Lincoln Electric S350 manual Figure B.4

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B-7

OPERATION

B-7

Most pulse welding programs are synergic. As the wire feed speed is adjusted, the Power Wave® S350 will automatically recalculate the waveform parame- ters to maintain similar arc properties.

The Power Wave® S350 utilizes “adaptive control” to compensate for changes in the electrical stick-out while welding. (Electrical stick-out is the distance from the contact tip to the work piece.) The Power Wave® S350 waveforms are optimized for a 0.75” stick-out. The adaptive behavior supports a range of stick-outs from 0.50 to 1.25”. At very low or high wire feed speeds, the adaptive range may be less due to reaching physical limitations of the welding process.

UltimArc™ Control adjusts the focus or shape of the arc. UltimArc™ Control is adjustable from -10.0 to +10.0 with a nominal setting of 0.0. Increasing the UltimArc™ Control increases the pulse frequency and background current while decreasing the peak cur- rent. This results in a tight, stiff arc used for high speed sheet metal welding. Decreasing the UltimArc™ Control decreases the pulse frequency and background current while increasing the peak cur- rent. This results in a soft arc good for out of position welding. (See Figure B.4)

FIGURE B.4

UltimArc™ Control -10.0	UltimArc™ Control OFF	UltimArc™ Control +10.0
Low Frequency, Wide	Medium Frequency and Width	High Frequency, Focused

POWER WAVE® S350

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Contents Power Wave S350 Safety Depends on YouSafety California Proposition 65 WarningsElectric Shock can kill Welding and Cutting Sparks can Cause fire or explosion IiiPrécautions DE Sûreté Sûreté Pour Soudage a LʼArcThank You Table of Contents Installation Technical Specifications Power Wave S350Storage Temperature Range Model Height Width Depth WeightOperating Temperature Range Process Output Range AmperesFalling Equipment can Cause injuryInput Connection Input Fuse and Supply Wire ConsiderationsPower Cord Replacement Input Voltage SelectionSmaw Stick Welding Connection DiagramsGtaw TIG Welding Gmaw MIG WeldingMIG Process Recommended Work Cable Sizes for ARC Welding Output Cable Guidelines Table A.1Table A.2 Remote Sense Lead SpecificationsCable Inductance and ITS Effects on Welding WaveElectrode Voltage Sensing Work Voltage SensingIf Sense Leads are Used Voltage Sensing Considerations for Multiple ARC SystemsIf Sense Leads are not Used Figure A.8 Control Cable Connections Product specific Installation InstructionsConnection Between Power Source and Ethernet Networks Electric Shock can Kill Safety PrecautionsOperation Equipment Limitations Product DescriptionRecommended Processes and Equipment Product SummaryPIN Connector Optional Design FeaturesLoaded with Standard Features Case Front Controls Case Back Controls See Figure B.2 for Code See Figure B.2a for CodeNON-SYNERGIC Welding Modes Common Welding ProceduresMaking a Weld Synergic Welding ModesNon Synergic CV Constant Voltage WeldingSynergic CV All CV ModesFigure B.4 General Options AccessoriesKITS, Options and Accessories Order K875 Accessory KIT 400 AMP Order K704 Remote Output ControlPeriodic Maintenance MaintenanceRoutine Maintenance Calibration SpecificationTroubleshooting HOW to USE Troubleshooting GuideUsing the Status LED to Troubleshoot System Problems Table E.1Error Code # Indication Main Control Board Status LightInput Control Board Basic Machine Problems Weld and Arc Quality Problems Troubleshooting Ethernet Diagrams NumberingcavityDimension Print 27.43 13.91 18.81 18.36Precaucion Warnung