Lincoln Electric IM649 manual STT Surface Tension Transfer

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B-4

STT WAVE SHAPING PRINCIPLES

Appendix B

B.3 STT (SURFACE TENSION TRANSFER)

The Invertec STT power source is a high-frequency, current-controlled machine that delivers power to the arc based on immediate arc requirements. The Invertec STT produces large electrode current changes within microseconds. It operates in the short-circuiting welding mode. The electrode current supplied by the power source is guided by the arc voltage state. An ordered sequence of events controls the current throughout the droplet transfer process. The electrode current and voltage waveforms for a typical welding cycle are shown in Figure B-3. Following Figure B-3 are detailed descriptions of the STT welding cycle events.

FIGURE B-3. ELECTRODE CURRENT AND VOLTAGE WAVEFORMS

FOR A TYPICAL STT WELDING CYCLE.

Surface Tension Transfer™

Electrode

Electrode to work volts Electrode Amperes

	T0	T1 T2 T3 T4 T5 T6 T7	Time
			27850063
T0 – T1	A background current between 50 and 100 Amps is delivered to the arc prior
	to shorting of the electrode to the weld puddle. Background current is a steady-
	state current level that serves two purposes. First, the background current
	supplies power to the arc to maintain the fluidity of the molten drop at the end of
	the electrode. (Failure to supply the minimum required current causes the upper
	portion of the molten ball to freeze. As more of the ball solidifies, arc instability
	and finally stubbing occurs.) Secondly, the background current level greatly
	effects plate heating.
T1 – T2	Ball time occurs when the electrode initially shorts at the background current
	level. When the Invertec’s arc voltage detector circuit signals that the “arc” is

shorting out, the background current is immediately reduced for approximately

0.75milliseconds. The rapid current drop promotes good electrical contact and “wetting” of the ball to the weld puddle. Wetting prevents an “incipient short”, wherein the ball is violently repelled from the weld puddle, breaking apart and causing spatter.

WAVE DESIGNER

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Contents Wave Designer TM Page Table of Contents License Information Wave Designer Software License AgreementIii License Information Product Overview IntroductionKEY Topics User ResponsibilitySoftware Release Data Welding Equipment RequirementsSoftware Installation Procedure Software InstallationFile Storage Locations Equipment Interface Connections Welcome to Wave DesignerControl Board DIP Switch Setting Upgrade Firmware EQUIPMENT/SOFTWARE StartupSoftware Operation Synergic Welding and WorkpointsWorking in Wave Designer Waveform Editor WindowAbout the Procedure Waveform Editor Tool BAR File MenuTools Menu ToolsPrint Menu Wave Designer Pro Waveform EditorEditing and Selecting Workpoints MenuEditing Workpoints WorkPoint EditorSelecting Workpoints EffortsEditing Variable Parameters Expand GraphicWave Design Process Reference Paragraph see Appendix aFlashing PowerWave Custom Weld Files Downloading Wave ShapesAutosave Software Operation Arcscope Using the ARC Scope WindowIntroduction Other ARC Scope Options GSFFile Arcscope Troubleshooting Overview Wave Designer Troubleshooting ProcedureTroubleshooting Appendix Overview Pulse Wave Shaping PrinciplesAppendix a Gmaw Pulse Overview Figure A-1. Pulse Waveform ParametersFigure A-2. Weld Droplet Transfer Adaptive Mode Adaptive and NON-ADAPTIVE ModeNON-ADAPTIVE Mode Figure A-4. Process Flowchart Pulse Wave Design ProcessSelecting a Starting Wave Shape Customizing the Wave Shape Select a WorkpointAdapting Stickout Close the Adaptive Loop / Adjust the Peak Voltage Select an Adaptive Type OptionalAdjust the Start Control Parameters Optional Start ControlAdjust the Shorting Control Parameters Optional Shorting ControlAdjust the End Condition Parameters Optional End ConditioningGo Figure / Make the Waveform Synergic Developing the 2nd WorkpointPrimary Pulse Waveform Components Peak Current and Peak TimeFrequency Background CurrentSecondary Waveform Parameters Application Exercise Fresa Start Control Pulse Waveform Editor 28750046 Pulse Wave Shaping Principles STT Wave Shaping Principles Appendix BSTT Overview Peak Time Peak Amps Tailout SpeedFigure B-2. Weld Droplet Transfer Surface Tension Transfer STT Surface Tension TransferSTT Wave Shaping Principles STT Wave Design Process Reference Paragraph see Appendix BSelecting a Starting Wave Shape Inch / min meter / min Go Figure Find the Optimal Arc Characteristics STT Start Control WorkPoint Editor Primary STT Waveform Components Peak CurrentTailout PINCH/PEAK Secondary STT Waveform ComponentsPinch Start Peak TimeSTT Waveform Editor STT Waveform Editor Index Index-1Index-2 Index-3 VoltageIndex-4