERATION
Power Interconnect BoardPC2
Remote 14-Pin ReceptacleRC50
ArcControl
VoltmeterV
AmmeterA
Front Panel And Display Board PC3
Voltage/Amperage
Adjust
ProcessSelectorSwitch
WeldProcessControl
Positive (+) Output Voltage Feedback
Negative () Output Voltage Feedback
Ribbon Cable
24 VAC
115 VAC
Boost Gate Signal
OptionalAuxiliary Power
115 VACReceptacle
Input Boost InductorCurrent Feedback
Input Rectifier Voltage
Bus Voltage
CurrentTransformer
CT1
4 5 6
7 8
9
1 2 3
10
20
21 21
22 23
24
25 26
27
InverterModuleMod2
BusCapacitorsC12, C13
BoostSnubber
InductorL2
SnubberResistorModuleRM1
BoostInput
InductorL1
InputPre-Regulator
ModuleMod1
Power
SwitchS1
1 Phaseor
3 PhaseInput
Power
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Theory Of Operation Components
1 Primary Input Power
Single or Three-Phase AC primarypower supply.
2 Power Switch S1
Provides on/off control of primaryinput power to welding powersource.
3 Power Interconnect BoardPC2
Provides electrical connections forL1, L2, MOD1, MOD2, RM1, C12 &C13. Precharge and bleeder resis-tors and snubber capacitors aremounted on PC2.
4 Boost Input Inductor L1
Required to boost input rectifiervoltage to bus voltage.
5 Boost Snubber Inductor L2
Required to ensure softswitchingof the boost IGBT located in
MOD1.6 Inverter Module MOD2
Contains the main inverter IGBTs,snubber IGBTs, main boost diode,and two boost snubber diodes.
7 Input PreRegulator ModuleMOD1
Contains the input rectifier diodes,boost IGBT, and one boost snub-ber diode.
8 Snubber Resistor ModuleRM1
Contains one boost snubber resis-tor and one inverter snubber resis-tor.
9 Bus Capacitors C12 & C13
Stores energy and filters the DCbus voltage for input boost and in-verter.
10 Current Transformer CT1
Provides T1 current feedback toPC1. Used to protect inverterIGBTs in case of T1 primary over-current.
11 Series Capacitor C15
Provides protection against T1 sat-uration. Saturation occurs when
the voltage across the transformeris not balanced. The unbalancedvoltage appears as a DC offsetvoltage across the transformer andcan cause a primary overcurrent.The capacitor protects against thiscondition by blocking the DC off-set.
12 Main Transformer T1
Switching action of IGBTs in MOD2creates the AC voltage source forT1 primary. T1 secondary outputssupply power to the weld circuit.
13 Output Diodes D1, D2
Rectifies the main secondary out-put of T1.
14 Output Current Sensor HD1
Provides weld output current feed-back to PC1.
15 Positive (+) and Negative ()Weld Output Receptacles
Provide weld output and allowchanging of output polarity.
16 Stick Boost Relay CR1
Provides on/off control of Stickboost output circuit.
17 Stick Boost Inductor L4
Limits current in the Stick boostoutput circuit.
18 Stick Boost Rectifier SR1Rectifies the Stick boost secon-dary output of T1.
19 Output Stabilizer L3
Filters or smooths the DC weld out-put current.
20 User Interface Board PC3
Consists of Voltmeter V, AmmeterA, Arc Control, Voltage/AmperageAdjust, Remote 14pin receptacle,Process Selector Switch, andWeld Process Control.
21 Voltmeter V, Ammeter A
See Sections 4-1, Front PanelControls and4-2,Meter Functions.
22 Arc Control
Controls Dig in Stick process or In-ductance in MIG process. SeeSection 4-1,Front Panel Controls.
23 Voltage/Amperage Adjust
Selects weld output voltage or am-perage level. See Section 4-1,Front Panel Controls.
24 Remote 14-Pin ReceptacleRC50
Provides connection to auxiliaryequipment. See Sections 4-1,Front Panel Controls, and 3-6, Re-mote 14 Receptacle Information.
25 Process Selector SwitchSelects weld process. See Sec-tion 4-1, Front Panel Controls.
26 Weld Process Control
Controls weld output by automati-cally adjusting output current com-mand signal to Inverter Control.
27 Optional Auxiliary Power 115VAC Receptacle
Provides connection for auxiliaryequipment to welding powersource.
28 Control/Auxiliary PowerBoard PC2
Contains the boost control, auxilia-ry power module, and inverter con-trol.
29 Boost Control
Controls switching of boost IGBTin MOD1 to regulate L1 current andthe DC bus voltage.
30 Auxiliary Power Module
Contains power supply for boostcontrol power, and inverter IGBTsto create AC voltage source for T2primary.
31 Inverter Control
Controls the main inverter andsnubber IGBTs within MOD2.Regulates the weld output currentto the value received from weldprocess controller. Provides powerto PC3. Drives fan motor and gasvalve. Provides interface betweenprimary and secondary thermis-tors and PC3.
32 Circuit Breaker CB1
Provides overload protection forremote 14-pin 115 VAC power, andoptional 115 VAC receptacle.
33 Circuit Breaker CB2
Provides overload protection forremote 14-pin 24 VAC power.
34 Control Transformer T2Provides power to inverter controlon PC1, remote 14-pin receptacle,and optional 115 VAC receptacle.
35 Fan Motor FM1
Provides cooling of heatsinks andcomponents mounted inside windtunnel.
36 Optional Gas Solenoid GS1
Provides on/off flow of shieldinggas to the arc while TIG welding.
37 Secondary HeatsinkThermistor RT-1
Monitors temperature of secon-
dary heatsink for fan motor controland overtemperature shutdown.
38 Primary Heatsink ThermistorRT-2
Monitors temperature of primaryheatsink for fan motor control andovertemperature shutdown.
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SECTION 7 TROUBLESHOOTING
7-1. Checking Unit Before Applying Power
See Section 7-23for test points and values and Section10 for parts location.
Discharge input capacitors according to Section 7-3and be sure voltage is near zero before touching any parts.
Before applying power to unit, complete the pre-power flowchart in Section 7-2to avoid causing further damage.
Although control/auxiliary power board PC1 and power interconnect board PC2 are briefly checked in the pre-power flowchart, morecomplete tests may be needed later for these parts. This procedure is simply to get a basic okay to power up unit.
The pre-power flowchart should be followed if any of the following conditions exist:
the symptoms are unknown;
the unit is completely inoperative;
visual damage is found on any of the following components: capacitors C12 andC13, control board PC1, IGBT power modules MOD1 and MOD2, interconnecting
board PC2, or input rectifier SR1;
there is no output or limited output.
NOTE
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TM-2247 Page 26 XMT 350 Auto Line
7-2. Pre-Power Flowchart
NO
YES
YES
YES
Complete Section 7-3, MeasuringInput Capacitor Voltage.
Complete Sections 7-4Thru 7-7For Modules MOD1 And MOD2.
All Measurements Pass?Complete Sections 7-13Thru7-18,Control/Auxiliary Board
PC1.
NO
All Measurements Pass? Replace PC1.
Complete Sections 7-19 and 7-20,Power Interconnect PC2.
NOAll Measurements Pass? Replace PC2.
YES
Replace Modules MOD1 &
MOD2. (See Module Field KitInstructions.)
Complete Section 7-8For PowerSwitch S1.
All Measurements Pass?NO
Replace S1.
NOReplace
D1 & D2.
Complete Sections 7-9 and 7-10,Output Diodes D1 & D2.
All Measurements Pass?
YES
Complete Sections 7-11 and 7-12,Stick Boost Rectifier SR1.
NOReplace SR1.All Measurements Pass?
YES
Pre-power flowchart complete.
Complete Section 7-30,Checking Unit After Servicing.
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Ref. 803 721-B / 907 161
7-3. Measuring Input Capacitor Voltage
Turn Off welding powersource, and disconnect inputpower.
Remove cover
1 Power Interconnect BoardPC2
2 Voltmeter
3 Capacitor C12
Measure the dc voltage acrossC12 (+) Positive Terminal and C12() Negative Terminal on PC2 asshown until voltage drops to near0 (zero) volts.
4 Capacitor C13
Measure the dc voltage acrossC13 (+) Positive Terminal and C13() Negative Terminal on PC2 asshown until voltage drops to near0 (zero) volts.
Proceed with pre-power flowchart.
Significant DC voltage canremain on capacitors afterunit is Off. Always check thevoltage as shown to be surethe input capacitors have dis-charged before working onunit.
1
2
Positive (+) lead to C12 (+) terminal,Negative () lead to C12 () terminal
3
1
2
Positive (+) lead to C13 (+) terminal,Negative () lead to C13 () terminal
4
Test Equipment Needed:
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7-4. Input Pre-Regulator Module (MOD1)
Ref. 907 161 / 210 452-D
Read and follow safetyinformation in Section 7-1before proceeding.
Board layout may differ fromthat shown.
1 MOD1
Visually inspect MOD1 for dam-age.
2
BUS3 D12 Cathode
4 AC1
5 AC2
6 AC3
7 L1
8 L1-L2
9 TP1
10 +BUS
Check all measurements for InputPreRegulator Module (MOD1)(see Section 7-5).
If all measurements passed,MOD1 is OK. Continue to the endof the pre
power flowchart (see
Section 7-2).
1
Component Side Of Board
2
8
3
94
7
5
6
10
Test Equipment Needed:
7-5. Input Pre-Regulator Module (MOD1) Test Point Values
Input Pre-Regulator Module MOD1 DVM Positive Lead DVM Negative Lead DVM Diode DVM Ohms
Boost IGBT BUS L1-L2 0.20 - 0.90 N/A
Boost IGBT (w/Plug Removed From RC3) D12 Cathode BUS N/A 100k
Boost Snubber Diode L1-L2 TP1 (C6 and C7) 0.20 - 0.90 N/A
Input SCR AC1 L1 0.20 - 0.90 N/A
Input SCR AC2 L1 0.20 - 0.90 N/A
Input SCR AC3 L1 0.20 - 0.90 N/A
Input Diode BUS AC1 0.20 - 0.90 N/A
Input Diode BUS AC2 0.20 - 0.90 N/A
Input Diode BUS AC3 0.20 - 0.90 N/A
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TM-2247 Page 29XMT 350 Auto Line
7-6. Inverter Module (MOD2)
Ref. 907 161 / 210 452-D
Read and follow safetyinformation in Section 7-1before proceeding.
Board layout may differ fromthat shown.
1 MOD2
Visually inspect MOD2 for damage.
2 BUS
3 TP1
4 L2
5 TP4
6 HF-XFMR
7 D2
8 TP3
9 D8
10 D10
11 D11
12 +BUS
Check all measurements for Invert-er Module (MOD2) (see Section7-7).
If all measurements passed, MOD2is OK. Continue to the end of theprepower flowchart (see Section7-2).
1
Component Side Of Board
6
8
4
12
2
3
5
7
9
10
11
Test Equipment Needed:
7-7. Inverter Module (MOD2) Test Point Values
Inverter Module MOD2 DVM Positive Lead DVM Negative Lead DVM Diode DVM Ohms
Boost Snubber Diode TP1 (C6 and C7) TP4 (C1) 0.20 - 0.90 N/A
Boost Snubber Diode L2 TP4 (C1) 0.20 - 0.90 N/A
Main Boost Diode TP4 (C1) +BUS 0.20 - 0.90 N/AInverter IGBT HF-XFMR +BUS 0.20 - 0.90 N/A
Inverter IGBT BUS HF-XFMR 0.20 - 0.90 N/A
Snubber IGBT TP2 (D11 Cathode) HF-XFMR 0.20 - 0.90 N/A
Snubber IGBT TP2 (D11 Cathode) TP3 (C2) 0.20 - 0.90 N/A
Inverter IGBT Gate D2 Cathode HF-XFMR N/A 100k
Inverter IGBT Gate D4 Cathode BUS N/A 100k
Snubber IGBT Gate (w/Plug RemovedFrom RC1)
D10 Cathode TP2 (D11 Cathode) N/A 100k
Snubber IGBT Gate (w/Plug RemovedFrom RC1)
D8 Cathode TP2 (D11 Cathode) N/A 100k
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PRE-POWER CHECKS
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7-8. Power Switch (S1)
Ref. 907 161 / Ref. 183 484
Read and follow safetyinformation in Section 7-1before proceeding.
1 Power Switch S1
Visually inspect S1 for damage.
Check switch mechanical opera-tion by turning switch On and Offseveral times. Switch should snapsharply between the On and Off
positions.
Check switch electrical operationby checking continuity across S1contacts with switch in the On posi-tion. With switch in the Off position,ohmmeter should read open.
Replace switch if necessary.
Continue to the end of the prepow-er flowchart (see Section 7-2).
Test Equipment Needed:
1
Electrical Schematic
Notes
Work like a Pro!
Pros weld and cutsafely. Read the
safety rules at
the beginning
of this manual.
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PRE-POWER CHECKS
TM-2247 Page 31XMT 350 Auto Line
7-9. Output Diodes D1, D2
Ref. 907 161Diodes D1, D2
Weld OutputReceptacles
+
Read and follow safetyinformation in Section 7-1before proceeding.
1 Diode D1
2 Diode D2
Visually inspect D1 and D2 for dam-age.
Check all measurements for outputdiodes D1 and D2 (see Section
7-10).
If all measurements passed, theoutput diodes D1 and D2 are OK.Continue to the end of the prepow-er flowchart (see Section 7-2).
21
Test Equipment Needed:
7-10. Output Diodes D1, D2 Test Point Values
Output Diodes D1 And D2 DVM Positive Lead DVM Negative Lead DVM Diode DVM Ohms
D1 Terminal Anode Secondary Heatsink 0.10 - 0.90 N/A
D2 Terminal Anode Secondary Heatsink 0.10 - 0.90 N/A
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PRE-POWER CHECKS
TM-2247 Page 32 XMT 350 Auto Line
7-11. Stick Boost Rectifier (SR1)
Ref. 907 161
Read and follow safetyinformation in Section 7-1before proceeding.
1 Stick Boost Rectifier SR1
Visually inspect SR1 for damage.
Check all measurements for stickboost rectifier SR1 (see Section7-12).
If all measurements passed, SR1 isOK. Continue to the end of the pre
power flowchart (see Section 7-2).
1
3
4
2
1
Test Equipment Needed:
7-12. Stick Boost Rectifier (SR1) Test Point Values
Stick Boost Rectifier SR1 DVM Positive Lead DVM Negative Lead DVM Diode DVM Ohms
SR1 Terminal 2 Terminal 1 0.20 - 0.90 N/A
SR1 Terminal 4 Terminal 1 0.20 - 0.90 N/A
SR1 Terminal 3 Terminal 2 0.20 - 0.90 N/A
SR1 Terminal 3 Terminal 4 0.20 - 0.90 N/A
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PRE-POWER CHECKS
TM-2247 Page 33XMT 350 Auto Line
Notes
OHMS LAW
VOLTAGE =CURRENT X RESISTANCE
CURRENT = VOLTAGE
RESISTANCE
RESISTANCE = VOLTAGE
CURRENT
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PRE-POWER CHECKS
TM-2247 Page 34 XMT 350 Auto Line
7-13. Control/Auxiliary Power Board PC1 Auxiliary Power Circuit
Ref. 217 184-B / 907 161
Read and follow safety informationin Section 7-1before proceeding.
Remove all plugs from PC1 beforetesting.
1 Inverter Control Board PC1
2 Receptacle RC2
3 Receptacle RC3
4 Receptacle RC5
5 IGBT Gate Drive IC U1
6 IGBT Gate Drive IC U4
7 IGBT Gate Drive IC U5
8 Diode D37
9 Diode D38
10 Diode D39
11 Diode D42
12 Diode D43
13 Diode D44
Unplug all connections to PC1.
Visually inspect PC1 for damage.
Check all measurements for PC1 AuxiliaryPower, Pre-Regulator and Inverter Control(see Sections 7-14thru 7-18).
If all measurements passed, continue to theend of the pre-power flowchart (see Section7-2).
If any measurements failed, replacePC1.
1
3
2
4
Test Equipment Needed:
5 8
9
10
11
12
13
6 7
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PRE-POWER CHECKS
TM-2247 Page 35XMT 350 Auto Line
7-14. Control/Auxiliary Power Board PC1Auxiliary Power Circuit Test Point Values
60Hz Auxiliary Power Bridge DVM Positive Lead DVM Negative Lead DVM Diode DVM Ohms
Auxiliary Bridge IGBT RC5 Pin 3 RC2 Pin 1 0.20 - 0.90 N/A
Auxiliary Bridge IGBT RC5 Pin 1 RC2 Pin 1 0.20 - 0.90 N/A
Auxiliary Bridge IGBT RC3 Pin 6 (PRECOM) RC5 Pin 3 0.20 - 0.90 N/A
Auxiliary Bridge IGBT RC3 Pin 6 (PRECOM) RC5 Pin 1 0.20 - 0.90 N/A
Auxiliary Bridge IGBT Gate Drive IC U1 RC3 Pin 6 (PRECOM) U1 Pin 5 0.20 - 0.90 N/A
Auxiliary Bridge IGBT Gate Drive IC U1 U1 Pin 5 U1 Pin 6 0.20 - 0.90 N/AAuxiliary Bridge IGBT Gate Drive IC U1 RC3 Pin 6 (PRECOM) U1 Pin 7 0.20 - 0.90 N/A
Auxiliary Bridge IGBT Gate Drive IC U1 U1 Pin 7 U1 Pin 6 0.20 - 0.90 N/A
Auxiliary Bridge IGBT Gate Drive IC U4 RC5 Pin 1 U5 Pin 7 0.20 - 0.90 N/A
Auxiliary Bridge IGBT Gate Drive IC U5 RC5 Pin 3 U4 Pin 7 0.20 - 0.90 N/A
D37 D37 Anode D37 Cathode 0.20 - 0.90 N/A
D38 D38 Anode D38 Cathode 0.20 - 0.90 N/A
D39 D39 Anode D39 Cathode 0.20 - 0.90 N/A
D42 D42 Anode D42 Cathode 0.20 - 0.90 N/A
D43 D43 Anode D43 Cathode 0.20 - 0.90 N/A
D44 D44 Anode D44 Cathode 0.20 - 0.90 N/A
Notes
Work like a Pro!
Pros weld and cut
safely. Read the
safety rules at
the beginning
of this manual.
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PRE-POWER CHECKS
TM-2247 Page 36 XMT 350 Auto Line
7-15. Control/Auxiliary Power Board PC1 Pre-Regulator Control Circuit
Ref. 217 184-B / 907 161
Read and follow safety informationin Section 7-1before proceeding.
Remove all plugs from PC1 before test-ing.
1 Inverter Control Board PC1
2 Receptacle RC2
3 Receptacle RC3
4 Receptacle RC5
5 IGBT Gate Drive IC U6
6 Diode D18
7 Diode D41
8 Diode D46
9 Diode D47
10 Diode D49
11 Diode D50
12 Diode D51
13 Diode D52
14 Diode D53
Unplug all connections to PC1.
Visually inspect PC1 for damage.
Check all measurements for PC1 AuxiliaryPower, Pre-Regulator and Inverter Control(see Sections 7-14 thru 7-18).
If all measurements passed, continue to theend of the pre-power flowchart (see Section7-2).
If any measurements failed, replacePC1.
1
3
2
4
Test Equipment Needed:
5
6
7
8
9
10
11
12
13
14
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PRE-POWER CHECKS
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7-16. Control/Auxiliary Power Board PC1 Pre-Regulator Control Circuit Test Point Values
Pre-Regulator Control DVM Positive Lead DVM Negative Lead DVM Diode DVM Ohms
Buck IGBT U6 Pin 3 RC2 Pin 1 0.20 - 0.90 N/A
Buck Diode RC3 Pin 6 (PRECOM) U6 Pin 5 (BUCK-COM) 0.20 - 0.90 N/A
Buck IGBT Gate Drive IC U6 U6 Pin 6 U6 Pin 7 (BUCK+15V) 0.20 - 0.90 N/A
D18 D18 Anode D18 Cathode 0.20 - 0.90 N/A
D41 D41 Anode D41 Cathode 0.20 - 0.90 N/A
D46 D46 Anode D46 Cathode 0.10 - 0.30 N/AD47 D47 Anode D47 Cathode 0.20 - 0.90 N/A
D49 D49 Anode D49 Cathode 0.20 - 0.90 N/A
D50 D50 Anode D50 Cathode 0.20 - 0.90 N/A
D51 D51 Anode D51 Cathode 0.20 - 0.90 N/A
D52 D52 Anode D52 Cathode 0.20 - 0.90 N/A
D53 D53 Anode D53 Cathode 0.20 - 0.90 N/A
Boost IGBT Gate Drive RC3 Pin 4 (BOOSTG) RC3 Pin 2 (PRE+15V) 0.20 - 0.90 N/A
Boost IGBT Gate Drive RC3 Pin 4 (BOOSTG) RC3 Pin 3 (PRE12V) N/A 1.9k - 2.1k
Boost IGBT Gate Drive RC3 Pin 3 (PRE12V) RC3 Pin 4 (BOOSTG) 0.20 - 0.90 N/A
Notes
Work like a Pro!Pros weld and cut
safely. Read the
safety rules at
the beginning
of this manual.
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PRE-POWER CHECKS
TM-2247 Page 38 XMT 350 Auto Line
7-17. Control/Auxiliary Power Board PC1 Inverter Control Circuit
Ref. 217 184-B / 907 161
Read and follow safety informationin Section 7-1before proceeding.
Remove all plugs from PC1 beforetesting.
1 Inverter Control Board PC1
2 Receptacle RC9
3 IGBT Gate Drive IC U13
4 IGBT Gate Drive IC U16
5 IGBT Gate Drive IC U17
6 Diode D11
7 Diode D20
Unplug all connections to PC1.
Visually inspect PC1 for damage.
Check all measurements for PC1 AuxiliaryPower, Pre-Regulator and Inverter Control(see Sections 7-14 thru 7-18).
If all measurements passed, continue to theend of the pre-power flowchart (see Section7-2).
If any measurements failed, replacePC1.
1
Test Equipment Needed:
2
74 53 6
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PRE-POWER CHECKS
TM-2247 Page 39XMT 350 Auto Line
7-18. Control/Auxiliary Power Board PC1 Inverter Control Circuit Test Point Values
Inverter Control DVM Positive Lead DVM Negative Lead DVM Diode DVM Ohms
Inverter IGBT Gate Drive IC U16 U16 Pin 5 RC9 Pin 4 (+15V) 0.20 - 0.90 N/A
Inverter IGBT Gate Drive IC U16 U16 Pin 7 RC9 Pin 4 (+15V) 0.20 - 0.90 N/A
Inverter IGBT Gate Drive IC U16 RC9 Pin 6 (GND) U16 Pin 5 0.20 - 0.90 N/A
Inverter IGBT Gate Drive IC U16 RC9 Pin 6 (GND) U16 Pin 7 0.20 - 0.90 N/A
Inverter IGBT Gate Drive IC U17 U17 Pin 5 RC9 Pin 4 (+15V) 0.20 - 0.90 N/A
Inverter IGBT Gate Drive IC U17 U17 Pin 7 RC9 Pin 4 (+15V) 0.20 - 0.90 N/AInverter IGBT Gate Drive IC U17 RC9 Pin 6 (GND) U17 Pin 5 0.20 - 0.90 N/A
Inverter IGBT Gate Drive IC U17 RC9 Pin 6 (GND) U17 Pin 7 0.20 - 0.90 N/A
Snubber IGBT Gate Drive IC U13 U13 Pin 5 RC9 Pin 4 (+15V) 0.20 - 0.90 N/A
Snubber IGBT Gate Drive IC U13 U13 Pin 7 RC9 Pin 4 (+15V) 0.20 - 0.90 N/A
Snubber IGBT Gate Drive IC U13 RC9 Pin 6 (GND) U13 Pin 5 0.20 - 0.90 N/A
Snubber IGBT Gate Drive IC U13 RC9 Pin 6 (GND) U13 Pin 7 0.20 - 0.90 N/A
D11 D11 Anode D11 Cathode 0.20 - 0.90 N/A
D20 D20 Anode D20 Cathode 0.20 - 0.90 N/A
Notes
Work like a Pro!Pros weld and cut
safely. Read the
safety rules at
the beginning
of this manual.
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PRE-POWER CHECKS
TM-2247 Page 40 XMT 350 Auto Line
7-19. Power Interconnect Board (PC2)
Ref. 907 161 / 210 452-D
Read and follow safety informationin Section 7-1before proceeding.
1 Power Interconnect Board PC2
2 Resistor R10
3 Resistor R11
4 Resistor R12
5 Resistor R14
6 AC1
7 AC2
8 AC3
9 Q1
10 Q2
11 Diode D112 Diode D2
13 Diode D3
14 Diode D4
15 Diode D8
16 Diode D9
17 Diode D10
18 Diode D11
19 Diode D12
20 Diode D13
21 Center Bus
22
BUS23 +BUS
Remove all plugs from PC2 before test-ing.
Visually inspect PC2 for damage.
Check all measurements for PC2.
If all measurements passed, continue to theend of the pre-power flowchart (see Section7-2).
If any measurements failed, replacePC2.
1
Test Equipment Needed:
8
5
20
19
2
4
3
6
7
22 21 23 10 18 17
15
16
9
11
12
13
14
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PRE-POWER CHECKS
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7-20. Power Interconnect Board (PC2) Test Point Values
Bleeder resistor measurements may require several minutes to complete.NOTE
Power Interconnect Board PC2 DVM Positive Lead DVM Negative Lead DVM Diode DVM Ohms
Pre-Charge Resistor R14 R14 Bottom R14 Top N/A 200
SCR Gate Resistor R10 R10 Left R10 Right N/A 10 - 16.5
SCR Gate Resistor R11 R11 Left R11 Right N/A 10 - 16.5
SCR Gate Resistor R12 R12 Left R12 Right N/A 10 - 16.5
Pre-Charge Diode D5 AC3 R14 Top 0.20 - 0.90 N/A
Pre-Charge Diode D6 AC2 R14 Top 0.20 - 0.90 N/A
Pre-Charge Diode D7 AC1 R14 Top 0.20 - 0.90 N/A
Boost Gate Protection Diode D12 D12 Anode D12 Cathode 0.20 - 0.90 N/A
Boost Gate Protection Diode D13 D13 Anode D13 Cathode 0.20 - 0.90 N/A
Inverter Gate MOSFET Q1 Q1-S (Source) Q1-D (Drain) 0.20 - 0.90 N/A
Inverter Gate MOSFET Q2 Q2-S (Source) Q2-D (Drain) 0.20 - 0.90 N/A
Inverter Gate Protection Diode D1 D1 Anode D1 Cathode 0.20 - 0.90 N/A
Inverter Gate Protection Diode D2 D2 Anode D2 Cathode 0.20 - 0.90 N/A
Inverter Gate Protection Diode D3 D3 Anode D3 Cathode 0.20 - 0.90 N/AInverter Gate Protection Diode D4 D4 Anode D4 Cathode 0.20 - 0.90 N/A
Snubber Gate Protection Diode D8 D8 Anode D8 Cathode 0.20 - 0.90 N/A
Snubber Gate Protection Diode D9 D9 Anode D9 Cathode 0.20 - 0.90 N/A
Snubber Gate Protection Diode D10 D10 Anode D10 Cathode 0.20 - 0.90 N/A
Snubber Gate Protection Diode D11 D11 Anode D11 Cathode 0.20 - 0.90 100k
Bleeder Resistor R8 Center Bus BUS N/A 28k - 32k
Bleeder Resistor R1 +BUS Center Bus N/A 28k - 32k
Notes
Over 80,000 trained
since 1930!400 Trade Square East, Troy, Ohio 45373
1-800-332-9448 www.welding.org
Start Your Professional
Welding Career Now!
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Always check unit before applying power (see Sections 7-1 thru 7-18).
TM-2247 Page 42 XMT 350 Auto Line
7-21. Troubleshooting Table
See Section 7-23for test points and values andSection 10for parts location.
Use MILLER Testing Booklet (Part No. 150 853)when servicing this unit.
Trouble Remedy
No weld output; unit completelyinoperative.
Follow Pre-Power Flowchart, and replace any failed components (see Section 7-2).
Place line disconnect switch in On position (see Section 3-2or 3-3).
Check and replace line fuse(s), if necessary, or reset circuit breaker (see Sections 3-2 and 3-3).
Check for proper input power connections and check condition of power cord(see Section 3-2or 3-3).
Check continuity of Power switch S1 and replace if necessary (see Section 7-8).
Check control transformer T2 for signs of winding failure. Check continuity across windings, andcheck for proper connections. Check secondary voltages. Replace T2 if necessary.
Check control/auxiliary power board PC1 and connections, and replace if necessary (see Pre-PowerChecks in Sections 7-13 thru 7-18, and also see Section 7-24).
Check power interconnect board PC2 and connections, and replace if necessary (see Pre-PowerChecks in Sections 7-13 thru 7-18, and also see Section 7-26).
Check front panel/display board PC3 and connections, and replace if necessary (see Section 7-28).
No weld output; meter display On. Follow Pre-Power Flowchart and replace any failed components (see Section 7-2).
Unit overheated and HELP 3 or HELP 5 screen is displayed. Allow unit to cool with fan On(see Section 7-22).
If a remote accessory is connected to remote 14 receptacle RC50:
Check accessory contact closure (continuity), and replace accessory if necessary.
Check accessory amperage control potentiometer resistance and connections,and replace accessory if necessary.
Check input and output voltages of hall device HD1 (see Section 7-23). Replace HD1 if necessary.
Check control/auxiliary power board PC1 and connections, and replace if necessary (see Pre-PowerChecks in Sections 7-13 thru 7-18, and also see Section 7-24).
Check front panel/display board PC3 and connections, and replace if necessary(see Section 7-28).
Low weld output with no control. Check input and output voltages of hall device HD1 (see Section 7-23). Replace HD1 if necessary.
Check control/auxiliary power board PC1 and connections, and replace if necessary (see Pre-PowerChecks in Sections 7-13 thru 7-18, and also see Section 7-24).
Check front panel/display board PC3 and connections, and replace if necessary (see Section 7-28).
Maximum weld output with no control. Check input and output voltages of hall device HD1 (see Section 7-23). Replace HD1 if necessary.
Check control/auxiliary power board PC1 and connections, and replace if necessary (see Pre-PowerChecks in Sections 7-13 thru 7-18, and also see Section 7-24).
Check front panel/display board PC3 and connections, and replace if necessary (see Section 7-28).
Limited output and low open circuitvoltage (OCV).
Check for proper input and output connections
If a remote accessory is connected to remote 14 receptacle RC50:
Check accessory contact closure (continuity), and replace accessory if necessary.
Check accessory amperage control potentiometer resistance and connections,and replace accessory if necessary.
Check input and output voltages of hall device HD1 (see Section 7-23). Replace HD1 if necessary.
Check control/auxiliary power board PC1 and connections, and replace if necessary (see Pre-PowerChecks in Sections 7-13 thru 7-18, and also see Section 7-24).
Check front panel/display board PC3 and connections, and replace if necessary (see Section 7-28).
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Always check unit before applying power (see Sections 7-1 thru 7-18).
TM-2247 Page 43XMT 350 Auto Line
Trouble Remedy
Erratic or improper weld output. Use proper size and type of weld cable (see Section 3-4).
Clean and tighten all weld connections.
Check for proper input and output connections.
Replace electrode.
If a remote accessory is connected to remote 14 receptacle RC50:
Check all remote accessory connections (proper pin/socket alignment).
Check accessory amperage control potentiometer resistance and connections,and replace if necessary.
Check input and output voltages of hall device HD1 (see Section 7-23). Replace HD1 if necessary.
Check control/auxiliary power board PC1 and connections, and replace if necessary (see Pre-PowerChecks in Sections 7-13 thru 7-18, and also see Section 7-24).
Check front panel/display board PC3 and connections, and replace if necessary (see Section 7-28).
No 24 volt ac output at Remote 14 re-ceptacle RC50.
Reset circuit breaker CB2 if necessary (see Section 3-7).
Check receptacle wiring and connections.
No 115 volt ac output at Remote 14receptacle RC1 or optional duplex re-ceptacle.
Reset circuit breaker CB1 if necessary (see Section 3-7).
Check receptacle wiring and connections.
Fan motor does not run after approxi-mately four minutes of operation atrated load.
Check and clear blocked fan blade
Check receptacle wiring and connections. Check thermistors RT-1 and RT-2 (see Section 7-23).
Fan motor FM1 starts and meters display HELP-2 when RT-1 or RT-2 is disconnected from PC1.When RT-1 or RT-2 is reconnected, the meter displays change but the fan continues to run (see Sec-tion 7-22).
Check fan motor FM (see Section 7-23)and replace fan motor if necessary.
Wandering arc; poor control of arc Use proper size tungsten.direction.
Use properly prepared tungsten.
Reduce gas flow rate.
Tungsten electrode oxidizing and not
Shield weld zone from drafts.rema n ng rg a er concuson oweld. Increase postflow time.
Check and tighten all gas fittings.
Water in torch. Refer to torch manual.
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Always check unit before applying power (see Sections 7-1thru 7-18).
TM-2247 Page 44 XMT 350 Auto Line
7-22. Voltmeter/Ammeter Diagnostics
All directions are in reference to the frontof the unit. All circuitry referred to is lo-cated inside the unit.
1 Help 1 Display
Indicates a malfunction in the primary powercircuit caused by an overcurrent condition inthe primary IGBT switching circuit. If this dis-play is shown, complete the Pre-Power Flow-chart in Section 7-2.
2 Help 2 Display
Indicates a malfunction in the thermal protec-tion circuit. The unit has detected a shorted oropen thermistor. If this display is shown, verifythermistors RT-1 and RT-2 are plugged intocircuit board PC1 and check thermistor input
values on circuit board PC3 (see Section7-28).
3 Help 3 Display
Indicates the left side of the unit has over-heated. The unit has shut down to allow thefan to cool it (see Section 2-3). Operation willcontinue when the unit has cooled.
4 Help 5 Display
Indicates the right side of the unit has over-heated. The unit has shut down to allow thefan to cool it (see Section 2-3). Operation willcontinue when the unit has cooled.
5 Help 6 Display
Indicates operation at maximum input current.
The unit has a maximum allowable input cur-rent limit. As the line voltage decreases, the
required input current increases. If the linevoltage is too low, the output power is limitedby the input current. When this limit isreached, the unit automatically reduces out-put power to continue operation. If this displayis shown, have a qualified electrician checkthe input voltage.
6 Help 8 Display
Indicates a malfunction in the secondary pow-er circuit of the unit. The unit has detected ahigh open circuit voltage condition. If this dis-play is shown, complete the Pre-Power Flow-chart in Section 7-2,Check for proper connec-tion of bypass capacitors C7 and C8 (see
Figure 9-2). Check operation of control relayCR1 (see Section 7-23).
1
AV
2
AV
HE.L P1
HE.L P2
3
AV
HE.L P3
4
AV
5
AV
HE.L P5
HE.L P6
6AV
HE.L P8
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Notes
Work like a Pro!Pros weld and cut
safely. Read the
safety rules at
the beginning
of this manual.
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Voltage Readings
a) Tolerance10% unless specified
b) Reference single arrow: reference tocircuit common (lead 42); double arrow:
reference to points indicatedc) Wiring Diagramsee Section 9
V1 665 volts ac RMS
V2, V3 17 volts ac RMS
V4 115 volts ac RMS
V5 24 volts ac RMS
V6, V7 470 volts dc
V8 115 volts ac when FM is running
V9 24 volts dc when Relay is energized;Relay energized in Stick mode withoutput current greater than 10 ampsand preset current less than 225 amps
V10 24 volts dc when gas is flowing; seeSection 3-8 for gas valve operation
V11 +15 volts dc
V12 15 volts dc
V13 1 volt dc per 100 amperes of weldoutput
V14 72 volts dc open circuit voltage
V15 160 volts ac RMS
7-23. Troubleshooting Circuit Diagram
Discharge input capacitors accordingto Section 7-3, and be sure voltage isnear zero before touching any parts.
No calibration available for voltmeter V or ammeter A.
Test Equipment Needed:
See Section 7-29 forRC50 information
See Section 7-28forPC3 information
V14
V5
V4 V3 V2 V1
Resistance Values
a) Tolerance 10% unless specified
b) Turn Off unit and disconnect input powerbefore checking resistance
R1 thru R6 Less than 1 ohm
R7 thru R9 190 210 ohms
HIGH VOLTAGE: Do not measure withoutproper instrumentation.
V1 thru V5 use only true RMS meter to obtaincorrect voltage reading.
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TM-2247 Page 47XMT 350 Auto Line
R5
R9,
211 328-D
R6
R3
See Section 7-24forPC1 information
V6
R1
V8
See Section7-26for
PC2 information
R2 R7 R8
R4
V7
V15
V9
V10
Approx. 35K ohms
at 70F (21
C)
V13
V12
V11
V14
{ Fan motor FM1 starts andmeters display HELP-2when RT-1 or RT-2 is discon-
nected from PC1. WhenRT-1 or RT-2 is reconnected,the meter displays change
but the fan continues to run(see Section 7-22).
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7-24. Control/Auxiliary Power Board PC1 Testing Information (Use with Section 7-25)
Ref. 217 184-B / 907 161
Warning this procedure re-quires the machine to be elec-trically live. Significant DCvoltage can remain on capaci-tors after unit is Off.
Be sure plugs are secure before ap-plying power. See Section 7-25 forspecific values during testing.
1 Inverter Control Board PC1
2 Receptacle RC1
3 Receptacle RC2
4 Receptacle RC3
5 Receptacle RC5
6 Receptacle RC6
7 Receptacle RC7
8 Receptacle RC8
9 Receptacle RC9
10 Receptacle RC10
11 Receptacle RC11
12 Receptacle RC12
Test Equipment Needed:
1
42
9 12
11
7
6
8
103
5
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TM-2247 Page 49XMT 350 Auto Line
7-25. Control/Auxiliary Power Board PC1 Test Point Values
a) Tolerance 10% unless specified
b) Reference to circuit common(lead 42) unless noted
PC1 Voltage Readings
Receptacle Pin Type Value
RC1 Do not measure high voltage present.
RC2 High voltage present. Voltages on this receptacle can exceed 900 volts DC from chassis(GND).
NOTE: All pins on this receptacle are referenced to the primary Bus
1 Input Primary (+) bus; regulated to 940 volts dc with respect to primary () bus.
2 Not used
3 Not used
4 Input Primary (+) rectifier; rectified primary line volts.
RC3 High voltage present. Voltages on this receptacle can exceed 900 volts DC from chassis (GND).
NOTE: All pins on this receptacle are referenced to the primary
Bus
1 Input Do not measure Boost inductor current feedback; 1 volt dc per 16 amps of boost inductor current
2 Output +15 volts dc; regulated with respect to primary () bus
3 Output 12 volts dc; regulated with respect to primary () bus
4 Output Do not measure Boost IGBT gate drive signal
5 Do not measure Boost IGBT gate drive signal return
6 Precom Circuit common referenced to primary () bus
7 Precom Circuit common referenced to primary () bus
8 Precom Circuit common referenced to primary () bus
9 Input Do not measure
HF transformer current sense CT;